How it Works
Tektronix
Loading...
TMS600
Instruction Manual
94 pgs1.34 Mb0

Tektronix TMS600 Instruction Manual

Download
Instruction Manual
TMS 600 SAB-C167 80C167 Microcontroller Support
070-9800-00
There are no current European directives that apply to this product. This product provides cable and test lead connections to a test object of electronic measuring and test equipment.
The servicing instructions are for use by qualified personnel only. To avoid personal injury, do not perform any servicing unless you are qualified to do so. Refer to all safety summaries prior to performing service.
Copyright E T ektronix, Inc. All rights reserved. Licensed software products are owned by Tektronix or its suppliers and are protected by United States copyright laws and international treaty provisions.
Use, duplication, or disclosure by the Government is subject to restrictions as set forth in subparagraph (c)(1)(ii) of the Rights in T echnical Data and Computer Software clause at DFARS 252.227-7013, or subparagraphs (c)(1) and (2) of the Commercial Computer Software – Restricted Rights clause at F AR 52.227-19, as applicable.
T ektronix products are covered by U.S. and foreign patents, issued and pending. Information in this publication supercedes that in all previously published material. Specifications and price change privileges reserved.
Printed in the U.S.A.
T ektronix, Inc., P.O. Box 1000, Wilsonville, OR 97070–1000 TEKTRONIX and TEK are registered trademarks of T ektronix, Inc.
SOFTWARE WARRANTY
T ektronix 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, T ektronix 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. T ektronix 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 T ektronix 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 WARRANTIES, 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’S PAYMENT 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.
HARDWARE WARRANTY
T ektronix 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, T ektronix, at its option, either 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 period and make suitable arrangements for the performance of service. Customer shall be responsible for packaging and shipping the defective product to the service center designated by T ektronix, 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 T ektronix 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. T ektronix shall not be obligated to furnish service under this warranty a) to repair damage resulting from attempts by personnel other than T ektronix representatives to install, repair or service the product; b) to repair damage resulting from improper use or connection to incompatible equipment; c) to repair any damage or malfunction caused by the use of non-T ektronix 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 difficulty of servicing the product.
THIS WARRANTY IS GIVEN BY TEKTRONIX IN LIEU OF ANY OTHER WARRANTIES, 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 CUST OMER 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

Operating Basics

General Safety Summary v. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Service Safety Summary vii. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Preface: Microcontroller Support Documentation ix. . . . . . . . . . . . . . .
Manual Conventions ix. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Logic Analyzer Documentation x. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Contacting T ektronix x. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Support Description 1–1. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Logic Analyzer Software Compatibility 1–2. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Logic Analyzer Configuration 1–2. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Requirements and Restrictions 1–2. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Configuring the Probe Adapter 1–3. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Connecting to a System Under T est 1–4. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
With a PQFP Probe Adapter 1–4. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Without a Probe Adapter 1–8. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Applying and Removing Power 1–11. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Setting Up the Support 2–1. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Channel Group Definitions 2–1. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Clocking Options 2–1. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Alternate Bus Master Cycles 2–2. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Write Mode 2–2. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Symbols 2–2. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Acquiring and Viewing Disassembled Data 2–3. . . . . . . . . . . . . . . . . . . . .
Acquiring Data 2–3. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Viewing Disassembled Data 2–3. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Hardware Display Format 2–4. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Software Display Format 2–5. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Control Flow Display Format 2–6. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Subroutine Display Format 2–6. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Changing How Data is Displayed 2–6. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Optional Display Selections 2–7. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Marking Cycles 2–7. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Displaying Exception Labels 2–9. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
TMS 600 SAB-C167 80C167 Microcontroller Support Instruction Manual
i
Table of Contents

Specifications

Probe Adapter Description 3–1. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Probe Adapter Configuration 3–2. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Probe Adapter Specifications 3–2. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Probe Adapter Channel Assignments 3–6. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
How Data is Acquired 3–12. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Custom Clocking 3–12. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Clocking Options 3–14. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Alternate Microprocessor Connections 3–15. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Signals On the Probe Adapter 3–15. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Extra Channels 3–15. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
80C167 Microcontroller Signal Names to 144 pin EIAJ QFP test clip pinout 3–15. .

Maintenance

Probe Adapter Circuit Description 4–1. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Replacing Signal Leads 4–1. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Replacing the Fuse 4–2. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

Replaceable Electrical Parts

Parts Ordering Information 5–1. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Using the Replaceable Electrical Parts List 5–1. . . . . . . . . . . . . . . . . . . . . . . . . . . . .

Replaceable Mechanical Parts

Parts Ordering Information 6–1. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Using the Replaceable Mechanical Parts List 6–1. . . . . . . . . . . . . . . . . . . . . . . . . . .

Index

ii
TMS 600 SAB-C167 80C167 Microcontroller Support Instruction Manual

List of Figures

Table of Contents
Figure 1–1: Jumper locations on the probe adapter 1–3. . . . . . . . . . . . . .
Figure 1–2: Attaching the PQFP clip to the probe adapter. 1–5. . . . . . . .
Figure 1–3: Connecting the probe adapter to the SUT. 1–6. . . . . . . . . . . .
Figure 1–4: Connecting the cable to the high-density probe 1–7. . . . . . . .
Figure 1–5: Connecting channel and clock probes to a
high-density probe 1–8. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Figure 1–6: Location of the power jack 1–12. . . . . . . . . . . . . . . . . . . . . . . . .
Figure 2–1: Hardware display format 2–5. . . . . . . . . . . . . . . . . . . . . . . . . .
Figure 3–1: Jumper locations on the probe adapter 3–2. . . . . . . . . . . . . .
Figure 3–2: Dimensions of the probe adapter 3–5. . . . . . . . . . . . . . . . . . . .
Figure 3–3: 80C167 multiplexed bus timing 3–13. . . . . . . . . . . . . . . . . . . . .
Figure 3–4: 80C167 demultiplexed bus timing 3–14. . . . . . . . . . . . . . . . . . .
Figure 4–1: Location of the fuse 4–2. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
TMS 600 SAB-C167 80C167 Microcontroller Support Instruction Manual
iii
Table of Contents

List of Tables

Table 1–1: Supported microcontrollers 1–1. . . . . . . . . . . . . . . . . . . . . . . .
Table 1–2: 80C167 signal connections for channel probes 1–9. . . . . . . . .
Table 1–3: 80C167 signal connections for clock probes 1–11. . . . . . . . . . . .
Table 2–1: Control group symbol table definitions 2–2. . . . . . . . . . . . . . .
Table 2–2: Meaning of special characters in the display 2–4. . . . . . . . . .
Table 2–3: Cycle type definitions 2–4. . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Table 3–1: Electrical specifications 3–2. . . . . . . . . . . . . . . . . . . . . . . . . . . .
Table 3–2: Environmental specifications 3–4. . . . . . . . . . . . . . . . . . . . . . .
Table 3–3: Certifications and compliances 3–4. . . . . . . . . . . . . . . . . . . . . .
Table 3–4: Address group channel assignments 3–6. . . . . . . . . . . . . . . . .
Table 3–5: Data group channel assignments 3–7. . . . . . . . . . . . . . . . . . . . .
Table 3–6: Control group channel assignments 3–8. . . . . . . . . . . . . . . . . .
Table 3–7: Port2 channel group assignments 3–8. . . . . . . . . . . . . . . . . . . .
Table 3–8: Misc0 group channel assignments 3–9. . . . . . . . . . . . . . . . . . .
Table 3–9: Misc1 group channel assignments 3–10. . . . . . . . . . . . . . . . . . .
Table 3–10: P7 (7-0) channel group assignments 3–10. . . . . . . . . . . . . . . . .
Table 3–11: P8 (7-0) channel group assignments 3–11. . . . . . . . . . . . . . . . .
Table 3–12: Clock channel assignments 3–12. . . . . . . . . . . . . . . . . . . . . . . .
iv
TMS 600 SAB-C167 80C167 Microcontroller Support Instruction Manual

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.
To Avoid Fire or 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. Observe All Terminal Ratings. To avoid fire or shock hazard, observe all ratings
and marking on the product. Consult the product manual for further ratings information before making connections to the product.
Do not apply a potential to any terminal, including the common terminal, that exceeds the maximum rating of that terminal.
Use Proper AC Adapter. Use only the AC adapter specified for this product. 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.
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.
TMS 600 SAB-C167 80C167 Microcontroller Support Instruction Manual
v
General Safety Summary
Symbols and Terms
T erms 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.
T erms 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:
WARNING
High Voltage
Protective Ground
(Earth) T erminal
CAUTION
Refer to Manual
Double
Insulated
vi
TMS 600 SAB-C167 80C167 Microcontroller Support Instruction Manual

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, disconnect the main power by means of the power cord or, if provided, the power switch.
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.
TMS 600 SAB-C167 80C167 Microcontroller Support Instruction Manual
vii
Service Safety Summary
viii
TMS 600 SAB-C167 80C167 Microcontroller Support Instruction Manual

Preface: Microcontroller Support Documentation

This instruction manual contains specific information about the TMS 600 80C167 microcontroller support 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 microcontroller supports on the logic analyzer for which the TMS 600 80C167 support was purchased, you will probably only need this instruction manual to set up and run the support.
If you are not familiar with operating microcontroller supports, you will need to supplement this instruction manual with information on basic operations to set up and run the support.
Information on basic operations of microcontroller supports is included with each product. Each logic analyzer has basic information that describes how to perform tasks common to supports on that platform. This information can be in the form of online help, an installation manual, or a user manual.
This manual provides detailed information on the following topics: H Connecting the logic analyzer to the system under test

Manual Conventions

H Setting up the logic analyzer to acquire data from the system under test H Acquiring and viewing disassembled data H Using the probe adapter
This manual uses the following conventions: H The term “disassembler” refers to the software that disassembles bus cycles
into instruction mnemonics and cycle types.
H The phrase “information on basic operations” refers to online help, an
installation manual, or a basic operations of microcontroller supports user manual.
H In the information on basic operations, the term “XXX” or “P54C” used in
field selections and file names must be replaced with C167. This is the name of the microcontroller in field selections and file names you must use to operate the 80C167 support.
H The term “system under test” and “SUT” refers to the microcontroller-based
system from which data will be acquired.
TMS 600 SAB-C167 80C167 Microcontroller Support Instruction Manual
ix
Preface: Microcontroller Support Documentation
H The term “logic analyzer” refers to the Tektronix logic analyzer for which
this product was purchased.
H The term “module” refers to a 102/136-channel or a 96-channel module. H “80C167” refers to the SAB-C167 or the 80C167, which are two different
names for the same microcontroller.
H A tilde (~) following a signal name indicates an active low signal.

