Action Engineers is an accredited electro technical calibration lab. We calibrate a wide range of multi-meters, clamp-meters, oscilloscopes, transmitters, power source, relay test kit and more. Our scope of ISO 17025 also covers High voltage testers, AC/DC resistors, Luminance/Illuminance, welding machine, Shunts, LCR meters, LF Capacitance, HV Break Down Tester Oil Testing Kit with a wide range of measurement parameters. With digitally signed calibration certificate and traceability, Action Engineers’ accredited electrical calibration capabilities exceed the most stringent quality requirements.
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| S.No | Discipline / Group | Measurand or Reference Material / Type of instrument or material to be calibrated or measured / Quantity Measured / Instrument | Calibration or Measurement Method or procedure | Measurement range and additional parameters where applicable (Range and Frequency) | Calibration and Measurement Capability(CMC) (±) |
| 1. | ELECTROTECHNICAL Alternating Current (< 1GHz) (Measure) | AC Current (40Hz to 1 kHz) | Using 81/2 DMM Fluke 8588A By Direct Method | 0.32 A to 10 A | 0.073 % to 0.093 % |
| 2. | ELECTROTECHNICAL Alternating Current (< 1 GHz) (Measure) | AC Current (40Hz to 1 kHz) | Using 81/2 DMM Fluke 8588A By Direct Method | 10 A to 20 A | 0.093 % to 0.168 % |
| 3. | ELECTROTECHNICAL Alternating Current (< 1 GHz) (Measure) | AC Current (40Hz to 1 kHz) | Using 81/2 DMM Fluke 8588A By Direct Method | 30 µA to 0.32 A | 0.54 % to 0.073 % |
| 4 | ELECTROTECHNICAL Alternating Current (< 1 GHz) (Measure) | AC Current (50Hz)/td> | Using 61/2 DMM Fluke 8846A & CT By Direct Method & with Source By Comparison Method | 100 A to 500 A | 0.36 % to 0.58 % |
| 5 | ELECTROTECHNICAL Alternating Current (< 1 GHz)(Measure) | AC Current (50Hz) | Using 61/2 DMM Fluke 8846A & CT By Direct Method & with Source By Comparison Method | 100 A to 500 A | 0.36 % to 0.58 % |
| 6 | ELECTROTECHNICAL Alternating Current (< 1 GHz)(Measure) | AC Current (50Hz) | Using 61/2 DMM Fluke 8846A & CT By Direct Method & with Source By Comparison Method | 500 A to 1000 A | 0.58 % to 0.37 % |
| 7 | ELECTROTECHNICAL Alternating Current (< 1 GHz)(Measure) | AC Energy (Wh) (1 Ph / 3 Ph, 50Hz) 110V to 240 V, 1 A to 5A, 0.5 PF to 1 PF | Using Power /Energy Meter By Comparison Method | 55 Wh to 3.6 kWh | 0.33 % to 0.34 % |
| 8 | ELECTROTECHNICAL Alternating Current (< 1GHz)(Measure) | AC Energy, Online(Wh) (1 Ph / 3 Ph,50Hz) 110 V to 240V, 5 A to 1000 A, 0.5PF to 1 PF | Using Power /Energy Meter withCurrent Clamp CoilBy Comparison Method | 275 Wh to 720 kWh | 3.07% |
| 9 | ELECTROTECHNICAL Alternating Current (< 1 GHz)(Measure) | AC Voltage (40Hz to 1 kHz) | Using 81/2 DMM Fluke 8588A By Direct Method & with Source By Comparison Method | 1 mV to 10 mV | 0.53 % to 0.06 % |
