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Furthermore, burster assumes no liability for direct, indirect or incidental damages as well as consequential or other damages arising from the provision and use of the present documentation.
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E U - K o n f o r m i t ä t s e r k l ä r u n g (nach EN ISO/IEC 17050-1:2010) EU-Declaration of conformity (in accordance with EN ISO/IEC 17050-1:2010) Name des Ausstellers: burster präzisionsmesstechnik gmbh & co kg Issuer’s name: Anschrift des Ausstellers: Talstr. 1-5 Issuer’s address:...
Contents Safety instructions ..................Symbols in this manual ......................1.1.1 Signal words ........................1.1.2 Pictograms ........................General information ..................Safety ........................... Applications ..........................Description ..........................Personnel ..........................Preparation for Operation ................Unpacking the device ......................Commissioning the device ...................... Supply voltage .......................... Mains fuse ..........................
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5.4. Function keys while a measurement is stopped ..............5.4.1 Datalogger evaluation menu ..................5.4.1.1 Display of the individual measuremnt values ..........5.4.1.2 Stochastic datalogger evaluation menu ............5.4.2 Comparator evaluation menu ..................5.4.3 Max/Min evaluation menu ..................5.4.4 Parameter selection menu ..................5.4.4.1 Measurement parameter menu ..............
Safety instructions On the device RESISTOMAT model 2329 and in this manual the following symbols warn about risks: ® 1.1. Symbols in this manual 1.1.1. Signal words The following signal words are used in the operating manual according to the specified hazard classification.
2. General Information 2.1 Safety DANGER Special caution is required in the case of inductive test devices! the plugs are pulled out of their sockets, the measurement current is switched over, the cables tear, the terminals on the test device are loose, the unit is switched off during measurement, the power is interrupted during measurement, the measurement current changes for any other reason:...
2.2 Applications Read then operating manual carefully before using the equipment, and keep for future Important: reference. The RESISTOMAT model 2329 is particularly suitable for measurements of low impedances in automation ® technology, and is capable of performing up to 50 measurements per second without any problem. This RESISTOMAT®...
3. Preparation for Operation 3.1 Unpacking the device DANGER Risk of electric shock. Never switch on the instrument if it shows signs of damage in transit. Only ever use the instrument under the conditions specified in this operating manual. The RESISTOMAT model 2329 weighs 5.2 kg and is enclosed in a suitable, shockproof packaging.
3.4 Mains fuse DANGER Risk of electric shock. Before replacing the fuse, ensure that the RESISTOMAT model 2329 has ® been properly disconnected from the mains (remove the connection cable from grounded socket). The mains fuse is located below the mains connection socket on the rear panel of the RESISTOMAT® model 2329.
The Pt100 terminal must only be connected to a Pt100 sensor by means of a shielded cable. The cable shield must not be located on the plug housing in the event of any uncertainty concerning the sensor ground, as this might result in measurement errors caused by double-ground compensation currents.
4.1.2 Description of the terminals Measurement input Analog GND Plug housing Potential PE Counter-plug burster type 9900-V172 Note: The current path is protection with a 5 x 20 [mm] 0.63 MT fuse (located on the rear panel of View of the socket the device.
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RS232 interface Digital GND (internally grounded) Bridged 9 pole Sub MinD Plug housing Potential PE inside the socket Counter-plug Type 9900-V209 device View of socket Matching data cable Type 9305-K001 IEEE488 interface The 24-pole IEEE488 bus plug-connector is standardized and has the displayed pin assignment.
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Digital I/O 4 LV* 2 LV* Potential-free << < relay output for < evaluation = 30 W > = 48 V >> > = 1 A ROOT RELAY MEASUREMENT IN PROGRESS MEASUREMENT COMPLETE MEASUREMENT ERROR << < < PLC output for evaluation >...
5. Manual Operation 5.1 General instructions 5.1.1 Meaning of the individual display segments Status line II Status line I Error status, Measurement range, measurement memory number loaded last, current or 20 mV for dry-circuit continuous or single-frame measurements. measurement, manual or automatic Temperature with active TC or set point range selection, R or Z measurement value with ∆...
5.1.3 Measurement errors Error tolerances and influence variables (for the standard procedure) Resistance measurement (display range of 2000 and 20000): Range Measured value Conv.: Minimum Conv.: Medium Conv.: Standard Conv.: Maximum Digits Digits Digits Digits 200 mΩ 0.03 ± 4 ± 3 ± 2.5 ± 2 Ω 0.03 ±...
5.1.4 Measurement rate The RESISTOMAT model 2329 was developed to allow quick and reliable measurements of ohmic resistances. ® The hardware and software are geared especially toward PLC-controlled measurements. The fastest measurements are achieved by triggering via a PLC or footswitch and evaluation of the results in combination with EOC.
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Measurement procedures without compensation (without a reference measurement) are faster. Times must be determined with the following factors: Resolution 20.000 20.000 20.000 20.000 2.000 2.000 2.000 2.000 range C min C med C stand C max C min C med C stand C max 200 mΩ...
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With REMOTE control active, Range Factor 200 mΩ all additional program sections need Ω to be interrogated internally. If PLC operation is involved, this Ω prolongs the measurement times by Ω the following factors: 2 kΩ 20 kΩ 200 kΩ 20 mV With operation via an interface (Init,Status:Operation:Event?,Fetch?,...), the measurement times depend heavily on the computer in use and...
With an IEEE488 and constant polling of the status register, the processor's capacity is heavily dependent on the performance of the PC processor, the IEEE488 card and the rate of program execution. This leads to incalculable delays. With a slow PC (286), a slow IEEE488 card and use of the QBasic interpreter, the measurement time increases by up to 40 %.
5.2.1 Selecting a language This menu is invoked by pressing the [F1] key while the identification menu is being displayed following activation of the device. SELECT LANGUAGE LANGUAGE: ENGLISH Language selection display RETU The operating language is selected in this menu. The [←] and [→] cursor keys are used to select one of the following languages: GERMAN, ENGLISH, FRENCH.
5.3 Main menu 5.3.1 Measurement stopped S 1.1 S 1.2 S 1.3 200 OHM 1mA 23.4C → Status line 1 5 SINGLE AUTO R → Status line 2 112.45 Ω S 2.1 S 2.2 S 2.3 S 2.4 S 2.5 S 2.6 →...