Logic Analyzer Documentation

A description of other documentation available for each type of Tektronix logic analyzer is located in the corresponding module user manual. The manual set provides the information necessary to install, operate, maintain, and service the logic analyzer and associated products.

Contacting Tektronix

Product Support
Service Support
For other information
To write us Tektronix, Inc.
For application-oriented questions about a Tektronix measure­ment product, call toll free in North America: 1-800-TEK-WIDE (1-800-835-9433 ext. 2400) 6:00 a.m. – 5:00 p.m. Pacific time
Or, contact us by e-mail: tm_app_supp@tek.com
For product support outside of North America, contact your local Tektronix distributor or sales office.
Contact your local Tektronix distributor or sales office. Or, visit our web site for a listing of worldwide service locations.
http://www.tek.com In North America:
1-800-TEK-WIDE (1-800-835-9433) An operator will direct your call.
P.O. Box 1000 Wilsonville, OR 97070-1000
x
TMS 600 SAB-C167 80C167 Microcontroller Support Instruction Manual
Getting Started

Getting Started

Support Description

This chapter provides information on the following topics and tasks:
H A description of the TMS 600 microcontroller support package H Logic analyzer software compatibility H Your SUT (system under test) requirements H Support restrictions H How to configure your probe adapter H How to connect to your SUT H How to apply and remove power from the probe adapter
The TMS 600 microcontroller support package disassembles data from systems that are based on the Siemens 80C167 microcontroller. The support runs on a compatible Tektronix logic analyzer equipped with a 102/136-channel module or a 96-channel module.
Refer to information on basic operations to determine how many modules and probes your logic analyzer needs to meet the minimum channel requirements for the TMS 600 microcontroller support.
Table 1–1 shows the microcontrollers and packages from which the TMS 600 support can acquire and disassemble data.
T able 1–1: Supported microcontrollers
Name Package
80C167CR PQFP 80C167SR PQFP 80C167S PQFP
A complete list of standard and optional accessories is provided at the end of the parts list in the Replaceable Mechanical Parts chapter.
TMS 600 SAB-C167 80C167 Microcontroller Support Instruction Manual
1–1
Getting Started
To use this support efficiently, you need to have the items listed in the informa­tion on basic operations as well as:
H C167 User’s Manual, Siemens, August 1994 H C16x Instruction Set Manual, Siemens, September 1995
Information on basic operations also contains a general description of supports.

Logic Analyzer Software Compatibility

The label on the microcontroller support floppy disk states which version of logic analyzer software the support is compatible with.

Logic Analyzer Configuration

To use the 80C167 support, the Tektronix logic analyzer must be equipped with either a 102/136-channel module, or a 96-channel module at a minimum. The module must be equipped with enough probes to acquire channel and clock data from signals in your 80C167-based system.
Refer to information on basic operations to determine how many modules and probes the logic analyzer needs to meet the channel requirements.

Requirements and Restrictions

You should review the general requirements and restrictions of microcontroller supports in the information on basic operations as they pertain to your SUT.
You should also review electrical, environmental, and mechanical specifications in the Specifications chapter in this manual as they pertain to your system under test, as well as the following descriptions of other 80C167 support requirements and restrictions.
System Clock Rate. The TMS 600 support can acquire data from the 80C167 microcontroller at speeds of up to 20 MHz
Hardware Reset. If a hardware reset occurs in your 80C167 system during an acquisition, the disassembler might acquire an invalid sample.
1
; it has been tested to 5 MHz.
1–2
1
Specification at time of printing. Contact your Tektronix sales representative for current information on the fastest devices supported.
TMS 600 SAB-C167 80C167 Microcontroller Support Instruction Manual
Dynamic Bus Width Switching. The disassembler does not acquire data when the microcontroller is operating in dynamic bus width switching mode.
Code In Internal ROM. The disassembler does not acquire code in internal ROM when executed.
PEC Detection. The disassembler does not support PEC (peripheral event controller) detection by the disassembler, only the marking options are provided.
Opcode Fetch and Data Read. There is no signal on the microcontroller to distinguish between Opcode Fetches and Data Reads. Use marking options to correct the disassembler.

Configuring the Probe Adapter

There is one jumper on the probe adapter to select between multiplexed and demultiplexed address mode.
Getting Started
Figure 1–1 shows the MUX/DEMUX jumper location on the probe adapter.
MUX/DEMUX Jumper
Figure 1–1: Jumper locations on the probe adapter
TMS 600 SAB-C167 80C167 Microcontroller Support Instruction Manual
1–3
Getting Started

Connecting to a System Under Test

Before you connect to the SUT, you must connect the probes to the module. Your SUT must also have a minimum amount of clear space surrounding the microcontroller to accommodate the probe adapter. Refer to the Specifications chapter in this manual for the required clearances.
The channel and clock probes shown in this chapter are for a 102/136-channel module. The probes will look different if you are using a 96-channel module.
The general requirements and restrictions of microcontroller supports in the information on basic operations shows the vertical dimensions of a channel or clock probe connected to square pins on a circuit board.
With a PQFP Probe
Adapter
To connect the logic analyzer to a SUT using a PQFP probe adapter, follow these steps:
1. Turn off power to your SUT. It is not necessary to turn off the logic analyzer.
CAUTION. Static discharge can damage the microcontroller, the probe adapter, the probes, or the module. To prevent static damage, handle all the above only in a static-free environment.
Always wear a grounding wrist strap or similar device while handling the microcontroller and probe adapter.
2. To discharge your stored static electricity, touch the ground connector located
on the back of the logic analyzer. Then, touch any of the ground pins of the probe adapter to discharge stored static electricity from the probe adapter.
3. Line up pin 1 on the 144 pin EIAJ QFP test clip, to pin 1 on the connector
located on the bottom of the probe adapter circuit board, as shown in Figure 1–2.
1–4
TMS 600 SAB-C167 80C167 Microcontroller Support Instruction Manual
Probe adapter
144 pin EIAJ QFP test clip
Getting Started
Pin 1
Figure 1–2: Attaching the PQFP clip to the probe adapter.
CAUTION. This EIAJ PQFP (Plastic Quad Flat Pack) probe adapter has been equipped with a clip that has been designed for tight tolerances.
The clip supports only PQFP devices that conform to the EIAJ standard. Attaching the clip to a device that does not conform to this EIAJ standard can easily damage the clip’s connection pins and/or the microcontroller, causing the probe adapter to malfunction.
Please contact the IC manufacturer to verify that the microcontroller you are connecting to conforms to the EIAJ standard.
For best performance and long probe life, exercise extreme care when connecting the probe to the microcontroller.
TMS 600 SAB-C167 80C167 Microcontroller Support Instruction Manual
1–5
Getting Started
4. Place the probe adapter assembly onto the microcontroller on your SUT,
as shown in Figure 1–3.
Probe adapter
assembly
Pin 1
Figure 1–3: Connecting the probe adapter to the SUT.
Microcontroller Pin 1
1–6
TMS 600 SAB-C167 80C167 Microcontroller Support Instruction Manual
Pin-1 side
Getting Started
5. Align pin 1 on the LO cable connector, the end on the narrowest cable strip
of the cable, with pin 1 on the LO connector on the high-density probe. Connect the cable to the connector as shown in Figure 1–4.
High-density probe
Figure 1–4: Connecting the cable to the high-density probe
CAUTION. Failure to correctly place the probe adapter onto the microcontroller might permanently damage all electrical components when power is applied.
Center the clip on the microcontroller and apply an equal downward force on all four sides of the clip, slightly rocking the probe adapter in a clockwise circle.
Do not apply leverage to the probe adapter when installing or removing it.
TMS 600 SAB-C167 80C167 Microcontroller Support Instruction Manual
1–7
Getting Started
6. Connect the channel and clock probes to the high-density probe as shown in
Figure 1–5. Match the channel groups and numbers on the probe labels to the corresponding pins on the high-density probe. Match the ground pins on the probes to the corresponding pins on the probe adapter.
Clock probe
Hold the channel probes by the podlet holder when connecting them to the high-density probe. Do not hold them by the cables or necks of the podlets.
Channel probe and podlet holder
Without a Probe Adapter
Channels connect to
the logic analyzer
High-density probe
Figure 1–5: Connecting channel and clock probes to a high-density probe
7. Measure the resistance between Vcc and ground to verify that they are not
shorted together. If you detect a short, determine the source and repair the problem before applying power.
You can use channel probes, clock probes, and leadsets with a commercial test clip (or adapter) to make connections between the logic analyzer and your SUT.
To connect the probes to 80C167 signals on the SUT using a test clip, follow these steps:
1. Turn off power to your SUT. It is not necessary to turn off power to the logic
analyzer.
1–8
TMS 600 SAB-C167 80C167 Microcontroller Support Instruction Manual
Getting Started
CAUTION. Static discharge can damage the microcontroller, the probes, or the module. To prevent static damage, handle all of the above only in a static-free environment.
Always wear a grounding wrist strap or similar device while handling the microcontroller.
2. To discharge your stored static electricity, touch the ground connector located
on the back of the logic analyzer. If you are using a test clip, touch any of the ground pins on the clip to discharge stored static electricity from it.
3. Use Table 1–2 to connect the channel probes to 80C167 signal pins on the
test clip or in the SUT. Use leadsets to connect at least one ground lead from each channel probe and
the ground lead from each clock probe to ground pins on your test clip.
T able 1–2: 80C167 signal connections for channel probes
Section:channel 80C167 signal Section:channel 80C167 signal
A3:7 P2.15* D3:7 T2IN* A3:6 P2.14* D3:6 T3IN* A3:5 P2.13* D3:5 T4IN* A3:4 P2.12* D3:4 CAPIN* A3:3 P2.1 1* D3:3 MRST* A3:2 P2.10* D3:2 MTSR* A3:1 P2.9* D3:1 TXD0* A3:0 P2.8* D3:0 RXD0* A2:7 A23 D2:7 CC31IO* A2:6 A22 D2:6 CC30IO* A2:5 A21 D2:5 CC29IO* A2:4 A20 D2:4 CC28IO* A2:3 A19 D2:3 POUT3* A2:2 A18 D2:2 POUT2* A2:1 A17 D2:1 POUT1* A2:0 A16 D2:0 POUT0* A1:7 A15 D1:7 D15 A1:6 A14 D1:6 D14 A1:5 A13 D1:5 D13 A1:4 A12 D1:4 D12
TMS 600 SAB-C167 80C167 Microcontroller Support Instruction Manual
1–9
Getting Started
T able 1–2: 80C167 signal connections for channel probes (cont.)
Section:channel 80C167 signalSection:channel80C167 signal
A1:3 A1 1 D1:3 D11 A1:2 A10 D1:2 D10 A1:1 A9 D1:1 D9 A1:0 A8 D1:0 D8 A0:7 A7 D0:7 D7 A0:6 A6 D0:6 D6 A0:5 A5 D0:5 D5 A0:4 A4 D0:4 D4 A0:3 A3 D0:3 D3 A0:2 A2 D0:2 D2 A0:1 A1 D0:1 D1 A0:0 A0 D0:0 D0 C3:7 CS4~* C2:7 BHE~ C3:6 CS3~* C2:6 WR~ C3:5 CS2~* C2:5 RD~ C3:4 CS1~* C2:4 ALE C3:3 CS0~* C2:3 READY~* C3:2 CLKOUT* C2:2 RSTIN~ C3:1 NMI~* C2:1 HLDA~ C3:0 EA~* C2:0 RSTOUT~ C1:7 P8.7* C0:7 P2.7* C1:6 P8.6* C0:6 P2.6* C1:5 P8.5* C0:5 P2.5* C1:4 P8.4* C0:4 P2.4* C1:3 P8.3* C0:3 P2.3* C1:2 P8.2* C0:2 P2.2* C1:1 P8.1* C0:1 P2.1* C1:0 P8.0* C0:0 P2.0*
* Signal not required for disassembly.
1–10
TMS 600 SAB-C167 80C167 Microcontroller Support Instruction Manual
Getting Started
Table 1–3 shows the clock probes and the 80C167 signal to which they must connect for disassembly to be correct.
T able 1–3: 80C167 signal connections for clock probes
Section:channel 80C167 signal
CK:3 BHE~= CK:2 WR~= CK:1 RD~= CK:0 ALE=
= Indicates the channel is double probed
4. Align pin 1 or A1 of your test clip with the corresponding pin 1 or A1 of the
80C167 microcontroller in your SUT and attach the clip.