| 10 | ELECTROTECHNICAL Alternating Current (< 1 GHz)(Measure) | AC Voltage (40Hz to 1 kHz) | Using 81/2 DMMFluke 8588A By Direct Method | 10 mV to 100 V | 0.06 % to 0.008 % |
| 11 | ELECTROTECHNICAL Alternating Current (< 1 GHz) (Measure) | AC Voltage (40Hz to 1 kHz) | Using 81/2 DMM Fluke 8588A By Direct Method | 100 V to 1000 V | 0.008 % to 0.016 % |
| 12 | ELECTROTECHNICAL Alternating Current (< 1 GHz) (Measure) | AC Voltage (50Hz) | Using High Voltage Divider with Display By Direct Method & with Source By Comparison Method | 1 kV to 15 kV | 0.74 % to 0.73 % |
| 13 | ELECTROTECHNICAL Alternating Current (< 1 GHz) (Measure) | AC Voltage (50Hz) | Using High Voltage Divider with Display By Direct Method & with Source By Comparison Method | 15 kV to 50 kV | 0.73 % to 0.6 % |
| 14 | ELECTROTECHNICAL Alternating Current (< 1 GHz) (Measure) | Capacitance @ 1 kHz | Using 81/2 DMM Fluke 8588A By Direct Method | 10 µF to 100 mF | 0.23 % to 0.094 % |
| 15 | ELECTROTECHNICAL Alternating Current (< 1 GHz) (Measure) | Capacitance @ 1kHz | Using 81/2 DMM Fluke 8588A By Direct Method | 220 pF to 10 µF | 0.75 % to 0.24 % |
| 16 | ELECTRO TECHNICAL TEMPERATURE SIMULATION (MEASURE) | Transformer Turn Ratio Meter (50Hz) | Using 81/2 DMM Fluke 8588A, 61/2 DMM Fluke 8846A & Standard Ratio Transformer ByComparison Method | 1 Ratio to 2000 Ratio | 0.17 % to 0.33 % |
| 17 | ELECTROTECHNICAL Alternating Current (< 1 GHz) (Source) | AC Current (40Hz to 1kHz) | Using Fluke 5522A MFC By Direct Method | 0.32 A to 10 A | 0.054 % to 0.1 % |
| 18 | ELECTROTECHNICAL Alternating Current (< 1 GHz) (Source) | AC Current (40Hz to1kHz) | Using Fluke 5522A MFC By Direct Method | 10 A to 20 A | 0.1 % to 0.168 % |
| 19 | ELECTROTECHNICAL Alternating Current (< 1 GHz) (Source) | AC Current (40Hz to 1kHz) | Using Fluke 5522A MFC By Direct Method | 30 µA to 0.32 A | 0.53 % to 0.054 % |
| 20 | ELECTROTECHNICAL Alternating Current (< 1 GHz) (Source) | AC Current (50Hz) | Using Fluke 5522A MFC & 50 Turns Current Coil By Direct Method | 20 A to 1000 A | 0.48 % to 0.38 % |
| 21 | ELECTROTECHNICAL Alternating Current (< 1 GHz) (Source) | AC Power Analyzer with / without Current Loop (Active/Reactive/Apparent) W/VAR/VA, 50 to 70 Hz, 0.25 to 1PF (Lead/Lag), 40 Vto 320 V, 20 A to 120 A | Using Fluke 5522A MFC & 50 Turns Current Coil By Direct Method | 9.6 kW to 38.4 kW | 1.39% to 0.36% |
| 22 | ELECTROTECHNICAL Alternating Current (< 1 GHz) (Source) | AC Power Analyzer with / without Current Loop (Active/Reactive/Apparent) W/VAR/VA, 50 to 70 Hz, 0.25 to 1PF (Lead/Lag), 40 Vto 320V, 0.1 A to 20A | Using Fluke 5522AMFC By DirectMethod | 1 W to 6.4 kW | 0.59% to 0.14% |
| 23 | ELECTROTECHNICAL Alternating Current (< 1 GHz) (Source) | AC Voltage (40Hz to 1kHz) | Using Fluke 5522A MFC By Direct Method | 3 mV to 32 mV | 0.25 % to 0.04 % |
| 24 | ELECTROTECHNICAL Alternating Current (< 1 GHz) (Source) | AC Voltage (40Hz to 1kHz) | Using Fluke 5522A MFC By Direct Method | 32 mV to 32 V | 0.024 % to 0.02 % |
