Applent Anbai AT526 User manual
User’s Guide
Rev.A5 AT526/AT526B
BatteryInternalResistanceMeter
~@
®
Applent Instruments Inc.
Address: 3 Floor, No. 61, Baolong International, Changzhou,
Jiangsu, China (PRC)
Post Code: 213014
Tel: 0086-0519-88805550
Fax: 0086-0519-86922220
Tech Email: tech@applent.com
http://www.applent.com
2 AT526/AT526B User's Guide
CERTIFICATION,LIMITEDWARRANTY,&LIMITATIONOF
LIABILITY
Applent Instruments, Ltd. (shortened form Applent)certifies that this product met its published specifications
at the time of shipment from the factory. Applent further certifies that its calibration measurements are traceable to
the People’s Republic of China National Institute of Standards and Technology, to the extent allowed by the
Institution’s calibration facility or by the calibration facilities of other International Standards Organization
members.
This Applent instrument product is warranted against defects in material and workmanship for a period
corresponding to the individual warranty periods of its component products. The warranty period is 1 year and
begins on the date of shipment. During the warranty period, Applent will, at its option, either repair or replace
products that prove to be defective. This warranty extends only to the original buyer or end-user customer of a
Applent authorized reseller, and does not apply to fuses, disposable batteries or to any product which, in Applent’s
opinion, has been misused, altered, neglected or damaged by accident or abnormal conditions of operation or
handling.
For warranty service or repair, this product must be returned to a service facility designated by Applent. The buyer
shall prepay shipping charges to Applent and Applent shall pay shipping charges to return the product to the Buyer.
However, the Buyer shall pay all shipping charges, duties, and taxes for products returned to Applent from another
country.
Applent warrants that its software and firmware designated by Applent for use with an instrument will execute its
programming instruction when properly installed on that instrument. Applent does not warrant that the operation
of the instrument, or software, or firmware, will be uninterrupted or error free.
The foregoing warranty shall not apply to defects resulting from improper or inadequate maintenance by the
Buyer, Buyer-supplied software or interfacing, unauthorized modification or misuse, operation outside the
environmental specifications for the product, or improper site preparation or maintenance.
THIS WARRANTY IS BUYER’S SOLE AND EXCLUSIVE REMEDY AND IS IN LIEU OF ALL OTHER
WARRANTIES, EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO ANY IMPLIED
WARRANTY OF MERCHANTABILITY OR FITNESS FOR A PARTICULAR PURPOSE. APPLENT SHALL
NOT BE LIABLE FOR ANY SPECIAL, INDIRECT, INCIDENTAL OR CONSEQUENTIAL DAMAGES OR
LOSSES, INCLUDING LOSS OF DATA, WHETHER ARISING FROM BREACH OF WARRANTY OR
BASED ON CONTRACT, TORT, RELIANCE OR ANY OTHER THEORY.
Applent Instruments, Ltd.
Changzhou,
Jiangsu,
China,
Rev.A2 January, 2005
Rev.B0 January, 2008
3
Contents
Contents
CERTIFICATION, LIMITED WARRANTY, & LIMITATION OF LIABILITY ..................................................... 2
Contents..................................................................................................................................................................... 3
Figure Contents.......................................................................................................................................................... 5
Table Contents ........................................................................................................................................................... 5
1.Unpacking and Preparation................................................................................................................................ 6
1.1Incoming Inspection .......................................................................................................................... 6
1.2Power requirements and setting up Fuse ........................................................................................... 6
1.3Environmental Requirements ............................................................................................................ 6
1.4Cleaning............................................................................................................................................. 7
1.5How to Remove the Handle............................................................................................................... 7
2.Overview ........................................................................................................................................................... 9
2.1Introduction........................................................................................................................................ 9
2.2Main Specifications and Features ...................................................................................................... 9
2.3Main Functions ................................................................................................................................ 10
2.3.1Correction ................................................................................................................................ 10
2.3.2Comparator (Sorting Function)................................................................................................ 10
2.3.3System Setup ........................................................................................................................... 10
2.3.4Remote Control........................................................................................................................ 10
3.Startup...............................................................................................................................................................11
3.1Front panel........................................................................................................................................11
3.2Rear Panel.........................................................................................................................................11
3.3Power On/Off................................................................................................................................... 12
3.3.1Line Power Connection ........................................................................................................... 12
3.4Warm-up Time ................................................................................................................................. 12
3.5Connect to Device under Test (DUT) .............................................................................................. 12
4.<Meas> Key .................................................................................................................................................... 13
4.1<MEAS DISPLAY> Page ............................................................................................................... 13
4.1.1[TRIGGER] ............................................................................................................................. 13
4.1.2[RANGE]................................................................................................................................. 14
4.1.3Measurement Speed [SPEED] ................................................................................................. 15
4.1.4[BEEP] Feature........................................................................................................................ 16
