Tektronix TMSSC2 Instruction Manual

Instruction Manual

TMSSC2
604-Pin Socket Hardware Support

071-1345-00

www.tektronix.com

Copyright © Tektronix, Inc. All rights reserved.

Tektronix products are covered by U.S. and foreign patents, issued and pending. Information in this public ation supercedes
that in all previously published material. Specifications and price c hange privileges reserved.

Tektronix, Inc., P.O. Box 500, Beavert on, OR 97077

TEKTRONIX and TEK are registered trademarks of Tektronix, Inc.

HARDWARE WARRANTY

Tektronix warrants that the products that it manufactures and sells will be free from defects in materials and
workmanship for a period of one (1) year from the date of shipment. If a product proves defective during this
warranty period, Tektronix, at its option, ei ther will repair the defective product without charge for parts and labor,
or will provide a replacement in exchange for the defective product.

In order to obtain service under this warranty, Customer must notify Tektronix of the defect before the expiration
of the warranty peri od and make suitable arrangements for the performance of service. Customer shall be
responsible for packaging and shipping the defective product to the service cente r designated by Tektronix, with
shipping charges prepaid. Tektronix shall pay for the return of the product to Customer if the shipment is to a
location within the country in which the Tektronix service center is located. Customer shall be responsible for
paying all shipping charges, duties, taxes, and any other charges for products returned to any other locations.

This warranty shall not apply to any defect, failure or damage caused by improper use or improper or inadequate
maintenance and care. Tektronix shall not be obligated to furnish service under this warranty a) to repair damage
resulting from attempts by personnel other than Tektronix representative s to install, re pair or service the product;
b) to repair damage resulting from improper use or connection to incompatible equipm ent; c) to repair any
damage or malfunction caused by the use of non-Tektronix supplies; or d) to service a product that has been
modified or integrated with other products when the effect of such modification or integration increases the time
or difficul ty of servicing the product.

THIS WARRANTY IS GIVEN BY TEKTRONIX IN LIEU OF ANY OTHER W ARRANTIES, EXPRESS
OR IMPLIED. TEKTRONIX AND ITS VENDORS DISCLAIM ANY IMPLIED WARRANTIES OF
MERCHANTABILITY OR FITNESS FOR A PARTICULAR PURPOSE. TEKTRONIX’
RESPONSIBILITY TO REPAIR OR REPLACE DEFECTIVE PRODUCTS IS THE SOLE AND
EXCLUSIVE REMEDY PROVIDED TO THE CUSTOMER FOR BREACH OF THIS WARRANTY.
TEKTRONIX AND ITS VENDORS WILL NOT BE LIABLE FOR ANY INDIRECT, SPECIAL,
INCIDENTAL, OR CONSEQUENTIAL DAMAGES IRRESPECTIVE OF WHETHER TEKTRONIX OR
THE VENDOR HAS ADVANCE NOTICE OF THE POSSIBILITY OF SUCH DAMAGES.

SOFTWARE WARRANTY

Tektronix warrants that the media on which this software product is furnished and the encoding of the programs on
the media will be free from defects in materials and workmanship for a period of three (3) months from the date of
shipment. If a medium or encoding proves defective during the warranty period, Tektronix will provide a
replacement in exchange for the defective medium. Except as to the media on which this software product is
furnished, this software product is provided “as is” without warranty of any kind, either express or implied.
Tektronix does not warrant that the functions contained in this software product will meet Customer’s
requirements or that the operation of the programs will be uninterrupted or error-free.

In order to obtain service under this warranty, Customer must notify Tektronix of the defect before the expiration
of the warranty period. If Tektronix is unable to provide a replacement that is free from defects in materials and
workmanship within a reasonable time thereafter, Customer may terminate the license for this software product
and return this software product and any associated materials for credit or refund.

THIS WARRANTY IS GIVEN BY TEKTRONIX IN LIEU OF ANY OTHER W ARRANTIES, EXPRESS
OR IMPLIED. TEKTRONIX AND ITS VENDORS DISCLAIM ANY IMPLIED WARRANTIES OF
MERCHANTABILITY OR FITNESS FOR A PARTICULAR PURPOSE. TEKTRONIX’
RESPONSIBILITY TO REPLACE DEFECTIVE MEDIA OR REFUND CUSTOMER’SPAYMENTIS
THE SOLE AND EXCLUSIVE REMEDY PROVIDED TO THE CUSTOMER FOR BREACH OF THIS
WARRANTY. TEKTRONIX AND ITS VENDORS WILL NOT BE LIABLE FOR ANY INDIRECT,
SPECIAL, INCIDENTAL, OR CONSEQUENTIAL DAMAGES IRRESPECTIVE OF WHETHER
TEKTRONIX OR THE VENDOR HAS ADVANCE NOTICE OF THE POSSIBILITY OF SUCH
DAMAGES.

Table of Contents

Getting Started

General Safety Summary v...................................

Service Safety Summary vii....................................

Preface ix...................................................

Manual Conventions ix..............................................

Contacting Tektronix x..............................................

Product Description 1--1..............................................

Logic Analyzer Configuration 1--1......................................

P6860 Probes 1--2................................................

LAI Cables 1--2..................................................

Labeling P6860 Probes 1--3........................................

Labeling LAI Cables 1--3..........................................

Standard and Optional Accessories 1--3...................................

Probe Adapter Review 1--3............................................

Configure the Preprocessor Unit 1--4.....................................

Connecting the Logic Analyzer to a Target System 1--5......................

Tools 1--5......................................................

Connect the Logic Analyzer 1--5....................................

Removing the Microprocessor 1--10...................................

Removing the Probe Head from the Target System 1--10...................

Applying LAI Labels 1--11.............................................

Connect the Probes and LAI Cables 1--12..................................

LAI Cable and P6860 Probe Connections (Four Modules) 1--14.............

Fifth Module 1--14................................................

Applying and Removing Power 1--14.....................................

Logic Analyzer Software Compatibility 1--15...............................

Installing the Software 1--15............................................

Care and Maintenance 1--16.............................................

External Cleaning Only 1--16........................................

Short-Term Storage 1--17...........................................

Long-Term Storage 1--18...........................................

Shipping the Probe Adapter 1--19........................................

Specifications

Reference

TMSSC2 604-Pin Socket Support

Circuit Description 2--1...............................................

Loading Diagrams 2--3................................................

Specification Tables 2--5..............................................

Reference Tables 3--1..........................................

Viewing Reference Tables 3--1..........................................

To View a Symbol Table 3--1.......................................

To Extract Channel Assignments and Groups 3--1.......................

i

Table of Contents

Replaceable Parts List

Index

Parts Ordering Information 4--1.........................................

Using the Replaceable Parts List 4--2.....................................

TMSSC2 604-Pin Socket Support

ii

List of Figures

Table of Contents

Figure 1--1: Master and Slave module configuration 1--2.............

Figure 1--2: Selecting your software on the preprocessor unit 1--4.....

Figure 1--3: Removing microprocessor probe head from the

target system 1--6..........................................

Figure 1--4: Attach the probe head to the target system 1--7..........

Figure 1--5: Attaching the heat sink brackets and microprocessor to the

target system 1--8..........................................

