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Keysight EasyEXPERT Software

User’s Guide

Volume 2

Summary of content (228 pages)

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Keysight EasyEXPERT Software User’s Guide Volume 2
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Notices © Keysight Technologies 2014 Warranty No part of this manual may be reproduced in any form or by any means (including electronic storage and retrieval or translation into a foreign language) without prior agreement and written consent from Keysight Technologies as governed by United States and international copyright laws. The material contained in this document is provided “as is,” and is subject to being changed, without notice, in future ed itions.
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For B1500A Users Agilent B1500A supports the following measurement resources. For reading this manual, ignore the information about the other resources.
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In This Manual This manual describes the reference information of Agilent Technologies EasyEXPERT which is the system software of Agilent Technologies B1500 device analyzer series. This manual consists of the following chapters. 6. Remote Control Interface Explains about the EasyEXPERT remote control interface which is a command set used to control EasyEXPERT by a program. 7. Utilities Introduces the utility programs. 8. Application Library Lists the furnished application tests.
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Contents 6. Remote Control Interface Introduction. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 6-3 Supported Operations. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 6-4 Preparation for Communication. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 6-5 Notational Convention and Command Summary . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
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Contents :CALibration[:SMU]:ZERO[:ON] . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 6-18 :CALibration[:SMU]:ZERO[:ON]:ALL. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 6-19 :CALibration[:SMU]:ZERO:PLC . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 6-19 :CALibration[:SMU]:ZERO:STATe? . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 6-19 RESult Subsystem. . . . . . . . . . . . . . . . .
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Contents To Start Desktop EasyEXPERT . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 7-7 Execution Mode dialog box . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 7-7 Start EasyEXPERT window. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 7-8 To Change Execution Mode and GPIB Settings . . . . . . . . . . . . . . . . . . . . . . . . . . . . 7-9 To Move the EasyEXPERT Database . . . . . . . .
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Contents ASU is not Detected . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 9-4 N1265A/N1266A/N1268A is not Detected . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 9-4 External GPIB Devices are not Detected . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 9-4 To Simplify the Connections. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 9-5 When You Perform Measurement . . . . . . . .
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Contents To Restore Database. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 9-21 Updating EasyEXPERT . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 9-22 10. Error Message Agilent EasyEXPERT Operation Error . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 10-3 Agilent FLEX Execution Error . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
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Contents Agilent EasyEXPERT User’s Guide Vol.
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6 Remote Control Interface
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Remote Control Interface This chapter explains about the EasyEXPERT remote control interface which is a command set used to control EasyEXPERT by using a program via LAN, and consists of the following sections.
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Remote Control Interface Introduction Introduction The EasyEXPERT remote control interface is a software interface usable from the VISA/SICL library. And it is used for the following applications as examples via LAN using the socket service. See Figure 6-1.
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Remote Control Interface Introduction Supported Operations The EasyEXPERT remote control interface provides the subsystem commands listed below. Operations supported by these commands are shown in Figure 6-2.
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Remote Control Interface Introduction Figure 6-2 Operations Supported by EasyEXPERT Remote Control Interface Power ON Start EasyEXPERT To open workspace To set test setup Operations supported by EasyEXPERT remote control interface To change test parameters (for Application Test) To execute measurement (Single execution) :WORK:OPEN :BENC:PRES:SET:SEL :BENC:APP:SEL :BENC:SEL:NUMB :BENC:SEL:STR :BENC:SEL:RUN To get test results :RES:FET To close workspace :WORK:CLOS Exit EasyEXPERT Preparation for C
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Remote Control Interface Notational Convention and Command Summary Notational Convention and Command Summary Table 6-1 Notational Convention Notation Description Capital letters Capital letters are the minimally required letters of the command or query program header. Lowercase letters are the long form (complete spelling), which you can omit if desired. Vertical bar | Vertical bars separate alternative parameters. For example, ON|OFF indicates that either “ON” or “OFF” can be used as a parameter.
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Remote Control Interface Notational Convention and Command Summary Table 6-2 Subsystem Command Summary Command Summary WORKspace subsystem :WORKspace:CATalog? Returns catalog of your own workspace and the Public workspace. :WORKspace:CLOSe Closes the workspace now opened. :WORKspace:OPEN "name" Opens the specified workspace. name=Workspace name :WORKspace[:SELected]:NAME? Returns the name of the workspace now opened. :WORKspace:STATe? Returns the status of the workspace.
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Remote Control Interface Notational Convention and Command Summary Command Summary [:BENCh][:SELected]:ABORt Aborts the single measurement now in progress. [:BENCh][:SELected]:NAME "name" Sets or returns the value of the Setup Name field of the test setup now opened.
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Remote Control Interface Notational Convention and Command Summary Command Summary STANDby subsystem :STANDby:STATe mode :STANDby:STATe? Sets or returns the SMU standby function ON/OFF status. mode=0|OFF|1|ON SYSTem subsystem :SYSTem:ERRor[:NEXT]? Returns the top code and message in the error queue. CALibration subsystem :CALibration[:SMU]:ZERO:FULLrange "module",mode Sets or returns the full range measurement ON/OFF status for the specified SMU+ASU.
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Remote Control Interface Common Commands Common Commands Describes common commands provided by the EasyEXPERT remote control interface. *CLS Clears the error queue. Syntax *CLS *IDN? Returns the EasyEXPERT identification string which contains four comma-separated fields. Syntax *IDN? Query response Agilent Technologies,Agilent EasyEXPERT,hostname,revision hostname Host name of the computer which EasyEXPERT is running revision EasyEXPERT revision number Data type is AARD.
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Remote Control Interface BENCh Subsystem BENCh Subsystem Describes BENCh subsystem commands used for test setup and measurement. [:BENCh]:APPlication:CATalog? Returns catalog of the application test definitions. Returns all application test definitions regardless of the Category selection. Syntax [:BENCh]:APPlication:CATalog? Query response "app def1"[,"app def2"[, ... "app def"]] Data type is SRD.
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Remote Control Interface BENCh Subsystem Example :COUN 100 :COUN? [:BENCh]:COUNt:RESet Clears the value of the Count field. Syntax [:BENCh]:COUNt:RESet Example :COUN:RES [:BENCh]:LOAD[:SETup] Loads and sets the test setup information included in the XTS or XTR data. If the XTR data contains multiple setup information, only the first setup information is loaded. Syntax [:BENCh]:LOAD[:SETup] setup Parameter setup Example :LOAD #32229876543210 ... 987654321098 Test setup information.
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Remote Control Interface BENCh Subsystem Parameter name Example :PRES:OPEN "BJT Tests" Preset group name. Data type is SPD. [:BENCh]:PRESet[:SELected]:NAME? Returns the name of the preset group (My Favorites) now opened. Syntax [:BENCh]:PRESet[:SELected]:NAME? Query response "name" Data type is SRD. Example :PRES:NAME? [:BENCh]:PRESet:SETup:CATalog? Returns catalog of the test setup included in the preset group (My Favorites) now opened.
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Remote Control Interface BENCh Subsystem [:BENCh][:SELected]:ABORt Aborts the single measurement now in progress. Syntax [:BENCh][:SELected]:ABORt Example :ABOR [:BENCh][:SELected]:NAME Sets or returns the value of the Setup Name field of the test setup now opened. Syntax [:BENCh][:SELected]:NAME "name" [:BENCh][:SELected]:NAME? Parameter name Query response "name" Value of the Setup Name field. Data type is SPD. Data type is SRD.
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Remote Control Interface BENCh Subsystem [:BENCh][:SELected]:RUN[:SINGle] Starts the single measurement of the test now opened. Use the *OPC? command to confirm the completion of the single measurement. Syntax [:BENCh][:SELected]:RUN[:SINGle] Example :RUN [:BENCh][:SELected]:STRing Sets or returns the value of the specified string parameter defined in the application test now opened.
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Remote Control Interface BENCh Subsystem [:BENCh]:TAG Sets or returns the value of the Device ID field. Syntax [:BENCh]:TAG "deviceid" [:BENCh]:TAG? Parameter deviceid Query response "deviceid" Value of the Device ID field. Data type is SPD. Data type is SRD. Example :TAG "Device A" :TAG? 6- 16 Agilent EasyEXPERT User’s Guide Vol.
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Remote Control Interface CALibration Subsystem CALibration Subsystem Describes CALibration subsystem commands used for the offset current cancel function. :CALibration[:SMU]:ZERO:FULLrange Sets or returns the full range measurement ON/OFF status for the specified SMU+ASU. Syntax :CALibration[:SMU]:ZERO:FULLrange "module", mode :CALibration[:SMU]:ZERO:FULLrange? "module" Parameter module Identifier of the SMU. Data type is SPD. mode Full range measurement ON or OFF, 0|OFF|1|ON. Data type is Bool.
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Remote Control Interface CALibration Subsystem Query response current1[,current2[,current3[,current4]]] Data type is NRf.
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Remote Control Interface CALibration Subsystem :CALibration[:SMU]:ZERO[:ON]:ALL Sets the all SMU to the offset current cancel function ON. Syntax :CALibration[:SMU]:ZERO[:ON]:ALL Example :CAL:ZERO:ALL :CALibration[:SMU]:ZERO:PLC Sets or returns the integration time used for the offset current measurement of the specified SMU. Syntax :CALibration[:SMU]:ZERO:PLC "module", plc :CALibration[:SMU]:ZERO:PLC? "module" Parameter Query response module Identifier of the SMU. Data type is SPD.
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Remote Control Interface RESult Subsystem RESult Subsystem Describes RESult subsystem commands used for getting/deleting the test result data, and so on. :RESult:FETch[:LATest]? Returns the latest test result data. Syntax :RESult:FETch[:LATest]? Query response data Data type is Block. Example: #32569876543210 ... 987654 In this example, #3256 is followed by 256-byte length binary data. Example :RES:FET? :RESult:FETch[:LATest]:SIBLings? Returns the latest test result data.
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Remote Control Interface RESult Subsystem :RESult:FORMat Sets or returns the output format of the test result data. Syntax :RESult:FORMat mode :RESult:FORMat? Parameter mode Output format, TEXT|XTR. Data type is CPD. TEXT: Text format, initial setting XTR: EasyEXPERT test result data format Query response mode TEXT or XTR is returned. Data type is CRD. Example :RES:FORM XTR :RES:FORM? :RESult:FORMat:ESCape Sets or returns the newline character type used in the test result data.
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Remote Control Interface RESult Subsystem :RESult:RECycle:ALL Adds all test result data to the Delete group. Syntax :RESult:RECycle:ALL Example :RES:REC:ALL :RESult:RECycle[:LATest] Adds the latest test result data to the Delete group. For the application test result, the result data for all included tests is subject. Syntax :RESult:RECycle[:LATest] Example :RES:REC 6- 22 Agilent EasyEXPERT User’s Guide Vol.
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Remote Control Interface STANDby Subsystem STANDby Subsystem Describes STANDby subsystem command used for the standby function. :STANDby:STATe Sets or returns the SMU standby function ON/OFF status. Syntax :STANDby:STATe mode :STANDby:STATe? Parameter mode Standby function ON or OFF, 0|OFF|1|ON. Data type is Bool. 0 | OFF: Standby function OFF 1 | ON: Standby function ON Query response mode 0 (OFF) or 1 (ON) is returned. Data type is Bool.
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Remote Control Interface SYSTem Subsystem SYSTem Subsystem Describes SYSTem subsystem command provided by the EasyEXPERT remote control interface. :SYSTem:ERRor[:NEXT]? Reads and removes the top item in the error queue, and returns the top code and message. Syntax :SYSTem:ERRor[:NEXT]? Query response response response: code,"message" code: Error code. Data type is NR1. message: Error message. Data type is SRD.
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Remote Control Interface WORKspace Subsystem WORKspace Subsystem Describes WORKspace subsystem commands used for opening/closing workspace, and so on. :WORKspace:CATalog? Returns catalog of your own workspace and the Public workspace. Syntax :WORKspace:CATalog? Query response "workspace1"[,"workspace2"[, ... "workspace"]] Data type is SRD. Example :WORK:CAT? :WORKspace:CLOSe Closes the workspace now opened. Use the *OPC? command to confirm the completion of close operation.
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Remote Control Interface WORKspace Subsystem :WORKspace[:SELected]:NAME? Returns the name of the workspace now opened. Syntax :WORKspace[:SELected]:NAME? Query response "name" Data type is SRD. Example :WORK:NAME? :WORKspace:STATe? Returns the status of the workspace. Syntax :WORKspace:STATe? Query response status OPEN or CLOS is returned. Data type is CRD. OPEN: Workspace is now opened. CLOS: Workspace is now closed. Or open/close operation is in progress.
