Equipment information
Fluke 9000A-6502 Interface
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Model:
9000A-6502
Date:
1981
Category:
Group:
Description:
Interface Pod
Information
PURPOSE OF Interface POD
The purpose of the 9000A-6502 Interface Pod, hereafter
referred to as the pod, is to Interface any 9000 Series
Micro System Troubleshooter to a piece of equipment
employing a 6502 microprocessor.
The 9000 Series Micro System Troubleshooters are designed to
service printed circuit boards, instruments and systems
employing bus-oriented microprocessors. While the
architecture of the troubleshooter main frame is general in
nature and is designed to accomodate processors with up to
32 address lines and 32 data lines, the Interface pod adapts
the general purpose architecture of the 9000 Series to a
specific microprocessor, or microprocessor family. The
Interface pod adapts the 9000 Series to
microprocessor-specific functions such as pin layout,
status/control functions, interrupt handling, timing, size
of memory space, and size of I/O space.
DESCRIPTION OF Interface POD
The pod consists of a pair of printed circuit board
assemblies mounted within a small break-resistant case. A
shielded 24-conductor cable connects the printed circuit
boards to the troubleshooter; a ribbon cable and connector
provide connection to the unit under test, hereafter
referred to as the UUT.
Figure 1-1 shows the relationship of the pod to the
troubleshooter and to the UUT. Connection from the pod to
the troubleshooter is via a front-mounted 25-pin connector.
Connection to the UUT is made by plugging the ribbon cable
plug directly into the microprocessor socket. The UUT
microprocessor socket gives the troubleshooter direct access
to all system components which normally communicate with the
microprocessor.
The pod contains a 6502 microprocessor and the supporting
hardware and control Software required to:
• Perform handshaking with the troubleshooter
• Receive and execute commands from the troubleshooter
• Report UUT status to the troubleshooter
• Emulate the UUT microprocessor
The pod is powered by the troubleshooter, but is clocked by
the UUT clock signal. Using the UUT clock signal allows the
troubleshooter and pod to operate at the designed operating
speed of the UUT.
Logic level detection circuits are provided on each line to
the UUT. These circuits allow detection of bus shorts,
stuck-high or stuck-low conditions, and any bus drive
conflict (two or more drivers attempting to drive the same
bus line).
Over-voltage protection circuits are also provided on each
line to the UUT. These circuits guard against pod damage
which could result from:
• Incorrectly inserting the ribbon cable plug in the UUT
microprocessor socket.
• UUT faults which place potentially damaging voltages on
the UUT microprocessor socket.
The over-voltage protection circuits guard against voltages
of+12 to -7 volts on any one pin. Multiple faults,
especially of long duration, may cause pod damage.
A power level sensing circuit constantly monitors the
voltage level of the UUT Power supply (+5V). If UUT power
rises above or drops below an acceptable level, the pod
notifies the troubleshooter of the power fail condition.
A self test socket provided on the pod enables the
troubleshooter to check pod operation. The self test socket
is a 40-pin zero-insertion force type connector. The ribbon
cable plug must be connected to the self test socket during
self test operation. The ribbon cable plug should also be
inserted into this socket when the pod is not in use to
provide protection for the plug.
Manual Type:
Service Manual
Pages:
64
Size:
3.38 Mbytes (3540354 Bytes)
Language:
english
Revision:
Manual-ID:
613760
Date:
1981 06 01
Quality:
Scanned document, all readable.
Upload date:
2018 01 28
MD5:
d323a308b711dac00f441ab69dc65f00
Downloads:
455
Information
This manual contains instructions for operating the
FM/AM-1600S Communications Service Monitor. The instruction
level is relatively basic and presupposes no previous
experience on the part of the operator with a communication
service monitor of this type. A basic understanding of
communication electronics and practical troubleshooting
methods is helpful. It is strongly recommended that the
operator be thoroughly familiar this manual before
attempting to operate the unit.
ORGANIZATION
The FM/AM-1600S Operation Manual is composed of the
following sections:
SECTION 1 - INTRODUCTION
Provides an introduction to the unit and a brief overview of
unit functions. Specifications are also included in this
section.
SECTION 2 - INSTALLATION
Provides a step-by-step procedure for placing the
FM/AM-1600S into operation.
SECTION 3 - DESCRIPTION OF CONTROLS, CONNECTORS AND INDICATORS
Identifies and functionally describes all FM/AM-1600S
controls, connectors and indicators. Additionally, all CRT
Operation Screens and Menus are identified and available
parameters listed and explained.
NOTE: As an operating aid, Figures 3-1 and 3-2, which locate
and identify all
FM/AM-1600S controls, connectors and indicators, are located
on a fold-out page. By extending the fold-out page, the
operator can reference any front or rear panel control while
simultaneously performing any operating procedure contained
elsewhere in the manual.
SECTION 4 - OPERATION
Provides instructions for operating the FM/AM-1600S Mode
Operating Screens and Menus. In addition, this section
contains a selection of basic operating procedures
pertaining to all major functions of the Test Set.
SECTION 5 - PERFORMANCE EVALUATION
Identifies and explains procedures the operator can use to
insure the FM/AM-1600S is performing properly.
SECTION 6 - REMOTE OPERATION
Provides procedures for configuring and operating the
FM/AM-1600S remotely. Lists unit specific commands for
remote operations as well as commands mandated by IEEE 488.2
1987.