Catalog Thermal Clamps Series SIHD GT

Thermal Clamps Amphenol Series SIHD GT zzzzzzzzzzzzzzzzz

. • MAXIMUM RESISTANCE TO SHOCK AND VIBRATION : Very low wear and resistant to extreme shock and vibration, even when used in harsh environments • NO MOVING PARTS : The precision assembly permits the three components (body, spring and rod/cam) of the thermal clamp to stay together, even when in th unlocked position. a • SENSITIVE AND VISUAL INDICATION : The top end of the rod/cam provides visual indication that shows the “open” or “closed” position for ease of inspection. MAXIMUM RELIABILITY • QUICK LOCKING AND UNLOCKING : Unlike others on the market, Series SIH GT thermal clamps feature a quick, quarter-turn locking mechanism that provides a positive and fast assembly. - • ZERO INSERTION AND EXTRACTION FORCES : The insertion and guiding process of the PCB in its location requires no additional force. • Board lengths between 80 mm ( 3.15 in ) and 240 mm ( 9.45 in ) can be accommodated once the cold wall and heat sink are specified - in increment of 20 mm ( 0.787 in ). • Series SIHD-GT thermal clamps are compatible with different heat sinks thicknesses. • MAINTAINABILITY : the unique design makes field repairs quick and easy. Repairs can be accomplished without use of any special tool. Although the SIHD GT thermal clamps have been tested for over one thousand lock-unlock cycles, they have been derated and specified for 500 fully loaded cycles. This, in most cases, will exceed the overall system life, virtually eliminating service and maintenance. • Various mounting options are available. • Other custom styles are available upon request. MAXIMUM THERMAL TRANSFER • UNIFORM HEAT TRANSFER : Its unique design produces a uniform pressure distribution along the PCB edge for absolute best heat transfer, which avoids damaging the heat sink and provides a better thermal conduction. • The uniform clamping pressure eliminates hot spots along the PCB interface producing an even distribution of heat along the entire edge. • Thermal couple between the cold wall and the heat sink is created by a direct metal to metal contact providing more heat transfer capability than conventional wedge style retainers due to the constant pressure and the flexibility of the spring

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• Avionic systems • Submarine equipment • Ground military vehicles • Superior retainer for high density electronic devices running in very high vibration environments. • Designed to comply with MIL- STD-810E. Amphenol offers a new advanced design. Series SIHD-GT thermal clamps are designed to ensure the thermal coupling (heat dissipation) between the heat sink of a printed circuit board and the cold wall of a box (for Daughter Board), or of a backplane (for the Mother Board). At the same time they ensure the guiding of the boards in its locations, as well as the locking of the Daughter Boards into the right position relative to the Mother Board by a 1/4 turn. Ease of use, safety in vibration, low weight and space saving are benefits of this design. Series SIHD-GT thermal clamps are available in the following designs : - a left type and a right type, - different platings, - variety of lengths, - different locking devices (standard and custom tools).

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AMPHENOL SOCAPEX 948, Promenade de l'Arve BP 29 74311 THYEZ CEDEX FRANCE

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Amphenol ®

• +33 450 892 800 •

Technical Characteristics • Heat sink thickness capability : - Standard version : 1.6 mm +/-0.15 mm ( 0.063 in +/-0.0059 in ) with a minimum of 0.8 mm +/-0.15 mm ( 0.0315 in +/-0.0059 in ) - Other versions : by addition of wedges • Distance between 2 Daughter Boards (mounting pitch) : - “to screw” version : from 8 mm min. ( 0.315 in min. ), depending on the connector that it used - “to latch” or “to insert” version : from 10.16 mm min. ( 6.40 in min .) • Mechanical endurance : - 500 locking / unlocking cycles • Locking of the board (PCB retention) : - For the minimum heat sink thickness (1.45 mm or 0.57 in ) : > 50 N for a thermal clamp of 80 mm ( > 11.25 lbs for a thermal clamp of 3.15 in ) • Maximum locking / unlocking coupling torque : 5 Nm for a thermal clamp of 80 mm ( 44.3 lbs.in for a thermal clamp of 3.15 in ) Environmental Characteristics • Temperature range : 1000 hours from –55°C to 125°C • Temperature shock : 500 cycles (-50°C / +125°C under NFC20605 method A1) and MIL-STD-810E - Method 503.3 • Humidity : 56 days (under NFC20603) and MIL-STD-810E - Method 507.3 • Salt spray : 96 hours (under NFC20611) and MIL-STD-810E - Method 509.3 (Salt Fog 96 hours continuous exposure) • Sinusoidal vibration : severity 10 Hz to 2000 Hz - 20 gn (under NFC20616) and MIL-STD-810E - Method 514.4 • Random vibration : severity 50 Hz to 2000 Hz - 1.2 gn²/Hz (under MIL-STD-1344 A - Method 2005.1) • Shock : severity 100 g / 6ms half sine pulse (under NFC20608) and MIL-STD-810E - Method 516.4 • For most applications, the SIHD thermal clamps meet all performance objectives set by military and commercial users for high- reliability, high-density circuit board packaging of electronic equipment. Material