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Remote Control Interface Error Messages Error Messages 0 No Error 101 EasyEXPERT Error;Message ID:code / message Error occurs in EasyEXPERT remote operation. code and message are as follows. • code: Error code sent by EasyEXPERT • message: Error message sent by EasyEXPERT See “Agilent EasyEXPERT Operation Error” on page 10-3. 201 Remote Control Error;message Error occurs in EasyEXPERT remote control library. message is as follows.
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Remote Control Interface Error Messages • Working setup is empty. Test setup has not been selected. • Working test setup is not an Application Test. This test setup is not application test setup. • Workspace does not exist; workspace name: A • Workspace is already open. Close before opening workspace. • Workspace is not ready. • There is no workspace. 6- 28 Agilent EasyEXPERT User’s Guide Vol.
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7 Utilities
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Utilities This chapter introduces the utility programs included in Agilent B1500 and EasyEXPERT. NOTE • “System Requirements” • “Desktop EasyEXPERT” • “License Management Tool” • “Setup File Converter” • “MDM File Converter” • “Utility Programs” The following conventions are used in this chapter.
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Utilities System Requirements System Requirements Table 7-1 shows the minimum requirements to run the software/program furnished with the B1500. They are effective as of June 2013. For the latest information, go to www.agilent.com and type in EasyEXPERT in the Search field at the top of the page.
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Utilities Desktop EasyEXPERT Desktop EasyEXPERT The Desktop EasyEXPERT software CD is included with Agilent B1500. This section describes the following topics.
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Utilities Desktop EasyEXPERT About Desktop EasyEXPERT The Desktop EasyEXPERT software provides the following additional advantages to the B1500, allowing you to minimize the amount of offline tasks performed on the B1500 and increase the working ratio for measurements. • Allows the B1500 to be controlled from an external computer via GPIB while online. • Allows test setup to be created on an external computer while offline. • Allows data analysis to be performed on an external computer while offline.
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Utilities Desktop EasyEXPERT To Install Desktop EasyEXPERT • Prepare a computer which satisfies the system requirements described in README file stored in Desktop EasyEXPERT software CD. • For one of the following cases, prepare the Software Entitlement Certificate sheet provided with the B1500A-SWS, B1500AU-SWS, B1505A-SWS, or B1505AU-SWS. • If you install the Desktop EasyEXPERT revision A.05.
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Utilities Desktop EasyEXPERT To Start Desktop EasyEXPERT To launch Desktop EasyEXPERT, follow the procedure below. 1. Click Start > All Programs > Agilent B1500 EasyEXPERT > Desktop EasyEXPERT. 2. If the Execution Mode dialog box is not opened, click Option > Execution Mode on the Start EasyEXPERT window. 3. On the Execution Mode dialog box, select the execution mode, Online or Offline. If you select the Online mode, set the GPIB configuration. See “Execution Mode dialog box” on page 7-7. 4.
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Utilities Desktop EasyEXPERT Start EasyEXPERT window The Start EasyEXPERT window provides the following graphical user interface. Start EasyEXPERT This button launches EasyEXPERT. File menu Provides the following function. Exit Option menu Closes the Start EasyEXPERT window. Provides the following functions. Execution Mode... Opens the Execution Mode dialog box. Auto Start of EasyEXPERT Not available for Desktop EasyEXPERT.
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Utilities Desktop EasyEXPERT To Change Execution Mode and GPIB Settings To change the Desktop EasyEXPERT execution mode or the GPIB configuration, follow the procedure below. 1. Launch Start EasyEXPERT. If the Execution Mode dialog box is not opened, click Option > Execution Mode on the Start EasyEXPERT window. If Desktop EasyEXPERT is running, exit it. And click Option > Execution Mode on the Start EasyEXPERT window. 2. Select the execution mode, Online or Offline.
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Utilities Desktop EasyEXPERT Using 4155B/4156B/4155C/4156C This section describes the notices when using Desktop EasyEXPERT and 4155/4156. 4155/4156 4155/4156 firmware revision supported by Desktop EasyEXPERT Firmware Revision • HOSTC: 03.08 or later • 4155/4156 Functions Desktop EasyEXPERT SMUC: 04.
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Utilities Desktop EasyEXPERT Calibration Configuration, Main Frame Differences on Calibration window • Calibration window provides Module Self Calibration screen only. • Module Self Calibration screen provides Enable Auto Calibration only. Differences on Configuration window Main Frame screen • Line Frequency just displays the setting of 4155/4156. • Firmware Rev. displays as follows. [HOSTC Rev.]:[SMUC Rev.]:[ADC Rev.
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Utilities Desktop EasyEXPERT Advanced Setup Table 7-2 Differences on Advanced Setup • Series R always shows NONE. • Wait Time Control is not supplied. Setting of High Resolution ADC Mode Factor AUTO - MANUAL 1  N  127 PLC 1 N2 NOTE Setting of 4155/4156 MEDIUM SHORT, TIME=80 s N MEDIUM LONG, NPLC=N To reuse the test setup for B1500A Perform the following procedure to reuse the test setup created for the B1500A. 1. Launch Desktop EasyEXPERT with the condition Set Analyzer=B1500A. 2.
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Utilities License Management Tool License Management Tool The licence management tool is the program used to install the license of the software listed below. This program is also used to confirm the licenses already installed and the host ID of the B1500 or the computer for Desktop EasyEXPERT.
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Utilities License Management Tool License Management Tool GUI File menu Install License File Opens a dialog box used to specify the license file. Exit Closes the Licence Management Tool. Help menu About Opens the About dialog box. Install icon Opens a dialog box used to specify the license file. Installed Licenses tab screen Displays the license already installed. Information tab screen Displays the host ID of the B1500 or the computer for Desktop EasyEXPERT.
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Utilities Setup File Converter Setup File Converter The setup file converter is the program which converts the Agilent 4155A/4156A/ 4155B/4156B/4155C/4156C setup file (extension: DAT or MES) and creates the EasyEXPERT setup file (extension: XTS). This program can convert the setup information but cannot convert the test result data. Execution environment Agilent EasyEXPERT or Desktop EasyEXPERT execution environment To execute this program, the SetupFileConverter.exe, SetupFileConverterW.
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Utilities Setup File Converter Setup File Converter GUI The setup file converter provides the following GUI. File menu Select Files Opens the Select 4155/4156 MES Files or DAT Files dialog box used to specify the 4155/4156 setup files to convert. Convert Files Performs conversion and creates XTS file. This program overwrites the file of the same name. Clear Clears the Selected Files area and the Log area. Quit Closes the setup file converter. Help menu About Opens the About dialog box.
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Utilities MDM File Converter MDM File Converter The MDM file converter is the program which converts the EasyEXPERT test result data file (extension: xtr or ztr) and creates the Agilent IC-CAP model data manager file (extension: mdm). Supported data The MDM file converter supports the test result data of the following Classic Tests. • I/V Sweep • Multi Channel I/V Sweep • C-V Sweep The Application Test result data is not supported.
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Utilities MDM File Converter MDM File Converter GUI The MDM file converter provides the following GUI. File menu Exit Closes the MDM file converter. Action menu Convert Performs conversion of the files listed in Input Files and creates mdm files. Help menu About Opens the About dialog box. Input Files Lists the xtr/ztr file. Options Browse... Opens the Please select Test Result File dialog box used for selecting the xtr/ztr files to convert. The selected files are listed in Input Files.
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Utilities Utility Programs Utility Programs The following useful programs are stored in the following folder. Remember that they are just sample programs. \Agilent\B1500\EasyEXPERT\Utilities\ • “Prober Control” • “sleep.exe” • “XSLT” \Agilent\B1500\EasyEXPERT\415xC\Conversion\ • “SetupFileConverter.exe” \Agilent\B1500\EasyEXPERT\IC-CAP Support\MDM\ • “MdmFileConverter.
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Utilities Utility Programs SetupFileConverter.exe This program is the script version of the setup file converter. This program converts the 4155A/4156A/4155B/4156B/4155C/4156C setup file (.DAT or .MES) and creates the EasyEXPERT setup file (.XTS). This program can convert the setup information but cannot convert the test result data. Execution environment Agilent EasyEXPERT or Desktop EasyEXPERT execution environment Syntax SetupFileConverter.exe [option] [file] Parameter option : Execution options.
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Utilities Utility Programs XTS file creation example 1 The .XTS file can be created by using Command Prompt as shown below. 1. Create your working folder (for example, C:\415xConvert\). 2. Copy the 4155/4156 setup files to convert and the SetupFileConverter.exe file, and paste them to the working folder. 3. Open Command Prompt. 4. On Command Prompt, execute SetupFileConverter.exe as shown below. This creates the .XTS file in the working folder and displays the message as follows.
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Utilities Utility Programs About conversion results The setup file conversion is not complete. The following are the expected differences. When you use the .XTS file, you will see differences in the operation, performance, measurement result data, and so on. • Channel number may be changed. For example, the HPSMU channel number is 5 for the 4155/4156 but 1 for the B1500. • Setup value is changed to the value available for the B1500 and EasyEXPERT.
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Utilities Utility Programs MdmFileConverter.exe This program is the script version of the MDM file converter. This program converts the EasyEXPERT test result data file (extension: xtr or ztr) and creates the Agilent IC-CAP model data manager file (extension: mdm). Execution environment Agilent EasyEXPERT or Desktop EasyEXPERT execution environment Syntax MdmFileConverter.exe [option] [file] Parameter option : Execution options. See Table 7-4. Multiple options can be set.
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Utilities Utility Programs mdm file creation example 1 The mdm file can be created by using Command Prompt as shown below. 1. Create your working folder (for example, C:\MdmConversion\). 2. Copy the xtr/ztr files to convert and the MdmFileConverter.exe file, and paste them to the working folder. 3. Open Command Prompt. 4. On Command Prompt, execute MdmFileConverter.exe as shown below. This creates the mdm file in the working folder and displays the message as follows. C:\MdmConversion>MdmFileConverter.
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Utilities Utility Programs mdm file name and • folder Without the /d option, the mdm file is created in the folder which the xtr/ztr file has been stored. • With the /d option, the mdm file is created in the specified folder. • Without the /o option, the mdm file name is same as the xtr/ztr file name. Example: MdmFileConverter.exe abc.xtr creates the abc.mdm file. • With the /o option, the mdm file is created with the specified name. Example: MdmFileConverter.exe /o xyz abc.xtr creates the xyz.
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Utilities Utility Programs sleep.exe This execution file is used to put a wait time in the test execution flow of an application test. Execution environment Agilent EasyEXPERT application test execution environment File Name \Agilent\B1500\EasyEXPERT\Utilities\sleep.exe Parameters The following parameters are available for this file. To use sleep.exe, the parameters must be defined in the Local Variables Definition statement of the Test Contents tab in the Test Definition window.
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Utilities Utility Programs XSLT The XSLT (XSL-Transformation, eXtensible Stylesheet Language Transformation) filter files are used to export test records. The fifteen filter files listed below are stored in the \Agilent\B1500\EasyEXPERT\Utilities\XSLT folder. See Table 7-5. Filter files that contain csv in the file name export test record in the format that uses a comma (,) as data separator.
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Utilities Utility Programs Table 7-5 XSLT Filter Files Group 1 2 3 File name Description • meas-csv.xsl Filter files for exporting the measurement data only • meas-tab-sv.xsl Classic test record export example is shown in Table 7-6. • meas-xmlss.xsl • meas-index-csv.xsl Filter files for exporting the measurement data with the index • meas-index-tab-sv.xsl Classic test record export example is shown in Table 7-7. • meas-index-xmlss.xsl • meas-meta-csv.xsl • meas-meta-tab-sv.
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Utilities Utility Programs Table 7-6 Example of the data exported by using the XSLT Filter File Group 1 Vd Vg Index Time Id ABS_ID Slope 0 1 1 0.00264 -0.00012 0.00012 0.004346 0.06 1 2 0.01265 0.000398 0.000398 0.004346 0.12 1 3 0.02265 0.000902 0.000902 0.004346 : : : Table 7-7 : : : : Example of the data exported by using the XSLT Filter File Group 2 No. Vd Vg Index Time Id ABS_ID Slope 1 0 1 1 0.00264 -0.00012 0.00012 0.004346 2 0.06 1 2 0.
