0622029950_技术文档

VHDM and VHDM-HSD*

*VHDM and VHDM HSD are Trademark of Teradyne, Inc

VHDM^®AND VHDM-HSD™

INSTALLATION and REPAIR TOOLING

Operation Manual

Order No. 62201-0999

ꢀ Description

ꢀ Operation

ꢀ Maintenance

Doc. No: TM-622010999

Revision: H

Release Date: 08-10-99

Revision Date: 03-15-10

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VHDM and VHDM-HSD*

*VHDM and VHDM HSD are Trademark of Teradyne, Inc

WARNING

NEVER OPERATE, SERVICE, INSTALL, OR ADJUST THIS TOOL WITHOUT

PROPER INSTRUCTION AND WITHOUT FIRST READING AND

UNDERSTANDING THE INSTRUCTIONS IN THIS MANUAL.

WORK SAFELY AT ALL TIMES

For Service, Contact Your

Local Molex Sales Office

Molex Application Tooling Group

2200 Wellington Court

Lisle, Illinois 60532

Tel: 630-969-4550

Fax: 630-505-0049

Visit our Web site at http://www.molex.com

Doc. No: TM-622010999

Revision: H

Release Date: 08-10-99

Revision Date: 03-15-10

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VHDM and VHDM-HSD*

*VHDM and VHDM HSD are Trademark of Teradyne, Inc

Table of Contents

SECTION

1

2

3

4

5

General Description and Available Presses

Installation and Operation

Maintenance, Spare Parts, Perishable Parts and Problem Checklist

Available tooling

Glossary of Terms

APPENDIX

Parts Lists and Drawings for Standard Tools

Instruction Sheets for Repair Tools

Parts Lists and Drawings for Customer Specials

Product Specifications

A

B

C

D

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Release Date: 08-10-99

Revision Date: 03-15-10

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VHDM and VHDM-HSD*

*VHDM and VHDM HSD are Trademark of Teradyne, Inc

Section 1

General Description and Available Presses

1.1

1.2

1.3

1.4

1.5

1.6

Description

Features

Technical Specifications

Delivery Check

Tools

Press Requirements

Doc. No: TM-622010999

Revision: H

Release Date: 08-10-99

Revision Date: 03-15-10

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VHDM and VHDM-HSD*

*VHDM and VHDM HSD are Trademark of Teradyne, Inc

General description

1.1 Description

Rate

90 connectors pressed in (one at a time) per hour

depending on operator skill.

This manual covers the tooling available to press Molex

VHDM and HSD Back plane Power Modules, Back

plane Connectors, and Daughter Card Modules into

printed circuit boards. Repair tools and custom tools are

also covered. The tooling is designed to go into a flat

platen press. Operation is simple: Position a printed

circuit board on the customer supplied support. Then

manually insert a connector(s) into the pc board.

Position the loading head into the connector. Actuate

the press to press the connector pins into the board.

1.4 Delivery Check

Carefully remove the tooling from its shipping container

and check to be sure what was received matches the

purchase order and no damage has occurred.

1.5 Tools

A metric hex wrench set will be required to assemble or

disassemble tooling mounted in rails.

1.2 Features

The press-in tooling is designed so that one module will

press in one connector, or several modules can be

mounted in a tool holder and be used to press in any

combination of connectors in one operation. See

Section 1.8 (Ordering Instructions) for details.

Figure 1-3

62202-6400 15-Ton Press

Molex Presses

Molex offers two (2) presses that are suitable for this

application. (See also Figure 1-1 and 1-2. They are:

62201-3800

62200-6400

8-ton Pneumatic Flat Platen Press

15-ton Electric Flat Platen Press

Figure 1-1

62201-3800 8-TON PRESS

1.3 Technical Specifications

Dimensions and Weight

The dimensions and weight depend on the tooling used

and the size of the pc board support. The dimensions

and weights of the various tooling components are given

in the assembly drawings in Appendixes A, B, and C.

Doc. No: TM-622010999

Revision: H

Release Date: 08-10-99

Revision Date: 03-15-10

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VHDM and VHDM-HSD*

*VHDM and VHDM HSD are Trademark of Teradyne, Inc

1.6 Press Requirements

This tooling is designed to fit in a flat platen (or flat rock)

press, capable of 66N (15 lbs) of force per pin.

A

Letter Description Dimension (min)

See Figure1-3.