Applying and Removing Power

A power supply for the TMS 600 80C167 probe adapter is included with the support. The power supply provides +5 volts power to the probe adapter. The center connector of the power jack connects to Vcc.
NOTE. Whenever the SUT is powered off, be sure to remove power from the probe adapter.
To apply power to the 80C167 probe adapter and SUT, follow these steps:
CAUTION. Failure to use the +5 V power supply provided by Tektronix might permanently damage the probe adapter and 80C167 microcontroller. Do not mistake another power supply that looks similar for the +5 V power supply.
1. Connect the +5 V power supply to the jack on the probe adapter. Figure 1–6
shows the location of the jack on the adapter board.
CAUTION. Failure to apply power to the probe adapter before applying power to your SUT might permanently damage the 80C167 microcontroller and SUT.
2. Plug the power supply for the probe adapter into an electrical outlet.
3. Power on the SUT.
TMS 600 SAB-C167 80C167 Microcontroller Support Instruction Manual
1–11
Getting Started
Figure 1–6 shows the location of the power jack.
Power jack
Figure 1–6: Location of the power jack
To remove power from the SUT and 80C167 probe adapter, follow these steps:
CAUTION. Failure to power down your SUT before removing the power from the probe adapter might permanently damage the 80C167 microcontroller and SUT.
1. Power off your SUT.
2. Unplug the power supply for the probe adapter from the electrical outlet.
1–12
TMS 600 SAB-C167 80C167 Microcontroller Support Instruction Manual
Operating Basics

Setting Up the Support

This section provides information on how to set up the support. Information covers the following topics:
H Channel group definitions H Clocking options H Symbol table files
The information in this section is specific to the operations and functions of the TMS 600 80C167 support on any Tektronix logic analyzer for which it can be purchased. Information on basic operations describes general tasks and functions.
Before you acquire and disassemble data, you need to load the support and specify setups for clocking and triggering as described in the information on basic operations. The support provides default values for each of these setups, but you can change them as needed.

Channel Group Definitions

Clocking Options

The software automatically defines channel groups for the support. The channel groups for the 80C167 support are Address, Data, Mnemonic, Control, Port2, Misc0, Misc1, P7 (7-0), and P8 (7-0). If you want to know which signal is in which group, refer to the channel assignment tables beginning on page 3–6.
The TMS 600 support offers a microcontroller-specific clocking mode for the 80C167 microcontroller. This clocking mode is the default selection whenever you load the 80C167 support.
A description of how cycles are sampled by the module using the support and probe adapter is found in the Specifications chapter.
Disassembly will not be correct with the Internal or External clocking modes. Information on basic operations describes how to use these clock selections for general purpose analysis.
The clocking options for the TMS 600 support are: Write Mode and Alternate Bus Master Cycles.
TMS 600 SAB-C167 80C167 Microcontroller Support Instruction Manual
2–1
Setting Up the Support
Alternate Bus Master

Symbols

Cycles
Write Mode
An alternate bus master cycle is defined as the cycle in which the 80C167 microcontroller gives up the bus to an alternate device (a DMA device or another microcontroller). These types of cycles are acquired when you select Included.
The Alternate Bus Master cycles will have the following selections available:
H Excluded – DMA cycles are not acquired (default) H Included – DMA cycles are acquired
The clocking options write mode is used to configure the Write Configuration used by the microcontroller.
The write mode will have the following selections available:
H WR – In WR mode pin WR~ retains its normal function. H WRL-WRH – In WRL-WRH mode pin WR~ acts as WRL~, and pin WRH~
acts as byte high enable.
The TMS 600 support supplies one symbol table file. The 80C167_Ctrl file replaces specific Control channel group values with symbolic values when Symbolic is the radix for the channel group.
Table 2–1 shows the name, bit pattern, and meaning for the symbols in the file 80C167_Ctrl, the Control channel group symbol table.
T able 2–1: Control group symbol table definitions
Control group value
ALE HLDA~
Symbol
  
   
    
     
RD~ RSTIN~
WR~ RSTOUT~
BHE~
Meaning
Memory code read (Opcode Fetch) Any memory I/O write High data memory I/O write
Information on basic operations describes how to use symbolic values for triggering and for displaying other channel groups symbolically, such as the Address channel group.
2–2
TMS 600 SAB-C167 80C167 Microcontroller Support Instruction Manual

Acquiring and Viewing Disassembled Data

This section describes how to acquire data and view it disassembled. Information covers the following topics and tasks:
H Acquiring data H Viewing disassembled data in various display formats H Cycle type labels H Changing the way data is displayed H Changing disassembled cycles with the mark cycles function

Acquiring Data

Once you load the 80C167 support, choose a clocking mode, and specify the trigger, you are ready to acquire and disassemble
If you have any problems acquiring data, refer to information on basic operations in your online help or Appendix A: Error Messages and Disassembly Pr oblems in the basic operations user manual.
data.

