Manual

ManualsBrandsGossen Metrawatt ManualsTest EquipmentPROFiTEST MXTRA Electrical tester, VDE tester Calibrated to (DAkkS standards) VDE standard 0100, 0100-6

Table Of Contents

1 Safety Instructions
2 Applications
- 2.1 Intended Use / Use for Intended Purpose
- 2.2 Use for Other than Intended Purpose
- 2.3 Liability and Guarantee
- 2.4 Opening the Instrument / Repairs
- 2.5 Scope of Functions
3 Documentation
4 Getting Started
5 The Instrument
- 5.1 Scope of Delivery
- 5.2 Optional Accessories (excerpt)
- 5.3 Meanings of Symbols on the Instrument
- 5.4 Instrument Overview
- 5.5 Technical Data
- 5.6 Characteristic Values for PROFITEST MTECH+ and PROFITEST MBASE+
- 5.7 Characteristic Values for PROFITEST MXTRA and PROFITEST MPRO
6 Operating and Display Elements
- 6.1 Control Panel
- 6.2 Display
- 6.3 LEDs
- 6.4 LED Indications, Mains Connections and Potential Differences
7 Operation
- 7.1 Power Supply
  - 7.1.1 Inserting or Replacing the Battery Pack (Z502H) or Commercially Available Individual (Rechargeable) Batteries
  - 7.1.2 Charging the Battery Pack (Z502H) in the Tester
- 7.2 Switching the Instrument On/Off
8 Instrument Settings
9 Database
- 9.1 Creating Distributor Structures, General
- 9.2 Transferring Distributor Structures
- 9.3 Creating a Distributor Structure in the Test Instrument
  - 9.3.1 Creating Structures (example for electrical circuit)
  - 9.3.2 Searching for Structure Elements
- 9.4 Saving Data and Generating Reports
- 9.5 Use of Barcode Scanners and RFID Readers
10 General Information on Measurements
- 10.1 Using Cable Sets and Test Probes
- 10.2 Test Plug – Changing Inserts
- 10.3 Connecting the Instrument
- 10.4 Automatic Settings, Monitoring and Shutdown
- 10.5 Measured Value Display and Memory
- 10.6 Help Function
- 10.7 Setting Parameters or Limit Values using RCD Measurement as an Example
- 10.8 Freely Selectable Parameter Settings or Limit Values
  - 10.8.1 Changing Existing Parameters
  - 10.8.2 Adding New Parameters
- 10.9 2-Pole Measurement with Rapid or Semiautomatic Polarity Reversal
11 Measuring Voltage and Frequency
- 11.1 Single-Phase Measurement
  - 11.1.1 Voltage Between L and N (UL-N), L and PE (UL-PE) and N and PE (UN-PE) with Country-Specific Plug Insert, e.g. SCHUKO
  - 11.1.2 Voltage Between L – PE, N – PE and L – L with 2-Pole Adapter Connection
- 11.2 3-Phase Measurement (line-to-line voltage) and Phase Sequence
12 Testing RCDs
- 12.1 Measuring Touch Voltage (with reference to nominal residual current) with ⅓ Nominal Residual Current and Tripping Test with Nominal Residual Current
- 12.2 Special Tests for Systems and RCDs
- 12.3 Testing of Special RCDs
- 12.4 Testing Residual Current Circuit Breakers in TN-S Systems
- 12.5 Testing of RCD Protection in IT Systems with High Cable Capacitance (e.g. In Norway)
- 12.6 Testing of 6 mA Residual Current Devices RDC-DD/RCMB (RDC-DD: PROFITEST MXTRA and PROFITEST MTECH+ only)
13 Testing of Breaking Requirements for Overcurrent Protective Devices, Measurement of Loop Impedance and Determination of Short-Circuit Current (ZL-PE and ISC Functions)
- 13.1 Measurements with Suppression of RCD Tripping (PROFITEST MTECH+, PROFITEST MXTRA only)
  - 13.1.1 Measurement with Positive Half-Waves (PROFITEST MTECH+, PROFITEST MXTRA only)
- 13.2 Evaluation of Measured Values
- 13.3 Settings for Calculating Short-Circuit Current – Parameter ISC
14 Measuring Supply Impedance (ZL-N Function)
15 Earthing Resistance Measurement (Function RE)
- 15.1 Earthing Resistance Measurement – Mains Powered
- 15.2 Earthing Resistance Measurement – Battery Powered, “Battery Mode” (PROFITEST MPRO & PROFITEST MXTRA only)
- 15.3 Earthing Resistance, Mains Powered – 2-Pole Measurement with 2-Pole Adapter or Country-Specific Plug (Schuko) without Probe
- 15.4 Earthing Resistance Measurement. Mains Powered – 3-Pole Measurement: 2-Pole Adapter with Probe
- 15.5 Earthing Resistance Measurement, Mains Powered – Measuring Earth Electrode Potential (UE Function)
- 15.6 Earthing Resistance Measurement, Mains Powered – Selective Earthing Resistance Measurement with Current Clamp Sensor as Accessory
- 15.7 Earthing Resistance Measurement, Battery Powered, “Battery Mode” – 3-Pole (PROFITEST MPRO & PROFITEST MXTRA only)
- 15.8 Earthing Resistance Measurement, Battery Powered, “Battery Mode” – 4-Pole (PROFITEST MPRO & PROFITEST MXTRA only)
- 15.9 Earthing Resistance Measurement, Battery Powered, “Battery Mode” – Selective (4-pole) with Current Clamp Sensor and PRO-RE Measuring Adapter as Accessory (PROFITEST MPRO & PROFITEST MXTRA only)
- 15.10 Earthing Resistance Measurement, Battery Powered, “Battery Mode” – Ground Loop Measurement (with current clamp sensor and transformer, and pro-re measuring adapter as accessory) (PROFITEST MPRO & PROFITEST MXTRA only)
- 15.11 Earthing Resistance Measurement, Battery Powered, “Battery Mode” – Measurement of Soil Resistivity rE (PROFITEST MPRO & PROFITEST MXTRA only)
16 Measurement of Insulation Resistance
- 16.1 General
- 16.2 Special Case: Earth Leakage Resistance (REISO)
17 Measuring Low-Value Resistance of up to 200 W (Protective Conductor and Equipotential Bonding Conductor)
- 17.1 Measurement with Constant Test Current
- 17.2 Protective Conductor Resistance Measurement with Ramp Sequence – Measurement at PRCDs with Current-Monitored Protective Conductor using the PROFITEST PRCD Test Adapter as an Accessory ( PROFITEST MXTRA only)
18 Measurement with Accessory Sensors
- 18.1 Current Measurement with Current Clamp Sensor
19 Special Functions – EXTRA Switch Position
- 19.1 Voltage Drop Measurement (at ZLN) – DU Function
- 19.2 Measuring the Impedance of Insulating Floors and Walls (standing surface insulation impedance) – ZST Function
- 19.3 Testing Meter Startup with Earthing Contact Plug – kWh Function
- 19.4 Leakage Current Measurement with PRO-AB Leakage Current Adapter as Accessory – IL Function (PROFITEST MXTRA only)
- 19.5 Testing Insulation Monitoring Devices – IMD Function (PROFITEST MXTRA only)
- 19.6 Residual Voltage Test – Ures Function (PROFITEST MXTRA only)
- 19.7 Intelligent Ramp – ta+ID Function (PROFITEST MXTRA only)
- 19.8 Testing Residual Current Monitors – RCM Function ( PROFITEST MXTRA only)
- 19.9 Checking the Operating Statuses of Electric Vehicles at Charging Stations per IEC 61851 ((PROFITEST MTECH+ & PROFITEST MXTRA)
- 19.10 PRCD – Test Sequences for Documenting Fault Simulations at PRCDs with the PROFITEST PRCD Adapter (PROFITEST MXTRA only)
  - 19.10.1 Fault Simulation
20 Test Sequences (Automatic Test Sequences) – AUTO Function
- 20.1 General (test sequence layouts)
- 20.2 Creation of Test Sequences with ETC
- 20.3 Using Test Sequences
21 Maintenance
- 21.1 Test Instrument Firmware/Software
  - 21.1.1 Rechargeable Battery Care
- 21.2 Fuse Replacement
- 21.3 Housing
- 21.4 Calibration
22 Contact, Support and Service
23 CE Declaration
24 Disposal and Environmental Protection
25 Appendix
- 25.1 Tables for Determining Maximum and Minimum Display Values in Consideration of the Instrument’s Maximum Measuring and Intrinsic Uncertainties
- 25.2 At which values should/must an RCD actually be tripped? Requirements for Residual Current Devices (RCD)
- 25.3 Testing Electrical Machines per DIN EN 60 204 – Applications, Limit Values
- 25.4 Periodic Testing per DGUV V 3 (previously BGV A3) – Limit Values for Electrical Systems and Operating Equipment
- 25.5 Bibliography
- 25.6 Internet Addresses for Additional Information