A Upper Platen

51mm by 102mm by 25.4mm

(2” by 4” by 1”)

B

B Opening

C Throat

89mm (3.5”)

50mm (6”)

C

Figure 1-3

PRESS THROAT DIMENSIONS

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VHDM AND VHDM-HSD

*VHDM and VHDM HSD are Trademark of Teradyne Inc.

Section 2

Installation and Operation

Backup for printed circuit boards

2.1

2.2

2.3

2.4

Press stroke adjustment

Installation

Operation

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Revision: F

Release Date: 08-10-99

Revision Date: 05-01-08

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VHDM and VHDM-HSD*

*VHDM and VHDM HSD are Trademark of Teradyne, Inc

10. Press the connector into the p.c. board and observe

for any deflection of the board when the ram is at

the bottom of its stroke.

2.1 Printed Circuit Board Support

The HSD / VHDM tooling requires up to 15 lb per pin of

force to press the connectors into the printed circuit

boards. Therefore, a backup or support is required to

prevent damage to the printed circuit boards. The

support fixture should have clearance for the connector

terminals when they protrude through the underside of

the printed circuit board. It is also recommended that

the support fixture have locating pins. Due to the

custom nature of each application, Molex does not

supply support and locating fixtures, the customer

normally supplies them.

2.2 Press Stroke Adjustment

Most presses have some means of adjusting the stroke;

please refer to the appropriate manual (for the press

being used) for press stroke adjustments. The stroke

should be adjusted so that when the press ram stops in

the down position, the bottom of the connector is flush to

.155mm (.006 in.) above the surface of the printed circuit

board.

See Figure 2-1.

The following is one simple way of making a printed

circuit board support and locating fixture:

.155mm

(.006”)

Maximum

1. Locate a suitable piece of material for the backup. It

should be approximately 3/4 inch thick and same

size or a little larger than the printed circuit board to

be used. While aluminum could be used, a rigid

nonconductive material such as a phenolic is

preferred. (A stack of scrap p.c. boards of suitable

size could be fastened together and used.)

2. Obtain a scrap p.c. board like the ones to be

assembled. Attach this board to the material from

step 1.

3. Using an oversize drill bit, drill through each hole

where a pin from the connector will go. Drill deep

enough into the lower material to be certain the pins

do not bottom out when inserted (at least 5mm

[0.20in] deep).

Figure 2-1

MAXIMUM CLEARANCE WHEN

CONNECTOR FULLY SEATED

2.3 Installation

The only installation required is when you need to install

insertion modules into a tooling holder. To do this, use

the following procedure:

4. Locate two (2) holes on the p.c. board to use as

locating points. Drill for and mount suitably sized

dowel pins in these two locations on the support

fixture.

KEYWAY

5. Clear out the support for any components mounted

on the underside of the printed circuit board.

M3 SET SCREW

Figure 2-2

TOOLING HOLDER

6

Place a p.c. board on top of the support, located by

the two pins, and check that the holes for the

connector pins are aligned.

1. Along the lower edge of the tooling holder is a row of

M3 set screws, back these out so that they do not

protrude into the inside of the holder. See Figure 2-

2.

2. Slide the insertion modules into the tooling holder in

the proper order. See Figure 2-3. The modules are

keyed so that they cannot be put in backwards.

7. Pre-insert a connector in the p.c. board in the

correct position.

8. Insert the press-in tool of proper size into the

connector.

9. Place the support with p.c. board under the press

ram.

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Revision: H

Release Date: 08-10-99

Revision Date: 03-15-10

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VHDM and VHDM-HSD*

*VHDM and VHDM HSD are Trademark of Teradyne, Inc

LOCATING

PC BOARD

HOLDER

LOCATING PIN

TYPICAL

INSERTION MODULES

Figure 2-3

MOUNTING INSERT MODULE

CONNECTOR

ASSEMBLY

IN A MOUNTING BLOCK

SUPPORT PALLET

Figure 2-6

CONNECTOR ASSEMBLY

ON PC BOARD SUPPORT PALLET

3. Now tighten the M3 set screws against the modules

with one (1) screw against each power module

inserter and each alignment block; and two (2)

screws evenly spaced on a 6 by 10 header insertion

module; and at least three (3) screws evenly spaced

on a 6 by 25 header insertion module. Figure 2-4

shows a typical completed assembly.

2. Locate the pre-loaded board into the support pallet.

See Figure 2-6.