4.2Status Bar on <MEAS DISPLAY>.................................................................................................. 16
4.2.1Icons on <MEAS DISPLAY>.................................................................................................. 16
4.2.2[VIEW DATA] Soft-key .......................................................................................................... 16
4.2.3[SAVE DATA] Soft-key........................................................................................................... 16
4.3<VIEW DATA> page....................................................................................................................... 16
5.[SETUP] Key................................................................................................................................................... 18
5.1< SETUP> page ............................................................................................................................... 18
5.2Short-circuit Clear Zero [CLEAR ZERO]....................................................................................... 18
5.3Comparator Mode [R-COMP],[V-COMP] ...................................................................................... 19
5.3.1Comparator Nominal [R-NOMINAL],[V-NOMINAL]........................................................... 19
5.3.2Limit [R-LOWER] [R-UPPER] [V-LOWER], [V-UPPER] .................................................... 19
6.<SYSTEM CONFIG> page............................................................................................................................. 21
6.1<SYSTEM CONFIG> page............................................................................................................. 21
6.1.1[LANGUAGE] ........................................................................................................................ 21
6.1.2[ACCOUNT], [PASSWORD] ................................................................................................. 22
6.1.3[DATE], [TIME] ...................................................................................................................... 22
6.1.4RS232 [BAUD] rate................................................................................................................. 23
6.1.5RS-232 Shake Hand [SHAKE HAND] ................................................................................... 23
6.1.6RS-232 Result Send Mode [RESULT SEND] ......................................................................... 23
6.2<SYSTEM INFORMATION>......................................................................................................... 24
6.3<SYSTEM SERVICE> page ........................................................................................................... 25
7.Handler Interface (Optional for AT526B)........................................................................................................ 25
7.1Pin Assignment ................................................................................................................................ 25
4 AT526/AT526B User's Guide
7.2Power Rating ................................................................................................................................... 26
7.3Electrical Characteristics ................................................................................................................. 26
7.3.1Input Signal:............................................................................................................................. 26
7.3.2Output Signal:.......................................................................................................................... 26
7.3.3Power supply ........................................................................................................................... 26
7.3.4Schematic................................................................................................................................. 26
8.Remote Control................................................................................................................................................ 28
8.1About RS-232C ............................................................................................................................... 28
8.2About USB-Serial Interface (Option) .............................................................................................. 29
8.3To Select Baud Rate......................................................................................................................... 29
8.4SCPI Language ................................................................................................................................ 30
9.Command Reference ....................................................................................................................................... 31
9.1Terminator........................................................................................................................................ 31
9.2Notation Conventions and Definitions............................................................................................. 31
9.3Command Structure ......................................................................................................................... 31
9.4Header and Parameters .................................................................................................................... 32
9.5Command Reference ....................................................................................................................... 33
9.6DISPlay Subsystem ......................................................................................................................... 33
9.6.1DISP:PAGE ............................................................................................................................. 33
9.6.2DISP:LINE .............................................................................................................................. 34
9.7FUNCtion Subsystem ...................................................................................................................... 34
9.7.1FUNCtion:RANGe .................................................................................................................. 34
9.7.2FUNCtion:RANGe:MODE ..................................................................................................... 34
9.7.3FUNCtion:RATE ..................................................................................................................... 34
9.8COMParator Subsystem .................................................................................................................. 35
9.8.1COMParator:RMODe.............................................................................................................. 35
9.8.2COMParator:VMODe.............................................................................................................. 35
9.8.3COMParator:BEEP.................................................................................................................. 35
9.8.4COMParator:TOLerence:RNOMinal....................................................................................... 35
9.8.5COMParator:TOLerence:RLiMiT ........................................................................................... 36
9.8.6COMParator:TOLerence:VNOMinal ...................................................................................... 36
9.8.7COMParator:TOLerence:VLiMiT........................................................................................... 36
9.9TRIGger Subsystem......................................................................................................................... 36