5.3.2 Measurement started S 1.1 S 1.2 S 1.3 200 OHM 1mA 32.4C → Status line 1 5 0 9 SINGLE AUTO R → Status line 2 134.68 Ω S 2.1 S 2.2 S 2.3 S 2.4 S 2.5 S 2.6 →...
5.3.3 Code input menu This menu is invoked by pressing the [ENT] key in the main menu while a measurement is stopped. CODE INPUT PLEASE ENTER CODE Display of the code input menu 4 NUMBERS: **** RETU This menu is used to enter a 4 digits code in order to invoke the access menu (2609) or put the RESISTOMAT ®...
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ACCESS Display of the access menu * PRINTER (page 2) * TEMPERATURE COMP. CALIBRATION * MAN. RANGE SELECT RETU ACCESS Display of the access menu * SCALED INPUT (page 3) * DATALOGGER CONF. MAX/MIN RESET CONTRAST RETU ACCESS Display of the * DISPLAY STATUS access menu (page 4)
ACCESS Display of the * FAST START access menu (page 5) * CALIBRATION * MAN. RANGE SELECT RETU Access to various other menus is enabled and disabled in this menu. The following entries are possible in this menu: [F1] key (ON): The selected menu is enabled and marked with an asterisk .
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This menu is used to test the PLC interface. The input levels are indicated, and the output levels can be set and reset here. This menu is invoked with the [F3] key (PLC) from the access menu. The signals are present at the 37- pole SUB-MIN-D socket. The inputs and outputs need to be connected and supplied from an external source.
5.4. Function keys while a measurement is stopped 5.4.1 Datalogger evaluation menu 5.4.1.1 Display of the individual measurement values BLOCK: 12 DATALOG.: 12 MEAS. NUMBER: 15 Display of the MEAS. VAL.: 123.45 mOHM datalogger evaluation menu (display of the individual SIZE: 625 (18) measurement values)
The [C] key is used to delete all the entered characters and repeat the input procedure from the beginning, without exiting the input mode. The [ESC] key is used to cancel the current entry, and exit the input mode. The [ENT] key is used to save the input value - provided that it is valid - and exit the input mode. The [F2] key (STAT) is used to invoke the stochastic datalogger evaluation menu.
5.4.3 Max/Min evaluation menu MAX/MIN FUNCTION MAX/MIN : Display of max/min- MINIMUM : 123.45 OHM evaluation menu MAXIMUM : 124.10 OHM DIFF: 0.65 OHM RETU The following entries are possible: The [F1] key (RES) is used to reset the values. The [F4] key (RETUrn) effects a return to the main menu.
CALIBRATION CHANGE CODES Display of the parameter selection menu (page 2) RETU This menu is used to select other menus. The following entries are possible: The [F4] key (RETUrn) effects a return to the main menu. This menu display covers 3 pages. The [↑] and [↓] cursor keys are used to select the required parameter on the current page.
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MEAS. PARAMETER A/D CONV: STANDARD Display of the MEAS. -SQ.: SINGLE COMP. measurement parameter menu (page 3) INPUT HOME RETU Various measurement parameters can be set in this menu. The following entries are permissible: The [F3] key (HOME) effects a return to the main menu. The [F4] key (RETUrn) effects a return to the parameter selection menu.
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Pressing the [F2] key (A-HI) displays the largest permissible measuring range. The F2 field is cleared and the F1 field is marked with (A-LO). Pressing the [F1] key effects a return to the display of the smallest permissible measuring range. The smallest/largest measuring ranges can be adjusted with the [→] and [←] cursor keys. A prerequisite here is that the smallest measuring range must always be smaller than the largest measuring range.
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Note Dry-circuit measurement in accordance with DIN IEC 512 Part 2: Dry-circuit measurements and the 20 mV technique are always used for testing switches and plugs which operate at low voltages. To verify the proper transfer of signals by plugs and switches, any extraneous layers which have formed must not be allowed to decompose during the measurement.
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Reference compensation This reference measurement is stored in the RESISTOMAT® model 2329 together with the adjusted range. Zero measurement with interrupted current circuit Cable rupture Start test No compensation On single shot measurement current at zero Measurement on repeat measurement Cable rupture repetition of the measurement Start...
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Single compensation Zero measurement Measurement with interrupted On single shot current circuit. measurement current at Start zero on repeat measurement Cable rupture test repetition of the measurement till the STOP key is pressed. I-Test Evaluation Cable rupture test Start This measurement procedure is only a measurement current monitoring (continuity tester). If the measurement current is o.k.
At this meas. mode only manual range selection is possible. After a stable meas. current ensue the evaluation: At 2 comparator limits -> meas. current o.k. > -> meas. current not o.k. Corresponding the PLC-signal will set. At 4 comparator limits ->...
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The [POS1] key is used to select the 1st parameter in the window. The [END] key is used to select the last parameter in the window. The size of the available memory which has not yet been assigned to a block is indicated. The DATALOGGER can be activated and deactivated with the [→] and [←] cursor keys respectively.
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Selecting a FILTER: The [→] and [←] cursor keys are used to set the following values: Save all values. GOOD Only save good values (those within the comparator limits). Only save bad values (those outside the comparator limits). Xth VALUE Save every Xth measured value.
DELETE datalogger: If this parameter is selected, the [F1] key (DEL1) and [F2] key (DEL2) are also activated. The [→] and [←] cursor keys are used to set the following values: The entire datalogger is deleted. BLOCK The selected block is deleted. Pressing the [F1] key (DEL1) and the [F2] key (DEL2) in turn deletes the datalogger or the selected block.
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Note: This determines the number of selection stages. LI 1 LI 2 < > 2 stages LI 1 LI 2 LI 3 LI 4 4 stages << < > >> ] and [ → ] cursor keys are used to turn the RELAY ON and OFF. The [ Note: The PLC outputs should be used for rapid measurements, to prevent the relay contacts from being subjected to unnecessary wear.