3. Locate the tooling assembly in the connector

assembly, carefully checking alignment. See

Figure 2-7.

4. Position the pre loaded support pallet under the

press platen.

CAUTION: Do not over tighten the setscrews as

you could damage the insertion tool.

Figure 2-4

TYPICAL INSERTION TOOL ASSEMBLY

NOTE: See Section 4 for details on selecting

modules and mounting blocks.

2.4 Operation

PRES-IN TOOLING

PC BOARD

Header insertion Tooling

SUPPORT

PALLET

Figure 2-7

TYPICAL HEADER ASSEMBLY

ON THE PC BOARD

Figure 2-5

ALIGNING TERMINAL

PINS TO HOLES

5. Cycle the press. See Section 2.1 for press stroke

adjustment.

6. Remove the loaded support pallet.

7. Carefully remove the insertion tool assembly.

8. Remove the printed circuit board.

1. Carefully locate the connector(s) on the printed

circuit board and start in by hand. Make sure pin 1

is in the correct position on all connectors. See

Figure 2-5.

Doc. No: TM-622010999

Revision: H

Release Date: 08-10-99

Revision Date: 03-15-10

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VHDM and VHDM-HSD*

*VHDM and VHDM HSD are Trademark of Teradyne, Inc

Daughter Card Tooling

STIFFENER RAIL

Operation for inserting Daughter Card assemblies is

different because Daughter Card connectors are

available only in complete assemblies held together with

a stiffener rail; so therefore, insertion tooling is only

determined by the total assembly length. The insertion

module is 100mm long and can be used alone or

stacked in a tool holder for larger connector assemblies.

SIGNAL

MODULE (11)

ALIGNMENT

BLOCK

POWER MODULE

PC BOARD

Figure 2-8

TYPICAL DAUGHTERCARD ASSEMBLY

ON THE PC BOARD

1. Locate the Daughter Card connector assembly on

the printed circuit board.

2. Start the assembly into the board by hand. See

Figure 2-8.

3. Locate the printed circuit board with the connector

assembly on the customer supplied support pallet.

4. Position the insertion tooling on the connector

assembly. See Figure 2-9.

PRES-IN-TOOLING

PC BOARD

5. Position the p.c. board and support fixture under

the press platen.

6. Cycle the press.

7. Remove the loaded support pallet from the press.

8. Remove the insertion tool.

LOCATING PIN

9. Carefully remove the assembled printed circuit

board from the support pallet.

LOCATING PIN

CONNECTOR

ASSEMBLY

SUPPORT PALLET

Figure 2-9

PB BOARD, CONNECTOR, AND TOOLING ON

SUPPORT PALLET READY FOR PRESS

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Revision Date: 03-15-10

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VHDM and VHDM-HSD

Appendix B

Section 3

MAINTENANCE

3.1

3.2

3.3

3.4

3.5

Cleaning

Spare Parts

Perishable Parts

Preventive Maintenance

Troubleshooting

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Revision: F

Release Date: 08-10-99

Revision Date: 05-01-08

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VHDM and VHDM-HSD*

*VHDM and VHDM HSD are Trademark of Teradyne, Inc

3.1 Cleaning

Once a day, the support fixture should be cleaned of dust and plating particles and other debris. Compressed air

may be necessary to remove debris from the pin clearance holes.

CAUTION: Use extreme caution when using compressed air for cleaning as it can cause debris to get

lodged in the tooling, and fly out at the operator. USE of proper safety glasses by the operator and onlookers

is required.

Lubrication

There is no lubrication required on any of the HSD / VHDM tooling. However, the presses each have their own

requirements for lubrication and maintenance. The instruction manual for the specific press being used should be

referred to. Molex provides a sheet for logging routine preventive maintenance in this section.

3.2 Spare parts

Spare parts are parts that are available to support the HSD / VHDM Tooling in service. They are moving or otherwise

functioning parts that could be damaged or malfunction. Molex Application Tooling Group recommends that the

customer keep some or all of these parts on hand to reduce down time. These parts are identified in the Parts Lists in

Appendices A, B, and C.

3.3 Perishable Parts

Perishable parts make contact with the product and can wear over time. The customer is responsible for maintaining

these parts and Molex recommends that they keep at least one spare set on hand at all times. These parts are

identified in the Parts Lists in Appendices A, B, and C.

