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© 2023
burster
praezisionsmesstechnik gmbh & co kg
All rights reserved
Valid from:
22.08.2023
OPERATION MANUAL
(preliminary)
DIGISTANT
Model 4463
Manufacturer:
burster
praezisionsmesstechnik gmbh & co kg
Talstr. 1 - 5
76593 Gernsbach
Germany
Tel.: +49-7224-645-0
Fax.: +49-7224-645-88
Email: info@burster.com
www.burster.com
®
P.O. Box 1432
76587 Gernsbach
Germany
4427-BA4463EN-5999-081531
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Related Manuals for Burster DIGISTANT 4463
Summary of Contents for Burster DIGISTANT 4463
- Page 1 © 2023 burster burster praezisionsmesstechnik gmbh & co kg praezisionsmesstechnik gmbh & co kg All rights reserved Talstr. 1 - 5 P.O. Box 1432 76593 Gernsbach 76587 Gernsbach Germany Germany Valid from: 22.08.2023 Tel.: +49-7224-645-0 Fax.: +49-7224-645-88 Email: info@burster.com www.burster.com 4427-BA4463EN-5999-081531...
- Page 2 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.
- Page 3 of 86...
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Page 4: Table Of Contents
Contents For your safety ........................... 6 Symbols used in this manual ....................... 6 1.1.1 Signal words ........................6 1.1.2 Pictograms ........................6 Symbols on the device ......................... 7 Introduction ..........................8 Intended use ..........................8 Customer service ......................... 8 2.2.1 Customer service department .................. - Page 5 Main menu ..........................21 6.1.1 Settings menu ........................ 21 Setting the function ........................23 6.2.1 Voltage ........................... 23 6.2.2 Current ........................... 24 6.2.3 TC ..........................24 6.2.4 Frequency ........................25 6.2.5 RTD ..........................26 6.2.6 Resistance ........................26 Preset menu ..........................27 Setting the value of output signal ....................
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Page 6: For Your Safety
For your safety The following symbols on the DIGISTANT model 4463 and in this operation manual warn of hazards. ® Symbols used in this manual 1.1.1 Signal words The following signal words are used in the operation manual according to the specified hazard classification. -
Page 7: Symbols On The Device
Symbols on the device Symbol Description Warning, reference to the documentation Warning of electrical shock hazard WARNING! To prevent electrical shock do not open Warning of electrical shock hazard. covers. Refer to Do not open covers. qualified personnel. No user serviceable parts inside. -
Page 8: Introduction
If you have any questions relating to the DIGISTANT model 4463, please go directly to burster ® praezisionsmesstechnik gmbh & co. kg, or if outside Germany, please contact your burster agent (see also www.burster.com). Head office burster praezisionsmesstechnik gmbh & co kg Talstr. -
Page 9: Ambient Conditions
Ambient conditions 2.4.1 Storage conditions The following requirements must be met when storing the DIGISTANT model 4463: ® • Store at temperatures between -10 °C and +55 °C • The unit must be packed in clean packaging • Store in a dry environment •... -
Page 10: Personnel
DIGISTANT model 4463. ® burster is happy to provide your operating personnel with training on the DIGISTANT model 4463. To ® find out more, please look at our range of services at www.burster.com. -
Page 11: Contents Of Pack
Warranty burster praezisionsmesstechnik gmbh & co kg provides a manufacturer's warranty for a period of 24 months after delivery. Any repairs required during this time will be made without charge. This does not include damage arising from improper use. -
Page 12: 2.10 Conversions And Modifications
It is not permitted to make any changes to the DIGISTANT ® model 4463 without the written agreement of burster praezisionsmesstechnik gmbh & co kg. burster praezisionsmesstechnik gmbh & co kg does not accept liability for damages or injury if this condition is disregarded. Device design •... -
Page 13: Controls And Connections
Figure 1: Voltage supply Controls and connections Front panel Figure 2: Front panel of 86... - Page 14 Number Meaning Display Softkeys Number keys Step function , , , Arrow buttons Operation ON / OFF FREQ terminal Resistance 4 W and RTD 4 W function Pt100 terminal for external Pt100 sensor Sensor is used for external RJ compensation in TC function GND terminal (PE protective earth) Voltage sense terminals for voltage 4 W function...
