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تفاصيل جهة الإعتماد

Al Saqr Engineering

Initial Accreditation Date:Sep 07 , 2017

معلومات الاتصال

العنوان

Sharjah, United Arab Emirates

صندوق بريد / الرمز البريدي

9350

البريد الإلكتروني

calibration@alsaqrengg.com

الموقع الإلكتروني

www.abdullabinzayed.com

المجال الرئيسي

Calibration Laboratories

ساري منذ:May 06 , 2024

Measured Quantity / Calibration Instrument Calibration Method Range and Specification Expanded Measurement Location Status
Balance & Scale
  • Top loading weighing scale
Active
Pressure
  • Pneumatic pressure Gauge, Pressure Indicating and electrical output devices
  • DA-P-001 based on DKD-R 6-1:2014
  • (-97 kPa to 0 Mpa)
0.2 kPaLaboratory/ Customer PremisesActive
  • >0 kPa to 2 Mpa
0.6 kPaLaboratory/ Customer PremisesActive
  • Hydrulic pressure Gauge, Pressure Indicating and electrical output devices
  • DA-P-002 based on DKD-R 6-1:2014
  • 0 to 20 MPa
9 kPaLaboratory/ Customer PremisesActive
  • > 20 MPa to 70 MPa
23 kPaLaboratory/ Customer PremisesActive
  • > 70 MPa to 280 MPa
0.07 MPaLaboratory/ Customer PremisesActive
Mass
  • Conventional Mass/Weights
  • DA-M-002 based on OIML R 111
  • 1 mg
0.013 mgLaboratoryActive
  • 2 mg
0.013 mgLaboratoryActive
  • 5 mg
0.014 mgLaboratoryActive
  • 10 mg
0.013 mgLaboratoryActive
  • 20 mg
0.013 mgLaboratoryActive
  • 50 mg
0.014 mgLaboratoryActive
  • 100 mg
0.014 mgLaboratoryActive
  • 200 mg
0.015 mgLaboratoryActive
  • 500 mg
0.015 mgLaboratoryActive
  • 1 g
0.015 mgLaboratoryActive
  • 2 g
0.017 mgLaboratoryActive
  • 5 g
0.022 mgLaboratoryActive
  • 10 g
0.021 mgLaboratoryActive
  • 20 g
0.026 mgLaboratoryActive
  • 50 g
0.033 mgLaboratoryActive
  • 100 g
0.089 mgLaboratoryActive
  • 200 g
0.11 mgLaboratoryActive
  • 500 g
3.0 mgLaboratoryActive
  • 1 kg
3.0 mgLaboratoryActive
  • 2 kg
3.6 mgLaboratoryActive
  • 5 kg
30 mgLaboratoryActive
  • 10 kg
71 mgLaboratoryActive
  • 20 kg
74 mgLaboratoryActive
Balance
  • Mass/ Weighing Scale
  • DA-M-001 based on Euramet cg 18:2015
  • 0 to 110 g
0.17mgCustomer PremicesActive
  • > 110 g to 320 g
0.26 mgCustomer PremicesActive
  • > 320 g to 610 g
0.42 mgCustomer PremicesActive
  • > 610 g to 1100 g
0.96 mgCustomer PremicesActive
  • > 1.1 kg to 4.1 kg
9.7 mgCustomer PremicesActive
  • > 4.1 kg to 15 kg
67.0 mgCustomer PremicesActive
  • > 15 kg to 30 kg
0.13 gCustomer PremicesActive
  • > 30 kg to 60 kg
1.8 gCustomer PremicesActive
  • > 60 kg to 100 kg
13.0 gCustomer PremicesActive
  • > 100 kg to 500kg
22.0 gCustomer PremicesActive
  • > 500 kg to 1000 kg