Figure 1--6: Attaching the heat sink to the target system 1--9..........

Figure 1--7: Remove the microprocessor with the extraction tool 1--10..

Figure 1--8: Apply LAI labels 1--11................................

Figure 1--9: LAI cable, P6860 probe, and preprocessor unit 1--12.......

Figure 1--10: LAI cable, P6860 probe, and module configurations 1--13..

Figure 1--11: Nonspecific probe head and case 1--17..................

Figure 1--12: Place preprocessor unit in the cardboard carton 1--18.....

Figure 1--13: Place cables in the cutouts 1--18.......................

Figure 1--14: Place accessories in the accessory tray 1--19.............

List of Tables

Figure 2--1: Probe adapter preliminary load model for typical signals 2--3

Figure 2--2: Pin header electrical load model for typical signals 2--4...

Figure 2--3: Socket electrical load model for typical signals 2--4.......

Figure 2--4: Mated Samtec model 2--4.............................

Figure 2--5: Receiver Model 2--4.................................

Figure 2--6: Dimensions of the probe head 2--8.....................

Figure 2--7: Dimensions of the preprocessor unit 2--9................

Figure 3--1: Channel Setup Export window 3--2....................

Figure 4--1: Probe adapter exploded view 4--5......................

Figure 4--2: Preprocessor unit exploded view 4--6...................

Table 1--1: Software selection 1--4................................

Table 1--2: P6860 probe and LAI cable configurations 1--13...........

Table 2--1: Electrical specifications for the target system 2--5........

Table 2--2: Electrical specifications for the AC input to the

preprocessor unit 2--6......................................

Table 2--3: BCLK timing and electrical specifications at 25

Table 2--4: Environmental specifications 2--6......................

Table 2--5: Certifications and compliances 2--7.....................

°C2--6...

TMSSC2 604-Pin Socket Support

iii

Table of Contents

TMSSC2 604-Pin Socket Support

iv

General Safety Summary

Review the following safety precautions to avoid injury and prevent damage to
this product or any products connected to it. To avoid potential hazards, use this
product only as specified.

Only qualified personnel should perform service procedures.

While using this product, you may need to access other parts of the system. Read
the General Safety Summary in other system manuals for warnings and cautions
related to operating the system.

ToAvoidFireor

Personal Injury

Use Proper Power Cord. Use only the power cord specified for this product and
certified for the country of use.

Connect and Disconnect Properly. Do not connect or disconnect probes or test
leads while they are connected to a voltage source.

Ground the Product. This product is grounded through the grounding conductor
of the power cord. To avoid electric shock, the grounding conductor must be
connected to earth ground. Before making connections to the input or output
terminals of the product, ensure that the product is properly grounded.

Observe All Terminal Ratings. To avoid fire or shock hazard, observe all ratings
and markings on the product. Consult the product manual for further ratings
information before making connections to the product.

Connect the ground lead of the probe to earth ground only.

Do Not Operate Without Covers. Do not operate this product with covers or panels
removed.

Use Proper Fuse. Use only the fuse type and rating specified for this product.

Avoid Exposed Circuitry. Do not touch exposed connections and components

when power is present.

Do Not Operate With Suspected Failures. If you suspect there is damage to this
product, have it inspected by qualified service personnel.

TMSSC2 604-Pin Socket Support

Do Not Operate in Wet/Damp Conditions.

Do Not Operate in an Explosive Atmosphere.

Keep Product Surfaces Clean and Dry.

Provide Proper Ventilation. Refer to the manual’s installation instructions for

details on installing the product so it has proper ventilation.

v

General Safety Summary

Symbols and Terms

Terms in this Manual. These terms may appear in this manual:

WARNING. Warning statements identify conditions or practices that could result
in injury or loss of life.

CAUTION. Caution statements identify conditions or practices that could result in
damage to this product or other property.

Terms on the Product. These terms may appear on the product:

DANGER indicates an injury hazard immediately accessible as you read the
marking.

WARNING indicates an injury hazard not immediately accessible as you read the
marking.

CAUTION indicates a hazard to property including the product.

Symbols on the Product. The following symbols may appear on the product:

CAUTION

Refer to Manual

WARNING

High Voltage

Protective Ground

(Earth) Terminal

TMSSC2 604-Pin Socket Support

vi

Service Safety Summary

Only qualified personnel should perform service procedures. Read this Service
Safety Summary and the General Safety Summary before performing any service

procedures.

Do Not Service Alone. Do not perform internal service or adjustments of this
product unless another person capable of rendering first aid and resuscitation is
present.

Disconnect Power. To avoid electric shock, switch off the instrument power, then
disconnect the power cord from the mains power.

Use Care When Servicing With Power On. Dangerous voltages or currents may
exist in this product. Disconnect power, remove battery (if applicable), and
disconnect test leads before removing protective panels, soldering, or replacing
components.

To avoid electric shock, do not touch exposed connections.

TMSSC2 604-Pin Socket Support

vii

Service Safety Summary

viii

TMSSC2 604-Pin Socket Support

Preface

Manual Conventions

This instruction manual contains specific information about the TMSSC2
604-Pin Socket support package and is part of a set of information on how to
operate this product on compatible Tektronix logic analyzers.

If you are familiar with operating microprocessor support packages on the logic
analyzer, you only need this instruction manual to set up and run the support
package.

If you are not familiar with operating microprocessor support packages, you need
to supplement this instruction manual with information on basic operations from
the Tektronix logic analyzer online help to set up and run the support package.

This manual uses the following conventions:

H A pound sign (#) following a signal name indicates an active low signal.

H The phrase “information on basic operations” refers to basic information in

the logic analyzer online help.

H The terms “Master” and “Slave” refer to modules that are located in

numbered slots (see Figure 1--1 on page 1--2).

H The phrase “LAI cables” refers to the logic analyzer cables that connect the

preprocessor unit to the logic analyzer modules.

TMSSC2 604-Pin Socket Support

ix

Preface

Contacting Tektronix

Phone 1-800-833-9200*

Address Tektronix, Inc.

Department or name (if known)
14200 SW Karl Braun Drive
P.O. Box 500
Beaverton, OR 97077
USA

Web site www.tektronix.com

Sales support 1-800-833-9200, select option 1*

Service support 1-800-833-9200, select option 2*

Technical support Email: techsupport@tektronix.com

1-800-833-9200, select option 3*

6:00 a.m. -- 5:00 p.m. Pacific time

* This phone number is toll free in North America. After office hours, please leave a

voice mail message.
Outside North America, contact a Tektronix sales office or distributor; see the
Tektronix web site for a list of offices.

TMSSC2 604-Pin Socket Support

x

Getting Started

Getting Started

Product Description

This section contains the following information about the TMSSC2 604-Pin
Socket support product:

H Configuring the probe adapter, see page 1--4

H Connecting the logic analyzer to the target system, see page 1--5

H Applying power to the probe adapter, see page 1--14

H Installing software, see page 1--15

H Caring for and maintaining the probe adapter, see page 1--16

The probe adapter is an interposer design that allows the logic analyzer to
acquire data from a microprocessor in the operating environment with little effect
on the target system.

To accomplish this the probe adapter is connected to the target system, and then
the microprocessor is connected to the probe adapter. Signals from the micropro­cessor based system flow through the probe adapter, the probe cables, and then to
the logic analyzer.