Viewing Disassembled Data

You can view disassembled data in four display formats: Hardware, Software, Control Flow, and Subroutine. The information on basic operations describes how to select the disassembly display formats.
NOTE. Selections in the Disassembly property page (the Disassembly Format Definition overlay) must be set correctly for your acquired data to be disas­sembled correctly. Refer to Changing How Data is Displayed on page 2–6.
The default display format shows the Address, Data, and Control channel group values for each sample of acquired data.
The disassembler displays special characters and strings in the instruction mnemonics to indicate significant events. Table 2–2 shows these special characters and strings, and gives a definition of what they represent.
TMS 600 SAB-C167 80C167 Microcontroller Support Instruction Manual
2–3
Acquiring and Viewing Disassembled Data
T able 2–2: Meaning of special characters in the display
Character or string displayed Meaning
m The instruction was manually marked as a program fetch **** Indicates there is insufficient data available for complete
# Indicates an immediate value t Indicates the number shown is in decimal, such as #12t
disassembly of the instruction; the number of asterisks indicates the width of the data that is unavailable. Each two asterisks represent one byte.
Hardware Display Format
In Hardware display format, the disassembler displays certain cycle type labels in parentheses. Table 2–3 shows these cycle type labels and gives a definition of the cycle they represent. Reads to interrupt and exception vectors will be labeled with the vector name.
T able 2–3: Cycle type definitions
Cycle type Definition
   
    
  
    
   
  
  
    
Used to indicate that the write operation is being performed Used to indicate that a high byte data write operation is
being performed Used to indicate the RESET state of the microcontroller The combination of control bits is unexpected and/or
unrecognized Used to indicate a memory read Used to indicate an instruction fetch that the microcontroller
did not use Used to indicate that an operand is displayed as an
extension Used to indicate that a low byte data write operation is being
used
2–4
Computed cycle types.
TMS 600 SAB-C167 80C167 Microcontroller Support Instruction Manual
Acquiring and Viewing Disassembled Data
Figure 2–1 shows an example of the Hardware display.
1 2 3 4 5
Sample Address Data Mnemonics Control Timestamp
-------------------------------------------------------------------------------------­1952 F05678 0000 (LOW DATA WRITE) 0101111 200 ns 1953 F03010 FE06 (EXTENSION) 0011111 200 ns 1954 F01234 00BF BSET DPP0.11 0011111 200 ns 1955 F03012 1234 (EXTENSION) 0011111 190 ns 1956 F01234 C1C1 (LOW DATA WRITE) 0101111 200 ns 1957 F03014 2907 (EXTENSION) 0011111 200 ns 1958 F03016 0034 SUBC F0E6, DPP0 0011111 200 ns 1959 F03018 F0E6 (EXTENSION) 0011111 200 ns 1960 F0301A 0000 ADD R0, R0 0011111 200 ns 1961 F0301C 8C08 ADD R8, [R4] 0011111 200 ns 1962 F0301E F1E6 MOV R1, #0000 0011111 200 ns 1963 F00000 00FA (DATA READ) 0011111 200 ns 1964 F03020 0000 (EXTENSION) 0011111 200 ns 1965 F03022 9908 ADD R9, [R1] 0011111 200 ns 1966 F03024 F806 ADD R8, #0003 0011111 200 ns 1967 F00000 00FA (DATA READ) 0011111 200 ns 1968 F03026 0003 (EXTENSION) 0011111 200 ns 1969 F03028 F3E6 MOV R3, #0000 0011111 200 ns 1970 F0302A 0000 (EXTENSION) 0011111 200 ns 1971 F0302C FF09 ADDB RH7, [R7] 0011111 200 ns 1972 F0302E F2E6 MOV R2, #0000 0011111 200 ns 1973 F00000 00FA (DATA READ) 0011111 200 ns 1974 F03030 0000 (EXTENSION) 0011111 200 ns
6
Software Display Format
Figure 2–1: Hardware display format
1
Sample Column. Lists the memory locations for the acquired data.
2
Address Group. Lists data from channels connected to the 80C167 Address bus.
3
Data Group. Lists data from channels connected to the 80C167 Data bus.
4
Mnemonic Column. Lists the disassembled instructions and cycle types.
5
Control Column. Lists the disassembled instructions and cycle types.
6
Timestamp. Lists the timestamp values when a timestamp selection is made. Information on basic operations describes how you can select a timestamp.
The Software display format shows only the first opcode fetch of executed instruction cycles. Flushed cycles and extensions are not shown, even though they are part of the executed instruction. Read extensions will be used to disassemble the instruction, but will not be displayed as a separate cycle in the Software display format. Data reads and writes are not displayed.
TMS 600 SAB-C167 80C167 Microcontroller Support Instruction Manual
2–5
Acquiring and Viewing Disassembled Data
Control Flow Display
Format
Subroutine Display
Format
The Control Flow display format displays only the first opcode fetch of instructions that causes a branch in the addressing. Branches not taken will not be displayed. Only conditional jumps that are taken will be displayed.
Instructions that will unconditionally generate a change in the flow of control in the 80C167 microcontroller are as follows:
JMPS CALLR CALLS PCALL RET RETI RETP RETS SRST TRAP
Instructions that conditionally generate a change in the flow of control in the 80C167 microcontroller are as follows:
CALLA CALLI JMPA JMPI JMPR JNB JNBS JB JBC
The Subroutine display format shows only the first fetch of subroutine call and return instructions. It will display conditional subroutine calls if they are considered to be taken.
Instructions that will unconditionally generate a subroutine call or a return in the 80C167 microcontroller are as follows:
CALLR CALLS PCALL RET RETI RETP RETS
Instructions that conditionally generate a subroutine call or a return in the 80C167 microcontroller are as follows:
CALLA CALLI

Changing How Data is Displayed

There are common fields and features that allow you to further modify displayed data to suit your needs. You can make common and optional display selections in the Disassembly property page (the Disassembly Format Definition overlay).
You can make selections unique to the 80C167 support to do the following tasks:
H Change how data is displayed across all display formats H Change the interpretation of disassembled cycles H Display exception vectors
There are no optional fields for this support package. Refer to the information on basic operations for descriptions of common fields.
2–6
TMS 600 SAB-C167 80C167 Microcontroller Support Instruction Manual
Acquiring and Viewing Disassembled Data
Optional Display
Selections
You can make optional selections for disassembled common selections (described in the information on basic operations), you can change the displayed data in the following ways:
H Specify the bus width and the number of address lines to be used H Specify the mode of operation
Bus width. Using the Custom fields you must select one of four modes of operation:
Bus Mode 16-bit MUX
16-bit DEMUX 8-bit MUX 8-bit DEMUX
Number of address lines. Using the Custom fields you must select the number of address lines to be used. There are four possible selections:
Address Lines A15 – A0
A17 – A0 A19 – A0 A23 – A0
data. In addition to the
Marking Cycles
Write Configuration. Using the Custom fields you must select the write configura-
tion that the microcontroller is to use. There are two possible selections:
Write Mode WR
WRL-WRH
In WR Mode pin WR~ retains its normal function. In WRL-WRH mode pin WR~ acts as WRL~, and pin WRH~ acts as Byte High Enable.
Bus Arbitration. Using the Custom fields you must set the bus arbitration to Disabled or Enabled, depending on the microcontroller mode you are using.
The disassembler has a Mark Opcode function that allows you to change the interpretation of a cycle type. Using this function, you can select a cycle and change it to one of the following cycle types:
Opcode marks the current sequence as an opcode fetch cycle. Extension marks the current sequence as an extension. Data Read marks the current sequence as a Data read. Pec Read marks the current sequence as a Pec read. Flush marks the current sequence as flush. Undo Mark removes all marks from the current sequence.
TMS 600 SAB-C167 80C167 Microcontroller Support Instruction Manual
2–7
Acquiring and Viewing Disassembled Data
The Menu item Opcode appears only for an even address, and the item Undo Mark appears only for a marked sequence. In the 8-bit mode, odd extensions will not have any mark options assigned to them. Only even extensions will have the option of Opcode.
Opcode. If the current sequence is an Opcode, the mark option menu will have the selections Flush, Extension, Data Read, and Pec Read.
Extension. If the current sequence is an Extension, the mark option menu will have the selections Flush, Opcode, Data Read, and Pec Read.
In the 8-bit mode, odd Extensions will not have any mark options assigned to them. Only even Extensions will have the option of Opcode.
Data Read. If the current sequence is a Data Read, the mark option menu will have the selections Flush, Opcode, Extension, and Pec Read.
Flush. If the current sequence is a Flush, the mark option menu will have the selections Opcode, Extension, Data Read, and Pec Read, in addition to the Undo mark option.
Data Write. If the current sequence is a Data Write, the mark option menu will have a Pec Write selection.
Low Data Write. If the current sequence is a Low Data Write, the mark option menu will have a Pec Low Write selection.
High Data Write. If the current sequence is a High Data Write, the mark option menu will have a Pec High Write selection.
Undo Mark. If the current sequence is marked, the mark option menu will have an Undo Mark selection.
Information on basic operations contains more details on marking cycles.
2–8
TMS 600 SAB-C167 80C167 Microcontroller Support Instruction Manual
Acquiring and Viewing Disassembled Data
Displaying Exception
Labels
The exception table must reside in external memory for the exception cycles to be visible to the disassembler.
Refer to the C167 User’s Manual, Siemens, August 1994, for descriptions of the exception labels.
The support will label all of the exception vector reads with the following labels:
CC1INT CC2INT CC3INT CC4INT CC5INT CC6INT CC7INT CC8INT CC9INT CC10INT CC11INT CC12INT CC13INT CC14INT CC15INT CC16INT CC17INT CC18INT CC19INT CC20INT CC21INT CC22INT CC23INT CC24INT CC25INT CC26INT CC27INT CC28INT CC29INT CC30INT CC31INT
T0INT T1INT T7INT T8INT T2INT T3INT T4INT T5INT T6INT
CRINT ADCINT ADEINT S0INT S0TINT S0TBINT
S0RINT S0EINT SCTINT SCRINT SCEINT PWMINT
XPOINT XP1INT XP2INT XP3INT
TMS 600 SAB-C167 80C167 Microcontroller Support Instruction Manual
2–9
Acquiring and Viewing Disassembled Data
2–10
TMS 600 SAB-C167 80C167 Microcontroller Support Instruction Manual
Specifications

Specifications

This chapter contains the following information:
H Probe adapter description H Specification tables H Dimensions of the probe adapter H Channel assignment tables H Description of how the module acquires 80C167 signals H List of other accessible microcontroller signals and extra probe channels

Probe Adapter Description

The probe adapter is nonintrusive hardware that allows the logic analyzer to acquire data from a microcontroller in its own operating environment with little effect, if any, on that system. Information on basic operations contains a figure showing the logic analyzer connected to a typical probe adapter. Refer to that figure while reading the following description.
The probe adapter consists of a 144 pin EIAJ QFP test clip that attaches to the microcontroller and the probe adapter circuit board that contains circuitry to buffer the signals and bus switching electronics. The probe adapter connects to the microcontroller in the SUT. Signals from the microcontroller-based system flow from the probe adapter to the channel groups and through the probe signal leads to the logic analyzer module.
All circuitry on the probe adapter is powered from the supplied power adapter. The probe adapter accommodates the Siemens SAB-C167 microcontroller in a
144-pin metric PQFP package.
TMS 600 SAB-C167 80C167 Microcontroller Support Instruction Manual
3–1
Specifications