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Page 15: Front Terminals
Front terminals Figure 3: Front terminals Designation Meaning +OUT, -OUT Main terminals for Voltage, Current and TC functions +S, -S Sense terminals for Voltage 4 W function PT100 Input connector for external Pt100 temperature sensor. Sensor is used for external RJ compensation in TC function Ground terminal is connected to the metal case (PE protective ⏚... -
Page 16: Rear View
Rear view Figure 4: Rear view Number Meaning RS232-interface Power switch Power connection USB-interface Ethernet interface Table 2: Rear view of 86... -
Page 17: Display
Display Figure 5: Display The display is divided into four sections: Information line • Selected function (VOLTAGE 2W, CURRENT, …) • Real time Main area This section displays the set-up values of generated signals and the data related to the device status. The section includes the following types of data: 1. - Page 18 Figure 6: Softkeys Function – Setting the function. See chapter 6.2 Settings – Auxiliary parameter of selected function. See chapter 6.1.1 Preset – One click setup of all function parameters. See chapter 6.3 Menu – General settings and auxiliary parameters of all functions. See chapter 6.1 of 86...
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Page 19: Using The Instrument For The First Time
Using the instrument for the first time DANGER Electrical shock hazard Never switch on the DIGISTANT model 4463 if it shows signs of damage incurred ® in transit. Only ever use the DIGISTANT model 4463 under the conditions ® specified in this operation manual. Power on 1. -
Page 20: Warm-Up Time
Warm-up time The instrument is ready after it is switched on and the initial checks complete. Specified parameters are guaranteed only when internal temperature reaches certain point. Symbol appears on display when internal temperature gets out of range (e.g. on startup, ambient temperature is too high or too low), specified parameters are not guaranteed in such state. -
Page 21: Manual Operation Of The Device
Manual operation of the device Main menu Main menu is displayed after pressing „Menu“ softkey. Main Menu allows configuration and calibration of the device. Figure 10: Setup menu Required menu item is highlighted using cursor keys ▲,▼ or display softkeys. Highlighted menu is selected by pressing SELECT key or „Select“... - Page 22 Device This menu summarizes settings of auxiliary parameters for all functions. For description of individual items see chapter 6.2 titled Setting the function page 23. System This menu permits setting system parameters of device. • Language Language setting. • Backlight Display backlight level setting.
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Page 23: Setting The Function
Setting the function Function can be changed after pressing „Function“ softkey. New function is selected using cursor keys ▲,▼ or display softkeys. Selection must be confirmed by pressing SELECT key, ENTER key or „OK“ softkey. Figure 12: Function selection 6.2.1 Voltage Offers direct setting of DC voltage. -
Page 24: Current
6.2.2 Current Offers direct setting of DC current. Figure 14: Current screen Parameters: Limit: 1.00 V … 100.00 V Maximum output voltage without limiting the output current. Parameter can be changed in the switch position “Adjustable”. In the switch position “Maximum”... -
Page 25: Frequency
- Blue editable value for Manual RJ mode. Auxiliary parameters (Settings): Terminal ground: On, Off Connects LO terminal with the protective earth (PE) terminal in On state. On state is indicated by the GND symbol ⏚ next to the main value. Temperature unit: °C, °F, K External RJ: Folder with all RJ settings. -
Page 26: Rtd
6.2.5 Offers direct setting of temperature of simulated resistance thermometer. Figure 17: Platinum screen Parameters: RTD Type: Platinum, Nickel Standard: PT385 (68), PT385 (90), PT3916, PT3926, PT User 100 Ω … 1000 Ω Auxiliary parameters (Settings): Wire connection: 2W, 4W Two or four wire output configuration. -
Page 27: Preset Menu
Auxiliary parameters (Settings): Wire connection: 2W, 4W Two or four wire output configuration. Terminal ground: On, Off Connects Li and Lu terminals with the protective earth (PE) terminal in On state. On state is indicated by the GND symbol ⏚ next to the main value. Steps: Definition of 32 user programmable timing sequences. - Page 28 Entry of the value using numeric keyboard 1. Use the numeric keyboard to set the desired value. 2. After the first digit is entered, input box is displayed. In the upper row of the input box is the name of edited parameter. 3.