9.9.1TRIGger[:IMMediate] ............................................................................................................. 36
9.9.2TRIGger:SOURce.................................................................................................................... 37
9.9.3TRG ......................................................................................................................................... 37
9.10FETCh Subsystem ........................................................................................................................... 37
9.10.1FETCh?.................................................................................................................................... 37
9.11CORRection Subsystem .................................................................................................................. 37
9.11.1CORRection:SHORt................................................................................................................ 37
9.12SYSTem subsystem ......................................................................................................................... 38
9.12.1SYSTem:SENDmode............................................................................................................... 38
9.13ERRor Subsystem............................................................................................................................ 38
9.14IDN? ................................................................................................................................................ 38
9.15SAV.................................................................................................................................................. 38
10.Specification ............................................................................................................................................ 39
10.1General Specifications ..................................................................................................................... 39
10.2About Accuracy ............................................................................................................................... 39
10.3AC Resistance Range for AT526 ..................................................................................................... 40
10.4AC Resistance Range for AT526B................................................................................................... 40
10.5DC Voltage Range for AT526 .......................................................................................................... 40
10.6DC Voltage Range for AT526B........................................................................................................ 40
10.7Features............................................................................................................................................ 40
10.8Environment .................................................................................................................................... 41
10.9Dimensions ...................................................................................................................................... 41
5
Figure Contents
FigureContents
Figure 1-1 How to remove the handle ......................................................................................................... 8
Figure 3-1Front panel ................................................................................................................................11
Figure 3-2Rear Panel.................................................................................................................................11
Figure 3-3Connect to DUT....................................................................................................................... 12
Figure 7-1Pin Assignment ........................................................................................................................ 25
Figure 7-2Typical Circuit Diagram of Handler Interface Input signals.................................................... 26
Figure 7-3Typical Circuit Diagram of Handler Interface Output signals. ................................................ 27
Figure 8-1The RS-232 connector in the rear panel .................................................................................. 28
Figure 8-2USB-Serial Interface ATN2 ..................................................................................................... 29
Figure 9-1Command Tree Example ......................................................................................................... 31
Figure 9-2DISP Command Tree ............................................................................................................... 33
Figure 9-3FUNCtion Subsystem Tree ...................................................................................................... 34
Figure 9-4COMParator Subsystem Command Tree................................................................................. 35
Figure 9-5TRIGger Subsystem Command Tree ....................................................................................... 36
Figure 9-6FETCh Subsystem Command Tree.......................................................................................... 37
Figure 9-7CORRection Subsystem Command Tree................................................................................. 37
Figure 9-8SYSTem commad tree ............................................................................................................. 38
Figure 10-1Dimensions .............................................................................................................................. 41
TableContents
Table 3-1Front panel description .............................................................................................................11
Table 3-2Rear panel description ............................................................................................................. 12
Table 7-1Description of Handler Interface Signals................................................................................. 25
Table 8-1RS-232 connector pinout ......................................................................................................... 28
Table 9-1Multiplier Mnemonics ............................................................................................................. 33
6 AT526/AT526B User's Guide
1. UnpackingandPreparation
This chapter describes how to set up and start the AT526/AT526B.
Incoming Inspection
Power Requirements
Setting up the Fuse
How to Remove the Handle
Environmental Requirements
Cleaning
1.1 IncomingInspection
After you receive the instrument, carry it out and check during unpacking according to
the following procedures.
WAR N I N G
If the external face of the instrument (such as the cover, front/rear panel, LCD screen,
power switch, and port connectors) appears to have been damaged during transport, do
not turn on the power switch. Otherwise, you may get an electrical shock.
Make sure that the packing box or shock-absorbing material used to package the
instrument has not been damaged.
Referring to <Packing List> in the packing box, check that all packaged items supplied
with the meter have been provided as per the specified optioned.
NOTE
If an abnormality is detected, contact the company and transport the meter to your
nearest Applent Instruments sales or service office. For inspection by the transport
company, save the packing box, shock-absorbing material, and packaged items as you
received them.