This software acquires signals for viewing including timing signals. Included
with the TMSSC2 604-Pin Socket probe adapter is the following software:

PUB32G10

PUB32G8N8

NOTE. The TMSSC2 probe adapter is compatible with the TMS117 and the
TMS122 software support packages. These software support packages are
available only to customers with a valid, restricted, secret nondisclosure
agreement (RS-NDA) with Intel.

Logic Analyzer Configuration

To use the probe adapter to acquire all signals except timing, you need a
Tektronix logic analyzer equipped with a minimum of four, 136-channel,
235 MHz merged modules. To also acquire timing signals, you need five,
136-channel, 235 MHz merged modules.

TMSSC2 604-Pin Socket Support

1- 1

Getting Started

The modules must be configured and merged as shown in Figure 1--1. The
memory depth is chosen automatically based on the shallowest memory depth of
the four modules.

Plus timing

signals

All signals

P6860 Probes

S
L
A
V
E
4

Figure 1- 1: Master and Slave module configuration

The term Master module refers to the middle module of a 5-wide module merge.
The term Slave module refers to the modules to the left or right of the master
module of a 4 or 5-wide module merge. Figure 1--1 shows the configuration for a
4- or 5-wide module merge.

You can use the TLA7AXX, 235 MHz logic analyzer modules and P6860 probes
to connect to the TMSSC2 probe adapter.

For more information on connecting the P6860 Probes to the preprocessor unit,
seepage1--12.

S
L
A
V
E
2

M
A
S
T
E
R

S
L
A
V
E
1

S
L
A
V
E
3

1- 2

LAI Cables

Refer to the P6810, P6860, and P6880 Logic Analyzer Probes Instruction
manual, Tektronix part number 071-1059-XX, for more information. You can

access this manual from the Tektronix.com web site. You can also find informa­tion about the P6860 probes in the logic analyzer online help.

You can use the TLA7AXX, 235 MHz logic analyzer modules and logic analyzer
interface (LAI) cables to connect to the TMSSC2 probe adapter. The LAI cables
(012-1661-XX) are specifically designed for use with the TMSSC2 probe
adapter.

For more information on connecting your LAI cables to the preprocessor unit,
seepage1--12.

TMSSC2 604-Pin Socket Support

Getting Started

Labeling P6860 Probes

Labeling LAI Cables

The probe adapter relies on the default channel mapping and labeling scheme for
the probes. Apply labels using the instructions described in the P6860 High
Density Logic Analyzer Probe Label Instructions, Tektronix part number
071-1123-XX. This manual can be accessed from the Tektronix.com web site.
This information is also located in the logic analyzer online help.

To apply labels to the LAI cables, see page 1--11.

Standard and Optional Accessories

A complete list of standard and optional accessories is provided in the Replace­able Parts List on page 4--4.

Probe Adapter Review

Along with the TMSSC2 instruction manual, each logic analyzer includes
additional information that describes how to perform tasks common to support
products on that platform.

This additional information is located in the logic analyzer online help, an
installation manual, or a user manual. Review the additional information if you
are unfamiliar with using support products on a logic analyzer product.

System Clock Rate

Acquisition before Reset

Data Bus

Address Bus

Review electrical, environmental, and mechanical specifications in the Specifica­tions section on page 2--1 as they pertain to the target system, as well as the

following information.

The TMSSC2 support product can acquire data from the microprocessor
operating at speeds of up to 200 MHz. The clock rate is not guaranteed for
prototype shipment of the product.

Contact your Tektronix sales representative for current information on the fastest
devices supported.

If data is acquired just before a power on Reset signal is observed by the target
system, the data acquired by the logic analyzer will be inaccurate.

The TMSSC2 probe adapter supports only a quad-pumped data bus.

The TMSSC2 probe adapter supports only a double-pumped address bus.

TMSSC2 604-Pin Socket Support

1- 3

Getting Started

Disabling the Cache

The cache bus is not monitored; therefore, the cache must be disabled. Disabling
the cache makes all instruction prefetches visible on the bus so that they are
acquired and displayed and correctly disassembled.

Configure the Preprocessor Unit

You must configure the preprocessor unit for your software product before using
the probe adapter.

Software Support Selection. To select your software support, use Table 1--1 to
position the jumper on the preprocessor unit. Figure 1--2 shows the location of
the software support selector.

Table 1- 1: Software selection

Software support Pin

PUB32G8N8 or TMS117

PUB32G10 or TMS122

1--2

2--3

1- 4

Software
support
selector

Figure 1- 2: Selecting your software on the preprocessor unit

TMSSC2 604-Pin Socket Support

Connecting the Logic Analyzer to a Target System

Read the following instructions before removing or installing parts.

WARNING. T o prevent static damage to the microprocessor, the probe adapter, the
probes, and the module, you must handle components only in a static-free
environment. Always wear a grounding wrist strap, heel strap, or similar device
while handling the microprocessor and probe adapter.

T o prevent harm to yourself or damage to the preprocessor unit, do not open the
preprocessor unit. There are no operator serviceable parts inside the preproces­sor unit. Refer servicing of internal parts in the preprocessor unit to Tektronix
authorized personnel only. External parts may be replaced by qualified service
personnel.

You must allow airflow clearance for the preprocessor unit. Refer to the
dimensions on page 2--6 for the required clearance.

Getting Started

Tools

Connect the Logic

Analyzer

Following is a list of required tools, unless stated otherwise:

H Use a flatbladed screwdriver (0.1 inch tip width) to tighten the probe head to

the target system.

H When removing the microprocessor from the probe head, use the provided

extraction tool to protect the probe head and microprocessor from damage.

H Optional Tool. A torque wrench helps to ensure reliable connections by

meeting the nominal torque values that may be listed in these instructions.

When attaching screws to the probe head use 4 in-lbs (0.451 Newton meters)

of torque, unless stated otherwise.

CAUTION. To prevent damage to the product when storing and shipping, retain
the black case for the probe head, the cardboard cartons, and packing material
shipped with the probe adapter.

Use the following steps to connect the logic analyzer to the target system:

1. Power off the target system. It is not necessary to power off the logic

analyzer.

2. Power off any probe adapters (preprocessor units) that may be attached to

your target system.

TMSSC2 604-Pin Socket Support

3. To discharge any static electricity, touch the ground connector located on the

logic analyzer.

1- 5

Getting Started

4. Follow the steps in Figures 1 --3 through 1--6 to install the probe head on the

target system.

CAUTION. To prevent damage to the probe head and pins, you must always
handle the probe head carefully and use care to properly align the probe head
pins to the ZIF socket on the target system. Also, reinstall the pin protector to the
bottom of the probe head when the probe head is not in use.

Remove the

1

heatsink

1- 6

Remove the microprocessor

from the target system.

Target system

3

Open the

2

load lever.

Figure 1- 3: Removing microprocessor probe head from the target system

TMSSC2 604-Pin Socket Support

Pin 1 (notched corner)

Getting Started

Fold cables up and

6

away when attaching.

Caution: To prevent damage to the sensitive probe
head cables, dress the cables so they are not
pinched or contacting any sharp objects. When you
fold the cables use a minimum radius of 0.25 (0.64
cm) at the fold.