61.0 gCustomer PremicesActive
Temperature
  • Partial Immersion Liquid in Glass Thermometers
  • In-house method DA-T-002
  • -30 °C to 150 °C
± 0.2 °CLaboratoryActive
  • Direct Reading Thermometers, Digital Thermometers, Temperature Indicators, Data Loggers, Chart recorders with sensor
  • In-house method DA-T-001
  • "-30 °C to 300 °C
± 0.2 °CLaboratory/ Customer PremisesActive
  • >300 °C to 400 °C
± 0.4 °CLaboratory/ Customer PremisesActive
  • > 400 °C to 650 °C
± 1.8 °CLaboratory/ Customer PremisesActive
  • Platinum Resistance Thermometers
  • In-house method DA-T-007
  • "-30 °C to 300 °C
± 0.2 °CLaboratory/ Customer PremisesActive
  • >300 °C to 400 °C
± 0.4 °CLaboratory/ Customer PremisesActive
  • Base metal thermocouples
  • -30 °C to 300 °C
± 0.2 °CLaboratory/ Customer PremisesActive
  • >300 °C to 400 °C
± 0.4 °CLaboratory/ Customer PremisesActive
  • > 400 °C to 650 °C
± 1.8 °CLaboratory/ Customer PremisesActive
  • Dry Block Calibrators
  • In-house method DA-T-006
  • -30 °C to 300 °C
± 0.2 °CLaboratory/ Customer PremisesActive
  • >300 °C to 400 °C
± 0.4 °CLaboratory/ Customer PremisesActive
  • > 400 °C to 600 °C
± 2.9 °CLaboratory/ Customer PremisesActive
  • >600 °C to 1200 °C
± 9.3 °CLaboratory/ Customer PremisesActive
  • Infrared Thermometers, Thermal Imagers
  • In-house method DA-T-008
  • 50 °C to 250 °C
3.0 °CLaboratoryActive
  • >250 °C to 500 °C
3.5 °CLaboratoryActive
  • Thermo Hygrometers, Humidity Data Loggers
  • In-house method DA-T-010
  • 20 %RH to 50 %RH
± 2.6 %RHLaboratoryActive
  • >50 %Rh to 90 %RH
± 3.0 %RHLaboratoryActive
  • 0 °C to 50 °C
± 0.2 °CLaboratoryActive
  • Liquid bath (using 5 sensors)
  • In-house method DA-T-003
  • "-35 °C to 250 °C
± 0.4 °CLaboratory/ Customer PremisesActive
  • Chillers, Freezers, Refrigerators, Incubators, Climate Temperature Chambers (using 9 sensors)
  • In-house method DA-T-004 based on DKD R 5-7 (method A or B)
  • "-35 °C to 100 °C
± 0.4 °CCustomer PremisesActive
  • Ovens, Autoclaves, Hot Cabinets, Warmers, Hot Boxes, Furnaces (using 9 sensors)
  • 25 °C to 250 °C
0.4 °CCustomer PremisesActive
  • Measuring location in Ovens, Autoclaves, Hot Cabinets, Warmers, Furnaces (using one sensors)
  • In-house method DA-T-005 based on DKD R 5-7 (method C)
± 0.4 °CCustomer PremisesActive
  • Measuring location in Dish Washers, Glass Washers (using one sensor)
  • In-house method DA-T-009
  • 20 °C to 90 °C
± 0.7 °CCustomer PremisesActive
  • Measuring location in Chillers, Freezers, Refrigerators, Incubators, Climate Temperature Chambers (using one sensor)