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Utilities Utility Programs Table 7-9 Example of the data exported by using the XSLT Filter File Group 4 I/V Sweep Trng Id-Vd Record Time 04/04/2007 08:36:42 Device ID Count 2 Flag Remarks No. : Vd Vg Index Time Id ABS_ID Slope 1 0 1 1 0.00264 -0.00012 0.00012 0.004346 2 0.06 1 2 0.01265 0.000398 0.000398 0.004346 3 0.12 1 3 0.02265 0.000902 0.000902 0.004346 : : : : : 7-30 : : Agilent EasyEXPERT User’s Guide Vol.
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Utilities Utility Programs Filter File Modification Example This section explains the modification example of a filter file. In this example, a filter file of group 5 is used. The group 5 filter files will export the data that contains the test setup information. To obtain the data without the setup information, modify the filter file as shown below, also see Figure 7-2, and export data by using the filter file after modification.
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Utilities Utility Programs Modification Example Figure 7-2 [VO WHPSODWH PDWFK VWD 0HWD'DWD VWD 3DUDPHWHU/LVW ! [VO DSSO\ WHPSODWHV VHOHFW VWD 3DUDPHWHU ! [VO ZLWK SDUDP QDPH SDUPWDJ !0HWD'DWD [VO ZLWK SDUDP! [VO DSSO\ WHPSODWHV! [VO WHPSODWH! [VO WHPSODWH PDWFK VWD $QDO\VLV3DUDPHWHU/LVW ! [VO DSSO\ WHPSODWHV VHOHFW VWD 3DUDPHWHU ! [VO ZLWK SDUDP QDPH SDUPWDJ !$QDO\VLV6HWXS [VO ZLWK SDUDP! [VO DSSO\ WHPSODWHV! [VO WHPSODWH! [VO WHPSODWH PDWFK
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Utilities Utility Programs Table 7-10 Example of the data exported by using the filter file before modification SetupTitle Trng Id-Vd PrimitiveTest I/V Sweep TestParameter Channel.Unit TestParameter SMU2:HP SMU3:HR SMU4:HR Channel.IName Id Ig Is Isub TestParameter Channel.VName Vd Vg Vs Vsub : : : : : MetaData TestRecord.Entr true : : : : : AnalysisSetup Analysis.Setup.
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Utilities Utility Programs Table 7-12 Filter File Reference Name Reference name Description sta:TestData Indicates a test result data saved in an EasyEXPERT test result record sta:MeasurementData Indicates a measurement result data saved in a test result data sta:DataVectorSet Indicates a set of vector data saved in a measurement result data sta:TestSetup Indicates a test setup data saved in a test result data sta:Title Indicates test setup name, SetupTitle in export data sta:PrimitiveTest In
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Utilities Utility Programs Table 7-13 Label Export Data Components for Classic Test Result Description Example (csv output) SetupTitle Title of this test setup Trng_Id_Vd PrimitiveTest Setup name of this classic test I/V Sweep TestParameter Parameter name and setup value of Channel Setup, Measurement Setup, Function Setup, Auto Analysis Setup, and Display Setup. Channel.Unit, SMU1:HP, SMU2:HP, SMU3:HR, SMU4:HR Data file contains a lot of rows for TestParameter. One setup item per row.
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Utilities Utility Programs Table 7-14 Export Data Components for Application Test Result Label Description Example (csv output) SetupTitle Title of this test setup Trng_Id_Vd ApplicationTest Setup name of this application test Trng_Id_Vd, Public TestParameter Two rows. The upside is for the test parameter names. The downside is for the test parameter values. Order sensitive. For example, Vd=0.1 in Example. Name, VdStart, VdStop, VdStep, VgStart, VgStop, VgStep, Vs Two rows.
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8 Application Library
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Application Library This chapter lists the application tests provided by EasyEXPERT. This chapter also describes the maximum measurement value and accuracy for the result data measured by using the QSCV[2] application test. • “Application Test Definitions” • “QSCV Maximum Measurement Value and Accuracy” 8-2 Agilent EasyEXPERT User’s Guide Vol.
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Application Library Application Test Definitions Application Test Definitions Agilent EasyEXPERT software contains the application library which supports the several characteristic measurements listed in Table 8-1. They are classified into the following categories.
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Application Library Application Test Definitions • Interconnection • MISCAP • PMIC • PowerBJT • PowerDiode • PowerMOSFET • SiC NOTE All test definitions are just sample. If the samples damage your devices, Agilent Technologies is NOT LIABLE for the damage. NOTE If you delete a test definition Application library should be recovered. Import the test definition by using the Import Test Definition... function of the Library button.
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Application Library Application Test Definitions Table 8-1 Application Test Definitions Category BJT Test definition name BC Diode Fwd Supported analyzer B1500A,4155B/C,4156B/C Required equipment and quantity SMU 2 BC Diode Rev B1500A,4155B/C,4156B/C SMU 2 BVcbo B1500A,4155B/C,4156B/C SMU 2 BVcei B1500A,4155B/C,4156B/C SMU 3 BVceo B1500A,4155B/C,4156B/C SMU 2 BVebo B1500A,4155B/C,4156B/C SMU 2 CS Diode Fwd B1500A,4155B/C,4156B/C SMU 2 CS Diode Rev B1500A,4155B/C,4156B/C SMU 2 Ctc-
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Application Library Application Test Definitions Category BJT CMOS Test definition name Re Supported analyzer Required equipment and quantity B1500A,4155B/C,4156B/C SMU 4 Simple Gummel Plot B1500A,4155B/C,4156B/C SMU 3 Vbe-Le B1500A SMU 4, B2200A/B2201A 1 Vbe-We B1500A SMU 4, B2200A/B2201A 1 BVdss B1500A,4155B/C,4156B/C SMU 4 BVgso B1500A,4155B/C,4156B/C SMU 3 Cgb-AC Level B1500A MFCMU 1, SMU 1 Cgb-Freq Log B1500A MFCMU 1, SMU 1 Cgb-Vg HighVoltage B1500A MFCMU 1, SMU 3, SCUU 1
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Application Library Application Test Definitions Category CMOS Discrete GenericTest MCSMU_IV Memory Test definition name Supported analyzer Required equipment and quantity VthAndCgg-Vg SCUU B1500A MFCMU 1, SMU 3, SCUU 1, GSWU 1 Vth-Lg B1500A SMU 4, B2200A/B2201A 1 Vth-Wg B1500A SMU 4, B2200A/B2201A 1 BJT GummelPlot B1500A,4155B/C,4156B/C SMU 3 BJT Ic-Vc Ib B1500A,4155B/C,4156B/C SMU 3 Diode IV Fwd B1500A,4155B/C,4156B/C SMU 2 Diode IV Rev B1500A,4155B/C,4156B/C SMU 2 FET Id-Vd
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Application Library Application Test Definitions Category Memory MixedSignal Test definition name Supported analyzer Required equipment and quantity NandFlash3 IV-Erase-IV B1500A [SPGU 1, SMU 1, ASU+SMU 2] or [SPGU 1, SMU 3, 16440A/16445A 1] NandFlash3 IV-Write-IV B1500A [SPGU 1, SMU 2, ASU+SMU 1] or [SPGU 1, SMU 3, 16440A/16445A 1] NandFlash3 Retention(ErasedCell) B1500A [SPGU 1, SMU 1, ASU+SMU 2] or [SPGU 1, SMU 3, 16440A/16445A 1] NandFlash3 Retention(WrittenCell) B1500A [SPGU 1, SMU 2,
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Application Library Application Test Definitions Category MixedSignal NanoTech Organic PwrDevice Test definition name Diode IV Fwd Mismatch Supported analyzer B1500A Required equipment and quantity SMU 3 Diode IV Rev Mismatch B1500A SMU 3 G-Plot ConstVce Mismatch B1500A SMU 6 G-Plot ConstVce Mismatch[3] B1500A SMU 5 G-Plot Vbc=0V Mismatch B1500A SMU 6 G-Plot Vbc=0V Mismatch[3] B1500A SMU 5 Ic-Vc Ib Mismatch B1500A SMU 6 Ic-Vc Ib Mismatch[3] B1500A SMU 5 Ic-Vc Vb Mismatch B1500A
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Application Library Application Test Definitions Category PwrDevice Reliability Test definition name Vth gmMax[3] PwrDevice Supported analyzer B1500A Required equipment and quantity SMU 3 BJT EB RevStress 3devices B1500A SMU 6, B2200A/B2201A 1 BJT EB RevStress 3devices[3] B1500A SMU 5, B2200A/B2201A 1 BJT EB RevStress B1500A SMU 4 BJT EB RevStress2 B1500A SMU 4 BJT EB RevStress[3] B1500A SMU 3 BJT EB RevStress2[3] B1500A SMU 3 BTI 3devices B1500A SMU 5, B2200A/B2201A 1 BTI 3devices
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Application Library Application Test Definitions Category Reliability Sample Solar Cell SPGU_ PLSDIV Structure Test definition name TDDB Vstress 3devices Supported analyzer B1500A Required equipment and quantity SMU 4 TDDB Vstress2 3devices B1500A SMU 4 TDDB Vstress B1500A SMU 2 TDDB Vstress2 B1500A SMU 2 Timing On-the-fly NBTI B1500A SMU 4 Timing On-the-fly NBTI -Mch B1500A SMU 4 or SMU 7 TZDB B1500A SMU 2 V-Ramp B1500A SMU 2 Vth gmMax and Id B1500A,4155B/C,4156B/C SMU 4 Sol
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Application Library Application Test Definitions Category Structure TFT Utility Test definition name Supported analyzer Required equipment and quantity Junction DcParam B1500A,4155B/C,4156B/C SMU 2 Junction IV Fwd B1500A,4155B/C,4156B/C SMU 2 Junction IV Rev B1500A,4155B/C,4156B/C SMU 2 QSCV[2] B1500A,B1505A,4155B/C, 4156B/C SMU 3 QSCV C Offset Meas Rdiff-I kelvin B1500A SMU 5 Rdiff-I B1500A,4155B/C,4156B/C SMU 3 Rdiff-V kelvin B1500A SMU 5 Rdiff-V B1500A,4155B/C,4156B/C SMU 3
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Application Library Application Test Definitions Category Test definition name WGFMU (needs test definitions of WGFMU Utility) Fast BTI(ACstress Id-Sampling) WGFMU Utility (cannot be executed directly) WGFMU_IV GaN Diode GaN FET IGBT Supported analyzer Required equipment and quantity B1500A WGFMU 1, RSU 2 Fast BTI(DCstress Id-Sampling) B1500A WGFMU 1, RSU 2 Fast BTI(ACstress Id-Vg) B1500A WGFMU 1, RSU 2 Fast BTI(DCstress Id-Vg) B1500A WGFMU 1, RSU 2 TRANSIV DC IdVd B1500A SMU 2, WGF
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Application Library Application Test Definitions Category IGBT Interconnection MISCAP PowerBJT PowerDiode Power MOSFET See Note 1 See Note 2 Test definition name Ic(off)-Vce Supported analyzer B1505A Required equipment and quantity SMU 2 Ic-Vce B1505A [HCSMU 1 and SMU 1] or SMU 2 Ic-Vge B1505A [HCSMU 1 and SMU 1] or SMU 2 Vce(sat) B1505A [HCSMU 1 and SMU 1] or SMU 2 Vth Vge(off) B1505A [HCSMU 1 and SMU 1] or SMU 2 Vce-Vge B1505A HCSMU 1, SMU 1 Ic-Vge for Expanders B1505A N1265A 1,
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Application Library QSCV Maximum Measurement Value and Accuracy QSCV Maximum Measurement Value and Accuracy This section describes the maximum measurement value and accuracy for the result data measured by using the QSCV[2] application test. These values do not guarantee the measurement performance. They are just the supplemental information. NOTE • “Maximum Measurement Value” • “Measurement Accuracy” To obtain stable measurement results, use two source monitor units (SMU).
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Application Library QSCV Maximum Measurement Value and Accuracy Figure 8-1 Maximum Measurement Value Using 10 pA and 100 pA Range: HRSMU, ASU+SMU 1.00E-06 1.00E-07 Integration Time 2s Capacitance (F) 1.00E-08 1.00E-09 1.00E-10 1s 1.00E-11 500ms 1.00E-12 300ms 1.00E-13 1.00E-14 1.00E-15 0.001 0.01 0.1 1 QSCV Measurement Voltage (V) Maximum Measurement Value Using 1 nA Range: HPSMU, MPSMU, HRSMU, ASU+SMU 1.00E-05 Integration Time 2s 1.00E-06 Capacitance (F) Figure 8-2 1.00E-07 1s 1.