1.2 PowerrequirementsandsettingupFuse
~Line: 220VAC, 50Hz/60Hz
Fuse: 250V 1A Slow Blow
Please use the following fuse type.
UL/CSA type, Slow-Blow, 5×20-mm miniature fuse, 1A, 250 V
When you need a fuse, contact your nearest Applent Instruments sales or service office.
To verify and replace the fuse, remove the power cable and pull out the fuse holder.
1.3 EnvironmentalRequirements
Set up the AT526/AT526B where the following environmental requirements are
satisfied.
Operating Environments
Ensure that the operating environment meets the following requirements.
Temperature: 0C to 55C
7
Unpacking and Preparation
Temperature range at calibration: 23C±5C (<1C deviation from the temperature
when performing calibration)
Humidity: 15% to 85% at wet bulb temperature ≤40 °C (non-condensation)
Altitude: 0 to 2,000m
Vibration: Max. 0.5 G, 5 Hz to 500 Hz
1.4 Cleaning
To prevent electrical shock, disconnect the AT526/AT526B power cable from the
receptacle before cleaning.
Use a dry cloth or a cloth slightly dipped in water to clean the casing.
Do not attempt to clean the AT526/AT526B internally.
WARNING: Don’t Use Organic Solvents (such as alcohol or gasoline) to clean the
Instrument.
1.5 HowtoRemovetheHandle
A handle kit is attached to the AT526/AT526B:
8 AT526/AT526B User's Guide
Figure1‐1 Howtoremovethehandle
1 Retracted
3 Carrying Position
2 Extended
Remove Handle(Lift the handle perpendicular to the unit while pulling it in the direction of 1.)
9
Overview
2. Overview
This chapter contains general information about AT526/AT526B .The information is
organized as follows
Introduction
Main Specifications
Feature overview
2.1 Introduction
Thank you for choosing AT526/AT526B Battery Internal Resistance Meter.
AT526/AT526B adopts high-performance 32-bit ARM processor. It is a meter with wide
resistance measurement range from 0.001mΩto 33kΩ(AT526B: 0.001m- 33.00)
and DC voltage range from 0.00000V to 120.0000V (AT526B: 0.0001V-60.000VDC).
The instrument features an m-Ohm and V mode that allows simultaneous measurement
and comparison of battery internal resistance and open-circuit voltage. This meter is
highly suitable for battery inspection lines as one unit can act as both a low-resistance
meter and a voltmeter.
The AT526/AT526B completes with comparator function and external interface (handler,
AT526B: handler interface is optional) utilizing the principles of the AC 4-terminal
method that gives priority to line use and offers high speed, high accuracy and high
resolution.
With its built-in comparator, the AT526/AT526B can output comparison/decision
results for sorting components into resistance HIGH-IN-LOW bins and voltage
HIGH-IN-LOW bins.
AT526/AT526B measures all kinds of battery’s resistance and DC voltage, such as
lithium batteries, lead-acid batteries, Button Cell Batteries and etc. Especially,
AT526/AT526B can measures UPS battery while UPS working online.
AT526/AT526B is equipped with RS232 interface to apply to remote control, data
acquisition and analysis.
AT526/AT526B is also equipped with USB-Disk interface, and you can store the test
values into your USB Disk over 500 sets.
2.2 MainSpecificationsandFeatures
Basic Accuracy: Resistance: 0.2% Voltage: 0.05% (AT526);
Resistance: 0.5% Voltage: 0.05% (AT526B)
Test Frequency: 1kHz±2Hz
Max Display: Resistance: 33,000 digit, DC Voltage: 1,200,000 digit (AT526);
Resistance: 33,000, Voltage: 60,000 (AT526B)
7 ranges with Auto and Manual Modes (AT526); 4 ranges with Automatic and
Manual (AT526B)
Four-terminal test method
Test Speed: 145 times/s (Ultra Speed Mode) for AT526; 30 t/s, 10 t/s, 1 t/s for
AT526B
10 AT526/AT526B User's Guide
Trigger Mode: Internal, Manual, External and Remote trigger
2.3 MainFunctions
2.3.1 Correction
Short-circuit Clear Zero correction for all ranges.
2.3.2 Comparator(SortingFunction)
Set up sorting function to do GD/NG sorting.
