Analog digital multimeter with signalgenerator (60 pages)
Summary of Contents for Gossen MetraWatt SECUTEST PRO
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Operating Instructions and SECULIFE ST SECUTEST ASE(10) BASE(25) Test Instrument for Measuring the Electrical Safety of Devices 3-349-752-03 per VDE 0701-0702, IEC 62353 und IEC 60974-4 17/8.19...
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** Only displayed in case of active connection to another Bluetooth device Connections Meaning test probe P2 for 2-pole measurement (only with SECUTEST PRO or instrument with feature H01) Voltage measuring inputs (only with SECUTEST PRO or instrument with feature I01)
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10/25 A-R measurements are only possible with line voltages of 115/230 V and line frequencies of 50/60 Hz. Voltage measuring inputs with SECUTEST PRO or instrument with feature I01) and SECULIFE ST BASE(25) only Connection of 2 test probe for two-pole measurement with SECUTEST PRO (or in- strument with feature H01) and SECULIFE ST BASE(25) only Measurement of time to trip is not possible in IT systems.
Probe Voltage – U ...............50 3.5.2 Report Template for Reading Out Reports to a Thermal Printer or an Measuring Voltage – U (SECUTEST PRO or feature I01 only) ..51 HTML File ..................7 8.10 Measuring Time to Trip for RCDs of the Type PRCD – tA ....52 3.5.3...
Repair and Replacement Parts Service Safety Features and Precautions Calibration Center and Rental Instrument SECUTEST BASE(10), SECUTEST PRO and SECULIFE ST BASE(25) test Service ................90 instruments fulfill all requirements of applicable EU directives and national regulations. We confirm this with the CE mark.
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• Probe Test Safer Testing with Test Adapter Test the probe after completing each test (see also section 10.2.2). In the case of test objects for which a starting current of greater than 30 A can be expected, we urgently recommend the use of a test adapter for larger starting currents: Attention! for example test adapters from the AT3 series...
General Operation Note We’re unable to offer any guarantees regarding the use of Measured Value Display scanning devices other than those listed in the appendix. The following items appear at the display panel: • The selected measuring function or standard Reading In an RFID Code •...
3.5.3 Report Tapes from Thermal Printers Note Report tapes can be printed out with the Z721S thermal printer Code Recognition (accessory: Z722S thermal paper). Please make sure that the printed codes are recognized As of firmware V2.1.1: The test report can now be edited and a by your scanner.
Initial Startup 4.1.1 Measurements in IT Systems (new parameter as of firmware 1.5.0) Connecting the Test Instrument to the Mains The IT system ➭ See section 12 for nominal mains values (nominal ranges of setting can be use). activated for all ➭...
4.1.2 Automatic Recognition of Mains Connection Errors Connecting Test Probe P1 or P2 Insert the double plug from test probe P1 or P2 into socket 1 or 2 The device automatically recognizes mains connection errors if respectively such that the plug with the white ring makes contact the conditions in the following table have been fulfilled.
Device Settings Setup 2/3 > Culture > Language (for user interface) Setup 2/3 > Culture > Keyboard Layout (for alphanumeric entries) SETUP Setup 1/3 > System > Date / Time (for report generation) For the purpose of initial start-up, we recommend setting the following basic parameters in the order Setup 1/3 >...
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Setup 1/3 > System 2/2 > Default Settings Default settings PRINT To parameters Self-test for display and buzzer With SECUTEST PRO only (feature E01): HELP Calibrate touchscreen keyboard Setup 1/3 > System 1/2 > Date / Time Set time and date menu...
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Database Functions Setup 1/3 PRINT HELP Database 1/2 Menu selection for database functions, page 1 of 2 Display additional menu pages PRINT Delete database content (but not its structure) Note: Data are irretrievably deleted! Display database statistics HELP Only with inserted USB drive: Backup database to USB flash drive ( formatted) FAT32...
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Printer Functions – Selection and Settings Using the Thermal Printer as an Example Setup 2/3 > Printer Select the connected printer PRINT Z721S printer: Printer info / printer settings Z721D * printer: Printer info / printer settings HELP * Phase-out model Z721E * printer: Barcode label printer Printer info / printer settings * For testing instrument firmware as of 1.8.3...
Internal Database Note Data transfer to the PC should not be started during sin- Creating Test Structures, General gle measurements or test sequences. A complete test structure with data regarding customer proper- ties, buildings, floors, rooms and test objects can be created in 5.2.1 Export –...
