Tektronix products are covered by U.S. and foreign patents, issued and pending. Information in this publication
supersedes that in all previously published material. Specifications and price change privileges reserved.
TEKTRONIX and TEK are registered trademarks of Tektronix, Inc.
Contacting Tektronix
Tektronix, Inc.
14150 SW Karl Braun Drive
P.O . Bo x 50 0
Beaverto
USA
For product information, sales, service, and technical support:
n, OR 97077
In North America, call 1-800-833-9200.
World wide, visit www.tektronix.com to find contacts in your area.
Warranty
Tektronix warrants that this product will be free from defects in materials and workmanship for a period of one (1)
year from the date of shipment. If any such product proves defective during this warranty period, Tektronix, 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. Parts, modules and replacement products used by Tektronix for warranty
work may be n
the property of Tektronix.
ew or reconditioned to like new performance. All replaced parts, modules and products become
In order to o
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 Tektronix, with shipping
charges p repaid. Tektronix shall pay for the return of the product to Customer if the shipment is to a location within
the country in which the Tektronix service center is located. Customer shall be responsible for paying all shipping
charges, duties, taxes, and any other charges for products returned to any other locations.
This warranty shall not apply to any defect, failure or damage caused by improper use or improper or inadequate
maintenance and care. Tektronix shall not be obligated to furnish service under this warranty a) to repair damage
result
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-Tektronix supplies; or d) to service a product that has been modified or
integrated with other products when the effect of such modification or integration increases the time or difficulty
of servicing the product.
THIS WARRANTY IS GIVEN BY TEKTRONIX WITH RESPECT TO THE PRODUCT 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.
TRONIX' RESPONSIBILITY TO REPAIR OR REPLACE DEFECTIVE PRODUCTS IS THE SOLE
TEK
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.
[W2 – 15AUG04]
btain service under this warranty, Customer must notify Tektronix of the defect before the expiration of
ing from attempts by personnel other than Tektronix representatives to install, repair or service the product;
Table of Contents
General Safety Summary .........................................................................................vi
Service Safety Summary.................................. ................................ .......................viii
t equipment .................. ................................ ................................ ........12
est points voltage (J2000)....... ................................ ................................ ......73
Table of Contents
AWG5000B and AWG5000C Series Service Manualv
General Safety Summary
General Safet
To Av oid Fi
re or Personal
Injury
ySummary
Review the fo
this product or any products connected to it.
To avoid pot
Only qualified personnel should perform service procedures.
Use proper
certified for the country of use.
Ground th
of the power cord. To avoid electric shock, the grounding conductor must be
connected to earth ground. Before making connections to the input or output
terminals of the product, ensure that the product is properly grounded.
Observe all terminal ratings. To a v o i d fire or shock hazard, observe all ratings
and markings on the product. Consult the product manual for further ratings
information before making connections to the product.
Do not apply a potential to any terminal, including the common terminal, that
exceeds the maximum rating of that terminal.
llowing safety precautions to avoid injury and prevent damage to
ential hazards, use this product only as specified.
power cord. Use only the power cord specified for this product and
eproduct. This product is grounded through the grounding conductor
Power disconnect. The power cord disconnects the product from the power source.
Donotblockthepowercord;itmustremain accessible to the user at all times.
Do not operate without covers. Do not operate this product with covers or panels
removed.
Do not operate with suspected failures. If you suspect that there is damage to this
product, have it inspected by qualified service personnel.
Avoid exposed circuitry. Do not touch exposed connections and components when
power is present.
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.
viAWG5000B and AWG5000C Series Service Manual
General Safety Summary
TermsinThisManual
Symbols and Terms on the
Product
These terms may
WAR N ING. 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.
These terms may appear on the product:
DANGER in
the marking.
WAR NI N G
read the marking.
CAUTIO
The following symbol(s) may appear on the product:
appear in this manual:
dicates an injury hazard immediately accessible as you read
indicates an injury hazard not immediately accessible as you
N indicates a hazard to property including the product.
AWG5000B and AWG5000C Series Service Manualvii
Service Safety Summary
Service Safet
y Summary
Only qualifieSafety Summary and the General Safety Summary before performing any service
procedures.
Do Not Service Alone. Do not perform internal service or adjustments of this
product unless another person capable of rendering first aid and resuscitation is
present.
Disconnect Power. To avoid electric shock, switch off the instrument power, then
disconnect the power cord from the mains power.
Use Care When Servicing With Power On. Dangerous voltages or currents may
exist in
disconnect test leads before removing protective panels, soldering, or replacing
components.
To avoid electric shock, do not touch exposed connections.
d personnel should pe rform service procedures. Read this Service
this product. Disconnect power, remove battery (if applicable), and
viiiAWG5000B and AWG5000C Series Service Manual
Environmental Considerations
This section provides information about the environmental impact of the product.
Product End-of-Life
Handling
Observe the following guidelines when recycling an instrument or component:
Equipment Recycling. Production of this equipment required the extraction and
use of natural resources. The equipment may contain substances that could be
harmful to
the environment or human health if improperly handled at the product’s
end of life. In order to avoid release of such substances into the environment and
to reduce the use of natural resources, we encourage you to recycle this product
in an appropriate system that will ensure that most of the materials are reused or
recycled appropriately.
This sym
requirements according to Directive 2002/96/EC on waste electrical and
electronic equipment (WEEE). For information about recycling options, check
the Supp
bol indicates that this product complies with the European Union’s
ort/Service section of the Tektronix Web site (www.tektronix.com).
Mercury Notification. This product uses an LCD backlight lamp that contains
mercury. Disposal may be regulated due to environmental considerations.
e contact your local authorities or, within the United States, the Electronics
Pleas
Industries Alliance (www.eiae.org) for disposal or recycling information.
1
Perchlorate Materials. This product contains one or more type CR lithium
coin cell batteries. According to the state of California, CR lithium coin
cells are classified as perchlorate materials and require special handling. See
.dtsc.ca.gov/hazardouswaste/perchlorate for additional information.
www
1
The mercury notification applies only to the AWG5000B Series instruments.
striction of Hazardous
Re
Substances
This product has been classified as Monitoring and Control equipment, and is
outside the scope of the 2002/95/EC RoHS Directive.
AWG5000B and AWG5000C Series Service Manualix
Environmental Considerations
xAWG5000B and AWG5000C Series Service Manual
Preface
Manual Structure
This manual contains service information for your instrument. Read this preface
to learn how this manual is structured, the conventions it uses, and where to find
additional s
YoushouldalsoreadtheGeneralandService safety summaries before servicing
the product
upplemental information related to servicing this product.
.
Manual Conventions
Modules
Replaceable Parts
This manu
topics. Be sure to read the introductions to all procedures. These introductions
provide important information needed to do the service correctly, safely, and
efficiently.
This manual uses certain conventions that you should become familiar with
before starting service.
Throughout this manual, any replaceable component, assembly, or part is referred
to by the term module. A module is composed of electrical and mechanical
assemblies, circuit boards, interconnecting cables, and user-accessible controls.
This manual refers to any field-replaceable assembly or mechanical part
specifically by its name or generically as a replaceable part. In general, a
replaceable part is any circuit board or assembly, such as the hard disk drive, or a
mechanical part, such as the I/O port connectors, that is listed in the replaceable
rts list of this manual.
pa
al is divided into sections, which are made up of related subordina te
Safety
AWG5000B and AWG5000C Series Service Manualxi
Symbols and terms related to safety appear in the General Safety Summary found
at the beginning of this manual.
Preface
xiiAWG5000B and AWG5000C Series Service Manual
Operating Information
Operating Inf
ormation
For information on installing, operating, and networking the instrument, refer to
the AWG5000 and AWG7000 Series Arbitrary Waveform Generators Quick Start
User Manual
instrument, and on the Tektronix Web site (www.tektronix.com/manuals).
. This manual is available on the Document CD that came with your
AWG5000B and AWG5000C Series Service Manual1
Operating Information
2AWG5000B and AWG5000C Series Service Manual
Theory of O peration
This section describes the electrical operation of the AWG5000B and AWG5000C
Series Arbitrary Waveform Generators.
Overview
The Arbitrary Waveform Generators provide various models with different
frequency
major sections: the platform section and generator section. The platform section
is common to each model.
capabilities and numbers of channels. Each model consists of two
Block Diagram of the
System
The Arbit
components for a PC. The instrument operates with the Microsoft Windows
operating system. The following figure shows the system level block diagram.
rary Waveform Generators are based on the μATX CPU board and
AWG5000B and AWG5000C Series Service Manual3
Theory of Operation
Figure 1: AWG5000C Series block diagram
4AWG5000B and AWG5000C Series Service Manual
Theory of Operation
gure 2: AWG5000B Series block diagram
Fi
AWG5000B and AWG5000C Series Service Manual5
Theory of Operation
Module Overvi
Front Panel (FP) Board
Display Board
ews
A Microsoft Windows processor system is the primary controller of the
instrument. The instrument features an XGA resolution flat-panel display, a
transparent
instrument functions. You can also make complete use of the instrument with a
mouse and a keyboard.
Push-butt
microcontroller, which sends the button and knob change information to the μAT X
board via a USB path. The FP board consists of the following blocks:
USB controller (Cypress EZ-USB FX1)
FPGA (Al
Key switch matrix
LED indicators (Tri-Color and Mono-Color)
The Display board supports interconnection between the μAT X bo ar d an d F P
board. Two internal USB ports come from the μATX board. One USB connects to
a touch panel controller. The other connects to a microcontroller on the FP board.