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Application Library QSCV Maximum Measurement Value and Accuracy Figure 8-3 Maximum Measurement Value Using 10 nA Range: HPSMU, MPSMU, HRSMU, ASU+SMU 1.00E-04 Integration Time 2s Capacitance (F) 1.00E-05 1.00E-06 1s 1.00E-07 500ms 300ms 1.00E-08 100ms 1.00E-09 50ms 30ms 1.00E-10 1.00E-11 0.001 0.01 0.1 1 QSCV Measurement Voltage (V) Maximum Measurement Value Using 100 nA Range: HPSMU, MPSMU, HRSMU, ASU+SMU 1.00E-03 Integration Time 2s 1.00E-04 Capacitance (F) Figure 8-4 1.00E-05 1s 1.
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Application Library QSCV Maximum Measurement Value and Accuracy Maximum Measurement Value Using 1 A Range: HPSMU, MPSMU, HRSMU, ASU+SMU 1.00E-02 Integration Time 2s 1.00E-03 Capacitance (F) Figure 8-5 1.00E-04 1s 1.00E-05 500ms 300ms 1.00E-06 100ms 1.00E-07 50ms 30ms 1.00E-08 1.00E-09 0.001 0.01 0.1 1 QSCV Measurement Voltage (V) 8-18 Agilent EasyEXPERT User’s Guide Vol.
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Application Library QSCV Maximum Measurement Value and Accuracy Measurement Accuracy NOTE The measurement accuracy is not the specifications but the supplemental data. Applicable conditions for supplemental data: Leak current compensation function ON, Offset cancel function ON, QSO mode OFF The measurement accuracy can be calculated by the following formula: Measurement accuracy = A (%) + B (F) A: Reading accuracy. % accuracy of the measured value. B: Offset accuracy.
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Application Library QSCV Maximum Measurement Value and Accuracy Table 8-2 Measurement Range Constant Value for Calculating the Measurement Accuracy: HRSMU, ASU+SMU Voltage Output Range Constant 0.5 V 10 pA 2V 5V 40 V 100 V Ap 0.47 0.47 0.47 0.47 0.48 0.48 Bp 0.014 0.029 0.051 0.15 0.30 0.72 Normal 0.009 0.011 0.015 0.03 0.06 0.13 4155C/4156C compatible Cp 0.013 Dp 0.001 Ao 0.04 Normal 0.07 4155C/4156C compatible Bo 1.3E-16 Boc 1.1E-05 Co 5.4E-15 Coc 2.
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Application Library QSCV Maximum Measurement Value and Accuracy Table 8-3 Measurement Range Constant Value for Calculating the Measurement Accuracy: MPSMU, HRSMU, ASU+SMU Voltage Output Range Constant 0.5 V 1 nA 2V 40 V 100 V 200 V Ap 0.11 0.11 0.11 0.11 0.12 0.12 Bp 0.014 0.029 0.051 0.153 0.298 0.720 Normal 0.009 0.011 0.015 0.033 0.056 0.131 4155C/4156C compatible Cp 0.026 Dp 0.014 Ao 0.03 Normal 0.04 4155C/4156C compatible Bo 1.7E-15 Boc 1.3E-04 Co 5.
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Application Library QSCV Maximum Measurement Value and Accuracy Measurement Range Voltage Output Range Constant 0.5 V 100 nA 2V 40 V 100 V 200 V Ap 0.06 0.06 0.06 0.06 0.07 0.07 Bp 0.014 0.029 0.051 0.153 0.298 0.720 Normal 0.009 0.011 0.015 0.033 0.056 0.131 4155C/4156C compatible Cp 0.209 Dp 0.023 Ao 0.03 Normal 0.04 4155C/4156C compatible Bo 2.4E-15 Boc 2.0E-04 Co 8.7E-12 Coc 4.6.0E-04 Do 2.4E-15 Doc 1 A 20 V QSCV Operating Mode 2.0E-04 Ap 0.06 0.
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Application Library QSCV Maximum Measurement Value and Accuracy Table 8-4 Measurement Range Constant Value for Calculating the Measurement Accuracy: HPSMU Voltage Output Range Constant 2V 1 nA 20 V 100 V 200 V Ap 0.11 0.11 0.12 0.12 0.14 Bp 0.033 0.149 0.293 0.717 1.459 Normal 0.0100 0.03 0.05 0.12 0.2347 4155C/4156C compatible Cp 0.026 Dp 0.014 Ao 0.03 Normal 0.04 4155C/4156C compatible Bo 1.7E-15 Boc 1.3.0E-04 Co 5.9E-14 Coc 4.5.0E-04 Do 1.
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Application Library QSCV Maximum Measurement Value and Accuracy Measurement Range Voltage Output Range Constant 2V 100 nA 20 V 100 V 200 V Ap 0.06 0.06 0.07 0.07 0.09 Bp 0.033 0.149 0.293 0.717 1.459 Normal 0.0100 0.03 0.05 0.12 0.2347 4155C/4156C compatible Cp 0.209 Dp 0.023 Ao 0.01 Normal 0.04 4155C/4156C compatible Bo 2.4E-15 Boc 2.0E-04 Co 8.7E-12 Coc 4.6.0E-04 Do 2.4E-15 Doc 1 A 40 V QSCV Operating Mode 2.0E-04 Ap 0.06 0.06 0.07 0.07 0.09 Bp 0.
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Application Library QSCV Maximum Measurement Value and Accuracy Table 8-5 Conditions for Calculating Measurement Accuracy Conditions Measurement range 10 pA 100 pA 1 nA 10 nA 100 nA 1 A 10 pA 100 pA 1 nA 10 nA 100 nA 1 A QSCV operating mode Normal Normal Normal Normal Normal Normal Normal Normal Normal Normal Normal Normal Normal Normal Normal Normal Normal Normal Normal 4155C/4156C compatible Output range 20 V 20 V 20 V 20 V 20 V 20 V 20 V 20 V 20 V 20 V 20 V 20 V 20 V 20 V 20 V 20 V 20 V 20 V
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Application Library QSCV Maximum Measurement Value and Accuracy Calculation Example of Measurement Accuracy: HRSMU, ASU+SMU 14 Reading Accuracy (%) 12 10 8 6 4 2 0 0.001 0.01 0.1 1 10 QSCV Measurement Voltage (V) 1.E-10 1.E-11 Offset Accuracy (F) Figure 8-6 1.E-12 1.E-13 1.E-14 0.001 0.01 0.1 1 10 QSCV Measurement Voltage (V) Conditions: QSCV Operating Mode: Normal Measurement Range: 10 pA Output Range: 20 V Integration Time: 2, 1, 0.5, 0.
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Application Library QSCV Maximum Measurement Value and Accuracy Calculation Example of Measurement Accuracy: HRSMU, ASU+SMU 14 Reading Accuracy (%) 12 10 8 6 4 2 0 0.001 0.01 0.1 1 10 QSCV Measurement Voltage (V) 1.E-10 1.E-11 Offset Accuracy (F) Figure 8-7 1.E-12 1.E-13 1.E-14 0.001 0.01 0.1 1 10 QSCV Measurement Voltage (V) Conditions: QSCV Operating Mode: Normal Measurement Range: 100 pA Output Range: 20 V Integration Time: 2, 1, 0.5, 0.
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Application Library QSCV Maximum Measurement Value and Accuracy Calculation Example of Measurement Accuracy: HRSMU, ASU+SMU 14 Reading Accuracy (%) 12 10 8 6 4 2 0 0.001 0.01 0.1 1 10 QSCV Measurement Voltage (V) 1.E-10 1.E-11 Offset Accuracy (F) Figure 8-8 1.E-12 1.E-13 1.E-14 0.001 0.01 0.1 1 10 QSCV Measurement Voltage (V) Conditions: QSCV Operating Mode: Normal Measurement Range: 100 pA Output Range: 20 V Integration Time: 2, 1, 0.5, 0.
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Application Library QSCV Maximum Measurement Value and Accuracy Calculation Example of Measurement Accuracy: HRSMU, ASU+SMU 14 Reading Accuracy (%) 12 10 8 6 4 2 0 0.001 0.01 0.1 1 10 QSCV Measurement Voltage (V) 1.E-10 1.E-11 Offset Accuracy (F) Figure 8-9 1.E-12 1.E-13 1.E-14 0.001 0.01 0.1 1 10 QSCV Measurement Voltage (V) Conditions: QSCV Operating Mode: Normal Measurement Range: 100 pA Output Range: 20 V Integration Time: 2, 1, 0.5, 0.
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Application Library QSCV Maximum Measurement Value and Accuracy Calculation Example of Measurement Accuracy: MP/HRSMU, ASU+SMU 14 Reading Accuracy (%) 12 10 8 6 4 2 0 0.001 0.01 0.1 1 10 QSCV Measurement Voltage (V) 1.E-10 1.E-11 Offset Accuracy (F) Figure 8-10 1.E-12 1.E-13 1.E-14 0.001 0.01 0.1 1 10 QSCV Measurement Voltage (V) Conditions: QSCV Operating Mode: Normal Measurement Range: 1 nA Output Range: 20 V Integration Time: 2, 1, 0.5, 0.
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Application Library QSCV Maximum Measurement Value and Accuracy Calculation Example of Measurement Accuracy: MP/HRSMU, ASU+SMU 14 Reading Accuracy (%) 12 10 8 6 4 2 0 0.001 0.01 0.1 1 10 QSCV Measurement Voltage (V) 1.E-10 1.E-11 Offset Accuracy (F) Figure 8-11 1.E-12 1.E-13 1.E-14 0.001 0.01 0.1 1 10 QSCV Measurement Voltage (V) Conditions: QSCV Operating Mode: Normal Measurement Range: 1 nA Output Range: 20 V Integration Time: 2, 1, 0.5, 0.
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Application Library QSCV Maximum Measurement Value and Accuracy Calculation Example of Measurement Accuracy: MP/HRSMU, ASU+SMU 14 Reading Accuracy (%) 12 10 8 6 4 2 0 0.001 0.01 0.1 1 10 QSCV Measurement Voltage (V) 1.E-10 1.E-11 Offset Accuracy (F) Figure 8-12 1.E-12 1.E-13 1.E-14 0.001 0.01 0.1 1 10 QSCV Measurement Voltage (V) Conditions: QSCV Operating Mode: Normal Measurement Range: 1 nA Output Range: 20 V Integration Time: 2, 1, 0.5, 0.
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Application Library QSCV Maximum Measurement Value and Accuracy Calculation Example of Measurement Accuracy: MP/HRSMU, ASU+SMU 14 Reading Accuracy (%) 12 10 8 6 4 2 0 0.001 0.01 0.1 1 10 QSCV Measurement Voltage (V) 1.E-10 1.E-11 Offset Accuracy (F) Figure 8-13 1.E-12 1.E-13 1.E-14 0.001 0.01 0.1 1 10 QSCV Measurement Voltage (V) Conditions: QSCV Operating Mode: Normal Measurement Range: 1 nA Output Range: 20 V Integration Time: 2, 1, 0.5, 0.
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Application Library QSCV Maximum Measurement Value and Accuracy Calculation Example of Measurement Accuracy: MP/HRSMU, ASU+SMU 14 Reading Accuracy (%) 12 10 8 6 4 2 0 0.001 0.01 0.1 1 10 QSCV Measurement Voltage (V) 1.E-10 1.E-11 Offset Accuracy (F) Figure 8-14 1.E-12 1.E-13 1.E-14 0.001 0.01 0.1 1 10 QSCV Measurement Voltage (V) Conditions: QSCV Operating Mode: Normal Measurement Range: 10 nA Output Range: 20 V Integration Time: 2, 1, 0.5, 0.
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Application Library QSCV Maximum Measurement Value and Accuracy Calculation Example of Measurement Accuracy: MP/HRSMU, ASU+SMU 14 Reading Accuracy (%) 12 10 8 6 4 2 0 0.001 0.01 0.1 1 10 QSCV Measurement Voltage (V) 1.E-10 1.E-11 Offset Accuracy (F) Figure 8-15 1.E-12 1.E-13 1.E-14 0.001 0.01 0.1 1 10 QSCV Measurement Voltage (V) Conditions: QSCV Operating Mode: Normal Measurement Range: 10 nA Output Range: 20 V Integration Time: 2, 1, 0.5, 0.