5

Pin 1

Attach four bottom heat sink

brackets and screws to the target

system. (torque to 8 in --lbs)

Target system

4

Figure 1- 4: Attach the probe head to the target system

Remove the

pin protector.

7

Close the load lever

8

on the LIF socket.

Attach the probe head.

TMSSC2 604-Pin Socket Support

1- 7

Getting Started

Attach four top

heatsink brackets and

screws.

Caution: To prevent damage to the pins on the

microprocessor due to the high installation force

required, check that the pins are aligned before

installing the microprocessor.

10

Dress the cables over the

bottom heat sink brackets.

9

11Install the microprocessor.

Pin 1 (notched

corner)

Figure 1- 5: Attaching the heat sink brackets and microprocessor to the target system

TMSSC2 604-Pin Socket Support

1- 8

Getting Started

Apply thermal grease to the

top of the copper spacer

and the microprocessor.

Attach the probe head cables

to the preprocessor unit cables

(snap into place).

12

14

B

B

A

A

Figure 1- 6: Attaching the heat sink to the target system

Install the heat sink
and copper spacer.

13

TMSSC2 604-Pin Socket Support

1- 9

Getting Started

Removing the

Microprocessor

Follow the steps in Figure 1 --7 to attach the extractor tool and remove the
microprocessor from the probe head.

CAUTION. To prevent damage to the probe head or microprocessor pins, use the
provided extraction tool to remove the microprocessor from the probe head
socket.

The extractor tool must be attached as shown in Figure 1--7. Do not attach the
extractor tool on the cable ends of the probe head.

3 Turn both top nobs clockwise to remove

the microprocessor from the probe head.

1 Loosen the red nobs and position the

Extraction-tool bars (see inset) on either

side of the microprocessor.

2 Turn the red nobs clockwise to

tighten the bars against the

microprocessor.

Removing the Probe Head

from the Target System

1- 10

Bar

Bar in the

correct position

Figure 1- 7: Remove the microprocessor with the extraction tool

Follow these steps to remove the probe head from the target system:

1. Power off the target system, and unplug the AC power cord on the prepro-

cessor unit. The power switch for the probe adapter is located on the back of
the preprocessor unit. It is not necessary to power off the logic analyzer.

2. Reverse the steps in Figures 1--3 through 1--6 to remove the probe head.

3. Store the probe head in the original packing material (see page 1--17).

TMSSC2 604-Pin Socket Support

Applying LAI Labels

Getting Started

You need to attach labels to the module end of the LAI cables and the preproces­sor-unit end of the LAI cables. Read the following note before you begin
attaching labels.

NOTE. Always use flat-nosed tweezers to remove the labels from the sheet of
labels. Never peel labels with your fingers. The labels are made of soft vinyl and
can stretch and distort easily. To avoid stretching the label, always grasp it from
the top right corner while removing it from the sheet of labels.

The adhesive on the vinyl labels is extremely strong. Carefully align the label to
the indented outline on the module end and preprocessor unit end. Once labels
are placed on the LAI cables, they become very difficult to remove.

To attach labels, perform the following steps:

1. Determine which channel groups you are planning to use, and identify the

matching labels.

2. Follow the steps in Figure 1 --8 while attaching the labels.

Module end

Blank

4

Align and place the labels in

the label indents, as shown in

step 1. Repeat for all steps.

LAI cable

3

Blank

1

Match the

color and the

channel name

Probe-head

end

2

TMSSC2 604-Pin Socket Support

Figure 1- 8: Apply LAI labels

1- 11

Getting Started

Connect the Probes and LAI Cables

To configure the P6860 probes and LAI cables for the disassembly and timing
support functions, you must determine if you are using a four or a five module
configuration (see Table 1--2 on page 1--13). Then, follow the steps on
page 1--14. Figure 1--9 shows a P6860 probe, an LAI Cable, and a preprocessor
unit.

If you need to apply labels to the LAI cables, see page 1--11

P6860 probe

LAI cable

Preprocessor unit

.

1- 12

Figure 1- 9: LAI cable, P6860 probe, and preprocessor unit

TMSSC2 604-Pin Socket Support

Getting Started

Table 1--2 lists the P6860 probe and LAI Cable configurations for a 4- or
5-module configuration.

Table 1- 2: P6860 probe and LAI cable configurations

Software
support

TMS122
TMS117

PUB32G10
PUB32G8N8

TMS117_5W
TMS122_5W

S
L
A
V
E
4

P6860

S
L
A
V
E
3

probes

4(S4)

4(S4)

Probe acquires

except timing signals

Timing and State signals
only, disassembly is not
available

All signals for disassembly,
plus timing signals

Modules LAI cables

4 7 (M,S1,S2,S3) 1(S3) All signals for disassembly,

5 7 (M,S1,S2,S3) 1(S3)

5 7 (M,S1,S2,S3) 1(S3)

TMS122 or TMS117

All signals, except

timing signals

S
L
A
V
E
2

M
A
S
T
E
R

S
L
A
V
E
1

TMSSC2 604-Pin Socket Support

Four P6860

probe

(Timing signals)

Six LAI cables

PUB32G10 or PUB32G8N8

TMS117_5W or TMS122_5W

One P6860

probe and

one LAI cable

Figure 1- 10: LAI cable, P6860 probe, and module configurations

1- 13

Getting Started

LAI Cable and P6860

Probe Connections

(Four Modules)

Fifth Module

1. Match and connect the A, D, C, and E LAI cables from the Master module

with the corresponding D3/D2 and A3/A2, D1/D0 and A1/A0, C1/C0 and
C3/C2, and E3/E2 and E1/E0 connector on the preprocessor unit. The LAI
cable connector is keyed for correct alignment to the preprocessor unit.

2. Repeat step 1 to match and connect an LAI cable between Slave1 and Slave2

modules and the connectors on the preprocessor unit.

CAUTION. To prevent damage to the P6860 probe and preprocessor unit, you
must always position the probes perpendicular to the foot print on the PCB.
Incorrect handling of the P6860 probe w hile connecting to or disconnecting from
the preprocessor unit can damage the probe.

3. Repeat step 1 to match and connect the additional P6860 probe and LAI

cable connections between the Slave3 module and the connectors on the
preprocessor unit.

4. Match and connect the A, D, C, and E P6860 probes from the Slave4 module

with the corresponding D3/D2 and A3/A2, D1/D0 and A1/A0, C1/C0 and
C3/C2, and E3/E2 and E1/E0 connector on the preprocessor unit. The P6860
probe connector is keyed for correct alignment to the preprocessor unit.

NOTE. For more information about how to attach a P6860 probe to the
preprocessor unit, refer to the P6860 probe information on page 1--2.

Applying and Removing Power

To apply power to the probe adapter and target system, follow these steps:

1. Make sure the power switch on the preprocessor unit is in the off position. If

powered off, the zero (0) is visible on the power switch.

2. Plug the AC power cord into the IEC connector on the back of the preproces-

sor unit.

3. Plug the AC power cord into an electrical outlet that you know is working

properly.

4. Power on the probe adapter at the back of the preprocessor unit. A green,

power-on LED lights on the front of the preprocessor unit, indicating that the
probe adapter is active.