• Body : Aluminium Alloy (AGS) 6061-T6 QQ-A-200/8 • Spring system : Beryllium Copper (BeCu) per QQ-C-533 • Axis (Rod/Cam) : Stainless Steel per QQ-S-763, ASTM A 582 Finish • Body and spring system : Nickel plate per QQ-N-290, Class 1, Grade G

• Body : Black Anodise per MIL-A-8625, Type II, Class 2 • Axis (Rod/Cam) : Nickel Passivation per MIL-S-5002 Weight • Roughly 2,3 g for every 10 mm or 0.206 oz for every inch

Tolerances … Unless otherwize specified : .xxx = +/- .25 (.010), .xx = +/- .5 (.02) Note on dimensions … Metric units listed first followed by english in parenthesis Specifications subject to change without notice.

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Amphenol ®

Thermal Performance This varies mainly due to the thermal resistance between the heat sink and the cold wall.

Groove e

Thickness of the board

0,8 1,2 1,6 mm

(inches)

7,15 7,55 7,95

0.282 0.297 0.313

0.031 0.047 0.063

e : recommended gap dimension for maximum efficiency

The measure of this resistance depends on three main factors : - the heat sink - the thermal clamp - the cold wall which must pull the heat from the heatsink through conduction

This measure does not take into account the convection and the radiation phenomena, but allows the determination of the thermal resistance of the clamp coupling, for which the values are dependant on the length of the thermal clamp.

The thermal resistance of coupling per surface is less or equal to 1,6 K.W -1 .cm² or 2.5°C.inch/Watt.

Amphenol Thermal Clamps - Thermal Resistance Data

0.45

0.40

0.35

0.30

0.25

0.20

0.15

0.10

0.05

0.00

3

6

8

10

12

14

16

18

20

Length of card locks (inches, total of pair)

Amphenol ®

Mechanical Performance Clamping force applied onto the heat sink for a thermal clamp of 80 mm ( 3.15 in ) :

Thickness of the board in mm

1,45

1,55

1,60

1,65

1,75

Thickness of the board in inches

(0.057)

(0.061)

(0.063)

(0.065)

(0.069)

Average value in N

250

380

460

520

630

Average value in lbs

(56.25)

(85.50)

(103.50)

(117.00)

(141.75)

Clamping efficiency The efficiency of Amphenol Thermal Clamps has been shown during tests performed on different types of PCB’s fitted with thermal drains. The test results are given as an example in the table below. They cover the following PCB’s : - 200 µm epoxy glass PCB - thermal drain in CIC (Cu/Invar/Cu) These comparative tests have been done with a 1/2 ATR PCB equipped with SMT chips. Results show that with identical power, heating is 50 % lower for Amphenol Thermal Clamps inserted in a water cooled rack.

With thermal clamp

Without thermal clamp

Test Results

0.5 l/mm 12.8 W 24.2 ° C 24.2 ° C 18.6 ° C 23.8 ° C 14.5 ° C

- 12.8 W 20.4 ° C - 42 °C 45.4 ° C 37.6 ° C

water flow total dissipated power room temperature water temperature

average heating maximum heating minimum heating

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Amphenol ®

Performance data is for information use only. Manufacturing variability, test conditions, and environmental conditions may affect results.