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Application Library QSCV Maximum Measurement Value and Accuracy Calculation Example of Measurement Accuracy: MP/HRSMU, ASU+SMU 14 Reading Accuracy (%) 12 10 8 6 4 2 0 0.001 0.01 0.1 1 10 1 10 QSCV Measurement Voltage (V) 1.E-10 1.E-11 Offset Accuracy (F) Figure 8-16 1.E-12 1.E-13 1.E-14 0.001 0.01 0.1 QSCV Measurement Voltage (V) Conditions: QSCV Operating Mode: Normal Measurement Range: 10 nA Output Range: 20 V Integration Time: 2, 1, 0.5, 0.
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Application Library QSCV Maximum Measurement Value and Accuracy Calculation Example of Measurement Accuracy: MP/HRSMU, ASU+SMU 14 Reading Accuracy (%) 12 10 8 6 4 2 0 0.001 0.01 0.1 1 10 QSCV Measurement Voltage (V) 1.E-06 1.E-07 Offset Accuracy (F) Figure 8-17 1.E-08 1.E-09 1.E-10 1.E-11 1.E-12 0.001 0.01 0.1 1 10 QSCV Measurement Voltage (V) Conditions: QSCV Operating Mode: Normal Measurement Range: 100 nA Output Range: 20 V Integration Time: 2, 1, 0.5, 0.
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Application Library QSCV Maximum Measurement Value and Accuracy Calculation Example of Measurement Accuracy: MP/HRSMU, ASU+SMU 14 Reading Accuracy (%) 12 10 8 6 4 2 0 0.001 0.01 0.1 1 10 QSCV Measurement Voltage (V) 1.E-06 1.E-07 Offset Accuracy (F) Figure 8-18 1.E-08 1.E-09 1.E-10 1.E-11 1.E-12 0.001 0.01 0.1 1 10 QSCV Measurement Voltage (V) Conditions: QSCV Operating Mode: Normal Measurement Range: 100 nA Output Range: 20 V Integration Time: 2, 1, 0.5, 0.
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Application Library QSCV Maximum Measurement Value and Accuracy Calculation Example of Measurement Accuracy: MP/HRSMU, ASU+SMU 14 Reading Accuracy (%) 12 10 8 6 4 2 0 0.001 0.01 0.1 1 10 QSCV Measurement Voltage (V) 1.E-06 1.E-07 Offset Accuracy (F) Figure 8-19 1.E-08 1.E-09 1.E-10 1.E-11 1.E-12 0.001 0.01 0.1 1 10 QSCV Measurement Voltage (V) Conditions: QSCV Operating Mode: Normal Measurement Range: 100 nA Output Range: 20 V Integration Time: 2, 1, 0.5, 0.
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Application Library QSCV Maximum Measurement Value and Accuracy Calculation Example of Measurement Accuracy: MP/HRSMU, ASU+SMU 14 Reading Accuracy (%) 12 10 8 6 4 2 0 0.001 0.01 0.1 1 10 QSCV Measurement Voltage (V) 1.E-06 1.E-07 Offset Accuracy (F) Figure 8-20 1.E-08 1.E-09 1.E-10 1.E-11 1.E-12 0.001 0.01 0.1 1 10 QSCV Measurement Voltage (V) Conditions: QSCV Operating Mode: Normal Measurement Range: 100 nA Output Range: 20 V Integration Time: 2, 1, 0.5, 0.
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Application Library QSCV Maximum Measurement Value and Accuracy Calculation Example of Measurement Accuracy: MP/HRSMU, ASU+SMU 14 Reading Accuracy (%) 12 10 8 6 4 2 0 0.001 0.01 0.1 1 10 QSCV Measurement Voltage (V) 1.E-10 1.E-11 Offset Accuracy (F) Figure 8-21 1.E-12 1.E-13 1.E-14 0.001 0.01 0.1 1 10 QSCV M-easurement Voltage (V) Conditions: QSCV Operating Mode: Normal Measurement Range: 1 A Output Range: 20 V Integration Time: 2, 1, 0.5, 0.
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Application Library QSCV Maximum Measurement Value and Accuracy Calculation Example of Measurement Accuracy: MP/HRSMU, ASU+SMU 14 Reading Accuracy (%) 12 10 8 6 4 2 0 0.001 0.01 0.1 1 10 QSCV Measurement Voltage (V)- 1.E-09 1.E-10 Offset Accuracy (F) Figure 8-22 1.E-11 1.E-12 1.E-13 1.E-14 0.001 0.01 0.1 1 10 QSCV Measurement Voltage (V) Conditions: QSCV Operating Mode: Normal Measurement Range: 1 A Output Range: 20 V Integration Time: 2, 1, 0.5, 0.
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Application Library QSCV Maximum Measurement Value and Accuracy Calculation Example of Measurement Accuracy: MP/HRSMU, ASU+SMU 14 Reading Accuracy (%) 12 10 8 6 4 2 0 0.001 0.01 0.1 1 10 QSCV Measurement Voltage (V) 1.E-09 1.E-10 Offset Accuracy (F) Figure 8-23 1.E-11 1.E-12 1.E-13 1.E-14 0.001 0.01 0.1 1 10 QSCV Measurement Voltage (V) Conditions: QSCV Operating Mode: Normal Measurement Range: 1 A Output Range: 20 V Integration Time: 2, 1, 0.5, 0.
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Application Library QSCV Maximum Measurement Value and Accuracy Calculation Example of Measurement Accuracy: MP/HRSMU, ASU+SMU 14 Reading Accuracy (%) 12 10 8 6 4 2 0 0.001 0.01 0.1 1 10 QSCV Measurement Voltage (V) 1.E-08 1.E-09 Offset Accuracy (F) Figure 8-24 1.E-10 1.E-11 1.E-12 1.E-13 1.E-14 0.001 0.01 0.1 1 10 QSCV Measurement Voltage (V) Conditions: QSCV Operating Mode: Normal Measurement Range: 1 A Output Range: 20 V Integration Time: 2, 1, 0.5, 0.
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Application Library QSCV Maximum Measurement Value and Accuracy Calculation Example of Measurement Accuracy: HRSMU, ASU+SMU 14 Reading Accuracy (%) 12 10 8 6 4 2 0 0.001 0.01 0.1 1 10 QSCV Measurement Voltage (V) 1.E-10 1.E-11 Offset Accuracy (F) Figure 8-25 1.E-12 1.E-13 1.E-14 0.001 0.01 0.1 1 10 QSCV Measurement Voltage (V) Conditions: QSCV Operating Mode: 4155C/4156C compatible Measurement Range: 10 pA Output Range: 20 V Integration Time: 2, 1, 0.5, 0.
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Application Library QSCV Maximum Measurement Value and Accuracy Calculation Example of Measurement Accuracy: HRSMU, ASU+SMU 14 Reading Accuracy (%) 12 10 8 6 4 2 0 0.001 0.01 0.1 1 10 QSCV Measurement Voltage (V) 1.E-10 1.E-11 Offset Accuracy (F) Figure 8-26 1.E-12 1.E-13 1.E-14 0.001 0.01 0.1 1 10 QSCV Measurement Voltage (V) Conditions: QSCV Operating Mode: 4155C/4156C compatible Measurement Range: 100 pA Output Range: 20 V Integration Time: 2, 1, 0.5, 0.
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Application Library QSCV Maximum Measurement Value and Accuracy Calculation Example of Measurement Accuracy: MP/HRSMU, ASU+SMU 14 Reading Accuracy (%) 12 10 8 6 4 2 0 0.001 0.01 0.1 1 10 QSCV Measurement Voltage (V) 1.E-10 1.E-11 Offset Accuracy (F) Figure 8-27 1.E-12 1.E-13 1.E-14 0.001 0.01 0.1 1 10 QSCV Measurement Voltage (V) Conditions: QSCV Operating Mode: 4155C/4156C compatible Measurement Range: 1 nA Output Range: 20 V Integration Time: 2, 1, 0.5, 0.
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Application Library QSCV Maximum Measurement Value and Accuracy Calculation Example of Measurement Accuracy: MP/HRSMU, ASU+SMU 14 Reading Accuracy (%) 12 10 8 6 4 2 0 0.001 0.01 0.1 1 10 QSCV Measurement Voltage (V) 1.E-10 1.E-11 Offset Accuracy (F) Figure 8-28 1.E-12 1.E-13 1.E-14 0.001 0.01 0.1 1 10 QSCV Measurement Voltage (V) Conditions: QSCV Operating Mode: 4155C/4156C compatible Measurement Range: 10 nA Output Range: 20 V Integration Time: 2, 1, 0.5, 0.
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Application Library QSCV Maximum Measurement Value and Accuracy Calculation Example of Measurement Accuracy: MP/HRSMU, ASU+SMU 14 Reading Accuracy (%) 12 10 8 6 4 2 0 0.001 0.01 0.1 1 10 QSCV Measurement Voltage (V) 1.E-06 1.E-07 Offset Accuracy (F) Figure 8-29 1.E-08 1.E-09 1.E-10 1.E-11 1.E-12 0.001 0.01 0.1 1 10 QSCV Measurement Voltage (V) Conditions: QSCV Operating Mode: 4155C/4156C compatible Measurement Range: 100 nA Output Range: 20 V Integration Time: 2, 1, 0.5, 0.
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Application Library QSCV Maximum Measurement Value and Accuracy Calculation Example of Measurement Accuracy: MP/HRSMU, ASU+SMU 14 Reading Accuracy (%) 12 10 8 6 4 2 0 0.001 0.01 0.1 1 10 QSCV Measurement Voltage (V) 1.E-10 1.E-11 Offset Accuracy (F) Figure 8-30 1.E-12 1.E-13 1.E-14 0.001 0.01 0.1 1 10 QSCV Measurement Voltage (V) Conditions: QSCV Operating Mode: 4155C/4156C compatible Measurement Range: 1 A Output Range: 20 V Integration Time: 2, 1, 0.5, 0.
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9 If You Have a Problem
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If You Have a Problem This chapter explains how to solve problems if you encounter some problems. This chapter consists of the following sections. • “When You Operate B1500” • “When You Perform Measurement” • “Before Shipping to Service Center” • “Data Backup and Recovery” • “B1500 System Recovery” • “Updating EasyEXPERT” If error occurs, find solutions in the following sections and solve problems. However, if problems still remain, perform self-test. Also see Chapter 10, “Error Message.
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If You Have a Problem When You Operate B1500 When You Operate B1500 This section covers the following basic problems that you may encounter when you install or operate the B1500, and the solutions. • “Power On Trouble” • “SCUU is not Detected” • “ASU is not Detected” • “N1265A/N1266A/N1268A is not Detected” • “External GPIB Devices are not Detected” • “To Simplify the Connections” To set up the Windows, see Agilent B1500A or B1505A User’s Guide.
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If You Have a Problem When You Operate B1500 ASU is not Detected If Agilent B1500A/EasyEXPERT cannot detect ASU (atto sense/switch unit), turn the B1500A off, check the cable connection, and reboot the B1500A/EasyEXPERT. For the installation and connection of ASU, see Agilent B1500A User’s Guide. NOTE Connect ASU to dedicated SMU The specifications are satisfied and guaranteed for the exclusive combination of the ASU and the SMU.
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If You Have a Problem When You Operate B1500 If the problem still remains, perform Agilent B1500 system recovery. To perform recovery, see “B1500 System Recovery” on page 9-18. To Simplify the Connections If you want to simplify the measurement connections, use the triaxial cables instead of the kelvin triaxial cables, and connect the triaxial cables between the Force terminals and the test fixture or the connector plate. Then the Sense terminals must be opened.
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If You Have a Problem When You Perform Measurement When You Perform Measurement This section covers the following basic problems that you may encounter when you making a measurement, and the solutions.
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If You Have a Problem When You Perform Measurement Noise Affects the Measured Values When you measure low current of a DUT, the measured values may not be stable. To solve this problem: • Set the power line frequency correctly. The value affects the integration time. So the wrong value causes the measurement error by the power line noise. You can set the power line frequency by using the Configuration window of the EasyEXPERT.
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If You Have a Problem When You Perform Measurement Voltage Measurement Error is Large Voltage measurement error may be large because of the effects of the cable resistance when forcing a large current. To solve this problem: • Use kelvin connections between SMUs and DUT. To cancel the effects of cable resistance, connect the sense line as close as possible to the terminal of the DUT.
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If You Have a Problem When You Perform Measurement SMU Oscillates for Negative Resistance Measurements If the DUT has negative resistance characteristics, SMUs may oscillate. Because the positive feedback may be configured by the DUT and the SMUs. To solve this problem: • For voltage controlled negative resistance device • Connect G in parallel with your DUT to cancel negative resistance. To obtain an output I-V curve, use the following equation.