Connectors related to the LCD are also included. The Display board consists of
ollowing blocks:
the f
touch screen, and a front panel with direct a ccess to commonly used
on switches on the Front Panel (FP) board are read by an embedded
tera Cyclone)
Touch-panel controller
Rotary encoder (signal goes to the FP board)
Back light controller
Connector to LCD
6AWG5000B and AWG5000C Series Service Manual
Theory of Operation
Multi-Input/Output (MIO)
Board
The MIO board co
(PCI port for AWG5000B series) from various devices that communicate with
the μATX system. The devices include the display system, GPIB, TekLink, and
data flow (PCIF) path to the waveform generator system. An EEROM on this
board stores instrument settings and calibration data. The MIO board consists of
the following blocks:
PCI controller
GPIB controller
LCD display controller (AWG5000B Series)
NOTE. For AWG5000B Series instruments with serial numbers below B020000,
the ATI Mobility-MI circuit was included in the MIO board. For AWG5000B
Series instruments with serial numbers B020000 and above, a separate display
adapter
For AWG5000C Series instrume nts, the Processor board provides the video
displa
board (ADD2) performs this function.)
y output.
PCI target adapter
PLD140 (Xilinx FPGA)
ordinates the flow of data through the Windows PCIe port
Display Adapter (ADD2)
Board (AWG5000B Series)
Front Switch (FSW) Board
Front Connector (FCON)
Board
EEPROM for calibration data storage
TekLink interface
ADD2 board contains LCD display control circuitry that processes video
The
signals from the MIO board.
e Display Adapter board is used in AWG5000B Series instruments serial
Th
numbered B020000 and above. This circuitry formerly resided on the MIO board.
The FSW board provides interconnection between the Standby switch and μATX
oard. It includes an LED driver.
b
The FCON board provides front-panel connections of the USB ports and the
DC output. It includes common mode filters that suppress EMI radiation on the
USB signal.
AWG5000B and AWG5000C Series Service Manual7
Theory of Operation
Display Pan el
Touch Panel
Processor (μATX) Board
The active-mat
display has a 1024 x 768 resolution and brightness is set to full intensity.
For AWG5000C Series instruments, the display is controlled by the Processor
board. For AWG5000B Series instruments, the display is controlled by the MIO
board (or the display adapter board on AWG5000B Series instruments with serial
numbers B020000 and above).
The touch information from the touch screen is processed by Windows drivers,
actively p lacing the pointer at the touched location. Actions from the mouse
and the touch panel are interchangeable, and treated alike by the user interface
software. The AccuTouch resistive touch screen uses a glass panel with a uniform
resistive coating. A thick polyester coversheet is tightly suspended over the top of
a glass substrate, separated by small, transparent insulating dots. The coversheet
has a hard, durable coating on the outer side and a conductive coating on the inner
side. The controller is located on the LCDA board.
The μATX board provides standard Windows functionality and I/O port interfaces
on the rear panel. This includes RS-232, Parallel, and Ethernet ports, as well as
four USB ports, plus two USB2.0 ports located in the lower right front corner
of the instrument. The μATX board receives input from the front panel and
touch panel, and implements the appropriate changes. For AWG5000C Series
instruments, video display data is transferred through the LVDS co
AWG5000B Series instruments, video display data is transferred through PCI bus
interface. The hard drive is connected to the μATX board through the SATA
interface, and the CD/DVD is connected to the Windows system through the
IDE parallel interface.
rix LCD display is fully controlled by Windows drivers. The
nnector. For
Power Supply
Secondary Power Supply
Fans
The CD/DVD drive is connected to the Windows via an interface connector on
the μATX board. AWG5000C Series models connect using the SATA interface.
AWG5000B Series m odels connect using the IDE parallel interface.
The power supply is a switching AC to DC converter. It automatically detects the
line voltage over the range of 90 to 264 VAC. It supplies power to all the circuitry
in the instrument. No switch completely disconnects the line power from the
instrument. The ON/STBY switch controls the power to the instrument through
the μATX board circuitry. When in the “power off” condition, there is still a low
power standby current to allow the system to monitor the ON/STBY switch.
The secondary power supply is a switching AC to DC converter. It automatically
detects the line voltage over the range of 85 VAC to 265 VAC.
Three fans on the side of the instrument provide forced air cooling. The fans are
controlled by the fan speed control circuit on the PWR board and are regulated by
monitoring the temperature at the circuitry.
8AWG5000B and AWG5000C Series Service Manual
Theory of Operation
Power (PWR2) Board
CLK1G Board
AWG1G Board
The PWR2 board p
MIO board, OUT1G board, and AWG1G board. All the power comes from the
power supply and secondary power supply modules. The fan control circuit has
a thermal sensor on this board. DC voltage to the fans is controlled relative to
the sensed temperature. DC-DC converters are included for generating different
DC voltages.
The CLK1G board provides a 600 MHz to 1200 MHz clock to the AWG1G board.
The clock input accepts 600 MHz to 1200 MHz clock signals from an external
signal source. The reference clock input accepts 10 MHz to 800 MHz reference
clock sig
used for synchronizing frequency between two or more instruments. The CLK1G
board consists of the following blocks:
The AWG1G board generates arbitrary waveforms based on the waveform
memory and the sequence memory. There are two types of PLDs (Xilinx FPGA)
on the board. One is an AWG controller called PLD121 which interfaces to/from
the MIO board. The other is a memory controller called PLD120 which generates
wav
memory is included in the memory controller PLD. The AWG1G board consists
of the following blocks:
nals from an external signal source. The 10 MHz reference output can be
VCO (600 MHz to 1200 MHz)
Fractio
10.0 MHz TCXO (reference oscillator)
External reference input
eform patterns. Waveform data is stored in ZBT type SRAMs. The sequence
nal-N PLL
rovides DC power to the fans, HDD, CD Drive, μATX bo a r d,
1.2 GS/s DAC (AD9736)
hannels 8:1 MUX (TEK0015 ASIC)
8c
PLD120 (Xilinx Virtex-4 FPGA) as a memory controller
PLD121 (Xilinx Virtex-4 FPGA) as an AWG controller
ZBT type SRAM for the waveform memory
28 bits digital output driver
Marker output driver
Trigger and event inputs
DC output
DC-DC converter
AWG5000B and AWG5000C Series Service Manual9
Theory of Operation
OUT1G Board
The OUT1G board
Amplitude, filter, offset, add input, and On/Off controls are added to the analog
outputs. The OUT1G board consists of the following blocks:
Analog differential output amplifier
Selectable
Selectable attenuator
Add input from external
Control D/A for offset setting
Level monitor A/D
Relay driver
Control
ler PLD
provides analog outputs to the front-panel connector.
low-pass filter
10AWG5000B and AWG5000C Series Service Manual
Adjustment Procedures
This section contains information about instrument adjustment. Only qualified
personnel should perform adjustment procedures. Read the Service Safety
Summary and the General Safety Summary before performing any service
procedures.
Adjustment Interval
Adjustment After Repair
NOTE. Befor
waveform generator at least 20 minutes in an ambient temperature between 2 0 °C
and 30 °C. Adjustments performed before warm-up or outside this temperature
range may result in poor performance.
If the instrument fails performance tests, then adjustment may be required.
Perform
technical reference manual for your instrument.
If periodic calibration is one of your requirements, a g
performance and make adjustments (only if needed) every 2000 hours of operation
or once a year if the instrument is used infrequently.
After removal and replacement of a module due to electrical failure, you must
perform the adjustment procedure if the module you replaced is marked “yes”
in the following table. (See Table 1.)
e performing adjustment procedures, you must warm up the arbitrary
ance tests are located in the specifications and performance verification
Frequency counterAccuracy: within ± 0.01 ppmAgilent 53181A1 ea
50 Ω BNC cable
Tektronix part number
012-0057-01
1ea
Adjustment Overview
The adjustment procedure contains three adjustment items. Before performing
adjustme
least 20 minutes in an ambient temperature between 20 °C and 30 °C.
nt procedures, you must warm up the arbitrary waveform generator at
Enable the Service Menu
You mus t
this:
1. Power o
2. Select the System menu from the menu bar, and then select Service Mode...
3. The following dialog box is displayed. Enter the password “1185”.
4. The following service UI menu is displayed:
enable the Service menu to perform the adjustment procedure. To do
ntheinstrument.
12AWG5000B and AWG5000C Series Service Manual
Adjustment Procedures
e 3: Service UI menu
Figur
ft half of the window with the title Calibration is the calibration part of the
The le
window. You can perform the calibrations either all in one step or individually.
However, since the calibration sequence is predefined, follow the sequence from
the top. You must finish a calibration item listed on the upper part of the screen
before performing the lower part of the items. Some items may be grayed out,
depending on your instrument option configurations.
dividual Calibrations
In
Execute All Calibrations
AWG5000B and AWG5000C Series Service Manual13
To perform individual calibrations, click the calibration buttons, starting with
10 MHz Reference..., and the corresponding calibrations are executed.
To perform all calibrations in one step, click Execute All Calibrations and all
calibrations are executed in order starting from the top.
Adjustment Procedures
Saving the Calibration
Results to EEPROM
Calibration Procedure
10 MHz R
eference Clock
Calibration
When the calibr
(regardless of the item, all results are saved to the EEPROM on the MIO board),
the flag under Is Calibrated will be set to TRUE. If the calibration was successful,
the Status field will display PASS. If the calibration failed, FAIL will be displayed.
There are two types of calibration: Self calibration and Manual calibration.
Self calibration - The instrument performs the calibration item and ends
automatically.
Manual calibration - This calibration item requires external devices and
manual data input. (See Table 2 on page 12.)
A warning message is displayed if you c lick a calibration button without waiting
for 20 minutes after the instrument powered on. Click the Cancel button and
allow at least 20 minutes for the instrument to warm up.
This procedure adjusts the built-in TCXO oscillator frequency for the 10 MHz
Reference Output.
