Page 1

Table of Contents

TABLE OF CONTENTS

BGA Thermal Solutions Matrix . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .2 Thermal Interface Material Part Number Guide . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .3 Integrated Circuit Cooling Heat Sinks and Fan Heat Sinks . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 4 – 21 Board Level Power Semiconductor Heat Sinks . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 22 – 44 Heat sinks for microprocessors, ASICs, SRAM, BGAs, multichip modules, and other integrated circuits.

A wide variety of heat dissipators with various attachment mechanisms for surface mount and thru-hole power semiconductors packaged in industry standard plastic, ceramic, and metal cases such as D2Pak, TO-220, TO-3 to TO-247, DO-4 to DO-11, multiwatt, hex-type, and stud mount devices.

Extruded Heat Sinks . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 45 – 52 For cooling single and multiple high power devices packaged in industry standard semiconductor case styles: TO-3 to TO-247, DO-4 to DO-30, hex-type, and stud mount; press pack devices; power modules; SCRs, IGBTs; I/0 devices; and other isolated flat base devices in both natural and forced convection.

Bonded Fin Heat Sinks . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 53 – 56

Precision Compression Clamp Systems . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 57 – 61 A variety of Natural Convection, Forced Convection, and Custom Bonded Fin Assemblies.

Mounting clamps for compression-type devices to 5,250 in. (133.4 mm) diameter and clamp force requirements ranging from 800 lbs. (262.9 kg) to 16,000 lbs. (7257.5 kg). A wide variety of Press Pack Heat Sinks are offered that are compatible with these mounting clamp series.

Cold Plates, Enclosures, Heat Exchangers and Formed Fin Assemblies . . . . . . . . . . . . . . . . . . . . . . . . . . . 62 – 63

Accessory Products . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 64 – 68 For higher power applications where conventional cooling is no longer acceptable.

Cost-effective accessory products that facilitate installation and improve the thermal performance of both standard and custom heat dissipation components. Included are thermal joint compounds; filled epoxy systems; adhesives; thermally conductive insulating wafers, washers, pads and mounting hardware.

Aluminum Extrusion Profiles . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 69 – 155

Flatback Extrusions . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 69 – 123

L-style Extrusions . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 124 – 127 Center Channel Extrusions . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 127 – 133 Multi Channel Extrusions . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 133 – 135 Flatback with Integral Mounting Feet . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .136 –139 T-style Extrusions . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 139 – 142 H-style Extrusions . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 142 – 148 Double-Sided Extrusions . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 148 Mounting Shelf Extrusions . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 148 – 149 Press Pack Extrusions . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .150 – 151 Power Module Extrusions . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 152 Forced Convection Extrusions . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 152 – 153 Modular Extrusions/Enclosures . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 153 – 154 Hollow Extrusions . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 154 – 155

Part Number Reference Guide & Profile Number Reference Guide . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 156 – 159 Glossary of Terms . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 160 Miscellaneous Extrusions . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 155

Wakefield Engineering believes that information provided in this product catalog is accurate as of publication date. Product testing for proper performance in customer applications is recommended for all component designs and adhesives. Obtain mechanical samples of all assembly components and test to determine suitability. The physical properties reported herein are representative of performance values obtained by standard predictive and testing methods and exclude the interface resistance of any adhesive or other interface material in heat sink data. Wakefield Engineering is a manufacturer of heat dissipation products and reserves the right to make changes to its products without notice to improve the design or performance characteristics. All trademarks and tradenames used in this publication are for identification purposes only and may be trademarks of their respective companies. All specifications subject to change without notice. © 2007

1


Thermal Management Solutions for BGAs

BGA THERMAL SOLUTIONS MATRIX The following table represents Wakefield’s recommendations for a variety of standard BGA sizes. However, this is by no means a complete list of components that can be used with these heat sinks. To determine suitability for your particular component, request a BGA heat sink evaluation kit.

BGA Sizes (mm)

Heat Sink Footprint (mm)

Heat Sink Height (inches)

Recommended Series #

Attachment Method

17 19 21 21 23 23 25 27 29 31 31 33 35 35 35 37.5 37.5 45.7 x 35.5 40 37.5 40 40 42.5 45 45 47.5 50 50 50 50 50 up to 45 up to 45

17 x 17 19 x 19 21 x 21 21 x 21 22 x 22 22 x 22 25 x 25 28 x 28 30 x 30 31 x 28 31 x 31 32 x 32 35 x 35 35 x 35 35 x 35 37 x 37 37 x 37 37 x 47 38 x 38 38 x 38 40 x 28 40 x 40 41 x 41 43 x 43 43 x 43 47 x 47 50 x 50 51 x 51 52 x 51 53 x 47 64 x 51 73 x 50 73 x 50

.40 1.00 .40 .25 .35 .45 .60 .40 .60 .75 .25 .35 .45 .60 .25 .35 .45 .60 .77 .65 .80 .35 .40 .65 .25 .35 .45 .60 .25 .35 .45 .60 .50 .65 .80 .30 .50 1.00 .29 .35 .26 .53 .41 .20 .25 .35 .45 .60 .15 .80 .40 .65 .80 1.00 .20 1.00 .80 .40 .65 .80 1.00 .24 .50 1.00 .95

D10650 602 D10850 624 604 605 625 658 606 607 611 610 612 642 630 613 659 617 614 660 643 655 615 628 662 616 698 618 622 798 620 609 619

Adhesive Adhesive Adhesive Adhesive Adhesive Adhesive Adhesive Adhesive Adhesive Adhesive Adhesive Adhesive Adhesive Adhesive Adhesive Adhesive Adhesive Adhesive Adhesive Adhesive Clip Adhesive Adhesive Adhesive Adhesive Adhesive Adhesive Adhesive Adhesive Adhesive Adhesive Clip Clip

RoHS COMPLIANCE Please note that Wakefield part numbers designated with an “E” in this catalog denote new parts in compliance with the RoHS initiative, with the exception of our Precision Clamps. Wakefield will still continue to offer non-RoHS compliant versions of these parts. Please be aware that many Wakefield Standard parts have always been compliant since their design inception and therefore will not carry the “E” designation. Wakefield requests that you refer to the RoHS compliance tool on our website at www.wakefield.com to verify RoHS compliance. If you require further clarification or information regarding RoHS, please contact the factory.

2


Thermal Interface

THERMAL INTERFACE MATERIAL PART NUMBER GUIDE All of the heat sinks shown in this catalog are available with any of the following thermal tape and interface materials, pre-applied at the factory. Use the “T” series, thermally enhanced, pressure sensitive adhesives to attach the heat sink to the electronic package and provide a good thermal link to the heat sink. The “S” series interface materials have adhesives on only one side, for pre-attachment to the heat sink, and provide superior thermal performance. Specify these materials in applications where the heat sink will be fixed to the electronic package by some mechanical means other than a tape. Please note that none of these materials are for use in applications requiring electrical isolation from the electronic device. All options other than -T1 and -T4 are RoHS compliant. Note: To obtain the estimated thermal resistance of the interface material in your application, divide the thermal impedance value by the area of the pad in square inches. For example, a 2” x 2” piece of T4 has a resistance of 1.10 C-in^2/W  4 in^2=0.275 C/W

“T” SERIES THERMALLY ENHANCED PRESSURE SENSITIVE ADHESIVES Suffix

Manufacturer Product

Thermal Impedance C-in^2/W

Thickness, Inches

Package Surface, Comments

-T1

Chomerics, T405

0.47

0.006

Metal/ceramic; aluminum carrier

-T1E

Chomerics, T405R

0.47

0.006

RoHS-compliant version of -T1

-T3

Chomerics, T412

0.25

0.009

Metal/ceramic; very good performance and conformity

-T4

Chomerics, T410

1.10

0.007

Plastic

-T4E

Chomerics, T410R

1.10

0.007

RoHS-compliant version of -T4

-T5

Chomerics, T411

1.00

0.011

Plastic; conforms to out-of-flat packages

-T6

3M, 8810

0.88

0.010

Metal/ceramic; very good adhesion and conformity

-T7

Bergquist, BP 108

1.28

0.008

Metal/ceramic; electrically insulating

Package Surface, Comments

“S” SERIES THERMAL INTERFACE PADS Suffix

Manufacturer Product

Thermal Impedance C-in^2/W

Thickness, Inches

-S4

Berquist Softface

0.06

0.005

All surfaces; requires mechanical fasteners

ORDERING INFORMATION Once you have chosen heat sink and thermal interface material that meets your thermal & mechanical requirements it is easy to designate the part number. Simply add the interface material suffix referenced on the chart above to the base part number for the heat sink. The base part number already includes information regarding its size and finish. Example: To order the 658 Series heat sink at .350” tall with the T5 thermal interface material, specify part number: 658-35AB - T5

From Catalog Page ??

From Table on Page ?? 3


Integrated Circuit Heat Sinks

HEAT SINKS FOR BGAs, SUPER BGAs, PBGAs, and FPBGAs 624 SERIES

Omnidirectional Pin Fin Heat Sink for BGAs

Standard P/N

Base Dimensions in. Sq.

Fin Height “A” in. (mm)

Typical Applications

Weight lbs. (grams)

624-25AB 624-35AB 624-45AB 624-60AB

.827 (21) .827 (21) .827 (21) .827 (21)

.250 (6.4) .350 (8.9) .450 (11.4) .600 (15.2)

21mm BGA 21mm BGA 21mm BGA 21mm BGA

.009 (4.09) .011 (4.99) .015 (6.81) .026 (11.80)

Material: Aluminum, Black Anodized The 624 Series is an omnidirectional pin fin heat sink for both natural and forced-convection applications.

PRODUCT FEATURES • Available in four standard heights, .25 inch, .35 inch, .45 inch, and .60 inch. • Available with pressure sensitive adhesives for quick and easy mounting. See Page 3

Applications include network routers and switches, high-resolution printers, digital cameras, consumer video games, digital video disks (DVD) and global positioning systems (GPS).

624 SERIES

MECHANICAL DIMENSIONS

Case-to-Ambient Thermal Resistance, C/W

624 THERMAL PERFORMANCE 30

624-25-T4 624-35-T4

25

624-45-T4 624-60-T4

20 15 10 5 0

200

300

400

500

600

Approach Velocity, LFM

Dimensions: in.

625 SERIES Standard P/N

Omnidirectional Pin Fin Heat Sink for BGAs Base Dimensions in. Sq.

625-25AB .984 (25) 625-35AB .984 (25) 625-45AB .984 (25) 625-60AB .984 (25) Material: Aluminum, Black Anodized

Fin Height “A” in. (mm)

Typical Applications

Weight lbs. (grams)

0.250 (6.4) 0.350 (8.9) 0.450 (11.4) 0.600 (15.2)

25 mm BGA 25 mm BGA 25 mm BGA 25 mm BGA

.012 (5.45) .014 (6.36) .018 (8.17) .030 (13.62)

The 625 Series is an omnidirectional pin fin heat sink for both natural and forced-convection applications.

PRODUCT FEATURES • Available in four standard heights, .25 inch, .35 inch, .45 inch, and .60 inch. • Available with pressure sensitive adhesives for quick and easy mounting. See Page 3

Applications include network routers and switches, high-resolution printers, digital cameras, consumer video games, digital video disks (DVD) and global positioning systems (GPS).

MECHANICAL DIMENSIONS

625 SERIES

Case-to-Ambient Thermal Resistance, C/W

625 THERMAL PERFORMANCE

4

20 18

625-25-T4 625-25-T4

16

625-45-T4 625-60-T4

14 12 10

8 6

4

2 0

200

300

400

Approach Velocity, LFM

500

600

Dimensions: in.


Integrated Circuit Heat Sinks

HEAT SINKS FOR BGAs, SUPER BGAs, PBGAs, and FPBGAs 659 SERIES

Unidirectional Fin Heat Sink for BGAs

Standard P/N

Base Dimensions in. (mm)

Height in. (mm)

Typical Application

Heat Sink Finish

Weight lbs. (grams)

659-65AB

1.45 (36.8) sq

0.650 (16.5)

37mm BGA

Black Anodized

0.050 (22.68)

Notes: 1. Optional factory preapplied pressure-sensitive adhesive. See Page 3

NATURAL AND FORCED CONVECTION CHARACTERISTICS

MECHANICAL DIMENSIONS

Dimensions: in. (mm)

655 SERIES

Omnidirectional Pin Fin Heat Sink for BGAs and PowerPC™

Standard P/N

Base Dimensions in. (mm)

Dimension “A” in. (mm)

Dimension “B” in. (mm)

Typical Applications

Heat Sink Finish

655-26AB 655-53AB

1.600 (40.6) sq 1.600 (40.6) sq

0.260 (6.6) 0.525 (13.3)

0.125 (3.2) 0.145 (3.7)

40mm BGA 40mm BGA

Black Anodized Black Anodized

Weight lbs. (grams) 0.038 (17.01) 0.050 (22.68)

Notes: 1. Optional factory preapplied pressure-sensitive adhesive. See Page 3

NATURAL AND FORCED CONVECTION CHARACTERISTICS

MECHANICAL DIMENSIONS

Dimensions: in. (mm)

658 SERIES

Omnidirectional Pin Fin Heat Sink for BGAs and PowerPC™

Standard P/N

Base Dimensions in. (mm)

Dimension “A” in. (mm)

Typical Applications

Heat Sink Finish

658-25AB 658-35AB 658-45AB 658-60AB

1.100 (27.9) sq 1.100 (27.9) sq 1.100 (27.9) sq 1.100 (27.9) sq

0.250 (6.4) 0.350 (8.9) 0.450 (11.4) 0.600 (15.2)

27mm BGA 27mm BGA 27mm BGA 27mm BGA

Black Anodized Black Anodized Black Anodized Black Anodized

Weight lbs. (grams) 0.013 (5.67) 0.015 (6.70) 0.019 (8.50) 0.031 (14.17)

Notes: 1. Optional factory preapplied pressure-sensitive adhesive. See Page 3 NATURAL AND FORCED CONVECTION CHARACTERISTICS

MECHANICAL DIMENSIONS

Dimensions: in. (mm) KEY:

 658-25AB

+658-35AB

 658-45AB

658-60AB

5


Integrated Circuit Heat Sinks

HEAT SINKS FOR BGAs, SUPER BGAs, PBGAs, and FPBGAs 660 SERIES

Unidirectional Fin Heat Sink for BGAs

Standard P/N

Base Dimensions in. (mm)

Height in. (mm)

Typical Application

Heat Sink Finish

Weight lbs. (grams)

660-29AB

1.530SQ. (38.9)SQ.

0.285 (7.2)

37mm BGA

Black Anodized

0.031 (14.17)

Notes: 1. Optional factory preapplied pressure-sensitive adhesive. See Page 3

MECHANICAL DIMENSIONS

NATURAL AND FORCED CONVECTION CHARACTERISTICS

Dimensions: in. (mm)

642 SERIES Standard P/N

Unidirectional Fin Heat Sink for BGAs Base Dimensions in. Sq.

Fin Height "A" in. (mm)

Typical Applications

Weight lbs. (grams)

.250 (6.4) .350 (8.9) .450 (11.4) .600 (15.2)

35 mm BGA 35 mm BGA 35 mm BGA 35 mm BGA

.022 (9.99) .027 (12.26) .031 (14.07) .039 (17.71)

642-25AB 1.378 (35) 642-35AB 1.378 (35) 642-45AB 1.378 (35) 642-60AB 1.378 (35) Material: Aluminum, Black Anodized The 642 Series is an unidirectional pin fin heat sink for both natural and forced-convection applications.

Applications include network routers and switches, high-resolution printers, digital cameras, consumer video games, digital video disks (DVD) and global positioning systems (GPS).

• Available in four standard heights, .25 inch, .35 inch, .45 inch, and .60 inch. • Available with pressure sensitive adhesives for quick and easy mounting. See Page 3

642 SERIES

Case-to-Ambient Thermal Resistance, C/W

MECHANICAL DIMENSIONS

PRODUCT FEATURES

642 THERMAL PERFORMANCE

14

642-25-T4 642-35-T4

12

642-45-T4 642-60-T4

10 8 6 4 2 0

200

300

400

Performance shown is with T4 thermal adhesive applied.

Dimensions: in. (mm)

6

500

Approach Velocity, LFM

600


Integrated Circuit Heat Sinks

HEAT SINKS FOR BGAs, SUPER BGAs, PBGAs, and FPBGAs 662 SERIES

Omnidirectional Pin Fin Heat Sink for Limited Height BGAs

Standard P/N

Base Dimensions in. (mm)

Height in. (mm)

Typical Applications

Heat Sink Finish

Weight lbs. (grams)

662-15AG 662-15AB

1.713 (43.5) sq 1.713 (43.5) sq

0.150 (3.8) 0.150 (3.8)

45mm BGA 45mm BGA

Gold Iridite Black Anodized

0.019 (8.50) 0.019 (8.50)

Notes: 1. Optional factory preapplied pressure-sensitive adhesive. See Page 3

MECHANICAL DIMENSIONS

NATURAL AND FORCED CONVECTION CHARACTERISTICS

Dimensions: in. (mm)

628 SERIES

Omnidirectional Pin Fin Heat Sink for BGAs

Standard P/N

Base Dimensions in. (mm)

Dimensions “A” in. (mm)

Typical Applications

Heat Sink Finish

Weight lbs. (grams)

628-20AB 628-25AB 628-35AB 628-40AB 628-65AB

1.750 (44.5) x 1.700 (43.2) 1.750 (44.5) x 1.700 (43.2) 1.750 (44.5) x 1.700 (43.2) 1.750 (44.5) x 1.700 (43.2) 1.750 (44.5) x 1.700 (43.2)

0.200 (5.1) 0.250 (6.4) 0.350 (8.9) 0.400 (10.2) 0.650 (16.5)

45mm BGA 45mm BGA 45mm BGA 45mm BGA 45mm BGA

Black Anodized Black Anodized Black Anodized Black Anodized Black Anodized

0.031 (14.17) 0.038 (17.01) 0.044 (19.84) 0.050 (22.68) 0.056 (25.51)

Notes: 1. Optional factory preapplied pressure-sensitive adhesive. See Page 3 NATURAL CONVECTION CHARACTERISTICS

MECHANICAL DIMENSIONS

FORCED CONVECTION CHARACTERISTICS

Dimensions: in. (mm)

KEY:

 628-20AB

 628-25AB

 628-35AB

 628-40AB

 628-65AB

7


Integrated Circuit Heat Sinks

HEAT SINKS FOR BGAs, SUPER BGAs, PBGAs, and FPBGAs 630 SERIES

Omnidirectional Pin Fin Heat Sink for BGAs

Standard P/N

Base Dimensions in. Sq.

Fin Height “A” in. (mm)

Typical Applications

Weight lbs. (grams)

630-25AB 630-35AB 630-45AB 630-60AB

1.378 (35) 1.378 (35) 1.378 (35) 1.378 (35)

.250 (6.4) .350 (8.9) .450 (11.4) .600 (15.2)

35mm BGA 35mm BGA 35mm BGA 35mm BGA

.009 (4.09) .011 (4.99) .015 (6.81) .026 (11.80)

Material: Aluminum, Black Anodized The 630 Series is an omnidirectional pin fin heat sink for both natural and forced-convection applications. Applications include network routers and switches, high-resolution printers, digital cameras, consumer video games, digital video disks (DVD) and global positioning systems (GPS).

MECHANICAL DIMENSIONS

PRODUCT FEATURES • Available in four standard heights, .25 inch, .35 inch, .45 inch, and .60 inch. • Available with pressure sensitive adhesives for quick and easy mounting. See Page 3

630 SERIES 630 THERMAL PERFORMANCE

Dimensions: in.

HEAT SINKS FOR BGAs, SUPER BGAs, PBGAs, and FPBGAs 698 SERIES Standard P/N 698-40AB 698-65AB 698-80AB 698-100AB

Omnidirectional Pin Fin Heat Sink For BGAs Base Dimensions in. (mm)

Dimensions “A” in. (mm)

Typical Applications

Heat Sink Finish

Weight lbs. (grams)

2.100 (53.3) sq. 2.100 (53.3) sq. 2.100 (53.3) sq. 2.100 (53.3) sq.

0.400 (10.2) sq. 0.650 (16.5) sq. 0.800 (20.3) sq. 1.000 (25.4) sq.

45mm BGA 45mm BGA 45mm BGA 45mm BGA

Black Anodized Black Anodized Black Anodized Black Anodized

0.075 (34.02) 0.119 (53.86) 0.125 (56.70) 0.144 (65.20)

Notes: 1. Optional factory preapplied pressure-sensitive adhesive. See Page 3

MECHANICAL DIMENSIONS

Dimensions: in. (mm)

8

FORCED CONVECTION THERMAL PERFORMANCE DATA (FLOW PARALLEL TO EXTRUSION DIRECTION)

KEY:

 698-40AB

 698-65AB

 698-80AB

 698-100AB


Integrated Circuit Heat Sinks

HEAT SINKS FOR BGAs, SUPER BGAs, PBGAs, and FPBGAs 798 SERIES Standard P/N 798-40AB 798-65AB 798-80AB 798-100AB

Pin Fin Heat Sink for BGAs Base Dimensions in. (mm)

Dimensions “A” in. (mm)

Typical Applications

Heat Sink Finish

Weight lbs. (grams)

2.100 (53.3) x 1.860 (47.2) 2.100 (53.3) x 1.860 (47.2) 2.100 (53.3) x 1.860 (47.2) 2.100 (53.3) x 1.860 (47.2)

0.400 (10.2) 0.650 (16.5) 0.800 (20.3) 1.000 (25.4)

45mm BGA 45mm BGA 45mm BGA 45mm BGA

Black Anodized Black Anodized Black Anodized Black Anodized

0.063 (28.35) 0.106 (48.19) 0.113 (51.03) 0.131 (59.53)

MECHANICAL DIMENSIONS

FORCED CONVECTION THERMAL PERFORMANCE DATA (FLOW PARALLEL TO EXTRUSION DIRECTION)

 798-40AB

KEY:

 798-65AB

798-80AB

 798-100AB

Notes: 1 . Heat sink mounting surface flatness: 0.004" TIR 2. Optional factory preapplied pressure-sensitive adhesive. See Page 3

Dimensions: in. (mm)

643 SERIES Standard P/N

Omnidirectional Pin Fin Heat Sink for BGAs Base Dimensions in. (mm)

643-35AP 1.60 (40.64) x 1.10 (27.94) Material: Aluminum, Plain Finish

Fin Height in. (mm)

Typical Applications

Weight lbs. (grams)

0.350 (8.89)

40 mm BGA

.070 (31.78)

The Series 643-35AP is an omnidirectional pin fin heat sink for both natural and forced-convection applications designed to fit a 40 mm BGA. Applications include network routers and switches, high-resolution printers, digital cameras, consumer video games, digital video disks (DVD) and global positioning systems (GPS).

PRODUCT FEATURES • Available with pressure sensitive adhesives to ensure good thermal performance. See page 3 • Can be ordered with the 829SC clip. Order clip separately. (Clip cannot be purchased without heat sink)

MECHANICAL DIMENSIONS 643Series THERMAL PERFORMANCE 919541 Heat Sink Thermal Performance

10

Case-to-Ambient Thermal Resistance, C/W

643-35AP SERIES

9 8 7 6 5 4 3 2 1 0

0

100

200

300

400

500

Approach Air Velocity, LFM

600

700

Performance shown is with S5 interface material applied.

Dimensions: in.

9


Integrated Circuit Heat Sinks

DELTEM™ COMPOSITE HEAT SINKS FOR BGAs Deltem™ D10650-40

Pin Fin Heat Sink

Standard P/N

Base Dimensions in. (mm)

Height in. (mm)

Weight lbs. (grams)

0.650 (16.5) sq

0.400 (10.2)

0.004 (1.91)

D10650-40

Notes: Available with pressure sensitive adhesives for quick and easy mounting. See Page 3

Deltem™ D10850-40 Standard P/N D10850-40

Pin Fin Heat Sink

Base Dimensions in. (mm)

Height in. (mm)

Typical Applications

Weight lbs. (grams)

0.850 (21.6) sq

0.400 (10.2)

21mm BGA

0.006 (3.9)

Notes: Available with pressure sensitive adhesives for quick and easy mounting. See Page 3

MECHANICAL DIMENSIONS

DELTEM™ D10650-40 PIN FIN HEAT SINK

DELTEM™ D10850-40 PIN FIN HEAT SINK

NATURAL AND FORCED CONVECTION CHARACTERISTICS

NATURAL AND FORCED CONVECTION CHARACTERISTICS

AIR VELOCITY (LFM) 600

1000

0

100

30

80

25 20

60

15 40

10

20

5

0

0 0

0.25

0.50

0.75

HEAT DISSIPATED (WATTS)

Dimensions: in. (mm)

10

AIR VELOCITY (LFM) 800

1.00

1.25

200

400

600

800

1000

16

100

14

80

12 10

60

8 40

6 4

20

2 0

0 0

0.25

0.50

0.75

HEAT DISSIPATED (WATTS)

1.00

1.25

THERMAL RESISTANCE SINK TO AMBIENT (C)

400

HEAT SINK TEMPERATURE RISE ABOVE AMBIENT AIR (C)

200

THERMAL RESISTANCE SINK TO AMBIENT (C)

HEAT SINK TEMPERATURE RISE ABOVE AMBIENT AIR (C)

0


Integrated Circuit Heat Sinks

HEAT SINKS FOR BGAs, SUPER BGAs, PBGAs, and FPBGAs 609 SERIES Standard P/N 609-50AB 609-100AB

Pin Fin Heat Sink/Clip Assembly for BGAs and PowerPC™ Packages Base Dimensions in. (mm)

Dimensions “A” in. (mm)

Typical Applications

Heat Sink Finish

2.895 (73.5) x 2.000 (50.8) 2.808 (71.32) x 1.700 (43.2)

0.500 (12.7) 1.00 (25.4)

40&45mm BGA 40&45mm BGA

Black Anodized Black Anodized

Weight lbs. (grams) 0.094 (42.5) 0.130 (59.0)

Note: Optional factory preapplied thermal interface material.

S3 (Bergquist Q-Pad 3, 0.14 °C in2/w) S4 (Bergquist Softface, 0.07 °C in2/w)

THERMAL RESISTANCE SINK TO AMBIENT (°C/WATT)

MECHANICAL DIMENSIONS

2.808

FORCED CONVECTION THERMAL PERFORMANCE DATA (FLOW PARALLEL TO EXTRUSION DIRECTION) 5

609-50AB

3 2 1 0

100

200 300 AIR VELOCITY (LFM)

400

500

*Performance is for shrouded conditions. 609-100 will perform better than 609-50 in cases with bypass.

“A” DIM.

(609-50AB)

* 609-100AB

4

(609-100AB)

Dimensions: in. (mm)

609-50AB HEAT SINK AND CLIP ASSEMBLY

Designed to fit a .063” thick PCB electronic package thickness of .110”

619 SERIES Standard P/N 61995AB124D1 61995AB054D1

Fan Heat Sink for BGA and PowerPC™ Packages Base Dimensions in. (mm)

Height in. (mm)

Typical Applications

Heat Sink Finish

2.871 (72.92) x 1.98 (50.29) 2.871 (72.92) x 1.98 (50.29)

0.953 (24.21) 0.953 (24.21)

40&45mm BGA 40&45mm BGA

Black Anodized Black Anodized

Thermal Performance

Weight lbs. (grams)

1.2° C/W .150 (68.10) 1.2° C/W .150 (68.10)

Note: Optional factory preapplied thermal interface material. See 609 series.

FEATURES AND BENEFITS: • Captivated clips for ease of assembly • Low acoustic noise

• Impingement air flow • Accommodates BGA packages up to 45 mm in size

MECHANICAL DIMENSIONS

Dimensions: in.

See 609 Series for PCB hole layout for clip attachment

619 95 AB 124 D1 S3

Thermal Interface Material Option Blank None S3 Bergquist Qpad 3 S4 Bergquist Softface S5 Chomerics T710 S6 Chomerics T443

11


Integrated Circuit Heat Sinks

HEAT SINKS FOR BGAs, SUPER BGAs, PBGAs, and FPBGAs 602 SERIES

Standard P/N 602-100AP

Unidirectional Fin Heat Sink for BGAs

Base Dimensions in. (mm) .750 (19.1) sq

Height in. (mm) 1.000 (25.4)

Heat Sink Finish Plain

Weight lbs. (grams) .021 (9.59)

Material: Aluminum, Plain Finish MECHANICAL DIMENSIONS

12

STANCE SINK TO NT (C)

THERMAL RESISTANCE SINK TO AMBIENT (C)

MECHANICAL DIMENSIONS

14

7

12

6

10

5 4

8

6 5

0 100

200

300

200

300

400

500

AIR VELOCITY (LFM)

600

700

400

500

AIR VELOCITY (LFM)

600

700

THERMAL RESISTANCE SINK TO AMBIENT (C)

1

10 8 6 4 2

0 100

8 7 6 5 4 3 2 1

0 100

200 Sink 300 400 500 Heat Finish AIR VELOCITY (LFM) Black Anodized Black Anodized

600

700 Weight

lbs. (grams) .012 (5.60) .016 (7.47)

200

7 6 5 4 3 2 1

0 100

7 6 5 4 3

604 THERMAL PERFORMANCE

2 1

0 100

200

604-40AB

300

0 100

7 6 5

400

500

AIR VELOCITY (LFM)

600

700

604-60AB

2

1

7

2

4

2

8

3

6

3

0 100

4

12

7 6 5 4 3 2 1 0

200

300

400

500

AIR VELOCITY (LFM)

600

10 9 8 7 6 5 4 3 2 1 0 100

700 THERMAL RESISTANCE SINK TO AMBIENT (C)

Material: Aluminum, Black Anodized

5

14

THERMAL RESISTANCE SINK TO AMBIENT (C)

Height in. (mm) .400 (10.2) .600 (15.2)

6

THERMAL RESISTANCE SINK TO AMBIENT (C)

Base Dimensions in. (mm) .850 (21.6) sq .850 (21.6) sq

7

NCE SINK TO (C) THERMAL RESISTANCE SINK TO AMBIENT (C)

Standard P/N 604-40AB 604-60AB

Omnidirectional Pin Fin Heat Sink for BGAs

THERMAL RESISTANCE SINK TO AMBIENT (C) THERMAL RESISTANCE SINK TO AMBIENT (C)

604 SERIES

THERMAL RESISTANCE SINK TO AMBIENT (C)

THERMAL RESISTANCE SINK TO AMBIENT (C)

602 THERMAL PERFORMANCE

8 7 6 5 4 3 2


Integrated Circuit Heat Sinks

HEAT SINKS FOR BGAs, SUPER BGAs, PBGAs, and FPBGAs

Base Dimensions in. (mm) .880 (22.4) sq

Height in. (mm) .750 (19.1)

Material: Aluminum, Black Anodized

7 6

THERMAL RESISTANCE SINK TO AMBIENT (C)

Standard P/N 605-75AB

THERMAL RESISTANCE SINK TO AMBIENT (C)

Unidirectional Fin Heat Sink for BGAs

605 SERIES

5 4 3

Heat Sink Finish Black Anodized

2 1

0 100

200

Weight lbs. (grams) .030 (13.5)

300

400

500

600

700

500

600

700

500

600

AIR VELOCITY (LFM)

MECHANICAL DIMENSIONS

14

12

10

8 7

THERMAL RESISTANCE SINK TO

THERMAL RESISTANCE SINK TO AMBIENT (C)

605 THERMAL PERFORMANCE

6 5 4 3 2 1

0 100

200

300

400

AIR VELOCITY (LFM)

THERMAL RESISTANCE SINK TO THERMAL RESISTANCE SINK TO AMBIENT (C) AMBIENT (C)

7 6

7

1

5

14 12

3

200

Height in. (mm) .767 (19.5) 300

400

500

AIR VELOCITY (LFM)

600

700

604-40AB

10

0 8 100

4

Base Dimensions 2 in. (mm) 1 1.185 (30.1) sq

Material: Aluminum, Black Anodized

3 2

6

0 100

4

6 4 2

200

300

400

Heat Sink AIR VELOCITY (LFM) 604-60AB Finish Black Anodized

0 100

200

300

400

700

Weight lbs. (grams) .041 (18.7) 500

AIR VELOCITY (LFM)

600

700

THERMAL RESISTANCE SINK TO THERMAL RESISTANCE SINK TO AMBIENT (C) AMBIENT (C)

7

MECHANICAL DIMENSIONS

THERMAL RESISTANCE SINK TO AMBIENT (C)

6

8

4

7

3

6

2

5

1

4

7 6 5

4 0 3 100

3 2 1

0 100

606 THERMAL PERFORMANCE

5

200

300

400

500

AIR VELOCITY (LFM)

600

700

2

AL RESISTANCE SINK TO AMBIENT (C)

7 6 5 4 3 2

200

1

0 100

6

THERMAL RESISTANCE SINK TO TANCE SINK TO AMBIENT (C) NT (C)

Standard P/N 606-77AB

THERMAL RESISTANCE SINK TO AMBIENT (C)

606 SERIES

THERMAL RESISTANCE SINK TO

5

Unidirectional Fin Heat Sink for BGAs

200

300

400

500

AIR VELOCITY (LFM)

300

400

500

AIR VELOCITY (LFM)

600

600

700

700

5 4

3 10 9 8 1 7 6 0 5 2

610-35AB

13

8

6

4

2

0


5 4 3 2 1

0 100

HEAT SINKS FOR BGAs, SUPER BGAs, PBGAs, and FPBGAs

400

500

600

AIR VELOCITY (LFM)

700

10 8 6 4 2

0 100

Base Dimensions in. (mm) 1.200 (30.5) x 1.105 (28.1)

Height in. (mm) .650 (16.5)

Material: Aluminum, Black Anodized

MECHANICAL DIMENSIONS

8 7 6 5

Heat Sink Finish Black Anodized

4 3

Weight lbs. (grams) .041 (18.7)

2 1

0 100

200

300

400

500

600

AIR VELOCITY (LFM)

700

THERMAL RESISTANCE SINK TO AMBIENT (C)

Standard P/N 607-65AB

300

12

200

Unidirectional Fin Heat Sink for BGAs

THERMAL RESISTANCE SINK TO AMBIENT (C)

607 SERIES

200

THERMAL RESISTANCE SIN AMBIENT (C)

THERMAL RESISTANCE SI AMBIENT (C)

Integrated Circuit Heat Sinks

6

7 6 5 4 3 2 1

0 100

10

4

8

3

6

2

4

1

0 100

200

THERMAL RESISTANCE SINK TO AMBIENT (C)

300

400

500

AIR VELOCITY (LFM)

600

700

0

0 100

0 100

5

Base Dimensions in. (mm) 1.240 (31.5) sq 1.240 (31.5) sq

100 Material: Aluminum, Black Anodized

200

300

Height in. (mm) .350 (8.9) .400 (10.2) 400

500

AIR VELOCITY (LFM)

600

700

4 3 2 1

4 3 2 1

6 5 4

200

300

400

500

AIR VELOCITY (LFM)

600

700

300

400

600

500

600

AIR VELOCITY (LFM)

700

700

6 5 4 3 2

Heat Sink 1 Finish 0 Black Anodized 100 300 Black 200 Anodized

400

Weight lbs. (grams) .022 (10.0) 600 .024700 (10.8)

500

AIR VELOCITY (LFM)

200

6 5

300

400

500

600

AIR VELOCITY (LFM)

610-35AB 610-40AB 200 200

300

400

500

300

400

500

AIR VELOCITY (LFM)

8 7 6

600

AIR VELOCITY (LFM)

614-30AB

600

8 7 6 5 4 3

2 100

700

610 THERMAL PERFORMANCE

10 4 9 3 8 7 2 6 5 1 4 0 3 100 2 1 0 100

ANCE SINK TO T (C)

5

THERMAL RESISTANCE SINK TO AMBIENT (C) THERMAL RESISTANCE SINK TO AMBIENT (C)

THERMAL RESISTANCE SINK TO AMBIENT (C)

6

TANCE SINK TO NT (C)

14

7

7

300 400 500 604-60AB AIR VELOCITY (LFM)

7

0 100

MECHANICAL DIMENSIONS

0 100

200

200

6

5

1

1

7

6

2

604-40AB

2

Omnidirectional Pin Fin Heat Sink for BGAs

7

3

3

2

8

4

4

10 9 8 7 6 5 4 3 2 1 0 100

THERMAL RESISTANCE SINK TO AMBIENT (C)

5

5

THERMAL RESISTANCE SINK TO AMBIENT (C)

12

6 THERMAL RESISTANCE SINK TO AMBIENT (C)

6

610 SERIES

Standard P/N 610-35AB 610-40AB

THERMAL RESISTANCE SINK TO AMBIENT (C) THERMAL RESISTANCE SINK TO AMBIENT (C)

14

7

7

THERMAL RESISTANCE SINK TO AMBIENT (C) THERMAL RESISTANCE SINK TO AMBIENT (C)

THERMAL RESISTANCE SINK TO AMBIENT (C)

607 THERMAL PERFORMANCE

700 700

8 7 6 5 4 3

2 100

2


3

Integrated Circuit Heat Sinks

2 1

0 100

200

HEAT SINKS FOR BGAs, SUPER BGAs, PBGAs, and FPBGAs

Standard P/N 611-80AB

Unidirectional Fin Heat Sink for BGAs

Base Dimensions in. (mm) 1.200 (30.5) sq

Height in. (mm) .800 (20.3)

Material: Aluminum, Black Anodized

THERMAL RESISTANCE SINK TO AMBIENT (C)

611 SERIES

300

400

500

600

AIR VELOCITY (LFM)

700

THERMAL RESISTANCE AMBIENT (C)

4

5

4

3

2

1

0

7 6 5

THERMAL RESISTANCE SINK TO AMBIENT (C)

THERMAL RESISTA AMBIENT

5

4 3 2

Heat Sink Finish Black Anodized

1

0 100

200

300

Weight lbs. (grams) .036 (16.3) 400

500

600

AIR VELOCITY (LFM)

700

1

MECHANICAL DIMENSIONS

Standard P/N 612-65AB

Unidirectional Fin Heat Sink for BGAs

Base Dimensions in. (mm) 1.390 (35.3) sq

Height in. (mm) .650 (16.5)

7

THERMAL RESISTANCE SINK TO

6 5 4 3 2 1

0 100

200

300

400

500

600

Heat Sink 200 400 500 Finish 300 AIR VELOCITY (LFM) Black Anodized

600

AIR VELOCITY (LFM)

700

6

THERMAL RESISTANCE SINK TO

612 SERIES

THERMAL RESISTANCE SINK TO AMBIENT (C)

THERMAL RESISTANCE SINK TO AMBIENT (C)

611 THERMAL PERFORMANCE

5 4 3 2 1

0 100

Weight lbs.700 (grams) .054 (24.5)

Material: Aluminum, Black Anodized

MECHANICAL DIMENSIONS

THERMAL RESISTANCE SINK TO AMBIENT (C)

612 THERMAL PERFORMANCE 4 3 2 1 0 100

200

300

400

500

AIR VELOCITY (LFM)

600

700

15


THERMAL RESISTANC AMBIENT (C)

2

1 14

7

0 12 100 10

6 5 4

300 604-40AB 400

200

500

600

AIR VELOCITY (LFM)

8

700

HEAT SINKS FOR BGAs, SUPER BGAs, PBGAs, and FPBGAs 200

300

400

500

AIR VELOCITY (LFM)

600

Base Dimensions in. (mm) 1.450 (36.8) sq

8 7 6

700

Height in. (mm) .500 (12.7)

Material: Aluminum, Black Anodized 5 4 3

200

300

200

300

400

500

600

AIR VELOCITY (LFM)

4 3

6 5 4 3 2 1

0 100

200

300

400

500

600

AIR VELOCITY (LFM)

700

Unidirectional Fin Heat Sink for BGAs

7 6 5 4 3 2

Base Dimensions in. (mm) 1.500 (38.1) sq 1.500 (38.1) sq 1.500 (38.1) sq

Height in. (mm) .300 (7.6) .500 (12.7) 1.000 (25.4)

1 Material: Aluminum, Black Anodized or Plain 0 100

200

MECHANICAL DIMENSIONS

300

400

500

AIR VELOCITY (LFM)

600

700

600

700

Heat Sink Finish Black Anodized 200

300

Weight lbs. (grams) .046 (20.8) 400

500

600

AIR VELOCITY (LFM)

700

613 THERMAL PERFORMANCE

0 6 100

7

500

5

1

700

400

AIR VELOCITY (LFM)

6

2 7 1 6 0 5 100 4

THERMAL RESISTANCE SINK TO THERMAL RESISTANCE SINK TO AMBIENT (C) AMBIENT (C)

THERMAL RESISTANCE SINK TO AMBIENT (C)

0 100

THERMAL RESISTANCE SINK TO AMBIENT (C)

0 100 7

2

1

614 SERIES

Standard P/N 614-30AB 614-50AB 614-100AP

2

3

MECHANICAL DIMENSIONS 2

5

200

300

400

500

600

AIR VELOCITY (LFM)

4

700

3

2 10 1 9 8 0 7100 6 5 4 3 2 1 0 100

200

300

610-35AB 400

500

AIR VELOCITY (LFM)

600

700

610-40AB

200

300

400

500

AIR VELOCITY (LFM)

600

700

8 7 6 5 4

614-30AB Heat Sink Finish Black Anodized Black Anodized 614-100AB (dashed) Plain 614-50AB

3

2 100

Weight lbs. (grams) .030 (13.8) .048 (21.8) .046 (20.9)

200

300

400

500

AIR VELOCITY (LFM)

600

700

600

700

16

THERMAL RESISTANCE SINK TO AMBIENT (C)

THERMAL RESISTANCE SINK TO AMBIENT (C)

614 THERMAL PERFORMANCE 6 5 4 3 2 1

0 100

200

300

400

500

AIR VELOCITY (LFM)

600

700

200

604-60AB

4

THERMAL RESISTANCE SINK TO AMBIENT (C)

THERMAL RESISTANCE SINK TO AMBIENT (C)

Standard P/N 613-50AB

0 100

Unidirectional Fin Heat Sink for BGAs

THERMAL RESISTANCE SINK TO AMBIENT (C)

2

1 613 SERIES

6

THERMAL RESISTANCE SINK TO THERMAL RESISTANCE SINK TO AMBIENT (C) AMBIENT (C)

3

7 6 5 4 3 2 1 0 100

THERMAL RESISTANCE SINK TO AMBIENT (C)

THERMAL RESISTANCE SINK TO THERMAL RE AMBIENT (C) AM

THERMAL RESISTANCE SINK TO AMBIENT (C)

Integrated Circuit Heat Sinks

3

8 7

614-30AB

6 5

614-100AP (dashed)

4

614-50AB

3

2 100

200

300

400

500

AIR VELOCITY (LFM)

8 7 6 5 4 3

2 100

20

8 7 6 5 4 3

2 100

20


Integrated Circuit Heat Sinks

HEAT SINKS FOR BGAs, SUPER BGAs, PBGAs, and FPBGAs 615 SERIES

Standard P/N 615-41AB

Unidirectional Fin Heat Sink for BGAs

Base Dimensions in. (mm) 1.600 (40.6) sq

Height in. (mm) .410 (10.4)

Heat Sink Finish Black Anodized

Weight lbs. (grams) .046 (21.0)

Material: Aluminum, Black Anodized

MECHANICAL DIMENSIONS

616 SERIES

Unidirectional Fin Heat Sink for BGAs

Standard P/N

Base Dimensions in. (mm)

Height in. (mm)

616-80AB

1.85 (47.0) sq

.800 (20.3)

THERMAL RESISTANCE SINK TO AMBIENT (C)

THERMAL RESISTANCE SINK TO AMBIENT (C)

615 THERMAL PERFORMANCE 8 7 6 5 4 3 2 1

0 100

200

300

400

500

600

Heat Sink 300 400 500 FinishAIR VELOCITY (LFM)

600

AIR VELOCITY (LFM)

700

3 2 1 0 100

200

Black Anodized

Weight 700 lbs. (grams) .054 (24.5)

Material: Aluminum, Black Anodized

3

7

2

6 5

616 THERMAL PERFORMANCE 3

12

4 3

0 100 1

2 1

200

300

400

500

AIR VELOCITY (LFM)

600

700

3 2

200

0 100

E SINK TO )

THERMAL RESISTANCE SINK TO AMBIENT (C) ANCE SINK TO T (C)

4

8

0 100

THERMAL RESISTANCE SINK TO THERMAL RESISTANCE SINK TO AMBIENT (C) AMBIENT (C)

5

MECHANICAL DIMENSIONS

200

300

400

500

AIR VELOCITY (LFM)

300

400

500

AIR VELOCITY (LFM)

7 6 5

618-20AB

600

600

700

700

17


Integrated Circuit Heat Sinks

HEAT SINKS FOR BGAs, SUPER BGAs, PBGAs, and FPBGAs

Standard P/N 617-80AB

Base Dimensions in. (mm) 1.450 (36.8) x 1.850 (47.0)

Height in. (mm) .800 (20.3)

Material: Aluminum, Black Anodized

THERMAL RESISTANCE SINK TO AMBIENT (C)

Unidirectional Fin Heat Sink for BGAs

617 SERIES

8 7 6 5 4 3 2 1

Heat Sink Finish Black Anodized

0 100

200

Weight lbs. (grams) .082 (37.2)

300

400

500

600

700

500

600

700

Heat Sink Finish 300 400 500 Black Anodized AIR VELOCITY (LFM) Plain

600

AIR VELOCITY (LFM)

MECHANICAL DIMENSIONS

Standard P/N 618-20AB 618-100AP

Unidirectional Fin Heat Sink for BGAs

618 SERIES

8

3

7 6 5 4 3 2 1

0 100

THERMAL RESISTANCE SINK TO AMBIENT (C) THERMAL RESISTANCE SINK TO AMBIENT (C)

THERMAL RESISTANCE SINK TO AMBIENT (C)

THERMAL RESISTANCE SINK TO AMBIENT (C)

617 THERMAL PERFORMANCE

200

300

Base Dimensions in. (mm) 2.00 (50.8) sq 2.00 (80.8) sq 400

500

Material: Aluminum, Black Anodized or Plain (LFM) AIR VELOCITY

600

700

Height in. (mm) .200 (5.1) 1.000 (25.4)

3 2 1 0 100

200

300

400

AIR VELOCITY (LFM)

5 4 3 2

2

1

1

0 100

0 100

200

200

300

400

500

600

AIR VELOCITY (LFM)

Weight lbs. (grams) 700 .046 (21.0) .122 (55.5) 700

MECHANICAL DIMENSIONS

1 0 100

200

300

400

500

AIR VELOCITY (LFM)

600

700

THERMAL RESISTANCE SINK TO AMBIENT (C)

2

5 4

E SINK TO

18

NCE SINK TO (C)

THERMAL RESISTANCE SINK TO AMBIENT (C)

618 THERMAL PERFORMANCE 3

3

7 6

618-20AB

5 4 3 2 1

0 100

618-100AB 200

300

400

500

AIR VELOCITY (LFM)

600

700


THERMAL RESISTA AMBIENT

5 4 3

Integrated Circuit Heat Sinks

2 1

0 100

200

HEAT SINKS FOR BGAs, SUPER BGAs, PBGAs, and FPBGAs

Standard P/N 620-24AB

400

500

AIR VELOCITY (LFM)

600

700

Unidirectional Fin Heat Sink for BGAs

Base Dimensions in. (mm) 2.500 (63.5) x 2.000 (50.8)

Height in. (mm) .235 (6.0)

THERMAL RESISTANCE SINK TO AMBIENT (C)

620 SERIES

300

Material: Aluminum, Black Anodized

3 2

Heat Sink Finish Black Anodized

1 0 100

200

300

Weight lbs. (grams) .063 (28.6) 400

500

AIR VELOCITY (LFM)

600

700

600

700

MECHANICAL DIMENSIONS

THERMAL RESISTANCE SINKRESISTANCE TO THERMAL SINK TO AMBIENT (C) AMBIENT (C)

8 6 5

3

1 2

4 3 2

0 100

200

1

1

200

300

400

500

AIR VELOCITY (LFM)

622 SERIES

3

600

700

0 100

1

Base Dimensions in. (mm) 2.050 (52.1) x 2.000 (50.8) 200

300

Material: Aluminum, Black Anodized

400

200

300

400

500

AIR VELOCITY (LFM)

300

400

500

600

AIR VELOCITY (LFM)

700

Unidirectional Fin Heat Sink for BGAs

2

0 100

4

3 2

7

0 100

5

500

AIR VELOCITY (LFM)

600

Height in. (mm) .800 (20.3) 700

THERMAL RESISTANCE SINK TO AMBIENT (C)

Standard P/N 622-80AB

THERMAL RESISTANCE SINK TO AMBIENT (C)

THERMAL RESISTANCE SINK TO AMBIENT (C)

620 THERMAL PERFORMANCE

7 6

618-20AB

5 4 3 2 1

Heat Sink Finish Black Anodized

0 100

200

300

Weight lbs. (grams) .123 (56.0)

618-100AB 400

500

AIR VELOCITY (LFM)

600

700

MECHANICAL DIMENSIONS

4 3 2 1 0 100

200

300

400

500

AIR VELOCITY (LFM)

600

700

THERMAL RESISTANCE SINK TO AMBIENT (C)

THERMAL RESISTANCE SINK TO AMBIENT (C)

622 THERMAL PERFORMANCE 5

3 2 1 0 100

200

300

400

500

AIR VELOCITY (LFM)

600

700

19


Integrated Circuit Heat Sinks

HEAT SINKS FOR MICROPROCESSORS AND ASICs 569, 579, 589, 599 SERIES

Heat Sinks & Clip for Intel’s Pentium, Pentium MMX, AMD’s K6 & K62, CYRIX’s 6x86 & Media GX, Centaur/IDT’s WinChip C6 Thermal Resistance at 200 LFM (°C/W) 1.7 1.6 1.5 1.9

Fin Height in. (mm) 1.00 (25.4) 1.50 (38.10) 1.50 (38.10) 1.00 (25.4)

Base Dimensions Standard in. (mm) P/N 2.34 (59.44) x 2.68 (67.95) 569-100AK 579-150AK 2.15 (54.71) x 1.95 (49.53) 589-150AK 2.15 (54.71) x 3.10 (78.74) 599X-100AB 1.96 (49.78) x 2.67 (67.95) Material: Aluminum, Black Anodized

PRODUCT FEATURES • Compact design heat sinks can comfortably fit a variety of Robust Socket 7-based PC boxes • Robust clip attachments

Interface Material Options Pages 74–76 Pages 74–76 Pages 74–76 Pages 74–76

• Clips are not captive to sink • To order heat sink with optional interface material pre-applied at the factory, add S4 or S5 suffix to the part number. (See Product Designation)

MECHANICAL DIMENSIONS .42

1.00 .23

5x9SC

RC01-1

2.34

1.50

Wakefield

2.68

1.50

OPTIONAL THERMAL INTERFACE PAD (SEE PRODUCT DES.)