The comparator limits can be specified here. The following entries are possible: F3] key (HOME): This effects a return to the main menu. [F4] key (RETUrn): This effects a return to the parameter selection menu or the comparator evaluation menu, depending on where the present menu was invoked from. The [↑] and [↓] cursor keys are used to select the various parameters in the menu.
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The [↑] and [↓] cursor keys are used to select the various parameters in the menu. The selected parameter is displayed inversely. Only the selected parameter can be changed. The [POS1] key is used to select the 1st parameter in the window. The [END] key is used to select the last parameter in the window.
The [↑] and [↓], [→] and [←] cursor keys are used to select the required coefficient. The selected coefficient is displayed inversely. The [POS1] key is used to select TC1. The [END] key is used to select TC10. A selected coefficient can also be changed. Pressing the [F1] key (INPUT) invokes the input mode. Numeric keys [0] to [9] and the [.] key are used to enter a new coefficient in ppm/K.
Specifying a SETPOINT VALUE: Pressing the [F1] key (INPUT) invokes the input mode, where a new value can be entered. The [F] keys are redefined as follows: DISPLAY MENU DISPLAY : Display menu SP. VAL.: 134.56 mOHM (SETPOINT VALUE input has been selected) mOHM kOHM...
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IEEE488 Configuration menu CONFIG. IEEE488 ADRESS : Display of the IEEE488 TRIGGER : PASSIVE configuration menu INPUT HOME RETU The IEEE488 interface is configured in this menu. The following entries are possible: [F1] key (INPUT): This effects a return to the input mode. [F3] key (HOME): This effects a return to the main menu.
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RS232 Configuration menu CONFIG. RS 232 FORMAT : 8DA 1PA 1ST Display of the RS232 BAUD RATE : 9600 configuration menu PARITY : CHAR. DELAY: OFF HOME RETU The RS232 interface is configured in this menu. The following entries are possible: [F3] key (HOME): This effects a return to the main menu.
5.4.4.7 Device setting menu STORE/LOAD CONFIG. Display for saving and loading device settings Note STORE NUMBER: 12 If the changeover is made by the LOAD NUMBER: PLC inputs, the datalogger block will be changed as well. LABEL ST.: 1234567890 If the changeover is made by the LABEL LD: 0987654321 keypad, the datalogger block will...
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The [BSP] key is used to delete the character entered last. The [ESC] key is used to cancel the current entry, and exit the input mode. The original value is retained in this case. The [C] key is used to delete all the entered characters and repeat the input procedure from the beginning, without exiting the input mode.
5.4.4.8 Printer menu PRINT: NUM.: LAB.: DATE: TIME: MV/HEAD: 1000 Display of the printer menu LABEL: 0123456789 INTERVAL: hh:mm:ss INPUT HOME RETU The printing parameters are set in this menu. The following entries are possible: [F3] key (HOME): This effects a return to the main menu. [F4] key (RETUrn): This effects a return to the parameter selection menu.
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Activating/deactivating the TIME The [→] and [←] cursor keys are used to set the following parameters: The time is printed out. The time is not printed out. Specifying the MV/HEADer Pressing the [F1] key (INPUT) invokes the input mode. Numeric keys [0] to [9] are used to specify the number of measured values after which a header is to be printed out.
5.4.4.9 Status selection menu SEL. STATUS DISP. MEAS. RANGR: Display of the status MEAS. CURRENT/20mV : OFF selection menu (page 1) TEMP. / SP. VAL.: HOME RETU SEL. STATUS DISP. SAMPLE SIGN: Display of the status SINGLE / CONT.: selection menu (page 2) MAN.
Activating/deactivating the TEMP. / SP. VAL. display The [→] and [←] cursor keys are used to set the following parameters: The temperature or setpoint value is indicated. The temperature or setpoint value is not indicated. Note: If the temperature compensation as well as the display of delta % are active, the temperature is indicated instead of the setpoint value.
Note: The set output bits cannot be stored as part of the device setting. [F3] key (HOME): This effects a return to the main menu. [F4] key (RETUrn): This effects a return to the parameter selection menu. 5.4.4.11 Scaling menu SCALED INPUTS Pt100 INPUT VOLTAGE INPUT...
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The [↑] and [↓] cursor keys are used to select the various coefficients. The selected parameter is displayed inversely. The [POS1] key is used to select the 1st parameter in the window. The [END] key is used to select the last parameter in the window. The required coefficient can now be entered: Pressing the [F1] key (INPUT) invokes the input mode.
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The required parameters can now be entered. Pressing the [F1] key (INPUT) invokes the input mode. Numeric keys [0] to [9] and the decimal key [.] are used to enter the parameters. The [BSP] key is used to delete the character entered last. The [C] key is used to delete all the entered characters and repeat the input procedure from the beginning, without exiting the input mode.
5.4.4.12 Setting the contrast LCD CONTRAST CONTRAST : Display of the menu for adjust the contrast INPUT HOME RETU Pressing the [F1] key (INPUT) invokes the input mode. Numeric keys [0] to [9] are used to adjust the contrast between 0 and 10. The [BSP] key is used to delete the character entered last.
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The [POS1] key selects the 1st parameter in a column. The [END] key selects the last parameter in a column. [F3] key (HOME): This effects a return to the main menu. [F4] key (RETUrn): This effects a return to the parameter selection menu. Pressing the [F1] key [SEL] acknowledges the inversely displayed measurement range for calibration.
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The following display appears on the LCD: CALIBRATION MEAS: RANGE: 200 mOHM Display while calibration Rext : 100.02 mOHM is in progress (figure 13-4) CALIBRATION ACTIVE STOP Once calibration has been performed successfully, the program returns to the menu titled CALIBRATE MEAS. RANGES (figure 13-1).
5.4.4.14 Change Codes In this menu the preselected codes for the access menu (2609) and the device default seetting (9062) can be changed. CHANGE CODES ACCESS CODE xxxx RESET CODE xxxx ENTER OLD CODE INPU HOME RETU The following entries are permissible: The [↑] and [↓] cursor keys are used to select the required code (access or reset).
6. Remote Control of the Device 6.1 General information The RESISTOMAT model 2329 is is equipped with a PLC and RS232-C interface as standard features. ® Optionally, the RESISTOMAT® model 2329 can also be fitted with an IEEE488 interface. The selection of the required interface and its parametrization are described in chapter 5.4.4.6 titled "Interface menu".