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Page 29: Remote Control Of The Device
Remote control of the device Remote control Device can be controlled via RS232, GPIB, LAN and USB interface. Only one bus can be set as active for communication. It is therefore necessary to select and set-up one of the interfaces using the system menu. -
Page 30: Gpib Interface (Option)
RS232 cable wiring between device and computer (configuration 1:1) Computer D-Sub 1 D-Sub 2 Device Receiver Transmitter Transmitter Receiver Ground Ground Table 3: RS232 cable connection 7.1.2 GPIB Interface (option) Device can be controlled via GPIB (General Purpose Interface Bus) interface. Following equipment is required: •... -
Page 31: Usb Interface (Option)
DHCP IP Address 192.168.001.100 only valid if DHCP is OFF Subnet mask 255.255.255.000 only valid if DHCP is OFF Default gateway 255.255.255.255 only valid if DHCP is OFF Port number Host name 4463_SNXXXXXX only valid if DHCP is ON If DHCP (Dynamic Host Configuration Protocol) is enabled, the IP Address and all necessary settings are done automatically and connection in Telnet protocol is done via “Host name”... -
Page 32: Command Syntax
Communication from user control program is performed via standard RS232 interface. Following settings must be set on your PC for proper operation: Baudrate 9600 Bd Data bits Stop bits Parity None Also proper COM port must be selected. After connecting device to your PC, virtual COM port should appear in System Control panel of Microsoft Windows OS. -
Page 33: Scpi Command Tree
7.1.6 SCPI Command Tree This chapter summarizes all public SCPI commands supported by device in alphabetic order. Detailed description follows in next chapter. :CALibration :DATE(?) <DNPD>,<DNPD>,<DNPD> :INTerval(?) <DNPD> :POINt :AMPLitude(?) <DNPD> :CONVerter? <DNPD> :DATE(?) <DNPD>,<DNPD>,<DNPD> :MEASure? <DNPD> :MODE(?) <DNPD> :SELect(?) <DNPD> :SAVE :SECure :EXIT... - Page 34 :CDC [:AMPLitude](?) <DNPD>[A] :RANGe(?) {AUTO|50MA|25MA} :LIMiting [:AMPLitude](?) <DNPD>[V] :RESet(?) {ADJustable|MAXimum} :RTD [:AMPLitude](?) <DNPD>[{CEL|FAR|K}] :TYPE(?) {PLATinum|NICKel} :ZRESistance(?) <DNPD>[OHM] :STANdard(?) {PT385A|PT385B|PT3916|PT3926|USER} :COEFficient(?) <DNPD>,<DNPD>,<DNPD> :TCPL [:AMPLitude](?) <DNPD>[{CEL|FAR|K}] :TYPE(?) {R|S|B|J|T|E|K|N|M|C|D|G2} :RJMode(?) {MANual|EXTern} :RJAMplitude(?) <DNPD> :RJEXtern :TYPE (?) {PLATinum|NICKel} :RJMode (?) <DNPD>[OHM] :PTSTandard(?) { PT385A|PT385B |PT3916|PT3926|PTUSER} :COEFficient(?) <DNPD>,<DNPD>,<DNPD>...
- Page 35 :TCPL :RJAMplitude(?) <DNPD> :STATus :OPERation :CONDition(?) <DNPD> :ENABle(?) <DNPD> [:EVENt]? <DNPD> :NTRansition(?) <DNPD> :PTRansition(?) <DNPD> :QUEStionable :CONDition(?) <DNPD> :ENABle(?) <DNPD> [:EVENt]? <DNPD> :NTRansition(?) <DNPD> :PTRansition(?) <DNPD> :SYSTem :BEEPer :STATe(?) {ON|OFF|1|0} :VOLume(?) <DNPD> :KEYBoard(?) {ON|OFF|1|0} :COMMunicate :BUS(?) {SERial|GPIB|USB|LAN} :GPIB :ADDRess(?) <DNPD> :LAN :ADDRess(?) <CPD>...
- Page 36 *OPC(?) *OPT? *RST *SRE(?) *STB? *TST? *WAI of 86...