ROCKER CLIP OPTION

(SEEin. PRODUCT DES.) Dimensions:

650B 651B

CLIP

AK = SPRING CLIP

Low-Cost Heat Sinks for DIPs and SRAMs

14-16 Pin DIPs

Length in. (mm)

Width in. (mm)

Height in. (mm)

Typical Applications

Weight lbs. (grams)

0.250 (6.4) 0.750 (19.1)

0.740 (18.9) 0.415 (10.5)

0.240 (6.1) 0.240 (6.1)

14-Pin, 16-Pin DIP 14-Pin, 16-Pin DIP

0.003 (1.36) 0.005 (2.27)

acrylic adhesive. The 650 and 651 are also available in natural aluminum finish. They can be ordered as 650P or 651P.

NATURAL AND FORCED CONVECTION CHARACTERISTICS

MECHANICAL DIMENSIONS Notes: 1. Finish: black anodize 2. TIR: Total Indicator Reading. This is a measure of flatness across the greatest dimension of a surface.

650B

20

THERMAL INTERFACE

S4 = DELTALINK IV BLANK = NO THERMAL PAD

HEIGHT

100 = 1.00"

These extruded heat sinks serve as low-cost heat dissipation solutions for DIPs with pin counts from 14 to 16. Use an epoxy such as Wakefield Engineering DeltaBond™ 152 or 155, or use Wakefield 2-part DeltaBond™ 156 modified

Dimensions: in. (mm)

MODEL NUMBER

SPRING CLIP OPTION (SEE PRODUCT DES.)

650/651 SERIES Standard P/N

569 - 100 XX - XX

PRODUCT DESIGNATION

569-100AK SERIES

651B


Integrated Circuit Heat Sinks

HEAT SINKS FOR MICROPROCESSORS AND ASICs 649 SERIES

SpiderClip™ Heat Sink Assembly for Motorola MC68040™, MC68060

18 x 18 PGA

Standard P/N

Base Dimensions in. (mm)

Height in. (mm)

Base Thickness in. (mm)

Clip Color

Heat Sink Finish

649-33AB 649-51AB

1.70 (43.2) sq 1.86 (47.2) sq

0.315 (8.0) 0.510 (13.0)

0.090 (2.3) 0.090 (2.3)

Gray Gray

Black Anodized Black Anodized

Weight lbs. (grams) 0.044 (19.84) 0.056 (25.51)

NATURAL AND FORCED CONVECTION CHARACTERISTICS

MECHANICAL DIMENSIONS

Dimensions: in. (mm)

649-33AB SPIDERCLIP™ ASSEMBLY

649-51AB SPIDERCLIP™ ASSEMBLY

669 SERIES

SpiderClip™ Heat Sink Assembly for IntelDX4™, AMD AM486DX2, and AM486DX4

661 SERIES

Heat Sink without clip

Standard P/N

Base Dimensions in. (mm)

Dimensions “A” Height in. (mm)

Base Thickness in. (mm)

Clip Color

Standard Finish

669-32AG 669-33AB 669-40AB 669-52AB 661-32AG 661-33AB 661-40AB 661-52AB

1.70 (43.2) sq 1.70 (43.2) sq 1.70 (43.2) sq 1.70 (43.2) sq 1.70 (43.2) sq 1.70 (43.2) sq 1.70 (43.2) sq 1.70 (43.2) sq

0.315 (8.0) 0.315 (8.0) 0.400 (10.2) 0.520 (13.2) 0.315 (8.0) 0.315 (8.0) 0.400 (10.2) 0.520 (13.2)

0.090 (2.3) 0.090 (2.3) 0.090 (2.3) 0.090 (2.3) 0.090 (2.3) 0.090 (2.3) 0.090 (2.3) 0.090 (2.3)

Black Black Black Black N/A N/A N/A N/A

Gold Iridite Black Anodized Black Anodized Black Anodized Gold Iridite Black Anodized Black Anodized Black Anodized

17 x 17 SPGA

Weight lbs. (grams) 0.044 (19.84) 0.044 (19.84) 0.044 (19.84) 0.050 (22.68) 0.044 (19.84) 0.044 (19.84) 0.044 (19.84) 0.050 (22.68)

669 Series SpiderClip™ Heat Sink Assemblies may be applied to the following: • Intel 80486DX and 80486DX2™ (168 PGA) • AMD AM 29000 Microcontrollers

• Intel 82495 Cache Controller • Intel 80486SX (168 PGA) and I860XR (208 PGA) • Intel I960CA, I960CF Enbedded Controllers

• Intel DX4™ (168 PGA) • AMD AM 486 Microprocessors AM486DX2, AM486DX4

MECHANICAL DIMENSIONS

NATURAL AND FORCED CONVECTION CHARACTERISTICS 669-32AG

669-32AG SPIDERCLIP™ ASSEMBLY

669-33AB 669-40AB 669-52AB

669-52AB SPIDERCLIP™ ASSEMBLY

Dielectric Breakdown (Nylon Clip Coating) Dimensions: in. (mm)

Dielectric Strength: 100 VDC/mil Breakdown Voltage: 200 VDC (minimum)

KEY:  669-32AG 0.315 (8.0) Pin Height, low density pin pattern  669-33AB 0.315 (8.0) Pin Height, high density pin pattern

 669-40AB 0.400 (10.2) Pin Height, high density pin pattern  669-52AB 0.520 (13.2) Pin Height, high density pin pattern

21


Board Level Heat Sinks

BOARD LEVEL POWER SEMICONDUCTOR HEAT SINKS Surface Mount Heat Sinks

217 SERIES

D 2PAK, TO-220, SOT-223, SOL-20

Compatible with surface mount technology (SMT) automated production techniques for ease of assembly and a variety of soldering methods, these heat sinks allow greater packaging densities and reduction in PC-board area, increasing the power dissipation of surface mount devices (SMDs) while maintaining and improving manufacturers' component thermal specifications.

FEATURES AND BENEFITS: • No interface material is needed • Copper with matte tin plating for improved solderability and assembly • Both the component and the heat sink are installed on the PC-board utilizing standard SMT assembly equipment for ”Tape & Reel” and “Tube” formats • EIA standards and ESD protection are specified • Can be used with water soluble or no clean SMT solder creams or other pastes

Standard P/N

Height Above PC Board in. (mm)

217-36CTE6 .360 (9.1) .360 (9.1) 217-36CTTE6 .360 (9.1) 217-36CTRE6 Material: Copper, Matte Tin Plated

Package Format

Package Quantity

.600 (15.2) x .740 (18.8) .600 (15.2) x .740 (18.8) .600 (15.2) x .740 (18.8)

Bulk Tube Tape & Reel

1 20 250

217 HEAT SINK WITH DDPAK DEVICE

Thermal Performance at Typical Load Natural Forced Convection Convection) 55°C @ 1W 55°C @ 1W 55°C @ 1W

16.0°C/W @ 200 LFM 16.0°C/W @ 200 LFM 16.0°C/W @ 200 LFM

THERMAL PERFORMANCE 6 LAYER BOARD, D' PAK 125°C LEAD, 40°C AMBIENT

Device Tab dT, C

MECHANICAL DIMENSIONS

Footprint Dimensions in. (mm)

217-36CT6

Device Power Dissipation. W  Device only, NC

KEY:

 Device + HS, NC

 Device + HS, 100 lfm  Device + HS, 200 lfm

Device + HS, 300 lfm

SECTION A-A NOTES 1. Material to be “ESD” 2. Approximately 6 Meters per Reel 3. 250 Pieces per Reel.

TAPE DETAILS

217-36CTR6

REEL DETAILS

Dimensions: in.

22


Board Level Heat Sinks

BOARD LEVEL POWER SEMICONDUCTOR HEAT SINKS 217 SERIES

Surface Mount Heat Sinks

MECHANICAL DIMENSIONS

D 2PAK, TO-220, SOL-20

BOARD LAYOUT RECOMMENDATIONS

217 SERIES

TUBE DETAILS

TUBE: 16.25 Inches Long, Min. ESD Material with Nail Stops 20 Pieces per Tube 217-36CTT6 SOL 20 REF: JEDEC TO-263 (DD PAK) REF: JEDEC MO-169 (DD PAK)

217-36CT6

Dimensions: in.

218 SERIES

Surface Mount Heat Sink

Standard P/N

SMT Devices

Height Above PC Board in. (mm)

Maximum Footprint in. (mm)

.40 (10.2) .40 (10.2)

.90 (22.9) x .315 (8.0) 1.03 (26.2) x .50 (12.7)

218-40CTE3 218-40CTE5

Thermal Performance at Typical Load Natural Convection Forced Convection 62째C rise @ 2W 62째C rise @ 2W

21째C/W @ 200LFM 21째C/W @ 200LFM

Material: Copper, Matte Tin Plated

600

800

20

60

15

40

10

20 0

1000 25

5

0

200 0.5

400 1.0

600 1.5

HEAT DISSIPATED (WATTS)

800 2.0

0 1000 2.5

80

0

200

400

600

800

1000 20 18 16

E RISE (C)

100

200

AIR VELOCITY (LFM)

400

600

800

80

1000 25 20

60

15

40

10

20 0

5

0

200 0.5

400 1.0

100

80

0

200

600 1.5

HEAT DISSIPATED (WATTS)

Solid line = 218-40CT5

218-40CT5

AIR VELOCITY (LFM)

100

0

THERMAL RESISTANCE SINK TO AMBIENT (C)

400

80

218-40CT3

E RISE (C)

AIR VELOCITY (LFM)

0 1000 2.5

Dashed Line = 218-40CT3

AIR VELOCITY (LFM)

400

800 2.0

600

800

1000 10

INK TO

200

HEAT SINK TEMPERATURE RISE ABOVE AMBIENT AIR (C)

0

THERMAL RESISTANCE SINK TO AMBIENT (C)

100

NATURAL AND FORCED CONVECTION CHARACTERISTICS

INK TO

HEAT SINK TEMPERATURE RISE ABOVE AMBIENT AIR (C)

MECHANICAL DIMENSIONS

8

23


5

10

400 1.0

HEAT DISSIPATED (WATTS)

BOARD LEVEL POWER SEMICONDUCTOR HEAT SINKS Vertical Mount Heat Sink

Standard P/N 206-1PABEH

HEAT SINK TEMPERATURE RISE ABOVE AMBIENT AIR (C)

206 SERIES

100

Maximum Footprint in. (mm)

1.18 (30.0)

1.00 (25.4) x .50 (12.7)

HEAT SINK TEMPERATURE RISE ABOVE AMBIENT AIR (C)

Height Above PC Board in. (mm)

Footprint Dimensions in. (mm)

230-75AB-01

600

40

800

56°C rise @ 4W

20 0

100

0

0

1 200

2 400

3 600

4 800

NATURAL AND FORCED (WATTS) HEAT DISSIPATED CONVECTION CHARACTERISTICS

200

AIR VELOCITY (LFM)

400

600

800

80 60

200

TO-220

1000 10

4

20

0

0 1000 100 20 18 80 16 at Typical Load 14 Forced Convection 60 12 10 7.3°C/W @ 200LFM 40 8 6 20 4 2 0 0 5 0 1000

6

40

2

0

200 2

400 4

600 6

HEAT DISSIPATED (WATTS)

800 8

Solderable Tab Option

Mounting Style

Vert./Horiz. Vertical Horizontal Vertical Vert./Horiz Vertical Horizontal

No Tab 01 05 10 No Tab 01 05

Clip/Mtg Hole Clip/Mtg Hole Clip/Mtg Hole Clip/Mtg Hole Clip/Mtg Hole Clip/Mtg Hole Clip/Mtg Hole

230-75AB-10

230 AND 234 SERIES

230-75AB-05

0 1000 10

234 SERIES 234-75AB

Dimensions: in. (mm)

24

234-75AB-01

234-75AB-05

100

TO-220

Thermal Performance at Typical Load Natural Forced Convection Convection) 57°C @ 2W 57°C @ 2W 57°C @ 2W 57°C @ 2W 57°C @ 2W 57°C @ 2W 57°C @ 2W

7.5°C/W @ 400 LFM 7.5°C/W @ 400 LFM 7.5°C/W @ 400 LFM 7.5°C/W @ 400 LFM 7.5°C/W @ 400 LFM 7.5°C/W @ 400 LFM 7.5°C/W @ 400 LFM

230 SERIES

NATURAL AND FORCED CONVECTION CHARACTERISTICS 234 SERIES

0

200 0.5

8

Mounting Configuation

230-75AB .750 (19.1) .570 (14.5) x .500 (12.7) 230-75ABE-01 .750 (19.1) .570 (14.5) x .500 (12.7) 230-75ABE-05 .500 (12.7) .750 (19.1) x .570 (14.5) 230-75ABE-10 .875 (22.2) .570 (14.5) x .500 (12.7) 234-75AB .790 (20.0) .570 (14.5) x .500 (12.7) 234-75ABE-01 .790 (20.0) .570 (14.5) x .500 (12.7) 234-75ABE-05 .500 (12.7) .790 (20.0) x .570 (14.5) Material: Aluminum, Black Anodized

MECHANICAL DIMENSIONS

400

20 0

Compact, Wavesolderable Low-Profile Self-Locking Heat Sinks

230 & 234 SERIES

PATENT PENDING

AIR VELOCITY (LFM)

800 2.0

Thermal Performance Natural Convection

60

MECHANICAL DIMENSIONS

Standard P/N

200

80

Height Above PC Board in. (mm)

Material: Aluminum, Black Anodized

0

600 1.5

40

HEAT SINK TEMPERATURE RISE ABOVE AMBIENT AIR (C)

200 0.5

HEAT SINK TEMPERATURE RISE ABOVE AMBIENT AIR (C)

0

0 1000 2.5

THERMAL RESISTANCE SINK TO AMBIENT (C)

0

60

HEAT SINK TEMPERA ABOVE AMBIENT

20

40

THERMAL RESISTAN AMBIENT (

15

THERMAL RESISTANCE SINK TO AMBIENT (C)

HEAT SINK TEMPER ABOVE AMBIENT

Board Level Heat Sinks

60

1 200

0

200

0

2 200

HEA

A

HEA

80 60

40 20 0

HEA


Board Level Heat Sinks

BOARD LEVEL POWER SEMICONDUCTOR HEAT SINKS

77°C rise @ 4W

40

5

200 0.5

0

400 1.0

HEAT SINK TEMPERATURE RISE ABOVE AMBIENT AIR (C)

100

200

80

400

600

Height Above PC Board in. (mm)

262-75ABE-05 60 262-75ABE-01

800

10

20 0

0

200 0.5

400 1.0

5

600 1.5

HEAT DISSIPATED (WATTS)

800 2.0

0 1000 2.5

AIR VELOCITY (LFM)

200

400

20 0

0

1 200

0

200

2 400

800

80 60 40 20 0

100 80 60 40

0

1 200

0

200

2 400

3 600

HEAT DISSIPATED (WATTS)

AIR VELOCITY (LFM)

400

600

4 800

800

1000 20 18 16 14 12 10 8 6 4 2 0 5 1000

1000 10 8 6 4

3 600

HEAT DISSIPATED (WATTS)

AIR VELOCITY (LFM)

400

600

4 800

800

1000 20 18 16 14 12 10 8 6 4 2 0 5 1000

1000 10 8

40

0

100 20

200

AIR VELOCITY (LFM)

400

600

6

800

200 2

40

600 80°C 400 rise 4 @ 2W 6 HEAT DISSIPATED 80°C rise @ 2W(WATTS)

800 8

1000 10°C/W 10 @ 200LFM 15 10°C/W @ 200LFM

5

0

0

200 0.5

0

400 1.0

600 1.5

800 2.0

NATURAL AND FORCED HEAT DISSIPATED (WATTS) CONVECTION CHARACTERISTICS

200

AIR VELOCITY (LFM)

400

600

800

80

0 1000 2.5

1000 10 8

60

6

40

4

20 0

4 1000 225

10

20

100

TO-220

Thermal Performance at Typical Load Natural Convection Forced Convection 020

080 (12.78) 0 60

HEAT SINK TEMPERATURE RISE ABOVE AMBIENT AIR (C)

600

800

40

K TEMPERATURE RISE VE AMBIENT AIR (C)

400

THERMAL RESISTANCE SINK TO AMBIENT (C)

AIR VELOCITY (LFM)

L RESISTANCE SINK TO AMBIENT (C)

HEAT SINK TEMPERATURE RISE ABOVE AMBIENT AIR (C) K TEMPERATURE RISE VE AMBIENT AIR (C)

100

200

600

60

MECHANICAL DIMENSIONS 0

800 2.0

80

.7515(19.1) x .50 .53 (13.4) x .50 (12.7)

Material: Aluminum, Black Anodized

0

60

Maximum Footprint in. (mm)

20

.53 (13.4) .75 (19.1)

40

1000 25

600 1.5

AND FORCED NATURAL HEAT DISSIPATED (WATTS) CONVECTION CHARACTERISTICS

0 1000 2.5

HEAT SINK TEMPERATURE RISE ABOVE AMBIENT AIR (C)

0

2

0

100

80 60 40

0

1 200

200

2 400

3 600

HEAT DISSIPATED (WATTS)

AIR VELOCITY (LFM)

400

600

4 800

800

0 5 1000

1000 10 8 6 4

25

0

100

@ 200LFM

10

20

HEAT SINK TEMPERATURE RISE HEAT SINK TEMPERATURE RISE ABOVE AMBIENT AIR (C) ABOVE AMBIENT AIR (C)

0

THERMAL RESISTANCE SINK TO AMBIENT (C)

HEAT SINK TEMPERATURE RISE ABOVE AMBIENT AIR (C)

Standard P/N

100

15 12°C/W

80

Horizontal and Vertical Mount Heat Sink

1000 25

HEAT SINK TEMPERATURE RISE ABOVE AMBIENT AIR (C)

(17.5)60

100

AIR VELOCITY (LFM)

800

Thermal Performance at Typical Load 20 Natural Convection Forced Convection

MECHANICAL DIMENSIONS

262 SERIES

600

80 60 40 20 0

100

HEAT SINK TEMPERATURE RISE ABOVE AMBIENT AIR (C)

Material: Aluminum, Black Anodized

80

400

THERMAL RESISTANCE SINK TO AMBIENT (C)

.86 (21.8) x .69

200

THERMAL RESISTANCE THERMAL SINK TO RESISTANCE SINK TO AMBIENT (C) AMBIENT (C)

.39 (9.9)

241-69ABE-03

0

100

THERMAL RESISTANCE SINK TO AMBIENT (C)

Standard P/N

Maximum Footprint in. (mm)

TO-220

L RESISTANCE SINK TO AMBIENT (C)

Height Above PC Board in. (mm)

AIR VELOCITY (LFM)

THERMAL RESISTANCE SINK TO AMBIENT (C)

Horizontal Mount Heat Sink

HEAT SINK TEMPERATURE RISE ABOVE AMBIENT AIR (C)

241 SERIES

0

0

80 60 40 20 0

0

100

0

80 60 40 20 0

0


Board Level Heat Sinks

BOARD LEVEL POWER SEMICONDUCTOR HEAT SINKS Self-Locking Wavesolderable Heat Sinks

233 & 236 SERIES Standard P/N

PATENT PENDING

Height Above PC Board in. (mm)

Footprint Dimensions in. (mm)

.600 (15.2) .570 (14.5) x .500 (12.7) 233-60AB 233-60ABE-01 .600 (15.2) .570 (14.5) x .500 (12.7) 233-60ABE-05 .500 (12.7) .600 (15.2) x .570 (14.5) .725 (18.4) .570 (14.5) x .500 (12.7) 233-60ABE-10 1.500 (38.1) .570 (14.5) x .500 (12.7) 236-150AB 236-150ABE-01 1.500 (38.1) .570 (14.5) x .500 (12.7) 236-150ABE-05 .500 (12.7) 1.500 (38.1) x .570 (14.5) 1.625 (41.3) .570 (14.5) x .570 (12.7) 236-150ABE-10 Material: Aluminum, Black Anodized

TO-220

Mounting Solderable Configuration Tab Options Vert./Horiz. Vertical Horizontal Vertical Vert./Horiz Vertical Horizontal Vetrical

No Tab 01 05 10 No Tab 01 05 10

Mounting Style

Thermal Performance at Typical Load Natural Forced Convection Convection

Clip/Mtg Hole Clip/Mtg Hole Clip/Mtg Hole Clip/Mtg Hole Clip/Mtg Hole Clip/Mtg Hole Clip/Mtg Hole Clip/Mtg Hole

58°C @ 2W 58°C @ 2W 58°C @ 2W 58°C @ 2W 40°C @ 2W 40°C @ 2W 40°C @ 2W 40°C @ 2W

11.0°C/W @ 400 LFM 11.0°C/W @ 400 LFM 11.0°C/W @ 400 LFM 11.0°C/W @ 400 LFM 4.80°C/W @ 400 LFM 4.80°C/W @ 400 LFM 4.80°C/W @ 400 LFM 4.80°C/W @ 400 LFM

NATURAL AND FORCED CONVECTION CHARACTERISTICS

MECHANICAL DIMENSIONS 233 AND 236 SERIES

233-60AB-01 236-150AB-01

233-60AB-10 236-150AB-10

233-60AB-05 236-150AB-05

236-150AB

Dimensions: in. (mm)

233-60AB

275 & 231 SERIES Standard P/N

PATENT 5381041

Compact, Stress-Free Labor-Saving Locking-Tab Heat Sinks

Height Above PC Board in. (mm)

Footprint Dimensions in. (mm)

.750 (19.1) .750 (19.1) .875 (12.7) .690 (18.4) .400 (10.1) .690 (17.5) .750 (19.1) .400 (10.1) .750 (19.1) 1.375 (35) .400 (10.2) 1.375 (35)

.835 (21.2) x .400 (12.7) .835 (21.2) x .400 (12.7) .835 (21.2) x .400 (14.5) .835 (21.2) x .400 (12.7) .690 (17.5) x .835 (12.7) .835 (21.2) x .400 (12.7) .835 (21.2) x .400 (14.5) .750 (19.1) x .835 (12.7) .835 (21.2) x .400 (12.7) .835 (21.2 x .400 (12.7) 1.375 (34.9) x .835 (12.7) .835 (21.2) x .400 (12.7)

275-75AB 275-75ABE-01 275-75ABE-10 231-69PAB 231-69PABE 231-69PABE-XXX 231-75PAB 231-75PABE 231-75PABE-XXX 231-137PAB 231-137PABE 231-137PABE-XXX

Mounting Solderable Configuration Tab Options Vert./Horiz. Vertical Vertical Vert./Horiz. Horizontal Vertical Vert./Horiz. Horizontal Vertical Vert./Horiz. Horizontal Vertical

No Tab 01 10 No Tab 13H 13V, 14V, 15V No Tab 13H 13V, 14V, 15V No Tab 13H 13V, 14V, 15V

Mounting Style

TO-220

Thermal Performance at Typical Load Natural Forced Convection Convection

Clip/Mtg Hole Clip/Mtg Hole Clip/Mtg Hole Clip/Mtg Hole Clip/Mtg Hole Clip/Mtg Hole Clip/Mtg Hole Clip/Mtg Hole Clip/Mtg Hole Clip/Mtg Hole Clip/Mtg Hole Clip/Mtg Hole

44 C @ 2W 44°C @ 2W 44°C @ 2W 45°C @ 2W 45°C @ 2W 45°C @ 2W 43°C @ 2W 43°C @ 2W 43°C @ 2W 32°C @ 2W 32°C @ 2W 32°C @ 2W

7.9°C/W @ 400 LFM 7.9°C/W @ 400 LFM 7.9°C/W @ 400 LFM 8°C/W @ 400 LFM 8°C/W @ 400 LFM 8°C/W @ 400 LFM 7.9°C/W @ 400 LFM 7.9°C/W @ 400 LFM 7.9°C/W @ 400 LFM 5.9°C/W @ 400 LFM 5.9°C/W @ 400 LFM 5.9°C/W @ 400 LFM

Material: Aluminum, Pre-anodized Black (PAB), Anodized Black (AB) 275 AND 231 SERIES

MECHANICAL DIMENSIONS

NATURAL AND FORCED CONVECTION CHARACTERISTICS

TAB 13H

All versions No Tab

TAB 14V

TAB 13V

NATURAL AND FORCED CONVECTION CHARACTERISTICS

TAB 01 TAB 10 TAB 15V TAB 13H

Dimensions: in. (mm)

26


Board Level Heat Sinks

BOARD LEVEL POWER SEMICONDUCTOR HEAT SINKS 235 SERIES Standard P/N

Compact, Stress-Free Labor-Saving Locking-Tab Heat Sinks

Height Above PC Board in. (mm)

Footprint Dimensions in. (mm)

.850 (21.6) 1.000 (25.4) x 235-85AB 235-85ABE-01 .850 (21.6) 1.000 (25.4) x 235-85ABE-05 .500 (12.7) .850 (21.6) x 235-85ABE-10 .975 (24.8) 1.000 (25.4) x Material: Aluminum, Black Anodized

PATENT 5381041

235-85AB

.500 (12.7) .500 (12.7) 1.000 (25.4) .500 (12.7)

TO-220

Mounting Configuration

Solderable Tab Options

Mounting Style

Vert./Horiz. Vertical Horizontal Vertical

No Tab 01 05 10

Clip/Mtg Hole Clip/Mtg Hole Clip/Mtg Hole Clip/Mtg Hole

MECHANICAL DIMENSIONS

Thermal Performance at Typical Load Natural Forced Convection Convection 40°C @ 2W 40°C @ 2W 40°C @ 2W 40°C @ 2W

6.8°C/W @ 400 LFM 6.8°C/W @ 400 LFM 6.8°C/W @ 400 LFM 6.8°C/W @ 400 LFM

NATURAL AND FORCED CONVECTION CHARACTERISTICS

235 SERIES

235-85AB-05 235-85AB-01

235-85AB-10

Dimensions: in. (mm)

243 SERIES Standard P/N

Labor-Saving Clip-On Heat Sinks

Height Above PC Board in. (mm)

Footprint Dimensions in. (mm)

243-1PAB 1.000 (25.4) .800 (20.3) x .270 (6.9) 243-3PAB .800 (20.3) .800 (20.3) x .270 (6.9) Material: Aluminum, Pre-anodized Black

TO-220

Mounting Configuration

Solderable Tab Options

Mounting Style

Vert./Horiz. Verl./Horiz.

No Tab No Tab

Clip Clip

Thermal Performance at Typical Load Natural Forced Convection Convection 50°C@ 2W 78°C@ 2W

4.5°C/W @ 400 LFM 8.2°C/W @ 400 LFM

NATURAL AND FORCED CONVECTION CHARACTERISTICS

MECHANICAL DIMENSIONS 243 SERIES

VIEW B-B

SECTION A-A

Dimensions: in. (mm)

239 SERIES Standard P/N

Snap-Down Self-Locking Heat Sinks

Height Above PC Board in. (mm)

Footprint Dimensions in. (mm)

239-75AB .750 (19.1) 1.120 (28.4) x .435 (11.0) 239-75ABE-03 .750 (19.1) 1.120 (28.4) x .435 (11.0) 239-75ABE-04 .750 (19.1) 1.120 (28.4) x .435 (11.0) Material: Aluminum, Black Anodized

PATENT PENDING

Mounting Configuration

Solderable Tab Options

Mounting Style

Vert./Horiz Vertical Vertical

No Tab 03 04

Clip/Mtg Hole Clip/Mtg Hole Clip/Mtg Hole

239 SERIES

MECHANICAL DIMENSIONS

TO-220

SECTION A-A

Thermal Performance at Typical Load Natural Forced Convection Convection 38°C @ 2W 38°C @ 2W 38°C @ 2W

6°C/W @ 400 LFM 6°C/W @ 400 LFM 6°C/W @ 400 LFM

NATURAL AND FORCED CONVECTION CHARACTERISTICS

239-75AB

239-75AB-03 239-75AB-04

Dimensions: in. (mm)

27


Board Level Heat Sinks

BOARD LEVEL POWER SEMICONDUCTOR HEAT SINKS 265 SERIES

Standard P/N 265-118ABHE-22

Vertical Mount Heat Sink

TO-220

Height Above PC Board in. (mm)

Maximum Footprint in. (mm)

1.18 (30.0)

1.00 (25.4) x .50 (12.7)

Thermal Performance at Typical Load Natural Convection Forced Convection 56째C rise @ 4W

7.0째C/W @ 200LFM

Material: Aluminum, Black Anodized

NATURAL AND FORCED CONVECTION CHARACTERISTICS

286DB SERIES

100

0

200

AIR VELOCITY (LFM)

400

600

800

80

8

60

6

40

4

20

0

1000 10

THERMAL RESISTANCE SINK TO AMBIENT (C)

HEAT SINK TEMPERATURE RISE ABOVE AMBIENT AIR (C)

MECHANICAL DIMENSIONS

2

0

200 2

400 4

600 6

HEAT DISSIPATED (WATTS)

800 8

0 1000 10

Vertical Mount Heat Sink

TO-220

Standard P/N

Height Above PC Board in. (mm)

Maximum Footprint in. (mm)

286DBE

.95 (24.1)

1.00 (25.4) x .50 (12.7)

Thermal Performance at Typical Load Natural Convection Forced Convection 65째C rise @ 4W

9.0째C/W @ 200LFM

Material: Aluminum, Black Anodized

NATURAL AND FORCED CONVECTION CHARACTERISTICS

28

100

0

200

AIR VELOCITY (LFM)

400

600

800

80

8

60

6

40

4

20 0

1000 10

THERMAL RESISTANCE SINK TO AMBIENT (C)

HEAT SINK TEMPERATURE RISE ABOVE AMBIENT AIR (C)

MECHANICAL DIMENSIONS

2

0

2 200

4 400

6 600

HEAT DISSIPATED (WATTS)

8 800

0 10 1000


Board Level Heat Sinks

BOARD LEVEL POWER SEMICONDUCTOR HEAT SINKS 273 SERIES

Low-Cost, Low-Height Wavesolderable Heat Sinks

Height Above PC Board in. (mm)

Standard P/N

Footprint Dimensions in. (mm)

Mounting Configuration

Solderable Tab Options

Mounting Style

Vert./Horiz. Vertical Vertical

No Tab 01 02

Mtg Hole Mtg Hole Mtg Hole

49°C @ 2W 49°C @ 2W 49°C @ 2W

.375 (9.5) .750 (19.1) x .750 (19.1) 273-AB .375 (9.5) .750 (19.1) x .750 (19.1) 273-ABE-01 273-ABE-02 .375 (9.5) .750 (19.1) x .750 (19.1) Material: Aluminum, Black Anodized

MECHANICAL DIMENSIONS

TO-218, TO-220

Thermal Performance at Typical Load Natural Forced Convection Convection 7.2°C/W @ 400 LFM 7.2°C/W @ 400 LFM 7.2°C/W @ 400 LFM

NATURAL AND FORCED CONVECTION CHARACTERISTICS

273 SERIES

273-AB 273-AB-01

273-AB-02

Dimensions: in. (mm)

274 & 281 SERIES

Material: Aluminum, Black Anodized

Standard P/N 274-1AB 274-1ABE-01 274-1ABE-02 274-2AB 274-2ABE-01 274-2ABE-02 274-3AB 274-3ABE-01 274-3ABE-02 281-1AB 281-2AB

Height Above PC Board in. (mm) .375 (9.5) .375 (9.5) .375 (9.5) .500 (12.7) .500 (12.7) .500 (12.7) .250 (6.4) .250 (6.4) .250 (6.4) .375 (9.5) .500 (12.7)

Low-Cost, Low-Height Wavesolderable Heat Sinks Footprint Dimensions in. (mm) .520 (13.2) x .750 (19.1) .520 (13.2) x .750 (19.1) .520 (13.2) x .750 (19.1) .520 (13.2) x .750 (19.1) .520 (13.2) x .750 (19.1) .520 (13.2) x .750 (19.1) .520 (13.2) x .750 (19.1) .520 (13.2) x .750 (19.1) .520 (13.2) x .750 (19.1) .520 (13.2) x .750 (19.1) .520 (13.2) x .750 (19.1)

MECHANICAL DIMENSIONS

Mounting Configuration Vert./Horiz. Vertical Vertical Vert./Horiz. Vertical Vertical Vert./Horiz. Vertical Vertical Vertical Vertical

Solderable Tab Options No Tab 01 02 No Tab 01 02 No Tab 01 02 No Tab No Tab

TO-220

Mounting Style Mtg Hole Mtg Hole Mtg Hole Mtg Hole Mtg Hole Mtg Hole Mtg Hole Mtg Hole Mtg Hole Mtg Hole Mtg Hole

NATURAL AND FORCED CONVECTION CHARACTERISTICS

274 SERIES 274-XAB-02

274-XAB-01

274 SERIES

Thermal Performance at Typical Load Natural Forced Convection Convection 56°C @ 2W 8.0°C/W @ 400 LFM 56°C @ 2W 8.0°C/W @ 400 LFM 56°C @ 2W 8.0°C/W @ 400 LFM 50°C @ 2W 7.0°C/W @ 400 LFM 50°C @ 2W 7.0°C/W @ 400 LFM 50°C @ 2W 7.0°C/W @ 400 LFM 62°C @ 2W 9.0°C/W @ 400 LFM 62°C @ 2W 9.0°C/W @ 400 LFM 62°C @ 2W 9.0°C/W @ 400 LFM 56°C @ 2W 8.0°C/W @ 400 LFM 50°C @ 2W 7.0°C/W @ 400 LFM

281 SERIES

Dimensions: in. (mm)

240 SERIES Standard P/N

Labor-Saving Twisted Fin Heat Sinks Height Above PC Board in. (mm)

Footprint Dimensions in. (mm)

240-118ABEH-22 1.180 (30.0) 1.000 (25.4) x .500 (12.7) 240-118ABES-22 1.180 (30.0) 1.000 (25.4) x .500 (12.7) Material: Aluminum, Black Anodized

MECHANICAL DIMENSIONS

240 SERIES

TO-220

Mounting Configuration

Solderable Tab Options

Mounting Style

Vertical Vertical

22 22

Clip/Mtg Hole Clip/Mtg Slot

Thermal Performance at Typical Load Natural Forced Convection Convection 55°C @ 4W 55°C @ 4W

5.3°C/W @ 400 LFM 5.3°C/W @ 400 LFM

NATURAL AND FORCED CONVECTION CHARACTERISTICS

240-118ABS-22

240-118ABH-22

Dimensions: in. (mm)

29


Board Level Heat Sinks

BOARD LEVEL POWER SEMICONDUCTOR HEAT SINKS Low-Height, Low-Profile Twisted Fin Heat Sinks

242 SERIES

Height Above PC Board in. (mm)

Standard P/N

Footprint Dimensions in. (mm)

Mounting Solderable Configuration Tab Options

242-125ABE-22 1.285 (32.6) .875 (22.2) x .250 (6.4) Material: Aluminum, Black Anodized 242-125AB-22

Vertical

22

TO-220

Mounting Style

Thermal Performance at Typical Load Natural Forced Convection Convection

Mtg Hole

48°C @ 2W

242 SERIES

MECHANICAL DIMENSIONS

6.2°C/W @ 400 LFM

NATURAL AND FORCED CONVECTION CHARACTERISTICS

Dimensions: in. (mm)

232 & 238 SERIES

Material: Aluminum, Black Anodized

Staggered Fin Heat Sinks for Vertical Mounting

TO-202, TO-220

Standard P/N

Height Above PC Board in. (mm)

Footprint Dimensions in. (mm)

Mounting Configuration

Solderable Tab Options

Mounting Style

232-200AB 232-200ABE-23 238-200AB 238-200ABE-23

2.000 (50.8) 2.000 (50.8) 2.000 (50.8) 2.000 (50.8)

1.380 (35.1) x .500 (12.7) 1.380 (35.1) x .500 (12.7) 1.380 (35.1) x .500 (12.7) 1.380 (35.1) x .500 (12.7)

Vertical Vertical Verlical Verlical

2, Twisted 2, Solderable 2, Twisted 2, Solderable

Clip/Mtg Hole Clip/Mtg Hole Mtg Slot Mtg Slot

MECHANICAL DIMENSIONS 232-200AB

238-200AB 232-200AB-23

Thermal Performance at Typical Load Natural Forced Convection Convection 48°C @ 4W 48°C @ 4W 48°C @ 4W 48°C @ 4W

3.3°C/W @ 400 LFM 3.3°C/W @ 400 LFM 3.3°C/W @ 400 LFM 3.3°C/W @ 400 LFM

NATURAL AND FORCED CONVECTION CHARACTERISTICS

238-200AB-23

232 AND 238 SERIES

238 SERIES

Dimensions: in. (mm)

251 SERIES Standard P/N

Slim-Profile Heat Sinks With Integral Clips

Height Above PC Board in. (mm)

Footprint Dimensions in. (mm)

251-62AB .620 (15.7) .910 (23.1) x .380 (9.7) 251-80AB .845 (21.5) .910 (23.1) x .380 (9.7) 251-80ABE-19 .875 (22.2) .910 (23.1) x .380 (9.7) Material: Aluminum, Black Anodized

MECHANICAL DIMENSIONS

15 Lead Multiwatt

Mounting Configuration

Solderable Tab Options

Mounting Style

Vert./Horiz. Vert./Horiz. Vertical

No Tab No Tab 19

Clip Clip Clip

251-80AB-19

251-62AB

Dimensions: in. (mm)

30

66°C @ 3W 64°C @ 3W 64°C @ 3W

66°C/W @ 400 LFM 66°C/W @ 400 LFM 66°C/W @ 400 LFM

NATURAL AND FORCED CONVECTION CHARACTERISTICS

251 SERIES

251-80AB

Thermal Performance at Typical Load Natural Forced Convection Convection


Board Level Heat Sinks

BOARD LEVEL HEAT SINKS FOR TO-220, TO-218 AND MULTIWATT™ COMPONENTS 244 SERIES Standard P/N

Low Height, Slim Profile Wavesolderable Folded Fin Heat Sinks Height Above PC Board in. (mm)

Footprint Dimensions in. (mm)

244-145AB 1.450 (36.8) 1.300 (33.0) x 480 (12.1) 244-145ABE-50 1.650 (41.9) 1.300 (33.0) x 480 (12.1) Material: Aluminum, Black Anodized

Mounting Configuration

Solderable Tab Options

Vert/Horiz, Vertical

No Tab 50

MULTIWATT

Thermal Performance at Typical Load Natural Forced Convection Convection 44°C @ 4W 44°C @ 4W

4.4°C/W @ 400 LFM 4.4°C/W @ 400 LFM

Weight lbs. (grams) .0160 (7.25) .0170 (7.20)

MECHANICAL DIMENSIONS

Dimensions: in. (mm)

245 SERIES Standard P/N

Low Height, Slim Profile Wavesolderable Folded Fin Heat Sinks Height Above PC Board in. (mm)

Footprint Dimensions in. (mm)

245-145AB 1.450 (36.8) 1.750 (44.5) x .380 (9.7) 245-145ABE-50 1.650 (41.9) 1.750 (44.5) x .380 (9.7) Material: Aluminum, Black Anodized

Mounting Configuration

Solderable Tab Options

Ver.t/Horiz. Vertical

No Tab 50

MULTIWATT

Thermal Performance at Typical Load Natural Forced Convection Convection 38°C @ 4W 38°C @ 4W

3.2°C/W @ 400 LFM 3.2°C/W @ 400 LFM

Weight lbs. (grams) .0160 (7.25) .0170 (7.20)

MECHANICAL DIMENSIONS

Dimensions: in. (mm)

246 SERIES Standard P/N

Medium Height, Slim Profile Wavesolderable Folded Fin Heat Sinks Height Above PC Board in. (mm)

Footprint Dimensions in. (mm)

Mounting Configuration

246-197AB 1.968 (50.0) 1.986 (50.4) x 3.75 (9.5) Vert./Horiz. 246-197ABE-50 2.168 (55.1) 1.986 (50.4) x 3.75 (9.5) Vertical Order SpeedClip™ 285SC or 330SC separately. (See 248 Series section). Material: Aluminum, Black Anodized

Solderable Tab Options No Tab 50

MULTIWATT

Thermal Performance at Typical Load Natural Forced Convection Convection 35°C @ 4W 35°C @ 4W

2.8°C/W @ 400 LFM 2.8°C/W @ 400 LFM

Weight lbs. (grams) .0240 (10.90) .0250 (11.40)

MECHANICAL DIMENSIONS

Dimensions: in. (mm)

31


Board Level Heat Sinks

BOARD LEVEL HEAT SINKS FOR TO-220, TO-218 AND MULTIWATT™ COMPONENTS Medium Height, Deep Profile Wavesolderable Folded Fin Heat Sinks

247 SERIES Standard P/N

Height Above PC Board in. (mm)

Footprint Dimensions in. (mm)

Mounting Configuration

247-195AB 1.950 (49.5) 1.900 (48.3) x .950 (24.1) Vert./Horiz. Vertical 247-195ABE-50 1.950 (49.5) 1.900 (48.3) x .950 (24.1) Order SpeedClip™ 285SC or 330SC separately. (See 248 Series section). Material: Aluminum, Black Anodized

Solderable Tab Options No Tab 50

MULTIWATT

Thermal Performance at Typical Load Natural Forced Convection Convection 25°C@ 4W 25°C@ 4W

2.4°C/W @ 400 LFM 2.4°C/W @ 400 LFM

Weight lbs. (grams) .0330 (15.10) .0340 (15.60)

MECHANICAL DIMENSIONS

Dimensions: in. (mm)

248 SERIES Standard P/N

Low Height, Medium Profile Wavesolderable Folded Fin Heat Sinks

Height Above PC Board in. (mm)

Footprint Dimensions in. (mm)

248-162AB 1.620 (41.1) 2.000 (50.8) x .750 (19.1) 248-162ABE-50 1.620 (41.1) 2.000 (50.8) x .750 (19.1) Order SpeedClip™ 285SC or 330SC separately. Material: Aluminum, Black Anodized

Mounting Configuration

Solderable Tab Options

Vert/Horiz. Vertical

No Tab 50

MULTIWATT

Thermal Performance at Typical Load Natural Forced Convection Convection 35°C @ 4W 35°C @ 4W

2.5°C/W @ 400 LFM 2.5°C/W @ 400 LFM

Weight lbs. (grams) .026 (11.60) .027 (12.20)

Order SpeedClips™ separately for use with Series 246, 247, 248 or 249

MECHANICAL DIMENSIONS

Dimensions: in. (mm)

249 SERIES Standard P/N

Medium Height, Deep Profile Wavesolderable Folded Fin Heat Sinks Height Above PC Board in. (mm)

Footprint Dimensions in. (mm)

Mounting Configuration

249-113AB 1.130 (28.7) 1.900 (48.3) x .950 (24.1) Vert./Horiz, 249-113ABE-50 1.130 (28.7) 1.900 (48.3) x .950 (24.1) Vertical Order SpeedClip™ 285SC or 330SC separately. (See 248 Series section). Material: Aluminum, Black Anodized

MECHANICAL DIMENSIONS

Dimensions: in. (mm)

32

Solderable Tab Options No Tab 50

MULTIWATT

Thermal Performance at Typical Load Natural Forced Convection Convection 35°C@ 4W 35°C@ 4W

3.29°C/W @ 400 LFM 3.29°C/W @ 400 LFM

Weight lbs. (grams) .020 (8.90) .021 (9.40)


Board Level Heat Sinks

BOARD LEVEL POWER SEMICONDUCTOR HEAT SINKS 288 SERIES

Compact Wave-Solderable Low-Cost Heat Sinks

Standard P/N

Height Above PC Board in. (mm)

Maximum Footprint in. (mm)

288-1ABE

1.250 (31.8)

0.875 (22.2) x 0.215 (5.5)

TO-220, TO-202

Thermal Performance at Typical Load Natural Forced Convection Convection

Mounting tabs are pre-tinned to ensure excellent wave-solder bond and good electrical connections for vertical mounting of TO-220 and TO-202 semiconductor packages. These heat sinks are designed for use where minimum PC board

85°C @ 4W

12°C/W @ 200 LFM

Weight lbs. (grams) 0.0057 (2.59)

space is available. The 288-1AB is a stamped aluminum heat sink, black anodized, designed for applications requiring good heat dissipation from a heat sink occupying minimum space, available at minimum cost.