3.4 Preventive Maintenance

DAILY: Clean, See Section 3.1.1

MONTHLY: Lubricate, See Section 3.1.2

CHECK SHEET MONTH__________YEAR_______

Days of the Week

MON TUE WED THU FRI SAT SUN

Week Daily Use

Solution

1

2

3

4

Cleaning

Daily

Lubricate

Monthly

Chart may be copied for mounting.

Schedules should be adjusted up or down depending on usage. Molex Application Tooling Group recommends

that a log of preventive maintenance be kept with the machine.

Doc. No: TM-622010999

Revision: H

Release Date: 08-10-99

Revision Date: 03-15-10

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VHDM and VHDM-HSD*

*VHDM and VHDM HSD are Trademark of Teradyne, Inc

3.5 Troubleshooting

Symptom

ꢀ Cause

Solution

Refer to the appropriate press manual

and adjust the stroke. See Section 2.2.

Check fixture and repair as required.

Check alignment of fixture in press.

Check to be sure the press platen is

pressing squarely on the tooling block.

ꢀ

Press stroke set too low.

Connector

Being Damaged

ꢀ

Something not properly aligned.

"Blades" on tooling bent or damaged. Replace tool.

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VHDM and VHDM-HSD*

*VHDM and VHDM HSD are Trademark of Teradyne, Inc

Section 4

Available Tools

4.1 Standard Press-In-Tools

Table 4-1

Table 4-2

Table 4-3

Assembly Tooling for VHDM Signal Headers

Assembly Tooling for HSD and VHDM Daughter Card Receptacles

Standard Tool Holder for Back Plane Header Assembly

Table 4-4

Table 4-5

Assembly Tooling for 8 Row VHDM Signal Headers

Old Style Tool Holders for Back Plane Header Assembly

Table 4-6

Field Repair Tooling for HSD and VHDM Headers

Table 4-7 Available Repair Tools

4.2 Standard Tool Ordering Procedure

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VHDM and VHDM-HSD*

*VHDM and VHDM HSD are Trademark of Teradyne, Inc

4.1 Standard Press-In-Tools

Standard Insertion Tools

All the applicable VHDM and VHDM-HSD connectors and the standard tooling required for each connector are

located in these tables.

Table 4-1

Assembly Tooling for VHDM Signal Headers (For use in standard tool holders)

Refer to the individual instruction sheets for more information on Individual tools

Product Number

Tool Description Tool Size (Long)

Illustration

VHDM Advanced Mate Signal Header

(6 row by 10 wide)

(74057, 74058, and 74059 Series)

Insertion Module

62202-0203

(20mm)

(.787”)

VHDM Advanced Mate Signal Header

(6 row by 25 wide)

(74057, 74058, and 74059 Series)

Insertion Module

62202-0204

(50mm)

(1.97”)

VHDM Advanced Mate Signal Header

(8 row by 10 wide)

(74060, 74061, and 74062 Series)

Insertion Module

62202-0205

(20mm)

(.787”)

VHDM Advanced Mate Signal Header

(8 row by 25 wide)

(74060, 74061, and 74062 Series)

Insertion Module

62202-0206

(50mm)

(1.97”)

VHDM Advanced Mate Signal Header

(6 row by 10 wide)

(74057, 74058, 74059, and 74074 Series)

(76761, 76762, and 76763 Series)

Insertion Module

62202-0207

(20mm)

(.787”)

VHDM Standard Shield Signal Header

(6 row by11 wide)

(74057, 74058, and 74059 Series)

Insertion Module

62201-1101

(20mm)

(.787”)

VHDM Standard Shield Signal Header

(6 row by13 wide)

Insertion Module

62201-0905

(26mm)

(1.02”)

74057, 74058, and 74059 Series)

VHDM Standard Shield Signal Header

(6 row by 14 wide)

(74057, 74058, and 74059 Series)

Insertion Module

62201-0904

(28mm)

(1.10”)

VHDM Standard Shield Signal Header

(6 row by 25 wide)

(74057, 74058, 74059, and 74074 Series)

(76761, 76762, and 76763)

Insertion Module

62202-0208

(50mm)

(1.97”)

VHDM Standard Shield Signal Header

(8 row by 10 wide)

(74060, 74061, 74062, and 74075 Series)

(76134, 76135, and 76136 Series)

Insertion Module

62202-0209

(20mm)

(.787”)