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If You Have a Problem When You Perform Measurement Large Current Causes High Temperature (Thermal Drift) If a large current is forced to a DUT, the temperature of the DUT may increase, which may cause characteristics to drift. To solve this problem: • Use the pulse output mode of the SMU. For large currents, the SMU should be set to pulse output mode. This decreases the average power output to prevent temperature rise of DUT.
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If You Have a Problem When You Perform Measurement Unexpected Sampling Measurement Data is Returned If sampling interval is set to a short time and if FILTER ON is set, you may get unwanted data. FILTER ON causes a slower rise time, so short initial interval will sample during this rise time. To solve this problem: • Set FILTER field to OFF if you set initial interval to a short time. Some data may be skipped because measurement takes a long time.
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If You Have a Problem Before Shipping to Service Center Before Shipping to Service Center Before shipping Agilent B1500 to the Service Center, you have to do following: • “To Make Backup” • “To Check Module Slots” • “To Check ASU/SMU Combination” • “To Collect Equipment and Accessories” To Make Backup If the internal hard disk drive (HDD) is failed, you will lose all data stored in the HDD. So it is important to make backup constantly.
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If You Have a Problem Before Shipping to Service Center To Collect Equipment and Accessories All equipment and accessories used with the B1500A/B1505A are required for servicing and must be shipped to the Service Center. For details, contact the Service Center.
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If You Have a Problem Data Backup and Recovery Data Backup and Recovery Unexpected trouble of HDD (hard disk drive), operation mistake, or malfunction may cause elimination of valuable data. To avoid this kind of risk, make backup of data in the HDD as frequently as possible.
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If You Have a Problem Data Backup and Recovery Folders to Backup Backup should be made for the following data areas.
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If You Have a Problem Data Backup and Recovery To Restore Database Backup EasyEXPERT database can be restored by the following procedure. 1. Make a copy of the database backup file (xdb file) into the D drive. 2. Launch Start EasyEXPERT. 3. Click Option > EasyEXPERT Database > Restore EasyEXPERT Database in the Start EasyEXPERT window. 4. Follow the EasyEXPERT Database Restoration wizard, and restore the backup of EasyEXPERT database.
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If You Have a Problem Data Backup and Recovery To Make Backup of Other Data Backup of the data other than the EasyEXPERT database can be made by the following procedure. 1. Connect an external storage device, USB memory, HDD with USB interface and such, to the B1500. 2. Make a copy of the folder into the external storage device. Example: XCOPY Folder_user_1 F:\Backup_user_1 To Restore Backup of Other Data Data other than the EasyEXPERT database can be restored by the following procedure. 1.
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If You Have a Problem B1500 System Recovery B1500 System Recovery If you find problems in the B1500 system, perform the system recovery. • “Preparation” • “To Perform System Recovery” • “To Initialize Database” • “To Restore Database” Preparation 1. Note the computer name of your B1500. This is required to set the same computer name again after System Recovery is completed. You can find it on System Properties displayed by Control Panel > System. 2. Note all user account if you added the accounts.
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If You Have a Problem B1500 System Recovery 6. On the boot system selection menu, select Agilent Recovery System, and press Enter key. To select the system, use arrow keys. The Command Prompt window is opened. See Figure 9-1. Where, 2 is not valid now. 3 should be entered for rebooting the B1500 without performing system recovery. 7. For the message “Enter a Choice:”, enter 1 and press the Enter key. Message will be displayed for asking if you allow to overwrite the C drive. 8.
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If You Have a Problem B1500 System Recovery 9. Set the computer mame and add the user accounts to the B1500 again. They must be the value noted at the step of “Preparation” on page 9-18. 10. Perform “To Initialize Database” on page 9-20. 11. Update EasyEXPERT to the latest revision. See “Updating EasyEXPERT” on page 9-22. 12. Perform “To Restore Database” on page 9-21. To Initialize Database EasyEXPERT database can be initialized by the following procedure.
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If You Have a Problem B1500 System Recovery To Restore Database EasyEXPERT database can be restored by the following procedure. In the example shown in “To Initialize Database” on page 9-20, the EasyEXPERT database backup is the whole D:\Agilent\EasyEXPERT\1-backup folder. The database can be restored by using the data in this folder. • For EasyEXPERT revision A.02.10 and earlier The database reconfiguration tool is required. Obtain it from Agilent Technologies web site.
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If You Have a Problem Updating EasyEXPERT Updating EasyEXPERT NOTE The latest version of the EasyEXPERT update package can be obtained from Agilent Technologies web site. NOTE The EasyEXPERT revision A.03.20 or later does not require the administrator privilege which is required by the revision A.03.11 and previous revisions. However, if the software is updated from a previous revision to the revision A.03.20 or later, it still requires the administrator privilege.
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If You Have a Problem Updating EasyEXPERT 3. Restore the backup made by “Procedure” step 2. See “To Restore Database Backup” on page 9-16. 4. Perform “Procedure” step 3 to 5. Agilent EasyEXPERT User’s Guide Vol.
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If You Have a Problem Updating EasyEXPERT 9-24 Agilent EasyEXPERT User’s Guide Vol.
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10 Error Message
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Error Message This chapter lists the Agilent B1500 error code. NOTE • “Agilent EasyEXPERT Operation Error” • “Agilent FLEX Execution Error” • “Agilent B1500 Self-test/Calibration Error” • “Setup File Converter Execution Error” • “MDM File Converter Execution Error” This manual uses the following conventions.
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Error Message Agilent EasyEXPERT Operation Error Agilent EasyEXPERT Operation Error When Agilent B1500 causes errors in Agilent EasyEXPERT execution environment, the B1500 returns the following error codes and error messages. 101001 Log repository operation failed. 101002 Log file operation failed. 101003 Log record operation failed. 102001 Service started successfully. 102002 Service stopped successfully. 102003 Service starting process failed. Contact your nearest Agilent Technologies.
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Error Message Agilent EasyEXPERT Operation Error 105006 Source wait time coefficient must be between A and B. 105008 Monitor wait time coefficient must be between A and B. 105010 Series resistor is not available for HPSMU using the 1 A range. 105011 I/V Staircase Sweep needs at least one monitoring channel. 105012 I/V Pulsed Sweep needs exactly one monitoring channel. 105013 I/V Sweep with pulsed bias needs exactly one monitoring channel.
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Error Message Agilent EasyEXPERT Operation Error 105033 The polarity of peak value(s) and the base value of SMU current pulse must be the same. 105034 The start value and stop value of SMU log sweep must be non-zero and have same polarity for primary sweep source (and synchronous sweep source). 105035 Invalid value (A) was specified for SMU I/V Sweep stop condition. Valid option(s): B A is not available for the setting of the sweep abort condition. Select one from the available choices B.
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Error Message Agilent EasyEXPERT Operation Error 105052 Invalid value (A) was specified for the sweep stop condition. Valid option(s): B 105053 Invalid value (A) was specified for the impedance measurement model. Valid option(s): B 105054 Hold time value must be between A s and B s. 105055 Delay time value must be between A s and B s. 105056 Voltage source value of A must be between B V and C V. 105057 Frequency value of A must be between B Hz and C Hz.
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Error Message Agilent EasyEXPERT Operation Error 105077 Invalid value A specified for I/V-t sampling output sequence. Valid option(s): B 105078 Sampling interval for I/V-t A sampling must be between B s and C s. 105079 Hold time for I/V-t A sampling must be between B s and C s. 105080 Hold time for I/V-t A sampling with interval of B s or longer must be between C s and D s. 105081 Hold time for I/V-t A sampling with interval shorter than B s must be between C s and D s.
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Error Message Agilent EasyEXPERT Operation Error 105821 Invalid value A was specified for Type of SPGU Pulse Setup. Valid option(s): B, VName: C 105822 Invalid value A was specified for SW Sync of Pulse Switch Setup. Valid option(s): B, VName: C 105823 Invalid value A was specified for Normal of Pulse Switch Setup. Valid option(s): B, VName: C 105824 Width value of Pulse Switch Setup must be between A s and B s. VName: C 105825 Width for pulse switch must be between A s and B s.
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Error Message Agilent EasyEXPERT Operation Error 105843 SPGU cannot be used for bias source of I/V-t linear sampling measurement of interval < 2 ms. 105844 |Peak-Base| value of PGU pulse must be between A V and B V. VName: C 105845 Period, Width, and Delay values of PGU pulse must be in the same setting range. And Leading and trailing values must be in the same setting range. 105846 SPGU cannot output the specified voltage. Change Load Z value or output voltage.
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Error Message Agilent EasyEXPERT Operation Error 105914 Improper number of Arguments for the A command. Enter the Arguments correctly. 105915 A pulse base must be between B A and C A. 105916 A pulse peak must be between B A and C A. 105917 A pulse peak and base must be between B V and C V. 105918 A compliance must be between B V and C V. 105919 A compliance must be between B A and C A. 105920 A pulse peak  compliance exceeds its output power limit. Compliance must be between B V and C V.
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Error Message Agilent EasyEXPERT Operation Error 105935 N1258A selector can make an input-output path. Multiple input channels cannot be specified. 105936 Invalid value (A) was specified for SMU I/V sweep Linear/Log. Valid option(s): B 105937 Invalid value (A) was specified for C-V sweep Linear/Log. Valid option(s): B 105938 The start value and stop value of C-V log sweep must be non-zero and have same polarity.
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Error Message Agilent EasyEXPERT Operation Error 105971 Communication with N1265A Ultra High Current Expander / Fixture interrupted. Connect the cable properly. 105972 N1265A Ultra High Current Expander / Fixture is turned off. Connect the power cable properly and check the power switch. 105973 N1265A Ultra High Current Expander / Fixture can make an drain input-output path. Multiple drain input channels cannot be specified.
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Error Message Agilent EasyEXPERT Operation Error 105987 N1265A Self-calibration failed. Code: A, Reason: B Confirm the connection of the control modules and perform the self-calibration again. 105988 N1266A Self-test failed. Code: A, Reason: B Confirm the connection of the control modules and perform the self-calibration of the modules. Then try the self-test again. 105989 Cannot use the N1258A/N1265A’s series resistor for HVSMU when the HVMCU is used.
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Error Message Agilent EasyEXPERT Operation Error 107004 The request to load or create Workspace was rejected. Workspace is already active. Close the present Workspace and open the Workspace again. 107005 The operation cannot be executed because Workspace is in use now. Close the present Workspace and open the Workspace again. 107006 The workspace name is conflicting. It must be unique in system. Specify the correct Workspace name. 107011 Cannot import Workspace.
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Error Message Agilent EasyEXPERT Operation Error 108010 The request to load or create Profile was rejected. Profile is already active. Restart Agilent B1500. If the problem still occurs, contact your nearest Agilent Technologies. 108011 Invalid Function Module for this EasyEXPERT revision. Module ID: A, Path: B Restart Agilent B1500. If the problem still occurs, contact your nearest Agilent Technologies. 108020 An I/O error occurred during Function Library operation. Path: A Restart Agilent B1500.
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Error Message Agilent EasyEXPERT Operation Error 109053 Direct Control execution status. Search measurement was aborted by the automatic abort function. Test setup: A 109054 Direct Control execution status. Sampling measurement was aborted by the automatic abort function. Test setup: A 109061 Duplicate SMU assignment was found. SMU assignment must be unique. SMU: A 110001 Configuration query completed. 111001 Data name (A) is invalid. 111002 Function name (A) is invalid.
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Error Message Agilent EasyEXPERT Operation Error 111035 No sequence is defined in the ALWG waveform data. Define one column or more. 111036 Pattern is not defined in the ALWG waveform data for the output channel A. Specify a pattern. 111037 ALWG waveform data contains an invalid pattern. Name of the invalid pattern: A 111038 ALWG waveform data memory overflow. Delete unnecessary columns or points in a pattern, and increase free space.
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Error Message Agilent EasyEXPERT Operation Error 112024 At least one SPGU must be used for SPGU Control. 112051 Auto analysis operation failed. 112052 Invalid value A specified for the switching matrix input setting. Specify a string, string variable, or module variable defined in the test definition or test setup. 112053 Enter a value for numeric variable A, used to specify the switching matrix output channel. 112054 A switch setup named A is already in the preset group B.
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Error Message Agilent EasyEXPERT Operation Error 112102 Primary sweep source of C-V Sweep must be V mode. 112103 A does not support B mode. 113001 Category name length must be in range of A to B characters. 113002 Application test definition name cannot be an empty string. 113003 Application test definition of the same name is already existing. Test definition: A Test categories: B 113011 Duplicate parameter name was found. Parameter name must be unique.