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* Test interval: additionally available for test instruments with database extension, feature KB01, “Z853R – SECUTEST DB+” or feature KD01, “Z853S – SECUTEST DB COMFORT” ** Only with SECUTEST PRO BT comfort or with database extension, feature KD01, “Z853S – SECUTEST DB COMFORT”: additional entry option for medical electric device (ME Device) and further parameters such as UDI and application parts Figure 5 Database Structure as Location View in Test Instruments with Feature KB01, “Z853R –...
Test Structure, Customer View – Hierarchy of Object Levels in the SECUTEST PRO and the SECULIFE ST BASE(25) or in Devices with Database Extension, Feature KB01, “Z853R – SECUTEST DB+” Customer MEM Database ZIP code Customer Designation City Street Test interval * Comment No.
Transfer character at Accept entry cursor position to display field Keypad Overview of Keyboard Entries via the Touchscreen Keyboard with the SECUTEST PRO (feature E01) ➭ Briefly pressing the shift key once causes the next char- * Also via assigned softkey acter to appear in uppercase.
Creating a Test Structure in the Test Instrument, Navigating within the Structure and Displaying Measured Values Overview of the Meanings of the Symbols for Creating Objects – Navigation within Test Structures MEM 1/3 Object selection menu – page 1/3 Scroll to next menu (page 2/3) PRINT Select customers or devices Select customers or devices...
➭ Now select the position with the scroll keys to which the ob- 5.4.1 General Procedure for Creating Test Structures ject will be moved. After selection with the MEM key, all setting options for the cre- ➭ The display is automatically returned to the initial window after ation of a tree structure are made available on three menu pages confirming with the green checkmark.
5.4.2 Searching for Structure Elements ➭ Scroll to the first menu page (MEM 1/3) with the help of the key. ➭ Scroll to the third menu page (MEM 3/3) with the help of the key. ➭ Press the text symbol in order to search for text. ➭...
Connecting the Device Under Test Specifying an Alternative Test Frequency Selectable frequency setpoint value for synthetic test voltage for ➭ Connect the DUT in accordance with the schematic diagrams all leakage current measurements of measurement type “Alterna- included in the online help function. tive”, affecting the following measurements and/or rotary selector switch positions: Connection of the DUT to the test instrument depends on:...
Protection class detection (only with country specific variant R < 1 Ω Protective conductor found: PC I Test Probe (only SECUTEST PRO or feature H01) R > 10 Ω No protective conductor: PC II If the device under test is not equipped with a country-specific...
Notes on Saving Single Measurements and Test QuickEdit Function – QEDIT (feature KD01, “Z853S – SECUTEST DB COMFORT”) Sequences QuickEdit is available whenever you search for a test object ID and the ID doesn’t already exist in the database. At the end of each test, test results can be saved under an ID number which is unequivocally assigned to the respective test The following search options are available: object (= device or ME device (medical electric device)).
Accept character at cursor Accept entry position and exit keyboard Numeric Entry (for parameters UISO(set), Offset ...) via Touchscreen Keyboard with the SECUTEST PRO (feature E01) * Also via assigned softkey Delete character to the left of the cursor in the display *...
Meaning of Symbols in the User Interface Measurement Series and Storage Single measurements can be combined into measurement series. Sym- Softkey Variants, Single Measurements The measured values can be saved by pressing the save key, or measurement series can be generated. These can be saved to a Set parameters test object (ID number) which has already been set up in the data- base (see Section 5.4.1).
Can only be selected if the IP(set) parameter has been set to 10 A~ only with SECUTEST PRO/SECULIFE ST BASE (or instrument with feature G01) Can only be selected with SECUTEST BASE or if the IP(set) parameter has been set Wiring Diagram to 200 mA.
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– DUT mains plug to test socket – Test probe P1 to P1 terminals – Test probe P1 to P1 terminals – Clamp to COM-V (only with SECUTEST PRO or feature I01 with optional current clamp sensor) Schematic Diagram Schematic Diagram...
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SECUTEST PRO (see table above). Measurement cannot be performed with 10/25 A AC for this measurement type. SECUTEST PRO /SECULIFE ST BASE (feature G01): This type of measurement can only be selected if a test current of 10 A AC has been chosen.
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Test Sequence with Connection to the Test Socket Special Case: Testing Protective Conductor Resistance at PRCDs (as of firmware V1.4.0) ➭ Set the rotary switch to the R position. For PRCDs whose protective conductor resistance cannot be ➭ Select measurement type or connection type, and test cur- measured when switched off, the SECUTEST BASE(10) offers the rent.