  • In-house method DA-T-005 based on DKD R 5-7 (method C)
  • "-35 °C to 100 °C
± 0.4 °CCustomer PremisesActive
  • Measuring location in Muffel Furnace (using one sensors)
  • In-house method DA-T-005
  • >300 °C to 400 °C
± 4.1 °CLaboratory/ Customer PremisesActive
  • >400 °C to 600 °C
± 5.9 °CLaboratory/ Customer PremisesActive
  • >600 °C to 1200 °C
± 11.3 °CLaboratory/ Customer PremisesActive
  • Measuring location in Humidity Chamber (using one sensor)
  • In-house method DA-T-005 based on DKD R 5-7 (method C)
  • 20 %RH to 50 %RH
± 2.6 %RHCustomer PremisesActive
  • >50 %Rh to 90 %RH
± 3.0 %RHCustomer PremisesActive
Electrical
  • DC Voltage
  • Calibration Procedure # DA-E-003 U = Measured Voltage Value
  • Up to 330mV
31x10¯⁶.U + 2 μVLaboratoryActive
  • > 0.33 V to 3.3 V
15 x10¯⁶.U + 3.2 μVLaboratoryActive
  • > 3.3 V to 33 V
16 x10¯⁶.U + 35 μVLaboratoryActive
  • > 33 V to 330 V
23x10¯⁶.U + 0.25 mVLaboratoryActive
  • > 330 V to 1000V
24x10¯⁶.U + 1.8 mVLaboratoryActive
  • AC Voltage
  • (Up to 32.999 mV ) 10 Hz to 45 Hz
0.66x10¯³.U+7μVLaboratoryActive
  • (Up to 32.999 mV ) >45 Hz to 10 kHz
0.46x10¯³.U+7μVLaboratoryActive
  • (Up to 32.999 mV ) >10 kHz to 20 kHz
0.48x10¯³.U+8μVLaboratoryActive
  • (Up to 32.999 mV ) >20 kHz to 50 kHz
0.70x10¯³.U+8μVLaboratoryActive
  • (Up to 32.999 mV ) >50 kHz to 100 kHz
2.1x10¯³.U+15μVLaboratoryActive
  • (Up to 32.999 mV ) >100 kHz to 500 kHz
4.8x10¯³.U + 50 μVLaboratoryActive
  • (33 mV to 329.999 mV) >10 Hz to 45 Hz
0.41x10¯³.U + 9 μVLaboratoryActive
  • (33 mV to 329.999 mV) >45 Hz to 10 kHz
0.20x10¯³.U + 10 μVLaboratoryActive
  • (33 mV to 329.999 mV) >10 kHz to 20 kHz
0.22x10¯³.U + 15 μVLaboratoryActive
  • (33 mV to 329.999 mV) >20 kHz to 50 kHz
0.44x10¯³.U + 15 μVLaboratoryActive
  • (33 mV to 329.999 mV) >50 kHz to 100 kHz
1.1x10¯³.U + 40 μVLaboratoryActive
  • (33 mV to 329.999 mV) >100 kHz to 500 kHz
2.6x10¯³.U + 78 μVLaboratoryActive
  • (0.33 V to 3.29999 V ) 10 Hz to 45 Hz
0.39x10¯³.U + 80 μVLaboratoryActive
  • (0.33 V to 3.29999 V ) >45 Hz to 10 kHz
0.20x10¯³.U + 60 μVLaboratoryActive
  • (0.33 V to 3.29999 V ) >10 kHz to 20 kHz
0.25x10¯³.U + 0.1 mVLaboratoryActive
  • (0.33 V to 3.29999 V ) >20 kHz to 50 kHz
0.37x10¯³.U + 0.1 mVLaboratoryActive
  • (0.33 V to 3.29999 V ) >50 kHz to 100 kHz
0.86x10¯³.U + 0.2 mVLaboratoryActive
  • (0.33 V to 3.29999 V ) >100 kHz to 500 kHz
3.1x10¯³.U + 1.3 mVLaboratoryActive
  • (3.3 V to 32.9999 V) 10 Hz to 45 Hz
0.59x10¯³.U + 0.75 mVLaboratoryActive
  • (3.3 V to 32.9999 V) >45 Hz to 10 kHz
0.39x10¯³.U + 0.75 mVLaboratoryActive
  • (3.3 V to 32.9999 V) >10 kHz to 20 kHz