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On the reception of a valid command, the device responds with <ACK>. On the reception of an invalid command, the device responds with <NAK>. <ACK>: ASCII value 06 <NAK>: ASCII value 21 Command with query form The device waits for a command having the form : <STX>Command2<LF><ETX> <STX>: ASCII value 02 Command2:...
Restart: Timer B is restarted during data transfer to allow the reception of data blocks of variable lengths. Stop: Timer B is stopped on the reception of the <ETX> signal. Timeout: When a timeout occurs, the received data (command) are discarded. The device then assumes its initial state and is ready to receive a new command.
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Input/output commands For control of the 2329 by an IEEE488 controller, the corresponding input/output commands must be known. The command syntax is provided in the operating manual of the IEEE488 controller. The following input/output commands are used in the Basic language of the HP series 200/300: OUTPUT and ENTER.
6.1.5 Terminal assignment of the PLC interface 4LV* 2LV* Potential-free << < relay outputs for < evaluation = 30 W > = 48 V >> > = 1 A ROOT RELAY MEASUREMENT IN PROGRESS END OF MEASUREMENT MEASUREMENT ERROR << <...
6.1.6 Control via the PLC interface The PLC interface of the RESISTOMAT 2329 was developed in accordance with the DIN EN 61131-2 standard. ® The circuitry is designed for a feed voltage of 24 V DC -15 % / +20 %. The PLC outputs of the 2329 were developed for current-consuming PLC inputs.
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Function of the PLC interface: When the device is turned on, all output levels are low. All functions are activated by a rising edge (low - high) and deactivated by a falling edge (high - low). Deactivating a function already in progress causes it to be terminated immediately. The outputs are static;...
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Timing of the PLC interface Settings: Manual 200 mΩ, display 20000, comparator 2 limiting values, on error >, R, average = 1, Stop Start standard conversion, standard measurement procedure, single measurement Start/Stop meas. roughly 250 - 300 µs End of meas. (no error) 130 - 140 ms Set new evaluation roughly 1ms Evaluation, e.g.
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Timing of the PLC interface Settings: Manual 200 mΩ, display 20000, comparator 2 limiting values, on error >, R, average value = 1, standard conversion, standard Stop Start measurement procedure, single measurement Start/Stop meas. High overage: (e.g. 1 MΩ in the 200 mΩ range or test object interrupted) End of meas.
6.2 RESISTOMAT command language ® 6.2.1 Introduction The command language of the 2329 is called SCPI (Standard Commands for Programmable Instruments). SCPI is a universal language with standardized commands agreed by the leading manufacturers of electrical equipment. SCPI not only provides a standardized set of commands but also allows manufacturers to define their own commands in accordance with specific rules.
6.2.3 Command tree The SCPI command tree has a hierarchical structure. This allows the same command header to be used for several different functions on different levels of the hierarchy. MEMory :STATE :NAME e.g. HCOPY :ITEM :TIME :STATE Level 1 Level 2 Level 3 Level 4...
6.2.6 Parameter The valid parameters for each command, together with the related syntax, are described in the following chapter. The parameters are separated from the command by a blank character. Format of a resistance parameter: A parameter which sets a resistance value or resistance measuring range can be entered in several different formats and units.
6.2.10 Status messages Every SCPI device requires the status mechanism described in Chapter 11 of IEEE488.2, including the full implementation of the Event Status Register structure. The following diagram shows the basic SCPI data structure with the related registers. Error/Event Queue QUEStionable Status VOLTage CURRent...
6.2.11 Operation Status Register The Operation Status Register indicates states which are part of the standard functions of the 2329. When a bit in the Operation Status Enable Register is enabled, the Operation Status Summary Bit (bit 7) in the Status Register is set. When bit 7 in the Service Request Enable Register is enabled, a Service Request is sent to the System Controller if the 2329 is being controlled via the IEC bus.
Bit 3 Device Dep. Error The Device Dependent Error bit indicates that an error occurred during a measurement. Bit 4 Execution Error The Execution Error bit is set on the transmission of an incorrect parameter. Bit 5 Command Error The Command Error Bit is set when the SCPI interpreter fails to recognize a command. The IEEE488.2 commands for controlling the Standard Event data structure are: *ESR? *ESE...
6.3 SCPI commands The SCPI commands are displayed in long and short form. The long form contains the entire command, while the short form consists of the sections indicated in upper case. Command sections enclosed in square brackets need not be transmitted. Related parameters are appended with a blank character.
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STATus:OPERation[:EVENt]? (short form -> S:O:E?) DESCRIPTION: The Operation Status Event Register is read out. SYNTAX: STATus:OPERation[:EVENt]? or S:O:E? PARAMETERS: None QUERY FORM: Only query form. The contents of the 16 bit register are returned as a decimal value. RESTRICTION: None STATus:QUEStionable:CONDition? (short form ->...
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STATus:QUEStionable:FRESistance? (short form -> S:Q:F?) DESCRIPTION: The status of the resistance measurement is returned. STATus:QUEStionable:FRESistance? or S:Q:F? SYNTAX: PARAMETERS: None QUERY FORM: Only query form. The contents of the 8 bit register are returned as a hexadecimal value. If an error occurs, the corresponding bit is set to 1. RESTRICTIONS: None Bit 7...
6.3.2 SYSTem Subsystem SYSTem:ERRor? DESCRIPTION: The contents of the error buffer are requested. SYNTAX: SYSTem:ERRor? PARAMETERS: None QUERY FORM: Only query form RESTRICTIONS: None List of error messages -0, NO ERROR: No error is present. -100, COMMAND ERROR: An invalid command was sent. -101, INVALID CHARACTER: The command contains an invalid character.
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SYSTem:VERSion? DESCRIPTION: The SCPI version is requested. SYNTAX: SYSTem:VERSion? PARAMETERS: None QUERY FORM: Only query form RESPONSE: 1995.0 RESTRICTION: Keine SYSTem:DATE DESCRIPTION: The date can be requested and adjusted here. SYSTem:DATE <parameter> SYNTAX: PARAMETERS: yyyy, mm, dd (year, month, day) SYSTem:DATE? QUERY FORM: RESPONSE:...