Probe Adapter Configuration

The probe adapter has one jumper that is used to select between multiplexed and demultiplexed address modes. Figure 3–1 shows the MUX/DEMUX jumper location on the probe adapter.
MUX/DEMUX Jumper
Figure 3–1: Jumper locations on the probe adapter

Probe Adapter Specifications

These specifications are for a probe adapter connected between a compatible Tektronix logic analyzer and a SUT. Table 3–1 shows the electrical requirements the SUT must produce for the support to acquire correct data. Table 3–2 shows the environmental specifications of the probe adapter. Table 3–3 shows the certifications and compliances that apply to the probe adapter. Figure 3–2 shows the dimensions of the probe adapter.
T able 3–1: Electrical specifications
Characteristics Requirements
Probe adapter power supply requirements
Voltage 90-265 VAC Current 1.1 A maximum at 100 VAC Frequency 47-63 Hz Power 25 W maximum
SUT clock
Clock rate Maximum specified 20 MHz
Maximum tested: 5 MHz
3–2
TMS 600 SAB-C167 80C167 Microcontroller Support Instruction Manual
T able 3–1: Electrical specifications (cont.)
Characteristics Requirements
Minimum setup time required 5 ns Minimum hold time required 0 ns
Specification
Measured typical SUT signal loading AC load DC load
Port0 (15-0) 7 pF 1 – 74FCT162244ET,
1 – 74FCT162260AT Port1 (15-0) 3.5 pF 1 – 74FCT162244ET Port4 (7-0) 7 pF 2 – 74FCT162260AT RD~, WR~, ALE, BHE~ 7 pF 2 – 74FCT162244ET RSTIN~, RSTOUT~,
HLDA~ Port2 (15-0) 3.5 pF 1 – 74FCT162244ET Port7 (7-0) 3.5 pF 1 – 74FCT162244ET Port8 (7-0) 3.5 pF 1 – 74FCT162244ET NMI~, CLKOUT ,
READY~, EA~, CS4~, CS3~, CS2~, CS1~, CS0~
T2IN, T3IN, T4IN, CAPIN, MRST, MTSR, TXD0, RXD0
3.5 pF 1 – 74FCT162244ET
3.5 pF 1 – 74FCT162244ET
3.5 pF 1 – 74FCT162244ET
Specifications
NOTE. In Table 3–1, for the 102/136-channel module the electrical loading on one podlet is 20 kW in parallel with 2 pF.
For the 96-channel module the electrical loading on one podlet is 100 kW in parallel with 10 pF.
TMS 600 SAB-C167 80C167 Microcontroller Support Instruction Manual
3–3
Specifications
Table 3–2 shows the environmental specifications.
T able 3–2: Environmental specifications*
Characteristic Description
Temperature
Maximum operating Minimum operating 0° C (+32° F)
Non-operating –55° C to +75° C (–67° to +167° F) Humidity 10 to 95% relative humidity Altitude
Operating 4.5 km (15,000 ft) maximum
Non-operating 15 km (50,000 ft) maximum Electrostatic immunity The probe adapter is static sensitive
+50° C (+122° F) [
* Designed to meet T ektronix standard 062-2847-00 class 5.
[ Not to exceed 80C167 microcontroller thermal considerations. Forced air cooling
might be required across the CPU.
T able 3–3: Certifications and compliances
EC Compliance There are no current European Directives that apply to this product.
3–4
TMS 600 SAB-C167 80C167 Microcontroller Support Instruction Manual
120 mm (4.75 in)
Specifications
48 mm
(1.90 in)
25.4 mm (1.00 in)
8 mm (.300 in)
43 mm
(1.70 in)
Pin 1
11 mm
(.45 in)
113 mm
(4.45 in)
17 mm (.65 in)
Figure 3–2: Dimensions of the probe adapter
TMS 600 SAB-C167 80C167 Microcontroller Support Instruction Manual
Pin 1
3–5
Specifications

Probe Adapter Channel Assignments

Channel assignments shown in Table 3–4 through Table 3–12 use the following conventions:
H All signals are required by the support unless otherwise indicated. H Channels are shown starting with the most significant bit (MSB) descending
to the least significant bit (LSB).
H Channel group assignments are for all modules unless otherwise indicated. H A tilde (~) following a signal name indicates an active low signal. H An equals sign (=) following a signal name indicates that it is double probed.
Table 3–4 shows the probe section and channel assignments for the Address group and the microcontroller signal to which each channel connects. By default, this channel group is displayed in hexadecimal.
T able 3–4: Address group channel assignments
Bit order
23 A2:7 A23 22 A2:6 A22 21 A2:5 A21 20 A2:4 A20 19 A2:3 A19 18 A2:2 A18 17 A2:1 A17 16 A2:0 A16 15 A1:7 A15 14 A1:6 A14 13 A1:5 A13 12 A1:4 A12 11 A1:3 A11 10 A1:2 A10 9 A1:1 A9 8 A1:0 A8 7 A0:7 A7 6 A0:6 A6 5 A0:5 A5
Section:channel 80C167 signal name
3–6
TMS 600 SAB-C167 80C167 Microcontroller Support Instruction Manual
Specifications
T able 3–4: Address group channel assignments (cont.)
Bit order
4 A0:4 A4 3 A0:3 A3 2 A0:2 A2 1 A0:1 A1 0 A0:0 A0
80C167 signal nameSection:channel
Table 3–5 shows the probe section and channel assignments for the Data group and the microcontroller signal to which each channel connects. By default, this channel group is displayed in hexadecimal.
T able 3–5: Data group channel assignments
Bit order
15 D1:7 D15 14 D1:6 D14 13 D1:5 D13 12 D1:4 D12 11 D1:3 D11 10 D1:2 D10 9 D1:1 D9 8 D1:0 D8 7 D0:7 D7 6 D0:6 D6 5 D0:5 D5 4 D0:4 D4 3 D0:3 D3 2 D0:2 D2 1 D0:1 D1 0 D0:0 D0
Section:channel 80C167 signal name
TMS 600 SAB-C167 80C167 Microcontroller Support Instruction Manual
3–7
Specifications
Table 3–6 shows the probe section and channel assignments for the Control group and the microcontroller signal to which each channel connects. By default, this channel group is displayed symbolically.
T able 3–6: Control group channel assignments
Bit order
6 C2:7 BHE~ 5 C2:6 WR~ 4 C2:5 RD~ 3 C2:4 ALE 2 C2:2 RSTIN~ 1 C2:1 HLDA~ 0 C2:0 RSTOUT~
Section:channel 80C167 signal name
Table 3–7 shows the probe section and channel assignments for the Port2 (15-8) group and the microcontroller signal to which each channel connects.
The channel assignments of Port2 are not stored as acquisition data, and can not be used for triggering.
You must double probe the Port2 channel assignments if you want to store them in the acquisition, or use them for triggering.
T able 3–7: Port2 channel group assignments
Bit order
15 A3:7 P2.15 * 14 A3:6 P2.14 * 13 A3:5 P2.13 * 12 A3:4 P2.12 * 11 A3:3 P2.11 * 10 A3:2 P2.10 * 9 A3:1 P2.9 * 8 A3:0 P2.8 * 7 C0:7 P2.7 * 6 C0:6 P2.6 * 5 C0:5 P2.5 *
Section:channel 80C167 signal name
3–8
TMS 600 SAB-C167 80C167 Microcontroller Support Instruction Manual
Specifications
T able 3–7: Port2 channel group assignments (cont.)
Bit order
4 C0:4 P2.4 * 3 C0:3 P2.3 * 2 C0:2 P2.2 * 1 C0:1 P2.1 * 0 C0:0 P2.0 *
* Signal not required for disassembly.
80C167 signal nameSection:channel
Table 3–8 shows the probe section and channel assignments for the Misc0 group and the microcontroller signal to which each channel connects.
The channel assignments of Misc0 are not stored as acquisition data, and they can not be used for triggering.
You must double probe the Misc0 channel assignments if you want to store them in the acquisition, or use them for triggering.
T able 3–8: Misc0 group channel assignments
Bit order
8 C3:7 CS4~ * 7 C3:6 CS3~ * 6 C3:5 CS2~ * 5 C3:4 CS1~ * 4 C3:3 CS0~ * 3 C3:2 CLKOUT * 2 C3:1 NMI~ * 1 C3:0 EA~ * 0 C2:3 READY~ *
* Signal not required for disassembly.
Section:channel 80C167 signal name
TMS 600 SAB-C167 80C167 Microcontroller Support Instruction Manual
3–9
Specifications
Table 3–9 shows the probe section and channel assignments for the Misc1 group and the microcontroller signal to which each channel connects.
The channel assignments of Misc1 are not stored as acquisition data, and they can not be used for triggering.
You must double probe the Misc1 channel assignments if you want to store them in the acquisition, or use them for triggering.
T able 3–9: Misc1 group channel assignments
Bit order
7 D3:7 T2IN * 6 D3:6 T3IN * 5 D3:5 T4IN * 4 D3:4 CAPIN * 3 D3:3 MRST * 2 D3:2 MTSR * 1 D3:1 TXD0 * 0 D3:0 RXD0 *
* Signal not required for disassembly.
Section:channel 80C167 signal name
Table 3–10 shows the probe section and channel assignments for the Port7 (7-0) group and the microcontroller signal to which each channel connects.
The channel assignments of Port7 are not stored as acquisition data, and they can not be used for triggering.
You must double probe the Port7 channel assignments if you want to store them in the acquisition, or use them for triggering.
T able 3–10: P7 (7-0) channel group assignments
Bit order
7 D2:7 CC31IO * 6 D2:6 CC30IO * 5 D2:5 CC29IO * 4 D2:4 CC28IO *
Section:channel 80C167 signal name
3–10
TMS 600 SAB-C167 80C167 Microcontroller Support Instruction Manual
Specifications
T able 3–10: P7 (7-0) channel group assignments (cont.)
Bit order
3 D2:3 POUT3 * 2 D2:2 POUT2 * 1 D2:1 POUT1 * 0 D2:0 POUT0 *
* Signal not required for disassembly.
80C167 signal nameSection:channel
Table 3–11 shows the probe section and channel assignments for the Port8 (7-0) group and the microcontroller signal to which each channel connects.
The channel assignments of Port8 are not stored as acquisition data, and they can not be used for triggering.
You must double probe the Port8 channel assignments if you want to store them in the acquisition, or use them for triggering.
T able 3–11: P8 (7-0) channel group assignments
Bit order
7 C1:7 P8.7 * 6 C1:6 P8.6 * 5 C1:5 P8.5 * 4 C1:4 P8.4 * 3 C1:3 P8.3 * 2 C1:2 P8.2 * 1 C1:1 P8.1 * 0 C1:0 P8.0 *
* Signal not required for disassembly.
Section:channel 80C167 signal name
TMS 600 SAB-C167 80C167 Microcontroller Support Instruction Manual
3–11
Specifications

