Operating Instructions METRAHITISO and METRAHITCOIL TRMS Multimeter with Insulation and Interturn Short-circuit Measurement (METRAHITCOIL only) 3-349-416-03 15/5.
Standard Equipment Standard Equipment METRAHIT ISO 1 Multimeter for isolation measurement 1 Protective rubber cover 1 KS17-2 cable set 1 DAkkS calibration certificate with calibration report 2 Batteries, 1.5 V, type AA, installed 1 Condensed operating instructions * Standard Equipment METRAHIT COIL 1 Insulation multimeter 1 Protective rubber cover 1 KS17-2 cable set 1 DAkkS calibration certificate 2 Batteries 1.
Contact Persons Accessories (sensors, plug inserts, adapters, consumable materials) The accessories available for your instrument are checked for compliance with currently valid safety regulations at regular intervals, and are amended as required for new applications.
Standard Equipment Recalibration Service We calibrate and recalibrate all instruments supplied by GMC-I Messtechnik GmbH, as well as other manufacturers, at our service center, for example after one year within the framework of your test equipment monitoring program, as well as prior to use etc. and offer you test equipment management free of charge. See also chapter 9.6 on page 71.
Contact Persons Competent Partner GMC-I Messtechnik GmbH is certified in accordance with DIN EN ISO 9001. Our DAkkS calibration laboratory is accredited by the Deutsche Akkreditierungsstelle GmbH (National accreditation body for the Federal Republic of Germany) in accordance with DIN EN ISO/IEC 17025 under registration number D-K-15080-01-01.
Table of Contents Contents Page Contents Page 1 Safety Features and Precautions ....................................... 8 5 1.1 1.2 1.3 Use for Intended Purpose ................................................................10 Meanings of Danger Symbols ..........................................................10 Meanings of Acoustic Warning Signals ............................................10 2 Operating Overview – Connections, Keys, Rotary Switch, Symbols 12 3 Initial Start-Up .............
Table of Contents Contents Page 5.9.4 Alternating Current Measurement with Clip-On Current Sensor, A AC and Hz .................................................................................. 50 5.9.5 Alternating Current Measurement with A AC and Hz Clip-On Current Transformer ...................................................................... 51 6 Device and Measuring Parameters ................................... 52 6.1 6.2 6.3 6.4 6.5 Paths to the Various Parameters ...........................
Safety Warnings 1 Safety Features and Precautions You have selected an instrument which provides you with a high level of safety. This instrument fulfills the requirements of the applicable European guidelines and national regulations. This is confirmed by means of the CE mark. A corresponding declaration of conformity can be requested from GMC-I Messtechnik GmbH.
Safety Warnings • Make certain that the measurement cables are in flawless condition, e.g. no damage to insulation, no interruptions in cables or plugs etc. • No measurements may be made with this instrument in electrical circuits with corona discharge (high-voltage). • Special care is required when measurements are made in HF electrical circuits. Dangerous pulsating voltages may be present. • Measurements under moist ambient conditions are not permitted.
Safety Warnings 1.1 Use for Intended Purpose • The respective multimeter is a portable device which can be held in the hand during the performance of measurements. • Only those types of measurements described in chapter 5 may be performed with the measuring instrument. • The measuring instrument, including measurement cables and plug-on test probes, may only be utilized within the specified measuring category (see page 65 and the table on page 8 regarding significance).
Safety Warnings GMC-I Messtechnik GmbH 11
Operating Overview – Connections, Keys, Rotary Switch, Symbols 2 Operating Overview – Connections, Keys, Rotary Switch, Symbols 16 Chap. 7 15 Chap. 3.1 1 Chap. 4.3 Chap. 6 14 2 Chap. 4.1.2 Chap. 3 13 3 Chap. 3 Chap. 6 12 4 Chap. 5 5 Chap. 6 11 Chap. 4.4 6 Chap. 3 ff. 7 Chap. 1.2 8 Chap. 3 9 Chap. 4.1 10 Chap. 4.1 Max.
Operating Overview – Connections, Keys, Rotary Switch, Symbols Symbols used in the Digital Display 1 2 3 4 5 6 7 8 9 10 11 12 25 24 13 14 23 15 16 22 20 21 1 2 3 4 5 6 7 8 9 10 11 12 17 19 18 Battery level indicator Battery full Battery OK Battery weak Battery (almost) dead, U < 1.