6.3.3 DISPlay Subsystem DISPlay:CONTrast DESCRIPTION: The LCD contrast is adjusted here. DISPlay:CONTrast <parameter> SYNTAX: PARAMETERS: A value between 0 and 1. 1 -> maximum contrast, 0 -> minimum contrast QUERY FORM: DISPlay:CONTrast? RESPONSE: A value between 0 and 1. RESTRICTION: This command is not permissible if a measurement is in progress or the device is in the calibration mode.
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DISPlay:TEMPerature DESCRIPTION: This activates/inactivates the display of the temperature or setpoint value in the main menu. DISPlay:TEMPerature <parameter> SYNTAX: PARAMETERS: 1 or ON -> Temperature or setpoint value display is on. 0 or OFF -> Temperature or setpoint value display is off. DISPlay:TEMPerature? QUERY FORM: RESPONSE:...
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DISPlay:AUTO DESCRIPTION: The activates/deactivates the AUTO / display in the main menu. SYNTAX: DISPlay:AUTO <parameter> PARAMETERS: 1 or ON -> AUTO / MAN display on. 0 or OFF -> AUTO / MAN display off. QUERY FORM: DISPlay:AUTO? RESPONSE: 1 -> If AUTO / MAN display is on. 0 ->...
6.3.4. SOURce Subsystem SOURce:VOLTage:LIMit:STATe This activates/deactivates the 20 mV limiter. DESCRIPTION: SOURce:VOLTage:LIMit:STATe <parameter> SYNTAX: 1 or ON -> The 20 mV limiter is on. PARAMETERS: 0 or OFF -> The 20 mV limiter is off. SOURce:VOLTage:LIMit:STATe? QUERY FORM: 1 -> If the 20 mV limiter is on. RESPONSE: 0 ->...
ABORt (short form -> AB) This stops a measurement. DESCRIPTION: ABORt SYNTAX: None PARAMETERS: None QUERY FORM: — RESPONSE: REMARKS: This command also exists in a special short form: AB RESTRICTION: This command is not permissible in the calibration mode. 6.3.6 Measurement Instructions FETCh? (Kurzform ->...
MEMory:STATe:NAME DESCRIPTION: This supplies the ID related to a memory number (device setting). MEMory:STATe:NAME? <number> SYNTAX: PARAMETERS: A memory number between 0 and 32 QUERY FORM: Only query form. RESPONSE: An ID with a maximum length of 10 characters related to the memory number.
6.3.9 HCOPy Subsystem HCOPy:ABORt DESCRIPTION: This stops the printer. SYNTAX: HCOPy:ABORt PARAMETERS: None HCOPy:ABORt? QUERY FORM: RESPONSE: 1 -> If the printer function is on. 0 -> If the printer function is off. RESTRICTION: This command is not permissible in the calibration mode. HCOPy[:IMMediate] DESCRIPTION: This starts the printer.
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HCOPy:ITEM:NUMerator:STATe DESCRIPTION: This activates/deactivates printing of the numerator. SYNTAX: HCOPy:ITEM:NUMerator:STATe <parameter> PARAMETERS: 1 or ON -> The numerator is printed out. 0 or OFF -> The numerator is not printed out. HCOPy:ITEM:NUMerator:STATe? QUERY FORM: RESPONSE: 1 -> If numerator printout is active. 0 ->...
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HCOPy:ITEM:Date:STATe DESCRIPTION: This activates/deactivates printing of the date. SYNTAX: HCOPy:DATE:LABel:STATe <parameter> PARAMETERS: 1 or ON -> The date is printed out. 0 or OFF -> The date is not printed out. HCOPy:DATE:LABel:STATe? QUERY FORM: RESPONSE: 1 -> If date printout is active. 0 ->...
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HCOPy:TDSTam DESCRIPTION: This sets the printing time interval. SYNTAX: HCOPy:TDSTamp <hh>,<mm>,<ss> PARAMETERS: The printing time interval: hh,mm,ss. The hours, minutes and seconds are separated from each other with commas. HCOPy:TDSTamp? QUERY FORM: RESPONSE: The selected printing time interval: hh,mm,ss. The hours, minutes and seconds are separated from each other with commas: RESTRICTION: This command is not permissible if a measurement is in progress or the...
6.3.10 CALCulate Subsystem CALCulate:LIMit:STATe DESCRIPTION: This activates/deactivates the comparator. SYNTAX: CALCulate:LIMit:STATe <parameter> PARAMETERS: 1 or ON -> The comparator is on. 0 or OFF -> The comparator is off. QUERY FORM: CALCulate:LIMit:STATe? RESPONSE: 1 -> If the comparator is on. 0 ->...
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CALCulate:LIMit:FAULt DESCRIPTION: This specifies the comparator's response in the event of a measurement error. CALCulate:LIMit:FAULt <parameter> SYNTAX: PARAMETERS: UPPer -> In the event of an error, the comparator indicates that the measured value is too high. NONE -> The comparator does not respond in the event of an error. QUERY FORM: CALCulate:LIMit:FAULt? RESPONSE:...
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CALCulate:LIMit:LOWer DESCRIPTION: This specifies the lower limit when 2 comparator limits are selected. SYNTAX: CALCulate:LIMit:LOWer <parameter> PARAMETERS: The lower limit with an optional unit. Valid units: UOHM, MOHM, OHM, KOHM, MAOHM. If no unit is specified, the unit of the value is interpreted as OHM.
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CALCulate:LIMit:GW1 DESCRIPTION: This specifies limiting value 1 (smallest value GW1) when 4 comparator limits are selected. CALCulate:LIMit:GW1<parameter> SYNTAX: PARAMETERS: Limit 1 with an optional unit. Valid units: UOHM, MOHM, OHM, KOHM, MAOHM. If no unit is specified, the unit of the value is interpreted as OHM.
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CALCulate:LIMit:GW3 DESCRIPTION: This specifies limiting value 3 (second largest value GW3) when 4 comparator limits are selected. SYNTAX: CALCulate:LIMit:GW3<parameter> PARAMETERS: Limit 3 with an optional unit. Valid units: UOHM, MOHM, OHM, KOHM, MAOHM. If no unit is specified, the unit of the value is interpreted as OHM.