How Data is Acquired

Table 3–12 shows the probe section and channel assignments for the clock probes (not part of any group) and the 80C167 signal to which each channel connects.
T able 3–12: Clock channel assignments
Section:channel 80C167 signal name
CK:3 BHE~ = CK:2 WR~ = CK:1 RD~ = CK:0 ALE =
= Indicates the signal is double probed
This part of this chapter explains how the module acquires 80C167 signals using the TMS 600 software and probe adapter. This part also provides additional information on microcontroller signals accessible on or not accessible on the probe adapter, and on extra probe channels available for you to use for additional connections.
Custom Clocking
A special clocking program is loaded to the module every time you load the 80C167 support. This special clocking is called Custom.
With Custom clocking, the module logs in signals from multiple groups of channels at different times as they become valid on the 80C167 bus. The module then sends all the logged-in signals to the trigger machine and to the memory of the module for storage.
In Custom clocking, the module clocking state machine generates one master sample for each microcontroller bus cycle, no matter how many clock cycles are contained in the bus cycle.
3–12
TMS 600 SAB-C167 80C167 Microcontroller Support Instruction Manual
Specifications
Figure 3–3 shows the multiplexed bus timing, and the sample point and master sample point.
Bus cycle
Segment (P4)
ALE
BUS (P0)
RD~
BUS (P0)
WR~
Address
Address Data
Address Data
Sample point
Figure 3–3: 80C167 multiplexed bus timing
Master sample point
TMS 600 SAB-C167 80C167 Microcontroller Support Instruction Manual
3–13
Specifications
Figure 3–4 shows the demultiplexed bus timing and the sample and master sample point.
Bus cycle
Address (P1)
Segment (P4)
ALE
BUS (P0)
RD~
BUS (P0)
WR~
Clocking Options
Address
Data
Undefined Data
Sample point
Master sample point
Figure 3–4: 80C167 demultiplexed bus timing
The clocking algorithm for the 80C167 support allows for the custom clocking options of Alternate Bus Master Cycles Excluded, Alternate Bus Master Cycles Included, and Write Mode.
3–14
Alternate Bus Master Cycles Excluded. DMA cycles are not acquired. This is the
default selection.
Alternate Bus Master Cycles Included. DMA cycles are acquired. All bus cycles, including Alternate Bus Master cycles and Backoff cycles, are logged in.
The signals ALE, RD~, and WR~ are used as clocks. The signals HLDA~, RSTIN~ and RSTOUT are used as qualifiers only.
The sampling of the address is done at the falling edge of ALE. During a READ/FETCH cycle the data is sampled at the rising edge of RD~. During a WRITE cycle the data is sampled on the rising edge of WR~.
TMS 600 SAB-C167 80C167 Microcontroller Support Instruction Manual
Write Mode. The write mode custom clocking option has two selections, WR, and WRL-WRH.
If you select WR, pin WR~ retains all of the normal functions. If you select WRL-WRH mode, pin WR~ acts as WRL~, and pin WRH~ acts as byte high enable.

Alternate Microprocessor Connections

You can connect to microcontroller signals that are not required by the support so that you can do more advanced timing analysis. These signals might or might not be accessible on the probe adapter board. The following paragraphs and tables list signals that are or are not accessible on the probe adapter board.
For a list of signals required or not required for disassembly, refer to the channel assignment tables beginning on page 3–6. Remember that these channels are already included in a channel group. If you do connect these channels to other signals, you should set up another channel group for them.
Specifications
Signals On the Probe
Adapter
Extra Channels
The following signals are on the probe adapter but are not acquired.
P5.0 through P5.15 P6.5 P3.0 through P3.4 P6.7
All probes are connected to the probe adapter. You can disconnect channel probes not required by the support to make alternate connections. The channel assign­ment tables in this chapter indicate channels not required for disassembly.
Remember that these channels are already included in a channel group. If you do connect these channels to other signals, you should set up another channel group for them.
80C167 Microcontroller Signal Names to 144 pin EIAJ QFP test clip pinout
You may want to connect to signals with other equipment, such as an oscillo­scope, while analyzing activity in your SUT. You can connect to 80C167 microcontroller signals through the 144 pin EIAJ QFP test clip.
The pin out of the 144 pin EIAJ QFP test clip is mapped one-to-one with the pin out of the 80C167.
TMS 600 SAB-C167 80C167 Microcontroller Support Instruction Manual
3–15
Specifications
3–16
TMS 600 SAB-C167 80C167 Microcontroller Support Instruction Manual
WARNING
The following servicing instructions are for use only by qualified personnel. To avoid injury, do not perform any servicing other than that stated in the operating instructions unless you are qualified to do so. Refer to all Safety Summaries before performing any service.
Maintenance

Maintenance

This section contains information on the following topics:
H Probe adapter circuit description H Replacing signal leads H Replacing the fuse

Probe Adapter Circuit Description

The TMS 600 support uses a 144 pin EIAJ QFP test clip that interfaces between the probe adapter and the microcontroller on the SUT.
The probe adapter has a jumper to select between the multiplexed and demulti­plexed modes of operation.
The probe adapter uses the 74FCT162260AT 12-bit tri-port bus exchanger to switch the address lines between Port0 and Port1. The probe adapter uses the 74FCT162244ET 16-bit buffer to buffer the other signal lines between the microcontroller and the logic analyzer.

Replacing Signal Leads

Information on basic operations describes how to replace signal leads (individual channel and clock probes).
TMS 600 SAB-C167 80C167 Microcontroller Support Instruction Manual
4–1
Maintenance

Replacing the Fuse

If the fuse on the 80C167 probe adapter opens (burns out), you can replace it with a 5 A, 125 V fuse. Figure 4–1 shows the location of the fuse on the probe adapter.
Fuse
Figure 4–1: Location of the fuse
4–2
TMS 600 SAB-C167 80C167 Microcontroller Support Instruction Manual
Replaceable Electrical Parts

Replaceable Electrical Parts

This chapter contains a list of the replaceable electrical components for the TMS 600 80C167 microcontroller support. Use this list to identify and order replacement parts.

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
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.
Change information, if any, is located at the rear of this manual.

