.....obsolete user manuals, a lot of repair manuals, free service manuals, rare schematic diagrams, usefull service instructions, pdf books, how to repair instructions, lost operating manuals, old handbooks, tons of part lists, hidden service bulletins, your instruction books, informative repair tips, complete disassembly routines.....


What are you looking for?

extended search


Fluke 9000A-Z8000 Interface
Manufacturer:
Model:
9000A-Z8000
Date:
1984
Class:
Type:
SubType:
Interface Pod

Information

PURPOSE OF THE Interface POD The 9000A-Z8000 Interface Pod (hereafter referred to as the Pod) interfaces any Fluke 9000 Series Micro-System Troubleshooter (hereafter referred to as the Troubleshooter) to equipment using one of the Z8000 family of microprocessors. The Troubleshooter services printed circuit boards, instruments, and systems employing microprocessors. The 9000A-Z8000 Interface Pod adapts the general purpose architecture of the Troubleshooter to the specific architecture of the Z8000 microprocessor family. The Pod adapts such microprocessor-specific functions as pin layout, status/control functions, interrupt handling, timing, and memory and I/O addressing. The 9000A-Z8000 Interface Pod can accommodate all four members of the Z8000 family: Z8001, Z8002, Z8003, and Z8004. An adapter is provided for use with the 40-pin Z8002 and Z8004 versions. A switch on the Pod selects between Segmented Memory Z8001 and Z8002 versions, and Virtual Memory Z8003 and Z8004 versions. Unless otherwise specified, references to the “Z8000” in this manual refer to any of the Z8000 family of microprocessors. DESCRIPTION OF POD Figure 1-1 shows the communication between the Troubleshooter, the Pod, and the Unit-Under-Test (hereafter referred to as the UUT). Cables connect the Pod to the Troubleshooter via a front-panel connector and to the UUT through the microprocessor socket. The external features of the Pod is shown in Figure 1-2. Internally, the Pod consists of a pair of printed circuit board assemblies mounted within an impact-resistant case. The Pod contains a Z8000 family microprocessor along with the supporting hardware and control Software that is required to do the following: 1. Perform handshaking with the Troubleshooter. 2. Receive and execute commands from the Troubleshooter. 3. Report UUT status to the Troubleshooter. 4. Allow the Pod microprocessor to operate the UUT.

show more

Service and User Manual
Manual type:
Service and User Manual
Pages:
102
Size:
5.56 Mbytes (5827669 Bytes)
Language:
english
Revision:
Manual-ID:
716035
Date:
1984 05 01
Quality:
Scanned document, all readable.
Upload date:
2018 01 28
MD5:
c5cd5a1a97dd51876437b8127faae3c0
Downloads:
549

