Equipment information
Tektronix TR 210 Other
Manufacturer:
No picture available!
Maybe you can upload a pic for the
Tektronix TR 210 ?
If you have any other manuals for the
Tektronix TR 210 you can upload the files here .
Model:
TR 210
Date:
Category:
Group:
Description:
Huntron Tracker
Information
The Tektronix TR 210 is an accessory to an Oscilloscope
which allows power off
troubleshooting of electronic circuits by using the
technique of Analog Signature
Analysis.
This signature shows the V/I characteristics of an
electronic device which when
compared with a known good device, can assist in locating
faulty components of
a circuit without applying power to the board under test.
This technique of
troubleshooting simply involves the visual comparison of
circuit signatures
which can assist in isolating circuit failures due to opens,
shorts, device leakage,
ESD damage, Power supply over-voltage and transients.
Analog Signature Analysis or ASA is a unique, power-off
troubleshooting
technique. It uses an alternating current (AC) sinewave
stimulus to show the
current (I) vs. voltage (V) characteristic of an unpowered
component on a CRT.
The IV characteristic is called an analog signature and each
pin of a component
can have a unique signature. When components fail, their
signatures change so
troubleshooting using ASA is simply a matter of finding the
defective
component by analyzing its signature. You can compare
signatures of suspect
components to signatures of known-good components.
Test current applied across a component is limited. When
used carefully, this
technique is non-destructive and does not damage any
components. ASA has
many advantages as a proven, fast, and effective
troubleshooting technique.
You can:
■
Troubleshoot circuitry that cannot be powered up due to a
shorted condition.
■
Troubleshoot in a qualitative mode, allowing you to see
physical problems
with a suspect component.
■
Compare device characteristics with known types for better
matching.
■
Eliminate risk of accidental shorting across other points
during POWER ON
testing which could further damage the component or other
components on
the board.
■
Minimize the risk of shock hazard since the ASA
troubleshooting approach
requires no power applied to the circuitry.
■
Perform preventative maintenance by seeing flaws in
components that could
possibly lead to untimely failures.
■
Look at replacement components before they are installed in
circuitry to
reduce the risk of installing defective ones.
Manual Type:
Service Manual
Pages:
72
Size:
312.23 Kbytes (319719 Bytes)
Language:
english
Revision:
Manual-ID:
071-0113-00
Date:
Quality:
Electronic document, no scan, very well readable.
Upload date:
2017 12 28
MD5:
553537859c960fc309b595d0ea577ef7
Downloads:
561
Manual Type:
User Manual
Pages:
108
Size:
1.65 Mbytes (1730660 Bytes)
Language:
english
Revision:
Manual-ID:
071-0114-01
Date:
Quality:
Electronic document, no scan, very well readable.
Upload date:
2017 12 28
MD5:
e8a8f58312e664ba7ea38c059316752c
Downloads:
630
Information
General Safety
Summary ...
v
Introduction and Specifications
...
1-1
What is Signature
Analysis? ...
1-2
Power Configuration
...
1-3
Signal Fuse
Replacement ...
1-4
50/60Hz Selector Switch
...
1-4
Unpacking Your TR 210
...
1-4
Installation
...
1-5
Operating the TR 210
...
1-6
Specifications
...
1-8
Accessories
...
1-12
A Quick Tour
...
2-1
Front
Panel ...
2-2
Back Panel
...
2-4
Oscilloscope Display
...
2-5
Initial Setups
...
2-6
Power On
...
2-6
Range Selection
...
2-6
Frequency Selection
...
2-7
Channel
Selection ...
2-7
Pulse Generator
...
2-8
Using Your TR 210
...
3-1
Basics of ASA - How it Works
...
3-2
Horizontal Axis
...
3-3
Vertical
Axis ...
3-4
Basic Analog Signatures - Open and Short
... 3-5
Four Basic Component Analog Signatures
... 3-7
Testing Passive
Components ...
4-1
Resistors ...
4-1
Shorts and Opens, Resistor Faults
...
4-4
Review
...
4-4
Troubleshooting Applications
...
4-5
Capacitors
...
4-6
Capacitor Analog Signatures
...
4-7
The Signatures of Different Capacitors in LOW2
Range ... 4-8
Understanding Capacitor Analog
Signatures ... 4-9
Capacitor Failures - Leakage
...
4-10
Review
...
4-11
Applications ...
4-11
Inductors
...
4-11
Inductor Analog Signatures
...
4-12
The Signatures of Different Inductors in LOW2
Range ... 4-13
Affect of Frequency Fs on Inductor Signatures
... 4-13
Understanding Inductive
Signatures ...
4-14
Review
...
4-14
Applications ...
4-15
Electromechanical Switching Components
... 4-16
Manually Operated Mechanical Switches
... 4-16
Review
...
4-18
Electomechanical Relays
...
4-18
Relay Coil Test
...
4-18
Using the Pulse Generator to Test a 5V Reed
Relay ... 4-19
Review
...
4-20
Testing Discrete Semiconductors
...
5-1
Diodes
...
5-1
Diode Analog Signatures
...
5-1
Affects of Frequency (Fs) on the Diode Signature
... 5-3
The Composite Diode
Signature ...
5-3
Diode
Failures ...
5-4
Internal Resistance Flaw in a Diode
...
5-5
Internal Leakage Flaw in a
Diode ...
5-6
Zener
Diodes ...
5-6
Review
...
5-8
Applications ...
5-8
Transistors
...
5-9
Bipolar Transistor Signatures
...
5-9
Bipolar Transistor Base-Collector Signatures
... 5-10
Identifying Unknown Transistors
...
5-12
Darlington Bipolar Transistor
Signatures ...
5-14
Using the Pulse Generator to Test Transistor
Operation ... 5-15
Analyzing the Active Characteristics of a
Transistor ... 5-16
Review
...
5-17
Applications ...
5-18
Optical Switches
...
5-18
Phototransistors
...
5-19
Optocoupler Dynamic
Testing ...
5-20
Optocoupler Signatures
...
5-20
SCRs and Triacs
...
5-22
Silicon Controlled Rectifiers (SCRs)
... 5-22
Active Testing of an
SCR ...
5-24
Triacs
...
5-25
Active Testing of Triacs
...
5-26
Review
...
5-27
Applications ...
5-27
Testing Integrated
Circuits ...
6-1
Digital Integrated Circuits
...
6-1
Integrated Circuit
Failures ...
6-1
Digital Integrated Circuit
Signatures ...
6-2
Signatures of a Digital IC
...
6-3
Signatures for Different Logic Chip Families
... 6-4
Comparing Two TTL
Families ...
6-4
CMOS Logic Family
...
6-5
CMOS Components and Test Signal Frequency Fs
... 6-7
Troubleshooting Digital Logic
ICs ...
6-8
Comparison Testing for Digital ICs
...
6-9
Review
...
6-10
Applications ...
6-10
Analog
Circuits ...
6-11
Op
Amps ...
6-11
Op Amp Signatures
...
6-12
Troubleshooting Op Amp Circuits
...
6-13
Linear Voltage
Regulators ...
6-14
Review
...
6-15
Applications ...
6-15
Low Voltage
...
6-16
Review
...
6-18
Applications ...
6-18