| 25 | ELECTRO TECHNICAL TEMPERATURE SIMULATION (MEASURE) | AC Voltage (40Hz to 1kHz) | Using Fluke 5522A MFC By Direct Method | 32 V to 320 V | 0.02 % to 0.023 % |
| 26 | ELECTRO TECHNICAL TEMPERATURE SIMULATION (Source) | AC Voltage (40Hz to 1kHz) | Using Fluke 5522A MFC By Direct Method | 320 V to 1000 V | 0.023 % to 0.036 % |
| 26 | ELECTROTECHNICAL DIRECT CURRENT (Measure) | DC Voltage | Using 81/2 DMM Fluke 8588A By Direct Method | 10 V to 100 V | 0.00047 % to 0.00079 % |
| 27 | ELECTRO TECHNICAL TEMPERATURE SIMULATION (Source) | Capacitance @ 1 kHz | Using Capacitor Box By Direct Method | 1 nF to 100 µF | 1.3 % to 1.16 % |
| 28 | ELECTRO TECHNICAL TEMPERATURE SIMULATION (Source) | Capacitance @ 1 kHz | Using Fluke 5522A MFC By Direct Method | 220 pF to 100 nF | 5.8 % to 0.41 % |
| 29 | ELECTRO TECHNICAL TEMPERATURE SIMULATION (Source) | Inductance @ 1 kHz | Using Inductor Box By Direct Method | 100 µH to 10 H | 1.2 % to 1.15 % |
| 30 | ELECTRO TECHNICAL TEMPERATURE SIMULATION (Source) | Power Factor / Phase Angle (40V,0.5A & 240V,20A @ 50 Hz) | Using Fluke 5522A MFC By Direct Method | 0.1 PF (Lag / Lead) to 1 PF (Lag / Lead) | 2.34% to 0.13% |
| 31 | ELECTROTECHNICAL DIRECT CURRENT (Measure) | DC Current | Using 81/2 DMM Fluke 8588A By Direct Method | 1 A to 20 A | 0.027 % to 0.089 % |
| 32 | ELECTROTECHNICAL DIRECT CURRENT (Measure) | DC Current | Using 81/2 DMM Fluke 8588A By Direct Method | 10 µA to 100 µA | 0.25 % to 0.0017 % |
| 33 | ELECTROTECHNICAL DIRECT CURRENT (Measure) | DC Current | Using 81/2 DMM Fluke 8588A & DC Shunt By Comparison Method | 10 A to 1000 A | 0.75 % to 0.72 % |
| 34 | ELECTROTECHNICAL DIRECT CURRENT (Measure) | DC Current | Using 81/2 DMM Fluke 8588A By Direct Method | 100 µA to 100 mA | 0.0017 % to 0.008 % |
| 35 | ELECTROTECHNICAL DIRECT CURRENT (Measure) | DC Current | Using 81/2 DMM Fluke 8588A By Direct Method | 100 mA to 1 A | 0.008 % to 0.027 % |
| 36 | ELECTROTECHNICAL DIRECT CURRENT(Measure) | DC Voltage | Using 81/2 DMM Fluke 8588A By Direct Method | 0.1 mV to 100 mV | 0.25 % to 0.001 % |
| 37 | ELECTROTECHNICAL DIRECT CURRENT(Measure) | DC Voltage | Using High Voltage Divider with Display By Direct Method & with Source By Comparison Method | 1 kV to 70 kV | 2.44 % to 2.54 % |
| 39 | ELECTROTECHNICAL DIRECT CURRENT (Measure) | DC Voltage | Using 81/2 DMM Fluke 8588A By Direct Method | 100 mV to 10 V | 0.0012 % to 0.00047% |
| 40 | ELECTROTECHNICAL DIRECT CURRENT (Measure) | DC Voltage | Using 81/2 DMM Fluke 8588A By Direct Method | 100 V to 1000 V | 0.00052 % to 0.00079 % |
| 41 | ELECTROTECHNICAL DIRECT CURRENT (Measure) | Low Resistance (4Wire) | Using 81/2 DMM, 61/2 DMM & MFC (V/I Method) By Direct Method & with Source By Comparison Method | 0.1 mOhm to 20 Ohm | 0.504 % to 0.24 % |