288 SERIES

MECHANICAL DIMENSIONS

NATURAL AND FORCED CONVECTION CHARACTERISTICS

Dimensions: in. (mm)

271 SERIES

Standard P/N 271-AB

Top-Mount Booster Heat Sinks for Use with 270/272/280 Series

Height Above Semiconductor Case in. (mm)

Horizontal Mounting Footprint Dimensions in. (mm)

0.500 (12.7)

1.750 (44.5) x 0.700 (17.8)

TO-220

Thermal Performance at Typical Load Natural Forced Convection Convection 62°C @ 4W (NOTE A) 31 °C @ 4W (NOTE B)

5.1°C/W @ 400 LFM 1.8°C/W 400 LFM (NOTE B)

Weight lbs. (grams) 0.0052 (2.36)

Material: Aluminum, Black Anodized This top-hat style booster heat sink can be added to any of the 270, 272, or 280 Series for improved performance.

MECHANICAL DIMENSIONS

NOTE A: Thermal resistance with one 271-AB. NOTE B: Thermal resistance (total) as shown with (2) 271-AB types added to (1) 272-AB type.

271 SERIES NATURAL AND FORCED CONVECTION CHARACTERISTICS

Dimensions: in. (mm)

33


Board Level Heat Sinks

BOARD LEVEL POWER SEMICONDUCTOR HEAT SINKS 270/272/280 SERIES Standard P/N

Small Footprint Low-Cost Heat Sinks

Height Above PC Board in. (mm)

Horizontal Mounting Maximum Footing in. (mm)

0.375 (9.4) 1.750 (44.5) x 0.700 (17.8) 270-AB 0.375 (9.4) 1.750 (44.5) x 1.450 (36.8) 272-AB 280-AB 0.375 (9.4) 1.750 (44.5) x 0.700 (17.8) Material: Aluminum, Black Anodized These exceptionally low-cost heat sinks can be mounted horizontally under a TO-220 or TO-202 case style with a maximum height of only 0.375 in. (9.4). For added performance, a 271 Series heat sink can also be used for double-sided heat dissipation.

Solderable Tab Options — 01,02 —

TO-220, TO-202

Thermal Performance at Typical Load Natural Forced Convection Convection

Weight lbs. (grams)

70°C @ 4W 42°C @ 4W 70°C @ 4W

0.0052 (2.36) 0.0105 (5.72) 0.0048 (2.18)

6.0°C/W @ 400 LFM 3.6°C/W @ 400 LFM 6.0°C/W @ 400 LFM

The 270-AB and 280-AB accept one power semiconductor; the 272-AB is designed for two power semiconductors. Specify solderable tab options for the 272 Series by the addition of suffix “O1” or “02” to the standard part number (i.e. 272-AB01 or 272-AB02). NATURAL AND FORCED CONVECTION CHARACTERISTICS

MECHANICAL DIMENSIONS

270 SERIES

280 SERIES

272AB01

272 SERIES

272AB02

Dimensions: in. (mm)

289 & 290 SERIES Standard P/N

Low-Cost Single or Dual Package Heat Sinks

Height Above PC Board in. (mm)

289-AB 0.500 (12.7) 289-AP 0.500 (12.7) 290-1AB 0.500 (12.7) 290-2AB 0.500 (12.7) Material: Aluminum, Black Anodized

Horizontal Mounting Maximum Footing in. (mm) 1.000 (25.4) x 0.710 (18.1) 1.000 (25.4) x 0.710 (18.1) 1.000 (25.4) x 1.180 (30.0) 1.000 (25.4) x 1.180 (30.0)

Low in cost and compact in overall dimensions, one 289 Series heat sink can accommodate one semiconductor; the 289 Series is available with a black an289 SERIES

MECHANICAL DIMENSIONS

Thermal Performance at Typical Load Natural Forced Convection Convection

Weight lbs. (grams)

50°C @ 2W 50°C @ 2W 44°C @ 2W 44°C @ 2W

0.0055 (2.49) 0.0055 (2.49) 0.0082 (3.72) 0.0081 (3.67)

9.0 C/W @ 400 LFM 9.0 C/W @ 400 LFM 7.0 C/W @ 400 LFM 7.0 C/W @ 400 LFM

odized finish (289-AB) or with no finish (289-AP). Two semiconductors can be mounted to the 290-2AB style. NATURAL AND FORCED CONVECTION CHARACTERISTICS

290 SERIES

Dimensions: in. (mm)

34

TO-218, TO-202, TO-220


Board Level Heat Sinks

BOARD LEVEL POWER SEMICONDUCTOR HEAT SINKS 250 SERIES

High-Performance Slim Profile Heat Sinks With Integral Clips Height Above PC Board in. (mm)

Standard P/N

Footprint Dimensions in. (mm)

1.220 (31.0) 1.000 (25.4) x .500 (12.7) 250-122AB 250-122ABE-09 1.220 (31.0) 1.000 (25.4) x .500 (12.7) 1.380 (35.1) 1.000 (25.4) x .500 (12.7) 250-122ABE-25 Material: Aluminum, Black Anodized 250 SERIES

MECHANICAL DIMENSIONS

Mounting Configuration

Solderable Tab Options

Mounting Style

Vert./Horiz. Vertical Vertical

No Tab 09 25

Clip Clip Clip

250-122AB-09

MULTIWATT Thermal Performance at Typical Load Natural Forced Convection Convection 50°C @ 4W 50°C @ 4W 50°C @ 4W

3.7°C/W @ 400 LFM 3.7°C/W @ 400 LFM 3.7°C/W @ 400 LFM

NATURAL AND FORCED CONVECTION CHARACTERISTICS

250-122AB-25

250-122AB

Dimensions: in. (mm)

High-Performance, High-Power Vertical Mount Heat Sinks

237 & 252 SERIES Height Above PC Board in. (mm)

Standard P/N

Footprint Dimensions in. (mm)

Mounting Configuration

Solderable Tab Options

Mounting Style

TO-220 Thermal Performance at Typical Load Natural Forced Convection Convection

237-167AB2 1.675 (42.5) 1.000 (25-4) x 1.000 (25.4) Vertical 2, Twisted Clip/Mtg Slot 46°C @ 4W 4.5°C/W @ 200 LFM 237-167AB3 1.675 (42.5) 1.000 (25.4) x 1.000 (25.4) Vertical 3, Twisted Clip/Mtg Slot 46°C @ 4W 4.5°C/W @ 200 LFM 237-167ABE2-24 1.675 (42.5) 1.000 (25.4) x 1.000 (25.4) Vertical 2, Solderable Clip/Mtg Slot 46°C @ 4W 4.5°C/W @ 200 LFM 252-167AB2 1.675 (42.5) 1.000 (25.4) x 1.000 (25.4) Vertical 2, Twisted Clip/Mtg Slot 40°C @ 4W 4.5°C/W @ 200 LFM 252-167AB3 1.675 (42.5) 1.000 (25.4) x 1.000 (25.4) Vertical 3, Twisted Clip/Mtg Slot 40°C @ 4W 4.5°C/W @ 200 LFM 252-167ABE2-24 1.675 (42.5) 1.000 (25.4) x 1.000 (25.4) Vertical 2, Solderable Clip/Mtg Slot 40°C @ 4W 4.5°C/W @ 200 LFM Order SpeedClips™ 285SC or 330SC separately for rapid component installation, lowering manufacturing costs. Material: Aluminum, Black Anodized

MECHANICAL DIMENSIONS

227-167

252-167

237-167AB2 252-167AB2

237-167AB2-24 252-167AB2-24

NATURAL AND FORCED CONVECTION CHARACTERISTICS

237 AND 252 SERIES

237-167AB3

252-167AB3

237 AND 252 SERIES 237-167AB3 252-167AB3

291 SERIES Standard P/N

Dimensions: in. (mm)

Labor-Saving Clip-on Heat Sinks Height Above PC Board in. (mm)

Vertical Mounting Footprint Dimensions in. (mm)

TO-220

Mounting Style

Thermal Performance at Typical Load Natural Forced Convection Convection

Weight lbs. (grams)

291-C236AB 0.860 (21.)9 1.100 (27.0) x 0.360 (9.1) TO-220 (Clip) 80°C @ 2W 24°C/W @ 600 LFM 0.0026 (1.18) 291-H36AB 0.860 (21.9) 1.100 (27.0) x 0.360 (9.1) TO-220 (Mtg. Hole) 68°C @ 2W 16°C/W @ 600 LFM 0.0026 (1.18)) Material: Aluminum, Black Anodized Designed for mounting horizontally or vertically on a circuit board, 291 Series One type is available with a locking clip and one with a 0.140 in. (3.6) diameter heat sinks employ a unique clip for attachment of TO-220 case styles. mounting hole only. 291 SERIES

MECHANICAL DIMENSIONS

NATURAL AND FORCED CONVECTION CHARACTERISTICS

Dimensions: in. (mm) 291-C2

291-H

35


Board Level Heat Sinks

BOARD LEVEL POWER SEMICONDUCTOR HEAT SINKS 286 SERIES

Aluminum and Copper Low-Cost Wave-Solderable Heat Sinks

TO-220

See also 286DB Series on Page 7.

Standard P/N

Height Above PC Board in. (mm)

Maximum Footprint in. (mm)

Material

286-AB 286-CBTE 286-CTE

1.190 (30.2) 1.190 (30.2) 1.190 (30.2)

1.000 (25.4) x 0.500 (12.7) 1.000 (25.4) x 0.500 (12.7) 1.000 (25.4) x 0.500 (12.7)

Aluminum, Anodized Copper, Black Copper, Tinned

Efficient heat removal at low cost can be achieved by inserting the 286 Series directly into pre-drilled circuit boards; scored mounting tabs may be bent after insertion to provide added stability. The 286 Series can be wavesoldered directly to

Thermal Performance at Typical Load Natural Forced Convection Convection 58°C @ 4W 58°C @ 4W 58°C @ 4W

Weight lbs. (grams)

7.4°CW @ 200 LFM 7.4°CW @ 200 LFM 7.4°CW @ 200 LFM

0.0085 (3.86) 0.0250 (11.34) 0.0250 (11.34)

the board. Material: 286-AB style (aluminum, black anodized), 286-CBT style (copper, black paint tin tabs), and 286-CT style (copper, tinned).

NATURAL AND FORCED CONVECTION CHARACTERISTICS

MECHANICAL DIMENSIONS 286 SERIES

Dimensions: in. (mm)

287 SERIES

Wave-Solderable Low-Cost Heat Sinks

Standard P/N Mounting Slot Mounting Hole

Height Above PC Board in. (mm)

287-1ABE 287-1ABH 1.180 (30.0) 287-2ABE 287-2ABH 1.180 (30.0) Material: Aluminum, Black Anodized

Maximum Footprint “A” in. (mm)

Thermal Performance at Typical Load Natural Forced Convection Convection

1.000 (25.4) x 0.500 (12.7) 1.000 (25.4) x 1.000 (25.4)

Mount these cost-effective TO-220 heat sinks vertically into pre-drilled printed circuit boards. Soldered, pre-tinned tabs can be wavesoldered directly to the

MECHANICAL DIMENSIONS

TO-220

65°C @ 4W 55°C @ 4W

Weight lbs. (grams)

7.8°CW @ 200 LFM 6.4°CW @ 200 LFM

0.0090 (4.08) 0.0140 (6.35)

board. A 0.375 in. (9.5 mm) mounting slot allows for correct positioning of TO220 and similar semiconductor packages.

287 SERIES

NATURAL AND FORCED CONVECTION CHARACTERISTICS

Standard P/N 287-1AB 287-2AB 287-1ABH 287-2ABH

Dim. “A” 0.500 (12.7) 1.000 (25.4) 0.500 (12.7) 1.000 (25.4)

Dimensions: in. (mm)

285 & 330 SERIES Standard P/N 285 SC 330 SC

285 SC and 330 SC SpeedClips™ Nominal Installed Loading Force

For Use With Series

Material

Weight lbs. (grams)

10 lbs 4 lbs

232, 237, 240, 252, 667 232, 237, 240, 252, 667

Carbon Steel Stainless Steel

0.00053 (0.24) 0.00074 (0.34)

SpeedClips™ employ a locking safety tab for mounting. Must be ordered separately for these heat sink series. Use these SpeedClips™ with our 237, 240, and 252 Series heat sinks for the lowest production assembly time and cost. Order

MECHANICAL DIMENSIONS

Dimensions: in. (mm)

36

Zif Socket 8 And 387 SPGA LIF

one SpeedClip™ for each heat sink purchased. Must be purchased with heat sinks.

Speed Clip 330 SC

Speed Clip 285 SC

4 lb (17.8N) Nominal Force Installed

10 lb (44.5N) Nominal Force Installed


Board Level Heat Sinks

BOARD LEVEL POWER SEMICONDUCTOR HEAT SINKS 695 SERIES Standard P/N 695-1B

Space-Saving Heat Sinks for Small Stud-Mounted Diodes Maximum Width in. (mm)

Height in. (mm)

1.330 (33.8)

0.530 (13.7)

Thermal Performance at Typical Load Natural Forced Convection Convection 72°C @ 4.0W

Mount and effectively heat sink small stud-mounted diodes with the 695 Series space-saving heat sink type. Each unit is black anodized aluminum with an 0.200 in. (5.1) dia. mounting hole centered in the base. The folded fin design

5.2°C/W @ 400 LFM

Weight lbs. (grams) 0.008 (4.0)

provides good heat dissipation for use where height is limited above the printed circuit board or base plate.

NATURAL AND FORCED CONVECTION CHARACTERISTICS

695 SERIES

MECHANICAL DIMENSIONS

STUD-MOUNT

Dimensions: in. (mm)

260 SERIES

Cup Clips for TO-5 Case Style Semiconductors

Characteristics

TO-5

Thermal Resistance – Epoxy Insulated Breakdown Voltage – Epoxy Type (VAC), 60 Hz Recommended Operating Voltage, AC or DC Clean Conditions: % Hipot Rating Dusty Conditions: % Hipot Rating Dirty Conditions: % Hipot Rating Temperature Range — Continuous (C°)

14° C/W 500 50 30 10 to 20 -73/+149

TO-5

Depth of Tapped Base

Model 260-4T5E 260-4TH5E

Thread Size: Mounting Style:

0.093 (2.36) 0.125 (3.18)

4 6 T S P

= = = = =

#4-40 UNC #6-32 UNC tapped stud plain

Base Style: H = hex Semiconductor Case Style: 5 = TO-5 Insulation E = epoxy

TO-5 CASE STYLE CUP CLIPS — ORDERING GUIDE Standard P/N 260-4T5E 260-4TH5E 260-6SH5E

Insulation Type

Outline Dimension L x W x I.D. in. (mm)

Weight lbs. (grams)

Case Style

Epoxy Insulated Epoxy Insulated Epoxy Insulated

0.370 (9.4) x 0.380 (9.7) dia. x 0.290 (7.4) 0.400 (10.2) x 0.370 (9.4) hex. x 0.290 (7.4) 0.557 (14.1) x 0.370 (9.4) hex. x 0.290 (7.4)

0.0024 (1.09) 0.0031 (1.41) 0.0037 (1.68)

TO-5 TO-5 TO-5

Materials and Finish: Cups – beryllium copper, black ebonol “C”; Bases – brass, black ebonol “C”

Base Mounting Configurations — TO-5 Plain Type — Epoxy bonded, or used with #4 pan head screws. Tapped Base — #4-40 UNC screw (not supplied) fits tapped hole. Care should be taken not to use too long a screw, which could short against the semiconductor case. For correct screw lengths: Correct Screw Length (L) = Depth of Base + Panel Thickness + Washer Thickness

Stud Mounting Base. #6-32 UNC. Nuts and washers not supplied. Stud hole must be slightly countersunk to ensure flat mounting.

To determine the correct mounting screw lengths, add dimensions as follows: Correct Screw Length (L) = Depth of Base + Panel Thickness + Washer Thickness

37


Board Level Heat Sinks

BOARD LEVEL POWER SEMICONDUCTOR HEAT SINKS 260 SERIES

Epoxy Insulated For TO-5

260-4T5E

260-4TH5E

258 SERIES Standard P/N 258

260-6SH5E

Thermal Links for Fused Glass Diodes

DIODES

Dimensions in. (mm)

Material

Finish

0.500 (12.7) x 0.250 (6.4) x 0.340 (8.6)

Aluminum

DeltaCoate™ 151 on all surfaces except solder pads and base

The thermal resistance from diode leads to chassis or heat sink is 12°C/watt, when unit is mounted with TYPE 120 Joint Compound. If a 10°C/watt chassis or

Weight lbs. (grams) 0.0018 (0.82)

sink to ambient impedance is available, the thermal resistance from the diode leads to ambient is reduced from about 150°C/watt to 22°C/watt.

MECHANICAL DIMENSIONS 258 SERIES

Dimensions: in. (mm)

292 SERIES Standard P/N 292-AB

Heat Sink for Single TO-92

TO-92

Height Above PC Board in. (mm)

Overall Fin Width in. (mm)

Thermal Performance Natural Convection

Finish

Weight lbs. (grams)

0.750 (19.1)

0. 600 (15.3)

0.225°C/W @ 0.250 W

Black Anodized

0.00049 (0.22)

Power semiconductors packaged in a TO-92 style plastic case can be cooled effectively at little additional cost with the addition of the 292-AB heat sink. The

MECHANICAL DIMENSIONS

Dimensions: in. (mm)

38

292-AB is effective over the typical power range of such devices. Material: Aluminum, Black Anodized

292 SERIES

NATURAL AND FORCED CONVECTION CHARACTERISTICS


Board Level Heat Sinks

BOARD LEVEL POWER SEMICONDUCTOR HEAT SINKS 634 SERIES

Slim Profile Unidirectional Fin Vertical Mount Heat Sink

Standard P/N Without Pin Plain Pin 634-10AB 634-10ABEP 634-15AB 634-15ABEP 634-20AB 634-20ABEP Material: Aluminum, Black Anodized.

Height Above PC Board in. (mm) 1.000 (25.4) 1.500 (38.1) 2.000 (50.8)

These slim profile unidirectional fin heat sinks offer users two assembly alternatives for vertically mounting TO-220 and TO-218 components. Models are available with or without wave-

MECHANICAL DIMENSIONS

TO-220 and TO-218

Footprint Dimensions in. (mm) 0.640 (16.26) x 0.640 (16.26) 0.640 (16.26) x 0.640 (16.26) 0.640 (16.26) x 0.640 (16.26)

Weight lbs. (grams) 0.016 (7.48 0.025 (11.21) 0.033 (14.95)

solderable pins on 0.40 in. (10.2) centers, making them ideal for a variety of applications where quick assembly is needed and space is at a premium.

634 SERIES TYPICAL THERMAL PERFORMANCE FOR 634-15ABP

Notes: 1. Thermal compound is assumed between device and heat sink. 2. Tab temp with longer heat sink (634-20ABP) will typically be about 15% cooler. Tab temp with shorter heat sink (634- I0ABP) will typically be about 25% higher.

Dimensions: in. (mm)

637 SERIES Standard P/N

High-Efficiency Heat Sinks For Vertical Board Mounting Height Above PC Board “A” in. (mm)

637-10ABEP 1.000 (25.4) 637-15ABEP 1.500 (38.1) 637-20ABEP 2.000 (50.8) 637-25ABEP 2.500 (63.5) Material: Aluminum, Black Anodized

Maximum Footprint in. (mm) 1.375 (34.9) x 0.500 (12.7) 1.375 (34.9) x 0.500 (12.7) 1.375 (34.9) x 0.500 (12.7) 1.375 (34.9) x 0.500 (12.7)

Wave-solderable pins on 1 in. centers for vertical mounting on printed circuit boards. Maximum semiconductor package width 0.625 in. (15.9). Use this heat sink where weight and

MECHANICAL DIMENSIONS

637 SERIES (EXTRUSION PROFILE 5183)

TO-220

Thermal Performance at Typical Load Natural Forced Convection Convection

Weight lbs. (grams)

76°C @ 6W 65°C @ 6w 55°C @ 6W 48°C @ 6W

0.023 (10.43) 0.035 (15.88) 0.050 (22.68) 0.062 (28.12)

5.8°C/W @ 200 LFM 5.5°C/W @ 200 LFM 4.7°C/W @ 200 LFM 4.2°C/W @ 200 LFM

board space occupied must be minimized. Refer to the Accessory products section for thermal interface materials, thermal compounds, and other accessories products.

NATURAL AND FORCED CONVECTION CHARACTERISTICS

Dimensions: in. (mm)

39


Board Level Heat Sinks

BOARD LEVEL POWER SEMICONDUCTOR HEAT SINKS 667 SERIES

Labor-Saving SpeedClip™ Heat Sinks for Vertical Board Mounting Height Above PC Board “A” in. (mm)

Standard P/N Plain Pin Standoff Pin

Maximum Footprint in. (mm)

TO-220

Thermal Performance at Typical Load Natural Forced Convection Convection

667-10ABPP 1.000 (25.4) 1.375 (34.9) x 0.500 (12.7) 667-10ABESP 667-15ABPP 1.500 (38.1) 1.375 (34.9) x 0.500 (12.7) 667-15ABESP 667-20ABESP 667-20ABPP 2.000 (50.8) 1.375 (34.9) x 0.500 (12.7) 667-25ABPP 2.500 (63.5) 1.375 (34.9) x 0.500 (12.7) 667-25ABESP Wave-solderable pins. Material: Aluminum, Black Anodized

76°C @ 6W 66°C @ 6W 58°C @ 6W 48°C @ 6W

Weight lbs (grams)

5.8°C/W @ 200 LFM 5.5°C/W @ 200 LFM 4.7°C/W @ 200 LFM 4.2°C/W @ 200 LFM

0.0240 (11.0) 0.0340 (15.6) 0.0460 (21.0) 0.0580 (26.2)

Excellent performance, choice of wave-solderable plain pins (PP-Type) or wave-solderable hex-shaped standoff pins (SP-Type), and reduced assembly cost. Note: Order 330 SC or 285 SC SpeedClip™ separately.

667 SERIES

0.044 (1.1) (STANDOFF)

0.156 (4.0)

Dimensions: in. (mm)

626 & 627 SERIES

Dimensions: in. (mm)

40

1000 5

80

4

40

AB

0A BP

60

P

66710ABP 667-2 5ABP

25 7-

20

Standard P/N

Height Above PC Board “A” in. (mm)

626 AND 627 SERIES

3 2 1

0 0

4

8

12

16

0 20

POWER DISSIPATION (WATTS)

High-Efficiency Heat Sinks for Vertical Board Mounting

626-10ABEP 627-10ABP 1.000 (25.4) 626-15ABEP 627-15ABP 1.500 (38.1) 626-20ABEP 627-20ABP 2.000 (50.8) 626-25ABEP 627-25ABP 2.500 (63-5) Wave-solderable pins. Material: Aluminum, Black Anodized

MECHANICAL DIMENSIONS

10 lb Nominal Force Installed

0.130 (3.3)

0.125 (3.2) DIA RAISED BOSS x 0.030 (0.8) HIGH

Standard P/N

Speed Clip 285SC

200

THERMAL RESISTANCE SINK TO AMBIENT (°C/WATT)

0.670 (17.0) A

0.062 (1.6) REF

4 lb Nominal Force Installed

0.093 (2.4) DIA

0

AIR VELOCITY (FPM) 400 600 800

100

66

0.180 DIA (4.6) 1.000 (25.4)

0.730 (18.5)

Speed Clip 330SC

7-1

1.375 (34.9) REF

PLAIN PINS "PP"

STANDOFF PINS "SP"

HEAT SINK TEMPERATURE RISE ABOVE AMBIENT (°C)

0.500 (12.7) REF

NATURAL AND FORCED CONVECTION CHARACTERISTICS

(EXTRUSION PROFILE 8073)

0.093 (2.4) DIA (NOMINAL)

66

MECHANICAL DIMENSIONS

Maximum Footprint in. (mm)

TO-218, TO-220

Thermal Performance at Typical Load Natural Forced Convection Convection

1.375 (34.9) x .500 (12.7) 1.375 (34.9) x .500 (12.7) 1.375 (34.9) x .500 (12.7) 1.375 (34.9) x .500 (12.7)

76°C @ 6W 65°C @ 6W 55°C @ 6W 48°C @ 6W

NATURAL AND FORCED CONVECTION CHARACTERISTICS

5.8°C/W @ 200 LFM 5.5°C/W @ 200 LFM 4.7°C/W @ 200 LFM 4.2°C/M @ 200 LFM


Board Level Heat Sinks

BOARD LEVEL POWER SEMICONDUCTOR HEAT SINKS 647 SERIES

High-Performance Heat Sinks for Vertical Board Mounting Height Above PC Board “A” in. (mm)

Standard P/N

647-1OABEP 1.000 (25.4) 1.500 (38.1) 647-15ABEP 1.750 (44.5) 647-175ABEP 647-20ABEP 2.000 (50.8) 647-25ABEP 2.500 (63.5) Material: Aluminum, Black Anodized

Maximum Footprint in. (mm) 1.650 (41.9) x 1.000 (25.4) 1.650 (41.9) x 1.000 (25.4) 1.650 (41.9) x 1.000 (25.4) 1.650 (41.9) x 1.000 (25.4) 1.650 (41.9) x 1.000 (25.4)

Wave-solderable pins on 1 in. centers for vertical mounting of larger devices on printed circuit boards. Maximum semiconductor package width: 0.625 (15.9). Refer to the Accessory

TO-220

Thermal Performance at Typical Load Natural Forced Convection Convection

Weight lbs. (grams)

42°C @ 6W 37°C @ 6W 34°C @ 6W 31°C @ 6W 25°C @ 6W

0.055 (24.95) 0.075 (34.02) 0.090 (40.82) 0.104 (47.17) 0.125 (56.70)

3.8°C/W @ 200 LFM 3.5°C/W @ 200 LFM 3.3°C/W @ 200 LFM 3.1°C/W @ 200 LFM 2.8°C/W @ 200 LFM

Products section for thermal interface materials, 126 Series silicone-free thermal compounds, and other accessories products.

MECHANICAL DIMENSIONS NATURAL AND FORCED CONVECTION CHARACTERISTICS

647 SERIES (EXTRUSION PROFILE 5195)

Dimensions: in. (mm)

657 SERIES Standard P/N

High-Performance Heat Sinks for Vertical Board Mounting

Height Above PC Board “A” in. (mm)

Maximum Footprint in. (mm)

657-10ABEP 1.000 (25.4) 1.650 (41.9) x 1.000 (25.4) 657-15ABEP 1.500 (38.1) 1.650 (41.9) x 1.000 (25.4) 657-20ABEP 2.000 (50.8) 1.650 (41.9) x 1.000 (25.4) 657-25ABEP 2.500 (63.5) 1.650 (41.9) x 1.000 (25.4) Wave-solderable pins. Material: Aluminum, Black Anodized

MECHANICAL DIMENSIONS

657 SERIES

TO-220, TO-247, TO-218

Thermal Performance at Typical Load Natural Forced Convection Convection 41°C @ 6W 38°C @ 6W 32°C @ 6W 25°C @ 6W

3.7°C/W @ 200 LFM 3.3°C/W @ 200 LFM 2.9°C/W @ 200 LFM 2.7°C/W @ 200 LFM

Weight lbs (grams) 0.0515 (23.36) 0.0760 (34.60) 0.1030 (47.00) 0.1250 (57.00)

NATURAL AND FORCED CONVECTION CHARACTERISTICS

657 SERIES (EXTRUSION PROFILE 6533)

Dimensions: in. (mm)

41


Board Level Heat Sinks

BOARD LEVEL POWER SEMICONDUCTOR HEAT SINKS 657 SERIES Standard P/N

High-Performance Notched Heat Sinks for Vertical Board Mounting Height Above PC Board “A” in. (mm)

Maximum Footprint in. (mm)

657-10ABEPN 1.000 (25.4) 1.650 (41.9) x 1.000 (25.4) 1.500 (38.1) 1.650 (41.9) x 1.000 (25.4) 657-15ABEPN 2.000 (50.8) 1.650 (41.9) x 1.000 (25.4) 657-20ABEPN 657-25ABEPN 2.500 (63.5) 1.650 (41.9) x 1.000 (25.4) Wave-solderable pins. Material: Aluminum, Black Anodized

MECHANICAL DIMENSIONS

657 SERIES

TO-220, TO-247, TO-218

Thermal Performance at Typical Load Natural Forced Convection Convection 41°C @ 6W 38°C @ 6W 32°C @ 6W 25°C @ 6W

3.7°C/W @ 200 LFM 3.3°C/W @ 200 LFM 2.9°C/W @ 200 LFM 2.7°C/W @ 200 LFM

NATURAL AND FORCED CONVECTION CHARACTERISTICS

657 SERIES (EXTRUSION PROFILE 6533)

Dimensions: in. (mm)

657 SERIES Standard P/N

High-Performance Heat Sinks with SpeedClips™ for Vertical Board Mounting Height Above PC Board “A” in. (mm)

Maximum Footprint in. (mm)

657-10ABEPSC 1.000 (25.4) 1.650 (41.9) x 1.000 (25.4) 657-15ABEPSC 1.500 (38.1) 1.650 (41.9) x 1.000 (25.4) 657-20ABEPSC 2.000 (50.8) 1.650 (41.9) x 1.000 (25.4) 657-25ABEPSC 2.500 (63.5) 1.650 (41.9) x 1.000 (25.4) Wave-solderable pins. Material: Aluminum, Black Anodized

MECHANICAL DIMENSIONS

657 SERIES

TO-220, TO-247, TO-218

Thermal Performance at Typical Load Natural Forced Convection Convection 41°C @ 6W 38°C @ 6W 32°C @ 6W 25°C @ 6W

3.7°C/W @ 200 LFM 3.3°C/W @ 200 LFM 2.9°C/W @ 200 LFM 2.7°C/W @ 200 LFM

NATURAL AND FORCED CONVECTION CHARACTERISTICS

657 SERIES (EXTRUSION PROFILE 6533)

Dimensions: in. (mm)

677 SERIES Standard P/N

High-Performance, High-Power Heat Sinks for Vertical Board Mounting Height Above PC Board “A” in. (mm)

Maximum Footprint in. (mm)

677-10ABEP 1.000 (25.4) 1.650 (41.9) x 1.000 (25.4) 677-15ABEP 1.500 (38.1) 1.650 (41.9) x 1.000 (25.4) 677-20ABEP 2.000 (50.8) 1.650 (41.9) x 1.000 (25.4) 677-25ABEP 2.500 (63.5) 1.650 (41.9) x 1.000 (25.4) Wave-solderable pins. Material: Aluminum, Black Anodized

MECHANICAL DIMENSIONS

677 SERIES

677 SERIES (EXTRUSION PROFILE 8719)

Dimensions: in. (mm)

42

TO-218, TO-220, TO-247 15-LEAD Multiwatt

Thermal Performance at Typical Load Natural Forced Convection Convection 52°C @ 6W 46°C @ 6W 40°C @ 6W 35°C @ 6W

3.1°C/W @ 200 LFM 2.8°C/W @ 200 LFM 2.5°C/W @ 200 LFM 2.2°C/W @ 200 LFM

NATURAL AND FORCED CONVECTION CHARACTERISTICS


Board Level Heat Sinks

BOARD LEVEL POWER SEMICONDUCTOR HEAT SINKS 690 SERIES Standard P/N

HIghest Efficiency/Lowest Unit Cost Heat Sinks Height Above PC Board in. (mm)

Thermal Performance at Typical Load Natural Forced Convection Convection

Outline Dimensions in. (mm)

1.310 (33.3) 690-3B 1.310 (33.3) 690-66B 690-220B 1.310 (33.3) Material: Aluminum, Black Anodized

1.860 (47.2)-sq 1.860 (47.2)-sq 1.860 (47.2)-sq

These low-cost heat sinks provide the most power dissipation at the lowest unit cost and are available in three standard types to mount and cool one TO-3 or TO-66 metal power semiconductor type or two plastic package TO-220 power semiconductor types. For higher power

TO-3, TO-66, TO-220

44°C @ 7.5W 44°C @ 7.5W 44°C @ 7.5W

2.0°C/W @ 400 LFM 2.0°C/W @ 400 LFM 2.0°C/W @ 400 LFM

Semiconductor Mounting Hole Pattern

Weight lbs. (grams)

(1) TO-3 (1) TO-66 (2) TO-220

0.0700 (31.75) 0.0700 (31.75) 0.0700 (31.75)

semiconductors, the 690 Series can dissipate up to 20 watts while maintaining a mounting surface temperature rise above ambient air temperature of no more than 91°C.

MECHANICAL DIMENSIONS NATURAL AND FORCED CONVECTION CHARACTERISTICS

SEMICONDUCTOR MOUNTING HOLES

690 SERIES TO-66

TO-3

*TWO TO-220’S

Dimensions: in. (mm)

680 SERIES Standard P/N

Maximum Efficiency Omnidirectional Heat Sinks Height Above PC Board “A” in. (mm)

680-5A 0.500 (12.7) 680-75A 0.750 (19.1) 680-10A 1.000 (25.4) 680-125A 1.250 (31.8) 680-5220 0.500 (12.7) 680-75220 0.750 (19.1) 680-10220 1.000 (25.4) 680-125220 1.250 (31.8) Material: Aluminum, Black Anodized

Horizontal Mounting Footprint Dimensions in. (mm)

MECHANICAL DIMENSIONS

Thermal Performance at Typical Load Natural Forced Convection Convection

1.810 (46.0)-sq 1.810 (46.0)-sq 1.810 (46.0)-sq 1.810 (46.0)-sq 1.810 (46.0)-sq 1.810 (46.0)-sq 1.810 (46.0)-sq 1.810 (46.0)-sq

Achieve optimum natural convection cooling per unit volume occupied above the printed circuit board for TO-3 (one semiconductor package per heat sink) or for two TO-220 style cases, when this low-cost heat sink is used. Any mounting attitude will provide free circulation of air in

TO-3, TO-220

70°C @ 7.5W 58°C @ 7.5W 52°C @ 7.5W 45°C @ 7.5W 7O°C @ 7.5W 58°C @ 7.5W 52°C @ 7.5W 45°C @ 7.5W

3.0°C/W @ 400 LFM 2.4°C/W @ 400 LFM 2.0°C/W @ 400 LFM 1.5°C/W @ 400 LFM 3.0°C/W @ 400 LFM 2.4°C/W @ 400 LFM 2.0°C/W @ 400 LFM 1.5°C/W @ 400 LFM

Semiconductor Mounting Hole Pattern

Weight lbs. (grams)

(1) TO-3 (1) TO-3 (1) TO-3 (1) TO-3 (2) TO-220 (2) TO-220 (2) TO-220 (2) TO-220

0.0700 (31.75) 0.0900 (40.82) 0.0980 (44.45) 0.1100 (49.90) 0.0700 (31.75) 0.0900 (40.82) 0.0980 (44.45) 0.1100 (49.90)

natural convection applications. These 680 Series heat sinks can also be specified without any semiconductor mounting hole pattern by specifying suffix “K” (Example: 680-5K).

680 SERIES

NATURAL AND FORCED CONVECTION CHARACTERISTICS

SEMICONDUCTOR MOUNTING HOLES A

220

K

Dimensions: in. (mm) TO-3

*TWO TO-220’S

43


Board Level Heat Sinks

BOARD LEVEL POWER SEMICONDUCTOR HEAT SINKS 601 & 603 SERIES

Low-Height Heat Sinks

Footprint Dimensions in. (mm)

Standard P/N

2.000 (50.8) x 1.250 (31.8) 601E 601F 2.000 (50.8) x 1.250 (31.8) 2.000 (50.8) x 1.250 (31.8) 601K 2.000 (50.8) x 2.000 (50.8) 603K Material: Aluminum Alloy, Black Anodized

DO-4/DO-5 Diodes

Height in. (mm)

Mounting Hole Dia. in. (mm)

Thermal Performance at Typical Load Natural Forced Convection Convection

0.562 (14.3) 0.562 (14.3) 0.562 (14.3) 0.562 (14.3)

0.200 (5.1) 0.270 (6.9) None None

52°C @ 5.0W 52°C @ 5.0W 52°C @ 5.0W 41°C @ 5.0W

Use these low-height heat sinks on printed circuit board applications for TO-66 power semiconductors and DO-4 and DO-5 diodes, where close board-to-board spacing and efficient heat

4.5°C/W @ 175 LFM 4.5°C/W @ 175 LFM 4.5°C/W @ 175 LFM 4.0°C/W @ 175 LFM

Weight lbs. (grams) 0.0500 (22.68) 0.0500 (22.68) 0.0500 (22.68) 0.0810 (36.74)

dissipation are required. The 601 and 603 Series may also be attached to enclosure panels or brackets using isolation hardware where necessary.

MECHANICAL DIMENSIONS

NATURAL AND FORCED CONVECTION CHARACTERISTICS

603 SERIES (EXTRUSION PROFILE 1284)

601 SERIES (EXTRUSION PROFILE 1284)

SEMICONDUCTOR MOUNTING HOLES K

E

F

Dimensions: in. (mm)

641 SERIES Standard P/N

641A 641K

Maximum Performance Natural Convection Heat Sink for all Metal-Case Semiconductors Outline Dimensions in. (mm)

Height in. (mm)

Mounting Hole Pattern

4.125 (104.8) x 3.000 (76.2) 4.125 (104.8) x 3.000 (76.2)

1.000 (25.4) 1.000 (25.4)

(1) TO-3 None

Available with a standard TO-3 mounting hole pattern predrilled for cost-effective mounting in limited-height applications, the 641 Series provides maximum performance in natural convection with an optimized heat sink surface area. The 641K type with an open channel area of

MECHANICAL DIMENSIONS

44

36°C @ 15W 36°C @ 15W

0.9°C/W @ 250 LFM 0.9°C/W @ 250 LFM

Weight lbs. (grams)

0.2900 (131.54) 0.2900 (131.54)

1.300 in. (33.0) and no predrilled mounting holes can be adapted to meet mounting requirements for most metal case power semiconductor types. Material: Aluminum Alloy, Black Anodized.

641 SERIES (EXTRUSION PROFILE 1371)

NATURAL AND FORCED CONVECTION CHARACTERISTICS SEMICONDUCTOR MOUNTING HOLES A

Dimensions: in. (mm)

Thermal Performance at Typical Load Natural Forced Convection Convection

TO-3

K


Extruded Heat Sinks

EXTRUDED HEAT SINKS FOR POWER SEMICONDUCTORS 621/623 SERIES Footprint Dimensions in. (mm)

Height in. (mm)

Mounting Hole Pattern

4.750 (120.6) x 1.500 (38.1) 4.750 (120.6) x 1.500 (38.1) 4.750 (120.6) x 3.000 (76.2) 4.750 (120.6) x 3.000 (76.2)

0.461 (11.7) 0.461 (11.7) 0.461 (11.7) 0.461 (11.7)

(1) TO-3 None (1) TO-3 None

Standard P/N 621A 621K 623A 623K

Low-Profile Heat Sinks for All Metal-Case Power Semiconductors

A general purpose yet efficient heat dissipator for TO-3 and virtually all other styles of metal case power semiconductor package types, the 621 and 623 Series low-profile flat back heat sinks find a wide variety of applications. The central channel between fins measures 1.300 in. (33.0) (min.) in

TO-3

Thermal Performance at Typical Load Natural Forced Convection Convection 75°C @ 15W 75°C @ 15W 52°C @ 15W 52°C @ 15W

2.0°C/W @ 250 LFM 2.0°C/W @ 250 LFM 1.5°C/W @ 250 LFM 1.5°C/W @ 250 LFM

Weight lbs. (grams) 0.1000 (45.36) 0.1000 (45.36) 0.2100 (95.26) 0.210O (95.26)

width, accommodating many types of packages. Mounting hole pattern "A" is predrilled for the standard TO-3 package. Material: Aluminum Alloy, Black Anodized.

