SIGLENT SDL1000X Programming manual
SDL1000X Troubleshooting Manual
ESD Precautions............................................................................................................... 2
Required Equipment........................................................................................................ 2
Main Board Drawing ........................................................................................................ 3
Check the Power Supply ................................................................................................ 4
Check the Analog Section.............................................................................................. 4
Voltage Checking.......................................................................................................... 5
Analog Section Clock Checking............................................................................... 5
MCU Checking............................................................................................................... 5
Check the Digital Section............................................................................................... 6
Voltage Checking.......................................................................................................... 6
Digital Section Clock Checking ................................................................................ 6
CPU Checking................................................................................................................ 6
Quick Guide for General Failures................................................................................. 7
Troubleshooting
The internal structure of the electronic load consists of the main board and the
keyboard and they are linked through cables or connectors. This chapter
explains the main troubleshooting procedures for the main board by measuring
the rated test points on them. This will help to determine the reason for the
failure encountered while operating SDL1020X.
ESD Precautions
While performing any internal test of the electronic load, please refer to the
following precautions to avoid damages to its internal modules or components
resulting from ESD.
Touch circuit boards by the edges whenever possible.
Limit handling of static-sensitive modules whenever possible. .
Wear a grounded antistatic wrist strap to help drain the static voltage from
your body while touching these modules.
Operate static-sensitive modules only in static-free areas. Avoid handling
modules in areas that allow anything capable of generating or holding a
static charge.
Required Equipment
The equipment listed in the following table are required to troubleshoot the
electronic load.
Table 5-1required equipments
Equipment
Critical Specifications
Example
Digital Multimeter
Accuracy ±0.05%
1 mV resolution
SDM3055
Oscilloscope
200 MHz Bandwidth
SDS2102X
Main Board Drawing
The main board consists of power, analog and digital sections:
1)、Power section:110/220 V is converted to a low voltage to supply the analog
and digital sections.
2)、 Analog section:Used primarily in the functions of CC、CV、CR、CP, etc.
3)、 Digital section:Responsible for data processing, function control、and LCD
display control.
Check the Power Supply
Both the analog and digital sections have a power connector and we can
check whether the input voltage is within the rated specification. Before
performing the power supply testing procedure, please make sure that the
electronic load is grounded correctly through the protective ground lead of the
power cord. Take care not to touch or even disassemble the power supply
module without following safety precautions, or electric shock or burn may
occur. Following are the procedures for testing the power supply:
1. Disconnect the power cord of the electronic load and then check whether
the fuse has been burned out.
2. Remove metal shell of the electronic load using a driver, and then
disconnect the power connector.
3. Locate the power connector for the analog section, which contains five pins,
from Pin 1 to Pin 5. You can test the adjacent pins, using a digital multimeter,
hat are marked with blue, brown, yellow and white to check whether the AC
voltage values are within the corresponding specified range. The voltage
parameters to be tested are listed in table below:
Table 5-2: Test AC voltages on the analog section power connector
Pins
Voltage (V)
Error (V)
blue to blue
8
±1
Yellow to brown
16
±2
White to yellow
16
±2
Table 5-3: Test AC voltage for the digital section power connector
Pins
Voltage (V)
Error (V)
Black to black
12
±2
If each tested voltage value is within the corresponding spec range, as listed in
the table above, then the power supply is operating normally. If not, it is most
likely defective. Please return it to the factory for repair or contact SIGLENT.
Note: The main power supply is protected by an input fuse in order to guard
the unit if any major failure was to occur. However, this fuse will not fail ("open"
or "blow") in normal power supply operation except when and if a significant
overload occurs. Replace the entire main power supply assembly if the input
fuse fails.
Check the Analog Section
To prevent any components or assemblies on the main board from being
damaged or overheated it is essential to cool the main board whenever
possible using a fan. Here are procedures for testing the main board:
1. Several kinds of connectors including the Fan Connector, Power Connector
and Keypad Connector are located on the main board. Check to make
certain all these connectors are connected properly.