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VHDM and VHDM-HSD*

Product Number

*VHDM and VHDM HSD are Trademark of Teradyne, Inc

Tool Description Tool Size (Long)

Illustration

VHDM Standard Shield Signal Header

(8 row by 25 wide)

(74060, 74061, 74062, and 74075 Series)

(76134, 76135, and 76136 Series)

8 by 25

Insertion Module

(50mm)

62202-0210

(1.97”)

VHDM Power module

74029-6000 (6 row)

74029-8000 (8 row)

Insertion Module

62202-0211

5.4mm

(.212”)

VHDM and VHDM-HSD

Signal Headers

all sizes with guide pins

VHDM-HSD Signal Header

(5 row by 10 wide)

Alignment Block

62202-0212

7.0mm

(.276”)

Insertion Module

62202-0201

(20mm)

(.787”)

(74695, 74696, 74697,74701

and 74702 Series)

VHDM-HSD Signal Header

(5 row by 25 wide)

(74695, 74696, 74697and 74702 Series)

Insertion Module

62202-0202

(50mm)

(1.97”)

VHDM-HSD Signal Header

(6 row 10 wide)

(74979, 74980, and 74981 Series)

Insertion Module

62202-0216

(20mm)

(.787”)

VHDM-HSD Signal Header

(6 row by 25 wide)

(74679, 74680, and 74681Series)

Insertion Module

62202-0217

(50mm)

(1.97”)

VHDM-HSD Signal Header

(8 row 10 wide)

(74649, 74650, and 74651 Series)

8 by 10

(20mm)

(.787”)

Insertion Module

62202-0205

VHDM-HSD Signal Header

(8 row by 25 wide)

(74649, 74650, and 74651 Series)

8 by 25

(50mm)

(1.97”)

Insertion Module

62202-0206

Table 4-2

Assembly Tooling for HSD and VHDM (Daughter Card Receptacles)

Product Number

Tool Description Tool Size (Long) Illustration

VHDM-HSD 5-row Assembly (74670 Series)

VHDM 6-row Assembly (74030 Series)

VHDM-H 6-row Assembly (76760 Series)

Insertion Module

62202-0213

100mm

(3.94”)

VHDM 6-row Assembly

(Right Angle Male)

(74600 Series)

Insertion Module

62202-0215

100mm

(3.94”)

VHDM 8 row Assembly (74040, 74680, 74686, and 76021 Series)

GbX 4-Pair (75220, 75420, 75426, 75878 Series)

HSD 8-row Assembly (74680 Series)

Insertion Module

62202-0214

100mm

(3.94”)

Hybrid 8-row Assembly (74686 Series)

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Release Date: 08-10-99

Revision Date: 03-15-10

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VHDM and VHDM-HSD*

*VHDM and VHDM HSD are Trademark of Teradyne, Inc

Table 4-3

Standard Tool Holder for Back Plane Header Assembly

Module Number

Tool Description

Tool Holder for Backplane Assembly.

Tooling 62201-9501

Tool Holder for Backplane Assembly.

Tooling 62201-9502

Tool Length

24mm

Illustration

(0.94”)

72mm

(2.83”)

VHDM and HSD

Insertion modules:

Tool Holder for Backplane Assembly.

Tooling 62201-9503

Tool holder for Backplane Assembly.

Tooling 62201-9504

156mm

(6.14”)

216mm

(8.50”)

62202-0201 to 62201-0214

and

Old style VHDM 6 row

Insertion modules:

Tool holder for Backplane Assembly.

Tooling 62201-9509

254mm

(10.00”)

Tool Holder for Backplane Assembly. 304.8mm

Tooling 62201-9511 (12.00”)

Tool holder for Backplane Assembly. 406.4mm

Tooling 62201-9512 (16.00”)

62201-0901, 62201-1001,

62201-1101, and 62201-1601

Table 4-4

Assembly Tooling for 8 Row VHDM Signal Headers (For use in standard tool holders)

Product Number

Tool Description

Tool Length

Illustration

Old style

VHDM Std. Shield Signal Header

(8 row by 10 wide)

(74060, 74061, and 74062 Series)

8 by 10

(20mm)

Insertion Module

OBSOLETE

62201-1301

Old style Insertion Module

VHDM Std. Shield Signal Header

(8 row by 25 wide)

(74060, 74061, and 74062 Series)

8 by 25

(50mm)