0.49x10¯³.U + 1.3 mVLaboratoryActive
  • (3.3 V to 32.9999 V) >20 kHz to 50 kHz
0.62x10¯³.U + 2 mVLaboratoryActive
  • (3.3 V to 32.9999 V) >50 kHz to 100 kHz
1.6x10¯³.U + 3.5 mVLaboratoryActive
  • (33 V to 329.999 V ) 45 Hz to 1 kHz
0.30x10¯³.U + 4 mVLaboratoryActive
  • (33 V to 329.999 V ) >1 kHz to 10 kHz
0.45x10¯³.U + 8 mVLaboratoryActive
  • (33 V to 329.999 V ) >10 kHz to 20 kHz
0.50x10¯³.U + 1.4 mVLaboratoryActive
  • (33 V to 329.999 V ) >20 kHz to 50 kHz
0.56x10¯³.U + 5 mVLaboratoryActive
  • (33 V to 329.999 V ) >50 kHz to 100 kHz
4.1x10¯³.U + 0.1 VLaboratoryActive
  • (330 V to 1020 V) 50 Hz to 1 kHz
0.36x10¯³.U + 10 mVLaboratoryActive
  • (330 V to 1020 V) >1 kHz to 5 kHz
0.31x10¯³.U + 10 mVLaboratoryActive
  • (330 V to 1020 V) >5 kHz to 10 kHz
0.36x10¯³.U + 10 mVLaboratoryActive
  • DC Current
  • Direct Method Calibration Procedure # DA-E-003 I = Measured Current Value
  • 1μA to 329.999 μA
0.26x10¯³.I + 0.02 μALaboratoryActive
  • 0.33 mA to 3.29999 mA
0.14x10¯³.I + 0.05 μALaboratoryActive
  • 3.3 mA to 32.9999 mA
0.21x10¯³.I + 0.25 μALaboratoryActive
  • 33 mA to 329.999 mA
0.21x10¯³.I + 5.5 μALaboratoryActive
  • 0.33 A to 1.09999 A
0.37x10¯³.I + 0.09 mALaboratoryActive
  • 1.1 A to 2.99999 A
0.48x10¯³.I + 0.09 mALaboratoryActive
  • 3 A to 10.9999 A
0.63x10¯³.I + 1.2 mALaboratoryActive
  • 11 A to 20.5 A
1.3x10¯³.I + 2.8 mALaboratoryActive
  • Calibration Procedure # DA-E-004 Using X50 Turn Current Coil I = Measured Current Value
  • (X 50 Turn Coil) 10 A to 16.5 A
7.4x10¯³.I + 0.03 ALaboratoryActive
  • (X 50 Turn Coil) 16.5 A to 150 A
6.6x10¯³.I + 0.06 ALaboratoryActive
  • (X 50 Turn Coil) 150 A to 1025 A
6.8x10¯³.I + 0.07 ALaboratoryActive
  • AC Current
  • Direct Method Calibration Procedure # DA-E-003 I = Measured Current Value
  • (29.00 μA to 329.99 μA ) 10 Hz to 20 Hz
2.7x10¯³.I + 0.11 μALaboratoryActive
  • (29.00 μA to 329.99 μA ) >20 Hz to 45 Hz
2.1x10¯³.I + 0.12 μALaboratoryActive
  • (29.00 μA to 329.99 μA ) >45 Hz to 1 kHz
1.8x10¯³.I + 0.12 μALaboratoryActive
  • (29.00 μA to 329.99 μA ) >1 kHz to 5 kHz
4.0x10¯³.I + 0.18 μALaboratoryActive
  • (29.00 μA to 329.99 μA ) >5 kHz to 10 kHz
10x10¯³.I + 0.22 μALaboratoryActive
  • (29.00 μA to 329.99 μA ) >10 kHz to 30 kHz
20x10¯³.I + 0.43 μALaboratoryActive
  • (0.33 mA to 3.29999 mA) 10 Hz to 20 Hz
2.4x10¯³.I + 0.25 μALaboratoryActive
  • (0.33 mA to 3.29999 mA) >20 Hz to 45 Hz
1.5x10¯³.I + 0.25 μALaboratoryActive
  • (0.33 mA to 3.29999 mA) >45 Hz to 1 kHz
1.8x10¯³.I + 0.12 μALaboratoryActive
  • (0.33 mA to 3.29999 mA) >1 kHz to 5 kHz