PE(mains) - P1 Wiring Diagram PE(TS) - P1 LN(TS) - P1//PE(TS) Connection of 2 test probe for 2-pole measurement with SECUTEST PRO (or instru- ment with feature H01) Application, Definition, Measuring Method Protection Category I Devices – Measurement type LN(TS) - PE(TS) –...
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P1. Wiring Diagram 2-Pole Measurement at Protection Category I Housing Parts (only with SECUTEST PRO or feature H01) – Measurement type P1 - P2 Schematic Diagram Attention!
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LN mains termi- AT3 adapter (AT3-IIIE, AT3-IIS, nals at the test socket and test AT3-IIS32), AT16DI/AT32DI, probe P1. P1 – P2 SECUTEST PRO or feature H01: No connection (PC3) 2-pole measurement between test probes 1 and 2 (see section 6.6) PE(mains)-P1...
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Test Sequence Attention! Removing the Connector Cable Attention! Do not remove the DUT’s connector cable until the test Prerequisite for Testing has been stopped, in order to assure that the capacitors The measurement of insulation resistance may not be have been discharged. conducted on protection category I devices which have not passed the protective conductor resistance test.
Measuring Leakage Current Attention! Measurement with DUT Connected to Line Voltage It’s absolutely essential to assure that the device under test is operated with line voltage during performance of leakage current measurements with the direct or differential current method. Exposed conductive parts may conduct dangerous touch voltage during testing, and may not under any circumstances be touched.
SECUTEST PRO only (or instrument with feature I01) Wiring Diagram Voltage measuring inputs for leakage current measurement with differential meth- od and use of a current cleanup sensor with SECUTEST PRO only (or an instrument with feature I01) Applications Protective conductor current must be measured for protection category I devices.
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– Alternative measurement type sensor with voltage output for permanently installed DUTs – DUT mains plug (protection category I) to test socket (only with SECUTEST PRO or feature I01 with optional current clamp sensor) Schematic Diagram – Clamp measurement type...
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➭ Read the measured values and compare them with the table 100 mV:1 mA Transformation ratio of the SECUTEST CLIP current clamp sensor. For setting the current clamp factor at the SECUTEST PRO. of permissible limit values. 1 V : 1 A ➭...
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Test Sequence with Differential Current Method Maximum Permissible Limit Values for Leakage Current in mA ➭ Before conducting any leakage current measurements, make Test Standard sure that the “Ref. voltage L-PE” and “Testingfreq. Alt” mea- PC I: 3.5 VDE 0701-0702:2008 surement parameters have been correctly set in SETUP (see 1 mA/kW * section 6.2).
8.7.2 Touch Current – IB Wiring Diagram Note Single measurements, rotary switch level: green regarding protection category I DUTs: Measure- Measure- Measuring Functions Parts may or may not be grounded. ment Type, ment Type, with Mains without Coincidental grounding only occurs in the event of an to Test Mains error.
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Permanent connection connected P1 Alternative P1–P2 Equivalent leakage current No connection, PC3: 2-pole measurement between method with SECUTEST PRO or test probes 1 and 2 (see section feature H01 6.6) The DUT is operated with line voltage from a permanent installa- Polarity –...
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Direct Selection – Setting Polarity Test Sequence for Alternative Measuring Method – for Direct and Differential Only ➭ Before conducting any leakage current measurements, make sure that the “Ref. voltage L-PE” and “Testingfreq. Alt” mea- surement parameters have been correctly set in SETUP (see Measuring Meaning section 6.2).
(current clamp measurement concept). The measure- Voltage measuring inputs for leakage current measurement with differential meth- od and use of a current cleanup sensor with SECUTEST PRO only (or an instrument ments must be performed with mains plug polarity in both direc- with feature I01) tions.
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– DUT mains plug connected to the test socket – Clamp measurement type – Test probe P1 to P1 terminals – Clamp to COM-V (only with SECUTEST PRO or feature I01with optional current clamp sensor) Schematic Diagram, Protection Category I...
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100 mV:1 mA Transformation ratio of the SECUTEST CLIP current clamp sensor. ➭ Read the measured values and compare them with the For setting the current clamp factor at the SECUTEST PRO. table of permissible limit values. 1 V : 1 A ➭...