5. Power on the target system.

To remove power from the target system and the probe adapter, reverse the
preceding steps. You can skip step 1.

1- 14

TMSSC2 604-Pin Socket Support

Logic Analyzer Software Compatibility

The disk label on the software support disk states that version 4.3 SP1+ of the
logic analyzer software is compatible with the PUB32G8N8 and the PUB32G10
software.

Installing the Software

Now you are ready to install the software. If you have not used a support
product, you may want to refer to information on general tasks and functions in
the Tektronix logic analyzer online help or the user manual.

NOTE. Before you install any software, it is recommended you verify that the
microprocessor support software is compatible with the logic analyzer softw are.

To install the software on your Tektronix logic analyzer, follow these steps:

Getting Started

1. Insert the disk in the disk drive.

2. Click the Windows Start button, point to Settings, and click Control Panel.

3. In the Control Panel window, double-click Add/Remove Programs.

4. Follow the instructions on the screen for installing the software from the

disk.

To remove or uninstall software, follow the above instructions except select
Uninstall. You must close all windows before you uninstall any software.

TMSSC2 604-Pin Socket Support

1- 15

Getting Started

Care and Maintenance

Before cleaning this product, read the following information.

CAUTION. To prevent static damage, you must handle components only in a
static-free environment. Static discharge can damage the microprocessor, the
probe adapter, the probes, and the module.

The probe adapter, consisting of the probe head and preprocessor unit, does not
require scheduled or periodic maintenance. However, to keep good electrical
contact and efficient heat dissipation, keep the probe adapter free of dirt, dust,
and contaminants. When not in use, store the probe adapter in the original
shipping bags and cardboard carton.

External Cleaning Only

Fuses

Clean dirt and dust with a soft bristle brush. F or more extensive cleaning, use
only a damp cloth moistened with deionized water; do not use any other
chemical cleaning agents.

WARNING. T o prevent harm to yourself or damage to the preprocessor unit, do
not open the preprocessor unit for cleaning and do not allow any moisture inside
the preprocessor unit. There are no operator serviceable parts inside the
preprocessor unit. Refer servicing of internal parts in the preprocessor unit to
Tektronix authorized personnel only. External parts may be replaced by qualified
service personnel.

All fuses located in the preprocessor unit are not replaceable by the customer
(operator). If the probe adapter is not functioning correctly, contact your
Tektronix sales representative.

1- 16

TMSSC2 604-Pin Socket Support

Getting Started

Short-Term Storage

Follow steps 1 through 4 for short-term storage of the probe head:

CAUTION. To prevent static damage to the microprocessor, the probe adapter, the
probes, and the module, handle components only in a static-free environment.

Always wear a grounding wrist strap, heel strap, or similar device while
handling the microprocessor and probe adapter.

1. Power off the target system, and unplug the AC power cord on the prepro-

cessor unit. The power switch for the probe adapter is located on the back of

the preprocessor unit. It is not necessary to power off the logic analyzer.

CAUTION. To prevent damage to the probe head or microprocessor, use the
provided extraction tool and follow the procedure from the extraction tool vender
to remove the microprocessor from the probe head.

2. Reverse the steps in Figures 1--3 through 1--6 to remove the probe head.

CAUTION. To prevent damage to the sensitive probe head cables, you must dress
the cables so they are not pinched or contacting any sharp objects. When you
fold the cables use a minimum radius of 0.25 (0.64 cm) at the fold.

3. Using antistatic nongenerating tape, tape the pin-protector board onto the pin

header on the bottom of the probe head.

4. Store the probe head in the black case it was shipped in.

Figure 1- 11: Nonspecific probe head and case

TMSSC2 604-Pin Socket Support

1- 17

Getting Started

Long-Term Storage

For long-term storage, use the existing cardboard carton and packaging, and
follow steps 1 through 7:

5. Disconnect the preprocessor unit from the logic analyzer by removing the

probes and LAI cables from the top of the preprocessor unit.

6. Place the preprocessor unit inside the static shielding bag and follow Figures

1--12 through 1--14.

Place the foam end caps
on both sides of the
preprocessor unit.

Figure 1- 12: Place preprocessor unit in the cardboard carton

1- 18

Figure 1- 13: Place cables in the cutouts

TMSSC2 604-Pin Socket Support

Figure 1- 14: Place accessories in the accessory tray

7. Close and tape the cardboard carton.

To ship the probe adapter, refer to page 1--19.

Shipping the Probe Adapter

Getting Started

To commercially transport the TMSSC2 probe adapter, package as follows:

1. Use the existing cardboard shipping carton and cushioning material. Follow

the steps on page 1--17 to package the probe head and preprocessor unit.

If the existing shipping carton is not available, use a double-walled,

corrugated cardboard shipping carton that allows a 3 inch (7.62 cm)

minimum on all sides of the product.

2. If you are shipping a probe adapter to a Tektronix service center for Warranty

service, attach a tag to the probe adapter showing the following:

H Owner’s name and address

H Name of a person who can be contacted

H Probe adapter type and serial number

H Description of the problem

TMSSC2 604-Pin Socket Support

1- 19

Getting Started

1- 20

TMSSC2 604-Pin Socket Support

Specifications

Specifications

Circuit Description

This section contains specifications for the TMSSC2 hardware support.

The probe adapter hardware uses a custom ASIC to preprocess all signals on the
microprocessor before the signals are captured by the logic analyzer. The custom
ASIC performs the following functions:

H Latches signals within a narrow valid window

H Demultiplexes double-pumped, source-synchronous signals

H Deterministically synchronizes source-synchronous signals to BCLK

Latched Operation

Derived Signals

The ASIC latches all signals on the microprocessor. The latched signals are
processed in the ASIC according to their type. Following is a description of each
type:

4x Quad-Pumped Signals. These signals include D[63:00]#, DEP[7:0]#, and
DBI[3:0]#. The ASIC latches these signals using their dedicated strobes,
STBP[3:0] and STBN[3:0], and then performs four-way demultiplexing on these
signals. The ASIC also inverts the appropriate signals when the DBI[3:0] signals
are active.

2x Double-Pumped Signals. These signals include A[39:03]# and REQ[4:0]#. The
ASIC latches these signals using their dedicated strobes, ASTB[1:0], and then
performs two-way demultiplexing on these signals.

1x Common-Clock Signals. These signals include all of the remaining front-side
bus signals. The ASIC latches these signals using the rising edge of BCLK.

The TMSSC2 probe adapter hardware derives several custom signals from the
front-side bus signals captured by the ASIC. These signals are used by the logic
analyzer support software to provide clocking, transaction phase linking, and
disassembly. Following is a description of these custom signals:

TMSSC2 604-Pin Socket Support

PHASE_D. This signal can be used by the logic analyzer to store only bus cycles
that contain active information. The PHASE_D signal is asserted when any of the

2-- 1

Specifications

following signals are asserted: ADS#, DRDY#, INIT#, RESET#, RS[2:0]#,
IDS#, OOD#, and SNOOP_D.

TRACK_ERR_D. This signal is asserted whenever the request or snoop counters
exceed their maximum or a minimum value. This signal is also asserted when
ADS# has been observed active for two clock cycles in a row.