Comparator Methods:
Absolute value of tolerance ±TOL sorting
Percentage tolerance TOL sorting
Sequence comparison sorting
Beep Feature:
Beep: OFF/GD/NG
2.3.3 SystemSetup
Keypad Lock Function
Switch Both in Chinese and English
Time and Date Settings
Administrator Accountant Settings
2.3.4 RemoteControl
Max baud rate: 115200bps,SCPI available, ASCII transmit.
11
Startup
3. Startup
This chapter describes names and functions of the front panel, rear panel, and screen
display and provides the basic procedures for operating AT526/AT526B.
Front panel summary
Rear panel summary
Power On/Off
Connect to Device under Test
3.1 Frontpanel
Figure3‐1 Frontpanel
2
3
1
456
8
9
7
10
Table3‐1 Frontpaneldescription
No. Description
1 USB Disk Port (USB-Host)
2 Trigger Key
3 Power Switch
4 System Key (Include File, System and Key Lock)
5 Soft Key
6 Menu key
7 UNKNOWN Terminal
8 Entry Key
9 Cursor Key
10 LCD Display
3.2 RearPanel
Figure3‐2 RearPanel
12 AT526/AT526B User's Guide
HANLDER
RS-232C
TC
POWER
1
234
Table3‐2 Rearpaneldescription
No. Description
1 RS-232C Interface
2 Handler Interface (Optional for AT526B)
3 Temperature Compensation Interface
4 AC Power Cord Receptacle
3.3 PowerOn/Off
3.3.1 LinePowerConnection
Power ON. Power OFF.
3.4 Warm‐upTime
AT526/AT526B is ready to be used as soon as the power-up sequence has completed.
However, to achieve the accuracy rating, warm up the instrument for 30 minutes.
3.5 ConnecttoDeviceunderTest(DUT)
Figure3‐3 ConnecttoDUT
Warning:
No putting current source, voltage source directly access to test side. Energy storage device
access to testing after discharging.
Be sure to ensure the floating state for a battery circuit with voltage exceeds 130VDC
13
<Meas> Key
4. <Meas>Key
This section includes the following information:
MEAS DISPLAY page
VIEW DATA page
4.1 <MEASDISPLAY>Page
Press [Meas] key to enter <MEAS DISPLAY>Page.
The <MEAS DISPLAY> page includes following setup:
Trigger Mode [TRIGGER]
Measurement Range [RANGE]
Test Speed [SPEED]
Comparator [COMP] ON/OFF
[BEEP] Feature
Soft-key VIEW DATA – To Enter [VIEWDATA] page
Soft-key SAVE DATA – To Store measurement result into internal flash disk.
Figure4‐1<MEASDISPLAY>Page
(Ultra-Fast Speed Mode)
4.1.1 [TRIGGER]
SCPI Command: TRIGger:SOURce {INT,MAN,EXT,BUS}
SCPI Query Command: TRIGger:SOURce?
AT526/AT526B supports four trigger modes: INT (internal), EXT (external), MAN
14 AT526/AT526B User's Guide
(manual) and BUS (RS-232)
Table4‐1 TriggerSetting
Trigger Mode Description
INT Continuously repeats the measurement cycle.
MAN Performs one cycle of measurement each time you press the [Trig] key.
EXT Performs one cycle of measurement each time a rising pulse is input to
the handler external trigger input pin on the rear panel.
BUS Performs one cycle of measurement each time it receives a trigger
command sent via RS-232.
Procedure to setting the trigger:
Step 1 Press [Meas] key to enter <MEAS DISPLAY>Page
Step 2 Use cursor keys to select [TRIGGER] field
Step 3 INT Automatic Internal trigger
MAN Manual Trigger by pressing [Trig] key
EXT External Trigger Mode
BUS BUS Trigger by RS232 SCPI command
4.1.2 [RANGE]
SCPI Command: FUNCtion:RANGe {<range number>,min,max}
SCPI Command: FUNCtion:RANGe:MODE {AUTO,HOLD,NOMinal}
SCPI Query Command: FUNCtion:RANGe?
SCPI Query Command: FUNCtion:RANGe:MODE?
AT526/AT526B has three resistance range modes and two voltage range.
Resistance Ranges:
Auto range, Manual range and Nominal range
Table4‐2ResistanceRangeMode
Range Description Pros Cons
AUTO
Automatically
select the best range according
to impedance
Range is automatically set.