62201-1201

OBSOLETE

Old style Insertion Module

VHDM 8 row

Power module

74029-8000

62201-1401

5.4mm

7mm

OBSOLETE

Alignment Block for old style

⁸O^rowB^hoS^ldeO^{r 6}L²²E⁰¹T^-13E⁰²

VHDM 8 row

Std. Shield

Signal headers with guide pins

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Release Date: 08-10-99

Revision Date: 03-15-10

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VHDM and VHDM-HSD*

*VHDM and VHDM HSD are Trademark of Teradyne, Inc

Table 4-5

Old Style Tool Holders for Back Plane Header Assembly

Module Number

Tool Description

Tool Length

Illustration

8 Row Tool Holder for Backplane

Old style VHDM 8 row Insertion

modules: 62201-1201,

62201-1301, and 62201-1401

65mm

(2.56”)

Assembly. Tooling 62201-1200

OBSOLETE

8 Row

36mm

(1.42”)

Tool Holder for Backplane

Assembly. Tooling 62201-1300

NOTE:

8 row

Use with 8 row alignment block

62201-1302 when signal headers

with guide pins are used

115mm

(4.53”)

Tool Holder for Backplane

Assembly. Tooling 62201-1800

Table 4-6

Field Repair Tooling for VHDM and HSD Headers

This table lists the special tools designed for use in repairing damaged VHDM and HSD connectors that are mounted on

a printed circuit board.

Product Number

Tool Description

Illustration

VHDM Power Module Insulator

6-row by 2 circuit

6 row Power Insulation Inserter

Repair Tool 62100-3500

(74029 Series)

VHDM Power Module Insulator

8 row by 3 circuit

8 row Power Insulation Inserter

Repair Tool 62100-3600

(74029 Series)

VHDM and HSD

Signal pins (All sizes)

Single Pin Inserter Repair Tool

62201-5700

VHDM Headers: 6-row

(74057, 74058, and 74059 Series)

VHDM-H 6-row

6-row Pin and Shield

Repair Tool

62201-5800

(76761, 76762, and 76763 Series)

HSD Headers: 5 row

(74695, 74696,

and 74697 Series)

5 row Pin and Shield

Repair Tool

62201-5810

VHDM Headers: 8 row

(74060, 74061, and 74062 Series)

HSD Headers: 8 row

(74649, 74650, and 74651 Series)

VHDM-H (76134, 76135, and 76136)

8 row Pin and Shield

Repair Tool

62201-5900

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Release Date: 08-10-99

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VHDM and VHDM-HSD*

Product Number

*VHDM and VHDM HSD are Trademark of Teradyne, Inc

Tool Description

Illustration

VHDM Headers: 6 row

(74057, 74058, and 74059 Series)

VHDM-H 6-row

6 row Shield

Extraction Tool

62201-6000

(76761, 76762, and 76763 Series)

HSD Headers: 5 row

(74695, 74696,

and 74697 Series)

5 row Shield

Extraction Tool

62201-6010

VHDM Headers: 8 row

(74060, 74061, and 74062 Series)

HSD Headers: 8 row

(74649, 74650, and 74651 Series)

VHDM-H (76134, 76135, and 76136)

Daughter Card Receptacle

8 row Shield

Extraction Tool

62201-6100

6 and 8 row

Stiffener Removal tool

62201-6200

VHDM 6-row Assembly (74030 and 76760 Series)

VHDM 8-row Assembly (74040 and 76021 Series)

HSD 8-row Assembly (74680 Series)

Daughter Card Assembly

HSD 5 row Assembly

(74670 Series)

5 row

Stiffener Removal tool

62201-6215

Daughter Card Assembly

VHDM and HSD

(74030, 74040, 74670,

and 74680 Series)

Press Block

Removal tool

62201-6250

Ram Assembly

(74600 and 75286 Series)

Stiffener Removal tool

62202-1000

VHDM Right Angle Male

8 Row Ram

(75165 and 75346 series)

Stiffener Removal Tool

62202-1700

VHDM

Right Angle Male Header

(74600 Series)

Single Wafer Removal Tool

62202-1050

VHDM Right Angle Male Header

(74600 Series)

Single Wafer Insertion Tool

62202-1060

VHDM 8 Row Stacker Assembly

(75118 Series)

Single Wafer Removal Tool

62202-1450

VHDM Right Angle Male Header

(74030, 74040, 74670,

and 74680 Series)