Information

Instruction Manual 1-1. PURPOSE OF THE Interface POD ... 1-1 1-2. DESCRIPTION OF POD ... 1-1 1-3. SPECIFICATIONS ... 1-3 2 INSTALLATION AND SELF TEST ... 2-1 2-1. INTRODUCTION ... 2-1 2-2. INSTALLING THE MICROPROCESSOR IN THE POD ... 2-1 2-3. CONNECTING THE POD TO THE TROUBLESHOOTER ... 2-1 2-4. PERFORMING THE POD SELF TEST ... 2-3 2-5. CONNECTING THE POD TO THE UUT ... 2-3 3 MICROPROCESSOR DATA ... 3-1 3-1. INTRODUCTION ... 3-1 3-2. MICROPROCESSOR SIGNALS ... 3-1 4 OPERATING INFORMATION ... 4-1 4-1. INTRODUCTION ... 4-1 4-2. GETTING STARTED ... 4-1 4-3. ADDRESS SPACE ASSIGNMENT ... 4-2 4-4. Introduction ... 4-2 4-5. Address Mapping ... 4-2 4-6. STATUS/CONTROL LINES ... 4-4 4-7. Introduction ... 4-4 4-8. Status Line Bit Assignments ... 4-4 4-9. User-Enableable Status Lines ... 4-5 4-10. Status Flags Generated by the Pod ... 4-6 4-11. POWER FAIL STATUS FLAG ... 4-6 4-12. TIMEOUT FLAG ... 4-6 4-15. VECTORED INTERRUPT ACKNOWLEDGE FLAG ... 4-6 4-16. SEGMENT PAGE ADDRESS TRANSLATION TRAP ACKNOWLEDGE FLAG ... 4-6 4-17. Forcing Lines ... 4-7 4-18. Interrupt Lines ... 4-7 4-19. User-Writeable Control Lines ... 4-7 4-20. Control Line Bit Assignments ... 4-7 4-21. SPECIAL FEATURES AND CONTROLS OF THE Z8000 POD ..4-8 4-22. QUICK FUNCTIONS ... 4-8 4-23. Quick-Looping Read or Write ... 4-9 4-24. Quick RAM Test ... 4-13 4-25. Quick ROM Test ... 4-16 4-26. SPECIAL FEATURES OF THE Z8000 POD ... 4-18 4-29. Default High Address (Address F000 0005) ... 4-18 4-30. Fast RAM Test and Fast ROM Test Addresses (Addresses F000 0006 - F000 00011) ... 4-18 4-31. Last Test Status (Address F000 0012) ... 4-19 4-32. Run UUT FCW (Address F000 0013) ... 4-19 4-33. Transparent Read Address Control (Addresses F000 0014 - F000 0015) ... 4-19 4-34. State of MO Output (Address F000 0016 ... 4-19 4-35. Refresh Enabled (Address F000 0017) ... 4-19 4-36. Refresh Rate (Address F000 0018) ... 4-19 4-37. State of Fast Mode (Address F000 0019) ... 4-20 4-38. State of Continuous Interrupt Flag (Address F000 001 A) ... 4-20 4-39. Last Error Group (Addresses F000 001B - F000 0021) ... 4-20 4-40. Error Reporting Masks (Addresses F000 0022 - F000 0023) ... 4-22 4-41. Self Test Diagnostic (Address F000 0024) ... 4-22 4-42. DEFAULT ADDRESSES FOR LEARN, BUS TEST, AND RUN UUT ... 4-22 4-43. Learn Operation Default Address ... 4-23 4-44. Bus Test Default Address for Data Line Testing ... 4-23 4-45. Run UUT Mode ... 4-23 4-46. INTERRUPT HANDLING ... 4-23 4-47. PROBE AND Oscilloscope SYNCHRONIZATION MODES . 4-24 4-48. PROBLEMS DUE TO A MARGINAL UUT ... 4-24 4-49. UUT Operating Speed and Memory Access ... 4-25 4-50. UUT Noise Levels ... 4-25 4-51. Bus Loading ... 4-25 4-52. Clock Loading ... 4-25 4-53. POD DRIVE CAPABILITY ... 4-25 4-54. LOW UUT POWER DETECTION ... 4-25 5 THEORY OF OPERATION ... 5-1 5-1. INTRODUCTION ... 5-1 5-2. GENERAL POD OPERATION ... 5-t 5-3. Processor Section ... 5-1 5-4. UUT Interface Section ... 5-4 5-5. Timing and Control Section ... 5-5 5-6. DETAILED BLOCK DIAGRAM DESCRIPTION ... 5-5 5-7. Detailed Description of the Processor Section ... 5-5 5-8. Detailed Description of the UUT Interface Section ... 5-8 5-9. Detailed Description of the Timing and Control Section ... 5-9 5-10. Pod Context ... 5-9 5-11. UUT Context ... 5-10 5-12. Detailed Description of the Self Test Circuit ... 5-11 5-13. Initialization ... 5-12 6 TROUBLESHOOTING ... 6-1 6-1. INTRODUCTION ... 6-1 6-2. WARRANTY AND FACTORY SERVICE ... 6-1 6-3. GETTING STARTED ... 6-1 6-4. DETERMINING WHETHER THE POD IS DEFECTIVE OR INOPERATIVE ... 6-2 6-5. TROUBLESHOOTING A DEFECTIVE POD ... 6-3 6-6. Introduction ... 6-3 6-7. Interpreting the Self Test Failure Codes ... 6-3 6-8. Preparation for Troubleshooting a Defective Pod ... 6-5 6-9. TROUBLESHOOTING AN INOPERATIVE POD ... 6-7 6-10. Introduction ... 6-7 6-11. Preparation for Troubleshooting an Inoperative Pod ... 6-7 6-12. Procedure for Troubleshooting an Inoperative Pod ... 6-9 6-13. EXTENDED TROUBLESHOOTING PROCEDURES ... 6-13 6-14. Cable Lines ... 6-13 6-15. Pod Enable Lines ... 6-13 6-16. Timing Problems ... 6-13 6-17. Noise Problems ... 6-13 6-18. DISASSEMBLY ... 6-13 7 LIST OF REPLACEABLE PARTS ... 7-1 7-1. INTRODUCTION ... 7-1 7-2. HOW TO OBTAIN PARTS ... 7-1 7-3. MANUAL CHANGE AND BACKDATING INFORMATION ... 7-2 A UTILITY PROGRAM FOR QUICK FUNCTIONS ... A-1 8 SCHEMATIC DIAGRAMS ... 8-1 8-1. TABLE OF CONTENTS

show more

Add Comment

* Required information

Comments

No comments yet. Be the first!