8.7.4 Leakage Current from the Applied Part – IA Alternative Measuring Method (equivalent patient leakage current) – Measurement type alternative P1 – DUT Mains Plug (PC1) Connected to Test Socket – Probe to P1 Terminal Schematic Diagram Single measurements, rotary switch level: green Measure- Measure- Measuring Functions...
Setting Measuring Parameters for IA 8.7.5 Patient Leakage Current – IP Measuring Meaning Parameter Measurement Type Suitable for DUT Connection via Direct P1 Direct measuring method (via Test socket, AT3 adapter test socket) with test probe P1 (AT3-IIIE, AT3-IIS, AT3-IIS32), AT16DI/AT32DI Alternative P1 Equivalent leakage current mea-...
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Setting Measuring Parameters for IP Direct measuring method – Measurement type permanent connection P1 Measuring Meaning – Permanent Connection Parameter – Probe to P1 Terminal Measurement Type Suitable for DUT Connection via Schematic Diagram Direct P1 Direct measuring method (via Test socket test socket) with test probe P1 Permanently...
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Probe Voltage – U Wiring Diagram Direct, alternating and pulsating voltages of up to 253 V can be Single measurements, rotary switch level: green measured. Two connection types are available, one of which has Measure- Measure- Measuring Functions to be selected in the parameters menu. ment Type, ment Type, with Mains...
Measuring Voltage – U (SECUTEST PRO or feature I01 only) Wiring Diagram Direct, alternating and pulsating voltages of up to 253 V can be measured between the V and COM socket terminals. Single measurements, rotary switch level: green • Measurements with the voltage measuring input of the volt-...
8.10 Measuring Time to Trip for RCDs of the Type PRCD – tA Test Sequence ➭ Set the rotary switch to the t position. ➭ Plug the PRCD into the test socket at the test instrument and connect the test probe to P1. ➭...
8.11 Function Test – P The device under test can be subjected to a function test with mains voltage via the integrated test socket. The test socket is tested for short-circuiting before switching to line voltage (a statement resulting from the short-circuit test can only be made regarding the DUT itself when a single-phase DUT is being tested).
8.12 Testing Extension Cords for Correct Function – EL1 Measurement at Single and 3-Phase Extension Cords with VL2E Schematic Diagram Single measurements, rotary switch level: green Measuring Functions Measurement Type, without Wiring Diagram Mains to Test Socket Extension cord test with adapter for single or 3-phase extension cords for EL1 adapter testing:...
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(R-PE or R-INS): Test Sequence with AT3-IIIE Adapter SECUTEST PRO: R-PE between probe 1 and probe 2. SECUTEST BASE(10): R-PE between probe 1 and measure- ment cable at the protective conductor bar in the test socket Attention! (test type PE(TS)-P1).
QR code: Scanning the QR code allows you to download and read the current operating instructions from www.gossenmetrawatt.com, for example at a tablet PC. Wiring Diagram SECUTEST PRO (feature I01) and SECULIFE ST BASE(25) EXTRA Test Sequence with Temperature Sensor Single measurements, rotary switch level: green ➭...
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Test Sequence with Current Clamp Sensor Measurement with Current Clamp Sensor ➭ Set the rotary switch to the EXTRA position. ➭ Select the Current (via clamp) measuring function. ➭ Set the clamp factor at the current clamp sensor. EXTRA ➭ Clamp factor: Set clamp factor at the test instrument to the same value as at the current clamp sensor.
Test Sequences Status upon shipment (default setting) Automated test sequences, rotary switch level: orange Switch Standard / Measure- Connec- Type Protec- Freely configurable depending on the selected configuration (protection Setting Test Sequence ment Type tion tion category, type of application part) Category Preconfigured (freely adjustable) test sequences VDE 0701-0702...
10.2 User-Defined Test Sequences / Remote Control Automatic Measurements (1/3) (only with feature KB01, “Z853R – SECUTEST DB+”) ❑ At the End of the Sequence 10.2.1 General At the end of a sequence, either the save symbol appears in When creating user-defined test sequences, the author of the test order to prompt storage (“memory screen”...
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made apparent during the test sequence that a limit value Sym- Softkey Variants, Test Sequence violation has occurred during one of the previous test steps, and that the device under test will not pass testing. Stop test sequence – Repeat inspection (if it has been failed). Automatic Measurements (3/3) –...
10.4 Selecting and Configuring a Test Sequence Conveniently Changing Classification Parameters (optional feature E01, touchscreen) Sample: Initial Page of a Test Sequence – Tree View Standard / Test Sequence Connection Type Protection Category Measurement Type Sequence Parameter Cl. parameter Status line ➭...