Test reports Comprehensive test data has been accumulated during the development of the SIHD-GT thermal clamps to support the performance claims. Thermal and retention performance characteristics are fully documented. The following Amphenol laboratory test procedures, reports and results are available upon request : 1 - thermal performance testing 2 - shock testing 3 - vibration testing 4 - life cycling Engineers who specify the SIHD-GT thermal clamps can have complete confidence in the performance characteristics described. Amphenol ®

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Quarter turn mechanism

Locking and unlocking directions must be carefully followed - no torque wrench required.

The locking and unlocking direction is different for a left and a right SIHD-GT thermal clamp as shown : - Locking of a left thermal clamp : counter clockwise - Locking of a right thermal clamp : clockwise With the help of the color band (at the ultimate extremity of the axis), the user can identify if the boards are locked or not in to place.

¼ Turn

Locking / Unlocking Tools Wrench for axis termination with two flats :

SIHDGTCLE SIHDGTCRE

Allen wrench (2 mm - 5/64 ) :

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Amphenol ®

SIHD Thermal Clamp range

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Amphenol ®

Outline dimension

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Amphenol ®

Dimensions

Length of thermal clamps

a (mm)

60

80

89

100

120

140

160

169

180

200

220

240

a (in)

2.36 3.15 3.50 3.94 4.72 5.51 6.30 6.65 7.09 7.87 8.66 9.45

b (mm)

28

48

28

48

28

48

28

48

28

b (in)

1.10

1.89 1.10 1.89 1.10

1.89 1.10 1.89 1.10

F (mm)

6.2

6.2

6.2

6.2

6.2

6.2

6.2

7

7

7

7

7

F (in)

0.244 0.244 0.244 0.244 0.244 0.244 0.244 0.276 0.276 0.276 0.276 0.276

m (mm)

4

4

4

4

4

4

4

4

6.5

6.5

6.5

6.5

m (in)

0.157 0.157 0.157 0.157 0.157 0.157 0.157 0.157 0.256 0.256 0.256 0.256

n (mm)

1

1

1

2

2

3

3

4

4

5

n (in)

0.039 0.039

0.039 0.079 0.079 0.118

0.118 0.157 0.157 0.197

PCB thickness

1.6

1.2

0.8

0.063

0.047

0.031

c (mm)

8

7.6

7.2

c (in)

0.315

0.299

0.283

d (mm)

4

3.6

3.2

d (in)

0.157

0.142

0.126

e (mm)

7.95

7.55

7.15

e (in)

0.313

0.297

0.281

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Amphenol ®

Rack machining : “A” type (please consult Amphenol for other types)

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Amphenol ®

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Part Number Code

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D A 80

A 01

Thermal Clamp Series :

SIHD G

Side of equipment : Left : G Right : D Version : A : screw fixing C : front (latch fixing) and rear (screw fixing) - Cam w ith flat surface E : Allen cam (AMX-APX) ground forces, standard 80 mm long Length : In mm, every 20 mm - 0.79 in incremental min. 80 mm ( 3.15 in ) to a max. 240 mm ( 9.45 in ) for version A, C and F

min. 89 mm ( 3.50 in ) for version T min. 169 mm ( 6.65 in ) for version R Thickness of PCB drain : A : 1.6 mm ( 0.063 in ) preferred B : 1.2 mm ( 0.047 in ) C : 0.8 mm ( 0.031 in ) except R version Finish : 01 : conductive chemical Ni plating 02 : black anodised Deviation : Blank for normal FXXX (to customer specifications)

† Additional and specific designs available : please consult Amphenol.

Technical Assistance Our engineering team has extensive experience in the packaging of thermal clamps. Modification of standard thermal clamps for special application is possible. If more information is needed concerning the products in this publication, or if you have any special application needs, please contact your nearest Amphenol Sales Office or Amphenol Corporation at the following address: AMPHENOL CORPORATION Amphenol Socapex 948 Promenade de l'Arve BP 29 74311 THYEZ - FRANCE Telephone : + 33 450 892 800 Fax : + 33 450 962 975 www.amphenol- socapex .com

We welcome the opportunity of providing you with the assistance needed to solve your thermal management problems.

AMPHENOL SOCAPEX 948, Promenade de l'Arve BP 29 74311 THYEZ CEDEX FRANCE

Amphenol ®

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© 2002Copyright. Printed in France Amphenol Socapex -Ref. SIHD-GT2002-04DS(draft)

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