Signal Probing

Bus Tracking Logic

Common Clock

The TMSSC2 probe adapter uses passive series isolation to acquire data.

The TMSSC2 probe adapter uses a bus tracking PAL to aid the disassembly
software in linking various bus phases.

The IA32G8N8 and IA32G10 software allows disassembly from a data bus
operating at the common clock rate specified in Table 2--1. The setup and hold
sample points are set to default timing numbers based on FSB specifications.

2-- 2

TMSSC2 604-Pin Socket Support

Loading Diagrams

Specifications

BGA604 Socket microprocessor

Signal 1

Potomac processor

Signal 2

75 Ω

~1300 mils

213 ps

C2

0.7 pF

75 Ω

~1300 mils

213 ps

C3

0.7 pF

In 1

In 2

R2

200 Ω +/−15%

R3

200 Ω +/−15%

Coax Ribbon Loss

--0.4dB@1.7GHz

BGA604 Socket

LIF socket

VSS

75 Ω

~25 mils

4.6 ps

Out 1

Out 2

~25 mils

75 Ω

4.6 ps

In 1

In 2

BGA604

Out 1

Pin header

Out 2

VSS

75 Ω

Mated

Samtec

4”
477 ps

C4

0.7 pF

Mated

Samtec

C8

0.7 pF

C7

0.7 pF

75 Ω
~44’’

4.18 ns

75 Ω

~44’’

4.18 ns

Coax Ribbon Loss

--0.58dB@1.7GHz

~1300 mils

C10

0.4 pF

~1300 mils

C11

0.4 pF

75 Ω

4”

477 ps

C5

0.7 pF

Figure 2--1: Probe adapter preliminary load model for typical signals

TMSSC2 604-Pin Socket Support

75 Ω

213 ps

Receiver

75 Ω

213 ps

Receiver

2-- 3

Specifications

TF2_1

K12= 0.082
L1=1.685 nH

Signal in 1

Signal in 2

Vss

L2=1.685 nH

+

C2

0.44 pF

Signal out 1

+

C1

0.44 pF
Signal out 2

C3

+

0.44 pF

Vss

Figure 2--2: Pin header electrical load model for typical signals

TF2_1

K12= 0.318
L1=5.20 nH
L2=5.20 nH

Signal in 1

Signal in 2

Vss

+

C1

0.66 pF

+

C2

1.3 pF

+

Signal out 1

Signal out 2

C3

1.3 pF
Vss

Figure 2--3: Socket electrical load model for typical signals

Signal in 1

R1

10 m

C4

0.5 pF

3.2 nH

C3

0.7 pF

L1

Signal Out 2

C2

0.5 pF

Figure 2--4: Mated Samtec model

TD=83 ps
Z0=75 Ω

0.2 Ω

225 fF

TD=5 ps
Z0=100 Ω

450 fF

75 Ω

VREF~0.8 V

Figure 2--5: Receiver Model

2-- 4

TMSSC2 604-Pin Socket Support

Specification Tables

Specifications

These specifications are for a probe adapter connected between a compatible
Tektronix logic analyzer and a target system. Signal voltage swing in your target
system must be at least 600 mV

around the GTL+ reference voltage.

p-p

NOTE. The functionality and specifications are not guaranteed for the prototype
product.

Table 2--1 lists the electrical requirements of the target system. Table 2--2 on
page 2--6 lists the electrical requirements for the power supply that provides
power to the probe adapter. Table 2--3 on page 2--6 lists the BCLK timing and
electrical specifications. Table 2--4 on page 2--6 lists the environmental
specifications.

Table 2--1: Electrical specifications for the target system

Characteristics Requirements

Typical - - Vcc=1.2V,V

= 0.8 V, at 25 °C

REF

DC power requirements

Voltage, V

Current, V

cc

REF

1.2 V ᐔ5% (Typ)

I maximum <0.8 mA, I typical <1 mA at 25 °C

Common clock rate Maximum 200 MHz (Typ)

Common clock capture

Typical - - Vcc=1.2V,V

=0.8V,VIH=V

REF

+400 mV, VIL=V

REF,

--400mV,at25°C

REF

Window 750 ps (Typ)

T

su

T

hd

1ns(Typ)

--250 ps (Typ)

2x Source-Synchronous capture

Window 500 ps (Typ)

T

su

T

hd

250 ps (Typ)

250 ps (Typ)

4x Source-Synchronous capture (DBI
disabled)

Window 350 ps (Typ)

TMSSC2 604-Pin Socket Support

T

su

T

hd

175 ps (Typ)

175 ps (Typ)

2-- 5

Specifications

Table 2--2: Electrical specifications for the AC input to the preprocessor unit

Characteristic Description

Input Voltage rating 100 -- 240 VAC CAT II

Input Frequency rating 50 -- 60 Hz

Input Current rating 6 A maximum

Table 2--3: BCLK timing and electrical specifications at 25 °C

Characteristics Minimum Maximum Units Notes

Vin(lo) min -- V

Vin(hi) max V

+125 mV -- V

REF

Duty Cycle 45 55 %

t

lh

t

hl

-- 1.25 ns Monotonically increasing

-- 1.25 ns Monotonically decreasing

--125 mV V

REF

Table 2--4: Environmental specifications

Characteristic

Temperature

Maximum operating +50 °C (+122 °F)

Minimum operating 0 °C (+32 °F)

Nonoperating -- 5 5 °Cto+75°C(--67°F to +167 °F)

Humidity 10 to 95% relative humidity, noncondensing

Altitude

Operating 3 km (10,000 ft) maximum

Nonoperating 15 km (50,000 ft) maximum

Electrostatic immunity The probe adapter is static sensitive

Required airflow clearances
for the preprocessor unit

Front, top, left side 5.08 cm (2 in)

Back 7.62 cm (3 in)

Bottom, right side 0.635 cm (0.250 in)

1

Designed to meet Tektronix standard 062-2847-00 class 5.

2

Not to exceed microprocessor thermal considerations. Customer supplied cooling
might be required across the CPU.

1

Description

2

2-- 6

TMSSC2 604-Pin Socket Support

Table 2--5: Certifications and compliances

g

gyp

Category Standards or description

Specifications

EC Declaration of Conformity -­Low Voltage

U.S. Nationally Recognized
Testing Laboratory Listing

Canadian Certification CAN/CSA C22.2 No. 1010.1 Safety requirements for electrical equipment for measurement,

Additional Compliance IEC61010--1/A2:1995 Safety requirements for electrical equipment for measurement,

Installation (Overvoltage)
Category Descriptions

Equipment Type Test and measuring

Safety Class Class 1 (as defined in IEC 61010-1, Annex H) -- grounded product

Overvoltage Category Mains input: Overvoltage Category II (as defined in IEC 61010-1, Annex J)

Pollution Degree Descriptions Pollution Degree 2 (as defined in IEC 61010-1). Note: Rated for indoor use only.

Compliance was demonstrated to the following specification as listed in the Official Journal of the
European Communities:

Essential requirements of the Low Voltage Directive 73/23/EEC, amended by 93/68/EEC

UL61010B:2003 Standard for electrical measuring and test equipment.

control, and laboratory use.

control, and laboratory use

Terminals on this product may have different installation (overvoltage) category designations. The
installation categories are:

CAT III Distribution-level mains (usually permanently connected). Equipment at this level is

typically in a fixed industrial location.