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Error Message Agilent EasyEXPERT Operation Error 114001 A preset group named A already exists. The preset group name must be unique. 114002 Unnamed preset group cannot be exported. Please name the preset group in advance. 114011 A test setup named A is already in the preset group B. The test setup name must be unique in a preset group. 114012 A test setup named A cannot be retrieved in the preset group B. Probably it had already been modified or deleted.
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Error Message Agilent EasyEXPERT Operation Error 114107 Index file creation failed during automatic data export. Refer to the detail message, and retry after taking necessary measures. 114151 Specify the XML Style Sheet File Path in the Test Results Data Auto Export dialog box. 114152 Change the XML Style Sheet File Path in the Test Results Data Auto Export dialog box. Specified value contains an invalid character. Specified path: A 115001 There is no working test setup. First preset the test setup.
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Error Message Agilent EasyEXPERT Operation Error 117004 Invalid value A for the switching matrix output channel. Value must be between B and C. 117005 A to B is not a valid range for the switching matrix output channels. Use positive integers, with the first value no greater than the second. 117006 Switching matrix close error. Enter odd numbers to specify output channels connected to couple input port A. 117007 Switching matrix open error.
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Error Message Agilent EasyEXPERT Operation Error 120006 Pasting program component failed. Specified program components cannot be pasted to the specified place. Cut or copy the appropriate program components, and paste them to the appropriate place. 120007 Variable type mismatch detected for assigning. Enter the appropriate value to the variable. Data type must be the same. 120008 Unknown program component imported.
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Error Message Agilent EasyEXPERT Operation Error 122007 Specified argument is out of range. Correct the value of the argument. The value must be within its allowable range. 122008 Invalid character is used for system symbol. System symbol: A, Invalid character: B 122009 Invalid character is used for user defined symbol. User defined symbol: A, Invalid character: B Use the characters available for the user defined symbol. 122010 Missing operator. Index: A Correct the expression.
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Error Message Agilent EasyEXPERT Operation Error 130005 File I/O error. Cannot find or access the package file. 130011 Data import failed. Data may be incompatible or corrupt. Data: A 131001 Conversion function error occurred. 131002 Invalid style sheet. Cannot export data (to CSV or XMLSS) because of invalid file format or corrupted file. Specify correct file. 131003 Invalid XML document. Restart Agilent B1500. If the problem still occurs, contact your nearest Agilent Technologies.
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Error Message Agilent EasyEXPERT Operation Error 133011 The specified GPIB address A is assigned to the B1500. Specify the value assigned to the other equipment. Cannot control the B1500. 134001 Dialog box interface error occurred. 134002 The process failed to activate the message-box window. Restart Agilent B1500. If the problem still occurs, contact your nearest Agilent Technologies. 134003 Message-box is already registered in the system. Restart Agilent B1500.
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Error Message Agilent EasyEXPERT Operation Error 140012 There is no data for this read out function. 140013 Font size must be between A and B. 140014 Number of texts exceeds the limit. Maximum of A texts are allowed. 140015 Number of pointers exceeds the limit. Maximum of A pointers are allowed. 140016 Invalid value included in data specified by the marker. Pointer could not be added. 140017 Available number of decades for the log scale must be between A and B.
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Error Message Agilent EasyEXPERT Operation Error 171003 File I/O failed during compressed data export. Could not access destination file. Specified file is either unsupported or corrupt. Specify a correct file for the export. 171004 Compression process or decompression process failed. Specified file is either unsupported or corrupt. Specify a correct file for the export or import. It may also be a program error. 200001 Select from the candidates. Specify the value from the choices for this field.
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Error Message Agilent EasyEXPERT Operation Error 300041 SDA daemon failed to start model name inspection process. Path: A, Arguments: B, Reason: C 300042 Model name inspection failed. Set VISA interface ID and GPIB address correctly, or connect the GPIB cable properly. Reason: A 300051 SDA daemon failed to start database recovery process. Path: A, Arguments: B, Reason: C 300052 Database recovery failed. Contact Agilent Technologies.
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Error Message Agilent EasyEXPERT Operation Error 300111 EasyEXPERT database backup restoration error. Database could not be replaced with the backup. See the log file \ Agilent\EasyEXPERT\Daemon\StaDaemon.log if needed. Source: A, Destination: B If Source shows the EasyEXPERT database folder name, the database remains the same. If Destination shows the EasyEXPERT database folder name, the database is broken.
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Error Message Agilent EasyEXPERT Operation Error 500023 Unknown license information for this feature. The software revision may be too old. Feature: A 500024 You need the license to use this function. Function: A, Required Option: B 500031 License authentication error. Feature: A, Reason: B 500032 License authentication failed. Feature: A, Reason: B Agilent EasyEXPERT User’s Guide Vol.
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Error Message Agilent FLEX Execution Error Agilent FLEX Execution Error When Agilent B1500 causes errors in Agilent FLEX command execution environment, the B1500 returns the following error code and error message. 100 Undefined GPIB command. Send the correct command. 102 Incorrect numeric data syntax. Correct the data syntax. 103 Incorrect terminator position. Correct the command syntax. The number of parameters will be incorrect. 104 Incorrect serial data syntax. 120 Incorrect parameter value.
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Error Message Agilent FLEX Execution Error 130 Start and stop must be same polarity. For a log sweep, the polarity of the start and stop values must be the same in the WV, WI, WSV, WSI, or WNX command. Also, 0 is not allowed for the start and stop values. 140 Invalid setup Check the setup required for the specified function and set it properly. 150 Command input buffer is full. Agilent B1500 can receive 256 characters maximum including the terminator at one time.
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Error Message Agilent FLEX Execution Error 162 Incorrect command for program memory. Specified command cannot be stored in the program memory. For the incorrect commands, see Programming Guide. 170 Incorrect usage of internal variable. The internal variable must be %In for integer data, or %Rn for real data. where n is an integer, 0 to 99. Use %In for the integer type command parameters; and use %Rn for the real type command parameters.
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Error Message Agilent FLEX Execution Error 205 DZ must be sent before RZ. The RZ command is effective for the channels set to 0 V output by the DZ command. 206 Do not specify the channel recovered by RZ. Specify the channels that have not been recovered yet by the RZ command after the DZ command. The RZ command cannot be executed if the specified channels include a channel that has already been recovered by the RZ command. 210 Ext trigger could not start measurement.
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Error Message Agilent FLEX Execution Error 220 Send WV or WI to set primary sweep source. Before triggering the staircase sweep measurement, triggering the staircase sweep with pulsed bias measurement, or sending the WSV, WSI, or WNX command to set the synchronous sweep source, send the WV or WI command to set the primary sweep source. 221 Send PWV or PWI to set pulse sweep source.
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Error Message Agilent FLEX Execution Error 230 Pulse source must be set. To perform the pulsed spot measurement (MM3), send the PV or PI command to set the pulse source. 231 Compliance must be set correctly. Compliance was not set or an incorrect compliance value was set in the PV, PI, PWV, or PWI command. Set the correct compliance value effective for the pulse output. 232 Invalid pulse output setup Check the pulse output setup and set the correct value.
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Error Message Agilent FLEX Execution Error 244 Set a longer integration time to QST. The integration time is too short to perform the offset measurement. Set a longer value to the integration time parameter of the QST command. 245 Specify a higher measurement range to QSR. Too large offset current was measured. Specify the next higher measurement range to the QSR command. 246 QSV mode value must be 1 or 3. The mode values available for the QSV command are 1 (single linear) and 3 (double linear).
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Error Message Agilent FLEX Execution Error 273 Search and sync output modes must be the same. The primary search source channel and the synchronous source channel must be different, and they must be set to the same output mode (voltage or current). 274 Search sync source is overflow. Set the search sources so that the same output range is set to both primary and synchronous search sources. 275 Search target must be compliance value or less.
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Error Message Agilent FLEX Execution Error 283 Set linear sweep for MM20. Only the linear sweep is available for the PWDCV command for the pulsed CV measurement (MM20). 284 Improper setting of CMU frequency and pulse width. Pulse width value is out of the range for the CMU output frequency. Set both frequency value and pulse width value properly. 290 Send WFC to set Cf sweep source. Before triggering the Cf sweep measurement, send the WFC command to set the frequency sweep source (oscillator).
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Error Message Agilent FLEX Execution Error 320 Excess current in CMU. Current that exceeds maximum current at the present voltage range was detected by the CMU. The output switch was set to OFF. 321 This command is not available for CMU. CMU was specified for the SMU dedicated command. Specify SMU. 322 This command is not available for SMU. SMU was specified for the CMU dedicated command. Specify CMU. 323 Use SSP instead of CN for SCUU modules.
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Error Message Agilent FLEX Execution Error 610 Quasi-pulse source channel must be set. Before triggering the quasi-pulsed spot measurement, send the BDV command to set the quasi-pulse source. 620 TGP specified incorrect I/O port. Specify trigger input for the Ext Trig In port, or trigger output for the Ext Trig Out port by the TGP command. See the TGP command of Programming Guide. 621 Specify trigger input port for PAX/WSX. No trigger input port was specified for the PAX or WSX command.
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Error Message Agilent FLEX Execution Error 631 Number of search steps must be 1001 or less. For the linear search measurement. The number of search steps between start and stop must be 1001 or less. This means the |step| value must be |stop-start|/1001 or more. 632 Search measurement was aborted. Search measurement was aborted by the automatic abort function. 640 Search limits must be range/20000 or more. For the binary search measurement.
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Error Message Agilent FLEX Execution Error 664 Base and bias must be same polarity for I mode. The base and bias values of the MI command must be the same polarity. 670 Specified channel does not have ASU. Specify the module that can be used with the ASU. 671 SSP is not available for this channel. SSP command is available only for the CMU. Specify the slot number that the CMU has been installed. 680 CMU correction mode must be manual.
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Error Message Agilent FLEX Execution Error 694 DIO control mode must be HVSMU Current Expander control mode (ERMOD 8). Set the digital IO control mode to N1266A control mode by using the ERMOD 8 command. 695 Mismatch HVSMU Current Expander ID. HVSMU current expander is not connected to the Digital IO connector. Connect the N1266A. 696 HVSMU Current Expander control cable was disconnected. Connection cable was removed. Turn the instrument off and connect the cable. And then turn the instrument on again.
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Error Message Agilent FLEX Execution Error 1002 Illegal pulse width Check the pulse width and set the correct value. 1003 Illegal pulse base/peak limit Check the pulse base and peak values, and set the correct values. 1004 Illegal pulse base/peak polarity Check the pulse base and peak values, and set the polarity properly. 1005 Illegal sweep polarity Check the sweep start and stop values, and set the polarity properly. 1006 Application measurement setup is not sufficient.
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Error Message Agilent FLEX Execution Error 1015 Modules set to PCH must be different. Same module was specified by PCH for both master and slave HCSMU modules. They must be the different modules. 1016 Do not execute CN/CNX to the slave module set to PCH. Specify the master module in CN/CNX to enable the dual HCSMU channel. 1017 Specified module is already used for dual HCSMU. Specify a free HCSMU. 1018 Total setting current exceeds the capacity of main frame power supply. Reduce setting current.
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Error Message Agilent FLEX Execution Error 2056 High temperature H/W SRQ detected. Specified module stopped the output and opened the output relay. 2101 Specified load impedance is out of absolute limits. Set the appropriate impedance value to SER. 2103 Specified period is out of absolute limits. Set the appropriate pulse period value to SPPER. 2104 Specified trigger count is out of absolute limits. Set the appropriate count value to SPRM. 2105 Specified load voltage is out of range.
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Error Message Agilent FLEX Execution Error 2121 Delay + Width must be within Period value (ODSW Timing). Set the appropriate value to ODSW. The period value must be more than delay+width value. 2122 Specified ODSW delay timing parameter out of absolute limits. Set the appropriate delay value to ODSW. 2123 Specified ODSW width timing parameter out of absolute limits. Set the appropriate width value to ODSW. 2131 Delay + Interval * N must be within Period value (ADC Timing).
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Error Message Agilent FLEX Execution Error 2155 ALWG Pattern Data is not ready. Pattern data must be set by using ALW before starting the output. 2156 Specified ALWG Pattern Data size is out of absolute limits. Set the appropriate pattern data to ALW. Too large data was specified. 2157 Specified interval time of ALWG Pattern is out of absolute limits. Set the appropriate pattern data to ALW. The incremental time value in the pattern data must be 10 ns to 671.088630 ms in 10 ns resolution.