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Page 37: Standard Status Data Structures
7.1.7 Standard Status Data Structures Device meets standard protocol according to the standard IEEE488.2. The protocol can be used for checking of error and status behavior of the device. It enables single-wire transmitting of SRQ command. The conditions on which SRQ signal (local control request) is sent can be set with parameters *STB?, *SRE?, *SRE, *ESR?, *ESE?, *ESE a *CLS. - Page 38 Request Service, bit 6. The bit is read as a part of status byte only when serial message is sent. Master Summary Status, bit 6. The MSS bit is set to 1 whenever bits ESB or MAV are 1 and enabled (1) in the SRE. This bit can be read using the *STB? command. Its value is derived from STB and SRE status.
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Page 39: Scpi Standard Commands
<CPD>: manufacturer <CPD>: model <DNPD>: serial number <DNPD>: firmware version Remarks: Overlapped command Example: *IDN? Response: burster, 4463, 712341,1.000 *OPC Syntax: *OPC Description: This command sets the OPC bit in the ESR (Event Status Register) when all pending operations are complete. - Page 40 Syntax: *OPC? Description: This command returns “1” to the output queue after all pending operations inside device are complete. Parameters: <DNPD>: always returns 1 Remarks: Sequential command Example: *OPC? Response: 1 *OPT? Syntax: *OPT? Description: This command return the instrument’s hardware fitment. The only parameter returns presence of GPIB/LAN/USB interface.
- Page 41 Syntax: *TST? Description: This command launches internal self-test and returns result. Parameters: <DNPD>: 0 – test passed, 1 – test failed Remarks: Sequential command Example: *TST? Response: 0 *STB? Syntax: *STB? Description: This query returns content of register STB, which carries the MSS bit status. Parameters: <DNPD>: Status byte register, Range 0 …...
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Page 42: Scpi Commands
Syntax: *ESE *ESE? Description: This command programs the Event Status Enable register bits. Parameters: <DNPD>: Event Status Enable register, Range 0 … 255 Remarks: Overlapped command Example: *ESE 2 *ESE? Response: 2 *CLS Syntax: *CLS Description: This command clears all status data structures in the device i.e. Event Status Register, Status Byte Register except the MAV bit, Operation Status Register, Questionable Status Register. - Page 43 Description: This command sets recommended calibration interval for this unit. Parameters: <DNPD>: Month, Range 1 ... 240 Remarks: This command requires "Calibration" access Overlapped command Example: CAL:INT 12 CAL:INT? Response: 12 :CALibration:POINt:AMPLitude Syntax: :CALibration:POINt:AMPLitude <DNPD> :CALibration:POINt:AMPLitude? Description: This command sets calibration value of particular point. Data will be saved to nonvolatile memory on CAL:POIN:SAVE command.
- Page 44 Remarks: Overlapped command Example: CAL:POIN:DATE? Response: 2017,01,13 :CALibration:POINt:MEASure? Syntax: :CALibration:POINt:MEASure? Description: This command reads measured value of particular calibration point. Parameters: <DNPD>: Calibration measured value. Ranges and default values varies in accordance to selected point (see “Calibration points”). Remarks: The value is set to default after power on The value is set to default on *RST command Overlapped command Example:...
- Page 45 Example: CAL:POIN:SEL 1 CAL:POIN:SEL? Response: 1 :CALibration:POINt:SAVE Syntax: :CALibration:POINt:SAVE Description: This command saves current calibration point to non-volatile memory. Unsaved changes will disappear on restart, selection of another calibration point or close the calibration. Parameters: None Remarks: The value is set to default after power on The value is set to default on *RST command Overlapped command Example:...
- Page 46 :CALibration:ACAL:ENAB Syntax: :CALibration:ACAL:ENAB <BOOL> :CALibration:ACAL:ENAB? Description: This command enables/disables auto calibration. Parameters: <BOOL> {ON|OFF|1|0} (default 1) ·ON autocalibration is enabled ·OFF autocalibration id disabled ·1 same as ON ·0 same as OFF Remarks: Overlapped command Example: CAL:ACAL:ENAB ON CAL:ACAL:ENAB? Response: 1 :DISPlay:ANNotation:CLOCk:DATE:FORMat Syntax: :DISPlay:ANNotation:CLOCk:DATE:FORMat <CPD>...