Operating Overview – Connections, Keys, Rotary Switch, Symbols Symbols used for Rotary Switch positions Additional Function clip-on (by menu SET CLIP 1:1/10/100/1000) Switch FUNC Display Measuring Function V 0/2 V DC AC TRMS Pulsating voltage, TRMS DC + AC, 15 Hz ...
Operating Overview – Connections, Keys, Rotary Switch, Symbols User Interface Symbols in the Following Chapters ... Scroll through main menu ... Scroll through submenu Select decimal point Increase/decrease value time Submenu/parameter (7-segment font) 1nFo Main menu (7-segment font, boldface) Position of the power pack adapter socket, see also chapter 3.1. 5 V / 600 mA Fuse for current measuring ranges (see chapter 9.3) The device may not be disposed of with the trash.
Initial Start-Up – Setup 3 Initial Start-Up 3.1 Batteries Be certain to refer to chapter 9.2 regarding correct battery installation! Momentary battery voltage can be queried in the “Info” menu (see chapter 6.3). ! Attention! Disconnect the instrument from the measuring circuit before opening the battery compartment lid in order to replace the batteries. Display Illumination After the instrument has been switched on, background illumination can be activated by briefly pressing the ON / OFF | LIGHT key.
Initial Start-Up – Setup 3.4 Switching the Instrument Off Switching the Instrument Off Manually ➭ Press the ON / OFF | LIGHT key until 0FF appears at the display. ON / OFF LIGHT Shutdown is acknowledged with a brief acoustic signal. Automatic Shutdown The instrument is switched off automatically if the measured value remains unchanged for a long period of time (maximum measured value fluctuation of approximately 0.
Control Functions 4 Control Functions 4.1 Selecting Measuring Functions and Measuring Ranges 4.1.1 Automatic Range Selection The multimeter is equipped with auto-ranging for all measuring functions, except for temperature measurement, and diode and continuity testing. Auto-ranging is active as soon as the instrument is switched on. The instrument automatically selects the measuring range which allows for highest possible resolution of the applied quantity.
Control Functions 4.1.3 Quick Measurements Measurements performed using a suitable fixed measuring range are executed more quickly than those which utilize automatic range selection. Quick measurement is made possible with the following two functions: • Manual measuring range selection, i.e. selection of the measuring range with the best resolution (see chapter 4.1.2) or • With the DATA function (see chapter 4.4).
Control Functions ➭ Briefly press the ZERO | ESC key. The instrument acknowledges storage of the reference value with an acoustic signal, and the “ZERO REL” or the “REL” symbol appears at the LCD. The value measured at the moment the key is pressed serves as a reference value. ➭ The reference value can be cleared by once again pressing the ZERO | ESC key. Notes Regarding Relative Measurement • Relative measurement effects the digital display only.
Control Functions 4.4 Measured Value Storage: DATA (auto-hold / compare) An individual measured value can be automatically “frozen” with the DATA function (auto-hold). This is useful, for example, when contacting the measuring points with the test probes requires your full attention.
Control Functions Example The voltage measuring range is set manually to 30 V. The first measured value is 5 V and is stored to memory because it is greater than 10% of the measuring range (= 3 V), and is thus reliable above the background noise level. As soon as the measured values drops to less than 10% of the measuring range, i.e. amounts to less than 3 V which corresponds to removal of the test probes from the measuring point, the instrument is ready to store a new value. 4.4.
Control Functions 4.4.2 Saving Minimum and Maximum Values – MIN/MAX Function Minimum and maximum measured values applied to the measuring instrument’s input after the Min/Max function has been activated can be “frozen” at the display. The most important use of this function is the determination of minimum and maximum values during long-term measured value observation. The Min/Max function can be activated in all measuring functions.
Control Functions 4.5 Measurement Data Recording The multimeter is capable of recording measurement data using an adjustable sampling rate for long periods of time in the form of measurement series. Data are stored to a battery-backed memory module, and are retained even after the multimeter is switched off. The system acquires measured values relative to real-time. Stored measured values can subsequently be read out with the help of METRAwin 10 software.