MECHANICAL DIMENSIONS 621 AND 623 SERIES (EXTRUSION PROFILE 1327)

NATURAL AND FORCED CONVECTION CHARACTERISTICS SEMICONDUCTOR MOUNTING HOLES K

A

Dimensions: in. (mm)

301/302/303 SERIES Outline Dimensions in. (mm)

Length “A” in. (mm)

Mounting Hole (s) Pattern and Number

2.000 (50.8) x 2.000 (50.8) 2.000 (50.8) x 2.000 (50.8) 2.000 (50.8) x 2.000 (50.8) 2.000 (50.8) x 2.000 (50.8) 2.000 (50.8) x 2.000 (50.8) 2.000 (50.8) x 2.000 (50.8) 2.000 (50.8) x 2.000 (50.8) 2.000 (50.8) x 2.000 (50.8) 2.000 (50.8) x 2.000 (50.8) 2.000 (50.8) x 2.000 (50.8) 2.000 (50.8) x 2.000 (50.8)

0.750 (19.1) 0.750 (19.1) 0.750 (19.1) 1.500 (38.1) 1.500 (38.1) 1.500 (38.1) 1.500 (38.1) 3.000 (76.2) 3.000 (76.2) 3.000 (76.2) 3.000 (76.2)

None (1) 10-32UNF, 0.625 in. thread depth (1) 1⁄4 -28UNF, 0.625 in. thread depth (1) 10-32UNF, 0.625 in. thread depth (2) 10-32UNF, 0.625 in. thread depth (1) 1⁄4 -28UNF, 0.625 in. thread depth (2) 1⁄4 -28UNF, 0.625 in. thread depth (1) 10-32UNF, 0.625 in. thread depth (2) 10-32UNF, 0.625 in. thread depth (1) 1⁄4 -28UNF, 0.625 in. thread depth (2) 1⁄4 -28UNF, 0.625 in. thread depth

Standard P/N 301K 301M 301N 302M 302MM 302N 302NN 303M 303MM 303N 303NN

Compact Heat Sinks for Dual Stud-Mounted Semiconductor Cases

The large fin area in minimum total volume provided by the radial design of the 301/302/303 Series offers maximum heat transfer efficiency in natural convection. All types are available with one tapped mounting hole for rectifiers and other stud-mounting semiconductors; the

Thermal Performance at Typical Load Natural Forced Convection Convection 70°C @ 15W 70°C @ 15W 70°C @ 15W 50°C @ 15W 50°C @ 15W 5O°C @ 15W 50°C @ 15W 37°C @ 15W 37°C @ 15W 37°C @ 15W 37°C @ 15W

2.5°C/W @ 250 LFM 2.5°C/W @ 250 LFM 2.5°C/W @ 250 LFM 1.8°C/W @ 250 LFM 1.8°C/W @ 250 LFM 1.8°C/W @ 250 LFM 1.8°C/W @ 250 LFM 1.3°C/W @ 250 LFM 1.3°C/W @ 250 LFM 1.3°C/W @ 250 LFM 1.3°C/W @ 250 LFM

STUD-MOUNT

Weight lbs. (grams) 0.0580 (26.31) 0.0580 (26.31) 0.0580 (26.31) 0.1330 (60.33) 0.1330 (6033) 0.1330 (60.33) 0.1330 (60.33) 0.2680 (121.56) 0.2680 (121.56) 0.2680 (121.56) 0.2680 (121.56)

302 and 303 Series offer maximum cost savings with dual mounting locations (“MM” and “NN” mounting hole patterns) for two stud-mount devices. Material: Aluminum Alloy, Black Anodized.

MECHANICAL DIMENSIONS NATURAL AND FORCED CONVECTION CHARACTERISTICS SEMICONDUCTOR MOUNTING HOLES K

M

N

302 AND 303 SERIES

301 SERIES

SERIES 301 302 303

Dimensions: in. (mm)

45


Extruded Heat Sinks

EXTRUDED HEAT SINKS FOR POWER SEMICONDUCTORS Double-Surface Heat Sinks for TO-3 Case Styles

401 & 403 SERIES Standard P/N 401A 401F 401K 403A 403F 403K

Width in. (mm)

Overall Dimensions in. (mm)

Height in. (mm)

Semiconductor Mounting Hole Pattem

4.750 (120.7) 4.750 (120.7) 4.750 (120.7) 4.750 (120.7) 4.750 (120.7) 4.750 (120.7)

1.500 (38.1) 1.500 (38.1) 1.500 (38.1) 3.000 (76.2) 3.000 (76.2) 3.000 (76.2)

1.250 (31.8) 1.250 (31.8) 1.250 (31.8) 1.250 (31.8) 1.250 (31.8) 1.250 (31.8)

(1) TO-3 0.270 in. (6.9)-Dia Hole None (1) TO-3 0.270 in. (6.9)-Dia Hole None

With fins oriented vertically in cabinet sidewall applications, 401 and 403 Series heat sinks are recommended for critical space applications where maximum heat dissipation is required for high-power TO-3 case styles. Forced convection performance is also exemplary with these double surface fin types. Semiconductor mounting hole style “F” offers a single centered 0.270

TO-3; Stud-Mount

Thermal Performance at Typical Load Natural Convection Forced Convection 80°C @ 30W 80°C @ 30W 80°C @ 30W 55°C @ 30W 55°C @ 30W 55°C @ 30W

1.5°C/W @ 250 LFM 1.5°C/W @ 250 LFM 1.5°C/W @ 250 LFM 0.9°C/W @ 250 LFM 0.9°C/W @ 250 LFM 0.9°C/W @ 250 LFM

Weight lbs. (grams) 0.1500 (68.04) 0.1500 (68.04) 0.1500 (68.04) 0.3500 (158.76) 0.3500 (158.76 0.3500 (158.76)

in. (6.9)-diameter mounting hole (with a 0.750 in. (19.1)-diameter area free of anodize) for mounting stud-type diodes and rectifiers. Hole pattem “V" available upon request. Material: Aluminum Alloy, Black Anodized.

MECHANICAL DIMENSIONS

NATURAL AND FORCED CONVECTION CHARACTERISTICS

401 SERIES

403 SERIES

Dimensions: in. (mm)

SEMICONDUCTOR MOUNTING HOLES

A

V

K

F

401 AND 403 SERIES (EXTRUSION PROFILE 1024)

413/421/423 SERIES Standard P/N 413A 413F 413K 421A 421F 421K 423A 423K

Low-Height Double-Surface Heat Sinks for TO-3 Case Styles and Diodes

Width in. (mm)

Nominal Dimensions Length in. (mm)

Height “A” in. (mm)

4.750 (120.7) 4.750 (120.7) 4.750 (120.7) 4.750 (120.7) 4.750 (120.7) 4.750 (120.7) 4.750 (120.7) 4.750 (120.7)

3.000 (76.2) 3.000 (76.2) 3.000 (76.2) 3.000 (76.2) 3.000 (76.2) 3.000 (76.2) 5.500 (140.2) 5.500 (140.2)

1.875 (47.6) 1.875 (47.6) 1.875 (47.6) 2.625 (66.7) 2.625 (66.7) 2.625 (66.7) 2.625 (66.7) 2.625 (66.7)

TO-3; DO-5; Stud-Mount

Semiconductor Thermal Performance at Typical Load Mounting Hole Pattern Natural Convection Forced Convection (1) TO-3 0.270 in. (6.9)-Dia Hole None (1) TO-3 0.270 in. (6.9)-Dia Hole None (1) TO-3 None

Space-saving double surface 413, 421, and 423 Series utilize finned surface area on both sides of the power semiconductor mounting surface to provide maximum heat dissipation in a compact profile. Ready to install on popular power components in natural and forced convection applications. Apply Wake-

72°C @ 50W 72°C @ 50W 72°C @ 50W 58°C @ 50W 58°C @ 50W 58°C @ 50W 47°C @ 50W 47°C @ 50W

0.85°C/W @ 250 LFM 0.85°C/W @ 250 LFM 0.85°C/W @ 250 LFM 0.7°C/W @ 250 LFM 0.7°C/W @ 250 LFM 0.7°C/W @ 250 LFM 0.5°C/W @ 250 LFM 0.5°C/W @ 250 LFM

Weight lbs. (grams) 0.6300 (285.77) 0.6300 (285.77) 0.6300 (285.77) 0.6300 (285.77) 0.6300 (285.77) 0.6300 (285.77) 1.1700 (530.71) 1.1700 (530.71)

field Type 126 silicone-free thermal compound or Wakefield DeltaPad™ interface materials for maximum performance. Material: Aluminum Alloy, Black Anodized.

MECHANICAL DIMENSIONS

NATURAL AND FORCED CONVECTION CHARACTERISTICS

423 SERIES (EXTRUSION PROFILE 1025)

413 SERIES (EXTRUSION PROFILE 2276) 421 SERIES (EXTRUSION PROFILE 1025)

SERIES 413 421

Dimensions: in. (mm)

46

SEMICONDUCTOR MOUNTING HOLES A

F

K

V


Extruded Heat Sinks

EXTRUDED HEAT SINKS FOR POWER SEMICONDUCTORS 431 & 433 SERIES

High-Performance Heat Sinks for 30-100W Metal Power Semiconductors

Nominal Dimensions Width Length “A” Height Semiconductor Thermal Performance at Typical Load Standard in. (mm) in. (mm) in. (mm) Mounting Hole Pattern Natural Convection Forced Convection P/N 4.750 (120.7) 3.000 (76.2) 3.000 (76.2) None 55°C @ 5OW 0.40°C/W @ 250 LFM 431K 4.750 (120.7) 5.500 (139.7) 3.000 (76.2) None 42°C @ 5OW 0.28°C/W @ 250 LFM 433K Need maximum heat dissipation from a TO-3 rectifier heat sink in minimum space? The Wakefield 431 and 433 Series center channel double-surface heat sinks offer the highest performance-to-weight ratio for minimum volume occupied for TO-3, diode, and stud-mount metal power semiconductors in the 30- to

TO-3; Stud-Mount

Weight lbs. (grams) 0.7800 (353.81) 1.4900 (675.86)

100-watt operating range. Additional interface resistance reduction for maximized overall performance can be achieved with proper application of Wakefield Type 126 silicone-free thermal compound. Material: Aluminum Alloy, Black Anodized.

MECHANICAL DIMENSIONS

NATURAL AND FORCED CONVECTION CHARACTERISTICS

SERIES 431 433

SEMICONDUCTOR MOUNTING HOLE K

431 AND 433 SERIES (EXTRUSION PROFILE 2726)

Dimensions: in. (mm)

435 SERIES Standard P/N 435AAAA

Lightweight Quadruple Mount Heat Sink for TO-3 Case Styles

Nominal Dimensions Width Length Height in. (mm) in. (mm) in. (mm) 4.250 (108.0) 5.500 (139.7) 4.300 (109.2)

This lightweight high-performance heat sink is designed to mount and cool efficiently one to four TO-3 style metal case power semiconductors. The Type 435AAAA is the standard configuration available from stock, predrilled for mounting four TO-3 style devices. Increased performance can be achieved with the proper

TO-3

Semiconductor Thermal Performance at Typical Load Weight Mounting Hole Pattern Natural Convection Forced Convection lbs. (grams) (4) TO-3 37°C @ 50W 0.38°C/W @ 250 LFM 1.1500 (521.64) 54°C @ 80W 0.24°C/W @ 600 LFM selection and installation of a Wakefield Type 175 DeltaPad Kapton™ interface material for each power semiconductor or, for maximum reduction of case-to-sink interface loss, the application of Wakefield Type 126 silicone-free thermal compound. Material: Aluminum Alloy, Black Anodized.

MECHANICAL DIMENSIONS Dimensions: in. (mm) NATURAL AND FORCED CONVECTION CHARACTERISTICS SEMICONDUCTOR MOUNTING HOLES AAAA

435 SERIES (EXTRUSION PROFILE 4226)

441 SERIES Standard P/N 441K

High-Performance Natural Convection Heat Sinks for Rectifiers and Diodes

Nominal Dimensions Width Length Height in. (mm) in. (mm) in. (mm) 4.750 (120.7) 5.500 (139.7) 4.500 (114.3)

Designed for vertical mounting within a power supply enclosure or equipment cabinet without forced airflow available. This Wakefield 441 Series heat sink will dissipate up to 100 watts efficiently in natural convection with a maximum 55°C heat sink temperature rise above ambient. When applied in a forced convecDimensions: in. (mm)

Semiconductor Mounting Hole Pattern None

Thermal Performance at Typical Load Natural Convection Forced Convection 34°C @ SOW 0.30°C/W @ 250 LFM 47°C @ 80W 0.19°C/W @ 600 LFM

Stud-Mount

Weight lbs. (grams) 1.9700 (893.59)

tion environment, the 441K Type will achieve thermal resistance of 0.18°C/W (sink to ambient) at 1000 LFM. Supplied with no predrilled device mounting hole pattern. Material: Aluminum Alloy, Black Anodized.

MECHANICAL DIMENSIONS

NATURAL AND FORCED CONVECTION CHARACTERISTICS

SEMICONDUCTOR MOUNTING HOLE K 441 SERIES (EXTRUSION PROFILE 1273)

47


Extruded Heat Sinks

EXTRUDED HEAT SINKS FOR POWER SEMICONDUCTORS High-Power Heat Sinks for Medium Hex-Type Rectifiers and Diodes

465 & 476 SERIES Standard P/N 465K 476K 476W

Width in. (mm)

Nominal Dimensions Length in. (mm)

Height in. (mm)

Hex Style Type

Mounting Hole Pattern

4.000 (101.6) 5.000 (127.0) 5.000 (127.0)

5.000 (127.0) 6.000 (152.4) 6.000 (152.4)

4.000 (101.6) 5.000 (127.0) 5.000 (127.0)

1.060 in. Hex 1.250 in. Hex 1.250 in. Hex

None None 0.765 in. (19.4) Dia. Center Mount

Wakefield Engineering has designed four standard heat sink types for ease of installation and efficient heat dissipation for industry standard hex-type rectifiers and similar stud-mount power devices: 465, 476, 486, and 489 Series. The 465 and 476 Series shown here are de-

Stud-Mount

Thermal Performance at Typical Load Natural Convection Forced Convection 38°C @ 5OW 25°C @ 5OW 25°C @ 5OW

0.27°C/W @ 500 LFM 0.19°C/W @ 500 LFM 0.19°C/W @ 500 LFM

Weight lbs. (grams) 1.9300 (875.45) 2.8200 (1279.15) 2.8000 (1270.08)

signed for 1.060 in. Hex (465 Type) and 1.250 in. Hex (476 Type). The 476W Type is available predrilled for an 0.765 in. (19.4) dia, mounting hole, Material: Aluminum Alloy, Black anodized.

MECHANICAL DIMENSIONS

NATURAL AND FORCED CONVECTION CHARACTERISTICS

465 SERIES (EXTRUSION PROFILE 1244) 476 SERIES (EXTRUSION PROFILE 1245)

W

K

SEMICONDUCTOR MOUNTING HOLES

Dimensions: in. (mm)

486 & 489 SERIES

Heat Sinks for High-Power Hex-Type Rectifiers and Diodes

Width in. (mm)

Nominal Dimensions Length in. (mm)

Height in. (mm)

Hex Style Type

Mounting Hole Pattern

486K

6.250 (158.8)

6.000 (152.4)

6.250 (158.8)

1.750 in. Hex

None

489K

6.250 (158.8)

9.000 (228.6)

6.250 (158.8)

1.750 in. Hex

None

Standard P/N

These two heat sink types accept industry standard 1.750 in. (44.5) hex-type devices for mounting and efficient heat dissipation. Each type is provided with a 1.750 in. (44.5) x 2.000

MECHANICAL DIMENSIONS

Stud-Mount

Thermal Performance at Typical Load Natural Convection Forced Convection 24°C @ 50W 86°C @ 250W 19°C @ 50W 75°C @ 250W

0.20°C/W @ 250 LFM 0.13°C/W @ 500 LFM 0.15°C/W @ 250 LFM 0.10°C/W @ 500 LFM

Dimensions: in. (mm)

48

486 489

4.2100 (1909.66) 6.1400 (2785.10)

in. (50.8) area on the semiconductor base mounting surface which is free of anodize. Material: Aluminum Alloy, Black Anodized.

SEMICONDUCTOR MOUNTING HOLE

K

NATURAL AND FORCED CONVECTION CHARACTERISTICS

SERIES

Weight lbs. (grams)

486 AND 489 SERIES (EXTRUSION PROFILE 1541)


Extruded Heat Sinks

EXTRUDED HEAT SINKS FOR POWER SEMICONDUCTORS 490 SERIES

King Size Heat Sinks for High-Power Rectifiers

Standard P/N

Width in. (mm)

Nominal Dimensions Length “A” in. (mm)

Height in. (mm)

Semiconductor Mounting Hole Pattern

490-35K 490-6K 490-12K

9.250 (235.0) 9.250 (235.0) 9.250 (235.0)

3.500 (88.9) 6.000 (152.4) 12.000 (304.8)

6.750 (171.5) 6.750 (171.5) 6.750 (171.5)

None None None

The 490 Series can be used to mount a single high-power rectifier or a grouping of smaller power devices. The semiconductor device mounting surface is free of anodize on the entire surface on one side only; finish overall is black anodize. Use Type 109 mounting brackets (see accessories section) for mounting to enclosure wall and for electrical isolation. The anodize-

GENERAL PURPOSE

Thermal Performance at Typical Load Natural Convection Forced Convection 84°C @ 20OW 60°C @ 20OW 45°C @ 20OW

0.18°C/W @ 600 LFM 0.13°C/W @ 600 LFM 0.09°C/W @ 600 LFM

Weight lbs. (grams) 3.2400 (1469.66) 5.4700 (2481.19) 10.6200 (4817.23)

free mounting surface is milled for maximum contact area. The 490 Series Can also be drilled for mounting and cooling IGBTs and other isolated power modules. Material: Aluminum Alloy, Black Anodized.

MECHANICAL DIMENSIONS

NATURAL AND FORCED CONVECTION CHARACTERISTICS

SEMICONDUCTOR MOUNTING HOLE

490 SERIES (EXTRUSION PROFILE 2131)

Dimensions: in. (mm)

PERFORMANCE, LOW PROFILE HEAT SINKS FOR POWER MODULES & IGBT’S 394, 395, 396 SERIES Standard P/N

Overall Dimensions: in. (mm) Length Height in. (mm) in. (mm)

Width in. (mm)

Device Base Mounting Area (mm)

394-1AB 3.000 (76.2) 1.500 (38.1) 5.000 (127.0) 101 x 76 394-2AB 5.500 (139.7) 1.500 (38.1) 5.000 (127.0) 101 x 139 395-1AB 3.000 (76.2) 2.500 (63.5) 5.000 (127.0) 50 x 76 395-2AB 5.500 (139.7) 2.500 (63.5) 5.000 (127.0) 50 x 139 396-1AB 3.000 (76.2) 1.380 (35.1) 5.000 (127.0) 50 x 76 396-2AB 5.500 (139.7) 1.380 (35.1) 5.000 (127.0) 50 x 139 Note: 1.Thermal resistance values shown are for black anodized finish at 50°C rise above ambient.

MECHANICAL DIMENSIONS

Base Mounting Holes 4 6 4 6 4 6

Thermal Resistance at Typical Load Natural Forced Convection (Øsa)(1) Convection (Øsa) (°C/W) (°C/W @ 500 LFM) 1.85 1.51 1.10 0.90 1.85 1.51

0.90 0.60 0.50 0.32 1.07 0.64

NATURAL AND FORCED CONVECTION CHARACTERISTICS

394 SERIES (EXTRUSION PROFILE 7332)

NATURAL AND FORCED CONVECTION CHARACTERISTICS

395 SERIES (EXTRUSION PROFILE 7330)

NATURAL AND FORCED CONVECTION CHARACTERISTICS

396 SERIES (EXTRUSION PROFILE 7331)

Dimensions: in. (mm)

49


Extruded Heat Sinks

EXTRUDED HEAT SINKS FOR DC/DC CONVERTERS SERIES 557, 558 & 559 Standard P/N

Heat Sinks for “Full-Brick” DC/DC Converters

Footprint Dimensions in. (mm)

557-140AB 4.60 (116.8) x 2.40 (61.0) 2.40 (61.0) x 4.60 (116.8) 558-75AB 559-50AB 2.40 (61.0) x 4.60 (116.8) Material: Aluminum, Black Anodized

Height in. (mm)

Fin Orientation

Number of Fins

Forced Convection Thermal Resistance at 300 ft/min (C/W)

1.40 (35.6) 0.75 (19.1) 0.50 (12.7)

Horizontal Vertical Vertical

6 16 27

1.3 1.8 2.2

14 12 10

• Standard mounting hole pattern mates with Vicor DC/DC converters. • Aluminum extruded fin construction keeps DC/DC converter modules cool in both forced and natural convection applications. • Three fin heights, two flow direction options. • Black anodized finish standard.

MECHANICAL DIMENSIONS PRODUCT DESIGNATION

• Integral thermal interface pad option eliminates need to order and install pad separately. • Ordering a single part number with the hardware kit option provides everything necessary to keep your converter cool.

557 SERIES DIMENSIONS

Dimensions: in. (mm)

MECHANICAL DIMENSIONS

558 SERIES DIMENSIONS

PRODUCT DESIGNATION

Dimensions: in. (mm)

MECHANICAL DIMENSIONS PRODUCT DESIGNATION

Dimensions: in. (mm)

50

TO-220 and TO-218

Natural Convection Power Dissipation (Watts) 40°C Rise Heat Sink to Ambient

559 SERIES DIMENSIONS


Extruded Heat Sinks

EXTRUDED HEAT SINKS FOR DC/DC CONVERTERS Heat Sinks for “Half-Brick” DC/DC Converters

SERIES 517, 527, 518 & 528

Standard P/N

Footprint Dimensions in. (mm)

2.28 (57.9) x 2.40 (61.0) 517-95AB 2.28 (57.9) x 2.40 (61.0) 527-45AB 527-24AB 2.28 (57.9) x 2.40 (61.0) 518-95AB 2.40 (61.0) x 2.28 (57.9) 2.40 (61.0) x 2.28 (57.9) 528-45AB 2.40 (61.0) x 2.28 (57.9) 528-24AB Material: Aluminum, Black Anodized

Height in. (mm)

Fin Orientation

Number of Fins

0.95 (24.1) 0.45 (11.4) 0.24 (6.1) 0.95 (24.1) 0.45 (11.4) 0.24 (6.1)

Horizontal Horizontal Horizontal Vertical Vertical Vertical

8 11 11 8 11 11

• Standard mounting hole patterns mate with the majority of “half-brick” DC/DC converters on the market. • Aluminum extruded fin construction keeps DC/DC converter modules cool in both forced and natural convection applications. • Vertical and horizontal fin configurations

TO-220 and TO-218

THERMAL PERFORMANCE Natural Convection Forced Convection Power Dissipation (Watts) Thermal Resistance 60°C Rise Heat Sink to Ambient at 300 ft/min (C/W) 11W 7W 5W 11W 7W 5W

2.0 3.2 5.8 2.0 3.2 5.8

available in a variety of heights. • Black anodized finish standard. • Integral thermal interface pad option eliminates need to order and install pad separately. • Ordering a single part number with the hardware kit option provides everything necessary to keep your converter cool.

MECHANICAL DIMENSIONS 517, 527, 518 AND 528 SERIES

517/527 SERIES DIMENSIONS

518/528 SERIES DIMENSIONS

PRODUCT DESIGNATION

Dimensions: in. (mm)

MOUNTING HARDWARE FOR EXTRUDED HEAT SINKS 100 SERIES

Teflon Mounting Insulators

Standard P/N

Description

103 107

Spool-shaped insulator Spool-shaped insulator

103 SERIES

For Use with Series 300, 400, 600, 111, 113 300, 400, 600, 111, 113

Mounting Hardware #6-32 screw #6-32 screw, nut

Material

Hipot Rating (VAC)

Weight lbs. (grams)

Teflon Teflon

1500 5000

0.00012 (0.05) 0.0034 (1.54)

107 SERIES

51


Extruded Heat Sinks

EXTRUDED HEAT SINKS FOR DC/DC CONVERTERS Heat Sinks for “Quarter-Brick” DC/DC Converters

537 & 547 SERIES Standard P/N

Footprint Dimensions in. (mm)

537-95AB 2.28 (57.9) x 1.45 (36.8) 2.28 (57.9) x 1.45 (36.8) 537-45AB 2.28 (57.9) x 1.45 (36.8) 537-24AB 547-95AB 1.45 (36.8) x 2.28 (57.9) 1.45 (36.8) x 2.28 (57.9) 547-45AB 1.45 (36.8) x 2.28 (57.9) 547-24AB Material: Aluminum, Black Anodized

Height in. (mm)

Fin Orientation

Number of Fins

Forced Convection Thermal Resistance at 300 ft/min (C/W)

0.95 (24.1) 0.45 (11.4) 0.24 (6.1) 0.95 (24.1) 0.45 (11.4) 0.24 (6.1)

Horizontal Horizontal Horizontal Vertical Vertical Vertical

8 13 14 11 20 22

2.1 2.3 4.2 2.2 2.1 3.5

• Mounting slots accomodate two hole patterns: 1.86” x 1.03” and 2.00” x 1.20”, fitting the vast majority of quarter-brick converters on the market. • Designed for optimum use in forced convection applications. • Vertical and horizontal fin configurations available in a variety of

MECHANICAL DIMENSIONS

TO-220 and TO-218

heights. • Black anodized finish standard. • Integral thermal interface pad option eliminates need to order and install pad separately. • Ordering a single part number with the hardware kit option provides everything necessary to keep your converter cool.

537 & 547 SERIES 537 SERIES DIMENSIONS

547 SERIES DIMENSIONS

PRODUCT DESIGNATION

Dimensions: in. (mm)

52


Bonded Fin Heat Sinks

HIGH FIN DENSITY HEAT SINKS FOR POWER MODULES, IGBTS, RELAYS 510, 511 & 512 SERIES Standard Catalog P/N(5) Nonmilled Milled Base(1) Base(2) 510-3M 510-6M 510-9M 510-12M 510-14M 511-3M 511-6M 511-9M 511-12M 512-3M 512-6M 512-9M 512-12M

Base Width in. (mm)

510-3U 510-6U 510-9U 510-12U 510-14U 511-3U 511-6U 511-9U 511-12U 512-3U 512-6U 512-9U 512-12U

7.380 (187.452) 7.380 (187.452) 7.380 (187.452) 7.380 (187.452) 7.380 (187.452) 5.210 (132.33) 5.210 (132.33) 5.210 (132.33) 5.210 (132.33) 7.200 (182.88) 7.200 (182.88) 7.200 (182.88) 7.200 (182.88)

Notes: 1. Precision-milled base for maximum heat transfer performance (flatness 0.002 in./in.)

Length in. (mm) 3.000 (76.2) 6.000 (152.4) 9.000 (228.6) 12.000 (304.8) 14.000 (355.6) 3.000 (76.2) 6.000 (152.4) 9.000 (228.6) 12.000 (304.8) 3.000 (76.2) 6.000 (152.4) 9.000 (228.6) 12.000 (304.8)

3.136 (79.7) 3.136 (79.7) 3.136 (79.7) 3.136 (79.7) 3.136 (79.7) 2.410 (61.2) 2.410 (61.2) 2.410 (61.2) 2.410 (61.2) 2.410 (61.2) 2.410 (61.2) 2.410 (61.2) 2.410 (61.2)

0.56 0.38 0.29 0.24 0.21 0.90 0.65 0.56 0.45 0.90 0.65 0.56 0.45

0.088 0.070 0.066 0.062 0.059 0.120 0.068 0.060 0.045 0.120 0.068 0.060 0.045

4. Forced convection heat dissipation for distributed heat sources at 100 cubic feet per minute, shrouded condition. 5. Standard models are provided without finish.

510 Series (Extrusion Profile 5113) A

B

Flatness

510-U

0.216 (5.5)

3.136 (79.7)

0.006 in./in. (0.15 mm/mm)

510-M

0.165 (4.2)

3.106 (78.9)

0.002 in./in. (0.05 mm/mm)

511 AND 512 SERIES

511 Series (Extrusion Profile 6438-1) 512 Series (Extrusion Profile 6438-2)

A

B

0.250 (6.4)

2.410 (61.2)

0.372 (9.4) 0.006 in./in. (0.15 mm/mm)

511-M 512-M 0.220 (5.6)

2.350 (59.7

0.342 (8.7) 0.002 in./in. (0.05 mm/mm)

511-U 512-U

3.106 (78.9) 3.106 (78.9) 3.106 (78.9) 3.106 (78.9) 3.106 (78.9) 2.350 (59.7) 2,350 (59.7) 2.350 (59.7) 2.350 (59.7) 2.350 (59.7) 2.350 (59.7) 2.350 (59.7) 2.350 (59.7)

NATURAL AND FORCED CONVECTION CHARACTERISTICS

Series

Series

Milled Base (1) (“M Series”) in. (mm)

2. Nonmilled base flatness: 0.006 in./in. 3. Natural convection heat dissipation for distributed heat sources at 50°C rise.

MECHANICAL DIMENSIONS 510 SERIES

Thermal Resistance (5) (Øsa) at Typical Load Forced Nonmilled Base (2) Natural (“U” Series) Convection(3) Convection(4) in. (mm) (°C/W) (°C/W @ 100 CFM)

Height

C

Flatness

Dimensions: in. (mm)

392 SERIES

High Performance Heat Sinks for Power Modules, IGBTs and Solid State Relays

Standard P/N, Finish Black Gold Anodized Iridite 392-120AB 392-120AG 392-180AB 392-180AG 392-300AB 392-300AG

MECHANICAL DIMENSIONS

Length in. (mm) 4.725 (120.0) 7.087 (180.0) 11.811 (300.0)

Thermal Resistance at Typical Load Natural Forced Convection (Øsa) Convection (Øsa) (°CW) (°CW) 0.50 0.16 @ 100 CFM 0.43 0.11 @ 100 CFM 0.33 0.08 @ 100 CFM

Weight lbs. (grams) 4.452 (2019.43) 6.636 (3010.09) 1O.420 (4726.51)

NATURAL AND FORCED CONVECTION CHARACTERISTICS

NATURAL CONVECTION 392-120 (1 MOD) 392-180 (1 MOD) 392-300 (1 MOD) 392-300 (3 MOD)

392 SERIES (EXTRUSION PROFILE 5658)

FORCED CONVECTION 392-120 (1 MOD) 392-120 (3 MOD) 392-180 (1 MOD) 392-180 (3 MOD) 392-300 (3 MOD)

Dimensions: in. (mm)

53


Bonded Fin Heat Sinks

CUSTOM BONDED FIN HEAT SINKS AND ASSEMBLIES Wakefield Engineering offers an extensive line of natural convection and forced convection custom bonded fin heat sinks assemblies. Configurable in a variety of ways, they are reliable, cost effective, and highly efficient thermal management solutions for high power and densely packaged applications, even in demanding shock and vibration environments.

MECHANICAL DIMENSIONS

MOUNTING LEG (EXTRUSION PROFILE 8930) (EXTRUSION PROFILE 8120)

Dimensions: in. (mm)

Thermal Resistance °C/W

BONDED FIN BASES Base Extrusion Profile No.

W

T

FT

FP

Max # Fins

8711 8731 8546 8737 8119 8712 8732 8556 8542 8671 8823 8734 8545 8709 8715 8707 8121 8733 8714 8735

2.800 (71.1) 3.615 (91.8) 4.000 (101.6) 4.425 (112.4) 4.750 (120.7) 5.000 (127.0) 5.650 (143.5) 6.000 (152.4) 6.620 (168.1) 7.230 (183.6) 7.440 (189.0) 7.500 (190.5) 8.000 (203.2) 8.327 (211.5) 8.780 (223.0) 10.00 (254.0) 10.78 (273.8) 12.60 (320.0) 14.00 (355.6) 15.00 (381.0)

0.520 (13.2) 0.575 (14.6) 0.500 (12.7) 0.650 (16.5) 0.500 (12.7) 0.530 (13.5) 0.500 (12.7) 0.500 (12.7) 0.500 (12.7) 0.550 (14.0) 0.525 (13.3) 0.560 (14.2) 0.500 (12.7) 0.400 (10.2) 0.600 (15.2) 0.550 (14.0) 0.560 (14.2) 0.600 (15.2) 0.525 (13.3) 0.625 (15.9)

.050 (1.3) .050 (1.3) .050 (1.3) .050 (1.3) .050 (1.3) .050 (1.3) .050 (1.3) .050 (1.3) .050 (1.3) .050 (1.3) .050 (1.3) .050 (1.3) .050 (1.3) .050 (1.3) .050 (1.3) .050 (1.3) .050 (1.3) .050 (1.3) .050 (1.3) .050 (1.3)

0.275 (5.4) 0.239 (6.1) 0.200 (5.1) 0.238 (6.0) 0.288 (7.3) 0.198 (5.0) 0.200 (5.1) 0.250 (6.4) 0.200 (5.1) 0.239 (6.1) 0.200 (5.1) 0.400 (10.2) 0.200 (5.1) 0.215 (5.5) 0.270 (6.9) 0.238 (6.0) 0.238 (6.0) 0.207 (5.3) 0.250 (6.4) 0.250 (6.4)

10 15 20 18 16 25 28 24 33 30 37 19 40 37 28 42 45 60 56 60

Natural Convection H = 2" H = 4" 1.360 1.110 1.330 0.937 0.880 1.122 1.011 0.751 0.880 0.655 0.820 0.550 0.591 0.507 0.384 0.361 0.348 0.383 0.275 0.264

0.830 0.685 0.823 0.580 0.539 0.692 0.625 0.438 0.519 0.399 0.500 0.310 0.353 0.310 0.231 0.220 0.209 0.235 0.168 0.161

Forced Convection H = 2" H = 4" 0.459 0.281 0.215 0.233 0.222 0.170 0.152 0.153 0.122 0.123 0.118 0.213 0.095 0.081 0.106 0.071 0.065 0.075 0.053 0.049

0.277 0.168 0.144 0.140 0.157 0.101 0.090 0.107 0.082 0.086 0.070 0.130 0.053 0.048 0.063 0.042 0.040 0.030 0.032 0.030

Contact Wakefield Thermal Solutions for additional standard profile options at 603-635-2800 / sales@wakefield.com Notes: 1. Natural and forced convection thermal resistances based on 6.000 in. length for profiles less than 8.000” wide. 2. Natural and forced convection thermal resistances based on12.000 in. length for profiles 8.000” wide and greater 3. Forced convection thermal resistance based on 500 LFM, shrouded, horizontal. distributed heat load. 4. Forced convection bonded fin assemblies use standard "muffin" fans. 5. Dimensions shown are as extruded. To improve flatness across the width, bases can be machined. Machined base thickness will be reduced.

ORDER GUIDE - EXAMPLE Example Part Number - BE8546-1200-U4W • BE8546 = Bonded fin base extrusion profile identifier • Length (inches; 12.00 shown, two decimal point assumed) • Finish (G = Gold Chromate, U = Unfinished) • Fin Height (4 inches shown) • Mounting Options (L = Mounting Legs, W = No Mounting Legs)

54

PART NUMBERING ORDER GUIDE* BEXXXX - XX X X

X Mounting options (L or W) Fin Height (inches) Finish (G or U) Length (inches, up to 36) BASE EXTRUSION PROFILE NUMBER


Bonded Fin Heat Sinks

maxiTHERM-HD 3™ BONDED FIN FORCED CONVECTION SERIES #1 maxiTHERM-HD3™ Bonded Fin Forced Convection Series #1 heat sinks provide more effective cooling per cubic inch of space compared to extruded heat sinks. Exceptionally low thermal resistance values in forced convection applications are achieved with “Series #1” models, as low as 0.024°C/W for a double unit employing 2 fans. Mounting hole pattern is 4.125 in. sq. for standard 120 mm axial (“box”) fans. These heat sinks are ideal for a variety of high power applications, even in the most demanding shock and vibration environments.

SERIES #1 (5.25” TALL ASSEMBLY) maxiTHERM-HD3™ Package Series #1

Standard Muffin Fan (S)

“A”

“B”

“C”

1A 1B 1C 1D 1E 1F 1G

1 1 1 1 2 2 2

7.000 (177.8) 9.500 (241.3) 12.000 (304.8) 14.500 (368.3) 14.590 (370.6) 16.590 (429.0) 18.590 (472.2)

2.500 (63.5) 3.750 (95.3) 5.000 (127.0) 6.250 (158.8) 6.000 (152.4) 7.000 (177.8) 8.000 (203.2)

4.500 (114.3) 7.000 (114.3) 9.500 (114.3) 12.000 (114.3) 12.000 (114.3) 14.000 (114.3) 16.000 (114.3)

Refer to the following page for ordering information.

1Z ZZ

Dimension (in inches)

Perimeter (in inches)

Thermal Resistance °C/W

742.5 (18859.5) 1515.0 (38481.0) 1567.5 (39814.5) 1980.5 (50304.7) 4536.0 (115214.4) 5292.0 (134416.8) 60.48.0 (153619.2)

0.10 0.09 0.07 0.05 0.028 0.025 0.024

NON-STANDARD LENGTH NON-STANDARD CONFIGURATION & LENGTH

SERIES #1 SINGLE FAN FORCED CONVECTION

SERIES #1 DOUBLE FAN FORCED CONVECTION

SERIES #1 DOUBLE FAN FORCED CONVECTION (CUSTOM)

MECHANICAL DIMENSIONS SERIES #1 SINGLE FAN FORCED CONVECTION

SERIES #1 DOUBLE FAN FORCED CONVECTION

Notes: 1. Standard muffin fans not included, order separately.

55


Bonded Fin Heat Sinks

maxiTHERM-HD 3™ BONDED FIN FORCED CONVECTION SERIES #2 maxiTHERM-HD3™ Bonded Fin Natural Convection Series #2 heat sinks are designed for a variety of high power applications. These heat sinks are ideal even in the most demanding shock and vibration environments. Standard heat sink lengths range from 7.000 in. (177.8 mm) to 18.590 in. (472.2 mm) and the overall height is 3.130 in. (79.5 mm). Custom lengths, mounting options, and other configurations can be accommodated.

SERIES #2 (3.13” TALL ASSEMBLY) Dimension (in inches)

maxiTHERM-HD3™ Package Series #1

“A”

“B”

2A 2B 2C 2D

4.500 (114.3) 9.500 (177.8) 9.500 (241.3) 12.000 (304.8)

1.250 (31.8) 2.500 (63.5) 3.750 (95.3) 5.000 (127.0)

2Z ZZ

Perimeter (in inches)

Thermal Resistance °C/W

427.5 (10858.5) 665.0 (16891.0) 902.0 (22910.8) 1140.0 (28956.0)

0.41** 0.38** 0.35** 0.33**

NON-STANDARD LENGTH NON-STANDARD CONFIGURATION & LENGTH

SERIES #2 NATURAL CONVECTION

MECHANICAL DIMENSIONS

Notes: 1. All non-standard parts must have a modifier. 2. 1Z and 2Z denoting non-standard lengths should only be used for non-standard “A” dimensions. Part # must contain a modifier. *3. When 105 CFM fan (s) used – fan mounting hole pattern for standard axial (“muffin”) fan. **4. Natural convection based on 50°C heat sink temperature rise above ambient.

56

ORDERING INFORMATION

SERIES #2 NATURAL CONVECTION (CUSTOM)


Precision Compression Clamp Systems

PRECISION COMPRESSION MOUNTING CLAMP SYSTEMS Wakefield Engineering compression pack heat sinks and clamp systems provide electrical and industrial equipment manufacturers with complete system solutions for proper installation and heat dissipation for high-power compression pack semiconductor. All components for device

mounting and cooling are available separately for all standard compression requirements from 800 lbs (362.9 kg) to 16,000 lbs (7,257.5 kg) force in both natural and forced convection applications.

Clamp Assembly Series

Maximum Clamping Force Force Range

Maximum Diameter (Ref) Power Disc Device

Crossbar Stud Centerline to Centerline Dimension

130 Series 139 Series 143 Series 144 Series 145 Series 146 Series 131/132/133 Series

800 lbs (362.9 kg) - 2,000 lbs (907.2 kg) 3,000 lbs (1,360.8 kg) and 5,000 lbs (2,268.0 kg) 1,000 lbs (453.6 kg) - 6,000 lbs (2,721.6 kg) 1,000 lbs (453.6 kg) - 6,000 lbs (2,721.6 kg) 2,000 lbs (907.2 kg) - 10,000 lbs (4,535.9 kg) 8,000 lbs (3,628.8 kg) - 16,000 lbs (7,257.5 kg) High-Performance Press Pack Heat Sinks

2.25 in. (57.2 mm) 3.50 in. (88.9 mm) 3.50 in. (88.9 mm) 4.00 in. (101.6 mm) 4.50 in. (114.3 mm) 5.25 in. (133.4 mm)

2.750 in. (69.9 mm) Ref 4.000 in. (101.6 mm) Ref 4.000 in. (101.6 mm) Ref 4.625 in. (117.5 mm) Ref 5.500 in. (139.7 mm) Ref 6.000 in. (152.4 mm) Ref

These high-quality mounting clamp assemblies are the worldwide standard for mounting, compression, and clamping press-pack SCR, thyristor, rectifier, and other high power disc packaged devices utilized in power distribution equipment, industrial controls, transportation systems, and power supply and conversion systems. Clamp assemblies will accommodate devices with overall case diameters to 5.25 in. (133.4 mm) maximum. Vertical device mounting space available for assemblies is determined by selecting an appropriate series crossbar by length which, when a series spring assembly is se-

130 SERIES

lected (based on maximum clamping force required), will provide the necessary vertical clearance space. For the 130 and 139 Series, this determination is made by subtracting the chosen spring assembly “Z” dimension (refer to dimensional tables) from the crossbar assembly “X” dimension minimum and maximum values, to calculate the available device mounting space clearance for the particular assembly combination. Spring assembly “Z” dimension is the dimension measured from the spring assembly device mounting surface to the spring assembly top surface. Some series have fixed dimensions for alpha characters. All spring assemblies are designed with a force indicator gauge.

Compression Mounting Clamp Assemblies for Semiconductors to 2.25 in. (57.2mm) Diameter

130 SERIES CROSSBAR 800 lb - 2,000 lb (362.8 kg - 907.2 kg)

MECHANICAL DIMENSIONS

Crossbar Device Mounting, Surface to Spring Assembly Top Surface Dimension Model No. 130-A 130-B 130-C 130-D 130-E 130-F 130-G 130-H 130-J 130-K 130-L 130-M 130-N 130-P

“X” Dimension Min. Max. In. (mm) 1.74 (44.2) 2.05 (52.1) 2.36 (59.9) 2.67 (67.8) 2.98 (75.7) 3.29 (83.6) 3.60 (91.4) 3.91 (99.3) 4.22 (107.2) 4.53(115.1) 4.34 (122.9) 5.15 (130.8) 5.46 (138.7) 5.77 (146.6)

-

Weight lbs. (grams)

2.12 (53.8) 2.43 (61.7) 2.74 (69.6) 3.05 (77.5) 3.36 (85.3) 3.67 (93.2) 3.98 (101.1) 4.29 (109.0) 4.60 (116.8) 4.91 (124.7) 5.22 (132.6) 5.53 (140.5) 5.84 (147.3) 6.15 (156.2)

0.4 (181.44) 0.418 (189.60) 0.427 (193.68) 0.437 (198.22) 0.447 (202.76) 0.461 (209.11) 0.476 (215.91) 0.486 (220.45) 0.497 (225.44) 0.51 (231.33) 0.52 (235.87) 0.534 (242.22) 0.544 (246.75) 0.559 (253.56)

130 SERIES SPRING ASSEMBLY Model No. 130-1 130-2 130-3 130-4 130-5

No. of Leaves 2 2 3 4 5

“Z”Dim. in. (mm) 0.90 (22.9) 0.50 (12.7) 0.61 (15.5) 0.72 (18.3) 0.83 (21.1)

Max Force lb (kg) 2,000 (907.2) 800 (362.8) 1,200 (544.3) 1,600 (727.8) 2,000 (907.2)

Weight lbs (gms) 0.331 (150.14) 0.19 (86.18) 0.219 (99.34) 0.333 (151.05) 0.408 (185.07)

Dimensions: in. (mm)

Notes: 1. Spring assemblies are stainless steel leaves with a force indicator gauge, except the lowest cost Type 130-1 spring assembly manufactured from automotive grade stainless steel.

Order Guide: Order Crossbar and Spring Assembly separately by type number from table.

Dimensions: in. (mm) lb. (kg)

57


Precision Compression Clamp Systems

PRECISION COMPRESSION MOUNTING CLAMP SYSTEMS Compression mounting clamp assemblies for semiconductors to 3.50 in. (88.9 mm) Diameter

139 SERIES

139 SERIES CROSSBAR 3,000 lb - 5,000 lb, (1,360.8 kg - 2,268.0 kg), Crossbar Device Mounting, Surface to Spring Assembly, Top Surface Dimension 139-3 SERIES CROSSBAR - 3,000 LB (1,360.8) 139-5 SERIES CROSSBAR - 5,000 LB (2,268.0) “X” Dimension

Model No.

Min

139-3A 139-3B 139-3C 139-3D 139-3E 139-3F 139-3G 139-3H 130-3J 139-3K 139-3L 139-3M 139-3N 139-3P

1.52 (38.6) 1.83 (46.5) 2.14 (54.4) 2.45 (62.2) 2.77 (70.4) 3.08 (78.2) 3.39 (86.1) 3.70 (94.0) 4.01 (101.9 4.33 (110.0) 4.64 (117.9) 4.95 (125.7) 5.26 (133.6) 5.57 (141.5)

Max

Weight lbs. (grams)

Model No.

Min

1.89 (48.0) 2.21 (56.1) 2.52 (64.0) 2.83 (71.9) 3.14 (79.8) 3.45 (87.6) 3.77 (95.8) 4.08 (103.6) 4.39 (111.5) 4.70 (119.4) 5.01 (127.3) 5.33 (135.4) 5.64 (143.3) 5.95 (151.1)

0.689 (312.52) 0.7 (317.51) 0.706 (320.24) 0.721 (327.04) 0.732 (332.03) 0.741(336.11) 0.762 (345.64) 0.773 (350.63) 0.784 (355.62) 0.79 (358.34) 0.793 (359.70) 0.796 (361.06) 0.832 (377.39) 0.838 (380.11)

139-5A 139-5B 139-5C 139-5D 139-5E 139-5F 139-5G 139-5H 139-5J 139-5K 139-5L 139-5M 139-5N 139-5P

1.52 (38.6) 1.83 (46.5) 2.14 (54.4) 2.45 (62.2) 2.77 (70.4) 3.08 (78.2) 3.39 (86.1) 3.70 (94.0) 4.33 (101.9) 4.33 (110.0) 4.64 (117.9) 4.95 (125.7) 5.26 (133.6) 5.57 (141.5)

in. (mm) – – – – – – – – – – – – – –

“X” Dimension Max in. (mm) – – – – – – – – – – – – – –

1.89 (48.0) 2.21 (56.1) 2.52 (64.0) 2.83 (71.9) 3.14 (79.8) 3.45 (87.6) 3.77 (95.8) 4.08 (103.6) 4.39 (111.5) 4.70 (119.4) 5.01 (127.3) 5.33 (135.4) 5.64 (143.3) 5.95 (151.1)

Weight lbs. (grams) 0.94 (426.38) 0.96 (435.45) 0.98 (444.52) 1.01 (458.13) 1.02 (462.66) 1.033 (468.56) 1.053 (477.63) 1.074 (487.64) 1.064 (482.62) 1.075 (487.61) 1.088 (493.51) 1.102 (499.86) 1.11 (503.49) 1.171 (531.16)

CROSSBAR HEIGHT AND WIDTH Series Number

Height “A" Reference in. (mm)

Width “B” Reference in. (mm)

0.72 (18.3) 1.02 (25.9)

0.95 (24.1) 0.83 (21.1)

139-3 139-5

139 SERIES SPRING ASSEMBLY Model Number

Number of Leaves

"Z" Dimension in. (mm)

Maximum Force lb. (kg)

139-1 139-2

1 2

0.87(22.1) 1.25(31.8)

3,000 (1,360.8) 5,000 (2,268.0)

MECHANICAL DIMENSIONS

Dimensions: in. (mm)

58

Order Guide: Order Crossbar and Spring Assembly separately by type number from table.