- Page 47 Remarks: Overlapped command Example: DISP:ANN:CLOC ON DISP:ANN:CLOC? Response: 1 :DISPlay:ANNotation:TOOLtip[:STATe] Syntax: :DISPlay:ANNotation:TOOLtip[:STATe] <BOOL> :DISPlay:ANNotation:TOOLtip[:STATe]? Description: This command enables/disables showing tooltip in top on device screen. Parameters: <BOOL> {ON|OFF|1|0} (default 1) tooltip is shown OFF tooltip is hidden same as ON same as OFF Remarks: Overlapped command...
- Page 48 Remarks: Overlapped command Example: DISP:BRIG 1.0 DISP:BRIG? Response: 1.000000E+00 :DISPlay:LANGuage Syntax: :DISPlay:LANGuage <CPD> :DISPlay:LANGuage? Description: This command selects language that is used on device display. Parameters: <CPD> {ENGLish} (default ENGL) ·ENGLish english version Remarks: Overlapped command Example: DISP:LANG ENGL DISP:LANG? Response: ENGL :OUTPut[:STATe] Syntax: :OUTPut[:STATe] <BOOL>...
- Page 49 The value is set according to "Startup" preset after power on The value is set to default on *RST command Overlapped command Example: OUTP:LOW FLO OUTP:LOW? Response: FLO :OUTPut:COMPensation Syntax: :OUTPut:COMPensation <BOOL> :OUTPut:COMPensation? Description: This command select 4-wire voltage outputs connection (remote sense). Parameters: <BOOL>...
- Page 50 Description: This command select 4-wire resistance outputs connection (remote sense). Parameters: <BOOL> {ON|OFF|1|0} (default 1) selsects 4-wire connection OFF selsects 2-wire connection same as ON same as OFF Remarks: The value is stored in each preset The value is set according to "Startup" preset after power on The value is set to default on *RST command Overlapped command Example:...
- Page 51 Example: VDC 10.0 VDC? Response: 1.000000E+01 V [:SOURce]:VDC:RANGe Syntax: [:SOURce]:VDC:RANGe <CPD> [:SOURce]:VDC:RANGe? Description: This command selects range in Voltage function. Node SOUR:VDC also selects Voltage function if not already selected. Parameters: <CPD> {AUTO|100V|30V|3V|300MV} (default AUTO) ·AUTO auto-range mode ·100V fixed 100 V range ·30V fixed 30 V range ·3V...
- Page 52 Description: This command selects output current limiting behavior, if was voltage amplitude changed. Node SOUR:VDC also selects Voltage function if not already selected. Parameters: <CPD> {ADJustable|MAXimum} (default ADJ) ·ADJustable output current limiting is adjustable (see VDC:LIM:AMPL) ·MAXimum output current limiting is always maximum Remarks: The value is stored in each preset The value is set according to "Startup"...
- Page 53 Example: CDC:RANG AUTO CDC:RANG? Response: AUTO [:SOURce]:CDC:LIMiting[:AMPLitude] Syntax: [:SOURce]:CDC:LIMiting[:AMPLitude] <DNPD>[<UNIT>] [:SOURce]:CDC:LIMiting[:AMPLitude]? Description: This command sets output voltage limiting in Current function. This command operates in conjunction with CDC:LIM:RES command. Node SOUR:CDC also selects Current function if not already selected. Parameters: <DNPD>...
- Page 54 Parameters: <DNPD> Temperature at Nickel function. Default value is 100.0 °C. <UNIT> {CEL|FAR|K} ·CEL degrees of Celsius ·FAR degrees of Fahrenheit ·K Kelvin Remarks: The value is set to default after power on The value is set to default on *RST command Overlapped command Example: RTD 100.0...
- Page 55 [:SOURce]:RTD:STANdard Syntax: [:SOURce]:RTD:STANdard <CPD> [:SOURce]:RTD:STANdard? Description: This command selects Platinum temperature standard. Node SOUR:RTD also selects RTD function if not already selected. Parameters: <CPD> {PT385A|PT385B|PT3916|PT3926|USER} (default PT385A) PT385A Pt385 (68) standard PT385B Pt385 (90) standard PT3916 Pt3916 standard PT3926 Pt3926 standard USER User (see RTD:COEF command) Remarks: The value is stored in each preset...