Using the Replaceable Electrical Parts List

The tabular information in the Replaceable Electrical Parts List is arranged for quick retrieval. Understanding the structure and features of the list will help you find all of the information you need for ordering replacement parts. The following table describes each column of the electrical parts list.
TMS 600 SAB-C167 80C167 Microcontroller Support Instruction Manual
5–1
Replaceable Electrical Parts
Parts list column descriptions
Column Column name Description
1 Component number The component number appears on diagrams and circuit board illustrations, located in the diagrams
section. Assembly numbers are clearly marked on each diagram and circuit board illustration in the Diagrams section, and on the mechanical exploded views in the Replaceable Mechanical Parts list section. The component number is obtained by adding the assembly number prefix to the circuit number (see Component Number illustration following this table).
The electrical parts list is arranged by assemblies in numerical sequence (A1, with its subassemblies and parts, precedes A2, with its subassemblies and parts).
Chassis-mounted parts have no assembly number prefix, and they are located at the end of the
electrical parts list. 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 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. 6 Mfr. code This indicates the code number of the actual manufacturer of the part. 7 Mfr. part number This indicates the actual manufacturer’s or vendor’s part number.
Abbreviations
Component Number
List of Assemblies
Chassis Parts
Mfr. Code to Manufacturer
Cross Index
Abbreviations conform to American National Standard ANSI Y1.1–1972.
Component number
A23A2R1234 A23 R1234
Assembly number Circuit number
Read: Resistor 1234 (of Subassembly 2) of Assembly 23
A2
Subassembly number
(optional)
A list of assemblies is located at the beginning of the electrical parts list. The assemblies are listed in numerical order. When a part’s complete component number is known, this list will identify the assembly in which the part is located.
Chassis-mounted parts and cable assemblies are located at the end of the Replaceable Electrical Parts List.
The table titled Manufacturers Cross Index shows codes, names, and addresses of manufacturers or vendors of components listed in the parts list.
5–2
TMS 600 SAB-C167 80C167 Microcontroller Support Instruction Manual
Replaceable Electrical Parts
Manufacturers cross index
Mfr. code
00779 AMP INC. CUSTOMER SERVICE DEPT
05276 ITT POMONA ELECTRONICS 1500 E NINTH ST POMONA, CA 91766–3835 14310 AUL T INC 7300 BOONE AVE NORTH
26742 METHODE ELECTRONICS INC BACKPLAIN DIVISION
53387 3M COMPANY ELECTRONICS PRODUCTS DIV
61857 SAN–O INDUSTRIAL CORP 91–3 COLIN DRIVE HOLBROOK, NY 11741 80009 TEKTRONIX INC 14150 SW KARL BRAUN DR
S3109 FELLER U.S. CORPORATION 72 VERONICA AVE
TK2449 SINGA TRON ENTERPRISE CO LTD 13925 MAGNOLIA AVE CHINO, CA 91710 80009 TEKTRONIX INC 14150 SW KARL BRAUN DR
Manufacturer Address City, state, zip code
PO BOX 3608
BROOKLINE PARK
7444 WEST WILSON AVE
3M AUSTIN CENTER
PO BOX 500
UNIT #4
PO BOX 500
HARRISBURG, PA 17105–3608
MINNEAPOLIS, MN 55428
CHICAGO, IL 60656–4548
AUSTIN, TX 78769–2963
BEAVERT ON, OR 97077–0001
SOMERSET, NJ 08873
BEAVERT ON, OR 97077–0001
TMS 600 SAB-C167 80C167 Microcontroller Support Instruction Manual
5–3
Replaceable Electrical Parts
Replaceable electrical parts list
Component number
A01 131–4530–00 CONN,HDR:PCB,MALE,STR,1 X 3,0.1 CTR,0.230 MLG X 0.120
A01 131–5527–00 JACK,POWER DC:PCB,MALE,RTANG,2MM PIN,11MM H(0.433) X
A01 131–5879–00 45002–36101:PCB,45002–36101,FEMALE,STR,2 X 18,0.1
A01 131–5947–00 CONN,BOX:PCB,MICRO–STRIP,FEMALE,STR,100 POS,0.05
A01 159–0059–00 FUSE,WIRE LEAD:5A,125V 61857 SPI–5A
Tektronix part number
010–0610–00 PROBE ADAPTER:SAB–C167,PQFP–144,SOLDERED,TMS600
103–0407–00 ADAPTER,QFP:ADAPTER,SAB–C167,MALE,STR,144
119–5061–01 POWER SUPPLY :25W ,5V 5A,CONCENTRIC 2MM,90–265V,47–63
131–4356–00 CONN,SHUNT:SHUNT/SHORTING,FEMALE,1 X 2,0.1 CTR,0.63
161–0104–00 CA ASSY,PWR:3,18 AWG,98 L,250V/10AMP,98
174–3418–00 CA ASSY,RF:TLC,MICRO–STRIP,TLC,50 OHM,FEP,PROP DELAY
671–3882–00 CIRCUIT BD ASSY:SAB–C167, PQFP–144, 389–2371–00
Serial no. effective
Serial no. discont’d
Name & description
TAIL,30 GOLD,BD RETENTION,
3.5MM(0.137) TAIL,9MM(0.354) W ,TIN,W/SWI
CTR,0.325 H X 0.125 TAIL,10 GOLD,
CTR,W/GRD PLANE,0.320 H X 0.125 TAIL,LAT
OPT 01
POS,0.65MM CTR,EIJ QFP 31.2 OVERALL LEAD SPACING,2
HZ IEC,15X8.6X5 CM, UL,CSA, TUV,IEC,SELF
H,BLK,W/HANDLE,JUMPER,
INCH,RT ANG,IEC320,RCPT X STR,NEMA 15–5P,W/CORD GRIP,
1.4NS,12.0 L,100 POS,PLUG,LATCHING BOT
WIRED,TMS600 OPT 01
Mfr. code
00779 104344–1
TK2449 DJ–005–A
53387 929852–01–18–10
00779 121289–7
80009 010–0610–00
05276 5773
14310 SW108KA0002F01
26742 9618–302–50
S3109 ORDER BY
00779 1–340014–0
80009 671–3882–00
Mfr. part number
DESCRIPTION
5–4
TMS 600 SAB-C167 80C167 Microcontroller Support Instruction Manual
Replaceable Mechanical Parts

Replaceable Mechanical Parts

This chapter contains a list of the replaceable mechanical components for the TMS 600 80C167 microcontroller support. Use this list to identify and order replacement parts.

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
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.
Change information, if any, is located at the rear of this manual.

Using the Replaceable Mechanical Parts List

The tabular information in the Replaceable Mechanical Parts List is arranged for quick retrieval. Understanding the structure and features of the list will help you find all of the information you need for ordering replacement parts. The following table describes the content of each column in the parts list.
TMS 600 SAB-C167 80C167 Microcontroller Support Instruction Manual
6–1
Replaceable Mechanical Parts
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 entries 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
Chassis Parts
Mfr. Code to Manufacturer
Cross Index
Abbreviations conform to American National Standard ANSI Y1.1–1972.
Chassis-mounted parts and cable assemblies are located at the end of the Replaceable Electrical Parts List.
The table titled Manufacturers Cross Index shows codes, names, and addresses of manufacturers or vendors of components listed in the parts list.
6–2
TMS 600 SAB-C167 80C167 Microcontroller Support Instruction Manual
Replaceable Mechanical Parts
Manufacturers cross index
Mfr. code
00779 AMP INC. CUSTOMER SERVICE DEPT
14310 AUL T INC 7300 BOONE AVE NORTH
S3109 FELLER U.S. CORPORATION 72 VERONICA AVE
26742 METHODE ELECTRONICS INC BACKPLAIN DIVISION
05276 ITT POMONA ELECTRONICS 1500 E NINTH ST POMONA, CA 91766–3835 53387 3M COMPANY ELECTRONICS PRODUCTS DIV
61857 SAN–O INDUSTRIAL CORP 91–3 COLIN DRIVE HOLBROOK, NY 11741 TK2449 SINGA TRON ENTERPRISE CO LTD 13925 MAGNOLIA AVE CHINO, CA 91710 80009 TEKTRONIX INC 14150 SW KARL BRAUN DR
Manufacturer Address City, state, zip code
PO BOX 3608
BROOKLINE PARK
UNIT #4
7444 WEST WILSON AVE
3M AUSTIN CENTER
PO BOX 500
HARRISBURG, PA 17105–3608
MINNEAPOLIS, MN 55428
SOMERSET, NJ 08873
CHICAGO, IL 60656–4548
AUSTIN, TX 78769–2963
BEAVERT ON, OR 97077–0001
TMS 600 SAB-C167 80C167 Microcontroller Support Instruction Manual
6–3
Replaceable Mechanical Parts
Replaceable mechanical parts list
Fig. & index number
1–0 010–0610–00 1 PROBE ADAPTER, SAB-C167 (80C167), SOCKETED, PROBE
–1 131–5947–00 1 CONN, BOX: PCB, MICRO–STRIP, FEMALE, STR, 100 POS,
–2 159–0059–00 1 FUSE, WIRE LEAD: 5A, 125V (F1670) 61857 SP1–5A –3 131–5527–00 1 JACK, POWER DC: PCB, MALE, RTANG, 2MM PIN TK2449 DJ–005–A –4 131–4356–00 1 CONN,SHUNT:SHUNT/SHORTING,FEMALE,1 X 2,0.1 CTR,0.63
–5 131–4530–00 1 CONN, HDR: PCB, MALE, STR, 1 X 3, 0.1 CTR, 0.230 MLG X
–6 131–5879–00 4 45002–36101: PCB, 45002–36101, FEMALE, STR, 2 X 18, 0.1
–7 103–0407–00 1 ADAPTER,QFP:ADAPTER,SAB–C167,MALE,STR,144
Tektronix part number
Serial no. effective
Serial no.
discont’d
Qty Name & description
LOW-PROFILE PROBE ADAPTER
ADAPTER, TMS 600
0.05 CTR, W/GRD PLANE, 0.320 H X 0.125 TAIL
H,BLK,W/HANDLE,JUMPER,
0.120 TAIL, 30 GOLD, BD RETENTION
CTR, 10 GOLD
POS,0.65MM CTR,EIJ QFP 31.2 OVERALL LEAD SPACING,2
Mfr. code
80009 010–0610–00
00779 121289–7
26742 9618–302–50
00779 104344–1
53387 929852–01–18–10
05276 5773
Mfr. part number
STANDARD ACCESSORIES
070–9800–00 1 MANUAL, TECH: INSTRUCTION, SAB-C167, DISSASEMBLER,
TMS 600
070–9803–00 1 MANUAL, TECH: TLA 700 SERIES MICRO SUPPORT
INSTALLATION
119–5061–01 1 POWER SUPPLY: 25W, 5V 5A, CONCENTRIC 2MM, 90–265V,
47–63HZ (NOT SHOWN)
174–3418–00 1 CA ASSY,RF:TLC,MICRO–STRIP,TLC,50 OHM,FEP ,PROP
DELAY 1.4NS,12.0 L,100 POS,PLUG,LATCHING BOT
161–0104–00 1 CA ASSY, PWR: 3, 18 AWG, 98 L, 250V/10AMP, 98 INCH,
RTANG, IEC320, RCPT X STR, NEMA 15–5P, W/CORD GRIP
OPTIONAL ACCESSORIES
070–9802–00 1 MANUAL, TECH: BASIC OPS MICRO SUP ON DAS/TLA 500
SERIES LOGIC ANALYZERS
671–3882–00 1 CIRCUIT BD ASSY:SAB–C167, PQFP–144, 389–2371–00
WIRED,TMS600 OPT 01
161–0104–06 1 CA ASSY, PWR: 3, 1.0MM SQ, 250V/10AMP, 2.5 METER,
RTANG, IEC320, RCPT, EUROPEAN, SAFETY CONTROLLED (OPT A1)
161–0104–07 1 CA ASSY, PWR: 3, 1.0MM SQ, 240V/10AMP, 2.5 METER,
RTANG, IEC320, RCPT X 13A, FUSED, UK PLUG, (13A FUSE), UNITED KINGDOM, SAFETY CONTROL (OPT A2)
161–0104–05 1 CA ASSY, PWR: 3, 1.0MM SQ, 250V/10AMP, 2.5 METER,
RTANG, IEC320, RCPT, AUSTRALIA, SAFETY CONTROLLED (OPT A3)
161–0167–00 1 CA ASSY, PWR: 3, 0.75MM SQ, 250V/10AMP, 2.5 METER,
RTANG, IEC320, RCPT, SWISS, NO CORD GRIP, SAFETY CONTROLLED (OPT A5)
80009 070–9800–00
80009 070–9803–00
14310 SW106KA002F01
00779 1–340014–0
S3109 ORDER BY DE-
SCRIPTION
80009 070–9802–00
80009 671–3882–00
S3109 ORDER BY DE-
SCRIPTION
S3109 ORDER BY DE-
SCRIPTION
S3109 ORDER BY DE-
SCRIPTION
S3109 ORDER BY DE-
SCRIPTION
6–4
TMS 600 SAB-C167 80C167 Microcontroller Support Instruction Manual
Replaceable Mechanical Parts
2
1
3
4
5
6
Figure 1: 80C167 probe adapter exploded view
7
TMS 600 SAB-C167 80C167 Microcontroller Support Instruction Manual
6–5
Replaceable Mechanical Parts
Replaceable mechanical parts list
Fig. & index number
2–1 174–3418–00 1 CA ASSY,RF:TLC,MICRO–STRIP,TLC,50 OHM 00779 1–340014–0
Tektronix part number
Serial no. effective
Serial no.
discont’d
Qty Name & description
Mfr. code
Mfr. part number
Figure 2: High density probe cable
1
6–6
TMS 600 SAB-C167 80C167 Microcontroller Support Instruction Manual
Replaceable Mechanical Parts
Replaceable mechanical parts list
Fig. & index number
3–0 010– 0582–00 1 ADAPTER, PROBE: 192–CHANNEL, HIGH DENSITY PROBE 80009 010058200
–1 380–1095–00 1 HOUSING, HALF: UPPER, 192 CHANNEL HIGH DENSITY
–2 211–0152–00 4 SCR, ASSEM WSHR: 4–40 X 0.625, PNH, BRS, NP, POZ TK0435 ORDER BY DESC –3 131–5947–00 2 CONN BOX: CPCB, MICRO–STRIP; FEMALE, STR,100 POS,
–4 671–3395–00 1 CKT BD ASSY: 192–CHANNELS, HIGH DENSITY PROBE 80009 671339500
Tektronix part number
Serial no. effective
Serial no. discont’d
Qty Name & description
PROBE
0.05 CTR, W/GRD PLANE, 0.320 H X 0.124 TAIL, LATCHING, 4 ROW, 0.05 PCB, STAGGER (J150, J250)
Mfr. code
80009 380109500
80009 131594700
Mfr. part number
–5 380–1096–00 1 HOUSING, HALF: LOWER, 192 CHANNEL HIGH DENSITY
PROBE –6 348–0070–01 2 PAD, CUSHIONING: 2.03 X 0.69 X 0.18 SI RBR 85471 ORDER BY DESC –7 131–4917–00 8 CONN, HDR CPCB, MALE, STR, 1 X 2, 0.1 CTR, 0.235 MLF X
0.110 TAIL, 20 BOLD, TUBE, HIGH TEMP
(J300, J340, J400, J440, J500, J640, J600) –8 131–5267–00 5 CONN, HDR CPCB, MALE, STR, 2 X 40.O.1 CTR, 0.234 MLG X
0.110 TAIL, 30 GOLD
(J310, J320, J330, J350, J360, J370, J410, J420, J430, J450,
J460, J470, J510, J520, J530, J550, J560, J570, J610, J620,
J630, J650, J660, J670)
80009 380109600
53387 131491700
53387 131526700
TMS 600 SAB-C167 80C167 Microcontroller Support Instruction Manual
6–7
Replaceable Mechanical Parts
1
2
8
7
6
3
4
5
6–8
Figure 3: 192-Channel High-Density Probe exploded view
TMS 600 SAB-C167 80C167 Microcontroller Support Instruction Manual
Index