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Classification Parameter – VDE 0701-0702-EDV Classification Parameter – VDE 0701-0702-PRCD Parameter Setting Options / Meaning Parameter Setting Options / Meaning Standard VDE 0701-0702, see table below Standard VDE 0701-0702, see table below VDE 0701-0702-EDV VDE 0701-0702-EDV, see table above VDE 0701-0702-VLTG, see table below VDE 0701-0702-VLTG, see previous table VDE 0701-0702-PRCD, see table below VDE 0701-0702-PRCD...
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Classification Parameter – IEC 62353 Classification Parameter – IEC 60974-4 Parameter Setting Options / Meaning Parameter Setting Options / Meaning Standard VDE 0701-0702, see table below Standard VDE 0701-0702, see table below VDE 0701-0702-EDV, see table above VDE 0701-0702-EDV, see table above VDE 0701-0702-VLTG, see table above VDE 0701-0702-VLTG, see table above VDE 0701-0702-PRCD, see previous table...
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Sequence Parameter (as of firmware V1.3.0) Sequence Parameter Meaning The default test sequences can be adapted to your applica- Reverse polarity Leakage current tests: tion or test standard via the sequence parameter. The entered On: Measurements are conducted with both polarities. Off: Measurement is only conducted with one/momentary polar- sequence parameter settings are only valid for the currently ity.
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❑ Suppressing Test Steps Sequence Parameter Meaning Depending on the selected test standard, some of the following Other parameters test steps can be suppressed: Open-circuit voltage Open-circuit voltage at welding unit Parameter Suppressible test steps (IEC 60974-4) on: activate off: deactivate Visual inspection (1) Visual inspection, standard Supply voltage PC III...
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❑ Setting Measurement Duration for Individual Test Steps Testing time for the respective measurement can be influenced with these parameters. If a test step for a single measurement is involved, the entire test step has a duration of the time entered in seconds.
10.5 Connecting the DUT • Connection test *: Checks whether the DUT is connected to the test socket. In the case of protection category I: whether ➭ Connect the DUT to the test instrument in accordance with or not the two protective conductor terminals are short-cir- the selected test sequence.
10.9 Setting Limit Values Manually If “Expert” is selected instead of “Normal” in setup under “Auto Attention! Measurements” in the “Limit Value Mode” submenu, the LIMIT Limit value violation softkey appears next to the “measurement failed” popup. This key If the measured value appears red at the display, makes it possible to enter a user-defined limit value (as a rule a a limit value has been violated.
Filter Meaning of the Selectable Report View Icon During report display: show complete test report During report display: show summarized (abridged) test report * During report display: show failed test steps only * Skipped test steps are not shown in the abridged view – only the worst measured value for each measurement type is shown.
Warnings, Error Messages and Notes Error messages or notes regarding the individual tests or test Warning sequences are displayed as popups. Warnings indicate hazards which, if not avoided, may result in Differentiation is made amongst 5 types of messages: severe injury. Single test: The warning has to be acknowledged or cleared by pressing the OK key before the test or the test sequence can be resumed.
11.1 List of error messages Error Messages Possible Causes Corrective Measures Mains Connection Errors ➭ Please remove the SECUTEST’s – Protective conductor PE at the mains outlet at which the SECUT- mains plug from this outlet and ar- EST is being operated is conduct- range to have the outlet/installa- ing voltage! This detection function tion inspected by a qualified...
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Error Messages Possible Causes Corrective Measures ➭ The 10 A/25 A-R – Momentary line voltage at the measurement SECUTEST test instrument is out- is only available when line voltage side of the range permitted for a is between 220 V and 240 V or 10 A/25 A-R measurement (110 110 V and 120 V at 50 Hz or...
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Error Messages Possible Causes Corrective Measures ➭ If the device under test normally – A device under test is connected to the SECUTEST and has been generates a leakage current of started up, whose leakage current greater than 10 mA (e.g. large (measured by means of the differ- heaters), temporarily increase the ential current method) exceeds the...
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Error Messages Possible Causes Corrective Measures ➭ Determine whether or not the de- – A short-circuit has been detected at the test socket between L and vice under test is defective. ➭ In the case of DUTs which are in- tended for operation at an outlet that’s protected with a 16 A fuse, a short-circuit may be detected...
