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Electro Technical Calibration

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Electro Technical Calibration
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Electro Technical Calibration

We are a NABL accredited calibration laboratory as per international standard ISO/IEC 17025: 2017. At our laboratory, we possess the expertise to perform calibration services for a wide range of parameters including DC Voltage & Current, Resistance, Temperature simulation (RTD, T/C J, T/C K, T/C T, T/C E, T/C R, T/C B, T/C C, T/C N, T/C S) for both source & measure mode.

Electrical measuring instruments are the utmost significant tool, widely employed in the industrial sector starting from research and development to quality assurance and manufacturing process as well. The calibration of these instruments is essential to safeguard accurate readings and evaluate input and output signals, linearity, sensitivity, and other performance measuring specifications. Calibration guarantees the precision & reliability of electrical parameters which are crucial for sustaining the optimal effectiveness of electrical equipment & data generated.

We offer Electro technical calibration services for a variety of products such as multi-channel scanners, multi-channel data loggers, temperature indicators, temperature controllers, temperature indicating devices, digital multi-meter, voltage sources, current sources, & so forth.

Category:

Features

Key Features:

Calibrate up to:

  • DC Current: 1 mA to 100 mA (Source & Measure Mode)
  • DC Voltage: 1 mV to 100 V (Source & Measure Mode)
  • Resistance:  5 ohm to 4 kohm (Source & Measure Mode)
  • RTD: -200 to 800 °C (Source & Measure Mode)
  • T/C B: 200 to 1820 °C (Source & Measure Mode)
  • T/C C: 200 to 2300 °C (Source & Measure Mode)
  • T/C E: -200 to 1000 °C (Source & Measure Mode)
  • T/C J: -210 to 1200 °C (Source & Measure Mode)
  • T/C K: -200 to 1300 °C (Source & Measure Mode)
  • T/C N: -200 to 1300 °C (Source & Measure Mode)
  • T/C R: -50 to 1768 °C (Source & Measure Mode)
  • T/C S: -50 to 1768 °C (Source & Measure Mode)
  • T/C T: -200 to 400 °C (Source & Measure Mode)