Required equipmentPrerequisites
One frequency counter
One 50 Ω BNC cable
ation has been performed and the results are saved to the EEPROM
1. Install the test hookup and preset the instrument controls:
a. Use the 50 Ω BNC cable to connect the 10 MHz Reference Output
connector (on the AWG instrument rear panel) to the channel 1 connector
on the frequency counter. (See Figure 4.)
Figure 4: 10 MHz Reference clock calibration test hookup
14AWG5000B and AWG5000C Series Service Manual
Adjustment Procedures
2. Set the frequen
a. Input impedance: AC, 50 Ω
b. Gate time: 0.1 s
3. Click the 10MHz Reference... button in the Service UI menu to display the
following dialog box:
Figure 5: 10 MHz Reference Calibration dialog box
4. Change the 10MHz Reference DAC value using the up/down button or the
panel rotary knob so that the frequency counter reading is within the
frontrange of 10 MHz ±1 Hz.
cy counter as follows:
og Output Level
Anal
Calibration
ter-Channel Skew
In
Calibration
5. Click
6. Click Close to close the dialog box.
This is a self calibration. Click the Analog Output Level (Self) buttoninthe
Service UI menu. This calibration ensures that the analog output levels are within
the specified range.
This is a self calibration. Click the Inter-Channel Skew (Self) button in the
Service UI menu. This calibration ensures that the inter-channel skews are within
the specified range.
This completes the adjustment procedures. Disconnect the equipment from the
instrument.
Save to EEPROM to save the data to the EEPROM.
AWG5000B and AWG5000C Series Service Manual15
Adjustment Procedures
16AWG5000B and AWG5000C Series Service Manual
Maintenance
Preparation
This section contains information needed to do periodic and corrective
maintenance on the instrument. The following subsections are included:
Preparation – Tells you how to prepare for arbitrary w aveform generator
maintenance.
Preparation Preventing ESD – Provides general information on preventing
damage to internal modules when doing maintenance.
Inspection and Cleaning – Information and procedures for inspecting the
instrument and cleaning its external and internal modules.
Removal and Installation Procedures – Procedures for the removal of
defective modules an
Troubleshooting – Information for isolating failed modules. Included
are instructions for operating the instrument diagnostic routines and
troubleshooting trees. Most of the trees make use of the internal diagnostic
routines to speed fault isolation to a module.
d installation of new or repaired modules.
Preventing ESD
Only qualified persons should perform service procedures. Before performing any
service procedures, read the Service Safety Summary and General Safety Summary
at the front of this manual and the ESD information below. Also refer to the
Operating Information section and your arbitrary waveform generator quick start
user manual for information about using the arbitrary waveform generator.
When performing any service that requires internal access to this instrument,
adhere to the following precautions to avoid damaging internal modules and their
components due to electrostatic disch
CAUTION. Static discharge can damage any semiconductor component in this
instrument.
Minimize handling of static-sensitive modules.
Transport and store static-sensitive modules in their static protected containers
or on a metal rail. Label any package that contains static-sensitive modules.
Discharge the static voltage from your body by wearing a grounded antistatic
wrist strap while handling these modules. Service static-sensitive modules
only at a static-free work station.
arge (ESD).
AWG5000B and AWG5000C Series Service Manual17
Maintenance
Inspection and Cleaning
Inspection and Cleaning describes how to inspect for dirt and damage, and how to
clean the
as preventive maintenance. Preventive maintenance, when done regularly, may
prevent instrument malfunction and enhance its reliability.
Preventive maintenance consists of visually inspecting and cleaning t he
instrument and using general care when operating it.
How often to do maintenance depends on the severity of the environment in which
the instrument is used. A proper time to perform preventive maintenance is just
before instrument adjustment.
Do not allow any
work station surface.
Handle circui
Do not slide the modules over any surface.
Avoid handling modules in areas that have a floor or work-surface covering
capable of generating a static charge.
exterior and interior of the instrument. Inspection and cleaning are done
thing capable of generating or holding a static charge on the
t boards by the edges when possible.
General Care
For optimum performance, follow these recommendations:
ect the instrument from adverse weather conditions. The instrument is
Prot
not waterproof.
ot store or leave the instrument where the liquid crystal display (LCD)
Do n
will be exposed to direct sunlight or high humidity for long periods of time.
e cabinet helps keep dust out of the instrument and must be in place during
Th
normal operation.
avoid damage to the instrument, do not expose it to any sprays, liquids,
To
or solvents.
18AWG5000B and AWG5000C Series Service Manual
Maintenance
Inspection and Cleaning
procedures
The collection
of dirt on internal components can cause them to overheat and fail.
Dirt also provides an electrical conduction path that could cause an instrument
failure, e specially under high-humidity conditions. Inspect the instrument as
often as operating conditions require.
WAR N ING. Before performing any of the following procedures, power down the
instrument and disconnect it from line voltage.
CAUTION. Avoid the use of chemical cleaning agents, which might damage the
plastics used in this instrument. Use only deionized water when cleaning the
front-pa
nel buttons. Use an ethyl alcohol solution as a cleaner and rinse with
deionized water.
Inspection – Exterior. Inspect the outside of the instrument for damage, wear, and
missing parts, using the following table as a guide. An instrument that appears to
have been dropped or otherwise abused should be checked thoroughly to verify
t operation and performance. Immediately repair defects that could cause
correc
personal injury or further damage to the instrument.
Table 3: External inspection checklist
ItemInspect forRepair action
Cabinet, front-panel, and
r
cove
nt-panel knob
Fro
Connectors
rrying handle and cabinet
Ca
feet
ccessories
A
Cracks, scratches,
rmations, damaged
defo
hardware or gaskets.
sing, damaged, or loose
Mis
knob.
ken shells, cracked
Bro
insulation, and deformed
contacts. Dirt in connectors.
rrect operation.
Co
Missing items or parts of
items, bent pins, broken or
rayed cables, and damaged
f
connectors.
Repair or replace defective
le.
modu
air or replace missing or
Rep
defective knob.
Repair or replace defective
modules. Clear or wash out
rt.
di
pair or replace defective
Re
module.
epair or replace damaged
R
or missing items, frayed
cables, and defective
odules.
m
AWG5000B and AWG5000C Series Service Manual19
Maintenance
Flat Panel Display Cleaning
Cleaning Proce
exterior:
1. Remove loose d
care to avoid scratching the clear glass display shield.
2. Remove rema
detergent-and-water solution. Do not use abrasive cleaners.
CAUTION. To prevent getting moisture inside the instrument during external
cleaning, use only enough liquid to dampen the cloth or applicator.
NOTE. To avoid damage to the surface of the instrument, do not use any abrasive
or chemical cleaning agents.
The display is a soft plastic display and must be treated with care during cleaning.
CAUTIO
display.
Avoid using abrasive cleaners or commercial cleaners to clean the display surface.
N. Improper cleaning agents or methods can damage the flat panel
dure – Exterior. Do the following steps to clean the instrument
ust on the outside of the instrument with a lint-free cloth. Use
ining dirt with a lint-free cloth dampened in a general purpose
Avoid spraying liquids on the display surface.
scrubbing the display with excessive force.
Avoid
Clean the flat panel display surface by gently rubbing the display with a
an-room wipe (such as Wypall Medium Duty Wipes, #05701, available from
cle
Kimberly-Clark Corporation).
he display is very dirty, moisten the wipe with distilled water or a 75%
If t
isopropyl alcohol solution and gently rub the display surface. Avoid using excess
force or you may damage the plastic display surface.
CAUTION. To prevent getting moisture inside the instrument during external
cleaning, use only enough liquid to dampen the cloth or applicator.
Inspection – Interior. To access the inside of the instrument for inspection and
cleaning, refer to the Removal and Installation Procedures in this section.
Inspect the internal portions of the instrument for damage and wear, using the
following table as a guide. Defects should be repaired immediately.
20AWG5000B and AWG5000C Series Service Manual
Maintenance
If any circuit b
oard is repaired or replaced, you must perform the Performance
Ver ification procedures located in the Specifications and Performance Verification
manual for your instrument. This manual is available on the Tektronix Web
site (www.tektronix.com/manuals). If the instrument fails the Performance
Ver ification tests, you must also per f orm the Adjustments procedure.
CAUTION. To prevent damage from electrical arcing, ensure that circuit boards
and compone
nts are dry before applying power to the instrument.
Table 4: Internal inspection checklist
ItemInspect forRepair action
Front and rear case
Circuit boards
Solder connectionsCold solder or rosin joints.
Wiring and cablesLoose plugs or connectors.
ChassisDents, deformations, and
Cracks or deformations.
Scratched lettering or
display filter. Loose
connectors or labels.
Loose, broken, or corroded
solder connections.
Burned circuit boards.
Burned, broken, or cracked
circuit-run plating.
Burned, broken, or frayed
wiring.
damaged hardware.
Repair or replace defective
hardware.
Remove failed module and
replace with a new module.
Resolder joint and clean
with ethyl alcohol.
Firmly seat connectors.
Repair or replace modules
with defective wires or
cables.
Straighten, repair, or replace
defective hardware.
Cleaning Procedure – Interior. Do the following steps to clean the instrument
erior:
int
1. Blow off dust with dry, low-pressure, deionized air (approximately 9 psi).
2. Remove any remaining dust with a lint-free cloth dampened in isopropyl
alcohol (75% solution) and rinse with warm deionized water. (A cotton-tipped
pplicator is useful for cleaning in narrow spaces and on circuit boards.)
a
NOTE. If steps 1 and 2 do not remove all the dust or dirt, please contact Tektronix.
(See Contacting Tektronix at the front of this manual.)
Lubrication. There is no periodic lubrication required for the instrument.
AWG5000B and AWG5000C Series Service Manual21
Removal and Installation Procedures
Removal and Installation Procedures
This section contains procedures for removal and installation of all mechanical
and electrical modules.
Preparation
WARNING. Before performing this or any other procedure in this manual, read the
General Safety Summary and Service Safety Summary found at the beginning of
this manual.