2.4x10¯³.I + 0.18 μALaboratoryActive
  • (0.33 mA to 3.29999 mA) >5 kHz to 10 kHz
5.9x10¯³.I + 0.22 μALaboratoryActive
  • (0.33 mA to 3.29999 mA) >10 kHz to 30 kHz
12x10¯³.I + 0.43 μALaboratoryActive
  • (3.3 mA to 32.9999 mA) 10 Hz to 20 Hz
2.2x10¯³.I+ 4 μALaboratoryActive
  • (3.3 mA to 32.9999 mA) >20 Hz to 45 Hz
11x10¯³.I+ 4 μALaboratoryActive
  • (3.3 mA to 32.9999 mA) >45 Hz to 1 kHz
1.1x10¯³.I+ 4 μALaboratoryActive
  • (3.3 mA to 32.9999 mA) >1 kHz to 5 kHz
1.1 x10¯³.I+ 2 μALaboratoryActive
  • (3.3 mA to 32.9999 mA) >5 kHz to 10 kHz
2.5 x10¯³.I+ 7 μALaboratoryActive
  • (3.3 mA to 32.9999 mA) >10 kHz to 30 kHz
4.8 x10¯³.I+ 4.5 μALaboratoryActive
  • (33 mA to 329.999 mA ) 10 Hz to 20 Hz
2.2x10¯³.I + 30 μALaboratoryActive
  • (33 mA to 329.999 mA ) >20 Hz to 45 Hz
1.2x10¯³.I + 21 μALaboratoryActive
  • (33 mA to 329.999 mA ) >45 Hz to 1 kHz
0.54x10¯³.I + 25 μALaboratoryActive
  • (33 mA to 329.999 mA ) >1 kHz to 5 kHz
1.3x10¯³.I + 53 μALaboratoryActive
  • (33 mA to 329.999 mA ) >5 kHz to 10 kHz
2.7x10¯³.I + 0.11 mALaboratoryActive
  • (33 mA to 329.999 mA ) >10 kHz to 30 kHz
5.4x10¯³.I + 0.21 mALaboratoryActive
  • (0.33 A to 1.09999 A ) 10 Hz to 45 Hz
2.2x10¯³.I + 0.25 mALaboratoryActive
  • (0.33 A to 1.09999 A ) >45 Hz to 1 kHz
0.69x10¯³.I + 0.2 mALaboratoryActive
  • (0.33 A to 1.09999 A ) >1 kHz to 5 kHz
8.0x10¯³.I + 1 mALaboratoryActive
  • (0.33 A to 1.09999 A ) >5 kHz to 10 kHz
35x10¯³.I + 5 mALaboratoryActive
  • (1.1 A to 2.99999 A ) 10 Hz to 45 Hz
2.2x10¯³.I + 0.4 mALaboratoryActive
  • (1.1 A to 2.99999 A ) >45 Hz to 1 kHz
0.74x10¯³.I + 0.2 mALaboratoryActive
  • (1.1 A to 2.99999 A ) >1 kHz to 5 kHz
7.4x10¯³.I + 1.0 mALaboratoryActive
  • (1.1 A to 2.99999 A ) >5 kHz to 10 kHz
35x10¯³.I + 5.0 mALaboratoryActive
  • (3 A to 10.9999 A ) 45 Hz to 100 Hz
0.91x10¯³.I + 2.5 mALaboratoryActive
  • (3 A to 10.9999 A ) >100 Hz to 1 kHz
1.4x10¯³.I + 1.8 mALaboratoryActive
  • (3 A to 10.9999 A ) >1 kHz to 5 kHz
35x10¯³.I + 6 mALaboratoryActive
  • (11 A to 20.5 A) 45 Hz to 100 Hz
1.7x10¯³.I + 2.5 mALaboratoryActive
  • (11 A to 20.5 A) >100 Hz to 1 kHz
2.1x10¯³.I + 3 mALaboratoryActive
  • (11 A to 20.5 A) >1 kHz to 5 kHz
35x10¯³.I + 4 mALaboratoryActive
  • Direct Method Calibration Procedure # DA-E-004 Using X50 Turn Current Coil I = Measured Current Value
  • (10 A to 300 A) 45 Hz to 65 Hz
7.5x10¯³.I + 0.12 ALaboratoryActive
  • (> 300 A to 600 A) 45 Hz to 65 Hz
7.2x10¯³.I + 0.015 ALaboratoryActive
  • (> 600 A to 1000 A) 45 Hz to 65 Hz
7.2x10¯³.I + 0.02 ALaboratoryActive
  • Resistance
  • Direct Method Calibration Procedure # DA-E-003 R = Measured Resistance Value