Dimensions: in. (mm) lb. (kg)


Precision Compression Clamp Systems

PRECISION COMPRESSION MOUNTING CLAMP SYSTEMS Compression Mounting Clamp Assemblies for Semiconductors to 3.50 in (88.9 mm) Diameter

143 SERIES

143 SERIES CROSSBAR 2,000 lb - 6,000 lb (907.2 kg - 2,721.6 kg)

MECHANICAL DIMENSIONS

Crossbar Device Mounting, Surface to Spring Assembly, Top Surface Dimension

Model No.

“X” Dimension Min

Overall Height “H” In. (mm)

Max In. (mm)

143-A 143-B 143-C 143-D 143-E 143-F 143-G 143-H 143-J 143-K 143-L

1.30 (33.0) 1.86 (45.7) 2.30 (58.4) 2.80 (71.1) 3.30 (83.8) 3.80 (96.5) 4.30 (109.2) 4.80 (121.9) 5.30 (134.6) 5.80 (147.3) 6.30 (160.0)

– – – – – – – – – – –

1.80 (45.7) 2.30 (58.4) 2.80 (71.1) 3.30 (83.8) 3.80 (96.5) 4.30 (109.2) 4.80 (121.9) 5.30 (134.6) 5.80 (147.3) 6.30 (160.0) 6.80 (172.7)

4.68 (118.9) 5.18 (131.6) 5.68 (144.3) 6.18 (157.0) 6.68 (169.7) 7.18 (182.4) 1.68 (195.1) 8.18 (207.8) 8.68 (220.5) 9.18 (233.2) 9.68 (245.9)

Weight lbs. (grams) 1.100 (498.95) 1.125 (510.29) 1.150 (521.63) 1.175 (532.97) 1.200 (544.31) 1.225 (555.65) 1.250 (566.99) 1.275 (578.33) 1.300 (589.67) 1.325 (601.00) 1.350 (612.35)

Dimensions: in. (mm)

143 SERIES SPRING ASSEMBLY Model Number

Number of Leaves

Max. Clamping Force lb. (kg)

Weight lb. (grams)

143-2

2

6,000 (2,721.6)

0.813 (368.77)

Dimensions: in. (mm) lb. (kg)

Compression Mounting Clamp Assemblies for Semiconductors to 4.00 in (101.6mm) Diameter

144 SERIES

144 SERIES CROSSBAR 1,000 lb - 6,000 lb (453.6 kg - 2,721.6 kg) Crossbar Device Mounting, Surface to Spring Assembly Top Surface Dimension Model No.

Order Guide: Order Crossbar and Spring Assembly separately by type number from table.

“X” Dimension Min

MECHANICAL DIMENSIONS

Weight lbs (grams)

Max In. (mm)

144-A 144-B 144-C 144-D 144-E

1.50 (38.1) 2.00 (50.8) 2.50 (63.5) 3.00 (76.2) 3.50 (88.9)

– – – – –

2.00 (50.8) 2.50 (63.5) 3.00 (63.5) 3.50 (88.9) 4.00 (101.6)

1.231 (558.37) 1.262 (572.43) 1.285 (582.87) 1.310 (594.21) 1.352 (613.26)

144 SERIES SPRING ASSEMBLY Model No.

Clamping Force Range lb (kg)

Weight lbs (grams)

144-2

1,000 (453.6) – 6,000 (2,721)

1.772 (803.77)

Order Guide: Order Crossbar and Spring Assembly separately by type number from table.

Dimensions: in. (mm) lb. (kg)

Dimensions: in. (mm)

59


Precision Compression Clamp Systems

PRECISION COMPRESSION MOUNTING CLAMP SYSTEMS 145 SERIES

Compression Mounting Clamp Assemblies for Semiconductors to 4.50 in (114.3 mm) Diameter 145 SERIES CROSSBAR 2,000 lb - 10,000 lb (907.2 kg - 4,535.9 kg) Crossbar Device Mounting, Surface to Spring Assembly, Top Surface Dimension

Model No.

“X” Dimension Min

Max In. (mm)

MECHANICAL DIMENSIONS

145-A 145-B 145-C 145-D 145-E 145-F

1.75 (44.5) 2.50 (63.5) 3.25 (82.6) 4.00 (101.6) 4.75 (120.7) 5.50 (139.7)

– – – – – –

Overall Height “H” In. (mm)

2.50 (63.5) 3.25 (82.6) 4.00 (101.6) 4.75 (120.7) 5.50 (139.7) 6.25 (158.8)

Weight lbs. (grams)

6.00 (152.4) 6.75 (171.5) 7.50 (190.5) 8.25 (209.6) 9.00 (228.6) 9.75 (247.7)

3.845 (1744.06) 3.987 (1808.47) 4.06 (1841.58) 4.187 (1899.19) 4.37 (1982.20) 4.459 (2022.57)

145 SERIES SPRING ASSEMBLY Model No.

Clamping Force Range lb (kg)

Weight lbs (grams)

145-2

2,000 (907.2) – 10,000 (4,535.9)

2.01 (911.72)

Order Guide:

Dimensions:

Order Crossbar and Spring Assembly separately by type number from table.

in. (mm) lb. (kg)

Dimensions: in. (mm)

146 SERIES

Compression Mounting Clamp Assemblies for Semiconductors to 5.25 in (133.5 mm) Diameter 146 SERIES CROSSBAR 8,000 lb -16,000 lb (3,628.7 kg - 7,257.4 kg) Crossbar Device Mounting, Surface to Spring Assembly, Top Surface Dimension

Model No.

“X” Dimension Min

Max In. (mm)

MECHANICAL DIMENSIONS

146-A 146-B 146-C 146-D 146-E 146-F 146-G

1.54 (39.1) 2.29 (58.2) 3.04 (77.2) 3.79 (96.3) 4.54 (115.3) 5.29 (134.4) 6.04 (153.4)

– – – – – – –

2.29 (58.2) 3.04 (77.2) 3.79 (96.3) 4.54 (115.3) 5.29 (134.4) 6.04 (153.4) 6.79 (172.5)

Overall Height “H” In. (mm)

Weight lbs. (grams)

5.92 (150.4) 6.67 (169.4) 7.42 (188.5) 8.17 (207,5) 8.92 (226.6) 9.67 (245.6) 10.42 (264.7)

3.813 (1729.55) 3.938 (1786.25) 4.063 (1842.95) 4.188 (1899.64) 4.313 (1956.34) 4.438 (2013.04) 4.563 (2069.74)

146 SERIES SPRING ASSEMBLY Model Number

Number of Leaves

Clamping Force Range lb (kg)

146-2

2

8,000 (3,628.7) - 16,000 (7,257.5)

Order Guide: Order Crossbar and Spring Assembly separately by type number from table.

Dimensions: in. (mm)

60

Maximum Force lb (grams)

Dimensions: in. (mm) lb. (kg)

2,688 (1,219.26)


Precision Compression Clamp Systems

132/133 SERIES HIGH-PERFORMANCE HEAT SINKS FOR COMPRESSION TYPE DEVICES 132/133 SERIES MULTIPLE ASSEMBLY CONFIGURATION

Dimensions: in.(mm) Finish: B = Black Anodized G = Gold Iridite Material: Aluminum Alloy

Standard P/N Gold Black Anodize(4, 5) Iridite 132-4.5B 132-10B 132-15.5B 132-5-B9 132-11-B9 133-4.5B 133-7.5B 133-10B 133-5-B9 133-7.5-B9 133-11-B9

132-4.5G 132-10G 132-15.5G 132-5-G9 132-11-G9 133-4.5G 133-7.5G 133-10G 133-5-G9 133-7.5-G9 133-11-G9

Width in. (mm)

Nominal Dimensions: (1) Length “A” in. (mm)

Height in. (mm)

Clamp System Series(5)

5.000 (127.0) 5.000 (127.0) 5.000 (127.0) 5.000 (127.0) 5.000 (127.0) 7.000 (139.2) 7.000 (139.2) 7.000 (139.2) 7.000 (139.2) 7.000 (139.2) 7.000 (139.2)

4.500 (114.3) 10.000 (254.0) 15.500 (393.7) 5.000 (127.0) 11.000 (299.4) 4.500 (114.3) 7.500 (190.5) 10.000 (254.0) 5.000 (127.0) 7.500 (190.5) 11.000 (279.4)

2.250 (57.2) 2.250 (57.2) 2.250 (57.2) 2.250 (57.2) 2.250 (57.2) 3.125 (79.4) 3.125 (79.4) 3.125 (79.4) 3.125 (79.4) 3.125 (79.4) 3.125 (79.4)

130 130 130 139 139 130 130 130 139 139 139

Notes: 1. Nominal dimensions for one heat sink of this type. 2. Thermal performance values shown are per pair of heat sinks. 3. Natural convection performance at 50°C heat sink rise above ambient.

Thermal Performance at Typical Load (2) Natural Convection Convection (°C/W) @ (3) (°C/W) 500 LFM) 0.61 0.38 0.28 0.61 0.37 0.37 0.28 0.26 0.37 0.28 0.24

0.170 0.130 0.100 0.170 0.120 0.110 0.085 0.082 0.110 0.085 0.076

4. Black anodize finish [1.875 in. (47.6 mm) diameter spot face. Device mounting surface area free of finish]. 5. Predrilled heat sinks accept 130 and 139 Series clamp systems.

Type 132-4.5 132-10 132-15.5 133-4.5 133-7.5 133-10 132-5-9** 132-11-9** 133-5-9** 133-7.5-9** 133-11-9**

Use with – 2 ea 132-4.5 3 ea 132-4.5 – – 2 ea 133-4.5 – 2 ea 132-5-9 – – 2 ea 133-5-9

A 2.25 2.25 – – 2.25 – 2.50 – – 2.50

B 5.50 5.50

5.50 6.00

6.00

C See Fig.132 – 5.50 See Fig.133 See Fig.133 – See Fig.132 - 11.00 See Fig. 133 See Fig. 133 –

10.0 15.5

10.0

11.00

** -9 indicates heat sinks drilled for 139 clamp.

132 SERIES

133 SERIES

NATURAL AND FORCED CONVECTION CHARACTERISTICS

NATURAL AND FORCED CONVECTION CHARACTERISTICS

MECHANICAL DIMENSIONS (EXTRUSION PROFILE 3560-2)

MECHANICAL DIMENSIONS (EXTRUSION PROFILE 3559-2)

Series **132-4.5 **132-10 **132-15.5 **132-5-9 **132-11-9

D

Series **133-4.5 **133-7.5 **133-10 **133-5-9 **133-7.5-9 **133-11-9

Dimensions: in. (mm)

61


Liquid Cold Plates

LIQUID COLD PLATES FOR HIGH-PERFORMANCE COMPONENTS AND SYSTEMS 180-10 & 180-11 SERIES

Standard P/N

GENERAL PURPOSE

Liquid Cold Plates for Rectifiers and Power Diodes

Cold Plate Body Nominal Dimensions Overall Thermal Resistance Length “A” Width Thickness Channel Width Overall Length (Plate to Inlet Water) in. (mm) in. (mm) in. (mm) in. (mm) in. (mm) 6.000 (152.4) 3.000 (76.2) 0.625 (15.9) 1.250 (31.8) 13.406 (340.5) 0.084°C/W @ 1.5 GPM 180-10-6C 12.000 (304.8) 3.000 (76.2) 0.625 (15.9) 1.250 (31.8) 19.406 (429.9) 0.041°C/W @ 1.5 GPM 180-10-12C 180-10-24C 24.000 (609.6) 3.000 (76.2) 0.625 (15.9) 1.250 (31.8) 31.406 (797.7) 0.020°C/W @ 1.5 GPM 180-11-6C 6.000 (152.4) 5.000 (127.2) 0.688 (17.5) 1.813 (46.1) 13.688 (347.7) 0.084°C/W @ 1.5 GPM 180-11-12C 12.000 (304.8) 5.000 (127.2) 0.688 (17.5) 1.813 (46.1) 19.688 (500.1) 0.041°C/W @ 1.5 GPM 24.000 (609.6) 5.000 (127.2) 0.688 (17.5) 1.813 (46.1) 31.688 (804.9) 0.020°C/W @ 1.5 GPM 180-11-24C Material: aluminum, no finish. Tubing: copper (stainless steel tubing available on special order).

LOCAL THERMAL RESISTANCE PER DEVICE PLATE TO INLET WATER (°C/WATT) CL to CL Device Spacing Inches

Weight lbs (grams 0.850 (385.56) 1.700 (771.12) 2.900 (1315.4) 1.500 (680.40) 2.867 (1300.47) 5.730 (2599.13)

PERFORMANCE CHARACTERISTICS

Flow - GPM ⁄2

1

2

3

4

1.0 (25.4)

0.59

0.52

0.48

0.47

0.46

2.0 (50.8)

0.40

0.36

0.33

0.32

0.31

3.0 (76.2)

0.29

0.26

0.24

0.23

0.22

1

MECHANICAL DIMENSIONS

Standard P/N 180-10-6C 180-10-12C 180-10-24C 180-11-6C 180-11-12C 180-11-24C

Length "A" in. (mm) 6.000 in. (152.4) 12.000 in. (304.8) 24.000 in. (609.6) 6.000 in. (152.4) 12.000 in. (304.8) 24.000 in. (609.6)

180-10 SERIES

180-11 SERIES Dimensions: in. (mm)

62


Liquid Cold Plates

LIQUID COLD PLATES FOR HIGH-PERFORMANCE COMPONENTS AND SYSTEMS 180-12 & 180-20 SERIES Standard P/N

Liquid Cold Plates for Rectifiers, Diodes, and Power Modules

Cold PLate Body Nominal Dimensions Length “A” Width Thickness in. (mm) in. (mm) in. (mm) 6.000 (152.4) 7.750 (196.9) 0.658 (16.7) 12.000 (304.8) 7.750 (196.9) 0.658 (16.7) 24.000 (609.6) 7.750 (196.9) 0.658 (16.7) 6.000 (152.4) 5.500 (139.7) 0.690 (17.5)

180-12-6C 180-12-12C 180-12-24C 180-20-6C

LOCAL THERMAL RESISTANCE PER DEVICE PLATE TO INLET WATER (°C/WATT) CL to CL Device Spacing Inches

Mounting Surfaces Single Single Single Double

GENERAL PURPOSE

Overall Thermal Resistance Overall Length (Plate to Inlet Water) in. (mm) 13.406 (340.5) 0.038°C/W @ 1.0 GPM 19.406 (492.9) 0.018°C/W @ 1.0 GPM 31.406 (797.7) 0.009°C/W @ 1.0 GPM 13.125 (333.4) 0.038°C/W @ 1.0 GPM

Weight lbs (grams 2.270 (1029.67) 4.300 (1950.48) 8.600 (3900.96) 1.090 (494.42)

PERFORMANCE CHARACTERISTICS

Flow - GPM ⁄2

1

2

3

4

1.0 (25.4)

0.76

0.67

0.62

0.59

0.57

2.0 (50.8)

0.58

0.49

0.43

0.40

0.39

3.0 (76.2)

0.42

0.34

0.30

0.28

0.27

1

MECHANICAL DIMENSIONS

Standard P/N Length "A" in. (mm) 180-12-6C 6.000 (152.4) 180-12-12C 12.000 (304.8) 180-12-24C 24.000 (609.6) 180-20-6C 6.000 (152.4)

180-12 SERIES

Dimensions: in. (mm)

180-20 SERIES

63


Accessory Products

THERMAL COMPOUNDS, ADHESIVES AND INTERFACE MATERIALS 120 SERIES

The 120 Series Silicone Oil-Based Thermal Joint Compound fills the minute air gap between mating surfaces with a grease-like material containing zinc oxide in a silicone oil carrier. It possesses an excellent thermal resistance of only 0.05°C/W for a 0.001 in. film with an area of one square inch. There is no measurable increase in case temperature of a mounted semiconductor on a heat sink after the 6-month stabilization period (Time versus Thermal Resistivity graph below).

TYPICAL VALUES FOR THERMAL RESISTANCE, CASE TO SINK (Øcs) WHEN THERMAL JOINT COMPOUNDS ARE USED

Case Style Characteristics T0-3 TO-66

120 SERIES - THERMAL JOINT COMPOUND Characteristic

Typical Mounting Torque Thermal in inch • pounds Resistance (N•M) (°C/W) 8 (0.9) 0.09 9 (0.9) 0.14

Description

Volume Resistivity

5 X 1014 ohm-cm

Dielectric Strength

225 volts/mil

Specific Gravity Thermal Conductivity @ 36°C

2.1 min. 0.735 W/(m)(K) 5.1(Btu) (in.)/(hr)(ft2)(°F)

TO-220 0.19 (4.8) stud x 0.44 (11.2) hex

8 (0.9) 15 (1.7)

0.50 0.16

Thermal Resistivity (P)

56 (°C)(in.)/watt

Bleed, % after 24 hrs @ 200°C

0.5

0.25 (6.4) stud x 0.69 (17.5) hex 0.38 (9.7) stud x 1.06 (26.9) hex

30 (3.39) 75 (8.47)

0.10 0.07

Evaporation, % after 24 hrs @ 200°C

0.5

Color

opaque white

Shelf life

5 years

Operating Temperature Range (°C)

-40/+200

0.50 (12.7) stud x 1.06 (26.9) hex 0.75 (19.1) stud x 1.25 (31.8) hex

125 (14.12) 600 (67.79)

0.07 0.052

120 SERIES - ORDER GUIDE Series Container Size P/N 120-SA 4 gram plastic pak 120-2 2 oz (0.06 kg) jar 120-5 5 oz (0.14 kg) tube 120-8 8 oz (0.23 kg) jar 120-80 5 lb (2.27 kg) can 120-320 20 lb (9.08 kg) can

HIGH PERFORMANCE THERMAL COMPOUND 122 SERIES

122 Series Thermal Joint Compound is a stable, silicone based, thixotropic paste developed to provide premium performance at an affordable price. It is formulated to significantly reduce contact thermal resistance where power densities are concentrated in devices such as flip chip, reduced die size, and ‘overclock’ microprocessors. When applied as a thin film between a Wakefield heat sink and device it possesses superior thermal conductivity compared to traditional ‘grease’. It is compatible with automated or manual dispensing methods and is fully RoHS compliant. 122 SERIES THERMAL JOINT COMPOUND Typical Characteristics

64

Description

Appearance Thermal Conductivity

Smooth Gray paste 2.5 W / m °K, 17.3 (Btu) (in.)/(hr) (ft 2) (0 F)

Thermal Resistance

0.02 °C in 2 / W

Bleed

0.015 wt%, 24 hrs at 200°C

Evaporation

0.150 wt%, 24 hrs at 200°C

Volume Resistivity

1.4 x 10 10 ohm-cm

Dielectric Strength

225 volts/mil

Specific Gravity

2.23 (gm/cc) at 25°C

Operating Range

-40°C to 205°C

Shelf Life

5 years

122 SERIES - ORDER GUIDE Series Container Size P/N 122-10CC 10cc syringe 122-2 2 oz (0.06 kg) jar 122-30CC 30cc syringe


Accessory Products

THERMAL COMPOUNDS, ADHESIVES AND INTERFACE MATERIALS 126 SERIES

The 126 Series is a nontoxic, synthetic, ester-based (nonsilicone) Thermal Joint Compound with metal oxide fillers designed to enhance thermal performance characteristics of plastic and metal package devices exceeding that of silicone-based compounds. Solved are problems associated with contamination of wave solder baths and migration of silicone-based products. Shelf life: 5 years.

126 SERIES THERMAL JOINT COMPOUND Appearance Solids Content, wt % Thermal Conductivity at 36°C Interface Thermal Resistance Bleed, 24 hrs at 200°C, wt% Evaporation, 24 hrs at 200°C, wt% Volume Resistivity Dielectric Strength Specific Gravity @ 60°F Penetration Operating Range

DeltaBond™ 152

126 SERIES - ORDER GUIDE Series Container Size P/N 2 oz (0.6 kg) jar 126-2 126-4 4 oz (0.11 kg) tube 126-4S 4 oz (0.11 kg) syringe 126-5LB 5 lb (2.27 kg) can

Description Smooth, white homogeneous paste 65% min .69 W / m 0 K, 4.8 (Btu)(in.)/(hr) (ft2) (°F) 0.043°C/W TO-3 at 0.0008 thick film 0.09% max 0.6 max 2.3 x 1012 ohms-cm 200 volts/mil 2.93 (gm/cc) 280 to 320 -40°C to 200°C

Characteristics

DeltaBond™ 152 adhesive is ideal for general cementing; thermally bonding semiconductors and components to chassis or heat sinks, while electrically isolating one from the other; fabricating heat sinks or thermal links; and for all permanent bonding of assemblies which require high thermally conductive interfaces. It produces a rigid, high strength bond to most materials when cured. DeltaBond™ 152 is available in bi-packs, kits, and quarts. Order one bottle of hardener A-4 or B-4 per one quart of DeltaBond™ 152 separately. Shelf life: 152KA 1 year, all others 2 years. DELTABOND™152 Characteristics Typical Properties Fully Cured Thermal conductivity W/(m) (°K) (Btu) (in.)/(hr) (ft2) (°F) Thermal resistivity - (°C) (in.)watt Bond shear strength 77°F 1 in. overlap - psi 125°F etched aluminum to etched aluminum 212°F Heat distortion point - °F Minimum dielectric strength, v/mil, 0.125 in. sample Max operation Continuous temp - °C Intermittent

DELTABOND™152

Hardener Type A4 B4 0.836 5.8 47 2,900 2,200

Mixing Proportions and Working Properties Characteristics Parts of hardener per 100 parts of resin by weight

0.908 6.3 42 2,300 2,000

*Working Time - at 77°F †Initial cure time

800 225

400 65 100

400 150 190

B4

7.5

3.5

45 min

30 min

77°F

8 hrs

6 hrs

150°F

45 min

30 min

20 min

15 minn

250°F 400 130

A4

‡Post-cure time at a temp in °F ‡Alternate room temp. aging time at 77°F

4 hrs @200°F 4 hrs @ 200°F 4 days 4 days

Working consistency (77°F)

viscous liquid

paste

Working viscosity (77°F) cps

25,000

DELTABOND™152 Ordering Guide - Resin and Hardener Model Number

DeltaBond™ 152

Part No.

Resin Container

152-1A 152-1B 152-KA 152-Q

Bi-Pack (1 oz) Bi-Pack (1 oz) Kit (7 oz Resin, 0.5 oz Hardener) 1 quart (4 lbs)

Hardener Part Number Included in PIN 152-1 A (“A-4”) Type Included in P/N 152-1 B (“B-4”) Type lncluded in P/N 152-KA A-4 (0.316 lb), B-4 (0.14 lb), (order 1 only)

All hardener part numbers A-4, B-4

NOTES:

* Since the hardener/resin reaction is exothermic, it is important that batch size be matched to hardener speed. Working times given are for approximate batch sizes: A—200 gms, B—200 gms. Larger batch sizes will greatly reduce working time. ** For optimum electrical properties, dry parts for 15 minutes at 150°F (65°C) or 30 minutes at 75°F (24°C) to slowly evaporate the thinner and then final cure for 4 hours at 275°F (135°C). † After initial cure, material may be handled, removed from fixture, etc., but has not yet achieved full properties and should be room temperature aged or post-cured as shown to achieve full physical and electrical properties. ‡ After initial cure, material may be brought to full physical and electrical properties during post-cure or may be room temperature aged for charted length of time to achieve same full properties. The information contained herein is based on data believed to be reliable but we do not assume responsibility for accuracy. All such information is used at the customer's own risk, conditions of use being beyond our control.

65


Accessory Products

THERMAL COMPOUNDS, ADHESIVES AND INTERFACE MATERIALS DeltaBond™ 153

DeltaCast™ 153 is a pourable casting resin having thermal expansion characteristics similar to aluminum and copper allowing assemblies to operate over a very wide temperature range. Ideal for encapsulating components and assemblies, this series' major advantages and uses include potted systems (virtually indestructible), protecting components and systems from moisture and contaminants, securing proprietary circuitry, mechanical support of devices, removal of heat from hot components and the assembly equalizing temperatures, and high voltage isolation. DeltaCast™ 153 is available in quarts and gallons. Order one bottle of hardener A4 or B4 per one quart of DeltaCast™ 153 separately. Shelf life: 2 years. DELTACAST™153

DELTACAST™153 Hardener Type A4 B4

Characteristics Typical Properties Fully Cured Thermal conductivity W/(m) (°K) (Btu) (in.)/(hr) (ft2) (°F) Thermal resistivity - (°C) (in.)watt 77°F Bond shear strength 125°F 1 in. overlap - psi etched aluminum to etched aluminum 212°F Heat distortion point - °F Minimum dielectric strength, v/mil, 0.125 in. sample Max operation Continuous temp - °C Intermittent

0.836 5.8 47 2,500 —

Mixing Proportions and Working Properties Characteristics Parts of hardener per 100 parts of resin by weight

0.908 6.3 42 1,900

A4 7.5

*Working Time - at 77°F

45 min

† Initial cure time 77°F

8 hrs

6 hrs

45 min

30 min

150°F

— — 225

400 65 100

400 150 190

30 min

20 min

250°F — 130

B4 3.5

‡Post-cure time at a temp in °F ‡Alternate room temp. aging time at 77°F Working consistency (77°F)

4 hrs @200°F 4 days heavy liquid

Working viscosity (77°F) cps

15 minn 4 hrs @ 200°F 4 days viscous liquid

10,000

30,000

DELTACAST™153 Ordering Guide - Resin and Hardener Model Number Part No. DeltaCast™ 153

DeltaBond™ 154

153-Q

Resin Container

Hardener Part Number

1 quart (4 lbs)

All hardener part numbers A-4, B-4

A-4 (0.316 lb), B-4 (0.14 lb), (order 1 only)

DeltaBond™ 154 is a medium viscosity, aluminum-filled resin with the best thermal conductivity of this series. It is, however, neither a good electrical insulator nor conductor. Its principal application is that of a good thermal mechanical adhesive for applications such as bonding fins to base plates or structural mounting blocks or brackets to heat sinks. Order one bottle of hardener A4 or B4 per one quart of DeltaBond™ 154 separately. Shelf life: 2 years. DELTABOND™154

DELTABOND™154 Characteristics Typical Properties Fully Cured Thermal conductivity W/(m) (°K) (Btu) (in.)/(hr) (ft2) (°F) Thermal resistivity - (°C) (in.)watt Bond shear strength 77°F 1 in. overlap - psi 125°F etched aluminum to etched aluminum 212°F Heat distortion point - °F Minimum dielectric strength, v/mil, 0.125 in. sample Max operation Continuous temp - °C Intermittent

Hardener Type A4 B4 1.053 7.3 37 3,000 2,300

1.154 8.0 34 2,400

Mixing Proportions and Working Properties Characteristics Parts of hardener per 100 parts of resin by weight *Working Time - at 77°F † Initial cure time

2,100 800 225

NA* 65 100

NA* 150 190

B4

11.0

4.5

45 min

30 min

77°F

8 hrs

6 hrs

150°F

45 min

30 min

250°F 500 130

A4

‡Post-cure time at a temp in °F ‡Alternate room temp. aging time at 77°F

20 min 4 hrs @200°F 4 days

15 min 4 hrs @ 200°F 4 days

Working consistency (77°F)

viscous liquid

paste

Working viscosity (77°F) cps

25,000

DELTABOND™154 Ordering Guide - Resin and Hardener Model Number DeltaBond™ 154

66

Part No. 154-Q

Resin Container 1 quart (2.5 lbs)

Hardener Part Number A-4 (0.316 lb), B-4 (0.14 lb), (order 1 only)

All hardener part numbers A-4, B-4


Accessory Products

THERMAL COMPOUNDS, ADHESIVES AND INTERFACE MATERIALS DeltaBond™ 155

DeItaBond™ 155 is an epoxy adhesive formulated for use within the semiconductor industry. An easy to mix spread thixotropic paste, it offers high heat transfer, low shrinkage, and a coefficient of thermal expansion comparable to that of copper and aluminum. This adhesive is principally used to form thermally conductive joints in fabricated heat sinks and between heat sinks and power devices. When used to bond semiconductors to heat sinks, it also serves as an electrical insulator. Its strong bond to a wide variety of substrates resists severe temperature cycling. DeItaBond™ 155 is only available in kit size. Simply squeeze out equal lengths and mix to uniform color. Shelf life: 1 year. DELTABOND™155

DELTABOND™155 Characteristics Hardener Type DeltaBond™155 Typical Properties Fully Cured Thermal conductivity W/(m) (°K) 0.836 (Btu) (in.)/(hr) (ft2) (°F) 5.8 47 Thermal resistivity - (°C) (in.)watt Bond shear strength 77°F 2,600 1 in. overlap - psi 125°F — etched aluminum to etched aluminum 212°F — 130 Heat distortion point - °F Minimum dielectric strength, 400 v/mil, 0.125 in. sample Max operation Continuous 65 temp - °C Intermittent 100

DeltaBond™ 156

Mixing Proportions and Working Properties by volume 100 Parts of hardener per 100 parts of resin *Working Time - at 77°F †Initial cure time 77°F 150°F 250°F

90 min 8 hrs 45 min 20 min

‡Post-cure time at a temp in °F ‡Alternate room temp. aging time at 77°F Working consistency (77°F)

4 hrs @ 200°F 4 days paste

Working viscosity (77°F) cps

paste

DELTABOND™155 Ordering Guide - Resin and Hardener Hardener Resin Container Part Number Part No. Kit (3 oz resin, 3 oz hardener) Included in P/N 155 DeltaBond™ 155 155 Model Number

DeltaBond™ 156 Thermally Conductive Adhesive is a modified acrylic adhesive designed for permanent mounting on components where heat must be effectively transmitted. Recommended for electromechanical assemblies to bond components and dissipate heat, it replaces mechanical fasteners and compressible pads, silicone grease, and epoxies; eliminates air entrapment, and other variables related to epoxy mixing. This soft paste requires no mixing and flows easily to allow thin bond lines. Primer activated, cure begins upon assembly. DeltaBond™ Activator fixtures at room temperature in less than 5 minutes. Full strength is developed in 4 to 12 hours and fillets become dry to the touch in 24 hours. It is not recommended to use this durable adhesive without the use of DeltaBond™ Activator. DeltaBond™ 156 is available in kit size; order 156-K (25 ml Syringe and Activator Kit). Shelf life: 1 year. DELTABOND™156

DELTABOND™156

Typical Electrical Properties

Characteristics Description Test

Typical Properties Fully Cured Test

Results

Temperature Range

ASTM

-65 to 300°F (-54 to 149°C) 300°F to (177°C) Intermittent

Dielectric Strength

Results

ASTM

220 volts/mil

D149

Dielectric Constant, 77°F (25°C)

Tensile Strength, at break Modulus Elongation, at break Outgassing

2360 psi 233,000 psi 7.75% 2.5% TLM 0.05% CVCM

D638 D638 D638 E595

Coefficient of Thermal Expansion Tensile Shear Thermal Conductivity, K (absolute at 86°F (30°C)

7.1 x 10 -4 (cm/cm°C) 2500psi D1002 3.47 Btu x in./hr ft2 °F (0.50 W/m °C)

14.92

1000 Hz

14.26

1MM Hz

12.34

Dissipaton Factor, 77°F (25°C)

D150

100 Hz

0.05

1000 Hz

0.03

1MM Hz

Note: The absolute thermal conductivity test was developed specifically for measuring thermal properties of thin film adhesive bonds.

D150

100 Hz

0.06

Volume Resistivity

5.2x1011 (ohms-cm)

D257

Surface Resistivity

8.6 x 1013 (ohms)

D257

Note: DeltaBond™ Thermally Conductive Adhesive-High Strength contains a metallic filler which, in certain applications, may have an effect on electrical properties. Therefore, test each particular application to ensure that electrical properties are as required.

DELTABOND™156 Model Number Part No. DeltaBond™ 156

156-K

Ordering Guide - Resin and Hardener Resin Container Resin Kit Hardener Syringe - 0.85 fl oz - 25 ml - 2 oz net/0.44 oz fl contents bottle -12ml

Hardener Part Number

Included in kit hardener with brush applicator 4.2 oz total wt/kt

* Since the hardener/resin reaction is exothermic, it is important that batch size be matched to hardener speed. Working times given are for approximate batch sizes: A—200 gms, B—200 gms. Larger batch sizes will greatly reduce working time. † After initial cure, material may be handled, removed from fixture, etc., but has not yet achieved full properties and should be room temperature aged or post-cured as shown to achieve full physical and electrical properties. ‡ After initial cure, material may be brought to full physical and electrical properties during post-cure or may be room temperature aged for charted length of time to achieve same full properties. The information contained herein is based on data believed to be reliable but we do not assume responsibility for accuracy. All such information is used at the customer's own risk, conditions of use being beyond our control.

67


Accessory Products

THERMAL COMPOUNDS, ADHESIVES AND INTERFACE MATERIALS 173/174 SERIES 175 SERIES

DeltaPads™ Thermally Conductive Insulators Greaseless Thermally Conductive Kapton® Reinforced Insulators

Characteristics

The 173, 174, and 175 Series are highly efficient thermally conductive insulators designed for semi conductor interface to heat sinks. Their properties eliminate messy concerns associated with thermal greases.

TO-3, TO-66, TO-220,DO-4, DO-5 SHEET

Material Thickness Color Tear Strength, lb/in. Typical100 Volume Resistivity, megohm-cm, Minimum Normal Breakdown Voltage, Minimum Dielectric Constant at 60 Hz and 100 V Maximum Continuous Use Temperature, °C Thermal Conductivity, cal/cm sec. °C, Minimum Thermal Resistance (TO-3), 1 in.2 °C/W Recommended Mounting Pressure, lb/in.2

DeltaPads™ 173-7 Series 0.007 in. Gray 100 1.0 x 109 4,000 2.70 -60/+200 3 x 10 -3 0.33 350/550

DeltaPads™ 173-9 Series 0.009 in. Gray 100 1.0 x 109 5,000 2.40 -60/+200 3 x 10 -3 0.50 350/550

*P (pressure in psi) = 173-7 Series

DeltaPads™ 174-9 Series 0.009 in. Tan 100 1.0 x 1013 5,000 2.50 -60/+200 1 x 10 -2 0.25 350/550

Kapton® 175-6 Series 0.006 in. Gray ASTM 0624 1 x 1013 6,000 5.5 @ 1,000 Hz -60/+200 1.2 x 10 -3 0.40 350/550

174-9 Series

175-6 Series

No Adhesive

Greaseless

No Adhesive

Adhesive Backing

No Adhesive

173-9-210P

175-6-210P

173-7-220P

175-6-220P

173-7-230P

173-9-230P

175-6-230P

173-7-240P

173-7-240A

173-9-240P

175-6-240P

175-6-250P

175-6-280P

174-9-310P

175-6-310P

175-6-320P

175-6-330P

175-6-410P

175-6-610P

173-7-1212P

173-9-1212P

174-9-1212P

D04/05 TO-66

TO-3

68

ASTM D257 ASTM 0149 ASTM D 150 – – – Formula*

173-9 Series

TO-220

Dimensions: in. (mm)

Micrometer Visual

T (torque [in.-lb] x N (number of fasteners) 0.2 x D (Thread Dia) x A (contact surface area square inches)

MECHANICAL DIMENSIONS

SHEET

Test Method

TO-5

DUAL TO-220

TO-66 (RECTANGLE)


Aluminum Extrusion Profiles: FLATBACK 016320

XX2141

016320

XX4327

XX4327

XX2141

(0.240)

(0.080)

(.044) (.040)

(.194)

(.240)

(0.040)

Per. WT. sa

1.79 0.04 42.00

(0.094)

(.400)

(.253)

(0.040)

(0.415)

in. lb/ft C/w/3”

Per. W T. WT. sa

2.71 0.06 20.30

Per. WT. sa

in. lb/ft C/w/3”

2.83 0.07 26.00

in. lb/ft C/w/3”

A

012235

XX5672

013254

013254

XX5672

012235

(.160) ( .050) ( .057) (.033) (.190)

(.520)

(.040)

(.250) (.120)

(.520) (.540)

(.437)

Per. WT. sa

2.39 0.07 29.16

in. lb/ft C/w/3”

Per. WT. sa

2.48 0.06 28.50

Per. WT. sa

in. lb/ft C/w/3”

4.24 0.21 14.00

in. lb/ft C/w/3”

B

016355

016210

016355

XX8020

XX8020

016210

(.640)

(.136)

(.050)

(1.000)

(.470)

(.200)

(.080) (.120) (.400)

(.560)

(.650)

(.640)

Per. WT. sa

6.69 0.20 9.50

Per. WT. sa

in. lb/ft C/w/3”

5.53 0.20 11.10

in. lb/ft C/w/3”

Per. WT. sa

in. lb/ft °C/w/3"

5.25 0.14 12.00

C

016457

XX2149

016457

XX4493

XX4493

XX2149 (.034)

(0.088) (.055) (.080)

(0.240)

(.400)

(.064) (.354)

(0.040) (0.040) (.662)

(.657)

Per. WT. sa

6.08 0.15 15.80

(.744)

in. lb/ft C/w/3”

Per. WT. sa

3.86 0.14 8.80

(0.040)

in. lb/ft C/w/3”

Per. WT. sa

5.01 0.13 18.00

in. lb/ft C/w/3”

D Profiles are not to scale relative to each other. θsa values shown for 3” vertical length in natural convection with black anodized finish.

69


Aluminum Extrusion Profiles: FLATBACK XX2148

XX2142

016430 16430

XX2142

XX2148

(.040)

(.190)

(.240)

(.040)

(1.004) (.084)

(.750) (.750) (.754)

Per. WT. sa

3.96 0.09 7.00

in. lb/ft C/w/3”

Per. WT. sa

4.86 0.11 8.20

in. lb/ft C/w/3”

Per. WT. sa

10.76 0.37 7.90

in. lb/ft C/w/3”

A

006513

016420

006513

016421

016421

016420 (.810)

(.600)

(.400) (.450) (.159)

(.850) (.080)

Per. WT. sa

4.63 0.24 15.10

(.080)

(.850)

Per. WT. sa

in. lb/ft C/w/3”

5.91 0.24 12.50

Per. WT. sa

in. lb/ft C/w/3”

8.71 0.34 9.70

in. lb/ft C/w/3”

B

012517

016020

016398

016020

012517

016398 (.120)

(.050)

(.075) (.750)

(.236)

(.387)

(.050)

(.100)

(.866)

(.900) (.880)

Per. WT. sa

3.79 0.13 17.10

in. lb/ft C/w/3”

Per. WT. sa

8.90 0.41 8.40

Per. WT. sa

in. lb/ft C/w/3”

5.94 0.18 12.30

in. lb/ft C/w/3”

C

012234

011939

011940

011939

012234

011940 (.067)

(.050) (.012)

.176 (.067)

(.057)

(.080) (.297)

(.945)

(.930)

Per. WT. sa

5.13 0.16 13.64

(.080)

(.395)

(.060)

(.250)

in. lb/ft C/w/3”

Per. WT. sa

4.44 0.19 15.60

(.945)

in. lb/ft C/w/3”

Per. WT. sa

5.61 0.23 12.50

in. lb/ft C/w/3”

D 70

Profiles are not to scale relative to each other. θsa values shown for 3” vertical length in natural convection with black anodized finish.


Aluminum Extrusion Profiles: FLATBACK 011941

012904

011173

012904

011941

011173

( .230) (.176)

(.067)

(.230)

(.065) (.765)

(.935) (.592)

(.390)

(.080) (.130) (.985)

(.945)

Per. WT. sa

(.170)

(.950)

7.98 0.32 8.80

Per. WT. sa

in. lb/ft C/w/3”

9.45 0.48 7.10

Per. WT. sa

in. lb/ft C/w/3”

0.25 4.59 15.20

in. lb/ft C/w/3”

A

014240

016053

014240

016427

016427

016053

(1.004) (1.000)

(1.260)

(.094)

(.250) (.090)

Per. WT. sa

9.32 0.49 6.40

(.896) (.028)

(1.000)

(1.000)

in. lb/ft C/w/3”

Per. WT. sa

10.40 0.59 5.70

Per. WT. sa

in. lb/ft C/w/3”

(1.004)

13.06 0.37 6.30

in. lb/ft C/w/3”

B

016405

016361

016405

016746

016746

016361 (.080)

(.059)

(.043)

(.043)

(.083) (.38)

(.600) .(129)

(.083)

(1.032)

(.150)

(.060)

(.010)

(1.06)

(1.032)

Per. WT. sa

7.76 0.25 11.40

Per. WT. sa

in. lb/ft C/w/3”

8.33 0.41 8.60

in. lb/ft C/w/3”

Per. WT. sa

3.76 0.11 22.00

in. lb/ft C/w/3”

C

XX2167

XX8339

XX2037

XX8339

XX2167

(.750)

XX2037

(.687)

(1.350)

(.187) (.125)

(.200) (1.097)

(1.060)

Per. WT. sa

8.62 0.39 8.00

(1.094)

in. lb/ft C/w/3”

Per. WT. sa

11.49 0.69 4.60

in. lb/ft C/w/3”

Per. WT. sa

5.49 0.35 6.00

in. lb/ft C/w/3”

D Profiles are not to scale relative to each other. θsa values shown for 3” vertical length in natural convection with black anodized finish.

71


Aluminum Extrusion Profiles: FLATBACK XX8052-25

XX8052-35

XX8052-25

XX8052-45

XX8052-35

XX8052-45

(.080)

(.080) (.350)

(.080) (.450)

(.250)

(1.100) (1.100)

Per. WT. sa

4.59 0.19 16.00

Per. WT. sa

in. lb/ft C/w/3”

6.06 0.29 11.60

(1.100)

Per. WT. sa

in. lb/ft C/w/3”

7.68 0.35 12.00

in. lb/ft C/w/3”

A

XX8052-60

016649

XX8052-60

016265

016649

016265 (.151)

(.040)

(.341)

(.080) (.600) (.354)

(.600) (.084) (1.104)

(1.100) (.080)

Per. WT. sa

9.03 0.41 8.00

(1.100)

in. lb/ft C/w/3”

Per. WT. sa

10.68 0.31 8.20

Per. WT. sa

in. lb/ft C/w/3”

2.27 0.24 12.20

in. lb/ft C/w/3”

B

XX4242

013607

011296

013607

XX4242

011296

(.100) (.788)

(.570)

(.375)

(.115)

(1.120)

(1.106)

Per. WT. sa

6.95 0.25 14.00

in. lb/ft C/w/3”

Per. WT. sa

8.65 0.33 7.50

(.100)

(1.142)

Per. WT. sa

in. lb/ft C/w/3”

7.01 0.36 10.00

in. lb/ft C/w/3”

C

013568

016002

015944

015944

016002

013568

(.767) (.370)

(.100)

(.867)

(.100)

(.085)

(1.185)

(1.180)

Per. WT. sa

8.23 0.31 10.70

in. lb/ft C/w/3”

Per. WT. sa

10.42 0.43 6.90

(1.185)

in. lb/ft C/w/3”

Per. WT. sa

11.62 0.47 6.40

in. lb/ft C/w/3”

D 72

Profiles are not to scale relative to each other. θsa values shown for 3” vertical length in natural convection with black anodized finish.


Aluminum Extrusion Profiles: FLATBACK XX2088

014987

XX2088

014987

016170

016170 (.048)

(.163)

(.166)

(.059) (.385) (.808)

(.650)

(.068)

(.200) (.070)

(1.200)

Per. WT. sa

8.63 0.29 8.30

(1.200)

in. lb/ft C/w/3”

Per. WT. sa

9.41 0.60 7.40

(1.208)

in. lb/ft C/w/3”

Per. WT. sa

14.39 0.43 6.50

in. lb/ft C/w/3”

A

013673

XX8787

016424

XX8787

013673

016424 (.168)

(.320)

(.133)

(.070)

(.350)

(.600)

(.080) (.200) (.052)

(1.235)

(.260)

(1.220)

(.100)

(1.240)

(.050)

Per. WT. sa

12.19 0.47 5.70

in. lb/ft C/w/3”

Per. WT. sa

5.10 0.16 18.00

Per. WT. sa

in. lb/ft °C/w/3"

7.41 0.31 11.00

in. lb/ft C/w/3”

B

016419

010979

016157

016157

010979

016419

(.216)

(.055)

(.080) (.400)

(1.650)

(.256) (.055)

(.325)

(.076)

(1.240) (1.26)

Per. WT. sa

8.41 0.35 10.20

in. lb/ft C/w/3”

Per. WT. sa

15.79 1.08 4.40

(1.264)

Per. WT. sa

in. lb/ft C/w/3”

6.24 0.23 13.60

in. lb/ft C/w/3”

C

014338

XX8591

016563

XX8591

014338

016563

(.551)

(.147)

(1.410)

(.850) (.140)

Per. WT. sa

13.42 0.92 5.20

in. lb/ft C/w/3”

(.093)

(1.266)

(.787)

(.200)

(.325)

(1.291)

Per. WT. sa

8.20 0.40 10.50

in. lb/ft °C/w/3"

(1.300)

Per. WT. sa

12.11 0.70 6.00

in. lb/ft C/w/3”

D Profiles are not to scale relative to each other. θsa values shown for 3” vertical length in natural convection with black anodized finish.