To prevent damage to the instrument components, read Preventing ESD in this
section.
Before doing any procedure in this section, disconnect the power cord from the
line voltage source.
justment After Repair
Ad
List of Modules
This section contains the following items:
This preparatory information that you need to properly do the following
procedures.
List of tools required to remove and disassemble all modules.
Procedures for removal and reinstallation of the modules.
NOTE. Read Required Equipment for a list of the tools needed to remove and
install modules in this instrument. (See page 24, Required Equipment.) Read the
cleaning procedure before disassembling the instrument for cleaning.
After the removal and replacement of a module due to electrical failure, perform
the adjustment procedures. Refer to the Adjustment Procedures section.
The Replaceable Parts section provides a list of all replaceable modules.
22AWG5000B and AWG5000C Series Service Manual
Removal and Installation Procedures
Summary of Pro
cedures
Disassembly for replacement is best achieved by removing and replacing the
modules in a specific order. Complete disassembly is best achieved by the
following pr
ocedures in the order given in the following figures.
ure 6: Disassembly procedures for external modules and internal modules (top)
Fig
AWG5000B and AWG5000C Series Service Manual23
Removal and Installation Procedures
Figure 7: Disassembly procedures for internal modules (bottom)
Required Equipment
Most modules in the instrument can be removed with a screwdriver handle
mounted with a size T-15, Torx screwdriver tip. All equipment required to remove
and reinstall the modules is listed in the following table.
Table 5: Required tools for module removal and reinstall
General
Item #NameDescription
1.
2.T-15 Torx tip
3.T-10 Torx tip
4.T-20 Torx tip
5.
6.
7.
8.Angle-Tip Tweezers
9.Wire cutterUsed to remove cable ties
Screwdriver handle
#1 Phillips screwdriverScrewdriver for removing #1 size
#2 Phillips screwdriverScrewdriver for removing #2 size
3/16 inch open-end
wrench
Accepts Torx-driver bits620-440
Torx-driver bit for T-15 size screw
heads
Torx-driver bit for T-10 size screw
heads
Torx-driver bit for T-20 size screw
heads
Phillips screws
Phillips screws
Used to remove nut posts
Used to remove the front-panel knobStandard
tool #
640-247
Standard
tool
Standard
tool
Standard
tool
tool
Standard
tool
24AWG5000B and AWG5000C Series Service Manual
Removal and Installation Procedures
Procedures fo
Handle Unit
r External Modules
You need a screwdriver with a T-20 Torx tip (items 1 and 4).
Removal. To remove the handle unit, follow these steps: (See Figure 8 on
page 26.)
1. Remove the two screws securing the handle base bracket to the cosmetic
cover.
2. Grasp the bracket and handle away from the cosmetic cover.
Installation. To install, reverse this procedure.
Snaps
You need a screwdriver with a T-15 Torx tip (items 1 and 2).
Removal. To remove the snaps, follow these steps: (See Figure 8 on page 26.)
1. Remove the four screws securing the snaps to the cosmetic cover.
2. Lift the snaps away from the cosmetic cover.
Installation. To install, reverse this procedure.
Cosmetic Cover (Top)
Cosmetic Cover (Bottom)
You need a screwdriver with a T-15 Torx tip (items 1 and 2).
Removal. To remove the top cosmetic cover, follow these steps: (See Figure 8
on page 26.)
1. Remove the snaps.
2. Remove the two screws (side) and three screws (top) securing the cosmetic
cover to the chassis.
3. Loosen the cover with a detaching tool, such as a flat-blade screwdriver.
4. Tilt the rear side of the cover up, and then pull it off the chassis.
Installation. To install, reverse this procedure.
You need a screwdriver with a T-15 Torx tip (items 1 and 2).
Removal. To remove the top cosmetic cover, follow these steps: (See Figure 8
on page 26.)
1. Remove the handle unit.
2. Orient the instrument so its top is down on the work surface and its rear is
facing you.
AWG5000B and AWG5000C Series Service Manual25
Removal and Installation Procedures
3. Remove the two s
cosmetic cover to the chassis.
4. Loosen the cov
5. Tilt the rear side of the cover up, and then pull it off the chassis.
Installation. To install, reverse this procedure.
crews (side) and three screws (bottom) securing the
er with a detaching tool, such as a flat-blade screwdriver.
Figure 8: Handle, snaps, cosmetic covers, and front-trim unit removal
26AWG5000B and AWG5000C Series Service Manual
Removal and Installation Procedures
Front-Trim Unit
Youneedascrew
2, and 8).
Removal. To remove the front-trim unit, follow these steps: (See Figure 8 on
page 26.)
1. Remove the handle unit, snaps, and cosmetic covers.
2. Orient the instrument so that the rear is on the work surface.
3. Tape the power switch button down so that it will not come off the front trim.
4. Remove the
angle-tip tweezers.
5. Remove th
6. Grasp the bottom side of the front trim, and pull off the bottom side of it by
looseni
7. The upper part of the chassis has three projections. The front trim fits in
these p
it upward before pulling it forward.
Installation. To install, reverse this procedure.
rojections. When removing the front trim, grasp its back edge and flex
driver with a T-15 Torx tip and angle-tip tweezers (items 1,
knob by pulling it straight out from the front panel with the
e three screws at the bottom of the front trim.
ng the DVD drive part.
EMI C overs
You need a screwdriver with a T-15 Torx tip (items 1 and 2).
Removal. To remove the EMI covers, follow these steps: (See Figure 9 on
page 28.)
1. Remove the handle unit, snaps, cosmetic covers, and front-trim unit.
2. Remove the top cover:
a. Orient the instrument so that the bottom is on the work surface.
emove the 14 screws securing the top EMI cover to the chassis.
b.R
c. Lift the cover off the chassis.
3. Remove the bottom cover:
a. Orient the instrument so that the top is on the work surface.
b. Remove the 12 screws securing the bottom EMI cover to the chassis.
c. Lift the cover off the chassis.
Installation. To install, reverse this procedure.
AWG5000B and AWG5000C Series Service Manual27
Removal and Installation Procedures
Figure 9: EMI cover removal
28AWG5000B and AWG5000C Series Service Manual
Removal and Installation Procedures
Hard Disk Assem
Fan Tray
bly
Unit
Removal. To rem
1. Orient the instrument so that its bottom is down on the work surface and
its rear is fac
2. Loosen the two thumb screws securing the hard disk assembly to the
instrument
3. Holding the screw heads, pull out the removable hard disk assembly carefully.
Installation. To install, reverse this procedure.
CAUTION. The hard disk drive is extremely susceptible to static-discharge
damage, shock, dust and so on. When you store a removable hard disk assembly,
put it into an anti-static plastic bag to protect it.
You need a screwdriver with a T-15 Torx tip and a #2 Phillips screwdriver (items
1, 2, and 6).
Remov
1. Remove the handle unit, snaps, cosmetic covers, front-trim unit, and EMI
al. To remove the fan tray unit, follow these steps: (See Figure 10.)
s.
cover
ove the removable hard disk assembly, follow these steps:
ing you.
.
2. Disconnect the fan cables from J300, J302, and J304 on the Power board.
Removal. To remove the secondary power supply, follow these steps : (See
Figure 24 on page 55.)
1. Remove the handle unit, snaps, cosmetic covers, front-trim unit, EMI covers,
hard disk assembly, drive-bay module, and Multi-Input/Output board.
2. Orient the instrument so that the bottom is on the work surface.
3. Disconnect the cables from J610, J630, and J632 on the Power board.
4. Remove the four screws securing the secondary power supply to the power
supply bracket.
5. Lift the secondary power supply with the insulator away from the chassis.
6. Remove t
7. Remove the three cable from CN1, CN53, and CN51/CN61 on the power
.
supply
Installation. To install, reverse this procedure.
You ne
ed a screwdriver with a T-15 Torx tip (items 1 and 2).
driver with a T-15 Torx tip (items 1 and 2).
he insulator from the power supply.
Removal. To remove the power supply, follow these steps: (See Figure 17 on
page 43.)
1. Remove the handle unit, snaps, cosmetic covers, front-trim unit, EMI covers,
hard disk assembly, drive-bay module, and Multi-Input/Output board.
2. Orient the instrument so that the bottom is on the work surface.
3. Remove the six screws securing the power supply bracket to the chassis.
4. Disconnect the cable from J611 on the Power board.
emove the three screws securing the bracket to the power supply.
5.R
6. Carefully slide the module to loosen it from the Power board.
7. Lift the power supply up out of the chassis.
8. Lift the bracket up out of the chassis.
Installation. To install, reverse this procedure.
AWG5000B and AWG5000C Series Service Manual41
Removal and Installation Procedures
RFI Filter
You nee d a s cre w
Removal. To remove the power supply, follow these steps: (See Figure 17 on
page 43.)
1. Remove the handle unit, snaps, cosmetic covers, and EMI covers.
2. Orient the instrument so that the bottom is on the work surface.
3. Disconnect
4. Remove the two screws securing the ground leads to the chassis.
5. Remove the two screws securing the RFI filter to the chassis.
6. Pull the RFI filter away from the chassis.
Installation. To install, reverse this procedure.
driver with a T-15 Torx tip (items 1 and 2).
the cable from J600 on the Power board.
42AWG5000B and AWG5000C Series Service Manual
Removal and Installation Procedures
Figure 17: Secondary power supply, power supply, and RFI filter removal
AWG5000B and AWG5000C Series Service Manual43
Removal and Installation Procedures
Power Board
You nee d a s cre w
Removal. To remove the Power board, follow these steps: (See Figure 18.)
1. Remove the handle unit, snaps, cosmetic covers, front-trim unit, EMI covers,
hard disk assembly, drive-bay module, power supply, Multi-Input/Output
board, and Processor board.