| 42 | ELECTROTECHNICAL DIRECT CURRENT (Measure) | Resistance | Using 81/2 DMM Fluke 8588A By Direct Method | 1 Ohm to 100 Ohm | 0.016 % to 0.0011 % |
| 43 | ELECTROTECHNICAL DIRECT CURRENT (Measure) | Resistance | Using 81/2 DMM Fluke 8588A By Direct Method | 10 MOhm to 100 MOhm | 0.0067 % to 0.028 % |
| 44 | ELECTROTECHNICAL DIRECT CURRENT (Measure) | Resistance | Using 81/2 DMM Fluke 8588A By Direct Method | 100 MOhm to 10 GOhm | 0.028 % to 0.27 % |
| 45 | ELECTROTECHNICAL DIRECT CURRENT (Measure) | Resistance | Using 81/2 DMM Fluke 8588A By Direct Method | 100 Ohm to 10 MOhm | 0.0011 % to 0.0067 % |
| 46 | ELECTROTECHNICAL DIRECT CURRENT(Source) | DC Current | Using Fluke 5522A MFC By Direct Method | 1 A to 20 A | 0.028 % to 0.12 % |
| 47 | ELECTRO TECHNICAL DIRECT CURRENT (Source) | DC Current | Using Fluke 5522A MFC By Direct Method | 10 µA to 3.2 mA | 0.25 % to 0.013 % |
| 48 | ELECTRO TECHNICAL DIRECT CURRENT (Source) | DC Current | Using Fluke 5522A MFC & 50 Turns Current Coil By Direct Method | 20 A to 1000 A | 0.38 % to 0.32 % |
| 49 | ELECTRO TECHNICAL DIRECT CURRENT (Source) | DC Current | Using Fluke 5522A MFC By Direct Method | 3.2 mA to 1 A | 0.013 % to 0.028 % |
| 50 | ELECTRO TECHNICAL DIRECT CURRENT (Source) | DC Voltage | Using Fluke 5522A MFC By Direct Method | 0.1 mV to 100 mV | 1.22 % to 0.004 % |
| 51 | ELECTRO TECHNICAL DIRECT CURRENT (Source) | DC Voltage | Using Fluke 5522A MFC By Direct Method | 100 mV to 3.2 V | 0.0036 % to 0.0014 % |
| 52 | ELECTRO TECHNICAL DIRECT CURRENT (Source) | DC Voltage | Using Fluke 5522A MFC By Direct Method | 3.2 V to 32 V | 0.0014 % to 0.0015 % |
| 53 | ELECTRO TECHNICAL DIRECT CURRENT (Source) | DC Voltage | Using Fluke 5522A MFC By Direct Method | 32 V to 1000 V | 0.0015 % to 0.0023 % |
| 54 | ELECTRO TECHNICAL DIRECT CURRENT (Source) | Low Resistance (4 wire) | Using Low Resistance Box Shunt By Direct Method | 0.1 mOhm to 20 Ohm | 0.5 % to 0.25 % |
| 55 | ELECTRO TECHNICAL DIRECT CURRENT (Source) | Resistance | Using Fluke 5522A MFC By Direct Method | 100 KOhm to 100 MOhm | 0.003 % to 0.063 % |
| 56 | ELECTRO TECHNICAL DIRECT CURRENT (Source) | Resistance | Using Fluke 5522A MFC By Direct Method | 100 Ohm to 320 MOhm | 0.063 % to 0.43 % |
| 57 | ELECTRO TECHNICAL DIRECT CURRENT (Source) | Resistance | Using Fluke 5522A MFC By Direct Method | 100 Ohm to 100 KOhm | 0.005 % to 0.003 % |
| 58 | ELECTRO TECHNICAL DIRECT CURRENT (Source) | Resistance | Using Fluke 5522A MFC By Direct Method | 2 Ohm V to 100 Ohm | 1.16 % to 0.005 % |
| 59 | ELECTRO TECHNICAL DIRECT CURRENT (Source) | Resistance | Using Fluke 5522A MFC By Direct Method | 320 MOhm to 1 GOhm | 0.043 % to 1.93 % |
| 60 | ELECTRO TECHNICAL DIRECT CURRENT (Source) | Resistance/ Insulation tester(upto 5kV) | Using High Resistance Box By Direct Method | 1 MOhm to 100 Mohm | 0.62 % to 0.30 % |