- Page 56 Parameters: <DNPD> TC function. Default value is 100.0 °C. <UNIT> {CEL|FAR|K} degrees of Celsius degrees of Fahrenheit Kelvin Remarks: The value is set to default after power on The value is set to default on *RST command Overlapped command Example: TCPL 100.0 TCPL? Response: 1.000000E+02 CEL [:SOURce]:TCPL:TYPE...
- Page 57 Remarks: The value is stored in each preset The value is set according to "Startup" preset after power on The value is set to default on *RST command Overlapped command Example: TCPL:RJM MAN TCPL:RJM? Response: MAN [:SOURce]:TCPL:RJAMplitude Syntax: [:SOURce]:TCPL:RJAMplitude <DNPD> [:SOURce]:TCPL:RJAMplitude? Description: This command sets/reads reference junction temperature.
- Page 58 Parameters: <DNPD> Range 100.0 ... 200.0 (default 100.0) <UNIT> {OHM} ·OHM Remarks: The value is stored in each preset The value is set according to "Startup" preset after power on The value is set to default on *RST command Overlapped command Example: TCPL:RJEX:ZRES 100.0 TCPL:RJEX:ZRES? Response: 1.000000E+02 OHM...
- Page 59 Example: TCPL:RJEX:COEF 3.9083E-3,-5.775E-7,-4.18301E-12 TCPL:RJEX:COEF? Response: 3.908300E-03,-5.775000E-07,-4.183010E-12 [:SOURce]:FREQuency[:AMPLitude] Syntax: [:SOURce]:FREQuency[:AMPLitude] <DNPD>[<UNIT>] [:SOURce]:FREQuency[:AMPLitude]? Description: This command sets frequency (periond) amplitude in Frequency function. Node SOUR:FREQ also selects Frequency function if not already selected. Parameters: <DNPD> Range 1E-2 ... 15E3 (default 1000.0) <UNIT> {HZ} ·HZ Hertz...
- Page 60 same as ON same as OFF Remarks: The value is stored in each preset The value is set according to "Startup" preset after power on The value is set to default on *RST command Overlapped command Example: FREQ:PULS ON FREQ:PULS? Response: 1 [:SOURce]:FREQuency:PULSes:COUNt Syntax: [:SOURce]:FREQuency:PULSes:COUNt <DNPD>...
- Page 61 <UNIT> {OHM} ·OHM Remarks: The value is set to default after power on The value is set to default on *RST command Overlapped command Example: RES 1000.0 RES? Response: 1.000000E+03 OHM [:SOURce]:STEP[:STATe] Syntax: [:SOURce]:STEP[:STATe] <BOOL> [:SOURce]:STEP[:STATe]? Description: This command turns on Step mode for the appropriate function. Step mode defines of 32 user programmable timing sequences for each function.
- Page 62 The value is set to default on *RST command Overlapped command Example: STEP:SEL1 0 STEP:SEL1? Response: 0 [:SOURce]:STEP:PRESet:COUNt? Syntax: [:SOURce]:STEP:PRESet:COUNt? Description: This command retrieves maximum number of timing sequences. This number represents maximum index used in sequence commands. Parameters: <DNPD> Integer value representing maximum sequence count.
- Page 63 Description: This command appends new record at the end of timing table. Data will be saved to non-volatile memory on STEP:PRES:SAVE command. Parameters: <SPD> Quoted string representing amplitude. The amplitude consists of two float numeric fields separated by comma. The first one represents timing interval in seconds and the second one amplitude.
- Page 64 Remarks: Overlapped command Example: STEP:PRES:ROW1:RDEL [:SOURce]:STEP:PRESet:SAVE Syntax: [:SOURce]:STEP:PRESet:SAVE Description: This command saves current sequence to non-volatile memory. Unsaved changes will disappear on restart, function change or selection of another sequence. Parameters: None Remarks: Overlapped command Example: STEP:PRES:SAVE :MEASure:VOLTage[:AMPLitude]? Syntax: :MEASure:VOLTage[:AMPLitude]? Description: This query returns value of output voltage in Current function.
- Page 65 :MEASure:CONFigure Syntax: :MEASure:CONFigure <CPD> :MEASure:CONFigure? Description: This command sets the function of internal multimeter. Parameters: <CPD> {FREQ|COUN} (default FREQ) FREQ Frequency COUN Counter Remarks: The value is stored in each preset The value is set according to "Startup" preset after power on The value is set to default on *RST command Overlapped command Example:...