2. Orient the instrument so that the bottom is on the work surface.
3. Disconnect the cables from J102, J103, J120, J300, J302, J304, J600, J610,
J611, J630, and J632 on the Power board.
4. Remove the 10 screws securing the Power board to the chassis.
5. Lift the b
Installation. To install, reverse this procedure.
driver with a T-15 Torx tip (items 1 and 2).
oard away from the chassis.
Figure 18: Power board removal
44AWG5000B and AWG5000C Series Service Manual
Removal and Installation Procedures
Procedures fo
Drive-Bay Module
r Internal M odules (Upper) (AWG5000B Series)
You need a screwdriver with a T-15 Torx tip and a wire cutter (items 1, 2, and 9).
Removal. To r
on page 47.)
1. Remove the handle unit, snaps, cosmetic covers, front-trim unit, EMI covers,
MIO board enforcement bracket, and hard disk assembly.
2. Orient the instrument so that the bottom is on the work surface.
3. Remove th
4. Use a wire cutter to remove the two cable ties. (See Figure 19.)
emove the drive-bay module, follow these steps: (See Figure 20
e eight screws securing the drive-bay module to the chassis.
Figure 19: Location of the cable ties
5. Disconnect the cables from J101 and J104 on the Power board.
6. Disconnect the cables from J5J1 and J7J1 on the Processor board.
ft the drive-bay module away from the chassis.
7. Li
Installation. To install, reverse this procedure.
AWG5000B and AWG5000C Series Service Manual45
Removal and Installation Procedures
DVD-ROM Drive
DVD-ROM Board
You need a screw
1, 2, and 5).
Removal. To remove the DVD-ROM drive, follow these steps: (See Figure 20
on page 47.)
1. Remove the handle unit, snaps, cosmetic covers, front-trim unit, EMI covers,
MIO board enforcement bracket, hard disk assembly, and drive-bay module.
2. Remove the two screws securing the DVD-ROM bracket to the drive-bay
chassis.
3. Slide the DVD-ROM drive with bracket out from the drive-bay chassis.
4. Remove the four screws securing the DVD-ROM drive to the bracket.
Installation. To install, reverse this procedure.
You need a #1 Phillips screwdriver (item 5).
Removal. To remove the DVD-ROM board, follow these steps: (See Figure 20
on page 47.)
1. Remove the handle unit, snaps, cosmetic cover, front-trim unit, EMI covers,
MIO board enforcement bracket, hard disk assembly, and drive-bay module.
driver with a T-15 Torx tip and a #1 Phillips screwdriver (items
2. Removethetwoscrewssecuringthe DVD-ROM board to the DVD-ROM
drive.
3. Disconnect the cable from J1 on the DVD-ROM board.
4. Disconnect the interface cable on the DVD-ROM board.
5. Lift the board away from the DVD-ROM drive.
Installation. To install, reverse this procedure.
46AWG5000B and AWG5000C Series Service Manual
Removal and Installation Procedures
Figure 20: Drive module removal (AWG5000B)
AWG5000B and AWG5000C Series Service Manual47
Removal and Installation Procedures
Multi-Input/Output Board
(AWG5000B Series Serial
Numbered B010000 to
B019999)
You nee d a s cre w
Removal. To remove the Multi-Input/Output (MIO) board, follow these steps:
(See Figure 22 on page 49.)
1. Remove the handle unit, snaps, cosmetic covers, front-trim unit, and EMI
covers, MIO board enforcement bracket, hard disk assembly, and drive-bay
module.
2. Orient the
facing you.
3. Remove th
(See Figure 21.)
driver with a T-15 Torx tip (items 1 and 2).
instrument so that the bottom is on the work surface and the rear is
e clamp cover from the cable clamp to release the ribbon cable.
Figure 21: Removing the clamp cover
4. Disconnect the cables from J360, J670, J680, and J681 on the MIO board.
5. Remove the screws securing the MIO board to the chassis.
6. Carefully pull up on the board to loosen it from the Processor board.
7. Lift the circuit board and pull it through the rear of the chassis.
emove the rear bracket and hardware from the circuit board.
8.R
Installation. To install, reverse this procedure.
48AWG5000B and AWG5000C Series Service Manual
Removal and Installation Procedures
Multi-Input/Output Board
(AWG5
000B Series Serial
Numbered B020000 and
Above)
Figure 22: Multi-Input/Output and Display Adapter board removal (AWG5000B
s)
Serie
You need a screwdriver with a T-15 Torx tip (items 1 and 2).
Removal. To remove the Multi-Input/Output (MIO) board, follow these steps:
(See Figure 22.)
1. Remove the handle unit, snaps, cosmetic covers, front-trim unit, EMI covers,
MIO board enforcement bracket, hard disk assembly, and drive-bay module.
2. Orient the instrument so that the bottom is on the work surface and the rear is
facing you.
3. Disconnect the cables from J360, J600, J610, and J680 on the MIO board.
emove the screws securing the MIO board to the chassis.
4.R
5. Carefully pull up on the board to loosen it from the Processor board.
AWG5000B and AWG5000C Series Service Manual49
Removal and Installation Procedures
Display Adapter
(AWG5000B S
eries Serial
Numbered B020000 and
Above)
6. Lift the circui
7. Remove the rear bracket and hardware from the circuit board.
Installation. To install, reverse this procedure.
You need a screwdriver with a T-15 Torx tip (items 1 and 2).
Removal. To remove the Display Adapter board (ADD2 board), follow these
steps: (See Figure 22 on page 49.)
1. Remove the handle unit, snaps, cosmetic covers, front-trim unit, EMI covers,
MIO board enforcement bracket, hard disk assembly, and drive-bay module.
2. Orient the instrument so that the bottom is on the work surface and the rear is
facing you.
3. Remove the two T-15 screws from the support bracket on the ADD2 board.
4. Discon
5. Carefully pull up on the board to loosen it from the Processor board.
6. Lift the circuit board out of the chassis.
t board and pull it through the rear of the chassis.
nect the two cables from the ADD2 board.
allation. To install, reverse this procedure.
Inst
50AWG5000B and AWG5000C Series Service Manual
Removal and Installation Procedures
Processor Module
Youneedascrew
(items 1, 2, and 7).
NOTE. Before you remove the processor module, you need to disconnect the
ribbon cable at J1000 from the AWG1G board. (See page 60, AWG1G 2 CH
Board.) (See page 62, AWG1G 4 CH Board.)
Removal. To remove the processor module, follow these steps: (See Figure 16
on page 40.)
1. Remove the handle unit, snaps, cosmetic covers, front-trim unit, EMI covers,
MIO board enforcement bracket, hard disk assembly, drive-bay module, and
Multi-Input/Output board.
2. Orient the instrument so that the bottom is on the work surface.
3. Remove the two screws securing the drive-bay bracket to the processor tray.
4. Lift the drive-bay bracket away from the processor tray. (If necessary, remove
the ribbon cable through the hole on the drive-bay bracket.)
5. Remove the three screws securing the connector bracket to the rear panel.
6. Lift the connector bracket away from the rear panel.
driver with a T-15 Torx tip and a 3/16 inch open-end wrench
7. Remo
8. Rem
9. Disconnect these cables:
10. Carefully lift up and slide the processor module away from the chassis.
Installation. To install, reverse this procedure.
ve the six mounting posts securing the VIDEO connector, COM 1
connector, and PARALLEL PORT connector to the rear panel.
ove the eight screws securing the Processor tray to the chassis.
The cable from the Power board at J2A1, J2A2, and J2J1.
The cable from the LCDA board at J8H1.
The cable from the Front Connector board at J8G2.
The cable from the Front Switch board and Multi-Input/Output board
Removal. To remove the secondary power supply, follow these steps : (See
Figure 24 on page 55.)
1. Remove the handle unit, snaps, cosmetic covers, front-trim unit, EMI covers,
MIO board enforcement bracket, hard disk assembly, drive-bay module, and
Multi-Input/Output board.
2. Orient the instrument so that the bottom is on the work surface.
3. Disconnect the cables from J610, J630, and J632 on the Power board.
4. Remove the four screws securing the secondary power supply to the power
supply bracket.
5. Lift the secondary power supply with the insulator away from the chassis.
6. Remove the insulator from the power supply.
7. Remove
supply.
Installation. To install, reverse this procedure.
driver with a T-15 Torx tip (items 1 and 2).
the three cable from CN1, CN53, and CN51/CN61 on the power
Power Supply
You need a screwdriver with a T-15 Torx tip (items 1 and 2).
Removal. To remove the power supply, follow these steps: (See Figure 24 on
page 55.)
1. Remove the handle unit, snaps, cosmetic covers, front-trim unit, EMI covers,
MIO board enforcement bracket, hard disk assembly, drive-bay module, and
lti-Input/Output board.
Mu
2. Orient the instrument so that the bottom is on the work surface.
3. Remove the six screws securing the power supply bracket to the chassis.
4. Disconnect the cable from J611 on the Power board.
5. Remove the three screws securing the bracket to the power supply.
6. Carefully slide the module to loosen it from the Power board.
7. Lift the power supply up out of the chassis.
8. Lift the bracket up out of the chassis.
Installation. To install, reverse this procedure.
AWG5000B and AWG5000C Series Service Manual53
Removal and Installation Procedures
RFI Filter
You nee d a s cre w
Removal. To remove the power supply, follow these steps: (See Figure 24 on
page 55.)
1. Remove the handle unit, snaps, cosmetic covers, and EMI covers.
2. Orient the instrument so that the bottom is on the work surface.
3. Disconnect
4. Remove the two screws securing the ground leads to the chassis.
5. Remove the two screws securing the RFI filter to the chassis.
6. Pull the RFI filter away from the chassis.
Installation. To install, reverse this procedure.
driver with a T-15 Torx tip (items 1 and 2).
the cable from J600 on the Power board.