2. Make sure that the connectors on the channel board are properly connected,
then connect the electronic load to AC power and power it on. Check if the
voltage values at all test points are within the specified range using a digital
multimeter. The voltage parameters to be tested are listed in the table
below:
Voltage Checking
Test the voltage points in the analog section and compare to the table below. If
each tested voltage value is within the corresponding specified range then
the analog section is operating normally. If not, it is most likely defective,
Please return it to the factory for repairor contact SIGLENT.
Table 5-3 Test DC voltages of the analog board
Test point
Name
Test pin
Voltage (V)
Error (V)
T1
U18
3
+15
±1
T2
U19
3
-15
±1
T3
U9
3
+5
±0.25
T4
U9
2 or 4
+3.3
±0.065
T5
UB11
6
+2.5
±0.0025
T11
AGND
1
0
/
Analog Section Clock Checking
The Analog section clock is the internal system clock for the electronic load. To
verify if the clock on the analog section is working normally, please test the
clock frequency listed below using an oscilloscope.
Test point
Name
Pin
Frequency
Stability
T6
RD60
1 or 2
25 MHz
±50 ppm
MCU Checking
Look at the LED light on the analog section. It indicates the working state of
the MCU. If the light flashes at a certain frequency, then the corresponding
codes have been loaded successfully and the MCU is operating correctly If not,
it may be defective.
Check the Digital Section
Voltage Checking
Test the voltage points in the digital section to the table below. If each tested
voltage value is within the corresponding specified range then the digital
section is operating normally. If not, it is most likely defective.Please return it to
the factory for repairor contact SIGLENT.
Test point
Name
Test pin
Voltage (V)
Error (V)
T7
U5
8
3.3
±0.065
Digital section Clock Checking
To verify if the clock in the digital section is working correctly, please test the
clock frequency and compare to the value listed below using an oscilloscope.
Test point
Name
Pin
Frequency
Stability
T8
R18
1 or 2
25 MHz
±50 ppm
CPU Checking
There is no status light in the digital section to indicate the working status of
the CPU,We can check if the CPU and MCU are communicating. If so, the
CPU is operating normally. Please view the communication signals listed
below using an oscilloscope.
Test point
Name
Pin
Signal
T9
U6
3
SPI_CS
4
SPI_SCK
5
SPI_MOSI
6
SPI_MISO
T10
SC8
1
DGND
Quick Guide for General Failures
Three general hardware failures are described in the following list. Referring to
this information can help you quickly locate some of the more readily
diagnosed failures.
1. No start-up after pressing the Power button:
(1) Check if the power cord is correctly connected.
(2) Check if the power button is working correctly.
(3) Check whether the fuse has been burned out. If the fuse needs to be
replaced please contact SIGLENT as soon as possible and return the
instrument to the factory to have it repaired by qualified personnel.
(4) Check if the power connector is properly connected to the main board.
(5) If the instrument still does not work normally, please contact SIGLENT.
2. The instrument starts up with a dark screen:
(1) Check if the power connector is properly connected to the main board.
(2) If the instrument still does not work normally, please contact SIGLENT.
3. No response after pressing any button or abnormal display of the
screen:
(1) Check if the two ends of the connector between the keypad circuit board
and the main board are properly seated.
(2) If the instrument still does not work normally, please contact SIGLENT.
Other manuals for SDL1000X
3
Table of contents
Popular Industrial Electrical manuals by other brands
Rexroth Indramat
Rexroth Indramat DURADRIVE SYSTEM200 Project planning manual
Abtech
Abtech HVJB Series Installation, operation & maintenance instructions
Murata
Murata GRM0335C1H8R1DA01 Series Reference sheet
SAF-HOLLAND
SAF-HOLLAND CBX 5415.5 Installation and operation manual
Eaton
Eaton Ulusoy HMH24-04 user manual
Newlong
Newlong NP-7H NSTRUCTION MANUAL/PARTS LIST
Murata
Murata GJM0335C1E4R4BB01 Series Reference sheet
Stahl
Stahl 8575/12 operating instructions
SI
SI Pegasus installation instructions
Murata
Murata GRM1555C1H2R7CA01 Seies Reference sheet
Murata
Murata GRM0225C1E6R4BA03 Series Reference sheet
Cooper Power Systems
Cooper Power Systems VXE15 Installation and operation instructions