  • 1 Ω to 10.9999 Ω
0.16 x10¯³.R + 1 mΩLaboratoryActive
  • 11 Ω to 32.9999 Ω
82 x10¯⁶.R + 1.5 mΩLaboratoryActive
  • 33 Ω to 109.9999 Ω
54 x10¯⁶.R + 1.4 mΩLaboratoryActive
  • 110 Ω to 329.9999 Ω
54 x10¯⁶.R + 2 mΩLaboratoryActive
  • 330 Ω to 1.099999 kΩ
40 x10¯⁶.R + 2 mΩLaboratoryActive
  • 1.1 kΩ to 3.299999 kΩ
54 x10¯⁶.R + 20 mΩLaboratoryActive
  • 3.3 kΩ to 10.99999 kΩ
44 x10¯⁶.R + 20 mΩLaboratoryActive
  • 11 kΩ to 32.99999 kΩ
40 x10¯⁶.R + 0.2 ΩLaboratoryActive
  • 33 kΩ to 109.9999 kΩ
40 x10¯⁶.R + 0.2 ΩLaboratoryActive
  • 110 kΩ to 329.99999 kΩ
58 x10¯⁶.R + 2 ΩLaboratoryActive
  • 330 kΩ to 1.099999 MΩ
48 x10¯⁶.R + 2 ΩLaboratoryActive
  • 1.1 MΩ to 3.299999 MΩ
0.12 x10¯3.R + 30 ΩLaboratoryActive
  • 3.3 MΩ to 10.99999 MΩ
0.17 x10¯³.R + 50 ΩLaboratoryActive
  • 11 MΩ to 32.99999 MΩ
0.56 x10¯³.R + 2.5 kΩLaboratoryActive
  • 33 MΩ to 109.9999 MΩ
0.69 x10¯³.R + 3 kΩLaboratoryActive
  • 110 MΩ to 329.9999 MΩ
4.6 x10¯³.R + 0.1 MΩLaboratoryActive
  • 330 MΩ to 1100 MΩ
19 x10¯³.R + 0.5 MΩLaboratoryActive
  • Capacitance
  • Direct Method Calibration Procedure # DA-E-003 C = Measured Capacitance Value
  • 220 pF to 399.9 pF
44 x10¯³.C + 10 pFLaboratoryActive
  • 0.4 nF to 1.0999 nF
35 x10¯³.C + 10 pFLaboratoryActive
  • 1.1 nF to 3.2999 nF
18 x10¯³.C + 10 pFLaboratoryActive
  • 3.3 nF to 10.9999 nF
6.6 x10¯³.C + 10 pFLaboratoryActive
  • 11 nF to 32.9999 nF
6.6 x10¯³.C + 10 pFLaboratoryActive
  • 33 nF to 109.999 nF
3.3 x10¯³.C + 10 pFLaboratoryActive
  • 110 nF to 329.999 nF
3.3 x10¯³.C + 30 pFLaboratoryActive
  • 0.33 μF to 1.09999 μF
18 x10¯³.C + 1 nFLaboratoryActive
  • 1.1 μF to 3.29999 μF
8.2 x10¯³.C + 3 nFLaboratoryActive
  • 3.3 μF to 10.9999 μF
19 x10¯³.C + 10 nFLaboratoryActive
  • 11 μF to 32.9999 μF
9.4 x10¯³.C + 30 nFLaboratoryActive
  • 33 μF to 109.999 μF
8.7 x10¯³.C + 0.1 μFLaboratoryActive
  • 110 μF to 329.999 μF
8.4 x10¯³.C + 0.3 μFLaboratoryActive
  • 0.33 mF to 1.09999 mF
20 x10¯³.C + 1 μFLaboratoryActive
  • 1.1 mF to 3.29999 mF
9.9 x10¯³.C + 3 μFLaboratoryActive
  • Direct Method Calibration Procedure # DA-E-003C = Measured Capacitance Value
  • 3.3 mF to 10.9999 mF
20 x10¯³.C + 10 μFLaboratoryActive
  • 11 mF to 32.9999 mF
13 x10¯³.C + 30 μFLaboratoryActive
  • 33 mF to 110 mF
17 x10¯³.C + 0.1 mFLaboratoryActive
  • Frequency
  • Direct Method Calibration Procedure # DA-E-003 F = Measured Frequency Value
  • 0.01 Hz to 119.99 Hz
0.92 x10¯⁶.F + 0.1 mHzLaboratoryActive
  • 120.0 Hz to 1199.9 Hz
0.60 x10¯⁶.F + 0.01 mHzLaboratoryActive
  • 1.200 kHz to 11.999 kHz
53 x10¯⁶.F + 0.5 HzLaboratoryActive