Single Wafer Removal Tool

62100-4300

VHDM and HSD

(74039 Series)

Joiner / Ground Insertion Tool

62100-3800

Doc. No: TM-622010999

Revision: H

Release Date: 08-10-99

Revision Date: 03-15-10

UNCONTROLLED COPY

Page 19 of 23

VHDM and VHDM-HSD*

Product Number

*VHDM and VHDM HSD are Trademark of Teradyne, Inc

Tool Description

Illustration

Latch Insertion Tools

62100-3915, 62100-3925

and 62100-3935

VHDM and HSD

(73892 Series)

4.2 Standard Tool Ordering Procedure

Stacking Tooling

All the insertion tooling listed in Table 4-1 and 4-2 can be stacked

in any combination to be able to simultaneously press in any

arrangement of stacked connectors. Tooling holders are available

in various lengths. Figure 4-1 shows a typical setup for a 6 by 25

signal module, a 6 by10 signal module, and four (4) 6-row power

modules.

Figure 4-1

TYPICAL TOOLING COMBINATION

Ordering Tooling for Connectors

In order to insert a typical row of connectors, it is necessary to select the individual insertion tools and then pick the

appropriate tooling holder, (See also examples 1 and 2).

Basic Procedure

1

2

Determine the combination of signal modules and power modules to be inserted.

Select the proper insertion modules from Table 4-1and Table 4-2. Remember to include the appropriate

alignment block(s).

3

Table 4-1 and Table 4-2 shows the tool sizes. (Long) Write down the length of each tool selected.

NOTE: Make sure that if you require four of a particular tool, write down its length 4 times.

Total up these lengths.

Using the length just calculated, select the next largest tooling holder from Table 4-3. The tooling holder can

be shorter than the total tooling but not by more than 0.5 mm per side.

4

5

6

All of the tools selected above must be ordered separately.

62201-9502

Example 1

To be inserted: (1) 74059-2501 (6 by 25) Backplane Signal Module

and (1) 74029-XXXX Power Module.

1.Look at Table 4-1 and find the required tools. In this case it would

be a 62202-0208 and a 62202-0211.

2.From Table 4-1 get the lengths of these tools (numbers may be

rounded up); 62202-0208 =50.0mm and 62202-0211 = 5.4mm.

3.Add these two values for a total of 55.4mm.

4.From the Tooling Holder list in Table 4-3, pick the 72mm long

holder, 62201-9502.

62202-0208

62202-0211

Figure 4-2

Example 1 TOOL ASSEMBLY

5.Thus the order to Molex should include the following:

Doc. No: TM-622010999

Revision: H

Release Date: 08-10-99

Revision Date: 03-15-10

UNCONTROLLED COPY

Page 20 of 23

VHDM and VHDM-HSD*

*VHDM and VHDM HSD are Trademark of Teradyne, Inc

Quantity Order No.

Description

1

62202-0208

62202-0211

62201-9502

6 by 25 Header Insertion Module

Power Connector Insertion Module

72mm Long Tooling Holder

(Figure 4-2 shows the assembled unit.)

Example 2

The following combination is to be inserted:

(1) 74058-2501

(1) 74059-1001

(4) 74029-6000

6 by 25 Signal Module with locating pins on the left;

6 by 10 Signal Module with locating pins on the right;

6 row power modules.

1. From the tooling list in Table 4-1 pick a 62202-0208 for the first module.

2. A 62202-0207 will be needed for the second module.

3. Pick one (1) 62202-0212, to act as a spacer to accommodate the locating pin on the 62202-0207.

4. Now pick four (4) 62202-0211-power module tools.

5. Get the length information from Table 4-1 (some rounded up a little).

6. Total up the lengths;

62201-9503

62202-0208

62202-0207

62202-0212

62202-0211

50.0mm

20.0mm

7.0mm

5.4mm

62202-0212

5.4mm

Total = 98.6mm

62202-0208

62202-0207

Figure 4-3

62202-0211 (4)

1. Using this total length, pick the 62201-9503 Tooling

Holder (Table 4-3) as this is 156mm long.

Example 2 TOOL ASSEMBLY

2. Therefore the purchase order should contain the following:

Quantity Order No.

Description

Alignment Block

6 by 25 Header Insertion Module

6 by 10 Header Insertion Module

Power Module Inserter

1

4

1

62202-0212

62202-0208

62202-0207

62202-0211

62201-9503

6 Row, 156mm Long Tooling Holder

(Figure 4-3 shows the assembled insertion tooling.)