54AWG5000B and AWG5000C Series Service Manual
Removal and Installation Procedures
Figure 24: Secondary power supply, power supply, and RFI filter removal
AWG5000B and AWG5000C Series Service Manual55
Removal and Installation Procedures
Power Board
You nee d a s cre w
Removal. To remove the Power board, follow these steps: (See Figure 25.)
1. Remove the handle unit, snaps, cosmetic covers, front-trim unit, EMI covers,
MIO board enforcement bracket, hard disk assembly, drive-bay module,
power supply, Multi-Input/Output board, and Processor board.
2. Orient the instrument so that the bottom is on the work surface.
3. Disconnect the cables from J102, J103, J120, J300, J302, J304, J600, J610,
J611, J630, and J632 on the Power board.
4. Remove the 10 screws securing the Power board to the chassis.
5. Lift the b
Installation. To install, reverse this procedure.
driver with a T-15 Torx tip (items 1 and 2).
oard away from the chassis.
Figure 25: Power board removal
56AWG5000B and AWG5000C Series Service Manual
Removal and Installation Procedures
Procedures fo
Front Connector Board
r Internal Modules (Lower)
You need a screwdriver with a T-15 Torx tip (items 1 and 2).
Removal. To r
Figure 26 on page 58.)
1. Remove the h
covers.
2. Orient the
3. Disconnect the cables from J100 and J200 on the Front Connector board.
4. Remove the screw securing the Front Connector board to the chassis.
5. Grasp the board and pull it gently away from the chassis.
Installation. To install, reverse this procedure.
emove the Front Connector board, follow these steps: (See
andle unit, snaps, cosmetic covers, front-trim unit, and EMI
instrument so that the top is on the work surface.
AWG5000B and AWG5000C Series Service Manual57
Removal and Installation Procedures
Figure 26: Front Connector board, CLK1G module, AWG1G board, and OUT1G boards removal (4-channel model)
58AWG5000B and AWG5000C Series Service Manual
Removal and Installation Procedures
CLK1G Module
Youneedascrew
Removal. To remove the CLK1G module, follow these steps: (See Figure 27
on page 60.)
1. Remove the handle unit, snaps, cosmetic covers, front-trim unit, and EMI
covers.
2. Orient the instrument so that the top is on the work surface.
3. Disconnect these cables:
The cable a
Output connector.
The cable
connector.
The cabl
4. Remove the four screws securing the bottom shield case to the chassis.
5. Carefully pull up on the CLK1G module to loosen it from the AWG1G board.
6. Remove the two screws securing the top shield case and CLK1G board to
the chassis.
driver with a T-15 Torx tip (items 1 and 2).
t J3110 from the CLK1G board to the 10 MHz Reference
at J3120 from the CLK1G board to the Reference Clock Input
e at J3230 from the CLK1G board to the AWG1G board (J3010).
7. Lift the top shield case away from the CLK1G board.
8. Lift the CLK1G board away from the bottom shield case.
Installation. To install, reverse this procedure.
AWG5000B and AWG5000C Series Service Manual59
Removal and Installation Procedures
AWG1G 2 CH Board
Figure 27: Disassembly of the CLK1G module
You need a screwdriver with a T-15 Torx tip (items 1 and 2).
Removal. To remove the AWG1G 2 channel board, follow these steps: (See
Figure 26 on page 58.)
1. Remove the handle unit, snaps, cosmetic covers, front-trim unit, EMI covers,
and CLK1G module.
2. Orient the instrument so that the top is on the work surface.
3. Remove the screw securing the cable post to the AWG1G board. (See
Figure 28.)
4. Remove the cable post.
60AWG5000B and AWG5000C Series Service Manual
Removal and Installation Procedures
Figure 28: Cable post on the AW G1G board (2 CH)
5. Disconnect the cables at J1050, J2000, and J5000 from the AWG1G board.
6. Disconnect these Peltola cables:
The cable at J6020A from the AWG1G board to the CH1 & CH2 OUT1G
board (J1000).
The cable at J6030A from the AWG1G board to the CH1 & CH2 OUT1G
board (J2000).
The cable at J6020B from the AWG1G board to the CH1 & CH2 OUT1G
board (J3000).
The cable at J6030B from the AWG1G board to the CH1 & CH2 OUT1G
board (J4000).
The cable at J7800I from the AWG1G board to the Channel 1 Mkr 1
connector.
The cable at J7810I from the AWG1G board to the Channel 1 Mkr 2
connector.
The cable at J7820I from the AWG1G board to the Channel 2 Mkr 1
connector.
The cable at J7830I from the AWG1G board to the Channel 2 Mkr 2
connector.
The cable at J1430 from the AWG1G board to the Trigger Input connector.
AWG5000B and AWG5000C Series Service Manual61
Removal and Installation Procedures
AWG1G 4 CH Board
The cable at J14
The cable at J3011 from the AWG1G board to the External Clock Input
connector.
The cable at J3020 from the AWG1G board to the Oscillator Output
connector.
The cable at J3010 from the AWG1G board to the CLK1G board.
7. Remove the 10 screws securing the AWG1G board to the chassis.
8. Lift the board away from the chassis.
9. Disconnect the ribbon cable at J1000 on the AWG1G board.
Installation. To install, reverse this procedure.
You need a screwdriver with a T-15 Torx tip (items 1 and 2).
Removal. To remove the AWG1G 4 channel board, follow these steps: (See
Figure 26 on page 58.)
1. Remove the handle unit, snaps, cosmetic covers, front-trim unit, EMI covers,
and CLK1G module.
40 from the AWG1G board to the Event Input connector.
2. Orient the instrument so that the top is on the work surface.
3. Remove the screw securing the cable post to the AWG1G board, and then
remove the cable post. (See Figure 29.)
Figure 29: Cable post on the AWG1G board (4 CH)
62AWG5000B and AWG5000C Series Service Manual
Removal and Installation Procedures
4. Disconnect the
board.
5. Disconnect these Peltola cables:
The cable at J6020A from the AWG1G board to the CH1 & CH2 OUT1G
board (J1000).
The cable at J6030A from the AWG1G board to the CH1 & CH2 OUT1G
board (J2000).
The cable at J6020B from the AWG1G board to the CH1 & CH2 OUT1G
board (J3000).
The cable at J6030B from the AWG1G board to the CH1 & CH2 OUT1G
board (J4000).
The cable at J6020C from the AWG1G board to the CH3 & CH4 OUT1G
board (J1000).
The cable at J6030C from the AWG1G board to the CH3 & CH4 OUT1G
board (J2000).
The cable at J6020D from the AWG1G board to the CH3 & CH4 OUT1G
board (J3000).
The cable at J6030D from the AWG1G board to the CH3 & CH4 OUT1G
board (J4000).
cables at J1050, J1060, J2000, and J5000 from the AWG1G
The cable at J7800I from the AWG1G board to the Channel 1 Mkr 1
connector.
The cable at J7810I from the AWG1G board to the Channel 1 Mkr 2
connector.
The cable at J7820I from the AWG1G board to the Channel 2 Mkr 1
connector.
The cable at J7830I from the AWG1G board to the Channel 2 Mkr 2
connector.
The cable at J7800J from the AWG1G board to the Channel 3 Mkr 1
connector.
The cable at J7810J from the AWG1G board to the Channel 3 Mkr 2
connector.
The cable at J7820J from the AWG1G board to the Channel 4 Mkr 1
connector.
The cable at J7830J from the AWG1G board to the Channel 4 Mkr 2
connector.
The cable at J1430 from the AWG1G board to the Trigger Input connector.
The cable at J1440 from the AWG1G board to the Event Input connector.
AWG5000B and AWG5000C Series Service Manual63
Removal and Installation Procedures
CH1 & CH2 OUT1G Board
The cable at J30
connector.
The cable at J3
The cable at J3010 from the AWG1G board to the CLK1G board.
6. Remove the 11 screws securing the AWG1G board to the chassis.
7. Lift the board away from the chassis.
8. Disconnect the ribbon cable at J1000 on the AWG1G board.
Installation. To install, reverse this procedure.
You need a screwdriver with a T-15 Torx tip and a wire cutter (items 1, 2, and 9).
Removal. To remove the CH1 & CH2 OUT1G board, follow these steps: (See
Figure 26 on page 58.)
1. Remove the handle unit, snaps, cosmetic covers, front-trim unit, EMI covers,
and AWG1G board.
2. Orient the instrument so that the top is on the work surface.
11 from the AWG1G board to External Clock Input
020 from the AWG1G board to Oscillator Output connector.
3. Use a wire cutter to remove the four cable ties. (See Figure 30.)
Figure 30: Location of the cable ties
4. Disconnect these cables:
ThecableatJ5000fromtheCH1&CH2OUT1GboardtotheAWG1G
board (J1050).
The cable at J6000 from the CH1 & CH2 OUT1G board to the Power
board (J631).
64AWG5000B and AWG5000C Series Service Manual
Removal and Installation Procedures
5. Disconnect the
ThecableatJ1000fromtheCH1&CH2OUT1GboardtotheAWG1G
board (J6020A
ThecableatJ2000fromtheCH1&CH2OUT1GboardtotheAWG1G
board (J603
ThecableatJ3000fromtheCH1&CH2OUT1GboardtotheAWG1G
board (J602
ThecableatJ4000fromtheCH1&CH2OUT1GboardtotheAWG1G
board (J60
The cable at J1180 from the CH1 & CH2 OUT1G board to the Channel
1Analogc
The cable at J2180 from the CH1 & CH2 OUT1G board to the Channel
1Analog
The cable at J3180 from the CH1 & CH2 OUT1G board to the Channel
2Analo
The cable at J4180 from the CH1 & CH2 OUT1G board to the Channel
6. Remove the nine screws securing the CH1 & CH2 OUT1G board to the
assis.
ch
7. Lift the board away from the chassis.
Installation. To install, reverse this procedure.