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CALCulate:LIMit:ACKNowledge? DESCRIPTION:. This tests and saves the comparator limits. CALCulate:LIMit:ACKNowledge? SYNTAX: PARAMETERS: None QUERY FORM: Only query form RESPONSE: 1 -> If the limit test is OK, the values are saved. 0 -> If the limit test is not OK, the values are not saved. RESTRICTIONS: This command is not permissible if a measurement is in progress or the device is in the calibration mode.
6.3.11 SENSe Subsystem SENSe:TCOMpensate DESCRIPTION: This sets the type of temperature measurement for temperature compensation. SENSe:TCOMpensate <parameter> SYNTAX: PARAMETERS: MAN -> The temperature value entered via the interface or keypad is used. Pt100 -> Measurement via the Pt100 input. UINP -> Measurement via the external U-input.
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SENse:ENVelope:STATe DESCRIPTION: This activates/deactivates the max./min. function SYNTAX: SENSe:ENVelope:STATe <parameter> PARAMETERS: 1 or ON -> The max./min. function is on. 0 or OFF -> The max./min. function is off. SENSe:ENVelope:STATe? QUERY FORM: RESPONSE: 1 -> If the max./min. function is on. 0 ->...
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SENSe:TCOMpensate:TEMPerature DESCRIPTION: This sets the temperature for manual temperature compensation. In the query form you get the present temperature. SYNTAX: SENSe:TCOMpensate:TEMPerature <parameter> PARAMETERS: Temperature value, optionally with a unit (C or CEL) SENSe:TCOMpensate:TEMPerature? QUERY FORM: RESPONSE: The set temperature value and a corresponding unit (CEL) or the topical temperature at autom.
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SENSe:AVERage:TCONtrol DESCRIPTION: The selects the type of averaging operation. SYNTAX: SENSe:AVERage:TCONtrol <parameter> PARAMETERS: MOVing -> A moving average value is formed. REPeat -> Average values are formed repeatedly. SENSe:AVERage:TCONtrol? QUERY FORM: RESPONSE: MOV -> If a moving average value is selected. REP ->...
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SENSe:FRESistance:MODE DESCRIPTION: This sets the type of measurement procedure. SYNTAX: SENSe:FRESistance:MODE <parameter> PARAMETERS: REFComp -> Zero measurement. NONComp -> No zero measurement. ONEComp -> Single zero measurement at the start. STANdard -> Alternate zero measurement and measurement with the power on. ITEST ->...
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SENSe:TCOMpensate:TEMPerature:REFerence DESCRIPTION: This sets the reference temperature for temperature compensation. SYNTAX: SENSe:TCOMpensate:TEMPerature:REFerence <parameter> PARAMETERS: The reference temperature, optionally with a unit (C or CEL). SENSe:TCOMpensate:TEMPerature:REFerence? QUERY FORM: RESPONSE: The selected reference temperature and a corresponding unit (CEL). RESTRICTIONS: This command is not permissible if a measurement is in progress or the device is in the calibration mode.
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SENSe:FRESistance:RANGe:UPPer DESCRIPTION: This sets the largest permissible measurement range for automatic range selection. SYNTAX: SENSe:FRESistance:RANGe:UPPer <parameter> 2 Ω. PARAMETERS: 2OHM -> largest range is 20 Ω. 20OHM -> largest range is 200OHM -> largest range is 200 Ω. 2KOHM -> largest range is 2 kΩ.
SENSe:FRESistance:RANGe:MANual DESCRIPTION: This sets the measuring range for manual range selection. SYNTAX: SENSe:FRESistance:RANGe:MANual <parameter> PARAMETERS: 200MOHM -> manual range is 200 mΩ. 2 Ω. 2OHM -> manual range is 20 Ω. 20OHM -> manual range is 200OHM -> manual range is 200 Ω.
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SCALe:VOLTage DESCRIPTION: This scales the external U-input. SYNTAX: SCALe:VOLTage <u1>,<u2>,<t1>,<t2> PARAMETERS: Current value 1 (related to t1) Current value 2 (related to t2) Temperature value 1 (related to u1) Temperature value 2 (related to u2) Both pairs of values are used to calculate the linearization curve. QUERY FORM: SCALe:VOLTage? RESPONSE:...
6.3.13 ACCess Subsystem ACCess:MEASure DESCRIPTION: This enables/disables access to the measurement-parameter menu. ACCess : MEASure <parameter> SYNTAX: PARAMETERS: 1 or ON -> Enables access to the measurement-parameter menu. 0 or OFF ->Disables access to the measurement-parameter menu. ACCess:MEASure? QUERY FORM: RESPONSE: 1 ->If access to the measurement-parameter menu is enabled.
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ACCess:COMPensation DESCRIPTION: This enables/disables access to the temperature-compensation menu. SYNTAX: ACCess:COMPensation <parameter> PARAMETERS: 1 or ON -> Enables access to the temperature-compensation menu. 0 or OFF -> Disables access to the temperature-compensation QUERY FORM: ACCess:COMPensation? RESPONSE: 1 -> If access to the temperature-compensation menu is enabled. 0 ->...
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ACCess:CONTrast DESCRIPTION: This enables/disables access to the contrast-setting menu. SYNTAX: ACCess:CONTrast <parameter> PARAMETERS: 1 or ON -> Enables access to the contrast-setting menu. 0 or OFF -> Disables access to the contrast-setting menu. ACCess:CONTrast? QUERY FORM: RESPONSE: 1 -> If access to the contrast-setting menu is enabled. 0 ->...
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ACCess:CALibration DESCRIPTION: This enables/disables access to the calibration menu. SYNTAX: ACCess:CALibration <parameter> PARAMETERS: 1 or ON -> Enables access to the calibration menu. 0 or OFF -> Disables access to the calibration menu. ACCess:CALibration? QUERY FORM: RESPONSE: 1 -> If access to the calibration menu is enabled. 0 ->...
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ACCess:DATE DESCRIPTION: This enables/disables access to the date/time menu. ACCess:DATE <parameter> SYNTAX: PARAMETERS: 1 or ON -> Enables access to the date/time menu. 0 or OFF -> Disables access to the date/time menu. ACCess:DATE? QUERY FORM: RESPONSE: 1 -> If access to the date/time menu is enabled. 0 ->...