Ver y
convenient
Test speed
is slower
than
manual
ranging,
HOLD The instrument will always
uses the user-specified range
Highest
speed
Set the
range
previously
NOMINAL
Automatically
select the best range according
to nominal value.
Best mode
for
sorting.
Only
available
in sorting
mode
Table4‐3ResistanceMeasurementRangesofAT526
Range Range Name Measurement Range
7 30kΩ3.2kΩ~33k
6 3kΩ320Ω~3.3k
5 300Ω32Ω~330
4 30Ω3.2Ω~33
3 3Ω320m~3.3
2 300Ω320Ω~ 330mΩ
1 30m32m~330m
15
<Meas> Key
Table4‐4ResistanceMeasurementRangesofAT526B
Range Range Name Measurement Range
4 30Ω3.2Ω~33
3 3Ω320m~3.3
2 300Ω320Ω~ 330mΩ
1 30m32m~330m
Procedure of setting the range:
Step 1 Press [Meas] key to enter measurement page
Step 2 Use the cursor key to select [RANGE]
Step 3 AUTO Auto range
HOLD Current range is hold
NOMINAL Select the range according to resistance
nominal value [RNom].
INCR+ Increase range
DECL- Decline range
Voltage Ranges:
Table4‐5VoltageMeasurementRangesofAT526
Range Range Name Measurement Range
1 120V 12.0V~120V
0 12V 0V~12.2V
Table4‐6VoltageMeasurementRangesofAT526B
Range Range Name Measurement Range
1 60V 12.0V~60V
0 12V 0V~12.2V
The DC voltage measurement range cannot be selected. AT526/AT526B always uses
automatic range mode under SLOW, MED and FAST speed mode and use the maximum
range under ULTRA speed mode (ULTRA speed only for AT526).
4.1.3 MeasurementSpeed[SPEED]
SCPI Command: FUNCtion:RATE {SLOW,MED,FAST,ULTRA}
SCPI Query Command: FUNCtion:RATE?
SLOW, MED, FAST and ULTRA speed mode can be selected for AT526.
SLOW mode will result in more stable and accurate measurement result.
The following speed is measured in range-hold mode and comparator is ON:
AT526:
SLOW: 1 times/sec (1s)
MED: 10 times/sec (100ms)
FAST: 30 times/sec (33ms)
ULTRA: 145 times/sec (6.8ms)
AT526B:
SLOW: 1 times/sec (1s)
MED: 10 times/sec (100ms)
FAST: 30 times/sec (33ms)
Procedure to setting test speed:
Step 1 Press [Meas] key to enter measurement page;
Step 2 Use the cursor key to select [SPEED] field
Step 3 SLOW
16 AT526/AT526B User's Guide
MED
FAST
ULTRA Small font
4.1.4 [BEEP]Feature
SCPI Command: COMParator:BEEP {OFF,GD,NG}
SCPI Query Command: COMParator:BEEP
Procedure to setting the beep:
Step 1 Press [Meas] key to enter measurement page;
Step 2 Use the cursor key to select [BEEP]
Step 3 OFF Turn Beep Off
GD Beep while Pass
NG Beep while Fail
4.2 StatusBaron<MEASDISPLAY>
HOLD – Hold the data under internal trigger mode, test stops.
SYSTEM– Go to <SYSTEM CONFIG>Page
KEY LOCK – Lock the keypad.
Time
4.2.1 Iconson<MEASDISPLAY>
Table4‐5Icons
Icon Description
USB-Disk is available.
HHold current data.
4.2.2 [VIEWDATA]Soft‐key
To enter the <VIEW DATA> page by pressing [VIEW DATA] soft-key.
4.2.3 [SAVEDATA]Soft‐key
Every time press this key, a line of measurement result will be stored into internal flash
disk.
The saved data can be reviewed on <VIEW DATA> page by pressing [VIEW DATA]
soft-key.
4.3 <VIEWDATA>page
The measurement result can be stored in AT526’s/AT526B’s internal nonvolatile
memory by press the [SAVE DATA] soft-key in <MEAS DISPLAY> page.
Over 500 sets data can be saved.
The format of measurement result is:
[Resistance][Voltage][Date][Time]
You can review the saved data on the <VIEW DATA> page by pressing the [VIEW
DATA] soft-key in <MEAS DISPLAY> page.