Control Functions During Recording STORE is displayed underneath the analog display during memory mode operation, and memory occupancy can be monitored: Querying Memory Occupancy Memory occupancy can be queried during recording with the help of the “1nFo ” menu (see also chapter 6.3). Memory occupancy range: 000.1% to 099.9%. StoP 000.3% MEASURE SETUP The following message appears as soon as memory is full: “100.0%”.
Measurements: V/Hz, , 5 Measurements 5.1 Voltage Measurement , Temp (°C/°F), , M@UISO, A/Hz Notes Regarding Voltage Measurement • The multimeter may only be operated with installed batteries. Dangerous voltages are otherwise not indicated, and the instrument may be damaged. • The multimeter may only be operated by persons who are capable of recognizing contact hazards and taking the appropriate safety precautions. Contact hazards exist anywhere, where voltages of greater than 33 V RMS may occur.
Measurements: V/Hz, , 5.1.1 Direct and Pulsating Voltage Measurement, V DC and V (DC+AC) ➭ Set the CL iP parameter to 0FF in the current clip setup menu. Otherwise all measured values are displayed in amperes, corrected by the amount resulting from the selected transformation ratio for an interconnected clip-on current sensor. MEASURE SETUP FUNC ENTER 1nFo ... SET FUNC ENTER 1 /10/100/1000 / 0ff MEASURE SETUP ... SET , Temp (°C/°F), FUNC ENTER ... CL IP 020.
Measurements: V/Hz, , , Temp (°C/°F), , M@UISO, A/Hz 5.1.2 Alternating Voltage and Frequency Measurement V AC and Hz with Selectable Low-Pass Filter ➭ Set the CL iP parameter to 0FF in the current clip setup menu. Otherwise all measured values are displayed in amperes, corrected by the amount resulting from the selected transformation ratio for an interconnected clip-on current sensor. MEASURE SETUP FUNC ENTER 1nFo ... SET FUNC ENTER 1 /10/100/1000 / 0ff rAtE ...
Measurements: V/Hz, , Specified measuring accuracy is not reached with signals of greater than 500 Hz when the filter is active. MEASURE SETUP ... SET , Temp (°C/°F), FUNC ENTER ... CL IP , M@UISO, A/Hz FUNC ENTER 0ff V~ V MISO Temp COM mA A Measuring Ranges: V~: 10 mV 1000 V 5 ranges: 300 mV, 3 V, 30 V, 300 V and 1000 V Max.
Measurements: V/Hz, , , Temp (°C/°F), , M@UISO, A/Hz Duty Cycle Measurement (Function not available for METRAHIT ISO) ➭ Set the rotary switch to V~. V~ Hz ➭ Repeatedly press the FUNC | ENTER multifunction key until % appears at the display. 1232.3 Hz % ➭ Connect the measurement cables as shown.
Measurements: V/Hz, , RPM Measurement (function only available with customer-specific variant) Revolutions per minute (also known as rotational frequency) are measured by acquiring pulses. As a prerequisite for this measurement, the number of measurable pulses per revolution must first be set in the RPM setup menu (vpm 0FF, see below). ➭ Set the rotary switch to V~. ➭ Repeatedly press the FUNC | ENTER multifunction key until RPM is briefly displayed.
Measurements: V/Hz, , , Temp (°C/°F), , M@UISO, A/Hz 0000.0 k Measuring ranges: 0.
Measurements: V/Hz, , 5.3 Temperature Measurement: Temp RTD and Temp TC Temperature measurement is performed with a Pt100 or Pt1000 resistance thermometer, or a type K thermocouple (accessory, not included), which is connected to the voltage input. Selecting the Unit of Measure for Temperature MEASURE SETUP 1nFo ... tEMP FUNC ENTER °C / °F FUNC ENTER (°C = default setting) , Temp (°C/°F), , M@UISO, A/Hz Automatic Compensation ➭ Acknowledge by pressing the ZERO | ESC key.
Measurements: V/Hz, , , Temp (°C/°F), , M@UISO, A/Hz Temp RTD Temp TC Measuring Ranges RTD Pt100 –200.0 +850.0 C RTD Pt1000 –150.0 +850.0 C 0025.6 C FUNC ENTER RTD Pt1000 ZERO ESC Short Leads 0000.0 V MISO Temp RTD Automatic Compensation ZERO ESC COM mA A r000.