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ACCess:ENVelope:CONfigure DESCRIPTION: This enables/disables access to the max./min. measurement function. SYNTAX: ACCess:ENVElope:CONfigure <parameter> PARAMETERS: 1 or ON -> Enables access to the max./min. measurement function. 0 or OFF -> Disables access to the max./min. measurement function. ACCess:ENVelope:CONfigure? QUERY FORM: RESPONSE: 1 -> If access to the max./min. measurement function is enabled. 0 ->...
ACCess:MANRange DESCRIPTION: This enables/disables access to manual range selection. (From the main menu: RGE [↑] and RGE [↓] keys) ACCess:MANRange <parameter> SYNTAX: PARAMETERS: 1 or ON -> Enables access to manual range selection. 0 or OFF -> Disables access to manual range selection. ACCess:MANRange? QUERY FORM: RESPONSE:...
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DATalogger:MAXimum? DESCRIPTION: This calculates and fetches the maximum value of a datalogger block. SYNTAX: DATalogger:MAXimum? <parameter> PARAMETERS: The datalogger block number (0 to 31). QUERY FORM: Only query form RESPONSE: The maximum value in MOHM, OHM or KOHM. RESTRICTIONS: This command is not permissible if a measurement is in progress or the device is in the calibration mode.
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DATalogger:COUNt? DESCRIPTION: This returns the number of memory locations occupied by a datalogger block and the whole datalogger. DATalogger:COUNt? <parameter> SYNTAX: PARAMETERS: The datalogger block number (0 to 31). QUERY FORM: Only query form RESPONSE: Number of memory locations occupied by the datalogger block in question. Without the parameter it returns the free memory Locations of the whole datalogger.
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DATalogger:SELect:NAME DESCRIPTION: This selects a datalogger block by its name. SYNTAX: DATalogger:SELect:NAME <parameter> PARAMETERS: The ID (max. length of 10 characters) of a datalogger block. QUERY FORM: DATalogger:SELect:NAME? <parameter> RESPONSE: The number (0 to 31) of the selected datalogger block. RESTRICTIONS: This command is not permissible if a measurement is in progress or the device is in the calibration mode.
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DATalogger:FILTer:XVALue DESCRIPTION: This sets the XVALue filter parameter for a datalogger block. Every xth value is stored in this case. DATalogger:FILTer:XVALue <bl>, <x-Wert> SYNTAX: PARAMETERS: bl, x-value bl -> Block number between 0 and 31. x-value -> Value between 2 and 9999. QUERY FORM: DATalogger:FILTer:XVALue? <bl>...
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DATalogger:STATe:NAME? DESCRIPTION: This returns the name/ID related to a datalogger block number. SYNTAX: DATalogger:STATe.NAME? <bl> PARAMETERS: bl: Block number between 0 and 31. QUERY FORM: Only query form RESPONSE: The ID (max. length of 10 characters) of datalogger block number <bl>. RESTRICTIONS: This command is not permissible if a measurement is in progress or the device is in the calibration mode.
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DA? (short form) DESCRIPTION: This retrieves 20 measurement values stored in a datalogger block. SYNTAX: DA? <bl>, <num> PARAMETERS: bl: Block number 0 to 31 num: Number of the measurement value in the block (num >=1) QUERY FORM: Only query form RESPONSE: 20 consecutive measurement values, starting with the value at memory location <num>.
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DATalogger:DATA:ALL? DESCRIPTION: This retrieves a stored measurement value together with the corrseponding date and time. DATalogger:DATA:ALL? <bl>, <num> SYNTAX: PARAMETERS: bl: Block number 0 to 31 num: Number of the measurement value in the block (num >=1) QUERY FORM: Only query form RESPONSE: The stored measurement value together with the corrseponding date and time.
6.3.15 IEEE488.2 commands *CLS DESCRIPTION: The device is set to the Operation-Complete-Idle state. The device is set to the Operation-Query-Complete-Idle state. The error buffer is deleted. The Operation-Event-Status-Register is reset. The Questionable-Event-Status-Register is reset. The Status Byte is reset. SYNTAX: *CLS PARAMETERS: None...
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SYNTAX: *IDN? PARAMETERS: None QUERY FORM: Only query form RESPONSE: BURSTER, RESISTOMAT 2329, SNsssssss, Vxxxx, Cyyyy RESTRICTIONS: None *OPC DESCRIPTION: The device is set to the Operation-Complete-Active state (OCAS). In the OCAS, the Operation-Complete bit in the Standard-Event-Register is set when an operation is completed.
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*RST DESCRIPTION: The device is set to a defined initial state. The interface settings remain unchanged, and the device stays in the remote mode. *RST SYNTAX: PARAMETERS: None QUERY FORM: None RESPONSE: — RESTRICTIONS: None *SRE DESCRIPTION: The Service-Request-Enable-Register is set. *SRE <parameter>...
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*WAI DESCRIPTION: This command sets a device so that all other commands are processed sequentially. This command does not have a function in the case of the RESISTOMAT 2329, as commands are always processed sequentially by this ® device. Thus, the command is simply recognized by the RESISTOMAT 2329.
6.4. Status Register 6.4.1 Standard Event Status Register Bits used Meaning Bit 0 Operation This bit is set in response to the *OPC command. Complete It indicates that the previous command has been executed. Bit 2 Query This bit indicates that either Error Data were requested although none are present, or...
Description: Sample program for 2329-RS232 ‘* ‘* Remarks: ‘* ‘* Copyright by burster präzisionsmesstechnik, Gernsbach 07224-6450 ‘**************************************************************************************************************************************** ‘Declaration of the functions used DECLARE FUNCTION CmdSenden (cmd$) Send command DECLARE SUB CmdEmpfangen (antwort$) ‘Receive response from device DECLARE FUNCTION AbfrageSOC () ‘Request Status Operation Condition Register...
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DO WHILE (done% <> 1) done% = AbfrageSOC ‘Scan the Status Operation Condition Register IF (done% = -1) THEN ‘Abort in the event of an error SYSTEM END IF LOOP befehl$ = "fe?" ‘Fetch a measurement value IF (CmdSenden(befehl$) = 0) THEN SYSTEM END IF CALL CmdEmpfangen(antwort$...