You need a screwdriver with a T-15 Torx tip and a wire cutter (items 1, 2, and 9).
Removal. To remove the CH3 & CH4 OUT1G board, follow these steps: (See
Figure 26 on page 58.)
1. Remove the handle unit, snaps, cosmetic covers, front-trim unit, EMI covers,
and AWG1G board.
2. Orient the instrument so that the top is on the work surface.
3. Use a wire cutter to remove the three cable ties. (See Figure 31.)
AWG5000B and AWG5000C Series Service Manual65
Removal and Installation Procedures
Figure 31: Location of the cable ties
4. Disconnect these cables:
ThecableatJ5000fromtheCH3&CH4OUT1GboardtotheAWG1G
board (J1060).
The cable at J7000 from the CH3 & CH4 OUT1G board to the CH1 &
CH2 OUT1G board (J7000).
5. Disconnect these Peltola cables:
ThecableatJ1000fromtheCH3&CH4OUT1GboardtotheAWG1G
board (J6020C).
ThecableatJ2000fromtheCH3&CH4OUT1GboardtotheAWG1G
board (J6030C).
ThecableatJ3000fromtheCH3&CH4OUT1GboardtotheAWG1G
board (J6020D).
ThecableatJ4000fromtheCH3&CH4OUT1GboardtotheAWG1G
board (J6030D).
The cable at J1180 from the CH3 & CH4 O UT1G board to the Channel
3 Analog connector.
The cable at J2180 from the CH3 & CH4 OUT1G board to the Channel
3 Analog connector.
The cable at J3180 from the CH3 & CH4 OUT1G board to the Channel
4 Analog connector.
The cable at J4180 from the CH3 & CH4 OUT1G board to the Channel
4 Analog connector.
The cable at J1410 from the CH3 & CH4 OUT1G board to the Ch 3 Add
Input connector.
The cable at J3410 from the CH3 & CH4 OUT1G board to the Ch 4 Add
Input connector.
66AWG5000B and AWG5000C Series Service Manual
Removal and Installation Procedures
6. Remove the nine
chassis.
7. Lift the board
Installation. To install, reverse this procedure.
screws securing the CH3 & CH4 OUT1G board to the
away from the chassis.
AWG5000B and AWG5000C Series Service Manual67
Troubleshooting
Troubleshooting
WARNING. To prevent possible injury to service personnel or damage to electrical
components,
WARNING. Before performing this or any other procedure in this manual, read the
General Saf
this manual.
This section contains information and procedures designed to help you isolate
faults to a module.
This section requires that service personnel have the appropriate skills to work on
this instrument, including PC troubleshooting and Microsoft Windows operating
system skills. Details of PC and Windows operation and service are not in this
manual
For assistance, contact your local Tektronix Service Center.
please read Preventing ESD. (See page 17, Preventing ESD.)
ety Summary and Service Safety Summary found at the beginning of
.
Required Equipment
You will need a digital multimeter to check voltages of the power supply,
seco
Supply Voltages.) (See page 74, Checking the Voltages on the OUT1G Board.)
Fault Isolation Procedure
Follow the primary troubleshooting tree on the following two pages for fault
isolation.
ndary power supply, and PWR board. (See page 71, Checking the Power
68AWG5000B and AWG5000C Series Service Manual
Troubleshooting
Figure 32: Primary troubleshooting tree (1)
AWG5000B and AWG5000C Series Service Manual69
Troubleshooting
Figure 33: Primary troubleshooting tree (2)
70AWG5000B and AWG5000C Series Service Manual
Troubleshooting
Checking the Power
Supply Voltages
To check the pow
er supply voltages, power on the instrument and connect the (–)
lead of a multimeter to chassis ground.
To measure the
output voltages of the power supply, check the voltages at J104
on the PWR board with the digital multimeter and compare each reading to the
values listed in the following table. If the voltages are within the allowance,
your power supply is functional.
e 34: PWR board test points (J104)
Figur
Table 6: Test points voltage (J104)
Test pointVoltageAllowance
Pin 1+3.3
Pin 3+5 V+4.7 V to +5.3 V
Pin 5+12 V+11.4 V to +12.6 V
V
+3.1
Vto+3.5V
AWG5000B and AWG5000C Series Service Manual71
Troubleshooting
Checking the Secondary
Power Supply Voltages
To measure the o
utput voltages of the secondary power supply, check the voltages
at CN51 and CN61 on the power supply with the digital multimeter and compare
each reading to the values listed in the following table. If the voltages are within
the allowance, your power supply is functional.
Figure 35: Secondary power supply test points (CN51 and CN61)
Table 7
Test po
CN51:
CN61:
:Pin3
CN61
: Test points voltage (CN51 and CN61)
int
Pin 1
Pin 1
e
Vol tag
+5 V+4.7 V to +5.3 V
+15 V+14.2 V to +15.8 V
-15 V-14.2 V to -15.8 V
Allowa
nce
72AWG5000B and AWG5000C Series Service Manual
Troubleshooting
Checking the Voltages on
the AWG1G Board
To measure the o
utput voltages of the PWR board, check the voltages at J2000
on the AWG1G board with the digital multimeter and compare each reading to
the values listed in the following table. If the voltages are within the allowance,
your PWR board is functional.
Figure
36: AWG1G board test points (J2000)
Table 8: Test points voltage (J2000)
Test pointVoltageAllowance
Pin 1+12 V+11.4
Pin 5+3.3 V+3.1 V to +3.5 V
Pin 12-5.5 V-5.2 to -5.8 V
3
Pin 1
Pin 17+5 V+4.7 V to +5.3 V
Pin 24-12 V-11.4 to -12.6 V
+15 V+14.
V to +12.6 V
2Vto+15.8V
AWG5000B and AWG5000C Series Service Manual73
Troubleshooting
Checking the Voltages on
the OUT1G Board
To measure the o
utput voltages of the PWR board, check the voltages at J7000
(or J6000) on the OUT1G board with the digital multimeter and compare each
reading to the values listed in the following table. If the voltages are within the
allowance, your PWR board is functional.
Figure 37: OUT1G board test points (J7000)
Table 9: Test points voltage (J7000 or J6000)
Test pointVoltageAllowance
Pin 1+15 V+14.2 V to +15.8 V
Pin 2+8.2 V+7.8 V to +8.6 V
Pin 3+3.3 V+3.1 to +3.5 V
Pin 7-8.2 V-7.8 V to -8.6 V
Pin 8-15 V+14.2 V to +15.8 V
74AWG5000B and AWG5000C Series Service Manual
Instrument Diagnostics
Troubleshooting
The p rimary diagnostics for the instrument are accessible through the AWG
application software. The instrument diagnostics check the basic functionality of
analog outputs at every power on. The instrument diagnostics run after Windows
has booted up and run its own set of system checks. If any failures occur at
power on, a p
an error code:
op-up message indicates that a failure has occurred and provides
Diagnosti
Calibration error codes (See Table 11 on page 83.)
Hardware error codes (See Table 12 on page 85.)
The power-on tests ensure that the hardware is installed and can be accessed
by the software. The tests provide limited diagnostic information, and provide
no performance information.
To run the instrument Diagnostics manually, do these steps:
1. Turn off all other applications.
2. From the menu bar, select System andthenselectDiagnostics...;the
Diagnostics dialog box appears. (See Figure 38.)
cs error codes (See Table 10 on page 76.)
Figure 38: Diagnostics dialog box
3. In the dialog box, confirm that all the check boxes are selected. If they are not
all selected, click Select All.
4. Click Execute to execute the diagnostics.
AWG5000B and AWG5000C Series Service Manual75
Troubleshooting
Table 10: Diagn
Error codeError log message
AWG register readback
120000000
120000001
120000002
120000003
1200000
120000005
120000006
1200
120000008
120000009
120000010
120000013
04
00007
ostics error
HwDiagAwgRegister AwgController
address_0x
data=xxxx actual data=xxxx
HwDiag
address_0x42 register diag. Fail expected
data=xxxx actual data=xxxx
HwDiagAwgRegister AwgController
addr
data=xxxx actual data=xxxx
HwDiagAwgRegister Ch1 MemoryController-N
Communication Fail expected data=xxxx actual
a=xxxx
dat
HwD
Communication Fail expected data=xxxx actual
data=xxxx
HwDiagAwgRegister Ch1 TEK0015-TNO
dress_REG register diag. Fail expected
ad
data=xxxx actual data=xxxx TNO: T EK0015
number REG: Register number
HwDiagAwgRegister Ch2 TEK0015-TNO
ddress_REG register diag. Fail expected
a
data=xxxx actual data=xxxx TNO: T EK0015
number REG: Register number
HwDiagAwgRegister Ch1 TEK0015-TNO
address_REG register diag. Fail expected
data=xxxx actual data=xxxx TNO: T EK0015
number REG: Register number
21 register diag. Fail expected
actual data=xxxx
gRegister AwgController
_0x40 register diag. Fail expected
xxx actual data=xxxx
AwgRegister AwgController
ess_0x50 register diag. Fail expected
iagAwgRegister Ch2 MemoryController-N
Possible defect
on boardNote
AWG1GAWG1G: U1000
AWG1GAWG1G: U1000
AWG1GAWG1G: U1
AWG1GAWG1G: U1000
AWG1GAWG1G: U1000
AWG1GAWG1G:
AWG1GAWG1G: U1000
AWG1GAWG1G: U1000, U4000A
1G
AWG
AWG1GAWG1G: U1000, U4310A, U4420A
AWG1GAWG1G: U1000, U4310B, U4420B
AWG1GAWG1G: U1000, U4310C, U4420C
AWG
000
U1000
1G: U1000, U4000B
76AWG5000B and AWG5000C Series Service Manual
Table 10: Diagnostics error (cont.)