Measurements: V/Hz, , 5.3.2 Measurement with Thermocouples, Temp TC ➭ Set the rotary switch to “TempRTD”. Note The last selected temperature measurement or the last selected temperature sensor, i.e. type K or Pt100/Pt1000, remains in memory and is accordingly displayed. Press the FUNC | ENTER key in order to change to the other measuring function if required. ➭ The reference temperature is measured at the internal reference junction (see parameter “1tEMP” in Seite 54 regarding querying).
Measurements: V/Hz, , , Temp (°C/°F), , M@UISO, A/Hz 5.4 Continuity Test ➭ Disconnect supply power from the electrical circuit of the device to be measured, and discharge all high-voltage capacitors. 000.8 ➭ Make sure that the device under test is voltage-free. Interference voltages distort measurement results! ➭ Set the rotary switch to “ ”. FUNC ENTER ➭ A loudspeaker symbol appears at the display. ➭ Connect the conductor path under test as shown. 0.
Measurements: V/Hz, , , Temp (°C/°F), 5.5 Diode Testing with Constant Current of 1 mA ➭ Disconnect supply power from the electrical circuit of the device to be measured, and discharge all high-voltage capacitors. 000.8 ➭ Make sure that the device under test is voltage-free. Interference voltages distort measurement results! Refer to section 5.1.1 regarding testing for the absence of voltage with the help of the direct voltage measurement. ➭ Set the rotary switch to “ FUNC ENTER ”.
Measurements: V/Hz, , , Temp (°C/°F), , M@UISO, A/Hz 5.6 Capacitance Measurement ➭ Disconnect supply power from the electrical circuit of the device to be measured, and discharge all high-voltage capacitors. F ! 0V! ”. V MISO Temp + ➭ Connect the (discharged!) device under test to the sockets with the measurement cables as shown. + Note The “–” pole of polarized capacitors must be connected to the “” jack.
Measurements: V/Hz, , 5.7 Insulation Resistance Measurement – M@UISO 5.7.1 Preparing for Measurement Note Testing the Measurement Cables The test probes at the ends of the measurement cables should be short circuited before performing insulation resistance measurements with the selector switch in the or the position, in order to make sure that a value close to 0 is displayed at the instrument. Incorrect connection or a broken measurement cable can be detected in this way.
Measurements: V/Hz, , , Temp (°C/°F), , M@UISO, A/Hz The selected test voltage appears at the display during testing. Caution: High-Voltage! Do not touch the conductive ends of the test probes when the instrument has been activated for the measurement of insulation resistance. You may otherwise be exposed to a current of 2.5 mA (limited in the measuring instrument), and although this is not life endangering, the resulting electrical shock is quite discernible.
Measurements: V/Hz, , Note A dead zone results in erroneous measurements for automatic interference voltage detection during insulation resistance measurement. The dead zone lies within a range of 80% to 120% of the selected test voltage (in the case of an interference voltage whose value is equal to that of measuring voltage, the two voltages neutralize each other). Manual switching to insulation resistance measurement is disabled for as long as voltage is applied to the test terminals.
Measurements: V/Hz, , , Temp (°C/°F), , M@UISO, A/Hz 5.8 Interturn Short-circuit Measurement – Function COIL/M@UISO This function can only be performed with the METRAHIT COIL device variant and only in combination with the COIL TEST ADAPTER. With this measurement, a partially periodic time value is determined in proportion to the inductivity of the respective winding for each motor coil or coil combination via a cyclical discharge at high voltage.
Measurements: V/Hz, , Note The switch position COIL/M@UISO may only be used for interturn short-circuit measurement. However, any interference voltage accidentally applied is indicated in this switch position. If an interference voltage of more than 50 V is present in the equipment, interturn short-circuit measurement is disabled. The LCD panel continues to display the interference voltage and the „Caution: High-Voltage“ symbol.
Measurements: V/Hz, , , Temp (°C/°F), , M@UISO, A/Hz V 1M 1000V 000.0 COIL V M @UISO Apply Test Voltage DC AC TRMS UCOIL ON / OFF ZERO ESC sec 1000V Note Winding & Measured Value 0120.0 μ ➭ Allow the winding to be discharged via the multimeter before removing the contact, see Kap. 5.8.3. ➭ Connect the next winding (e.g. V–W) and repeat the measuring procedure as described above. Signalling of Measuring Progress For better guidance, the first three test steps are marked accordingly.