CAT II Local-level mains (wall sockets). Equipment at this level includes appliances, portable

tools, and similar products. Equipment is usually cord-connected.

CAT I Secondary (signal level) or battery operated circuits of electronic equipment.

All other inputs and outputs: 5 V maximum

TMSSC2 604-Pin Socket Support

2-- 7

Specifications

Dimensions

Figure 2--6 shows the dimensions of the probe head.

61.04 mm
(2.403 in)

53.721 mm
(2.115 in)

8.02 mm

(0.316 in)

2-- 8

Figure 2--6: Dimensions of the probe head

TMSSC2 604-Pin Socket Support

Specifications

Figure 2--7 shows the dimensions of the preprocessor unit.

CAUTION. To prevent damage to the circuitry in the preprocessor unit, you must
observe the required clearances in Table 2--4 on page 2--6 (clearances are not shown
in Figure 2--7).

474.32 mm
(18.674 in)

425.45 mm
(16.750 in)

420.37 mm
(16.550 in)

139.70 mm
(5.500 in)

Figure 2--7: Dimensions of the preprocessor unit

160.27 mm
(6.310 in)

TMSSC2 604-Pin Socket Support

2-- 9

Specifications

2-- 10

TMSSC2 604-Pin Socket Support

Reference

Reference Tables

The TMSSC2 product software provides reference files of the symbol and channel
group tables. Viewing the tables is not a requirement when preparing the module
for use. You can view the reference tables without connecting the Tektronix logic
analyzer to your target system.

Viewing Reference Tables

The following procedures provide information on how to view symbol and
channel group tables.

To View a Symbol Table

To Extract Channel

Assignments and Groups

After you load your support product, you can view the symbol tables on your
PC. The path is C:\Program Files\TLA 700\Supports\ <support files>. Use
WordPad, for example, to open a .tsf symbol file.

Symbol tables are not available for the PUB32G8N8 and PUB32G10 software
products.

Follow these steps to view symbol tables while using the logic analyzer:

NOTE. You must load the support software, merge the modules, and open a
listing window before beginning the following steps.

1. In the System menu, Select Symbols... and a Symbol window appears.

2. Select Load and a Load Symbol File window appears.

3. Select and right click one of the .tsf files and the Select menu appears.

4. Select Open With, for example WordPad, and a symbol text file appears.

To extract channel groups, your Tektronix logic analyzer software must be
version 4.3 Service Pack 1+ or later.

TMSSC2 604-Pin Socket Support

To extract the channel assignments, follow these steps:

1. Open the Window menu and select Setup: <support file name>.

2. Open the File menu, select Export Channel Setup, and a Channel Setup

Export window appears.

3- 1

Reference Tables

In the Channel Setup Export window, notice the Export Path to locate your
file later, and check that the Export Channel Information and the Export
Group Information boxes are checked (see Figure 3--1).

Under Field Delimiter there are four choices that control how the tables are
displayed, Tab is the default. Refer to the logic analyzer online help for more
information about delimiters.

Figure 3- 1: Channel Setup Export window

3. Select Export. Locate and view the exported ChannelSetup.txt file.

3- 2

TMSSC2 604-Pin Socket Support

Replaceable Parts List

Replaceable Parts List

This section contains a list of the replaceable components or modules for the
TMSSC2 Hardware Support package.

Parts Ordering Information

Replacement parts are available through your local Tektronix field office or
representative.

Changes to Tektronix products are sometimes made to accommodate improved
components as they become available and to give you the benefit of the latest
improvements. Therefore, when ordering parts, it is important to include the
following information in your order:

H Part number

H Instrument type or model number

H Instrument serial number

H Instrument modification number, if applicable

Module Servicing

If you order a part that has been replaced with a different or improved part, your
local Tektronix field office or representative will contact you concerning any
change in part number.

Modules can be serviced by selecting one of the following three options. Contact
your local Tektronix service center or representative for repair assistance.

Module Exchange. In some cases you may exchange your module for a reman­ufactured module. These modules cost significantly less than new modules and
meet the same factory specifications. For more information about the module
exchange program, call 1-800-833-9200. Outside North America, contact a
Tektronix sales office or distributor; see the Tektronix web site for a list of
offices: www.tektronix.com.

Module Repair and Return. You may ship your module to us for repair, after which
we will return it to you.

New Modules. You may purchase replacement modules in the same way as other
replacement parts.

TMSSC2 604-Pin Socket Support

4-- 1

Replaceable Parts List

Using the Replaceable Parts List

This section contains a list of the mechanical and/or electrical components that
are replaceable for the TMSSC2 Hardware Support package. Use this list to
identify and order replacement parts. The following table describes each column
in the parts list.

Parts list column descriptions

Column Column name Description

1 Figure & index number Items in this section are referenced by figure and index numbers to the exploded view illustrations

that follow.

2 Tektronix part number Use this part number when ordering replacement parts from Tektronix.

3 and 4 Serial number Column three indicates the serial number at which the part was first effective. Column four

indicates the serial number at which the part was discontinued. No entry indicates the part is
good for all serial numbers.

5 Qty This indicates the quantity of parts used.

6 Name & description An item name is separated from the description by a colon (:). Because of space limitations, an

item name may sometimes appear as incomplete. Use the U.S. Federal Catalog handbook H6-1
for further item name identification.

7 Mfr. code This indicates the code of the actual manufacturer of the part.

8 Mfr. part number This indicates the actual manufacturer’s or vendor’s part number.

Abbreviations

Mfr. Code to Manufacturer

Cross Index

Abbreviations conform to American National Standard ANSI Y1.1--1972.

The table titled Manufacturers Cross Index shows codes, names, and addresses of
manufacturers or vendors of components listed in the parts list.