Index

Numbers

80C167 definition, x
A
about this manual set, ix acquiring data, 2–3 address group
channel assignments, 3–6
display column, 2–5 Alternate Bus Master Cycles, how data is acquired, 3–14 alternate bus master cycles, clocking option, 2–2 alternate connections
extra channel probes, 3–15
to other signals, 3–15
B
basic operations, where to find information, ix bus arbitration, mode of operation, 2–7 bus cycles, displayed cycle types, 2–4 bus timing
demultiplexed, 3–14
multiplexed, 3–13 bus width, mode of operation, 2–7
clocking options
alternate bus master cycles, 2–2
excluded, 3–14
included, 3–14 field names, 2–1 how data is acquired, 3–14 write mode, 2–2, 3–15
compliances, 3–4 connections
no probe adapter, 1–8
channel probes, 1–9
clock probes, 1–11 other microcontroller signals, 3–15 probe adapter to SUT, PQFP, 1–4
JEDEC clip, 1–5
control display column, 2–5 control flow display format, 2–6 Control group, channel assignments, 3–8 control group, symbol table, 2–2 Custom clocking, how data is acquired, 3–12 custom clocking, 2–1
alternate bus master cycles, 2–2 write mode, 2–2
cycle types, 2–4
D
data
C
certifications, 3–4 channel assignments
address group, 3–6 clocks, 3–12 Control group, 3–8 Data group, 3–7 Misc0 group, 3–9 Misc1 group, 3–10 Port2 group, 3–8 Port7 group, 3–10
Port8 group, 3–11 channel groups, 2–1 clock channel assignments, 3–12 clock rate, 1–2 clocking
Custom, how data is acquired, 3–12
custom, 2–1
acquiring, 2–3 disassembly formats
control flow, 2–6 hardware, 2–4 software, 2–5 subroutine, 2–6
how it is acquired, 3–12 data display , changing, 2–6 Data group, channel assignments, 3–7 data group, display column, 2–5 definitions, ix demultiplexed bus timing, 3–14 dimensions, probe adapter, 3–5 disassembled data
cycle type definitions, 2–4
viewing, 2–3 disassembler
definition, ix
logic analyzer configuration, 1–2
TMS 600 SAB-C167 80C167 Microcontroller Support Instruction Manual
Index–1
Index
setup, 2–1 disassembly format definition overlay, 2–7 disassembly property page, 2–7 display formats
control flow, 2–6
hardware, 2–4
software, 2–5
special characters, 2–3
subroutine, 2–6
E
EIAJ QFP test clip, microcontroller signal names, 3–15 electrical specifications, 3–2 environmental specifications, 3–4 exception labels, 2–9
F
fuse, replacing, 4–2
H
hardware display format, 2–4
cycle type definitions, 2–4 high density probe, connecting channels to, 1–8
I
installing hardware. See connections
L
leads (podlets), high density probe. See connections logic analyzer
configuration for disassembler, 1–2
definition, x
software compatibility, 1–2
microcontroller signal names, pin number on 144 pin
EIAJ QFP test clip, 3–15 microprocessor, package types supported, 1–1 Misc0 group, channel assignments, 3–9 Misc1 group, channel assignments, 3–10 mnemonic display column, 2–5 module definition, x multiplexed and demultiplexed jumper, 1–3 multiplexed bus timing, 3–13
N
number of address lines, 2–7
P
P54C definition, ix pin out, 144 pin EIAJ QFP test clip, 3–15 Port2 group, channel assignments, 3–8 Port7 group, channel assignments, 3–10 Port8 group, channel assignments, 3–11 power, for the probe adapter
applying, 1–11
removing, 1–12 power jack, 1–12 probe adapter
144 pin EIAJ QFP test clip, microcontroller signal
names, 3–15 alternate connections, 3–15 circuit description, 4–1 clearance, 1–4
dimensions, 3–5 configuring, 1–3, 3–2 hardware description, 3–1 jumper positions, 1–3, 3–2 not using one, 1–8 replacing the fuse, 4–2
R
M
manual
conventions, ix
how to use the set, ix mark cycle function, 2–7 mark opcode function, 2–7 marking cycles, definition of, 2–7 microcontroller, specific clocking and how data is
acquired, 3–12
Index–2
TMS 600 SAB-C167 80C167 Microcontroller Support Instruction Manual
Reset, SUT hardware, 1–2 restrictions, 1–2
code in internal ROM, 1–3 dymanic bus width switching, 1–3 Opcode fetch and data read, 1–3 PEC detection, 1–3 without a probe adapter, 1–8
Index
S
SAB-C167 definition, x sample display column, 2–5 service information, 4–1 setups, disassembler, 2–1 signals
active low sign, x alternate connections, 3–15
extra channels probes, 3–15 software display format, 2–5 special characters displayed, 2–3 specifications, 3–1
certifications, 3–4
channel assignments, 3–6
compliances, 3–4
electrical, 3–2
environmental, 3–4
mechanical (dimensions), 3–5 subroutine display format, 2–6
support setup, 2–1 SUT, definition, ix SUT hardware Reset, 1–2 symbol table, control channel group, 2–2
T
terminology, ix timestamp display column, 2–5
V
viewing disassembled data, 2–3
W
write configuration, mode of operation, 2–7 write mode, clocking option, 2–2
TMS 600 SAB-C167 80C167 Microcontroller Support Instruction Manual
Index–3
Index
Index–4
TMS 600 SAB-C167 80C167 Microcontroller Support Instruction Manual
Loading...
Buy Points How it Works FAQ Contact Us Questions and Suggestions Privacy Policy Cookie Policy Terms of Use