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Error Message Agilent FLEX Execution Error 3051 Measurement data FIFO overflow error. ALWG sequencer run time error. WGFMU module FIFO overflow occurred because the averaging count was frequently changed. 3052 Measurement range change request error. ALWG sequencer run time error. Measurement range cannot be changed because the range change interval is too short. 3201 ALWG Sequence Data is not ready. Sequence data must be set to the specified WGFMU channel. 3202 ALWG Waveform Data is not ready.
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Error Message Agilent FLEX Execution Error 3309 Specified loop number of ALWG Sequence Data is out of absolute limits. Check the loop value of the sequence data and set the correct value. 3310 Specified output voltage of ALWG Waveform Data is out of absolute limits. Check the output voltage and set the correct value. The value must be -3 V to +3 V for the 3 V range, -5 V to +5 V for the 5 V range, -10 V to 0 V for the -10 V range, or 0 V to +10 V for the + 10 V range.
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Error Message Agilent FLEX Execution Error 3319 Output delay is out of absolute limits. Check the output delay and set the correct value. The value must be -50 ns to 50 ns, in 625 ps resolution. 3320 Measurement delay is out of absolute limits. Check the measurement delay and set the correct value. The value must be -50 ns to 50 ns, in 625 ps resolution. 3321 VM/IM measurement mode is invalid. Check the measurement mode and set the correct value. 3322 Voltage measurement range is invalid.
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Error Message Agilent FLEX Execution Error 4402 HVSMU over current or guard abuse emergency occurred. 4403 HVSMU guard abuse emergency occurred. 4404 HVSMU HVPS cannot power-off emergency occurred. 4405 HVSMU V ADC lost emergency occurred. 4406 HVSMU I ADC lost emergency occurred. 4407 HVSMU Float lost emergency occurred. 4408 HVSMU HVPS cannot power-on emergency occurred. 5301 Specified module is already assigned to voltage control, current control or gate control.
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Error Message Agilent FLEX Execution Error 5309 CRC for N1265A EEPROM Vm correction segment failed. N1265A might be defective. Contact your nearest Agilent Technologies service center. 5310 CRC for N1265A EEPROM Im correction segment failed. N1265A might be defective. Contact your nearest Agilent Technologies service center. 5311 Specified module is already assigned to voltage control or current control of HVMCU. Specify a free MCSMU/HCSMU.
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Error Message Agilent FLEX Execution Error 5319 Over voltage is detected in Selector Output High Sense terminal of N1265A. Remove the causes of overvoltage. 5320 Pulse width overrun is detected in N1265A. Check the assignment of control modules. 5321 Specified module is already assigned to voltage control or current control of UHVU. Specify a free MCSMU/HCSMU. 5322 Different module must be assigned to voltage control and current control of UHVU. Specify a free MCSMU/HCSMU.
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Error Message Agilent FLEX Execution Error NOTE 5343 N1265A: Current pulse test failed. 5344 N1265A: Current measurement CMR test failed. 5345 N1265A: Offset voltage test failed. 5346 N1265A: Voltage measurement offset test failed. 5347 N1265A: Current measurement offset test failed. 5350 N1266A: Control modules are not assigned. Execute ERHVCA to assign control modules. 5351 N1265A: Voltage measurement offset calibration failed. 5352 N1265A: Current measurement offset calibration failed.
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Error Message Agilent FLEX Execution Error NOTE 5411 HCSMU float lost emergency occurred. 5413 HCSMU should not apply low current to high impedance device. If one of the errors 6401 to 6413 occurs, the all module output is changed to 0 V and the all output switch is disconnected. 6401 MCSMU high force over voltage emergency occurred. 6402 MCSMU high sense over voltage emergency occurred. 6403 MCSMU low force over voltage emergency occurred. 6404 MCSMU low sense over voltage emergency occurred.
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Error Message Agilent B1500 Self-test/Calibration Error Agilent B1500 Self-test/Calibration Error When Agilent B1500 fails the self-test or self-calibration, the B1500 returns the following error code and error message. In the error code, N indicates the slot number. If the module is installed in slot 1, and it fails the function test, the error code will be 1760. 700 CPU failed NVRAM read/write test. 701 CPU failed FPGA read/write test. 702 CPU failed H-RESOLN ADC end signal test.
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Error Message Agilent B1500 Self-test/Calibration Error 740 GNDU failed calibration. 935 CMU FPGA version mismatch. 2400 SPGU module is in TEST FAIL state. 2401 Digital H/W function test failed. 2402 CPLD access function test failed. 2403 CPLD version check test failed. 2404 CPLD revision check test failed. 2405 FPGA configuration test failed. 2406 FPGA access function test failed. 2407 FPGA version check test failed. 2408 FPGA revision check test failed.
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Error Message Agilent B1500 Self-test/Calibration Error 2450 Internal ADC function test failed. 2451 0.5 Vref Internal ADC function test failed. 2452 4.5 Vref Internal ADC function test failed. 2453 Power Amp initial test failed. 2454 Filter & Amp test failed. 2455 Internal temperature test failed. 2456 Internal output resistance test failed. 2481 Invalid frame configuration. 2482 Frame has no modules. 2483 PLL not locked in slave module. 2484 Reference line is not connected.
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Error Message Agilent B1500 Self-test/Calibration Error 3011 EEPROM CRC data of DAC skew calibration data is invalid. 3012 EEPROM CRC data of ADC skew calibration data is invalid. 3013 EEPROM CRC data of RSU calibration data is invalid. 3014 Invalid EEPROM type. 3400 WGFMU module is in TEST FAIL state. 3401 Digital H/W function test failed. 3402 CPLD access function test failed. 3403 FPGA configuration test failed. 3404 FPGA1 access function test failed.
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Error Message Agilent B1500 Self-test/Calibration Error 3424 Channel 1 RSU EEPROM access function test failed. 3425 Channel 2 RSU EEPROM access function test failed. 3426 WGFMU EEPROM CRC data is invalid. 3427 WGFMU EEPROM CRC data of format revision data is invalid. 3428 WGFMU EEPROM CRC data of serial number data is invalid. 3429 WGFMU EEPROM CRC data of system timing data is invalid. 3430 WGFMU EEPROM CRC data of DAC DCM PS data is invalid.
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Error Message Agilent B1500 Self-test/Calibration Error NOTE 3481 Invalid frame configuration. 3482 Frame has no modules. 3483 PLL not locked in slave module. 3484 Reference line is not connected. 3485 Sync line is not connected. 3486 Sync Reserve line is not connected. 3487 Interrupt line is not available. 3488 Module service request assertion test failed. 3489 Module service request detection test failed. 3490 Emergency interrupt is not available. 3500 WGFMU calibration failed.
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Error Message Agilent B1500 Self-test/Calibration Error 4509 ADC access test failed. 4510 EEPROM access function test failed. 4511 Float lost detection test failed. 4512 ADC lost detection test failed. 4513 HVPS control test failed. 4514 ADC control test failed. 4515 DAC switch test failed. 4516 DAC control test failed. 4517 CALBUS control test failed. 4520 V divider gain test failed. 4521 V loop control test failed. 4522 Voltage detector test failed.
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Error Message Agilent B1500 Self-test/Calibration Error NOTE 4615 IFIM gain measurement by I ADC failed. 4616 Calculation of IM correction data failed. 4617 Calculation of IF correction data failed. 4701 Non-feedback offset adjustment is failed. Error codes 5501 to 5701 are for HCSMU. 5501 Digital H/W function test failed. 5502 CPLC access function test failed. 5503 FPGA access function test failed. 5505 Bus FPGA JTAG function test failed. 5506 Float FPGA JTAG function test failed.
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Error Message Agilent B1500 Self-test/Calibration Error NOTE 5601 VM offset calibration is failed. 5602 V CMR DAC calibration is failed. 5603 VM gain calibration is failed. 5604 IM offset calibration is failed. 5605 I CMR DAC calibration is failed. 5606 Iad gain calibration is failed. 5701 Power AMP bias adjustment is failed. Error codes 6501 to 6606 are for MCSMU. 6501 Digital H/W function test failed. 6502 CPLC access function test failed. 6503 FPGA access function test failed.
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Error Message Agilent B1500 Self-test/Calibration Error 6564 High sense output relay test is failed. 6601 VM offset calibration is failed. 6602 V CMR DAC calibration is failed. 6603 VM gain calibration is failed. 6604 IM offset calibration is failed. 6605 I CMR DAC calibration is failed. 6606 Iad gain calibration is failed. N760 SMU failed function test. N761 SMU failed VF/VM function test. N762 SMU failed IF/IM function test. N763 SMU failed loop status test.
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Error Message Agilent B1500 Self-test/Calibration Error N781 SMU failed IM gain calibration. N782 SMU failed IF offset calibration. N783 SMU failed IF gain calibration. N784 SMU failed IDAC filter offset calibration. N785 SMU failed oscillation detector test. N786 SMU failed I bias test. N787 SMU failed common mode rejection test. N789 SMU failed high voltage detector test. N790 SMU failed zero voltage detector test. N791 SMU failed V hold test. N792 SMU failed V switch test.
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Error Message Agilent B1500 Self-test/Calibration Error N831 SCUU failed SCUU configuration test. N832 SCUU failed SMU configuration test. N833 SCUU failed CMU configuration test. N834 CMU failed digital function test. N835 CMU failed CPLD test. N836 CMU failed FPGA test. N837 CMU failed EEPROM test. N838 CMU failed PLL1/PLL2 test. N839 CMU failed PLL DET low state test. N840 CMU failed PLL DET high state test. N841 CMU failed PLL1 lock test N842 CMU failed PLL2 lock test.
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Error Message Agilent B1500 Self-test/Calibration Error N859 CMU failed R_LPF2 f1 test. N860 CMU failed MODEM DAC test. N861 CMU failed N_II_DAC test. N862 CMU failed N_QI_DAC test. N863 CMU failed N_IQ_DAC test. N864 CMU failed N_QQ_DAC test. N865 CMU failed TRD normalizer test. N866 CMU failed NA1 test. N867 CMU failed NA2 test. N868 CMU failed NA3 test. N869 CMU failed N_LPF1 f2 test. N870 CMU failed N_LPF1 f3 test. N871 CMU failed N_LPF1 f4 test.
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Error Message Agilent B1500 Self-test/Calibration Error N889 CMU failed IRM local 0deg test. N890 CMU failed IRM local 90deg test. N891 CMU failed S_LPF1 f1 120kHz test. N892 CMU failed S_LPF1 f2 500kHz test. N893 CMU failed S_LPF1 f3 2MHz test. N894 CMU failed S_LPF1 f4 5MHz test. N895 CMU failed TRD MODEM test. N896 CMU failed VG local 90deg test. N897 CMU failed VG local 0deg test. N898 CMU failed NA4 test. N899 CMU failed NA5 X1/4 test. N900 CMU failed NA5 X1/8 test.
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Error Message Agilent B1500 Self-test/Calibration Error N917 CMU failed NA2 test. N918 CMU failed NA3 test. N919 CMU failed IV saturation detector test. N920 CMU failed normal status test. N921 CMU failed normal status test. N922 CMU failed IV saturation status test. N923 CMU failed IV saturation status test. N924 CMU failed unbalance detector test. N925 CMU failed normal status test. N926 CMU failed normal status test. N927 CMU failed unbalance status test.
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Error Message Setup File Converter Execution Error Setup File Converter Execution Error #01 Maximum length for the file path is 256 characters. #02 fopen failure. Could not open source file. #03 Specify a proper source file. The specified file is unsupported. #04 Specify a proper source file. The specified file is corrupt. #05 fopen failure. Could not open destination file. 10-74 Agilent EasyEXPERT User’s Guide Vol.
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Error Message MDM File Converter Execution Error MDM File Converter Execution Error Error message: 10001 Reading XTR file was aborted. Conversion was aborted because of XTR file read error. 10002 Reading ZTR file was aborted. Conversion was aborted because of ZTR file read error. 10003 Writing MDM file was aborted. Conversion was aborted because of MDM file write error. 10004 Writing log file was aborted. Conversion was aborted because of log file write error. 10005 Invalid command option: A.
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Error Message MDM File Converter Execution Error 20006 Invalid value for the element: A. Maximum limit is B. The value of the element A must not exceed B. 20007 Could not calculate the number of data for log sweep. Start: A, Stop: B. Cannot calculate the number of data for log sweep. Start and stop values must be a non-zero value. Start value: A. Stop value: B. 20008 Unknown parameter: A, Value: B. Data contains the unknown parameter A. The value is B.
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