73


Aluminum Extrusion Profiles: FLATBACK 016179

XX10312

016431

XX10312

016179

016431

(.300)

(.083)

(.083)

(.595)

(.114)

(.454) (.114) (1.354)

(1.303) (1.303)

Per. WT. sa

5.62 0.27 11.40

in. lb/ft C/w/3”

Per. WT. sa

10.39 0.45 8.75

Per. WT. sa

in. lb/ft °C/w/3"

7.47 0.44 9.00

in. lb/ft C/w/3”

A

016327

016454

016327

016458

016458

016454

(.350) (.145) (.146) (.670)

(.081) (.220)

(.400)

(.045) (1.375)

(1.362)

Per. WT. sa

9.13 0.58 6.90

(.070)

(1.374)

Per. WT. sa

in. lb/ft C/w/3”

8.01 0.27 9.24

in. lb/ft C/w/3”

Per. WT. sa

7.10 0.24 10.00

in. lb/ft C/w/3”

B

016426

016756

016426

011485

011485

016756

(.150)

(.070) (.070)

(1.000)

(.550)

(.960)

(.250) (1.375)

Per. WT. sa

10.30 0.32 7.60

(.156)

Per. WT. sa

in. lb/ft C/w/3”

(1.375) (1.380)

13.19 0.76 5.20

in. lb/ft C/w/3”

Per. WT. sa

10.33 0.76 6.80

in. lb/ft C/w/3”

C

016169

011424

016169

XX8650

XX8650

011424 (.150)

(.048)

(.658)

(.450) (.088) (.150)

14.37 0.47 6.70

(.700) (.220)

(1.400)

(1.398)

Per. WT. sa

in. lb/ft C/w/3”

(.191)

(.060)

Per. WT. sa

6.07 0.35 11.50

(1.400)

in. lb/ft C/w/3”

Per. WT. sa

10.22 0.70 8.80

in. lb/ft C/w/3”

D 74

Profiles are not to scale relative to each other. θsa values shown for 3” vertical length in natural convection with black anodized finish.


Aluminum Extrusion Profiles: FLATBACK 011381

014361

011381

014363

014361

(.650)

014363

(.453)

(.238) (.078)

(.113)

(.150) (1.450)

(1.402)

Per. WT. sa

11.23 0.52 6.20

in. lb/ft C/w/3”

Per. WT. sa

6.89 0.25 10.20

(1.450)

in. lb/ft C/w/3”

Per. WT. sa

11.27 0.47 6.20

in. lb/ft C/w/3”

A

XX7207

XX6889

XX7207

015768

015768

XX6889 (.070)

(.500)

(.729)

(.650)

(.090) (.070)

(1.450)

(1.450)

(1.450)

Per. WT. sa

10.78 0.33 7.00

in. lb/ft C/w/3”

Per. WT. sa

13.20 0.40 6.20

Per. WT. sa

in. lb/ft C/w/3”

14.12 0.54 6.20

in. lb/ft C/w/3”

B

014359

016051

016171

016051

014359

016171 (.157)

(.048)

(.440)

(.955)

(.808)

(.138)

(.098)

(.115) (1.452)

(1.458) (1.450)

Per. WT. sa

15.97 0.70 4.40

Per. WT. sa

in. lb/ft C/w/3”

11.25 0.47 9.40

in. lb/ft C/w/3”

Per. WT. sa

16.56 0.63 5.70

in. lb/ft C/w/3”

C

014769

015960

014769

005329

005329

015960

(.200)

4X (.100)

(.110)

(.120) (.410)

(.080)

(.300)

(.350)

(.200)

(.111)

Per. WT. sa

(1.500)

(1.470)

7.44 0.39 8.80

(1.500)

in. lb/ft C/w/3”

Per. WT. sa

7.35 0.27 10.50

in. lb/ft C/w/3”

Per. WT. sa

5.54 0.33 12.70

in. lb/ft C/w/3”

D Profiles are not to scale relative to each other. θsa values shown for 3” vertical length in natural convection with black anodized finish.

75


Aluminum Extrusion Profiles: FLATBACK XX4864

015919

XX8522

XX8522

015919

XX4864

(.200) (.551) (.080)

(.399)

(.080)

(.500)

(.787) (1.500)

(1.500)

(1.500) (.093)

8.47 0.28 9.60

Per. WT. sa

Per. WT. sa

in. lb/ft C/w/3”

11.35 0.39 7.70

in. lb/ft C/w/3”

9.88 0.55 9.80

Per. WT. sa

in. lb/ft C/w/3”

A

014883

006606

014883

XX7229

XX7229

006606 (.350)

(.375) (.238)

(.060)

(.160)

(.480)

(.570)

(.590)

(.573)

(.100)

(.051)

(.090) (.200)

(.090) (.410)

(.680)

(.870)

(.315)

(1.500)

(1.500)

(1.500)

Per. WT. sa

8.65 0.51 8.10

Per. WT. sa

in. lb/ft C/w/3”

7.07 0.23 9.60

Per. WT. sa

in. lb/ft C/w/3”

10.40 0.61 7.00

in. lb/ft C/w/3”

B

XX8063

XX8063

XX7152

XX7152 (1.440)

(.160)

(.060)

(.160) (.090) (.040)

Per. WT. sa

12.72 6.07 6.80

(.100) (.970)

(.225)

(1.500)

(.670)

(.350)

(.640)

(.103)

(1.300)

013599

013599

(1.500)

in. lb/ft C/w/3”

Per. WT. sa

11.97 0.72 6.00

(1.150)

in. lb/ft C/w/3”

Per. WT. sa

12.50 0.75 5.00

in. lb/ft °C/w/3"

C

010313

010313

016429

XX7060

016429

XX7060

(1.500)

(0.124)

(1.652)

(0.285)

(1.004) (.187)

(0.041) (.630) (.062)

Per. WT. sa

(.064)

14.75 0.84 4.70

in. lb/ft C/w/3”

(1.529)

(1.504)

(.800)

Per. WT. sa

14.303 in. 0.412 lb/ft 4.90 C/w/3”

(0.050)

Per. WT. sa

12.72 0.61 14.00

in. lb/ft C/w/3”

D 76

Profiles are not to scale relative to each other. θsa values shown for 3” vertical length in natural convection with black anodized finish.


Aluminum Extrusion Profiles: FLATBACK 015901

016452

015901

XX8009

XX8009

016452

(.125)

(2.240)

(.087)

(.750)

(.156) (.426)

(.278)

(2.060) (.250)

(1.560)

(1.540)

Per. WT. sa

30.32 1.93 3.30

(1.560)

Per. WT. sa

in. lb/ft C/w/3”

XX2007

9.29 0.46 8.10

in. lb/ft C/w/3”

Per. WT. sa

XX2006

A

016804 016804

XX2006

XX2007

in. lb/ft °C/w/3"

9.00 0.53 5.50

(.157) (1.261)

(.125)

(.750)

(.500)

(.075)

(.458)

(.125)

(1.562)

(1.562)

(1.575)

Per. WT. sa

8.62 0.43 8.00

in. lb/ft C/w/3”

Per. WT. sa

12.12 0.57 5.40

in. lb/ft C/w/3”

Per. WT. sa

13.59 0.36 9.80

in. lb/ft C/w/3”

B

011927

011927

XX8058

016071

XX8058

016071

(.157) (.060)

(.220)

(.048)

(.866)

(.410)

(.260)

(.125)

(.197)

(.090)

(1.600)

(1.600)

(1.575)

Per. WT. sa

12.27 0.87 5.70

Per. WT. sa

in. lb/ft C/w/3”

7.00 0.34 14.00

in. lb/ft C/w/3”

Per. WT. sa

8.20 0.36 8.30

in. lb/ft C/w/3”

C

XX8035

XX2036

XX2014

XX2014

XX2036

XX8035 (0.050)

(.253)

(.060)

(0.525)

(.687) (1.312)

(.187) (0.070) (1.600)

(.312)

(0.145)

(1.617) (1.625)

Per. WT. sa

11.05 0.58 7.00

in. lb/ft C/w/3”

Per. WT. sa

7.58 0.51 4.90

in. lb/ft C/w/3”

Per. WT. sa

15.45 1.05 3.20

in. lb/ft C/w/3”

D Profiles are not to scale relative to each other. θsa values shown for 3” vertical length in natural convection with black anodized finish.

77


Aluminum Extrusion Profiles: FLATBACK XX8008

012062

XX8009

012646

012646

012062 (.140)

(.050)

(.080)

(.179)

(.125)

(.750)

(.050) (.500)

(.280)

(.100) (1.650)

(1.560)

Per. WT. sa

Per. WT. sa

in. lb/ft °C/w/3"

9.00 0.53 5.50

(1.653)

(.080)

8.92 0.39 7.80

in. lb/ft C/w/3”

Per. WT. sa

6.73 0.20 10.40

in. lb/ft C/w/3”

A

008842

012704

008842

012148

012704

(1.000)

012148

(1.175)

(.150)

(.591) (.091)

(.175)

Per. WT. sa

(1.665)

(1.663)

(1.66)

18.15 1.03 4.90

Per. WT. sa

in. lb/ft C/w/3”

19.43 0.83 3.60

Per. WT. sa

in. lb/ft C/w/3”

11.45 0.51 6.10

in. lb/ft C/w/3”

B

XX5798

XX8244-33

XX5798

XX8244-40

XX8244-33

XX8244-40 (.400)

(.393)

(.315)

(0.210) (0.060)

(0.060)

(1.312)

(.312)

(0.210)

(1.690)

Per. WT. sa

Per. WT. sa

in. lb/ft °C/w/3"

13.66 1.04 5.30

8.40 0.37 10.00

(1.690)

(0.090)

(1.686)

in. lb/ft C/w/3”

Per. WT. sa

10.40 0.45 9.30

(0.090)

in. lb/ft C/w/3”

C

XX8244-52

012228

XX8244-52

012990

012990

012228 (.515) (0.210)

(0.060)

(.615) (.330) (.106)

(.165)

(1.691)

(1.690)

Per. WT. sa

13.20 0.53 8.50

(1.697)

(0.090)

in. lb/ft C/w/3”

Per. WT. sa

8.00 0.34 8.70

in. lb/ft C/w/3”

Per. WT. sa

10.67 0.76 6.40

in. lb/ft C/w/3”

D 78

Profiles are not to scale relative to each other. θsa values shown for 3” vertical length in natural convection with black anodized finish.


Aluminum Extrusion Profiles: FLATBACK 013295

013521

013295

XX8033

XX8033

013521

(.055) (1.000)

(.645)

(.150)

(.195)

(1.710) (.155) (1.700)

Per. WT. sa

13.75 0.79 5.10

(1.700)

in. lb/ft C/w/3”

Per. WT. sa

18.73 1.14 3.70

Per. WT. sa

in. lb/ft C/w/3”

5.40 0.19 8.20

in. lb/ft C/w/3”

A

015184

014815

015184

016665

016665

014815

(.072) (.048)

(.740)

(1.160)

(.318)

(.270)

(.108)

(.210)

(1.728)

(1.723) (1.710)

Per. WT. sa

18.02 1.12 4.10

Per. WT. sa

in. lb/ft C/w/3”

14.82 0.86 4.70

in. lb/ft C/w/3”

Per. WT. sa

9.23 0.41 10.20

in. lb/ft C/w/3”

B

XX8260-25

XX8260-35

XX8260-40

XX8260-25

XX8260-35

XX8260-40

(.350)

(.250) (0.100)

(.400)

(.100) (.100)

(1.75)

(1.750)

Per. WT. sa

6.41 0.32 11.00

(1.750)

Per. WT. sa

in. lb/ft C/w/3”

8.60 0.39 8.80

in. lb/ft C/w/3”

Per. WT. sa

9.89 0.41 7.80

in. lb/ft C/w/3”

C

016140

XX8260-65

016140

016719

016719

XX8260-65

(.625)

(.060)

(.050)

(.563)

(.477)

(.125)

(.650)

(.500)

(.100)

(.875) (.100) (1.750)

(1.750)

(.063)

Per. WT. sa

11.30 0.44 7.80

(1.750)

(.125)

in. lb/ft C/w/3”

Per. WT. sa

15.20 0.59 5.80

in. lb/ft C/w/3”

Per. WT. sa

9.60 0.72 5.10

in. lb/ft C/w/3”

D Profiles are not to scale relative to each other. θsa values shown for 3” vertical length in natural convection with black anodized finish.

79


Aluminum Extrusion Profiles: FLATBACK 011498

003413

011492

003413

011498

011492 (.060)

(1.735)

(.885)

(.250)

(.130)

(.220)

(1.755)

(1.750)

Per. WT. sa

9.77 0.48 7.20

(1.750)

in. lb/ft C/w/3”

Per. WT. sa

15.25 1.22 4.60

Per. WT. sa

in.

lb/ft C/w/3”

10.84 0.31 6.50

in. lb/ft C/w/3”

A

012584

013158

016478

016478

013158

012584

(.290)

.089

.580

(.402)

(.615)

(.118)

1.760

(1.755)

Per. WT. sa

11.14 0.55 6.20

Per. WT. sa

in. lb/ft C/w/3”

14.53 0.49 4.40

(1.770)

(.124)

in. lb/ft C/w/3”

Per. WT. sa

15.37 0.62 6.80

in. lb/ft C/w/3”

B

012388

014837 014837

012388

016167

016167 (.193)

(.075) (.989)

(.265)

(1.089)

(.100)

(1.780) (.100)

(1.775)

Per. WT. sa

9.31 0.33 7.50

in. lb/ft C/w/3”

(.323)

(1.687)

(.044)

(1.775)

(.106)

Per. WT. sa

22.92 1.02 5.10

Per. WT. sa

in. lb/ft C/w/3”

7.24 0.32 9.30

in. lb/ft C/w/3”

C

016285

016275 016275

016285

016161

016161

(.173) (.600)

(1.093)

(.654)

(.104)

(1.784)

(.204)

(1.790)

(.048)

(.288)

(0.090)

(1.694)

(.100)

(1.789)

Per. WT. sa

12.41 0.70 5.80

in. lb/ft C/w/3”

Per. WT. sa

22.87 1.10 4.60

in. lb/ft C/w/3”

Per. WT. sa

14.88 0.57 6.30

in. lb/ft C/w/3”

D 80

Profiles are not to scale relative to each other. θsa values shown for 3” vertical length in natural convection with black anodized finish.


Aluminum Extrusion Profiles: FLATBACK 015163 015163

017012

014850

14850

017012

(1.835)

(.159)

(1.810) (.090)

(.398)

(1.199) (.118)

(.560) (.150) (.254)

(1.800)

Per. WT. sa

10.03 0.49 7.00

(1.130)

in. lb/ft C/w/3”

Per. WT. sa

14.77 0.71 6.80

in. lb/ft C/w/3”

Per. WT. sa

XX7293

012580

012416

XX7293

012580

012416

( 1.254)

(.078)

27.41 1.07 4.80

(.118)

in. lb/ft C/w/3”

(.643)

A

(.643)

(.150)

(.320)

(.150)

(1.846) (.339)

(1.845)

Per. WT. sa

18.39 1.36 3.40

in. lb/ft C/w/3”

Per. WT. sa

(1.846)

(1.170)

14.96 0.67 4.70

Per. WT. sa

in. lb/ft C/w/3”

14.96 0.73 4.70

in. lb/ft C/w/3”

B

016221

016221

016326

016259

016326

016259 (.19) (.892)

(.090) (.250)

(.642) (.142)

(1.85) (.142)

(1.847)

Per. WT. sa

13.70 0.52 5.80

(1.848)

in. lb/ft C/w/3”

Per. WT. sa

18.70 0.66 4.60

Per. WT. sa

in. lb/ft C/w/3”

7.70 0.36 10.90

in. lb/ft C/w/3”

C

XX8221

XX8221

019033 019033

016312

016312

(.740)

(.800)

(0.190)

(0.090) (0.510)

(.250) (1.850)

(1.850)

Per. WT. sa

14.98 0.63 6.20

in. lb/ft C/w/3”

Per. WT. sa

18.78 1.10 6.50

(.080)

(1.850)

in. lb/ft C/w/3”

Per. WT. sa

18.05 0.58 5.20

in. lb/ft C/w/3”

D Profiles are not to scale relative to each other. θsa values shown for 3” vertical length in natural convection with black anodized finish.

81


Aluminum Extrusion Profiles: FLATBACK 011741

003942

011741

012110

003942

012110

(1.000)

(1.250)

(.250)

(.320) (1.875)

(1.850)

Per. WT. sa

18.30 1.45 3.80

(1.000)

(.188)

Per. WT. sa

in. lb/ft C/w/3”

16.00 1.08 4.40

(1.88)

in. lb/ft C/w/3”

Per. WT. sa

10.15 0.79 6.90

in. lb/ft C/w/3”

A

014374

014970

012334

012334

014970

014374

(.585)

(.380) (.210) (.341) (.275)

(.100)

(1.030)

(.350)

(.200) (.066) (.610)

(.680)

(.200)

(1.900)

(1.900)

(1.880)

Per. WT. sa

13.79 0.45 5.10

in. lb/ft C/w/3”

Per. WT. sa

7.49 0.44 10.20

Per. WT. sa

in. lb/ft C/w/3”

8.27 0.56 8.50

in. lb/ft C/w/3”

B

015672

015672

012246

013151

012246

013151 (.650)

(.075)

(.465)

(.425)

(.125)

(.125)

(1.900)

(1.990)

Per. WT. sa

17.78 0.45 7.00

(1.900)

in. lb/ft C/w/3”

Per. WT. sa

15.39 0.56 4.50

Per. WT. sa

in. lb/ft C/w/3”

13.69 0.77 5.10

in. lb/ft C/w/3”

C

XX2239

011448

XX2239

016436

011448

016436 (.098)

(.775)

(1.000) (.100)

(.202)

(.150)

Per. WT. sa

13.56 0.78 5.70

(1.904)

(1.900)

(1.900)

in. lb/ft C/w/3”

Per. WT. sa

14.76 0.60 4.70

in. lb/ft C/w/3”

Per. WT. sa

9.20 0.34 12.00

in. lb/ft C/w/3”

D 82

Profiles are not to scale relative to each other. θsa values shown for 3” vertical length in natural convection with black anodized finish.


Aluminum Extrusion Profiles: FLATBACK 008702

XX8195

008702

011465

011465

XX8195

(.310)

(0.200) (0.090)

(.080)

(1.250) (.690)

(0.250)

(.250)

(.250)

Per. WT. sa

18.34 1.08 3.80

(1.940)

(1.940)

(1.920)

in. lb/ft C/w/3”

Per. WT. sa

77.43 0.37 10.00

Per. WT. sa

in. lb/ft C/w/3”

10.46 0.85 6.70

in. lb/ft C/w/3”

A

013205

013206

013205

013206

013208

013208

(.304)

(.300) (.304)

(.125) (.625)

(.475)

(1.025)

(.125)

(.125) (1.960)

Per. WT. sa

10.63 0.53 6.60

(1.960)

(1.960)

Per. WT. sa

in. lb/ft C/w/3”

13.63 0.63 5.10

Per. WT. sa

in. lb/ft C/w/3”

18.07 0.87 3.90

in. lb/ft C/w/3”

B

013210

013210

015921

016650

016650

015921

(.300)

(.150)

(.045) (.080)

(1.525) (.200)

(.070)

(.350)

(.125) (2.000)

(2.000)

(1.960)

Per. WT. sa

20.61 0.97 3.40

Per. WT. sa

in. lb/ft C/w/3”

7.86 0.31 11.50

Per. WT. sa

in. lb/ft °C/w/3"

11.98 0.38 8.00

in. lb/ft C/w/3”

C

004506

004506

014727

013075

014727

013075

(.532)

(.392) (.312) (.688)

(.740)

(.100)

(2.270)

(.520) (.125)

(2.000)

(2.000)

Per. WT. sa

11.50 0.55 6.10

(.094)

in. lb/ft C/w/3”

(2.000)

Per. WT. sa

13.66 0.76 5.10

in. lb/ft C/w/3”

Per. WT. sa

25.12 2.35 2.80

in. lb/ft C/w/3”

D Profiles are not to scale relative to each other. θsa values shown for 3” vertical length in natural convection with black anodized finish.

83


Aluminum Extrusion Profiles: FLATBACK 016149

016428

012106

016428

012106

(1.750) (1.004) (.104)

(.200)

(2.030)

(2.004)

Per. WT. sa

21.98 0.83 4.20

Per. WT. sa

in. lb/ft C/w/3”

22.81 1.33 3.10

in. lb/ft C/w/3”

A

014432

010980

016172

010980

014432

016172

(.100) (.220)

(.200) (.125)

(.750)

(.080)

(.808)

(.440)

(.138)

(2.050)

(2.040)

(2.058)

Per. WT. sa

8.15 0.36 8.60

Per. WT. sa

in. lb/ft C/w/3”

15.60 0.65 4.50

in. lb/ft C/w/3”

Per. WT. sa

19.10 0.76 4.70

in. lb/ft C/w/3”

B

016555

014476

016555

014476

012712

012712

(.090) (.561)

(.812)

(.050)

(.300)

(.188) (2.060)

Per. WT. sa

15.29 0.87 4.70

(2.094)

(2.079)

in. lb/ft C/w/3”

Per. WT. sa

15.75 0.74 4.40

in. lb/ft C/w/3”

Per. WT. sa

11.20 0.30 6.20

in. lb/ft C/w/3”

C

XX8355-40

012182

011740

012182

XX8355-40

011740 (.462)

(.272)

(.400)

(.080)

(.400)

(.540)

(0.150) (2.100) (2.100)

Per. WT. sa

9.44 0.67 7.00

in. lb/ft C/w/3”

Per. WT. sa

7.74 0.36 9.00

(.094)

in. lb/ft C/w/3”

(2.100)

Per. WT. sa

16.23 0.45 4.30

in. lb/ft C/w/3”

D 84

Profiles are not to scale relative to each other. θsa values shown for 3” vertical length in natural convection with black anodized finish.


Aluminum Extrusion Profiles: FLATBACK XX8355-65

XX8355-65

012242

013513

012242

013513

(0.650) (0.150)

(.665) (.125)

(.220)

(2.100)

Per. WT. sa

14.90 0.95 5.20

(.670)

(2.100)

in. lb/ft C/w/3”

Per. WT. sa

20.64 0.68 3.40

(2.100)

in. lb/ft C/w/3”

Per. WT. sa

16.26 0.97 4.30

in. lb/ft C/w/3”

A

XX8355-100

XX8641

(.150)

(.800)

(1.000)

(1.000)

XX8641

XX8355-100

(.190)

XX8355-80 XX8355-80

(.150) (2.100) (2.100)

Per. WT. sa

18.200 in. 1.120 lb/ft 4.40 °C/w/3"

Per. WT. sa

22.64 1.39 3.80

(2.100)

in. lb/ft C/w/3”

Per. WT. sa

22.60 1.36 5.20

in. lb/ft °C/w/3"

B

014235

013647

014235

015955

015955

013647

(1.200)

(1.195)

(.195)

(.090)

(.380)

(.150) (2.100)

Per. WT. sa

29.12 1.79 2.40

(2.116)

(2.100)

in. lb/ft C/w/3”

Per. WT. sa

29.92 1.41 2.60

Per. WT. sa

in. lb/ft C/w/3”

9.95 0.43 7.40

in. lb/ft °C/w/3"

C

014802 014802

012103

014249

014249

012103 (.172)

(.760) (.100)

(1.000)

(.550)

(.130)

(.200) (2.120)

(2.120)

Per. WT. sa

13.81 0.53 6.10

in. lb/ft °C/w/3"

Per. WT. sa

15.65 0.72 4.50

(2.125)

in. lb/ft C/w/3”

Per. WT. sa

15.85 1.18 4.40

in. lb/ft C/w/3”

D Profiles are not to scale relative to each other. θsa values shown for 3” vertical length in natural convection with black anodized finish.

85


Aluminum Extrusion Profiles: FLATBACK 009239

016510

009239 (.300)

016256

016256

016510

(1.750)

(.980)

(.800) (.300)

(.150)

(.150)

Per. WT. sa

25.15 2.23 2.80

(2.131)

(2.131)

(2.125)

in. lb/ft C/w/3”

Per. WT. sa

17.92 1.09 4.80

in. lb/ft C/w/3”

Per. WT. sa

21.86 1.28 5.10

in. lb/ft °C/w/3"

A

XX2035

015786

013211

015786

XX2035

013211

(.459)

(.300)

(.687)

(.200)

(.700)

(.725) (.175)

(2.140)

(2.135)

Per. WT. sa

9.64 0.66 4.30

in. lb/ft C/w/3”

Per. WT. sa

13.24 0.87 5.10

(2.160)

Per. WT. sa

in. lb/ft °C/w/3"

17.21 0.90 4.10

in. lb/ft C/w/3”

B

013212

013213

XX13212

016067 016067

013213 (.289)

(.304)

(.304)

(.925)

(1.225)

(1.968)

(.886)

(.157)

(.175) (2.160) (2.160)

Per. WT. sa

19.13 0.96 3.70

in. lb/ft C/w/3”

Per. WT. sa

20.97 1.12 3.30

(2.165)

in. lb/ft C/w/3”

Per. WT. sa

in. lb/ft °C/w/3"

16.25 1.17 5.20

C

013670

011447

013670

014772 014772

011447 (.080)

(.020)

(.630)

(.826)

(.320)

(.200) (.410) (.110)

(1.181)

(2.220)

(2.200) (2.167)

Per. WT. sa

21.91 0.81 3.20

in. lb/ft C/w/3”

Per. WT. sa

8.34 0.34 8.40

in. lb/ft C/w/3”

Per. WT. sa

11.28 0.56 7.00

in. lb/ft C/w/3”

D 86

Profiles are not to scale relative to each other. θsa values shown for 3” vertical length in natural convection with black anodized finish.


Aluminum Extrusion Profiles: FLATBACK 014854 014854

014819

013017

013017

014819

(2.180)

(.790)

(1.288)

(.215)

(2.220)

(.144)

( .200)

(2.220)

(.220)

(.110)

(2.226)

Per. WT. sa

17.46 0.80 4.60

in. lb/ft C/w/3”

Per. WT. sa

27.09 1.48 3.50

(2.240)

Per. WT. sa

in. lb/ft C/w/3”

32.38 1.79 2.40

in. lb/ft C/w/3”

A

016227

XX10458

014418

XX10458

016227

014418

(.810)

(.425)

(.310)

(.180)

(2.250)

(1.250)

(2.250)

(.125)

(2.250)

(.125)

Per. WT. sa

10.50 0.53 6.60

in. lb/ft C/w/3”

Per. WT. sa

17.49 1.21 4.80

in. lb/ft °C/w/3"

Per. WT. sa

18.25 0.84 3.80

in. lb/ft C/w/3”

B

XX8315

XX8315

011880

016502

011880

016502

(2.220)

(.470)

(.754)

(.064)

(.125) (2.264)

(2.260)

(.220) (2.252)

Per. WT. sa

32.42 1.79 2.40

Per. WT. sa

in. lb/ft C/w/3”

10.24 0.54 6.80

in. lb/ft C/w/3”

Per. WT. sa

24.75 0.67 4.80

in. lb/ft C/w/3”

C

016052

014360

016216

016052

014360

016216 (.090)

(.274) (.100)

(.440)

(.080)

(.240) (.240)

(2.280)

(2.280)

(2.273)

Per. WT. sa

17.71 0.72 7.60

in. lb/ft C/w/3”

Per. WT. sa

10.93 0.39 10.40

in. lb/ft C/w/3”

Per. WT. sa

7.58 0.36 9.20

in. lb/ft C/w/3”

D Profiles are not to scale relative to each other. θsa values shown for 3” vertical length in natural convection with black anodized finish.

87


Aluminum Extrusion Profiles: FLATBACK 014771 014771

016217

014362

016217

014362 (.274)

(.110)

(.090) (.410)

(.235)

(.450)

(.455) (.115)

(2.280)

(2.280)

(.200)

Per. WT. sa

10.79 0.63 7.80

Per. WT. sa

in. lb/ft C/w/3”

12.21 0.52 6.40

(2.280)

in. lb/ft C/w/3”

Per. WT. sa

17.31 0.73 4.00

in. lb/ft C/w/3”

A

016463

016522

016463

011820

016522

011820

(.324)

(.324)

(.783)

(.768) (.150)

(.910)

(.170)

(.040)

(.185) (.050)

(2.280)

(.135)

(.870)

(2.280)

(2.280)

Per. WT. sa

16.85 0.78 4.50

in. lb/ft C/w/3”

Per. WT. sa

16.65 0.79 4.80

Per. WT. sa

in. lb/ft C/w/3”

17.02 0.81 4.10

in. lb/ft C/w/3”

B

016048 016048

014364

016271

016271

014364

(.641) (.950)

(.955)

(.090)

(.027) (.110) (2.31)

(.115)

(2.280)

(2.280)

Per. WT. sa

18.17 0.75 4.20

in. lb/ft C/w/3”

Per. WT. sa

22.46 1.03 3.10

(.480)

Per. WT. sa

in. lb/ft C/w/3”

11.95 0.56 5.10

in. lb/ft C/w/3”

C

011738

013260

011738

013100

013100

013260 (1.602)

(.450) (.366)

(.130)

(1.750)

(.300)

(.250)

Per. WT. sa

22.46 1.88 3.10

(2.360)

(.085)

(.270)

(2.321)

(2.320)

in. lb/ft C/w/3”

Per. WT. sa

14.21 0.58 4.90

in. lb/ft C/w/3”

Per. WT. sa

8.13 0.48 8.60

in. lb/ft C/w/3”

D 88

Profiles are not to scale relative to each other. θsa values shown for 3” vertical length in natural convection with black anodized finish.


Aluminum Extrusion Profiles: FLATBACK 013102 013102

013098

013101

013101

013098

(.394)

(.400) (.428)

(1.430)

(.970)

(.472)

(2.360)

(2.360)

(.155)

(2.360)

(.155)

Per. WT. sa

10.56 0.63 6.60

in. lb/ft C/w/3”

Per. WT. sa

18.88 0.95 3.70

in. lb/ft C/w/3”

Per. WT. sa

22.23 1.07 3.10

in. lb/ft C/w/3”

(.155)

A

016455

016066 016066

016455

012489

012489

(.810)

(1.504)

(1.250)

(1.110)

(.227)

(.060)

(2.390)

(2.362) (2.364)

Per. WT. sa

21.56 1.42 3.30

(.150)

(.229)

in. lb/ft C/w/3”

Per. WT. sa

27.93 1.95 3.20

(.266)

in. lb/ft C/w/3”

Per. WT. sa

12.18 0.79 5.70

in. lb/ft C/w/3”

B

016211

016214 016214

016211

(.090)

(.95)

012174

012174

(.240)

(.350) (.109)

(2.400) (.090)

(2.40)

Per. WT. sa

18.43 0.75 3.80

Per. WT. sa

in. lb/ft C/w/3”

7.82 0.37 9.10

(2.400)

in. lb/ft C/w/3”

Per. WT. sa

9.29 0.48 7.50

in. lb/ft C/w/3”

C

015604

016215

015604

012165

012165

016215

(.400) (.350)

(.274) (.090)

(.400)

(.450) (2.400)

(.125)

Per. WT. sa

9.14 0.51 8.00

in. lb/ft C/w/3”

(.520) (.210)

(2.400)

Per. WT. sa

12.44 0.54 6.30

(2.400)

in. lb/ft C/w/3”

Per. WT. sa

13.17 0.87 5.30

in. lb/ft C/w/3”

D Profiles are not to scale relative to each other. θsa values shown for 3” vertical length in natural convection with black anodized finish.

89


Aluminum Extrusion Profiles: FLATBACK 012406 012406

012401

011891

011891

012401 (.320) (1.760)

(.660)

(.620) (.200) (.145)

Per. WT. sa

(.215)

(2.400)

(2.400)

12.42 0.71 5.60

(.665)

(.160)

Per. WT. sa

in. lb/ft C/w/3”

18.95 0.86 3.70

(2.400)

in. lb/ft C/w/3”

Per. WT. sa

18.44 1.25 3.80

in. lb/ft C/w/3”

A

012879

014964

012879

012613

014964

012613 (.380)

(.320)

(.320)

(.730)

(.700)

(2.400)

(2.400)

14.68 0.70 4.80

(.125)

(.090)

(.125)

Per. WT. sa

(.900)

in. lb/ft C/w/3”

Per. WT. sa

21.36 0.79 3.30

(2.400)

Per. WT. sa

in. lb/ft C/w/3”

17.24 0.80 4.10

in. lb/ft C/w/3”

B

014427

014373

014960

014373

014427

014960

(.365)

(.975)

(.900)

(.120)

(1.312) (.137)

(.165)

(2.400)

(.304)

(2.400)

(2.400)

Per. WT. sa

23.40 0.89 3.00

Per. WT. sa

in. lb/ft C/w/3”

25.35 1.13 2.80

in. lb/ft C/w/3”

Per. WT. sa

28.19 1.29 2.50

in. lb/ft C/w/3”

C

011890

012661

011890

014701 014701

012661

(1.315)

(2.250)

(1.410)

(.215)

(.270)

(.135)

(2.400)

(2.400)

(2.400)

Per. WT. sa

22.01 1.41 3.20

in. lb/ft C/w/3”

(.456)

Per. WT. sa

27.57 1.33 2.50

in. lb/ft C/w/3”

Per. WT. sa

40.80 2.09 1.70

in. lb/ft C/w/3”

D 90

Profiles are not to scale relative to each other. θsa values shown for 3” vertical length in natural convection with black anodized finish.


Aluminum Extrusion Profiles: FLATBACK 013141

014326

016618 016618

014326

013141

(1.632)

(.405)

(1.100) (1.250)

(.366)

(1.420)

(.129)

(.145) (2.484)

(.401) (2.420)

Per. WT. sa

34.12 1.33 2.10

(.300)

(2.440)

Per. WT. sa

in. lb/ft C/w/3”

35.57 1.30 2.00

Per. WT. sa

in. lb/ft C/w/3”

11.47 0.60 7.30

in. lb/ft C/w/3”

A

015941

015941

015920

014269

015920

014269

(.080) (.235)

(.285)

(.125)

(.562)

(2.500)

(2.500) (.080)

(2.500)

Per. WT. sa

9.77 0.38 9.30

Per. WT. sa

in. lb/ft C/w/3”

11.43 0.43 8.40

in. lb/ft C/w/3”

Per. WT. sa

18.21 0.78 3.80

in. lb/ft C/w/3”

B

016010

015902

016010

XX8410

015902

XX8410

(.320)

(2.500)

(2.240)

(.125)

(.750)

(.135)

(.278) (2.500)

Per. WT. sa

14.26 0.71 5.00

(.500)

(2.500)

Per. WT. sa

in. lb/ft C/w/3”

47.46 3.06 4.10

(2.500)

in. lb/ft C/w/3”

Per. WT. sa

24.67 3.88 2.10

in. lb/ft C/w/3”

C

016225

XX8373

014762

XX8373

(0.500)

014762 (.426)

(.400)

(.160)

016225

(2.515)

(2.509)

(0.110)

Per. WT. sa

17.41 0.85 7.10

(.090)

(2.510)

in. lb/ft C/w/3”

Per. WT. sa

14.97 0.76 6.00

in. lb/ft °C/w/3"

Per. WT. sa

15.52 0.70 4.50

in. lb/ft C/w/3”

D Profiles are not to scale relative to each other. θsa values shown for 3” vertical length in natural convection with black anodized finish.

91


Aluminum Extrusion Profiles: FLATBACK 016001

015943

010818

015943

016001

010818

(.120)

(.758)

(.858)

(.500)

(.183)

(.183)

(1.715)

(.083)

(2.535)

Per. WT. sa

(.083)

18.74 0.97 4.60

(2.562)

(1.715)

in. lb/ft C/w/3”

(2.535)

Per. WT. sa

21.14 1.14 4.20

Per. WT. sa

in. lb/ft C/w/3”

13.48 0.68 5.20

in. lb/ft C/w/3”

A

014243

014291

014243

013156

013156

014291

(.295)

(.113)

(.700)

(.615) (.125)

(.350)

13.84 0.76 5.10

(.310)

(2.580)

(2.570)

Per. WT. sa

(1.230)

(2.597)

Per. WT. sa

in. lb/ft C/w/3”

15.25 0.79 4.60

in. lb/ft C/w/3”

Per. WT. sa

18.12 1.74 3.90

in. lb/ft C/w/3”

B

013719

012021

13719

014702

014702

012021 (2.190)

(.190)

(.160)

44.29 2.58 1.60

(.250)

(2.620)

(2.600)

Per. WT. sa

(2.680)

(.710)

(2.620)

Per. WT. sa

in. lb/ft C/w/3”

16.56 1.16 4.20

in. lb/ft C/w/3”

Per. WT. sa

44.19 2.91 1.60

in. lb/ft C/w/3”

C

XX5848

013750

XX5848

016317

016317

013750

(.365)

(.075) (1.312)

(.312)

(.980)

(1.000)

(.285) (1.963)

(2.634)

(.070)

(.165)

(2.675)

(2.630)

Per. WT. sa

21.37 1.63 3.50

in. lb/ft °C/w/3"

Per. WT. sa

12.37 0.47 5.70

in. lb/ft C/w/3”

Per. WT. sa

22.91 1.67 3.90

in. lb/ft C/w/3”

D 92

Profiles are not to scale relative to each other. θsa values shown for 3” vertical length in natural convection with black anodized finish.


Aluminum Extrusion Profiles: FLATBACK 016208 016208

005473

007541

005473

007541

(2.678)

(.406)

(.680)

(.700)

(1.180) (.079)

(.165) (.145)

(.070)

(.055) (1.960)

(.090)

Per. WT. sa

5.54 0.03 5.90

(2.682) (.100)

(2.680)

Per. WT. sa

in. lb/ft C/w/3”

16.52 0.70 4.20

Per. WT. sa

in. lb/ft C/w/3”

10.58 0.50 6.60

in. lb/ft C/w/3”

A

016073

XX2063

016141

016141

XX2063

(.400)

(1.400) (.150)

(.990)

(0.200) (2.740)

(2.720)

Per. WT. sa

24.24 1.65 1.90

in. lb/ft C/w/3”

Per. WT. sa

25.40 1.10 3.60

in. lb/ft C/w/3”

B

017011

XX6998

017011

005355

XX6998

005355 (.300)

(2.755) (1.250) (.560) (.150)

(2.250)

(.250) (.250)

(2.800)

(2.800)

Per. WT. sa

22.07 1.07 6.10

Per. WT. sa

in. lb/ft C/w/3”

24.10 1.80 2.90

in. lb/ft C/w/3”

Per. WT. sa

30.00 2.33 2.30

in. lb/ft C/w/3”

C

016062

016526

016062

015986

015986

016526

(356)

(.340)

(2.239)

(1.000)

(.500)

(.420)

(.110)

(.400)

(.090) (2.808)

Per. WT. sa

(.090) (.338)

24.47 1.20 3.40

(.110)

in. lb/ft C/w/3”

Per. WT. sa

(2.871)

15.24 0.77 7.00

(2.871)

(.090)

in. lb/ft C/w/3”

Per. WT. sa

18.85 0.88 6.30

in. lb/ft C/w/3”

D Profiles are not to scale relative to each other. θsa values shown for 3” vertical length in natural convection with black anodized finish.

93


Aluminum Extrusion Profiles: FLATBACK XX5588 XX5588

011175

XX2013

XX2013

(1.312)

(1.312)

(.080)

011175

(1.000)

(.312) (.250)

Per. WT. sa

25.86 1.81 2.80

(.300)

(2.873)

(2.875) (2.875)

in. lb/ft °C/w/3"

Per. WT. sa

16.33 1.86 4.30

Per. WT. sa

in. lb/ft C/w/3”

25.66 1.76 2.30

in. lb/ft C/w/3”

A

012988

016272

XX7032

016272

012988

XX7032 (.357)

(.100) (.500)

(1.488)

(.090)

(1.340)

(2.876)

(.295) (2.878) (2.876)

Per. WT. sa

20.13 0.72 3.50

in. lb/ft C/w/3”

Per. WT. sa

30.65 1.44 2.60

Per. WT. sa

in. lb/ft C/w/3”

28.41 1.91 2.80

in. lb/ft C/w/3”

B

016435 016435

XX8531

XX8531

(.165)

(.345)

016005 016005

(.056)

(1.000)

(.100)

(.174) (2.894)

(2.884)

Per. WT. sa

48.21 1.23 5.80

(2.900)

in. lb/ft C/w/3”

Per. WT. sa

13.45 0.36 12.10

Per. WT. sa

in. lb/ft C/w/3”

10.70 0.83 8.50

in. lb/ft °C/w/3"

C

016212

015785

012914 012914

015785

016212

(.450) (1.050)

(1.310) (.150)

(.200)

(.311)

Per. WT. sa

19.78 0.63 5.60

(2.904)

(2.900)

(2.900)

(.090)

(1.000)

in. lb/ft C/w/3”

Per. WT. sa

26.14 1.82 3.10

in. lb/ft C/w/3”

Per. WT. sa

30.94 1.86 2.30

in. lb/ft C/w/3”

D 94

Profiles are not to scale relative to each other. θsa values shown for 3” vertical length in natural convection with black anodized finish.


Aluminum Extrusion Profiles: FLATBACK 013721

012989

011423

013721

012989

011423 (.100)

(.165)

(.450)

(.200)

(.345)

(2.920)

Per. WT. sa

11.76 0.91 6.00

(.250) (2.990)

(2.960)

Per. WT. sa

in. lb/ft C/w/3”

10.74 0.89 6.50

Per. WT. sa

in. lb/ft C/w/3”

10.56 0.48 6.60

in. lb/ft C/w/3”

A

011422 011422

016278

(.100)

013685 013685

(.660)

(1.400) (.150)

(2.990) (2.992)

Per. WT. sa

22.86 0.84 3.10

in. lb/ft C/w/3”

Per. WT. sa

40.47 2.32 1.70

in. lb/ft °C/w/3"

B

013215

009099

XX8337

009099

013215

XX8337 (.385)

(1.925)

(2.000) (.250)

(.060)

(.175)

(.090)

(3.000)

(.280) (2.996)

Per. WT. sa

33.84 1.80 2.10

(2.996)

in. lb/ft °C/w/3"

Per. WT. sa

45.93 2.56 1.50

Per. WT. sa

in. lb/ft C/w/3”

11.70 0.51 5.50

in. lb/ft C/w/3”

C

011838

XX8463

012226

XX8463

011838

012226

(1.500) (.450)

(.135)

(.220)

(1.500)

(3.000)

(3.000)

Per. WT. sa

13.11 0.67 5.30

in. lb/ft C/w/3”

Per. WT. sa

26.30 1.54 2.80

(3.000)

in. lb/ft C/w/3”

Per. WT. sa

25.74 1.83 2.70

(.250)

in. lb/ft C/w/3”

D Profiles are not to scale relative to each other. θsa values shown for 3” vertical length in natural convection with black anodized finish.

95


Aluminum Extrusion Profiles: FLATBACK XX2177

013636

XX2177

011975

011975

013636 (.495)

(1.750) (.120)

(1.200)

(.200)

(3.020)

(3.000)

Per. WT. sa

26.60 2.64 1.80

(3.040)

(.250)

Per. WT. sa

in. lb/ft C/w/3”

18.46 0.86 3.80

in. lb/ft C/w/3”

Per. WT. sa

31.70 1.75 2.20

in. lb/ft °C/w/3"

A

012947

XX8435

XX8435

012947

(.366)

XX10428 XX10428

(.160)

(.900)

(.170)

(.063)

(.475)

(3.096)

(.200)

Per. WT. sa

19.93 1.46 3.90

(1.220)

(.125)

(3.044)

(3.098)

Per. WT. sa

in. lb/ft °C/w/3"

15.61 1.01 4.50

in. lb/ft C/w/3”

Per. WT. sa

14.20 0.49 6.00

in. lb/ft °C/w/3"

B

XX10015

XX8851

015145 015145

XX8851

XX10015

(.200)

(.158)

(.100)

(.550)

(1.150)

(1.200)

(.364)

(3.150) (3.100)

Per. WT. sa

31.71 1.91 3.40

(3.160)

Per. WT. sa

in. lb/ft C/w/3”

16.60 0.93 4.90

in. lb/ft C/w/3”

Per. WT. sa

38.58 1.80 4.40

in. lb/ft °C/w/3"

C

XX2033 XX2033

012096

012096

(.687)

(.187)

015240

(.156)

(.710)

(3.180)

(3.174)

Per. WT. sa

13.72 0.97 3.30

in. lb/ft °C/w/3"

Per. WT. sa

19.97 1.39 3.50

in. lb/ft C/w/3”

D 96

Profiles are not to scale relative to each other. θsa values shown for 3” vertical length in natural convection with black anodized finish.