Error codeError log message
120000014
120000023
120000024
120000025
120000026
120000027
120000028
CH 1 waveform memory
121000000
121000001
121000002
HwDiagAwgRegister Ch2 TEK0015-TNO
address_REG register diag. Fail expected
data=xxxx actual data=xxxx T NO: TEK0015
number REG: Register number
HwDiagAwgRegister AD9736 failed channel=1
address=xx expected data=0xXX actual
data=0xXX
HwDiagAwgRegister AD9736 failed channel=2
address=xx expected data=0xXX actual
data=0xXX
HwDiagAwgRegister AD9736 failed channel=3
address=xx expected data=0xXX actual
data=0xXX
HwDiagAwgRegister AD9736 failed channel=4
address=xx expected data=0xXX actual
data=0xXX
HwDiagAwgRegister Ch3 MemoryController
Communication Fail expected data=xxxx actual
data=xxxx
HwDiagAwgRegister Ch4 MemoryController
Communication Fail expected data=xxxx actual
data=xxxx
HwDiagWaveformMemory channel1, testNo
Data bus [IC -Pin] Error expected data=xxxxxxxx
actual data=xxxxxxxx testNo: 1'st 2'nd IC: IC
number Pin: Pin number
HwDiagWaveformMemory channel1, Address
Bus=xxxxxxxx [IC-Pin] Error expected
data=xxxxxxxx actual data=xxxxxxxx IC: IC
number Pin: Pin number
HwDiagWaveformMemory channel1, Memory
Cell testNo BIT[CNT] Error testNo: 1'st or 2'nd
BIT: Data bus bit CNT: data bit
Troubleshooting
Possible defect
on boardNote
AWG1GAWG1G: U1000, U4310D, U4420D
AWG1GAWG1G: U1000, U6000A
AWG1GAWG1G: U1000, U6000B
AWG1GAWG1G: U1000, U6000C
AWG1GAWG1G: U1000, U6000D
AWG1GAWG1G: U1000, U4000C
AWG1GAWG1G: U1000, U4000D
AWG1GAWG1G: U4000A, U4500A, U4510A,
U4520A, U4530A, U4600A, U4610A,
U4620A, U4630A.
AWG1GAWG1G: U4000A, U4500A, U4510A,
U4520A, U4530A, U4600A, U4610A,
U4620A, U4630A.
AWG1GAWG1G: U4000A, U4500A, U4510A,
U4520A, U4530A, U4600A, U4610A,
U4620A, U4630A.
AWG5000B and AWG5000C Series Service Manual77
Troubleshooting
Table 10: Diagnostics error (cont.)
Error codeError log message
CH 2 waveform memory
122000000
122000001
122000002
CH 3 waveform memory
123000000
123000001
123000002
CH 4 waveform memory
124000000
124000001
124000002
Data timing margin
125000000
125000001
125000002
HwDiagWaveformMemory channel2, testNo
Data bus [IC -Pin] Error expected data=xxxxxxxx
actual data=xxxxxxxx testNo: 1'st 2'nd IC: IC
number Pin: Pin number
HwDiagWaveformMemory channel2, Address
Bus=xxxxxxxx [IC-Pin] Error expected
data=xxxxxxxx actual data=xxxxxxxx IC: IC
number Pin: Pin number
HwDiagWaveformMemory channel2, Memory
Cell testNo BIT[CNT] Error testNo: 1'st or 2'nd
BIT: Data bus bit CNT: data bit
HwDiagWaveformMemory channel3, testNo
Data bus [IC -Pin] Error expected data=xxxxxxxx
actual data=xxxxxxxx testNo: 1'st 2'nd IC: IC
number Pin: Pin number
HwDiagWaveformMemory channel3, Address
Bus=xxxxxxxx [IC-Pin] Error expected
data=xxxxxxxx actual data=xxxxxxxx IC: IC
number Pin: Pin number
HwDiagWaveformMemory channel3, Memory
Cell testNo BIT[CNT] Error testNo: 1'st or 2'nd
BIT: Data bus bit CNT: data bit
HwDiagWaveformMemory channel4, testNo
Data bus [IC -Pin] Error expected data=xxxxxxxx
actual data=xxxxxxxx testNo: 1'st 2'nd IC: IC
number Pin: Pin number
HwDiagWaveformMemory channel4, Address
Bus=xxxxxxxx [IC-Pin] Error expected
data=xxxxxxxx actual data=xxxxxxxx IC: IC
number Pin: Pin number
HwDiagWaveformMemory channel4, Memory
Cell testNo BIT[CNT] Error testNo: 1'st or 2'nd
BIT: Data bus bit CNT: data bit
HwDiagDataTiming channel=1, Value is out of a
range max=xx min=xx
HwDiagDataTiming channel=2, Value is out of a
range max=xx min=xx
HwDiagDataTiming channel=3, Value is out of a
range max=xx min=xx
Possible defect
on boardNote
AWG1GAWG1G: U4000B, U4500B, U4510B,
U4520B, U4530B, U4600B, U4610B,
U4620B, U4630B.
AWG1GAWG1G: U4000B, U4500B, U4510B,
U4520B, U4530B, U4600B, U4610B,
U4620B, U4630B.
AWG1GAWG1G: U4000B, U4500B, U4510B,
U4520B, U4530B, U4600B, U4610B,
U4620B, U4630B.
AWG1GAWG1G: U4000C, U4500C, U4510C,
U4520C, U4530C, U4600C, U4610C,
U4620C, U4630C.
AWG1GAWG1G: U4000C, U4500C, U4510C,
U4520C, U4530C, U4600C, U4610C,
U4620C, U4630C.
AWG1GAWG1G: U4000C, U4500C, U4510C,
U4520C, U4530C, U4600C, U4610C,
U4620C, U4630C.
AWG1GAWG1G: U4000D, U4500D, U4510D,
U4520D, U4530D, U4600D, U4610D,
U4620D, U4630D.
AWG1GAWG1G: U4000D, U4500D, U4510D,
U4520D, U4530D, U4600D, U4610D,
U4620D, U4630D.
AWG1GAWG1G: U4000D, U4500D, U4510D,
U4520D, U4530D, U4600D, U4610D,
U4620D, U4630D.
AWG1G, CLK1GAWG1G: U1000 CLK1G: U3200
AWG1G, CLK1GAWG1G: U1000 CLK1G: U3200
AWG1G, CLK1GAWG1G: U1000 CLK1G: U3200
78AWG5000B and AWG5000C Series Service Manual
Table 10: Diagnostics error (cont.)
Error codeError log message
125000003
Clock register read back
130000000
130000001
Clock PLL lock
131000008
131000009
131000010
131000011
Output 1 register read back
140000000
140000001Error message is changed according to the
Output 2 register read back
150000000
150000001Error message is changed according to the
TekLi n k
190000000
HwDiagDataTiming channel=4, Value is out of a
range max=xx min=xx
The error occurred in the EEPROM read.
1'St=FST 2'Nd=SND FST: the data that is
received from EEPROM at the first read check
SND: the data that is received from EEPROM at
the second read check, which is implemented
after writing 0x55 to EEPROM
situation.
The error occurred in the EEPROM read.
1'St=FST 2'Nd=SND FST: the data that is
received from EEPROM at the first read check
SND: the data that is received from EEPROM at
the second read check, which is implemented
after writing 0x55 to EEPROM
situation.
TekLink receive error Send=TR Recv=RV
TR:Transmition data RV:Receive data
Troubleshooting
Possible defect
on boardNote
AWG1G, CLK1GAWG1G: U1000 CLK1G: U3200
Y3100, Y3230
Y3100, Y3230
Y3100, Y3230
Y3100, Y3230
OUT1GOUT1G-CH1/CH2: U5010, U5020
OUT1GOUT1G-CH1/CH2: U5010, U5020
OUT1GOUT1G-CH3/CH4: U5010, U5020
OUT1GOUT1G-CH3/CH4: U5010, U5020
MIOMIO: U300
AWG5000B and AWG5000C Series Service Manual79
Troubleshooting
Table 10: Diagnostics error (cont.)
Error codeError log message
Output 1 analog level
141XP0031
141XP0032
141XP0033
141XP0034
141XP0035
141XP0036
141XP0037
141XP0038
141XP0040
141XP0041
141XP0042
141XP0043
141XP0052
141XP0053
141XP0054
Analog Level Diag CHX positive (negative) 6db
attenuator failed. expected 0.5005, actual xxxxx
Analog Level Diag CHX positive (negative) 12db
attenuator failed. expected 0.2530, actual xxxxx
Analog Level Diag CHX positive (negative) 24db
attenuator failed. expected 0.0631, actual xxxxx
Analog Level Diag CHX positive (negative)
20mhz filter failed. expected 0.975, actual xxxxx
Analog Level Diag CHX positive (negative)
100mhz filter failed. expected 0.995, actual
xxxxx
Analog Level Diag CHX positive (negative) amp
failed. expected 8.95, actual xxxxx
Analog Level Diag CHX positive (negative)
output offset failed. expected 2.0V, actual
xxxxxV
Analog Level Diag CHX positive (negative)
output offset failed. expected 0.0V, actual
xxxxxV
Analog Level Diag CHX positive (negative) D/A
internal offset1 failed. Expected 0.0mV, actual
xxxxxmV
Analog Level Diag CHX positive (negative) D/A
internal offset2 failed. Expected 0.0mV, actual
xxxxxmV
Analog Level Diag CHX positive (negative) read
D/A gain11 failed. Expected 0.300V, actual
xxxxxV
Analog Level Diag CHX positive (negative) read
D/A gain21 failed. Expected 0.150V, actual
xxxxxV
Analog Level Diag CHX 6db att gain balance
failed.
Analog Level Diag CHX 12db att gain balance
failed.
Analog Level Diag CHX 24db att gain balance
failed.