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Error Messages Possible Causes Corrective Measures Database Processing Error ➭ Please be certain to complete all – One of the fields was filled in with invalid content while processing an mandatory fields (identified in red). existing database object. ➭ If necessary, check your entries to the fields for invalid special charac- ters.
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Error Messages Possible Causes Corrective Measures ➭ Make sure that a at least 100 MB is Error while writing the data backup file to the USB flash drive available on the USB flash drive or delete any data files which are no longer required.
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Error Messages Possible Causes Corrective Measures Printer Connection Error ➭ Connect the printer to the USB – The printer is not connected. port before pressing the PRINT key. – An incompatible printer has been ➭ Make sure that the utilized printer is connected.
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Error Messages Possible Causes Corrective Measures ➭ Shorten the ID or change to an- – Too many data in the ID to be printed as a Micro QR code. other output format in SETUP (QR Code, DataMatrix, Aztec, Code128, Code39, EAN13). –...
11.2 List of Possible DUT Connections Measurement Type Suitable for DUT Connection via Depending on Measurement Type PRCD time to trip Measurement Type Suitable for DUT Connection via — Test socket PE(TS) - P1 passive Test socket, EL1 test socket, VL2E, AT3-IIIE, AT3-IIS, AT3- IIS32, AT16DI/AT32DI PE(TS) - P1 active Test socket (for PRCDs)
Characteristic Values Refer- Overload Open- Nomi- Short- Internal Display Range/ Nominal ence Capacity Func- Measured Reso- Circuit Circuit Resis- Measuring Intrinsic Nominal Range of Voltage Resis- tion Quantity lution Voltage Current Current tance Uncertainty Uncertainty tance Value Time 1 … 999 mΩ 1 mΩ...
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Sphere of Influence age current Protective conductor current, touch current, device leakage current IEC 61557-16 Only with feature G01, e.g. SECUTEST BASE10/SECUTEST PRO and SECULIFE ST BASE Change of position — Only with feature I01, e.g. SECUTEST PRO and SECULIFE ST BASE...
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TN, TT or IT Bluetooth data interface 2.1 + EDR 100 V … 240 V AC Line voltage (SECUTEST PRO BT (comfort) or feature M01 only) Line frequency 50 Hz ... 400 Hz Power consumption 200 mA DUT: Approx. 32 VA...
Maintenance If backup battery voltage is too low, the date and time assigned to the test data no longer correspond to the actual time of recording. This may also influence sorting in the report generating software. 13.1 Housing Maintenance The instrument’s database itself is not affected by a depleted No special maintenance is required for the housing.
There are also 4 accessible conductive parts on the SECUT- Note EST..., at which the touch current measurement must result in a Text Encryption value of less than 0.5 mA: Read-out to the CP1252 character set is limited in the •...
14.2 List of Suitable Barcode Scanners and RFID Scanners with USB Port The following devices have been tested for use with the test instrument. We are unable to offer any guarantees regarding use with other devices. • Z751A barcode scanner •...
14.4 Bluetooth Interface (SECUTEST PRO BT (comfort) or feature M01) ® Bluetooth interface permits use of the push-print function (see section 10.10). Setup 3/3 Menu selection for operating parameters, page 3 of 3 PRINT HELP ® Bluetooth: menus for using the Bluetooth...
14.6 Entry Via an External USB Keyboard Instead of using the touchscreen keyboard, characters can be entered directly with a USB keyboard which is connected to the test instrument. The touchscreen keyboard which appears at the display must be exited to this end. Switching from On-screen to USB Keyboard Entry ✔...
14.7 Index Numerics Measuring Sequences 2nd Test Probe ..............2 Standard Selection ............60 2-Pole Measurement (P1-P2) ..........23 Measuring Uncertainty ............59 Multi-Print ................. 7 Alternative Test Frequency ............22 Auto Measuring Point ..............59 Offset Values ................29 On Test .................. 23 Backup Battery ...............83 Overview Barcode Scanner...
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ETC File Import ..............15 Restoring a Database ............15 Saving Reports ..............8 USB Keyboard ................ 18 Voltage Measuring Inputs ............2 WZ12C ..............29 GMC-I Messtechnik GmbH...
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Repair and Replacement Parts Service Product Support Calibration Center * and Rental Instrument If required please contact: Service GMC-I Messtechnik GmbH If required please contact: Product Support Hotline Phone +49-911-8602-0 GMC-I Service GmbH Fax: +49 911 8602-709 Service Center e-mail support@gossenmetrawatt.com Beuthener Str.
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