Ordering Daughter Card Tooling

Daughter Card connectors only come in custom assemblies that are loaded in a stiffener rail. The daughter card

insertion modules are 100 mm long. Therefore, insertion tools can be used individually for connector assemblies

that are shorter than 100mm. or stacked in a tool holder for connector assemblies that are longer.

Doc. No: TM-622010999

Revision: H

Release Date: 08-10-99

Revision Date: 03-15-10

UNCONTROLLED COPY

Page 21 of 23

VHDM and VHDM-HSD*

*VHDM and VHDM HSD are Trademark of Teradyne, Inc

Basic Procedure

1. Determine the combination of signal wafers, power modules, and guidance modules to be inserted.

2. Determine the total length of the stack of components.

3. Using that length, select the daughter card insertion tools required to cover the whole connector assembly. If more

than one 100mm module is use d, a tool holder of appropriate length will be needed. This can be selected from

Table 4-1.

Example 3

Sixty (60) 74041-0001 8-row daughter card signal wafers, two (2) 74026-8321 8-row power modules and two (2)

74037-0001 8-row guidance modules are to be stacked on a stiffener and inserted.

1. From Table 4-6, it is determined that the signal wafers are 2 mm long, the power modules are 6 mm long and

the guidance modules are 8 mm long.

2. Add these up to get the total length:

74041-0001 2mm by 60 = 120mm

74026-8321

74037-0018

6mm

8mm

148mm

Total

3. Using length 148mm, select the following tooling from Table 4-1:

Quantity Order No.

Description

2

1

62202-0214

62201-9504

100mm long 8-row daughter card tool alignment block

216mm long tool holder

Doc. No: TM-622010999

Revision: H

Release Date: 08-10-99

Revision Date: 03-15-10

UNCONTROLLED COPY

Page 22 of 23

VHDM and VHDM-HSD*

*VHDM and VHDM HSD are Trademark of Teradyne, Inc

Section 5

Glossary of Terms

A simple fixture used to locate and support a printed circuit while a

compliant pin connector is being pressed into the pc board. Considerable

force is required to press one of these connectors into a pc board, thus

the pc board must be adequately supported to avoid being damaged.

It must have adequate clearance for the terminals when they protrude

through the pc board.

Backup Pallet

A connector which has terminals that are designed to give slightly when

pressed into a hole in a pc board so that the terminal (pin) makes solid

electrical contact with the printed circuit board, alleviating the need

for soldering.

Compliant Pin

Connector

A press in which the upper tooling or die set is not attached to the press ram.

The ram has a simple flat plate (or platen) attached to it. For this application,

the upper tooling is positioned in the connector(s). The press ram comes

down on top this tooling and presses on it. When the press ram goes back

up, the upper tooling stays with the connector.

Flat Platen Press

HSD

High speed differential

Very High Density Metric connector system: A 2mm pitch module-to

backplane connector system designed for applications requiring high

interconnect density and high-speed signal integrity.

VHDM

PC Board

Abbreviation for printed circuit board

Support Pallet

Same as backup pallet

The tooling that goes on top of the connector. It contains the mounting

block and dies (or tools) necessary to properly apply pressure where

required to push the connector terminals and locking posts into the holes

in the printed circuit board.

Upper Tooling

Americas Headquarters

Lisle, Illinois 60532 U.S.A. Yamato, Kanagawa, Japan

1-800-78MOLEX

amerinfo@molex.com

Far East North Headquarters Far East South Headquarters European Headquarters Corporate Headquarters

Jurong, Singapore

65-6-268-6868

Munich, Germany

49-89-413092-0

eurinfo@molex.com

2222 Wellington Ct.

Lisle, IL 60532 U.S.A.

630-969-4550

81-462-65-2324

feninfo@molex.com

fesinfo@molex.com

Fax: 630-969-1352

Visit our Web site at http://www.molex.com

Doc. No: TM-622010999

Revision: H

Release Date: 08-10-99

Revision Date: 03-15-10

UNCONTROLLED COPY

Page 23 of 23


型号：	0622029950
厂家：	Molex
描述：	Stacked Multi-Port Extraction Tool, 2 by 6
文件：	总23页 (文件大小：1277K)
中文：	中文翻译
下载：	下载PDF数据表文档文件

0622029950 [MOLEX]

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