| 61 | ELECTRO TECHNICAL DIRECT CURRENT (Source) | Resistance / Insulation Tester(upto 5kV) | Using High Resistance Box By Direct Method | 100 MOhm to 1 TOhm | 0.30 % to 1.78 % |
| 62 | ELECTRO TECHNICAL ELECTRICAL EQUIPMENT (Source) | Oscilloscope amplitude @ 50 Ohm, 50 KHz(Reference) | Using Fluke 5522A MFC with SC600 Scope Option By Direct Method | 5 mV p-p to 5.5 V p-p | 1.88 % to 4.68 % |
| 63 | ELECTRO TECHNICAL ELECTRICAL EQUIPMENT (Source) | Oscilloscope Frequency Response(Bandwidth), @50 Ohm | Using Fluke 5522A MFC with SC600 Scope Option By Direct Method | 50 KHz to 450 MHz | 1.88 % to 4.8 % |
| 64 | ELECTRO TECHNICAL ELECTRICAL EQUIPMENT (Source) | Oscilloscope Horizontal Deflection (Time Base), @ 50 Ohm | Using Fluke 5522A MFC with SC600 Option By Direct Method | 2ns to 5 s | 0.22 % to 0.58 % |
| 65 | ELECTRO TECHNICAL ELECTRICAL EQUIPMENT (Source) | Oscilloscope Vertical Deflection V/Div (AC), @ 1 M Ohm, 1 kHz Square Wave | Using Fluke 5522A MFC with SC600 Scope Option By Direct Method | 1 mV p-p to 130 V pp | 4.8 % to 0.12 % |
| 66 | ELECTROTECHNICAL ELECTRICAL EQUIPMENT (Source) | Oscilloscope Vertical Deflection V/Div (AC), @ 50 Ohm, 1 kHz Square Wave | Using Fluke 5522A MFC with SC600 Scope Option By Direct Method | 1 mV p-p to 5 V p-p | 0.55 % to 0.31 % |
| 67 | ELECTRO TECHNICAL ELECTRICAL EQUIPMENT (Source) | Oscilloscope Vertical Deflection V/Div (DC), @ 1 M Ohm | Using Fluke 5522A MFC with SC600 Scope Option By Direct Method | 1 mV to 130 V | 4.8 % to 0.058 % |
| 68 | ELECTRO TECHNICAL ELECTRICAL EQUIPMENT (Source) | Oscilloscope Vertical Deflection V/Div (DC), @ 50 Ohm | Using Fluke 5522A MFC with SC600 Scope Option By Direct Method | 1 mV to 5 V | 0.53 % to 0.31 % |
| 69 | ELECTRO TECHNICAL TEMPERATURE SIMULATION (Source) | B -Type Thermocouple | Using 81/2 DMM Fluke 8588A As per ITS90 Scale -By Simulation Method | 600 °C to 1800 °C | 0.066 °C |
| 70 | ELECTRO TECHNICAL TEMPERATURE SIMULATION (Measure) | E -Type Thermocouple | Using 81/2 DMM Fluke 8588A As per ITS90 Scale -By Simulation Method | -200 °C to 1000 °C | 0.017 °C |
| 71 | ELECTRO TECHNICAL TEMPERATURE SIMULATION (Source) | J-Type Thermocouple | Using 81/2 DMM Fluke 8588A As per ITS90 Scale -By Simulation Method | -200 °C to 1200 °C | 0.021 °C |
| 72 | ELECTRO TECHNICAL TEMPERATURE SIMULATION (Source) | K- Type Thermocouple | Using 81/2 DMM Fluke 8588A As per ITS90 Scale -By Simulation Method | -200 °C to 1300 °C | 0.034 °C |
| 73 | ELECTRO TECHNICAL TEMPERATURE SIMULATION (Source) | N -Type Thermocouple | Using 81/2 DMM Fluke 8588A As per ITS90 Scale -By Simulation Method | -200 °C to 1300 °C | 0.022 °C |
| 74 | ELECTRO TECHNICAL TEMPERATURE SIMULATION (Measure) | R-Type Thermocouple | Using 81/2 DMM Fluke 8588A As per ITS90 Scale -By Simulation Method | 0 to 1700 °C | 0.049°C |
| 75 | ELECTRO TECHNICAL TEMPERATURE SIMULATION (Measure) | RTD (Pt-100) | Using 81/2 DMM Fluke 8588A As per ITS90 Scale -By Simulation Method | -200 °C to 600 °C | 0.021°C |