Measurements: V/Hz, , , M@UISO, A/Hz 5.8.3 Ending the Measurement and Discharging Discharge + 1000V – Automatic Evaluation of the Measuring Results With the start of the second measurement, the automatic evaluation of the measuring results begins. The analog display* shows the maximum deviation in percent from all preceding measurements of the UCOIL measurement series. This allows for a direct comparison between the first and the subsequent measurements.
Measurements: V/Hz, , 5.9 , Temp (°C/°F), , M@UISO, A/Hz Current Measurement Notes Regarding Current Measurement • The multimeter may only be operated with installed batteries or rechargeable batteries. Dangerous currents are otherwise not indicated, and the instrument may be damaged. • Set up the measuring circuit in a mechanically secure fashion, and secure it against inadvertent breaks. Select conductor cross-sections and lay out connections such that they do not overheat.
Measurements: V/Hz, , 5.9.1 Direct and Pulsating Current Measurement, Direct Connection, A DC and A (DC+AC) ➭ First disconnect supply power from the measuring circuit or the power consumer (1), and discharge any capacitors. MEASURE SETUP ➭ In accordance with the current to be measured, set the rotary switch to A or A . ➭ Select the type of current appropriate for the measured quantity by briefly pressing the FUNC | ENTER multifunction key.
Measurements: V/Hz, , , Temp (°C/°F), , M@UISO, A/Hz 5.9.2 Alternating Current and Frequency Measurement, Direct Connection, A AC and Hz ➭ First disconnect supply power from the measuring circuit or the power consumer (1), and discharge any capacitors. MEASURE SETUP Hz ➭ Select the desired measured quantity by briefly pressing the FUNC | ENTER multifunction key. Each time the key is pressed, ACTRMS and Hz are alternately selected, and switching is acknowledged with an acoustic signal.
Measurements: V/Hz, , 5.9.3 Direct and Pulsating Current Measurement with Clip-On Current Sensor A DC and A (DC+AC) Transformer Output, Voltage/Current When a clip-on current sensor is connected to the multimeter (V input), all current displays appear with the correct value in accordance with the selected transformation ratio.
Measurements: V/Hz, , , Temp (°C/°F), , M@UISO, A/Hz 5.9.4 Alternating Current Measurement with Clip-On Current Sensor, A AC and Hz Transformer Output, Voltage/Current When a clip-on current sensor is connected to the multimeter (V input), all current displays appear with the correct value in accordance with the selected transformation ratio.
Measurements: V/Hz, , 5.9.5 Alternating Current Measurement with A AC and Hz Clip-On Current Transformer Current/Current Transformer Output When a clip-on current transformer is connected to the multimeter (mA/A input), all current displays appear with the correct value in accordance with the selected transformation ratio.
Device and Measuring Parameters 6 Device and Measuring Parameters The instrument’s “SETUP ” mode (menu mode) makes it possible to set operating and measuring parameters, query information and activate the interface. ➭ The menu mode is accessed by pressing the MEASURE | SETUP key, assuming that the instrument is switched on and set to “Measure” (measuring mode operation). “1nFo ” appears at the display. ➭ The main menus, i.e.
Device and Measuring Parameters 6.1 Paths to the Various Parameters 020.00 V DC AC TRMS MEASURE SETUP 6.2 01nfo Main Menus 1nFo StorE SEnd SET tEMP FUNC ENTER FUNC ENTER FUNC ENTER FUNC ENTER FUNC ENTER Sub-Menus / Parameters Query Set bAtt: uers ion: 1temp dAtE: tiME: 0CCvP: Set Set 000.
Device and Measuring Parameters 6.3 Querying Parameters – InFo Menu (as moving letters) bAtt – query battery voltage MEASURE SETUP 1nFo FUNC ENTER MEASURE SETUP bAtt: 2.75 V. 1nFo FUNC ENTER bAtt: uErS ion: 1.00 ItEMP – query reference temperature The temperature of the internal reference junction is measured with a temperature sensor in close proximity to the input sockets. MEASURE SETUP 1nFo 1nFo (hh:mm:ss) FUNC ENTER bAtt: ...