Figure4‐2 <VIEWDATA>page
17
<Meas> Key
SAVE TO DISK – Store all data into USB Disk
RESET – The data will be stored from the start of the table.
FORMAT – To format the internal nonvolatile memory disk, all data will be lost.
PAGE – Jump to the provided page
18 AT526/AT526B User's Guide
5. [SETUP]Key
This chapter describes:
<STEUP> page
Short-circuit Clear Zero
5.1 <SETUP>page
Press [Setup] key to enter <SETUP>page.
In <SETUP> page, the Instrument does not display measurement result and comparator
result, testing is not in progress.
The <SETUP> page includes following setup:
Trigger Mode [TRIGGER]
Measurement Range [RANGE]
Measurement Speed [SPEED]
BEEP Feature
Soft-key CLEAR ZERO – Clear Zero Correction
R-COMP – AC Resistance Sorting Methods
V-COMP– DC Voltage Sorting Methods
R-NOMINAL – Input Resistance Nominal Value
R-LOWER – Input Resistance Lower Limit
R-UPPER – Input Resistance Upper Limit
V-NOMINAL – Input Voltage Nominal Value
V-LOWER – Input Voltage Lower Limit
V-UPPER – Input Voltage Upper Limit
Some settings can be also set up in <MEAS DISPLAY> page. Please refer to the chapter:
<Meas> Key
Figure5‐1<SETUP>page
5.2 Short‐circuitClearZero[CLEARZERO]
SCPI Command: CORR:SHOR
Press [Setup] key to enter < SETUP> page, and then press [CLEAR ZERO] soft-key to
perform short-circuit clear zero.
19
[SETUP] Key
After correction, the value will be saved into internal flash disk.
It is necessary to do short-circuit clear zero correction.
When replace the test fixture or test cables, please do short –circle clear zero.
How to connect the test clips before executing short-circle clear.
Figure 5-2 Connect the test clip
5.3 ComparatorMode[R‐COMP],[V‐COMP]
SCPI Command: COMP:RMOD {OFF,ABS,PER,SEQ}
SCPI Command: COMP:VMOD {OFF,ABS,PER,SEQ}
There are several items for choosing:
SEQ – Sequential Mode
PER – Percentage Mode [PER = (Result – Nominal) / Nominal * 100%]
ABS – Absolute Mode [ABS = Result – Nominal]
Procedure to set comparator mode:
Step 1 Press [Setup] key to enter <SETUP> page
Step 2 Use cursor key to select [RESMODE]
Step 3 SEQ Sequential Mode:
Compare result with low and high limited
values.
PER% Percentage Mode:
(Result – nominal) / nominal × 100%
ABSAbsolute Mode:
Result – Nominal
5.3.1 ComparatorNominal[R‐NOMINAL],[V‐NOMINAL]
SCPI Command: COMParator:TOLerence:RNOMinal <float>
SCPI Command: COMParator:TOLerence:VNOMinal <float>
When using the ABS and PER mode, the nominal value must be inputted.
The field is ignored when in SEQ mode.
The Nominal value must be positive.
Procedure to input nominal value:
Step 1 Press [Setup] key to enter <SETUP> page
Step 2 Use cursor key to select [R-NOMINAL] or
[V-NOMINAL] field.
Step 3 Input the nominal value by numeric keypad.
5.3.2 Limit[R‐LOWER][R‐UPPER][V‐LOWER],[V‐UPPER]
SCPI Command: COMParator:TOLerence:RLMT <lower>,<upper limit>
SCPI Command: COMParator:TOLerence:VLMT <lower>,<upper limit>
20 AT526/AT526B User's Guide
The high limited value should be greater than low nominal value.
When in SEQ Mode, please input the direct value of resistance or voltage.
When in ABSMode, please input the absolute value of resistance or voltage.
When in PER% Mode, please input the relative value of resistance or voltage in %.
Procedure to input high/low limited values:
Step 1 Press [Setup] key to enter < SETUP> page
Step 2 Use cursor keys to select :
[R-LOWER] [R-UPPER] or
[V-LOWER] [V-UPPER] field
Step 3 Please input the percentage value when in [PER %]
mode
Please input the Direct value when in ABSand SEQ
mode.
This manual suits for next models
1
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