30 Gossen Metrawatt GmbH

Adjusting Brightness and Contrast

DB-MODE – Display of

the Database in the Text or

ID Mode

Creating Structures in the TXT MODE

The database in the test instrument is set to the text mode as a

default feature and “TXT” appears in the header. You can create

structure elements in the test instrument and label them in plain

text, e.g. Customer XY, Distributor XY and Circuit XY.

Creating Structures in the ID MODE

You can work in the ID MODE as an alternative, in which case “ID”

appears in the header. You can create structure elements in the

test instrument and label them with any desired ID numbers.

Note

Structures can be created in the test instrument in either

the text mode or the ID mode.

In contrast to this, designations and ID numbers are

always assigned in the report generating program.

If no texts or ID numbers have been entered to the test instrument

when creating structures, the report generating program creates

the missing entries automatically. These can then be edited in the

report generating program and transferred back to the test instru-

ment if required.

Selecting, Adding or Deleting an Inspector

See also section 10.8 on page 39 regarding the entry of a text.

(delete inspector via ETC only)

Note

The inspector cannot be changed. If an inspector’s name

is incorrect, it can be deleted and a new inspector can be

created with the correct name.

Changes are not retroactive. Deleted inspectors are

retained for tests which have already been performed.

Jump back to

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previous menu

Add a new inspector

Accept letter/character

Select letter/character

Delete letter/character

Toggle: upper/lowercase,

vowel mutations & special chars.

Accept name

Select inspector

Accept inspector