Device and Measuring Parameters 6.4 Entering Parameters – SETUP Menu rAtE – set the sampling rate The sampling rate specifies the time interval after which the respective measured value is transmitted to the interface, or to measured value memory. Any one of the following sampling rates can be selected: [mm:ss.t]: 00:00,1, 00:00,2, 00:00.5, 00:01,0, 00:02,0, 00:05.0 [h:mm:ss.t] (h=hours, m=minutes, s=seconds, z=tenths of a sec.
Device and Measuring Parameters APoFF – specified time for automatic shutdown and continuous ON The instrument is switched off automatically if the measured value remains unchanged for a long period of time and if none of the keys or the rotary switch have been activated before the specified time “APoFF” (entered in minutes) has elapsed. If the on setting is selected, the multimeter is set for long-term measurement and ON appears in the display to the right of the battery symbol.
Device and Measuring Parameters dAtE – enter date Entering the current date makes it possible to acquire measured values in real-time. MEASURE SETUP FUNC ENTER 1nFo ... SET FUNC ENTER rAtE ... dAtE 31.12 (DD: day . MM: month) 2005 (YYYY: year) FUNC ENTER 6.5 Default Settings Previously entered changes can be undone, and the default settings can be reactivated.
Interface Operation 7 Interface Operation The multimeter is equipped with an infrared interface for the transmission of measurement data to a PC. Measured data are optically transferred through the instrument housing by means of infrared light to an interface adapter (accessory), which is attached to the multimeter. The adapter’s USB interface allows for the establishment of a connection to the PC via an interface cable.
Interface Operation 7.2 Configuring Interface Parameters irStb – status of the infrared receiver in the stand-by mode There are two possible switching statuses for the infrared interface when the multimeter is switched off: ir on: IR appears at the display and the infrared interface is active, i.e. signals such as making commands can be received, and power is consumed even though the multimeter is switched off.
Technical Data 8 Technical Data Meas. Function Measuring Range (input) V 300.0 mV 3.000 V 30.00 V 300.0 V 1000 V Resolution at Upper Range Limit 30000 10 V 100 V 1 mV 10 mV 100 mV 3000 100 V 1 mV 10 mV 100 mV 1 V Intrinsic Uncertainty under Reference Conditions Input Impedance 30000 ~/ 9 9 9 9 9 M M M M M 9 M // < 50 pF 9 M // < 50 pF 9 M // < 50 pF 9 M // < 50 pF 9 M // < 50 pF 0.15 + 15 10) 0.15 + 15 0.15 + 15 0.15 + 15 0.15 + 15 (... % rdg. + ... d) 3000 3000 ~ 1) 11) 0.
Technical Data Meas. Function Measuring Range (input) Resolution at Upper Range Limit Intrinsic Uncertainty under Reference Conditions 3000 Discharge resist. F Hz (V)/ Hz (A) Hz (A ) Hz (V) 30.00 300.0 3.000 30.00 300.0 nF nF F F F 10 100 1 10 100 pF pF nF nF nF M M k k k U0 max 0.7 0.7 0.7 0.7 0.7 V V V V V fmin 5) 300.0 Hz 3.000 kHz 0.1 Hz 1 Hz 1 Hz 30.00 kHz 10 Hz 10 Hz 100 Hz 300.0 kHz 100 Hz Resolution % 10 1 100 12 3 2.0 .... 98.0 10.0...90.0 5.0 .... 95.0 10.0...
Technical Data Insulation Resistance Measurement 1) Measuring Range 0,3 V ... 1000 V 2) 5 ... 310.0 k 0.280 ... 3.100 M 02.80 ... 31.00 M 028.0 ... 310.0 M 0280 ... 3100 M Interturn Short-circuit Measurement (METRAHIT COIL only) Test voltage UISO Resolution Ri=1M 0.
Technical Data Influencing Quantity Measured Quantity / Measuring Range VAC 2) 300 mV ... 300 V 1000 V Frequency 2) 3) AAC AAC 300 A ... 10 A +DC Intrinsic Uncertainty 3) ... % rdg. + ... d) Influencing Quantity 2 + 5 > 300 Digit 2 + 5 > 300 Digit 3 + 5 > 300 Digit 3 + 5 > 60 Digit Common Mode Interference Voltage 3 + 10 > 300 Digit Series Mode Interference Voltage Sphere of Influence Measured Qty. / Measuring Range Interference quantity max.