| 76 | ELECTRO TECHNICAL TEMPERATURE SIMULATION (Measure) | S -Type Thermocouple | Using 81/2 DMM Fluke 8588A As per ITS90 Scale -By Simulation Method | 0 to 1700 °C | 0.055 °C |
| 77 | ELECTRO TECHNICAL TEMPERATURE SIMULATION (Measure) | T -Type Thermocouple | Using 81/2 DMM Fluke 8588A As per ITS90 Scale -By Simulation Method | -200 °C to 400 °C | 0.024°C |
| 78 | ELECTRO TECHNICAL TEMPERATURE SIMULATION (Source) | B -Type Thermocouple | Using MFC Fluke 5522A As per ITS90 Scale - By Simulation Method | 600 °C to 1800 °C | 0.51 °C to 0.25 °C |
| 79 | ELECTRO TECHNICAL TEMPERATURE SIMULATION (Source) | E -Type Thermocouple | Using MFC Fluke 5522A As per ITS90 Scale - By Simulation Method | -200 °C to 1000 °C | 0.58 °C to 0.25 °C |
| 80 | ELECTRO TECHNICAL TEMPERATURE SIMULATION (Source) | J- type thermocouple | Using MFC Fluke 5522A As per ITS90 Scale - By Simulation Method | -200 °C to 1200 °C | 0.32 °C to 0.27 °C |
| 81 | ELECTRO TECHNICAL TEMPERATURE SIMULATION (Source) | K -Type Thermocouple | Using MFC Fluke 5522A As per ITS90 Scale - BySimulation Method | -200 °C to 1300 °C | 0.39 °C to 0.50 °C |
| 82 | ELECTRO TECHNICAL TEMPERATURE SIMULATION (Source) | N-Type Thermocouple | Using MFC Fluke 5522A As per ITS90 Scale - BySimulation Method | -200 °C to 1300 °C | 0.47 °C to 0.32 °C |
| 83 | ELECTRO TECHNICAL TEMPERATURE SIMULATION (Source) | R-Type Thermocouple | Using MFC Fluke 5522A As per ITS90 Scale - By Simulation Method | 0 to 1700 °C | 0.66 °C to 0.47 °C |
| 84 | ELECTRO TECHNICAL TEMPERATURE SIMULATION (Source) | RTD | Using MFC Fluke 5522A As per ITS90 Scale - By Simulation Method | -200 °C to 600 °C | 0.061 °C to 0.14 °C |
| 85 | ELECTRO TECHNICAL TEMPERATURE SIMULATION (Source) | S -Type Thermocouple | Using MFC Fluke 5522A As per ITS90 Scale - By Simulation Method | 0 to 1700 °C | 0.55°C |
| 86 | ELECTRO TECHNICAL TEMPERATURE SIMULATION (Source) | T-Type Thermocouple | Using MFC Fluke 5522A As per ITS90 Scale - By Simulation Method | -200 °C to 400 °C | 0.73 °C to 0.18 °C |
| 87 | ELECTRO TECHNICAL TIME & FREQUENCY (Measure) | Frequency | Using 81/2 DMM Fluke 8588A By Direct Method | 10 Hz to 2 MHz | 0.0003 % to 0.00013% |
| 88 | ELECTROTECHNICAL TIME & FREQUENCY(Measure) | Time, Time Interval Meter / Stop Watch | Using Time Interval Meter By Comparison Method | 0.01 sec to 900 sec | 1.22 msec to 6.0 sec |
| 89 | ELECTROTECHNICAL TIME & FREQUENCY (Measure) | Time, Time Interval Meter / Stop Watch | Using Time Interval Meter By Comparison Method | 900 sec to 7200 sec | 3.13 sec to 13.0 sec |
| 90 | ELECTROTECHNICAL TIME & FREQUENCY (Source) | Frequency | Using Fluke 5522A MFC By Direct Method | 100 Hz to 2 MHz | 0.0003% to 0.0004% |
| 91 | ELECTROTECHNICAL TIME & FREQUENCY (Source) | Frequency | Using Fluke 5522A MFC By Direct Method | 5 Hz to 100 Hz | 0.0014 % to 0.0003% |