Aluminum Extrusion Profiles: FLATBACK 017046

015900

013000 013000

015900

(.850)

(.080)

(.500) (3.200)

(3.200)

Per. WT. sa

25.30 0.77 6.00

(.200)

Per. WT. sa

in. lb/ft °C/w/3"

20.66 1.41 3.40

in. lb/ft C/w/3”

A

014853 014853

016056

XX2040

XX2040

016056 (.240) (.110)

(.790)

(.600) (1.280)

(3.220)

Per. WT. sa

24.00 1.17 4.00

(.600)

(.190) (1.000) (3.250)

(3.250)

(.200)

(.190)

in. lb/ft °C/w/3"

Per. WT. sa

15.52 1.20 4.60

Per. WT. sa

in. lb/ft C/w/3”

15.31 1.14 3.00

in. lb/ft C/w/3”

B

XX7100

011238

XX7100

XX2018

011238

XX2018

(.750)

(.190)

(.459)

(1.312) (1.000)

(.190)

(3.250)

Per. WT. sa

21.00 1.35 2.60

(3.250)

in. lb/ft °C/w/3"

Per. WT. sa

21.12 1.35 3.30

(3.250)

Per. WT. sa

in. lb/ft °C/w/3"

24.40 2.09 2.30

(.312)

in. lb/ft C/w/3”

C

XX0387

XX0387

(.600)

012518

014262

012518

014262 (.500)

(.250)

(.100)

(.125) (3.260)

(3.312)

(3.299)

(.190)

Per. WT. sa

15.10 1.23 4.40

in. lb/ft C/w/3”

Per. WT. sa

10.89 0.54 6.40

in. lb/ft C/w/3”

Per. WT. sa

16.94 0.88 4.10

in. lb/ft C/w/3”

D Profiles are not to scale relative to each other. θsa values shown for 3” vertical length in natural convection with black anodized finish.

97


Aluminum Extrusion Profiles: FLATBACK 016064

012680

016064

013293

012680

013293

(.090)

(.165) (.510)

(.950)

(.165)

(.175)

(3.386)

Per. WT. sa

(.500)

(.133)

(.090)

15.71 1.13 5.20

(3.400)

(3.386)

in. lb/ft °C/w/3"

Per. WT. sa

27.96 1.74 2.50

Per. WT. sa

in. lb/ft °C/w/3"

17.07 1.29 4.10

in. lb/ft C/w/3”

A

016655

017026

016655

014966

017026

014966

(.090) (.390)

(.980)

(1.230)

(1.630) (1.500)

(.730)

(.250)

(3.450)

(3.420)

(.090)

(3.420)

Per. WT. sa

47.29 2.33 4.90

in. lb/ft C/w/3”

Per. WT. sa

75.51 2.47 5.40

(.250)

Per. WT. sa

in. lb/ft C/w/3”

33.25 1.22 4.80

in. lb/ft C/w/3”

B

014844

016531

014801

016531

014844

014801

(.425)

(1.266)

(.075)

(1.898)

(3.450)

(.146)

(3.500)

(.370) (3.492)

Per. WT. sa

44.42 1.62 1.60

in. lb/ft C/w/3”

Per. WT. sa

64.12 3.67 2.60

in. lb/ft C/w/3”

Per. WT. sa

19.65 0.67 5.30

in. lb/ft °C/w/3"

C

014803

011457 011457

014803

XX7116

XX7116 (1.312)

(.100)

(.625)

(.200)

(.850)

(0.312) (3.535)

(3.500)

Per. WT. sa

26.23 0.98 4.50

(3.500)

in. lb/ft °C/w/3"

Per. WT. sa

22.48 1.48 3.00

in. lb/ft °C/w/3"

Per. WT. sa

31.33 2.32 2.40

in. lb/ft C/w/3”

D 98

Profiles are not to scale relative to each other. θsa values shown for 3” vertical length in natural convection with black anodized finish.


Aluminum Extrusion Profiles: FLATBACK 012443

014367

016438

014367

012443

016438 (.550)

(.076)

(.085)

(.430)

(.772) (.312)

(1.312)

(3.160)

(3.548)

(.750)

(.230)

(3.620) (3.600)

Per. WT. sa

27.76 1.10 2.50

in. lb/ft C/w/3”

Per. WT. sa

31.04 2.42 2.30

Per. WT. sa

in. lb/ft °C/w/3"

25.08 1.92 4.20

in. lb/ft C/w/3”

A

015045 015045

XX5582 XX5582

016437

016437

(.120)

Per. WT. sa

15.01 1.04 4.90

(.154) (.056)

(.500)

(.200)

(.130)

(3.620)

(.190)

(.083)

(.845)

(.280)

(.310)

(3.343)

(3.644)

(3.620)

in. lb/ft °C/w/3"

Per. WT. sa

20.71 1.26 2.80

in. lb/ft °C/w/3"

Per. WT. sa

13.87 0.38 12.00

in. lb/ft C/w/3”

B

XX2005

009797 009797

XX2005

017030 017030

(.776)

(.080)

(1.844) (1.123)

(.399) (.100)

(3.650)

(.250)

(3.660)

(3.661)

Per. WT. sa

19.09 0.93 3.70

in. lb/ft °C/w/3"

Per. WT. sa

26.14 1.42 2.50

in. lb/ft °C/w/3"

Per. WT. sa

90.66 2.75 5.20

(.104)

in. lb/ft C/w/3”

C

XX2019

012108

XX2019

014284

014284

012108

(.125)

(.562) (.774)

26.80 1.17 2.20

(.250)

(3.687)

(3.682)

Per. WT. sa

(1.250)

(.100)

in. lb/ft C/w/3”

(3.687)

Per. WT. sa

27.04 0.92 2.60

in. lb/ft C/w/3”

Per. WT. sa

27.38 1.83 2.50

in. lb/ft °C/w/3"

D Profiles are not to scale relative to each other. θsa values shown for 3” vertical length in natural convection with black anodized finish.

99


Aluminum Extrusion Profiles: FLATBACK 012423

013542 013542

012423

XX2052

XX2052

1.750)

(.187)

(.687)

(1.750)

(.500)

(.500) (3.693)

(3.688)

Per. WT. sa

34.74 3.74 2.00

in. lb/ft C/w/3”

Per. WT. sa

15.57 1.12 4.60

(3.693)

Per. WT. sa

in. lb/ft °C/w/3"

15.66 2.61 2.80

in. lb/ft C/w/3”

A

011758

015019

011077

015019

011758

011077

(.195)

(.740) (3.750) (.050)

(2.620) (2.000) (.200)

(.375) (.090)

(.350)

(3.740)

(3.720)

Per. WT. sa

28.77 2.06 2.40

Per. WT. sa

in. lb/ft °C/w/3"

51.89 4.89 2.50

Per. WT. sa

in. lb/ft °C/w/3"

17.56 0.70 4.00

in. lb/ft °C/w/3"

B

016270

012396 012396

(2.000)

XX2250 XX2250

(1.000) (.375)

(.300)

(3.750) (3.750)

Per. WT. sa

33.78 4.16 1.90

in. lb/ft °C/w/3"

Per. WT. sa

21.49 2.53 3.30

in. lb/ft C/w/3”

C

XX10192

XX5079 XX5079

016304

016304

(2.000)

(2.000) (.200)

(.155)

(.463)

XX10192

(3.755)

(3.790) (3.790)

Per. WT. sa

21.60 1.32 3.61

in. lb/ft °C/w/3"

Per. WT. sa

39.77 2.66 1.50

(.200)

in. lb/ft °C/w/3"

Per. WT. sa

39.82 2.57 1.80

in. lb/ft C/w/3”

D 100

Profiles are not to scale relative to each other. θsa values shown for 3” vertical length in natural convection with black anodized finish.


Aluminum Extrusion Profiles: FLATBACK 012932

012166

012932

013143

012166

013143 (1.100)

(.365) (.093)

(1.350) (.210) (.520)

(3.800)

(.401)

(.480)

(.907)

(2.00)

(3.800)

(3.810)

Per. WT. sa

15.95 0.75 4.40

in. lb/ft °C/w/3"

Per. WT. sa

21.44 1.49 6.20

in. lb/ft °C/w/3"

Per. WT. sa

47.17 2.66 1.50

in. lb/ft C/w/3”

A

016269

016360

016269

016061 016061

016360 (.19)

(.17) (1.65)

(1.65)

(1.23)

(.639)

(1.090)

(.375)

(.750)

(1.915)

(3.860)

(.305) (.31) (.38)

(.433)

(.331)

(3.88)

(.165)

(.236)

(3.990)

Per. WT. sa

25.82 2.93 3.30

in. lb/ft C/w/3”

Per. WT. sa

40.33 3.89 2.90

Per. WT. sa

in. lb/ft C/w/3”

51.63 2.81 2.30

in. lb/ft °C/w/3"

B

015878 015878

002853 002853

016501 016501

(3.937) ( .456)

(.160) (.590)

(.750)

(.560)

( .109)

(3.930)

(.150)

(3.970) (.171)

Per. WT. sa

21.95 1.54 9.70

in. lb/ft °C/w/3"

Per. WT. sa

22.00 1.20 3.20

Per. WT. sa

in. lb/ft C/w/3”

31.46 1.55 6.10

in. lb/ft C/w/3”

C

013569

XX4434-P2

013569

XX4434-P1 XX4434-P1

XX4434-P2 (.060)

(.300) (.060)

(.300) (.060)

(.300) (4.000) (4.000)

(4.000)

Per. WT. sa

20.17 0.67 7.20

in. lb/ft °C/w/3"

Per. WT. sa

20.16 0.67 2.70

in. lb/ft °C/w/3"

Per. WT. sa

16.22 0.55 3.00

in. lb/ft °C/w/3"

D Profiles are not to scale relative to each other. θsa values shown for 3” vertical length in natural convection with black anodized finish.

101


Aluminum Extrusion Profiles: FLATBACK XX4434-P3 XX4434-P3

XX4678 XX4678

016573 016573

(.188)

(.135)

(1.188)

(.300)

(.280)

(.750)

(.060)

(4.000) (4.000)

(.180)

Per. WT. sa

23.96 0.76 7.00

in. lb/ft °C/w/3"

Per. WT. sa

24.32 1.73 3.70

(4.000)

in. lb/ft C/w/3”

Per. WT. sa

32.90 1.93 2.30

in. lb/ft °C/w/3"

A

013605 013605

XX2039 XX2039

016047

016047 (1.320) (1.290)

(1.250)

(.295)

(4.000)

(.272) (4.000)

Per. WT. sa

33.87 2.55 2.10

(4.000)

(.250)

in. lb/ft °C/w/3"

Per. WT. sa

33.66 2.75 1.90

in. lb/ft °C/w/3"

Per. WT. sa

40.03 3.15 2.70

in. lb/ft C/w/3”

B

016403

XX9001 XX9001

016403

015273

015273

(.125) (4.006) (.463)

(1.395)

(2.766) (.093)

(.410)

(.668)

(.516) (4.000)

Per. WT. sa

49.20 3.21 3.40

(1.711)

in. lb/ft °C/w/3"

Per. WT. sa

19.51 1.08 2.40

(.167)

(4.034)

Per. WT. sa

in. lb/ft °C/w/3"

61.28 5.37 1.80

in. lb/ft °C/w/3"

C

012696

XX2096

012696

(.130)

(.750)

(.200)

(.750)

28.99 1.41 2.40

(1.720)

(.250)

(4.100)

(4.050)

Per. WT. sa

011299 011299

XX2096

(4.120)

in. lb/ft °C/w/3"

Per. WT. sa

20.48 1.56 2.50

in. lb/ft °C/w/3"

Per. WT. sa

36.66 3.41 1.90

in. lb/ft °C/w/3"

D 102

Profiles are not to scale relative to each other. θsa values shown for 3” vertical length in natural convection with black anodized finish.


Aluminum Extrusion Profiles: FLATBACK 008658 008658

XX2012 XX2012

XX5138

XX5138

(.312)

(1.212)

(1.312)

(1.750)

(.312) (.350)

(.125)

(4.125)

(4.125)

(4.125)

Per. WT. sa

42.61 2.41 2.20

(.250)

Per. WT. sa

in. lb/ft °C/w/3"

35.79 3.30 2.00

in. lb/ft C/w/3”

Per. WT. sa

37.30 3.53 1.90

in. lb/ft C/w/3”

A

009396

010785 010785

009396

013733 013733 (.535)

(.735)

(1.400)

(.200)

(.200)

(2.000)

(.750)

(4.150)

(4.140)

(4.179)

(.150)

Per. WT. sa

in. lb/ft °C/w/3"

31.61 2.07 2.10

Per. WT. sa

21.17 1.80 3.20

Per. WT. sa

in. lb/ft °C/w/3"

41.06 2.16 1.70

in. lb/ft °C/w/3"

B

016423 016423 (.335)

014813 014813

016192 016192 (1.020)

(.370)

(1.565)

(.195) (1.010) (.990)

(1.505) (.140)

(1.012)

(1.875)

(.185)

(4.235)

(.275) (4.200)

Per. WT. sa

38.35 1.72 2.90

(4.235)

Per. WT. sa

in. lb/ft C/w/3”

50.61 2.46 1.40

in. lb/ft C/w/3”

Per. WT. sa

45.16 1.88 3.60

in. lb/ft C/w/3”

C

016232 016232

009168

012677 012677

009168 (.195)

(.245)

(1.370)

(.300)

(1.250)

(1.020)

(.400)

(4.245) (4.250)

(4.239)

Per. WT. sa

50.70 2.49 3.70

in. lb/ft C/w/3”

Per. WT. sa

59.90 3.30 3.50

in. lb/ft °C/w/3"

Per. WT. sa

42.21 3.16 1.70

in. lb/ft °C/w/3"

D Profiles are not to scale relative to each other. θsa values shown for 3” vertical length in natural convection with black anodized finish.

103


Aluminum Extrusion Profiles: FLATBACK XX2004 XX2004

014793 014793

015936 015936 (.391)

(.400)

(.464)

(.296) (.196)

(.312)

(1.312)

(.800)

(.526)

(.150)

(4.284)

(.120)

(4.265)

(4.250)

Per. WT. sa

31.70 2.75 2.20

Per. WT. sa

in. lb/ft °C/w/3"

34.36 1.78 4.30

Per. WT. sa

in. lb/ft °C/w/3"

21.39 1.47 4.50

in. lb/ft °C/w/3"

A

013729 013729

016003 016003

015945

015945

(.375) (1.406)

(.165)

(.165)

(.240)

(.475) (.150)

(.150) (.095)

(4.330)

Per. WT. sa

Per. WT. sa

in. lb/ft °C/w/3"

49.27 3.13 1.40

(4.335)

(.115)

(4.335)

18.90 0.95 6.10

in. lb/ft °C/w/3"

Per. WT. sa

22.40 1.09 5.80

in. lb/ft °C/w/3"

B

015172 015172

XX1527

013564

XX1527

013564

(.468) (.464)

(.110)

(.406)

(1.290) (.145)

(.860)

28.44 1.48 4.20

(.700)

(4.375)

(4.375)

Per. WT. sa

(.200)

(.295)

in. lb/ft °C/w/3"

Per. WT. sa

36.45 2.58 1.40

(4.390)

Per. WT. sa

in. lb/ft °C/w/3"

25.37 1.74 2.80

in. lb/ft °C/w/3"

C

XX10253

012397

XX2050

XX2050

012397

(.227)

(2.360)

(.630)

XX10253

(1.310)

(.200) (.640)

(.310) (4.461)

(4.450)

(4.428)

Per. WT. sa

58.56 5.24 1.36

in. lb/ft °C/w/3"

Per. WT. sa

18.60 1.52 3.80

in. lb/ft °C/w/3"

Per. WT. sa

38.94 3.32 2.20

in. lb/ft C/w/3”

D 104

Profiles are not to scale relative to each other. θsa values shown for 3” vertical length in natural convection with black anodized finish.


Aluminum Extrusion Profiles: FLATBACK 017033

012749 012749

017033

010998

010998 (.192)

(.096)

(1.520)

(.310)

(1.310)

(.156)

(.710)

(.270) (4.475)

Per. WT. sa

69.28 3.57 3.60

(4.480)

Per. WT. sa

in. lb/ft C/w/3”

36.08 3.14 1.90

(4.500)

in. lb/ft °C/w/3"

Per. WT. sa

26.42 1.78 2.60

in. lb/ft °C/w/3"

A

XX4652

015174 015174

XX4652

XX0233

XX0233

(1.750)

(.250)

(.190)

(1.400)

(.224)

(1.470) (.270)

(.250) (4.500)

Per. WT. sa

40.32 2.37 1.80

(4.500)

Per. WT. sa

in. lb/ft °C/w/3"

57.50 4.19 1.20

(4.500)

in. lb/ft C/w/3”

Per. WT. sa

36.00 3.15 1.90

in. lb/ft °C/w/3"

B

013756

013096 013096

013756

013099 013099 (.405)

(.270) (.360)

(.260)

(.155)

(1.000)

(.472)

(.130)

(4.560)

(4.550)

(4.560)

(.200)

Per. WT. sa

42.33 2.61 1.70

in. lb/ft °C/w/3"

Per. WT. sa

16.43 0.97 4.30

Per. WT. sa

in. lb/ft °C/w/3"

22.70 1.20 3.10

in. lb/ft °C/w/3"

C

012894 012894

016321

015712

016321

015712

(.421)

(1.430)

(.155)

(3.583)

(2.540)

(.380)

(4.560)

(.500)

(4.560) (4.560)

Per. WT. sa

44.20 2.13 1.60

in. lb/ft °C/w/3"

Per. WT. sa

106.91 in. 6.57 lb/ft 3.40 °C/w/3"

Per. WT. sa

149.60 in. 9.13 lb/ft 2.90 °C/w/3"

D Profiles are not to scale relative to each other. θsa values shown for 3” vertical length in natural convection with black anodized finish.

105


Aluminum Extrusion Profiles: FLATBACK

(.125)

(.750)

XX3286 XX3286

(1.000)

(.125)

(4.562)

(4.562)

Per. WT. sa

32.39 1.56 2.20

(1.000)

007657 007657

(.125)

003676 003676

in. lb/ft °C/w/3"

Per. WT. sa

24.83 1.27 3.40

(4.562)

in. lb/ft °C/w/3"

Per. WT. sa

24.92 1.28 2.40

in. lb/ft °C/w/3"

A

012987 012987

015862 015862

011944

011944

(.140)

(1.875)

(.068)

(.485)

(1.875) (1.000)

(4.580) (4.086)

(.180)

(4.578)

(4.573)

Per. WT. sa

45.36 3.07 1.50

Per. WT. sa

in. lb/ft °C/w/3"

65.91 2.55 1.80

(.125)

Per. WT. sa

in. lb/ft °C/w/3"

19.85 1.16 3.90

in. lb/ft C/w/3”

B

014770 014770

013618

013716

013618

013716 (.425)

(.200)

(.145)

(.570)

(.410) (.110)

(4.600)

Per. WT. sa

22.28 1.18 6.20

(.150)

(4.600)

(4.600)

in. lb/ft °C/w/3"

Per. WT. sa

17.69 1.14 4.00

Per. WT. sa

in. lb/ft °C/w/3"

31.72 1.54 2.20

in. lb/ft C/w/3”

C

012823 012823

012614 012614

(.135)

(.710)

(.125)

(.900)

(4.600)

Per. WT. sa

27.45 1.40 2.50

012777 012777

(.145)

(.920)

(4.600)

(4.60)

in. lb/ft C/w/3”

Per. WT. sa

33.85 1.63 2.10

in. lb/ft C/w/3”

Per. WT. sa

39.24 1.77 1.80

in. lb/ft C/w/3”

D 106

Profiles are not to scale relative to each other. θsa values shown for 3” vertical length in natural convection with black anodized finish.


Aluminum Extrusion Profiles: FLATBACK 013717

016374 016374

013717

(1.395)

(.145)

012918

012918

(2.540)

(1.665)

(.290) (4.600)

(.220)

(4.600)

Per. WT. sa

55.74 2.44 1.30

in. lb/ft C/w/3”

Per. WT. sa

57.59 3.29 2.30

(4.620)

Per. WT. sa

in. lb/ft C/w/3”

58.19 3.74 1.20

in. lb/ft C/w/3”

A

014965

013203

014965

014320 014320

013203

(.191)

(.390) (2.110) (.730)

(1.312)

(.210) (.312)

(.090)

(4.650)

Per. WT. sa

40.63 1.52 1.70

(4.650)

in. lb/ft C/w/3”

Per. WT. sa

50.60 3.17 1.40

(4.672)

Per. WT. sa

in. lb/ft C/w/3”

33.46 2.81 2.10

in. lb/ft C/w/3”

B

XX7150

013664

XX7150

016652

013664

016652

(1.062)

(.312)

(.200) (2.000)

(2.000)

(.250)

(.250)

(4.700)

Per. WT. sa

32.42 2.85 2.40

(4.710)

(4.700)

in. lb/ft °C/w/3"

Per. WT. sa

33.16 3.45 2.10

Per. WT. sa

in. lb/ft C/w/3”

36.63 3.66 1.70

in. lb/ft C/w/3”

C

016242 016242

XX2030 XX2030

011005 011005

(.125) (.062) (4.750)

(.187) (1.375)

(.687)

(.250)

(.375)

(.050)

(.500)

(1.125) (4.730)

(.350) (4.715)

Per. WT. sa

32.67 3.07 2.30

(.130)

in. lb/ft °C/w/3"

Per. WT. sa

19.68 1.40 2.40

in. lb/ft C/w/3”

Per. WT. sa

20.12 1.05 3.50

in. lb/ft C/w/3”

D Profiles are not to scale relative to each other. θsa values shown for 3” vertical length in natural convection with black anodized finish.

107


Aluminum Extrusion Profiles: FLATBACK 011942

016123

012061

016123

011942

012061

(.540)

(.320)

(.335)

(.820)

(1.125) (1.025)

(.200)

(1.00) (.400)

(.140)

(4.750)

(.225) (4.750)

Per. WT. sa

30.87 1.60 2.30

in. lb/ft C/w/3”

Per. WT. sa

(1.875) (4.750)

37.14 3.09 3.60

in. lb/ft C/w/3”

Per. WT. sa

47.09 2.40 1.50

in. lb/ft C/w/3”

A

016349

XX5438 XX5438

016349

XX8330

XX8330

2X (.050) (.402)

(1.380) (1.600) (1.435)

(.500)

(.500)

(.185)

(.260)

(4.780)

(4.750) (4.775)

Per. WT. sa

65.77 5.04 3.80

Per. WT. sa

in. lb/ft °C/w/3"

39.26 2.41 1.80

Per. WT. sa

in. lb/ft C/w/3”

31.15 2.50 1.90

in. lb/ft C/w/3”

B

013224

XX8316

016109

XX8316

013224

016109

(2.220)

(2.185)

(.375)

(.320)

(.165)

(.490)

Per. WT. sa

63.47 3.88 1.10

(4.844)

(4.800)

(.250)

(4.800)

in. lb/ft C/w/3”

Per. WT. sa

(.220)

64.95 3.52 1.40

Per. WT. sa

in. lb/ft C/w/3”

25.62 1.43 4.84

in. lb/ft C/w/3”

C

008563

013583 013583

008563

017032 017032 (.281) (.120)

(1.312)

(.570)

(.970)

(.350)

(.313)

(.312)

(.400)

(4.920)

(4.876)

(4.870)

Per. WT. sa

42.36 3.07 1.70

in. lb/ft C/w/3”

Per. WT. sa

25.59 1.30 2.70

in. lb/ft C/w/3”

Per. WT. sa

37.56 4.11 4.80

in. lb/ft C/w/3”

D 108

Profiles are not to scale relative to each other. θsa values shown for 3” vertical length in natural convection with black anodized finish.


Aluminum Extrusion Profiles: FLATBACK 012575 012575

XX8500

015231 015231

XX8500

(4.689) (4.015)

R.057

(30°)

R.157

(4.921)

(.197)

(2.000)

(2.408)

(1.260)

(2.611)

(2.480) (1.388)

(.276)

(4.921)

(4.938)

Per. WT. sa

45.17 2.92 1.50

in. lb/ft C/w/3”

Per. WT. sa

60.50 6.47 1.30

in. lb/ft C/w/3”

Per. WT. sa

66.74 6.52 1.60

in. lb/ft °C/w/3"

A

006872 006872

008469 008469

016338 016338 (4.991)

(1.250)

(.093)

(1.250)

(1.750)

(.250) (.203)

(2.250)

(.296)

(4.990)

(4.997) (.250)

Per. WT. sa

34.48 2.39 2.00

Per. WT. sa

in. lb/ft C/w/3”

38.65 2.74 2.40

Per. WT. sa

in. lb/ft C/w/3”

44.54 4.08 1.70

in. lb/ft C/w/3”

B

XX2028 XX2028

012098 012098

016046 016046 (.136)

(.160) (.187)

(.490)

(.452)

(1.349) (.120)

(5.000)

(.310)

(5.000) (5.000)

Per. WT. sa

18.44 1.42 3.00

in. lb/ft °C/w/3"

Per. WT. sa

29.33 1.38 2.40

Per. WT. sa

in. lb/ft C/w/3”

18.44 1.42 2.10

in. lb/ft °C/w/3"

C

XX2065 XX2065

(1.650)

(1.600)

(1.750)

XX6957 XX6957

(.250)

XX2015 XX2015

(.200)

(5.000)

(.200)

Per. WT. sa

42.85 2.75 1.60

(5.000)

(5.000)

in. lb/ft C/w/3”

Per. WT. sa

58.68 3.32 1.50

in. lb/ft °C/w/3"

Per. WT. sa

44.59 4.08 1.60

in. lb/ft °C/w/3"

D Profiles are not to scale relative to each other. θsa values shown for 3” vertical length in natural convection with black anodized finish.

109


Aluminum Extrusion Profiles: FLATBACK 016049 016049

016069 016069

014984 014984

(2.784)

(2.672)

(2.240)

(.310) (.672)

(.539) (5.000)

Per. WT. sa

71.21 4.76 1.40

(.313) (5.100)

(5.000)

Per. WT. sa

in. lb/ft °C/w/3"

71.73 6.65 1.50

Per. WT. sa

in. lb/ft °C/w/3"

93.10 5.28 1.80

in. lb/ft C/w/3”

A

012331 012331

007264 007264

(.688)

013570 013570

(1.350)

(2.409)

(2.146)

(1.250)

(1.187)

(.250)

(5.125)

Per. WT. sa

23.69 2.04 3.00

(5.180)

(.350)

in. lb/ft C/w/3”

(5.181)

(.250)

Per. WT. sa

45.06 3.50 1.60

Per. WT. sa

in. lb/ft C/w/3”

67.82 4.28 1.60

in. lb/ft C/w/3”

B

XX7034

XX2187 XX2187

(1.312)

(.312)

XX7034

017016 017016

(.703)

(.108)

(.218)

(5.188)

(.394) (5.252)

(.439)

(.120)

(5.190)

Per. WT. sa

43.85 3.52 1.70

in. lb/ft °C/w/3"

Per. WT. sa

24.79 1.90 2.90

Per. WT. sa

in. lb/ft C/w/3”

27.19 1.26 4.90

in. lb/ft C/w/3”

C

XX7113

XX8026 XX8026

XX7113

015887 015887

51.00 6.73 1.10

(.342)

(1.342)

(5.297)

(5.265)

(5.260)

Per. WT. sa

(2.325)

(.325)

(1.575)

(.500)

(3.000)

(.460)

in. lb/ft °C/w/3"

Per. WT. sa

55.37 4.40 1.30

in. lb/ft °C/w/3"

Per. WT. sa

40.63 3.46 2.40

in. lb/ft °C/w/3"

D 110

Profiles are not to scale relative to each other. θsa values shown for 3” vertical length in natural convection with black anodized finish.


Aluminum Extrusion Profiles: FLATBACK XX5045 XX5045

(.090)

(.240)

XX6843 XX6843

015840 015840

(3.790) (1.312) (.312) (.620)

(5.375)

(5.330)

(1.170)

(.300)

(5.390)

Per. WT. sa

23.00 1.02 6.00

in. lb/ft °C/w/3"

Per. WT. sa

47.33 3.55 1.80

Per. WT. sa

in. lb/ft C/w/3”

49.36 8.43 1.10

in. lb/ft °C/w/3"

A

XX6209 XX6209

XX2246 XX2246

(.620)

(3.770)

(.445)

XX2199 XX2199

(1.000)

(2.000)

(.312)

Per. WT. sa

47.52 8.60 1.40

(.250)

(5.435)

(5.390)

(5.500)

in. lb/ft °C/w/3"

Per. WT. sa

35.25 3.02 1.90

in. lb/ft C/w/3”

Per. WT. sa

57.00 4.48 1.20

in. lb/ft C/w/3”

B

XX2002 XX2002

XX6933 XX6933

016253 016253

(.403) (.340) (1.312)

(1.400) (.125)

(1.000)

(5.675)

(.150)

(5.562)

(5.561)

(1.200)

(.500) (.350)

(.312)

Per. WT. sa

41.90 3.67 1.50

in. lb/ft C/w/3”

Per. WT. sa

35.45 1.85 1.80

in. lb/ft C/w/3”

Per. WT. sa

41.36 4.06 2.00

in. lb/ft °C/w/3"

C

(.687)

XX2903 XX2903

012671 012671

(.187)

016138 016138

(.480)

(60°)

(1.630) (.386) (.110)

(5.750)

(5.750)

(5.7004)

(.530)

Per. WT. sa

64.08 5.62 2.20

in. lb/ft C/w/3”

Per. WT. sa

26.67 1.29 2.60

in. lb/ft C/w/3”

Per. WT. sa

23.87 1.72 2.80

in. lb/ft °C/w/3"

D Profiles are not to scale relative to each other. θsa values shown for 3” vertical length in natural convection with black anodized finish.

111


Aluminum Extrusion Profiles: FLATBACK 013532 013532

010248 010248

XX8415 XX8415

(.300)

(1.625)

(2.790)

(2.000) (.300)

(.275)

(5.750)

(.540)

(5.800)

Per. WT. sa

64.81 4.02 1.10

in. lb/ft C/w/3”

Per. WT. sa

59.80 5.31 1.20

(5.800)

Per. WT. sa

in. lb/ft C/w/3”

81.69 7.37 1.30

in. lb/ft C/w/3”

A

013237

016060 016060

013237

013601 013601 (.535)

(.178)

(1.150)

(5.834)

Per. WT. sa

38.67 2.10 1.80

(2.000)

(.592)

(5.815)

(.150)

(2.802)

(.690)

in. lb/ft C/w/3”

Per. WT. sa

81.06 7.97 1.30

(5.860)

(.150)

Per. WT. sa

in. lb/ft °C/w/3"

59.01 2.86 1.20

in. lb/ft C/w/3”

B

014462 014462

(.545)

002981 002981

016168

016168

(1.620) (3.150)

(1.250)

(.220)

(5.978)

(5.886)

(.250) (5.860)

(.150)

Per. WT. sa

65.25 3.89 1.10

in. lb/ft C/w/3”

Per. WT. sa

40.00 2.90 1.70

Per. WT. sa

in. lb/ft C/w/3”

72.89 3.78 1.90

in. lb/ft C/w/3”

C

011743 011743

012464 012464

013796 013796

(.192) (.750) (.100)

(.750)

(.312)

(1.312)

(6.000)

Per. WT. sa

36.74 1.59 1.90

(1.600)

(.300)

(6.000)

in. lb/ft C/w/3”

Per. WT. sa

49.68 3.61 1.40

(6.000)

in. lb/ft C/w/3”

Per. WT. sa

61.82 4.76 1.10

in. lb/ft C/w/3”

D 112

Profiles are not to scale relative to each other. θsa values shown for 3” vertical length in natural convection with black anodized finish.


Aluminum Extrusion Profiles: FLATBACK 016070 016070

XX10138

012054 012054

(.324) (.275)

(.124) (2.151) (6.004) (.690)

(.592) (6.000)

Per. WT. sa

82.68 8.16 1.60

Per. WT. sa

in. lb/ft °C/w/3"

25.08 1.32 2.80

in. lb/ft C/w/3”

A

016250 016250

XX6676 XX6676

013277 013277

(.200)

(1.950)

(.310)

(1.750)

(.250)

(.280)

(6.040)

Per. WT. sa

(2.250)

(6.080)

Per. WT. sa

in. lb/ft °C/w/3"

53.84 5.27 1.40

50.73 3.56 1.30

(6.080)

in. lb/ft °C/w/3"

Per. WT. sa

69.93 5.53 1.40

in. lb/ft C/w/3”

B

013512 013512

XX2161 XX2161

011425 011425

(.119)

(.496)

(.560) (1.594) (1.673) (.394)

(1.839)

(6.102)

Per. WT. sa

62.47 5.21 1.10

(.100) (6.200)

(5.315)

(.166)

(.650)

(.250)

(1.120)

(6.130)

(.394)

in. lb/ft C/w/3”

Per. WT. sa

30.72 2.96 1.80

Per. WT. sa

in. lb/ft °C/w/3"

37.71 1.61 1.90

in. lb/ft C/w/3”

C

016188 016188

016187 016187

012693 012693 (1.442)

(.390) (.125)

(.200) (6.225) (.187)

(1.920)

(1.050)

(.062) (.830)

(.250)

(6.200)

(.100)

(.200)

Per. WT. sa

43.90 3.38 2.50

in. lb/ft C/w/3”

(.350)

(6.200)

Per. WT. sa

37.74 3.05 2.70

in. lb/ft C/w/3”

Per. WT. sa

25.77 1.24 2.70

in. lb/ft C/w/3”

D Profiles are not to scale relative to each other. θsa values shown for 3” vertical length in natural convection with black anodized finish.

113


Aluminum Extrusion Profiles: FLATBACK XX5067 XX5067

003385 003385 (.720)

XX8144 XX8144

(.200)

(1.200)

(.220)

(.650)

(6.437)

(1.312)

(6.250)

(.312)

(6.300)

Per. WT. sa

61.81 3.78 1.70

Per. WT. sa

in. lb/ft °C/w/3"

23.76 2.07 2.70

Per. WT. sa

in. lb/ft °C/w/3"

54.75 4.03 1.30

in. lb/ft C/w/3”

A

013266 013266 ( .306) (.035)

006664

XX8403 XX8403 (.265)

(.099)

(.635) (1.600)

(6.114)

(.155)

(6.500)

Per. WT. sa

32.29 2.38 2.20

(.200)

(.185) (.331)

in. lb/ft C/w/3”

(6.500)

Per. WT. sa

61.19 5.49 1.30

in. lb/ft C/w/3”

B

XX4509 XX4509

016593 016593

016607 016607 (.330)

(6.500)

(.165) (.190)

(.125)

(.125)

(1.600) (2.000)

(2.165)

(.500)

(.250)

(.750) (6.500)

Per. WT. sa

53.80 3.45 1.30

(6.500)

Per. WT. sa

in. lb/ft C/w/3”

50.24 10.17 1.60

in. lb/ft C/w/3”

Per. WT. sa

75.67 8.54 1.40

(.420)

in. lb/ft C/w/3”

C

016222 016222

013621 013621

XX7031 XX7031

(.360) (Ø.188)

(.180)

(5.540) (.542)

(.312)

(1.312)

(.125) (2.190)

(1.281) (6.624)

(.540)

(6.624) (6.500)

(.870)

(.281)

Per. WT. sa

65.32 9.66 1.40

in. lb/ft °C/w/3"

Per. WT. sa

57.72 4.31 2.70

in. lb/ft C/w/3”

Per. WT. sa

57.29 4.12 1.30

in. lb/ft C/w/3”

D 114

Profiles are not to scale relative to each other. θsa values shown for 3” vertical length in natural convection with black anodized finish.


Aluminum Extrusion Profiles: FLATBACK 015906 015906

014746 014746

013659 013659 (.635)

(.105)

(2.215)

(.635)

(.125)

(1.215)

(.187) (6.750) (.215)

Per. WT. sa

29.17 3.15 3.30

(.187)

(.450)

(.315)

(6.637)

(6.700)

Per. WT. sa

in. lb/ft °C/w/3"

65.00 3.80 1.20

in. lb/ft C/w/3”

Per. WT. sa

31.75 2.40 2.20

in. lb/ft C/w/3”

A

XX2027 XX2027

012116 012116

(1.200)

(.150)

(.125)

(1.060)

XX2494 XX2494

(1.630) (.250)

(.430)

(.290)

(6.750)

Per. WT. sa

46.37 2.65 1.70

(6.750)

(.460) (6.750)

Per. WT. sa

in. lb/ft °C/w/3"

46.69 2.91 1.40

in. lb/ft °C/w/3"

Per. WT. sa

56.90 4.00 1.60

in. lb/ft C/w/3”

B

016362 016362 (.320) (.790)

(.250)

XX7029 XX7029

(1.630)

015769

(.670)

(1.110) (6.860)

(6.754)

Per. WT. sa

57.28 4.08 1.30

(1.330)

(.620)

(.370)

in. lb/ft °C/w/3"

Per. WT. sa

47.30 5.14 2.50

in. lb/ft °C/w/3"

C

015633

016290 016290

(.250)

(1.000)

XX2071 XX2071

(.175)

(1.550)

(6.900)

(.340)

(6.868)

Per. WT. sa

27.94 3.33 1.90

in. lb/ft °C/w/3"

Per. WT. sa

49.47 5.04 1.50

in. lb/ft °C/w/3"

D Profiles are not to scale relative to each other. θsa values shown for 3” vertical length in natural convection with black anodized finish.

115


Aluminum Extrusion Profiles: FLATBACK

(1.915)

(1.748)

XX2091 XX2091

(2.790)

XX6274 XX6274

(2.098)

015745 015745

(.312)

(1.312)

(6.968) (.540)

(6.960)

Per. WT. sa

79.31 6.91 1.40

in. lb/ft °C/w/3"

(6.961)

Per. WT. sa

97.90 9.15 0.80

in. lb/ft °C/w/3"

Per. WT. sa

57.81 4.70 1.20

in. lb/ft °C/w/3"

A

015837

014306

006369

014757

014401

006663

016556

XX7063

012414

B

C

D 116

Profiles are not to scale relative to each other. θsa values shown for 3” vertical length in natural convection with black anodized finish.


Aluminum Extrusion Profiles: FLATBACK 013929

012395

XX4771

A

013597

XX5523

014113

B

013677

XX5113

014468

012504

016133

012843

C

D Profiles are not to scale relative to each other. θsa values shown for 3” vertical length in natural convection with black anodized finish.

117


Aluminum Extrusion Profiles: FLATBACK XX8077

014085

XX2009

XX2074

XX4483

013068

XX2095

016200

016775

XX4937

016681

016334

A

B

C

D 118

Profiles are not to scale relative to each other. θsa values shown for 3” vertical length in natural convection with black anodized finish.


Aluminum Extrusion Profiles: FLATBACK 015189

XX7392

XX8261

A

016381

019083

XX8447

B

015611

016160

XX8434

XX2008

013757

015854

C

D Profiles are not to scale relative to each other. θsa values shown for 3” vertical length in natural convection with black anodized finish.

119


Aluminum Extrusion Profiles: FLATBACK XX7393

XX6958

XX2054

016789

XX5384

XX2021

XX2017

XX1703

013849

A

B

C

015774

013953

D 120

Profiles are not to scale relative to each other. θsa values shown for 3” vertical length in natural convection with black anodized finish.


Aluminum Extrusion Profiles: FLATBACK XX2194

015138

A

014236

XX5772

B

XX10087

XX7253

016990

016175

C

D Profiles are not to scale relative to each other. θsa values shown for 3” vertical length in natural convection with black anodized finish.

121


Aluminum Extrusion Profiles: FLATBACK XX4559

015888

XX2193

017035

XX7148

016632

XX4471

XX2170

A

B

C

D 122

Profiles are not to scale relative to each other. θsa values shown for 3” vertical length in natural convection with black anodized finish.


Aluminum Extrusion Profiles: FLATBACK XX2044

XX7214

A

XX5429

013772

B

016543

XX2016

C

019081

D Profiles are not to scale relative to each other. θsa values shown for 3” vertical length in natural convection with black anodized finish.

123


Aluminum Extrusion Profiles: L-STYLE 009350

012732

009304

009893

013691

XX5269

014755

XX8627

006248

006026

009883

006411

A

B

C

D 124

Profiles are not to scale relative to each other. θsa values shown for 3� vertical length in natural convection with black anodized finish.


Aluminum Extrusion Profiles: L-STYLE 006358

009358

006028

A

009317

009312

XX2166

B

010990

010268

016054 016054

(1.000)

(.510)

(.150)

(3.000)

Per. WT. sa

33.11 1.39 4.90

in. lb/ft C/w/3”

C

012279

014843

008377

D Profiles are not to scale relative to each other. θsa values shown for 3” vertical length in natural convection with black anodized finish.

125


Aluminum Extrusion Profiles: L-STYLE 010845

XX2023

006508

013195

013567

011734

008770

008769

008465

008507

011304

012535

A

B

C

D 126

Profiles are not to scale relative to each other. θsa values shown for 3� vertical length in natural convection with black anodized finish.


Aluminum Extrusion Profiles: L-STYLE — CENTER CHANNEL 015771

XX2558

XX10222

A

XX1007

XX4721

XX1063

B

003542

003542

XX1354

XX1284

014270

XX1409

(.750)

(.800) (.100)

(1.562)

Per. WT. sa

8.95 0.41 7.80

in. lb/ft C/w/3”

C

XX1453

D Profiles are not to scale relative to each other. θsa values shown for 3” vertical length in natural convection with black anodized finish.

127


Aluminum Extrusion Profiles: CENTER CHANNEL XX4865

016145

XX1546

XX7134

XX1353

XX8382

XX1111

XX4425

016036

XX1452

XX7070

XX1552

A

B

C

D 128

Profiles are not to scale relative to each other. θsa values shown for 3” vertical length in natural convection with black anodized finish.


Aluminum Extrusion Profiles: CENTER CHANNEL XX4920

016465

006364

A

XX4306

XX4319

XX1020

B

XX4502

XX7045

XX5036

XX4753

XX5166

XX1551

C

D Profiles are not to scale relative to each other. θsa values shown for 3” vertical length in natural convection with black anodized finish.

129


Aluminum Extrusion Profiles: CENTER CHANNEL XX1351

XX5057

XX4563

XX1881

XX7013

XX6520

XX0236

XX4562

XX5052

XX5061

016582 016582

XX9004

A

B

C

(.220)

(1.800) (.070)

(.150)

(.557) (4.000)

Per. WT. sa

66.79 2.44 3.50

(.170)

in. lb/ft C/w/3”

D 130

Profiles are not to scale relative to each other. θsa values shown for 3” vertical length in natural convection with black anodized finish.


Aluminum Extrusion Profiles: CENTER CHANNEL XX1055

XX8340

XX1459

A

XX1371

015935 015935

XX7051

(2.556) (.138) (.595) (.984)

(2.316) (4.284)

Per. WT. sa

17.66 0.98 5.90

in. lb/ft °C/w/3"

B

XX4618

XX6980

XX1327

003979

XX4670

XX1502

C

D Profiles are not to scale relative to each other. θsa values shown for 3” vertical length in natural convection with black anodized finish.

131


Aluminum Extrusion Profiles: CENTER CHANNEL XX4671

XX1026

016314

016372

XX7331

015956

015018

XX1076

014714

003519

XX1077

A

B

C

013452

D 132

Profiles are not to scale relative to each other. θsa values shown for 3” vertical length in natural convection with black anodized finish.


Aluminum Extrusion Profiles: CENTER CHANNEL — MULTI CHANNEL XX7057

XX1073

XX7019

A

016313

016345

XX2058

B

014967

XX7084

XX4645

003295

XX5959

009146

C

D Profiles are not to scale relative to each other. θsa values shown for 3” vertical length in natural convection with black anodized finish.

133


Aluminum Extrusion Profiles: MULTI CHANNEL XX3047

016679

003230

XX3050

XX4643

XX9014

007999

XX4917

XX4617

XX1112

016529

XX3022

A

B

C

D 134

Profiles are not to scale relative to each other. θsa values shown for 3” vertical length in natural convection with black anodized finish.


Aluminum Extrusion Profiles: MULTI CHANNEL XX3017

006412

XX3012

A

XX3013

014324

016333

B

XX3002

XX5060

XX8182

XX5541

016503

XX7055

C

D Profiles are not to scale relative to each other. θsa values shown for 3” vertical length in natural convection with black anodized finish.

135


Aluminum Extrusion Profiles: FLATBACK W/ INTEGRAL MOUNTING FEET 019133

014343

014344

XX4874

014751

014712

XX4201

XX1194

XX1774

XX7017

XX4450

XX1662

A

B

C

D 136

Profiles are not to scale relative to each other. θsa values shown for 3” vertical length in natural convection with black anodized finish.


Aluminum Extrusion Profiles: FLATBACK W/ INTEGRAL MOUNTING FEET XX4600

XX7074

XX1645

A

XX7072

014214

XX1024

B

014285

XX2276

002756

XX1025

014428

XX3090

C

D Profiles are not to scale relative to each other. θsa values shown for 3” vertical length in natural convection with black anodized finish.