Technical Data Display Response Time (after manual range selection) Measured Quantity / Measuring Range V A ,V ,A 300 ... 3 M Response Time Digital Display Measured Quantity Jump Function 1.5 s From 0 to 80% of upper range limit value 2s 30 M, M@UISO Max. 5 s Continuity < 50 ms C (Pt 100) Max. 3 s From to 50% of upper range limit value 1.5 s 30 nF ... 300 F Max. 5 s >10 Hz 1.
Technical Data Power Supply Electrical Safety Battery Safety class 2 ea. 1.5 V mignon cell (2 ea. size AA), alkaline manganese per IEC LR6 Service life With alkaline manganese batteries: approx. 200 hours (without M@UISO measurement) Battery test Battery capacity display with battery symbol in 4 segments: . Querying of momentary battery voltage via menu function. Power OFF function The multimeter is switched off automatically: – If battery voltage drops to below approx. 1.
Technical Data Data Interface Type Data transmission Protocol Baud Rate Functions Optical via infrared light through the housing Serial, bidirectional (not IrDa compatible) Device specific 38,400 baud – Select/query measuring functions and parameters – Query momentary measurement data The USB X-TRA plug-in interface adapter (see accessories) is used for adaptation to the PC’s USB port. Internal Measured Value Storage Memory capacity 4 MBit / 540 kB for approx.
Technical Data GMC-I Messtechnik GmbH 67
Maintenance – Recalibration 9 Maintenance and Recalibration Note Disconnect the instrument from the measuring circuit before opening the battery compartment lid or fuse cover when replacing batteries or fuses! 9.1 Displays – Error Messages Message Function Meaning FUSE Current measurement Blown fuse In all operating modes Battery voltage has fallen below 1.
Maintenance – Recalibration Replacing the Batteries ! Attention! Disconnect the instrument from the measuring circuit before opening the battery compartment lid in order to replace the batteries. If the fuse is blown or has not been inserted, “FuSE” appears at the digital display. The fuse interrupts the current measuring ranges. All other measuring ranges remain functional. fuse ➭ Set the instrument face down onto the working surface.
Maintenance – Recalibration ! Attention! Use specified fuses only! If fuses with other blowing characteristics, other current ratings or other breaking capacities are used, the operator is placed in danger, and protective diodes, resistors and other components may be damaged. The use of repaired fuses or short-circuiting the fuse holder is prohibited.
Maintenance – Recalibration 9.6 Recalibration The respective measuring task and the stress to which your measuring instrument is subjected affect the ageing of the components and may result in deviations from the guaranteed accuracy. If high measuring accuracy is required and the instrument is frequently used in field applications, combined with transport stress and great temperature fluctuations, we recommend a relatively short calibration interval of 1 year.
Accessories 10 Accessories 10.1 General The extensive accessories available for our measuring instruments are checked for compliance with currently valid safety regulations at regular intervals, and are expanded as required for new applications.
Accessories 10.4 Interface Accessories (not included) USB X-TRA Bidirectional Interface Adapter This adapter makes it possible to connect cable multimeters, as well as STARLINE multimeters which are equipped with a serial IR interface, to the USB port at a PC. The adapter allows for data transmission between the multimeter and the PC.
Index 11 Index Numerics 0.diSP ................................................................... 55 A Addr ...................................................................... 59 APoFF ................................................................... 56 Auflösung, hohe bei V DC und Ohm ................... 55 Automatic Shutdown Disable ........................................................ 17 Specify Time ............................................... 17 Auto-Range Function ......................
Index S Safety Precautions ................................................. 8 Software Enabling .................................................. 3 Standard Equipment .............................................. 2 Switching the Instrument On Manual ........................................................ 16 Via PC .......................................................... 16 Symbols Device .......................................................... 15 Digital Display .....................................
Edited in Germany Subject to change without notice A pdf version is available on the internet GMC-I Messtechnik GmbH Südwestpark 15 90449 Nürnberg • Germany Phone +49 911 8602-111 Fax +49 911 8602-777 E-Mail info@gossenmetrawatt.com www.gossenmetrawatt.