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EOT$ = CHR$(4) ACK$ = CHR$(6) NAK$ = CHR$(21) LF$ = CHR$(10) PRINT #3, EOT$ ‘Switch device to master mode StartEmpfang: ant$ = " " ‘Delete response string stri$ = " " ‘Delete measurement-value string ant$ = INPUT$(1, #3) WHILE (ant$ <> ETX$) AND (ant$ <> EOT$) ‘While ETX or EOT is not received IF ant$ >= CHR$(32) THEN ‘If no special characters are present stri$ = stri$ + ant$ ‘Form Status String END IF...
IEEE card. ‘* The AT-GPIB/TNT made by National Instruments is used ‘* in this example. ‘* ‘* Copyright by burster präzisionsmesstechnik, Gernsbach 07224-6450 ‘******************************************************************************************************************************************** ‘Declaration of the functions used DECLARE FUNCTION CmdSenden (id2329%, CMD$) ‘Send command DECLARE FUNCTION CmdEmpfangen (id2329%, antwort$) DECLARE FUNCTION AbfrageSRQ (id2329%) ‘‘Request Status Operation Condition Register...
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‘The next command is a 488.2 command. It receives the ‘device address and the timeout as parameters. 'The device handle (id2329) returned. CALL IBDEV (0, adr, 0, T10s, 1, 0, id2329%) IF (id2329% < 0) THEN 'In the event of an error, invoke the error routine CALL gpiberr ("ibdev Error) SYSTEM END IF...
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LOOP befehl$ = "fe?" ‘Fetch measurement value IF (CmdSenden(id2329%, befehl$) = 0) THEN ‘Send command antwort$ = SPACE$(12) ‘Pre-assign buffer IF (CmdEmpfangen(id2329%, antwort$) = 1) THEN ‘Fetch measurement value REM LOCATE 15, 3 PRINT i; " Widerstandswert: "; antwort$ ‘Display measurement value i = i + 1 ELSE SYSTEM...
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CASE ELSE AbfrageSRQ = 0 ‘Continue waiting for SRQ END SELECT END FUNCTION FUNCTION CmdEmpfangen (id2329%, antwort$) ‘**************************************************************************************************************************************** ‘Receive response from 2329 ‘**************************************************************************************************************************************** DIM help$(100) CALL IBRD(id2329%, antwort$) ‘Fetch string from IEC-BUS IF (IBSTA% AND EERR) THEN CALL gpiberr("ibrd Error") antwort$ = "...
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‘ PRINT msg$ PRINT "ibsta = &H“; HEX$(IBSTA%); " <"; IF IBSTA% AND EERR THEN PRINT " ERR"; IF IBSTA% AND TIMO THEN PRINT " TIMO"; IF IBSTA% AND EEND THEN PRINT " END"; IF IBSTA% AND SRQI THEN PRINT " SRQI"; IF IBSTA% AND RQS THEN PRINT "...
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antwort$ = SPACE$(5 ‘Pre-assign buffer IF (CmdEmpfangen(id2329%, antwort$) = 0) THEN ‘Fetch register contents SYSTEM END IF LeseOperEventReg = VAL(antwort$) ‘Return value END FUNCTION FUNCTION LeseQuestFresReg (id2329%) ******************************************************************************************************************************** ‘Read out Questionable Fres Register ‘******************************************************************************************************************************** DIM befehl$(50) befehl$ = "stat:ques:fres?" ‘Scan register IF (CmdSenden(id2329%, befehl$) = 0) THEN SYSTEM END IF...
6.6. Error status display 6.6.1 Error status display in the error status field In the event of an error, a corresponding error status appears in status line 2 (page 27) of the display field S. 2.2. Hexadecimal display MI-Over: Measurement current too high (in the 20-mV mode) or ▼...
6.6.2 Error status display in the temperature display field If 80 appears in the error status field S. 2.2 (page 27), the temperature display field S. 1.3 (page 27) also indicates a hexadecimal number which can be used to evaluate the error. The following errors can be displayed: Hexadecimal display ▼...
7.3 Manufacturer's guarantee burster garantees the reliable operation of the device for a period of 12 months following its delivery. Repairs required within this period will be performed free-of-charge. This guarantee does not cover damage arising from improper handling of the device.
8. Technical Data Only values with tolerances or limits can be taken as guaranteed. Values without tolerances serve purely as orientation and are not binding. Te RESISTOMAT model 2329 is easy to maintain and has a robust metal housing. The individual modules ®...
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General data Display: 128 x 64 pixel, transflective LCD graphic display with individually adjustable contrast and background illumination. Display of measurement values: 3 1/2 or 4 1/2 digit as required, 15 mm high, Indication: absolute, ∆% or evaluation >>, >, =, <, << Power supply: 230 V ±...
9. Disposal Battery disposal As an end user, you are required by law (battery ordinance) to return all used batteries and rechargeable batteries; the disposal through household waste is prohibited. By buying the herein described device you are concerned by this law. Please dispose of your batteries and rechargeable batteries correctly.
10. Appendix - Control Example for device settings Example for device setting: Coil approx. 1.5 Ω Test object: (set Z) Evaluation: 2 Limits (set 2LI) lower Limit 1.4 Ω upper Limit 1.6 Ω Temperatur compensation: Material of the coil wire with Pt100 is copper (set TC 3980 ppm) Meas.
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Meas. mode → Meas. mode set CONTINUOUS Parameter selection menu Choose temperature compensation (see manual pageSeite 46) Temp. Comp. menu → TEMP. COMP. Activation of temp.-meas. → MEASUREMENT Pt100 Choose the temp.-cofficient Choose TC5 3980 Press 2x F4, return to parameter selection menu. Comparator setting menu (see manual page 42) Comparator menu →...
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▲ Switch to page 2 (S2) and set the limits Set the lower limit LLI Set the upper limit ULI → Parameter selection menu ▼ Choose page 2 (S2) in the parameter selection menu. Store the device setting Device setting menu (see manual pageSeite 51) Input the device setting number e.g.
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