137


Aluminum Extrusion Profiles: FLATBACK W/ INTEGRAL MOUNTING FEET 009238

XX1714

XX7332 XX7332 (4.000)

(.200)

(1.500)

(.070)

(5.000)

Per. WT. sa

37.85 1.71 2.50

(.500)

in. lb/ft C/w/3”

A

XX7330

014820

XX8131 XX8131 (.090)

(.309)

(2.350) (.500) (.370) (5.265)

Per. WT. sa

73.30 6.64 1.20

in. lb/ft C/w/3”

B

013838

014915 014915

XX8623

(.594) (.094) (2.517)

(2.400)

(5.500)

(.330)

Per. WT. sa

75.09 5.36 0.90

in. lb/ft C/w/3”

C

000806 (.310)

XX7109 XX7109 (4.882)

(6.062)

Per. WT. sa

64.02 4.87 1.30

in. lb/ft °C/w/3"

(.030)

(.200)

(1.998)

(.200)

(.180)

013994

D 138

Profiles are not to scale relative to each other. θsa values shown for 3” vertical length in natural convection with black anodized finish.


Aluminum Extrusion Profiles: FLATBACK W/ INTEGRAL MOUNTING FEET — T-STYLE 013782

006242

XX6438-2

A

XX2197

014282

XX7108

B

016922

XX3213

XX8014

016319

012176

009284

C

D Profiles are not to scale relative to each other. θsa values shown for 3” vertical length in natural convection with black anodized finish.

139


Aluminum Extrusion Profiles: T-STYLE 009170

005008

012232

015918

015295

006639

012709

013563

009891

005651

009100

XX8088

A

B

C

D 140

Profiles are not to scale relative to each other. θsa values shown for 3� vertical length in natural convection with black anodized finish.


Aluminum Extrusion Profiles: T-STYLE XX4228

016853

(.250)

(.250)

Per. WT. sa

009321

(2.718)

(2.327)

XX4228

(1.350)

38.93 2.29 1.90

in. lb/ft °C/w/3"

A

014265

015067

011300

B

016178

XX4891

009319

014345

XX6203

009212

C

D Profiles are not to scale relative to each other. θsa values shown for 3” vertical length in natural convection with black anodized finish.

141


Aluminum Extrusion Profiles: T-STYLE — H-STYLE 015765

XX4220

014763

012678

XX7030

XX4477

014278

015108

XX7056

XX8029

XX6533

XX8073

A

B

C

D 142

Profiles are not to scale relative to each other. θsa values shown for 3” vertical length in natural convection with black anodized finish.


Aluminum Extrusion Profiles: H-STYLE XX8420

XX5183

XX5195

A

XX7075

006679

005875

B

XX5167

010088

XX6996

010803

008266

006393

C

D Profiles are not to scale relative to each other. θsa values shown for 3” vertical length in natural convection with black anodized finish.

143


Aluminum Extrusion Profiles: H-STYLE 003539

003572

003573

006064

XX1637

XX4701

005511

XX10202

XX4511

XX4850

004591

XX7093

A

B

C

D 144

Profiles are not to scale relative to each other. θsa values shown for 3” vertical length in natural convection with black anodized finish.


Aluminum Extrusion Profiles: H-STYLE 010839

015671

002863

A

XX4101

003663

008889

B

XX1244

013437

008890

005821

XX4005

XX4051

C

D Profiles are not to scale relative to each other. θsa values shown for 3� vertical length in natural convection with black anodized finish.

145


Aluminum Extrusion Profiles: H-STYLE 005984

XX7157

003208

XX1157

XX4226

003731

006748

XX5313

010663

XX4666

XX2726

XX3547

A

B

C

D 146

Profiles are not to scale relative to each other. θsa values shown for 3” vertical length in natural convection with black anodized finish.


Aluminum Extrusion Profiles: H-STYLE XX1273

013959

008891

A

XX1245

XX2131

005024

B

005207

006821

XX1541

XX9018

XX6981

XX3057

C

D Profiles are not to scale relative to each other. θsa values shown for 3” vertical length in natural convection with black anodized finish.

147


Aluminum Extrusion Profiles: H-STYLE — DOUBLE-SIDED — MOUNTING SHELF XX1251

XX8479

XX4551

014879

XX5013

XX4878

XX7037

XX4336

XX2159

008999

XX5568

XX1753

A

B

C

D 148

Profiles are not to scale relative to each other. θsa values shown for 3” vertical length in natural convection with black anodized finish.


Aluminum Extrusion Profiles: MOUNTING SHELF XX7009

XX6183

014264

A

XX6112

XX4478

XX6201

B

XX10323

XX4760

014313

XX6211

XX7089

XX7046

C

D Profiles are not to scale relative to each other. θsa values shown for 3” vertical length in natural convection with black anodized finish.

149


Aluminum Extrusion Profiles: PRESS PACK XX5306

XX3849

014191

003537

XX5730

XX5311

XX4554

XX3529

013450

XX3560-2

XX5731

XX5732

A

B

C

D 150

Profiles are not to scale relative to each other. θsa values shown for 3” vertical length in natural convection with black anodized finish.


Aluminum Extrusion Profiles: PRESS PACK XX3561-2

XX5736

XX3559-2

A

XX5733

014779

014442

B

016235

XX10239

XX6351

XX5360

XX5735

XX7151

C

D Profiles are not to scale relative to each other. θsa values shown for 3” vertical length in natural convection with black anodized finish.

151


Aluminum Extrusion Profiles: POWER MODULE — FORCED CONVECTION XX16104

XX5714

013698

XX5315

XX7300

XX8110

016988

XX7091

XX7092

XX5655

017003

XX1040-P1

A

B

C

D 152

Profiles are not to scale relative to each other. θsa values shown for 3” vertical length in natural convection with black anodized finish.


Aluminum Extrusion Profiles: FORCED CONVECTION — MODULAR XX1961

XX2301

XX6061

A

XX1040-P2

XX1320

XX1288

B

XX1243-P2

XX6071

XX6052

XX6051

XX1243-P1

XX6032

C

D Profiles are not to scale relative to each other. θsa values shown for 3” vertical length in natural convection with black anodized finish.

153


Aluminum Extrusion Profiles: MODULAR — HOLLOW XX6031

XX6145

XX6142

XX6141

XX6143

XX6144

XX6115

XX6116

XX6110

XX6111

XX6102

XX5075

A

B

C

D 154

Profiles are not to scale relative to each other. θsa values shown for 3” vertical length in natural convection with black anodized finish.


Aluminum Extrusion Profiles: HOLLOW — MISCELLANEOUS XX6301

XX6302

XXB-1396

A

XX6164

XX6303

015346

B

015569

017013

XX1290-P1

XX1290-P2

XX1290-P3

XX5049

C

D Profiles are not to scale relative to each other. θsa values shown for 3” vertical length in natural convection with black anodized finish.

155


Reference Index: PART NUMBER Part No.

Page

Part No.

PART # 103 107 155 258 120-2 120-320 120-5 120-8 120-80 120-SA 122-10CC 122-2 122-30CC 126-2 126-4 126-4S 126-5LB 130-1 130-2 130-3 130-4 130-5 130-A 130-B 130-C 130-D 130-E 130-F 130-G 130-H 130-I 130-J 130-K 130-L 130-M 130-N 130-P 132-10B 132-10G 132-11-B9 132-11-G9 132-15.5B 132-15.5G 132-4.5B 132-4.5G 132-5-B9 132-5-G9 133-10B 133-10G 133-11-B9 133-11G9 133-4.5B 133-4.5G 133-5-B9 133-5-G9 133-7.5B 133-7.5-B9 133-7.5G 133-7.5G9 139-1 139-2 139-3 139-3A 139-3B 139-3C 139-3D 139-3E

PAGE 51 51 67 38 64 64 64 64 64 64 64 64 64 65 65 65 65 57 57 57 57 57 57 57 57 57 57 57 57 57 57 57 57 57 57 57 57 61 61 61 61 61 61 61 61 61 61 61 61 61 61 61 61 61 61 61 61 61 61 58 58 58 58 58 58 58 58

139-3F 139-3G 139-3H 139-3J 139-3K 139-3L 139-3M 139-3N 139-3P 139-5 139-5A 139-5B 139-5C 139-5D 139-5E 139-5F 139-5G 139-5H 139-5J 139-5K 139-5L 139-5M 139-5N 139-5P 143-2 143-A 143-B 143-C 143-D 143-E 143-F 143-G 143-H 143-J 143-K 143-L 144-2 144-A 144-B 144-C 144-D 144-E 145-2 145-A 145-B 145-C 145-D 145-E 145-F 146-2 146-A 146-B 146-C 146-D 146-E 146-F 146-G 152-1A 152-1B 152-KA 152-Q 153-Q 154-Q 156-K 173-7-220P 173-7-230P 173-7-240A 173-7-240P

156

Page 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 59 59 59 59 59 59 59 59 59 59 59 59 59 59 59 59 59 59 60 60 60 60 60 60 60 60 60 60 60 60 60 60 60 65 65 65 65 66 66 67 68 68 68 68

Part No. 173-9-1212P 173-9-210P 173-9-230P 173-9-240P 173-9-220P 174-9-1212P 174-9-310P 175-6-210P 175-6-220P 175-6-230P 175-6-240P 175-6-250P 175-6-280P 175-6-310P 175-6-320P 175-6-330P 175-6-410P 175-6-610P 180-10-12C 180-10-24C 180-10-6C 180-11-12C 180-11-24C 180-11-6C 180-12-12C 180-12-24C 180-12-6C 180-20-6C 206-1PABEH 217-36CTE6 217-36CTRE6 217-36CTTE6 218-40CTE3 218-40CTE5 230-75AB 230-75ABE-01 230-75ABE-05 230-75ABE-10 231-137PAB 231-137PABE 231-137PABE-XXX 231-69PAB 231-69PABE 231-69PABE-XXX 231-75PAB 231-75PABE-XXX 232-200AB 232-200ABE-23 233-60AB 233-60ABE-01 233-60ABE-05 233-60ABE-10 234-75AB 234-75ABE-01 234-75ABE-05 235-85AB 235-85ABE-01 235-85ABE-05 235-85ABE-10 236-150AB 236-150ABE-01 236-150ABE-05 236-150ABE-10 237-167AB2 237-167AB3 237-167AB3 237-167ABE2-24 238-200AB

Page 68 68 68 68 68 68 68 68 68 68 68 68 68 68 68 68 68 62 62 62 62 62 62 63 63 63 63 24 22 22 22 23 23 24 24 24 24 26 26 26 26 26 26 26 26 30 30 26 26 26 26 24 24 24 27 27 27 27 26 26 26 26 35 35 35 35 30

Part No. 238-200ABE-23 239-75AB 239-75ABE-03 239-75ABE-04 240-118ABEH-22 240-118-ABES-22 241-69ABE-03 242-125ABE-22 243-1PAB 243-3PAB 244-145AB 244-145ABE-50 245-145AB 245-145ABE-50 246-197AB 246-197ABE-50 247-195-AB 247-195-ABE-50 248-162AB 248-162ABE-50 249-113AB 249-113ABE-50 250-122AB 250-122ABE-09 250-122ABE-25 251-62AB 251-80AB 251-80ABE-19 252-167AB2 252-167AB3 252-167ABE2-24 260-4T5E 260-4TH5E 260-6SH5E 262-75ABE-01 262-75ABE-05 265-118ABHE-22 270-AB 271-AB 272-AB 273-AB 273-ABE-01 273-ABE-02 274-1AB 274-1ABE-01 274-1ABE-02 274-2AB 274-2ABE-01 274-2ABE-02 274-3AB 274-3ABE-01 274-3ABE-02 275-75AB 275-75ABE-01 275-75ABE-10 280-AB 281-1AB 281-2AB 285SC 286-AB 286-CBTE 286-CTE 286DBE 287-1ABE 287-2ABE 288-1ABE 289-AB 289-AP

Page 30 27 27 27 29 29 25 30 27 27 31 31 31 31 31 31 32 32 32 32 32 32 35 35 35 30 30 30 35 35 35 37 37 37 25 25 28 34 33 34 29 29 29 29 29 29 29 29 29 29 29 29 26 26 26 34 29 29 36 36 36 36 28 36 36 33 34 34

Part No. 290-1AB 290-2AB 291-C236AB 291-H36AB 292-A239AB 301K 301M 301N 302M 302MM 302N 302NN 303M 303MM 303N 303NN 330SC 392-120AB 392-120AG 392-180AB 392-180AG 392-300AB 392-300AG 394-1AB 394-2AB 395-1AB 395-2AB 396-1AB 396-2AB 401A 401F 401K 403A 403F 403K 413A 413F 413K 421A 421F 421K 423A 423K 431K 433K 435AAAA 441K 465K 476K 476W 486K 489K 490-12K 490-35K 490-6K 510-12M 510-12U 510-14M 510-14U 510-3M 510-3U 510-6M 510-6U 510-9M 510-9U 511-12M 511-12U 511-3M

Page 34 34 35 35 38 45 45 45 45 45 45 45 45 45 45 45 36 53 53 53 53 53 53 49 49 49 49 49 49 46 46 46 46 46 46 46 46 46 46 46 46 46 46 47 47 47 47 48 48 48 48 48 49 49 49 53 53 53 53 53 53 53 53 53 53 53 53 53

Part No.

Page

511-3U 511-6M 511-6U 511-9M 511-9U 512-12M 512-12U 512-3M 512-3U 512-6M 512-6U 512-9M 512-9U 517-95AB 518-95AB 527-24AB 527-45AB 528-24AB 528-45AB 537-24AB 537-45AB 537-95AB 547-24AB 547-45AB 547-95AB 557-140AB 558-75AB 559-50AB 569-100AK 579-150AK 589-150AK 599X-100AB 601E 601F 601K 602-100AP 603K 604-40AB 604-60AB 605-75AB 606-77AB 607-65AB 609-100AB 609-50AB 610-35AB 610-40AB 611-80AB 612-65AB 613-50AB 614-100AB 614-30AB 614-50AB 615-41AB 616-80AB 617-80AB 618-100AP 618-20AB 619+A7095AB054D1 61995AB124D1 620-24AB 621A 621K 622-80AB 623A 623K 624-25AB 624-35AB 624-45AB

53 53 53 53 53 53 53 53 53 53 53 53 53 51 51 51 51 51 51 52 52 52 52 52 52 50 50 50 20 20 20 20 44 44 44 12 44 12 12 13 13 14 11 11 14 14 15 15 16 16 16 16 17 17 18 18 18 11 11 19 45 45 19 45 45 4 4 4


Reference Index: PROFILE NUMBER Part No. 624-60AB 625-25AB 625-35AB 625-45AB 625-60AB 626-10ABEP 626-15ABEP 626-20ABEP 626-25ABEP 627-10ABP 627-15ABP 627-20ABP 627-25ABP 628-20AB 628-25AB 628-35AB 628-40AB 628-65AB 630-25AB 630-35AB 630-45AB 630-60AB 634-10ABEP 634-15ABEP 634-20ABEP 637-10ABEP 637-15ABEP 637-20ABEP 637-25ABEP 641A 641K 642-25AB 642-35AB 642-45AB 642-60AB 643-35AP 647-10ABEP 647-15ABEP 647-175ABEP 647-20ABEP 647-25ABEP 649-33AB 649-51AB 650B 651B 655-26AB 655-53AB 657-10ABEP 657-10ABEPN 657-10ABEPSC 657-15ABEP 657-15ABEPN 657-15ABEPSC 657-20ABEP 657-20ABEPN 657-20ABEPSC 657-25ABEP 657-25ABEPN 657-25ABEPSC 658-25AB 658-35AB 658-45AB 658-60AB 659-65AB 660-29AB 661-32AG 661-33AB 661-40AB

Page 4 4 4 4 4 40 40 40 40 40 40 40 40 7 7 7 7 7 8 8 8 8 39 39 39 39 39 39 39 44 44 6 6 6 6 9 41 41 41 41 41 21 21 20 20 5 5 41 42 42 41 42 42 41 42 42 41 42 42 5 5 5 5 5 6 21 21 21

Part No. 661-52AB 662-15AB 662-15AG 667-10ABESP 667-10ABPP 667-15ABESP 667-15ABPP 667-20ABESP 667-20ABPP 667-25ABESP 667-25ABPP 669-32AG 669-33AB 669-40AB 669-52AB 677-10ABEP 677-15ABEP 677-20ABEP 677-25ABEP 680-10220 680-10A 680-125220 680-125A 680-5220 680-5A 680-75220 680-75A 690-220B 690-3B 690-66B 695-1B 698-100AB 698-40AB 698-65AB 698-80AB 798-100AB 798-40AB 798-65AB 798-80AB D10650-40 D10850-40

Page 21 7 7 40 40 40 40 40 40 40 40 21 21 21 21 42 42 42 42 43 43 43 43 43 43 43 43 43 43 43 37 8 8 8 8 9 9 9 9 10 10

EXTRUDED ALUMINUM HEAT SINK PROFILES Wakefield Engineering offers a wide variety of standard profiles. If an extrusion profile that meets your needs is not offered, consult the factory for additional profiles as they become available, alternatives or custom solutions. Six foot lengths are standard; however, other lengths are available.

PROFILE NUMERICAL INDEX DIRECTORY Extrusion/Heat Pg. Sink Ref. No. No. FLATBACK 002853 002981 003385 003413 003676 003942 004506 005329 005355 005473 006369 006513 006606 006663 006664 006872 007264 007541 007657 008469 008563 008658 008702 008842 009099 009168 009239 009396 009797 010248 010313 010785 010818 010979 010980 010998 011005 011077 011173 011175 011238 011296 011299 011381 011422 011423 011424 011425 011447 011448 011457 011465 011485 011492 011498 011738 011740 011741 011743

101 112 114 80 106 82 83 75 93 93 116 70 76 116 114 109 110 93 106 109 108 103 83 78 95 103 86 103 99 112 76 103 92 73 84 105 107 100 71 94 97 72 102 75 95 95 74 113 86 82 98 83 74 80 80 88 84 82 112

Row Loc. C C A A A A D D C A B B B C B B B A A B D A A B C D A B C A D B A C B A D B A A C C D A B A D C D D D A C A A D D A D

Extrusion/Heat Pg. Sink Ref. No. No. 011758 011820 011838 011880 011890 011891 011927 011939 011940 011941 011942 011944 011975 012021 012054 012061 012062 012096 012098 012103 012106 012108 012110 012116 012148 012165 012166 012174 012182 012226 012228 012234 012235 012242 012246 012331 012334 012388 012395 012396 012397 012401 012406 012414 012416 012423 012443 012464 012489 012504 012517 012518 012575 012580 012584 012613 012614 012646 012661 012671

100 88 95 87 90 90 77 70 70 71 108 106 96 92 113 108 78 96 109 85 84 99 82 115 78 89 101 89 84 95 78 70 69 85 82 110 82 80 117 100 104 90 90 116 81 100 99 112 89 117 70 97 109 81 80 90 106 78 90 111

Row Loc. B B D C D A C D D A A B A C A A A D C D A D A B B D A C D D D D B A C B B C A C D A A D B A A D B D C D A B B B D A D D

Extrusion/Heat Pg. Sink Ref. No. No. 012677 012680 012693 012696 012704 012712 012749 012777 012823 012843 012879 012894 012904 012914 012918 012932 012947 012987 012988 012989 012990 013000 013017 013068 013075 013096 013098 013099 013100 013101 013102 013141 013143 013151 013156 013158 013203 013205 013206 013208 013210 013211 013212 013213 013215 013224 013237 013254 013260 013266 013277 013293 013295 013512 013513 013521 013532 013542 013564 013568

103 98 113 102 78 84 105 106 106 117 90 105 71 94 107 101 96 106 94 95 78 97 87 118 83 105 89 105 88 89 89 91 101 82 92 80 107 83 83 83 83 86 86 86 95 108 112 69 88 114 113 98 79 113 85 79 112 100 104 72

Row Loc. D A D D B C A D D D B D A D A A B B B A D A A B D C A C D A A A A C B B B B B B C B C C C C B B D B B A A C A A A A C D

Extrusion/Heat Pg. Sink Ref. No. No. 013569 013570 013583 013597 013599 013601 013605 013607 013618 013621 013636 013647 013659 013664 013670 013673 013677 013685 013716 013717 013719 013721 013729 013733 013750 013756 013757 013772 013796 013849 013929 013953 014085 014113 014235 014236 014240 014243 014249 014262 014269 014284 014291 014306 014320 014326 014338 014359 014360 014361 014362 014363 014364 014367 014373 014374 014401 014418 014427 014432

101 110 108 117 76 112 102 72 106 114 96 85 115 107 86 73 117 95 106 107 92 95 104 103 92 105 119 123 112 120 117 120 118 117 85 121 71 92 85 97 91 99 92 116 107 91 73 75 87 75 88 75 88 99 90 82 116 87 90 84

Row Loc. D B D B C B B C C D A C A C D B C B C A C A B B D C D B D C A D A B C B B B D D B D B B B A D C D A A A C A C B C B C B

157


Reference Index: PROFILE NUMBER Extrusion/Heat Pg. Sink Ref. No. No. 014462 014468 014476 014701 014702 014727 014746 014757 014762 014769 014770 014771 014772 014793 014801 014802 014803 014813 014815 014819 014837 014844 014850 014853 014854 014883 014960 014964 014965 014966 014970 014984 014987 015019 015045 015138 015145 015163 015172 015174 015184 015189 015231 015240 015273 015604 015611 015633 015672 015712 015745 015768 015769 015774 015785 015786 015837 015840 015854 015862 015878 015887 015888 015900 015901 015902 015906 015919 015920 015921

158

112 117 84 90 92 83 115 116 91 75 106 88 86 104 98 85 98 103 79 87 80 98 81 97 87 76 90 90 107 98 82 110 73 100 99 121 96 81 104 105 79 119 109 96 102 89 119 115 82 105 116 75 115 120 94 86 116 111 119 106 101 110 122 97 77 91 115 76 91 83

Row Loc. C C C D C D A C D D C A D A C D D C B A C C A B A B C B B B B A A B B A C A C B B A A D C D C D C D A B C D D B B A D B C D A A A C A A B C

Extrusion/Heat Pg. Sink Ref. No. No. 015936 015941 015943 015944 015945 015955 015960 015986 016001 016002 016003 016005 016010 016020 016046 016047 016048 016049 016051 016052 016053 016056 016060 016061 016062 016064 016066 016067 016069 016070 016071 016073 016109 016123 016133 016138 016140 016141 016149 016157 016160 016161 016167 016168 016169 016170 016171 016172 016175 016179 016187 016188 016192 016200 016208 016210 016211 016212 016214 016215 016216 016217 016221 016222 016225 016227 016232 016242 016250 016253

104 91 92 72 104 85 75 93 92 72 104 94 91 70 109 102 88 110 75 87 71 97 112 101 93 98 89 86 110 113 77 93 108 108 117 111 79 93 84 73 119 80 80 112 74 73 75 84 121 74 113 113 103 118 93 69 89 94 89 89 87 88 81 114 91 87 103 107 113 111

Row Loc. A B A D B C D D A D B C C C C B C A C D B B B B D A B C A A C B C A D D D B A C C D C C D A C B D A D D C C A C C D C D D A C D D B D D B C

Extrusion/Heat Pg. Sink Ref. No. No. 016256 016259 016265 016269 016270 016271 016272 016275 016278 016285 016290 016304 016312 016317 016320 016321 016326 016327 016334 016338 016349 016355 016360 016361 016362 016374 016381 016398 016403 016405 016419 016420 016421 016423 016424 016426 016427 016428 016429 016430 016431 016435 016436 016437 016438 016452 016454 016455 016457 016458 016463 016478 016501 016502 016510 016522 016526 016531 016543 016555 016556 016563 016573 016593 016607 016618 016632 016649 016650 016652

86 81 72 101 100 88 94 80 95 80 115 100 81 92 69 105 81 74 118 109 108 69 101 71 115 107 119 70 102 71 73 70 70 103 73 74 71 84 76 70 74 94 82 99 99 77 74 89 69 74 88 80 101 87 86 88 93 98 123 84 116 73 102 114 114 91 122 72 83 107

Row Loc. A C B B C C B D B D D D D D A D C B D B B C B C C A B C C C C B B C B C B A D A A C D B A A B B D B B B C C A B D C C C D D A C C A C B C C

Extrusion/Heat Pg. Sink Ref. No. No. 016655 016665 016681 016719 016746 016756 016775 016789 016804 016990 017011 017012 017016 017026 017030 017032 017033 017035 017046 019033 019081 019083 XX0233 XX0387 XX10015 XX10087 XX10138 XX10192 XX10253 XX10312 XX10428 XX10458 XX1527 XX1703 XX2002 XX2004 XX2005 XX2006 XX2007 XX2008 XX2009 XX2012 XX2013 XX2014 XX2015 XX2016 XX2017 XX2018 XX2019 XX2021 XX2027 XX2028 XX2030 XX2033 XX2035 XX2036 XX2037 XX2039 XX2040 XX2044 XX2050 XX2052 XX2054 XX2063 XX2065 XX2071 XX2074 XX2088 XX2091 XX2095

98 79 118 79 71 74 118 120 77 121 93 81 110 98 99 108 105 122 97 81 123 119 105 97 96 121 113 100 104 74 96 87 104 120 111 104 99 77 77 119 118 103 94 77 109 123 120 97 99 120 115 109 107 96 86 77 71 102 97 123 104 100 120 93 109 115 118 73 116 118

Row Loc. B B D D C C C B B D C A C B C D A B A D D B B D C C A D D A B B C C C A C B B D A A A D D C C C D B B C D D B D D B B A D A A B D D B A A C

Extrusion/Heat Pg. Sink Ref. No. No. XX2096 XX2141 XX2142 XX2148 XX2149 XX2161 XX2167 XX2170 XX2177 XX2187 XX2193 XX2194 XX2199 XX2239 XX2246 XX2250 XX2494 XX2903 XX3286 XX4242 XX4327 XX4434-P1 XX4434-P2 XX4434-P3 XX4471 XX4483 XX4493 XX4509 XX4559 XX4652 XX4678 XX4771 XX4864 XX4937 XX5045 XX5067 XX5079 XX5113 XX5138 XX5384 XX5429 XX5438 XX5523 XX5582 XX5588 XX5672 XX5772 XX5798 XX5848 XX6209 XX6274 XX6676 XX6843 XX6889 XX6933 XX6957 XX6958 XX6998 XX7029 XX7031 XX7032 XX7034 XX7060 XX7063 XX7100 XX7113 XX7116 XX7148 XX7150 XX7152

102 69 70 70 69 113 71 122 96 110 122 121 111 82 111 100 115 111 106 72 69 101 101 102 122 118 69 114 122 105 102 117 76 118 111 114 100 117 103 120 123 108 117 99 94 69 121 78 92 111 116 113 111 75 111 109 120 93 115 114 94 110 76 116 97 110 98 122 107 76

Row Loc. D A A A D C D D A C B A B D B C B D A C A D D A D B D C A B A A A D A A D C A B B B B B A B B C D B A B A B C D A C C D B C D D C D D C C C

Extrusion/Heat Pg. Sink Ref. No. No.

Row Loc.

XX7207 XX7214 XX7229 XX7253 XX7293 XX7392 XX7393 XX8008 XX8009 XX8020 XX8026 XX8033 XX8035 XX8052-25 XX8052-35 XX8052-45 XX8052-60 XX8058 XX8063 XX8077 XX8144 XX8195 XX8221 XX8244-33 XX8244-40 XX8244-52 XX8260-25 XX8260-35 XX8260-40 XX8260-65 XX8261 XX8315 XX8316 XX8330 XX8337 XX8339 XX8355-100 XX8355-40 XX8355-65 XX8355-80 XX8373 XX8403 XX8410 XX8415 XX8434 XX8435 XX8447 XX8463 XX8500 XX8522 XX8531 XX8591 XX8641 XX8650 XX8787 XX8851 XX9001

75 123 76 121 81 119 120 78 77 69 110 79 77 72 72 72 72 77 76 118 114 83 81 78 78 78 79 79 79 79 119 87 108 108 95 71 85 84 85 85 91 114 91 112 119 96 119 95 109 76 94 73 85 74 73 96 102

B A B C B A A A A C D A D A A A B C C A A A D C C D C C C D A C C B C D B D A B D B C A C B B D A A C D B D B C C

L-STYLE 006026 006028 006248 006358 006411 006508 008377 008465 008507 008769 008770

124 125 124 125 124 126 125 126 126 126 126

D A C A D A D C D C C


Reference Index: PROFILE NUMBER Extrusion/Heat Pg. Sink Ref. No. No. 009304 009312 009317 009350 009358 009883 009893 010268 010845 010990 011304 011734 012279 012535 012732 013195 013567 013691 014755 014843 015771 016054 XX2023 XX2166 XX5269 XX8627

124 125 125 124 125 124 124 125 126 125 126 126 125 126 124 126 126 124 124 125 127 125 126 125 124 124

Row Loc. A B B A A D B C A C D B D D A B B B C D A C A B B C

CENTER CHANNEL 003519 132 D 003542 127 C 003979 131 D 006364 129 A 013452 132 D 014270 127 D 014714 132 C 015018 132 C 015935 131 B 015956 132 B 016036 128 C 016145 128 A 016313 133 B 016314 132 A 016345 133 B 016372 132 B 016465 129 A 016582 130 D XX0236 130 C XX1007 127 B XX1020 129 B XX10222 127 A XX1026 132 A XX1055 131 A XX1063 127 B XX1073 133 A XX1076 132 C XX1077 132 D XX1111 128 C XX1284 127 C XX1327 131 C XX1351 130 A XX1353 128 B XX1354 127 C XX1371 131 B XX1409 127 D XX1452 128 D XX1453 127 D XX1459 131 A XX1502 131 D XX1546 128 A XX1551 129 D

Extrusion/Heat Pg. Sink Ref. No. No. XX1552 XX1881 XX2058 XX2558 XX4306 XX4319 XX4425 XX4502 XX4562 XX4563 XX4618 XX4670 XX4671 XX4721 XX4753 XX4865 XX4920 XX5036 XX5052 XX5057 XX5061 XX5166 XX6520 XX6980 XX7013 XX7019 XX7045 XX7051 XX7057 XX7070 XX7134 XX7331 XX8340 XX8382 XX9004

Row Loc.

128 130 133 127 129 129 128 129 130 130 131 131 132 127 129 128 129 129 130 130 130 129 130 131 130 133 129 131 133 128 128 132 131 128 130

D B B A B B C C C A C D A B D A A C C A D D B C B A C B A D B B A B D

MULTI CHANNEL 003230 134 003295 133 006412 135 007999 134 009146 133 014324 135 014967 133 016333 135 016503 135 016529 134 016679 134 XX1112 134 XX3002 135 XX3012 135 XX3013 135 XX3017 135 XX3022 134 XX3047 134 XX3050 134 XX4617 134 XX4643 134 XX4645 133 XX4917 134 XX5060 135 XX5541 135 XX5959 133 XX7055 135 XX7084 133 XX8182 135 XX9014 134

A D A C D B C B D D A D C A B A D A B C B C C C D D D C C B

Extrusion/Heat Pg. Sink Ref. No. No.

Row Loc.

FLATBACK W/ INTEGRAL MOUNTING FEET 000806 138 D 137 C 002756 006242 139 A 138 A 009238 013782 139 A 138 C 013838 013994 138 D 137 B 014214 014282 139 B 137 C 014285 014343 136 A 136 A 014344 014428 137 D 136 B 014712 014751 136 B 138 B 014820 014915 138 C 139 D 016319 139 C 016922 136 A 019133 137 B XX1024 XX1025 137 D XX1194 136 C XX1645 137 A XX1662 136 D XX1714 138 A XX1774 136 C XX2197 139 B XX2276 137 C XX3090 137 D XX3213 139 C XX4201 136 C XX4450 136 D XX4600 137 A XX4874 136 B XX6438-2 139 A XX7017 136 D XX7072 137 B XX7074 137 A XX7108 139 B XX7109 138 D XX7330 138 B XX7332 138 A XX8014 139 C XX8131 138 B XX8623 138 C T-STYLE 005008 005651 006639 009100 009170 009212 009284 009319 009321 009891 011300 012176 012232 012678 012709 013563 014265 014278 014345 014763

140 140 140 140 140 141 139 141 141 140 141 139 140 142 140 140 141 142 141 142

A D B D A D D C A C B D A B C C B C D A

Extrusion/Heat Pg. Sink Ref. No. No.

Row Loc.

015067 015108 015295 015765 015918 016178 016853 XX4220 XX4228 XX4477 XX4891 XX6203 XX7030 XX7056 XX8088

141 142 140 142 140 141 141 142 141 142 141 141 142 142 140

B C B A B C A A A B C D B C D

H-STYLE 002863 003208 003539 003572 003573 003663 003731 004591 005024 005207 005511 005821 005875 005984 006064 006393 006679 006748 006821 008266 008889 008890 008891 010088 010663 010803 010839 013437 013959 015671 XX10202 XX1157 XX1244 XX1245 XX1251 XX1273 XX1541 XX1637 XX2131 XX2726 XX3057 XX3547 XX4005 XX4051 XX4101 XX4226 XX4511 XX4666 XX4701 XX4850 XX5167 XX5183 XX5195

145 146 144 144 144 145 146 144 147 147 144 145 143 146 144 143 143 146 147 143 145 145 147 143 146 143 145 145 147 145 144 146 145 147 148 147 147 144 147 146 147 146 145 145 145 146 144 146 144 144 143 143 143

A A A A A B B D B C C D B A B D B C C D B C A C C D A C A A C B C B A A C B B D D D D D B B C D B D C A A

Extrusion/Heat Pg. Sink Ref. No. No. XX5313 XX6533 XX6981 XX6996 XX7075 XX7093 XX7157 XX8029 XX8073 XX8420 XX9018

Row Loc.

146 142 147 143 143 144 146 142 142 143 147

C D D C B D A D D A D

DOUBLE-SIDED 148 014879 XX4551 148 148 XX5013 XX8479 148

B A B A

MOUNTING SHELF 148 008999 014264 149 149 014313 149 XX10323 148 XX1753 148 XX2159 148 XX4336 XX4478 149 XX4760 149 XX4878 148 XX5568 148 XX6112 149 XX6183 149 XX6201 149 XX6211 149 XX7009 149 XX7037 148 XX7046 149 XX7089 149

D A C C D C C B C B D B A B D A C D D

PRESS PACK 003537 013450 014191 014442 014779 016235 XX10239 XX3529 XX3559-2 XX3560-2 XX3561-2 XX3849 XX4554 XX5306 XX5311 XX5360 XX5730 XX5731 XX5732 XX5733 XX5735 XX5736 XX6351 XX7151

150 150 150 151 151 151 151 150 151 150 151 150 150 150 150 151 150 150 150 151 151 151 151 151

B C A B B C C C A D A A C A B D B D D B D A C D

POWER MODULE 013698 152 016988 152 017003 152 XX16104 152

A C D A

Extrusion/Heat Pg. Sink Ref. No. No. XX5315 XX5655 XX5714 XX7091 XX7092 XX7300 XX8110

152 152 152 152 152 152 152

Row Loc. B D A C C B B

FORCED CONVECTION 152 D XX1040-P1 XX1040-P2 153 B 153 D XX1243-P1 XX1243-P2 153 C 153 B XX1288 XX1320 153 B 153 A XX1961 XX2301 153 A 153 D XX6051 XX6052 153 C 153 A XX6061 XX6071 153 C MODULAR XX6031 XX6032 XX6102 XX6110 XX6111 XX6115 XX6116 XX6141 XX6142 XX6143 XX6144 XX6145

154 153 154 154 154 154 154 154 154 154 154 154

A D D C D C C B A B B A

HOLLOW 015346 015569 017013 XX5075 XX6164 XX6301 XX6302 XX6303 XXB-1396

155 155 155 154 155 155 155 155 155

B C C D B A A B A

MISCELLANEOUS XX1290-P1 155 XX1290-P2 155 XX1290-P3 155 XX5049 155

C D D D

159


Glossary of Terms The terms as defined below cross many scientific and engineering boundaries relating to heat transfer, die casting, electrical, electronics, and mechanical industries. As such, the terms are generalized and not meant to be inclusive of all possible variations of that definition within a particular industry. Accelerator - An organic compound which is added to an epoxy resin to shorten the curing time. Adhesion - The state at which two surfaces are held together by interfacial forces which may consist of valence forces or interlocking action or both. Adhesive - A substance which applied as an intermediate is capable of holding materials together by surface attachment. Ambient temperature - The average or mean temperature of the surrounding air or other medium comes in contact with the equipment or instrument under test. Anodizing - To subject a metal to electrolytic action as the anode of a cell in order to coat with a protective or decorative film. Application Specific Integrated Circuit (ASIC) - An integrated circuit chip with personalization customized for a specific product. Personalization refers to the integrated circuit chip.

of an object depends upon its material and surface texture; a polished metal surface can have an emissivity around 0.2, and a piece of wood around 0.95. Endothermic - Absorbs heat. Error - The difference between the correct or desired value and the actual reading or the value taken.

SCR - Silicon controlled rectifier.

External Resistance - A term used to represent thermal resistance from a convenient point on the outside surface of an electronic package to an ambient reference point.

Shrinkage - The decrease in volume, or contraction of a material by the escape of any volatile substance, or by a chemical or physical change in the material.

Flat Pac - An integrated circuit package having its leads extending from all four sides and parallel to the base.

Single-in-Line (SIP) - DIP-like package with single line of leads as opposed to two for DIP.

FPM - Flow velocity in feet per minute.

Solvent Cleaner - The process of removing soil from a substrate surface with an organic solvent. The solvent cleaning process does not alter the substrate physically or chemically.

Gate Array - A semicustom product, implemented from a fully diffused or ion-implanted semiconductor wafer carrying a matrix of identical primary cells arranged into columns with routing channels between them in the X and Y directions. GPM - Volumetric flow rate in gallons per minute.

Array - A group of elements (pads, pins) or circuits arranged in rows or columns on one substrate. ASIC - Application Specific Integrated Circuit.

Heat - Thermal energy.

Back Panel - A planar package components holding plugged-in lower level package components as well as discrete wires and cables interconnecting these components.

Heat Flux - The rate of flow of heat energy across or through a surface, measured in watts/cm2.

Braze - A joint formed between two different materials by formation of a liquid at the interface. Ceramic - Inorganic, nonmetallic materials such as alumina, beryllia, or glass-ceramic, whose final characteristics are produced by subjection to high temperatures. Often used in forming ceramic substrates for packaging semiconductor chips. CFM - The volumetric flow rate of a liquid or gas in cubic feet per minute. Chemical Treatment - The process of treating a clean surface by chemical means. The chemical nature of the substance is altered to make it highly receptive to adhesion. Chip - The uncased and normally leadless form of an electronic component part, either passive or active, discrete or integrated. Also referred to as die. Chip Carrier - A special type of enclosure or package to house a semiconductor device. It has electrical terminations around its perimeter, or solder pads on its underside, rather than an extended lead frame or plug-in pins. Chromate - A conversion coating consisting of trivalent and hexavalent chromium compounds. Coefficient of Thermal Expansion (CTE) - The ratio of the change in dimensions to the change in temperature per-unit starting length, usually expressed in cm/cm°C. Conduction - Thermal transmission to heat energy from a hotter region to a cooler region in a conducting medium. Conductive Adhesive - An adhesive material, usually epoxy, that has metal powder added to increase electrical conductivity. Usual conductor added is silver. Convection - Transmission of thermal energy from a hotter to a cooler region through a moving medium, such as air or water. CQFP - Ceramic Quad Flat Pac. Cure Time - The interval of time from start of reaction to the time at which specified properties of the reacting thermosetting plastic or rubber composition is reached. For materials which react under the conditions of mixing, the start of reaction is the time of initial exposure to the conditions necessary for reaction to occur. Curing Agent - An inorganic or organic compound which initiates the polymerization of a resin. Custom Design - A form of design in which the choice and arrangement of components and wiring on a package may vary arbitrarily within tolerances from a regular array. Die Casting - A process in which molten metal is injected at high velocity and pressure into a mold (die) cavity. Dielectric - Insulating film. Material that does not conduct electricity. Dual-in-Line Package (DIP) - A package having two rows of leads extending at right angles from the base and having standard pin spacings between leads and between rows of leads.

Heat Sink - A heat transfer component to which electronic components or their substrate or their package bottom are attached. This is usually a heat conductive metal with the ability to rapidly transmit heat from the generating source. Heat Transfer - The process of thermal energy floating from a body of high temperature to a body of low temperature. Means of transfer are: conduction, convection, and radiation. Injection - The act or process of forcing molten metal into a die. Integrated Circuit - A microcircuit consisting of interconnected elements inseparably associated and formed in situ on or with a single substrate to perform an electronic function. Interface - The boundary between dissimilar materials, such as between a film and substrate, or between two films. Internal Resistance - A term used to represent thermal resistance from the junction of a device, inside an electronic package, to a convenient point on the outside surface of the package. (R int) Iridite - Solution for application to base metal to produce corrosion resistant finish. Leadless-Chip Carrier (LCC) - A surface mounted package having metalized contacts at its periphery (rather than wire leads) which are soldered to metalized contacts on the printed circuit board or substrate. Maximum Operating Temperature - The maximum temperature at which a heater, sensor, device, or instrument can be safely operated. Multichip Module (MCM) - A module or package capable of supporting several chips on a single package. NIST - National Institute of Standards and Testing.

Specific Heat - The ratio of thermal energy required to raise the temperature of a body 1° to the thermal energy required to raise an equal mass of water 1°. Storage Life - The period of time during which a packaged adhesive can be stored under specific temperature conditions and remain suitable for use. Often called "Shelf Life." Surface Mount Technology (SMT) - A method of assembling hybrid circuits and printed wiring boards, where component parts are mounted onto, rather than into, the printed wiring board, as in the mounting of components on substrates in hybrid technology. Tack (Green Strength) - The property of an adhesive that enables it to form a bond of measurable strength immediately after adhesive and adherend are brought into contact under little or no pressure. Tape Automated Bonding (TAB) - The process where silicon chips are joined to patterned metal or polymer tape using thermocompression bonding, and subsequently attached to a substrate or board by outer lead bonding. Intermediate processing may be carried out in strip form through operations such as testing, encapsulation, bum-in, and excising the individual packages from the tape. TCE - Temperature coefficient of expansion. Temperature, Curing - The temperature at which an adhesive or assembly is subject to curing. Temperature Cycling - An environmental test where the film circuit is subjected to several temperature changes from a low temperature to a high temperature over a period of time. Thermal Conductivity - A measure of a material's ability to conduct heat; physical constant for quantity of heat that passes through unit volume of a substance in unit of time when difference in temperature of two opposite faces is unity. Thermal Cycling - A method to impose cyclical stress on an assembly of microelectronic components by alternately heating and cooling in an oven. It is used for accelerated reliability testing of assemblies. Thermal Expansion - An increase in size due to an increase in temperature expressed in units of an increase in length or increase in size per degree.

O.D. - Outside diameter.

Thermal Gradient - The plot of temperature variances across the bulk thickness of a material being heated.

Peel Strength (Peel Test) - A measure of adhesion between a conductor and the substrate. The test is performed by pulling or peeling the conductor off the substrate and observing the forces required.

Thermal Mismatch - Difference in thermal coefficients of expansion of materials which are bonded together.

Pick-And-Place - The manufacturing process whereby chips are selected and placed on the correct substrate site in preparation for joining (or interconnecting) the chip to the substrate Pin-Grid Array (PGA) - A package or interconnect scheme featuring a multiplicity of plug-in type electrical terminals arranged in a predescribed matrix format or array. PQFP - Plastic Quad Flat Pac. Pressure Sensitive Adhesive - Attachment of materials by means of a sustained force at the desired contact area through use of an adhesive.

Thermal Resistance (°C/W) - The opposition offered by a medium to the passage through it of thermal energy. Thermocouple - The junction of two dissimilar metals which has a voltage output proportional to the difference in temperature between the hot junction and the lead wires. Thermoset - Material that will undergo or has undergone a chemical reaction by the action of heat, catalyst, ultraviolet light, etc., leading to a relatively infusible state. Transistor Outline (TO) - Industry standard package designation established by JEDEC of the EIA.

Protection Head- An enclosure usually made out of metal at the end of a heater or probe where connections are made.

Trim Die - Die for shearing or shaving flash from a casting. Either the die is forced over the casting, or the casting is forced through the die.

PSIA - Pounds per square inch absolute. Pressure referenced to vacuum.

Viscosity - A measure of the resistance of a fluid to flow or the internal friction within the body or fluid.

PSIG - Pounds per square inch gage. Pressure referenced to air pressure.

Working Life - The period of time during which a liquid resin or adhesive, after mixing with a catalyst, solvent, or other compounding ingredients, remains usable. Also known as “Pot Life”.

EMI - Electromagnetic interference.

Radiation - The combined process of emission, transmission, and absorption of thermal energy between bodies separated by empty space.

Emissivity - The ratio of energy emitted by an object to the energy emitted by a black body at the same temperature. The emissivity

Reliability - The probability of survival of a component, or assembly, for the expected period of use.

160

Resistance - The property of a conductor that opposes the flow of current by dissipating energy as heat. In packages, it causes voltage and current loss in signal and power distribution systems.

Exothermic - Gives off or releases heat.

Hardener (Curing Agent) - A substance or mixture of substances added to an adhesive to promote or control the curing reaction by taking part in it.

Bozone - Layer that surrounds stupid people prohibiting bright ideas from penetrating.

Resin - A term used for an organic polymer that when mixed with a curing agent crosslinks to form a thermosetting plastic.

Zero-insertion-Force Connection (ZIF) - A form of connector that allows the connector pins to be brought together under very low force, then wiped and pressed together during cam activation. Low insertion force is LIF.

Wakefield  

Wakefield Industrial Electronics

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