Specification

S.NoDiscipline/GroupMeasurand or Reference Material/Type of instrument or material to be calibrated or measured / Quantity Measured /InstrumentCalibration or Measurement Method or procedureMeasurement range and additional parameters where applicable (Range and Frequency)* Calibration and Measurement Capability (CMC)(±)
Permanent Facility
1ELECTRO-TECHNICAL – DIRECT CURRENT (Measure)DC CurrentUsing 6½ Data Acquisition / Switch Unit by Direct Method1 mA to 10 mA0.3 % to 0.08 %
2ELECTRO-TECHNICAL – DIRECT CURRENT (Measure)DC CurrentUsing 6½ Data Acquisition / Switch Unit by Direct Method10 mA to 100 mA0.08 % to 0.064 %
3ELECTRO-TECHNICAL – DIRECT CURRENT (Measure)DC VoltageUsing 6½ Data Acquisition / Switch Unit by Direct Method1 mV to 100 mV0.49 % to 0.015 %
4ELECTRO-TECHNICAL – DIRECT CURRENT (Measure)DC VoltageUsing 6½ Data Acquisition / Switch Unit by Direct Method1 V to 10 V0.01 % to 0.005 %
5ELECTRO-TECHNICAL – DIRECT CURRENT (Measure)DC VoltageUsing 6½ Data Acquisition / Switch Unit by Direct Method10 V to 100 V0.005 % to 0.006 %
6ELECTRO-TECHNICAL – DIRECT CURRENT (Measure)DC VoltageUsing 6½ Data Acquisition / Switch Unit by Direct Method100 mV to 1 V0.015 % to 0.01 %
7ELECTRO-TECHNICAL – DIRECT CURRENT (Measure)Resistance (4 Wire)Using 6½ Data Acquisition / Switch Unit by Direct Method1 kohm to 4 kohm0.059 % to 0.02 %
8ELECTRO-TECHNICAL – DIRECT CURRENT (Measure)Resistance (4 Wire)Using 6½ Data Acquisition / Switch Unit by Direct Method1 ohm to 100 ohm0.75 % to 0.016 %
9ELECTRO-TECHNICAL – DIRECT CURRENT (Measure)Resistance (4 Wire)Using 6½ Data Acquisition / Switch Unit by Direct Method100 ohm to 1 kohm0.016 % to 0.059 %
10ELECTRO-TECHNICAL – DIRECT CURRENT (Source)DC CurrentUsing Precision Process Calibrator by Direct Method1 mA to 100 mA0.59 % to 0.01 %
11ELECTRO-TECHNICAL – DIRECT CURRENT (Source)DC VoltageUsing Precision Process Calibrator by Direct Method0.001 V to 0.1 V5.78 % to 0.058 %
12ELECTRO-TECHNICAL – DIRECT CURRENT (Source)DC VoltageUsing Precision Process Calibrator by Direct Method0.1 V to 1 V0.058 % to 0.007 %
13ELECTRO-TECHNICAL – DIRECT CURRENT (Source)DC VoltageUsing Precision Process Calibrator by Direct Method1 V to 10 V0.007 %
14ELECTRO-TECHNICAL – DIRECT CURRENT (Source)DC VoltageUsing Precision Process Calibrator by Direct Method10 V to 100 V0.007 %
15ELECTRO-TECHNICAL – DIRECT CURRENT (Source)Resistance (2 Wire)Using Precision Process Calibrator by Direct Method400 ohm to 4000 ohm0.0047 % to 0.009 %
16ELECTRO-TECHNICAL – DIRECT CURRENT (Source)Resistance (2 Wire)Using Precision Process Calibrator by Direct Method5 ohm to 400 ohm0.37 % to 0.0047 %
17ELECTRO- TECHNICAL- TEMPERATURE SIMULATION
(Measure)		RTD (PT100)Using Precision Process Calibrator by Direct Method(-) 200 °C to 800 °C0.08 °C
18ELECTRO- TECHNICAL- TEMPERATURE SIMULATION (Measure)Thermocouple – B TypeUsing Precision Process Calibrator by Direct Method600 °C to 1800 °C0.41 °C
19ELECTRO- TECHNICAL- TEMPERATURE SIMULATION
(Measure)		Thermocouple – E TypeUsing Precision Process Calibrator by Direct Method(-) 250 °C to 1000 °C0.48 °C
20ELECTRO- TECHNICAL- TEMPERATURE SIMULATION
(Measure)		Thermocouple – J TypeUsing Precision Process Calibrator by Direct Method(-) 200 °C to 1200 °C0.16 °C
21ELECTRO- TECHNICAL- TEMPERATURE SIMULATION
(Measure)		Thermocouple – K TypeUsing Precision Process Calibrator by Direct Method(-) 200 °C to 1370 °C0.53 °C
22ELECTRO- TECHNICAL- TEMPERATURE SIMULATION
(Measure)		Thermocouple – N TypeUsing Precision Process Calibrator by Direct Method(-) 200 °C to 1300 °C0.27 °C
23ELECTRO- TECHNICAL- TEMPERATURE SIMULATION
(Measure)		Thermocouple – R TypeUsing Precision Process Calibrator by Direct Method(-) 50 °C to 1767 °C0.65 °C
24ELECTRO- TECHNICAL- TEMPERATURE SIMULATION
(Measure)		Thermocouple – S TypeUsing Precision Process Calibrator by Direct Method(-) 50 °C to 1767 °C0.6 °C
25ELECTRO- TECHNICAL- TEMPERATURE SIMULATION
(Measure)		Thermocouple – T TypeUsing Precision Process Calibrator by Direct Method(-) 200 °C to 400 °C0.2 °C
26ELECTRO- TECHNICAL- TEMPERATURE SIMULATION
(Source)		RTD (PT100)Using Precision Process Calibrator by Direct Method(-) 200 °C to 800 °C0.061 °C
27ELECTRO- TECHNICAL- TEMPERATURE SIMULATION (Source)Thermocouple – B TypeUsing Precision Process Calibrator by Direct Method600 °C to 1800 °C0.41 °C
28ELECTRO- TECHNICAL- TEMPERATURE SIMULATION (Source)Thermocouple – E TypeUsing Precision Process Calibrator by Direct Method(-) 250 °C to 1000 °C0.3 °C
29ELECTRO- TECHNICAL- TEMPERATURE SIMULATION (Source)Thermocouple – J TypeUsing Precision Process Calibrator by Direct Method(-) 200 °C to 1200 °C0.18 °C
30ELECTRO- TECHNICAL- TEMPERATURE SIMULATION (Source)Thermocouple – K TypeUsing Precision Process Calibrator by Direct Method(-) 200 °C to 1370 °C0.53 °C
31ELECTRO- TECHNICAL- TEMPERATURE SIMULATION (Source)Thermocouple – N TypeUsing Precision Process Calibrator by Direct Method(-) 200 °C to 1300 °C0.28 °C
32ELECTRO- TECHNICAL- TEMPERATURE SIMULATION (Source)Thermocouple – R TypeUsing Precision Process Calibrator by Direct Method(-) 50 °C to 1767 °C0.64 °C
33ELECTRO- TECHNICAL- TEMPERATURE SIMULATION (Source)Thermocouple – S TypeUsing Precision Process Calibrator by Direct Method(-) 50 °C to 1767 °C0.6 °C
34ELECTRO- TECHNICAL- TEMPERATURE SIMULATION (Source)Thermocouple – T TypeUsing Precision Process Calibrator by Direct Method(-) 200 °C to 400 °C0.2 °C

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