- Page 66 Description: This query returns external reference junction temperature. Parameters: <DNPD> Measured value Remarks: The value is set to default after power on The value is set to default on *RST command Overlapped command Example: MEAS:TCPL:RJAM? Response: 2.300000E+01 :STATus:OPERation:CONDition Syntax: :STATus:OPERation:CONDition? Description: This query returns the content of Operational Condition register.
- Page 67 Remarks: Overlapped command Example: STAT:OPER? Response: 0 :STATus:OPERation:NTRansition Syntax: :STATus:OPERation:NTRansition <DNPD> :STATus:OPERation:NTRansition? Description: This comman allows set Operation Negative Transition Register. It is a decimal value which corresponds to the binary-weighted sum of all bits set in the register. Setting a bit in the negative transition filter shall cause a 1 to 0 transition in the corresponding bit of the associated condition register to cause a 1 to be written in the associated bit of the corresponding event register.
- Page 68 Example: STAT:QUES:COND? Response: 2 :STATus:QUEStionable:ENABle Syntax: :STATus:QUEStionable:ENABle <DNPD> :STATus:QUEStionable:ENABle? Description: This command enables bits in the Questionable Data Enable register. Selected bits are summarized at bit 3 (QSS) of the IEEE488.2 Status Byte register. Parameters: <DNPD> Questionable Data Enable register Remarks: Overlapped command Example:...
- Page 69 Description: This command allows set Questionable Positive Transition Register. It is a decimal value which corresponds to the binary-weighted sum of all bits set in the register. Setting a bit in the positive transition filter shall cause a 0 to 1 transition in the corresponding bit of the associated condition register to cause a 1 to be written in the associated bit of the corresponding event register.
- Page 70 Parameters: <BOOL> {ON|OFF|1|0} (default 1) device system beeper is enabled OFF device system beeper is disabled same as ON same as OFF Remarks: Overlapped command Example: SYST:BEEP:KEYB ON SYST:BEEP:KEYB? Response: 1 :SYSTem:COMMunicate:BUS Syntax: :SYSTem:COMMunicate:BUS <CPD> :SYSTem:COMMunicate:BUS? Description: This command selects communication interface. Parameters: <CPD>...
- Page 71 Parameters: <CPD> Range 000.000.000.000 ... 255.255.255.255 (default 192.168.001.100) Remarks: Overlapped command Value is not affected by reset Example: SYST:COMM:LAN:ADDR 192.168.001.100 SYST:COMM:LAN:ADDR? Response: 192.168.001.100 :SYSTem:COMMunicate:LAN:MASK Syntax: :SYSTem:COMMunicate:LAN:MASK <CPD> :SYSTem:COMMunicate:LAN:MASK? Description: This command allows to change subnet mask if DHCP is switched off. Interface must be restarted to take effect (see SYST:COMM:REST command).
- Page 72 Remarks: Overlapped command Value is not affected by reset Example: SYST:COMM:LAN:PORT 23 SYST:COMM:LAN:PORT? Response: 23 :SYSTem:COMMunicate:LAN:HOST Syntax: :SYSTem:COMMunicate:LAN:HOST <CPD> :SYSTem:COMMunicate:LAN:HOST? Description: This command allows to change host name if DHCP is switched on. Interface must be restarted to take effect (see SYST:COMM:REST command). Parameters: <CPD>...
- Page 73 Example: SYST:COMM:REST :SYSTem:COMMunicate:SERial:BAUD Syntax: :SYSTem:COMMunicate:SERial:BAUD <CPD> :SYSTem:COMMunicate:SERial:BAUD? Description: This command allows changing RS232 transfer rate. Parameters: <CPD> {1200|2400|4800|9600|19200|38400|57600|115200} (default 9600) 1200 1200 Bd 2400 2400 Bd 4800 4800 Bd 9600 9600 Bd 19200 19200 Bd 38400 38400 Bd 57600 57600 Bd 115200 115200 Bd Remarks:...