4-- 2

TMSSC2 604-Pin Socket Support

Replaceable Parts List

Manufacturers cross index

Mfr.
code

060D9 TENSOLITE COMPANY PRECISION HARNESS AND ASSEMBLY

060D9 TENSOLITE COMPANY PRECISION HARNESS AND ASSEMBLY~3000

0B445 ELECTRI--CORD MFG CO INC 312 EAST MAIN STREET WESTFIELD, PA 16950

0KB01 STAUFFER SUPPLY CO 810 SE SHERMAN PORTLAND, OR 97214--4657

0KB01 STAUFFER SUPPLY CO 810 SE SHERMAN PORTLAND, OR 97214--4657

61638 ADVANCED INTERCONNECTIONS CORP 5 ENERGY WAY~PO BOX 1019 WEST WARWICK, RI 02893 --1019

S3109 FELLER U.S. CORPORATION 10B VAN DYKE AVENUE NEW BRUNSWICK, NJ 08901

TK1373 PATELEC --CEM 10156 TORINO~VAICENTALLO~62/456 ITALY,

TK2548 XEROX CORPORATION 7431 EVERGREEN PARKWAY HILLSBORO, OR 97124

TK6121 TUMBLER CORP 4241 BUSINESS CENTER DR FREMONT, CA 94538

TK6585 TRESKE PRECISION MACHINE INC 14140 SW GALBREATH DRIVE SHERWOOD, OR 97140

Manufacturer Address City, state, zip code

VANCOUVER, WA 98661

3000 COLUMBIA HOUSE BLVD~#120

VANCOUVER, WA 98661

COLUMBIA HOUSE BLVD~#120

TMSSC2 604-Pin Socket Support

4-- 3

Replaceable Parts List

Replaceable parts list

Fig. &
index
number

4--1--1 672-- 5706--50 1 CIRCUIT BD ASSY; TMSSC2 PROBE HEAD BOARD

Tektronix part
number

--2 361--1807--00 1 SPACER;HEATSINK ATTACH;TEJAS TK6585 361-- 1807--00

--3 200--4861--00 4 COVER; BOTTOM,HEATSINK ATTACH;TEJAS TK6585 200-- 4861--00

--4 200--4862--00 4 COVER,TOP; HEATSINK ATTACH;TEJAS TK6585 200-- 4862--00

--5 211--0511--00 4 SCREW,MACHINE; 6--32 X 0.5,PNH,STL CD PL, POZ 0KB01 211--0511--00

--6 211--0687-- 00 4 SCREW,MACHINE; 6--32 X 0.75,FLH,100 DEG,STL CD PL,POZ 0KB01 211--0687--00 OBD

071-- 1345--XX 1 MANUAL,TECH; INSTRUCTION, HARDWARE;TMSSC2,DP TK2548 071 --1345--XX

161-- 0104--00 1 CA ASSY,PWR:3,18 AWG,98 L,250V/10AMP,98

003-- 1889--00 1 TOOL, EXTRACTION;PGA SOCKET,TWO--SIDED,19 TEETH

012-- 1661--00 7 CA ASSY; INTCON,SHLD RIBBON,MCP,72 L 060D9 012--1661--00

-- -- ---- -- ---- -- ----* 4--5 P6860 PROBE 80009 ORDER BY

161-- 0104--05 1 CA ASSY,PWR:3,1.0MM SQ,250V/10A,2.5

161-- 0104--06 1 CA ASSY,PWR:3,1.0MM SQ,250V/10A,2.5

161-- 0104--07 1 CA ASSY,PWR:3,1.0MM SQ,240V/10A,2.5

161-- 0167--00 1 CA ASSY,PWR:3,0.75MM SQ,250V/10A,2.5

Serial no.
effective

Serial no.
discont’d

Qty Name & description

W/CABLES & PADDLE BD;TESTED

STANDARD ACCESSORIES

INCH,RTANG,IEC320,RCPT X STR,NEMA 15--5P,W/CORD
GRIP

PER SIDE;1710--19

OPTIONAL ACCESSORIES

METER,RTANG,IEC320,RCPT,AUSTRALIA,SAFTEY
CONTROLLED

METER,RTANG,IEC320,RCPT,EUROPEAN,SAFTEY
CONTROLLED

METER,RTANG,IEC320,RCPT X 13A,FUSED,UK PLUG,(13A
FUSE),UK PLUG,(13A FUSE),UNITED KINGDOM,SAFTEY
CONTROL

METER,RTANG,IEC320,RCPT,SWISS,NO CORD
GRIP,SAFTEY CONTR

Mfr.
code

80009 672--5706--50

TK6121 ORDER BY DE-

61638 1710--19

TK1373 ORDER BY

TK1373 ORDER BY

TK2541 ORDER BY

S3109 ORDER BY

Mfr. part number

SCRIPTION

DESCRIPTION

DESCRIPTION

DESCRIPTION

DESCRIPTION

DESCRIPTION

4-- 4

TMSSC2 604-Pin Socket Support

Replaceable Parts List

2

5

4

1

3

6

Figure 4--1: Probe adapter exploded view

TMSSC2 604-Pin Socket Support

4-- 5

Replaceable Parts List

(Return the prepro­cessor unit to the
factory for service)

4-- 6

Figure 4--2: Preprocessor unit exploded view

TMSSC2 604-Pin Socket Support

Index

Index

A

About this manual set, ix
Address, Tektronix, x
Address bus, 1-- 3
Airflow clearance, 2-- 6
Application, logic analyzer configuration, 1--1

C

Care and maintenance, external, 1--16
Circuit description, 2-- 1
Clock rate, 1--3
Connections

LAI_Cable, 1--2
P6860, 1--2

to target system, 1--5
Contacting Tektronix, x
Cooling requirements, 1--3

D

Data bus, 1--3
Default channel mapping

LAI_Cable labels, 1-- 3

probe labels, 1-- 3
Definitions

information on basic operations, ix

Master module, ix

Slave module, ix
Dimensions

preprocessor unit, 2-- 9

probe head, 2-- 8
Disabling the cache, 1--4
Disassembler

logic analyzer configuration, 1--1

setup, 1--15

E

Electrical specifications, 2-- 1, 2--5

AC adapter, 2--6

BCKL timing, 2--6

clock rate, 2--5

power requirements, 2-- 5

setup time, 2--5

source synchronous capture, disabled, 2--5

Environmental specifications, 2-- 6

airflow clearance, 2-- 6
altitude, 2--6
electrostatic immunity, 2--6
humidity, 2--6
temperature, 2--6

Extraction tool, 1-- 10

F

Forced, air cooling, 1--3
Fuses, maintenance, 1--16

H

Hardware installation, applying labels, 1--11

I

Installing support software, 1--15

L

LAI_Cable

configuration, 1--13

connections, 1--2, 1--14
LAI_Cable labels, default channel mapping, 1--3
Loading diagrams, 2--3
Logic analyzer

compatibility, 1--15

configuration for disassembler, 1--1

configuration for the application, 1--1

M

Maintenance, fuses, 1--16
Manual

conventions, ix

how to use the set, ix
Master module, definition, ix
Modules connections, 1-- 2

O

Options, 1--3

TMSSC2 604-Pin Socket Support

Index--1

Index

P

P6860, 1--2
P6860 probe, configuration, 1--13
Phone number, Tektronix, x
Power, applying, 1--14
Probe adapter

hardware description, 1-- 1

software compatibility, 1--1
Probe labels, default channel mapping, 1--3
Product support, contact information, x

R

Reference tables

symbol, channel group, group definition, 3--1

viewing, 3--1
Removing hardware, from target system, 1--10, 1--17
Requirements, forced air cooling, 1--3
Reset, 1--3
Restrictions, 1--3

address bus, 1-- 3

clock rate, 1--3

data bus, 1-- 3

disabling the cache, 1--4

Setups

disassembler, 1--15

support, 1--15
Shipping, probe adapter, assembled, 1--19
Signals, active low sign, ix
Slave module, definition, ix
Specifications, 2--1

electrical, 2--1, 2--5

environmental, 2--6

mechanical (dimensions), 2-- 8, 2--9
Storage, long--term, 1--18
Support, setup, 1--15

T

Technical support, contact information, x
Tektronix, contacting, x
Terminology, ix
TLA7AX, probes, measurements, 1--2
TLA7AX module, measurements, 1--2

U

URL, Tektronix, x

S

Service support, contact information, x

W

Web site address, Tektronix, x

Index--2

TMSSC2 604-Pin Socket Support