- Page 74 Remarks: Overlapped command Example: SYST:ERR? Response: -300,”Device error” :SYSTem:KEY Syntax: :SYSTem:KEY <DNPD> :SYSTem:KEY? Description: This command allows send key code to the device the same way the user can press keys on front panel. Query returns last pressed key. Code KEY_0 KEY_1 KEY_2...
- Page 75 Remarks: Overlapped command Example: SYST:KEY 12 SYST:KEY? Response: 12 :SYSTem:LOCal Syntax: :SYSTem:LOCal Description: This command places device in the LOCAL mode and unlocks all keys on front panel of the device. The Command is valid only for RS232, LAN and USB interfaces.
- Page 76 LOCAL key. The Command is valid only for RS232, LAN, USB interfaces. The device will not respond to any other command until is in REMOTE mode. Parameters: None Remarks: Overlapped command Example: SYST:RWL :SYSTem:TIME Syntax: :SYSTem:TIME <DNPD>,<DNPD>,<DNPD> :SYSTem:TIME? Description: This commands allows set system device time (RTC). Parameters: <DNPD>...
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Page 77: 7.1.10 Scpi Error Codes
Example: UNIT:TEMP CEL UNIT:TEMP? Response: CEL 7.1.10 SCPI Error codes Device distinguishes following SCPI error codes. These codes are reported on device display screen or can be read by SYST:ERR? Command. Error Message -100 "Command error" -101 "Invalid character" -102 "Syntax error"... -
Page 78: Calibration
Calibration Access to the calibration mode is from the setup Menu. Correct password must be entered before calibration. IMPORTANT: Without correct password, the access to the calibration mode is refused. Default factory set calibration code is “2”. Return to standard mode is possible after pushing the CANCEL key. -
Page 79: Selection Of Calibration Point
Current Calibration points of current DC ranges (25mA, 50mA). Each current range is calibrated in 4 fixed calibration points (Offset +, Offset -, Full range +, Full range -). 8 1/2 digit standard multimeter is required for current calibration. Temperature Calibration points of external RJ junction temperature meter. -
Page 80: Setting The New Calibration Data
The table lists recommended calibration ranges. Having selected the required calibration range using SELECT key or Edit softkey, the following data are shown. Figure 30: Calibration point Softkeys have the following meaning: Previous selects previous point of calibrated range Next selects next point of calibrated range History displays history of selected calibration point... -
Page 81: Technical Data
Technical data Uncertainties include long-term stability, temperature coefficient, linearity, line regulation and the traceability of factory and National calibration standards. Specified accuracy is valid after one hour warm up in temperature range 23°C ± 10 °C. Specified accuracy is one-year accuracy. DC voltage Summary range: 0 to 100 Vdc... - Page 82 Auto calibration disabled ± (ppm of output + A) Range +/- Resolution Max. voltage 90 days 180 days 1 year 25 mA 100 nA 100 V 1 µA 1 µA 1 µA 50 mA 100 nA 30 V 1 µA 1 µA 1 µA Frequency source...
- Page 83 Ranges: 100 V Resolution: 10 mV Accuracy: ± 0.2 % of range Resolution: 0.01 °C Type Range ± °C R (EN60584-1/ITS90) -50 … -10 °C 0.8 °C -10 … 100 °C 0.6 °C 100 … 400 °C 0.4 °C 400 … 1768 °C 0.3 °C S (EN60584-1/ITS90) -50 …...
- Page 84 M (General Electric IPTS 68) -50 … 1410 °C 0.1 °C C (Hoskins ITS 90) 0 … 100 °C 0.3 °C 100 … 900 °C 0.2 °C 900 … 2315 °C 0.3 °C D (Hoskins ITS 90) 0 … 300 °C 0.3 °C 300 …...
- Page 85 RTD 2W (full version only) Pt summary range: -200 °C to +850 °C Ni summary range: - 60 °C to +300 °C Resolution: 0.01 °C Type Range ± °C Pt100 … Pt1000 -200 … 850 °C 0.2 °C Ni100 … Ni1000 -60 …...
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Page 86: Disposal
Disposal Battery disposal In Germany, the end user is legally obliged to return all used batteries, and it is illegal to dispose of batteries in the household waste. This law may also affect you as purchaser of the instrument described here. Please dispose of your used batteries properly and in accordance with national statutory regulations.
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