  • 12.00 kHz to 119.99 kHz
6.0 x10¯⁶.F + 0.5 HzLaboratoryActive
  • 120.0 kHz to 1199.9 kHz
3.0 x10¯⁶.F + 0.4 HzLaboratoryActive
  • 1.200 MHz to 2.000 MHz
0.29 x10¯3.F + 0.2 kHzLaboratoryActive
  • Insulation Resistance Voltage (50 V to 10 kV)
  • Direct Method Calibration Procedure # DA-E-002 IR = Measured Insulation Resistance Value
  • 5 MΩ
12 x10¯³.IR + 1 kΩLaboratoryActive
  • 50 MΩ
12 x10¯³.IR + 1 kΩLaboratoryActive
  • 500 MΩ
12 x10¯³.IR + 1 kΩLaboratoryActive
  • 5 GΩ
12 x10¯³.IR + 1 kΩLaboratoryActive
  • Stop Watch/Timer
  • Direct Method Calibration Procedure # DA-E-012 Comparision Method Using Standard Stop Watch
  • 0.6 sec to 59 min
0.88 secLaboratoryActive
  • DC Power
  • Direct Method Calibration Procedure # DA-E-009 P = Measured Power Value
  • (Voltage: (33 mV to 1020 V)) (0.011 mW to 20.91 kW) 0.33 mA to 329.999 mA
0.72 x10¯³.PLaboratoryActive
  • (Voltage: (33 mV to 1020 V)) (0.011 mW to 20.91 kW) 0.33 A to 3 A
0.49 x10¯³.PLaboratoryActive
  • (Voltage: (33 mV to 1020 V)) (0.011 mW to 20.91 kW) 3 A to 20.5 A
1.1 x10¯³.PLaboratoryActive
  • AC Power
  • (Voltage (33 mV to 329.999 mV)) (45 Hz to 65 Hz, PF=1) (0.11 mW to 20.91 kW) 0.33 mA to 8.9999 mA
2.3 x10¯³.PLaboratoryActive
  • (Voltage (33 mV to 329.999 mV)) (45 Hz to 65 Hz, PF=1) (0.11 mW to 20.91 kW) 9 mA to 32.999 mA
1.7 x10¯³.PLaboratoryActive
  • (Voltage (33 mV to 329.999 mV)) (45 Hz to 65 Hz, PF=1) (0.11 mW to 20.91 kW) 33 mA to 89.999 mA
1.3 x10¯³.PLaboratoryActive
  • (Voltage (33 mV to 329.999 mV)) (45 Hz to 65 Hz, PF=1) (0.11 mW to 20.91 kW) 90 mA to 329.999 mA
5.6 x10¯³.PLaboratoryActive
  • (Voltage (33 mV to 329.999 mV)) (0.11 mW to 20.91 kW) (45 Hz to 65 Hz, PF=1) 0.33 A to 0.8999 A
2.7 x10¯³.PLaboratoryActive
  • (Voltage (33 mV to 329.999 mV)) (0.11 mW to 20.91 kW) (45 Hz to 65 Hz, PF=1) 0.9 A to 2.1999 A
1.9 x10¯³.PLaboratoryActive
  • (Voltage (33 mV to 329.999 mV)) (0.11 mW to 20.91 kW) (45 Hz to 65 Hz, PF=1) 2.2 A to 4.4999 A
1.6 x10¯³.PLaboratoryActive
  • (Voltage (33 mV to 329.999 mV)) (0.11 mW to 20.91 kW) (45 Hz to 65 Hz, PF=1) 4.5 A to 20.5 A
1.5 x10¯³.PLaboratoryActive
  • (Voltage (330 mV to 1020 V)) 0.33 mA to 8.9999 mA
1.4 x10¯³.PLaboratoryActive
  • (Voltage (330 mV to 1020 V)) 9 mA to 32.999 mA
1.4 x10¯³.PLaboratoryActive
  • (Voltage (330 mV to 1020 V)) 33 mA to 89.999 mA
0.93 x10¯³.PLaboratoryActive
  • (Voltage (330 mV to 1020 V)) 90 mA to 329.999 mA
1.5 x10¯³.PLaboratoryActive
  • (Voltage (330 mV to 1020 V)) 0.33 A to 0.8999 A
1.3 x10¯³.PLaboratoryActive
  • (45 Hz to 65 Hz, PF=1) (Voltage (330 mV to 1020 V)) (0.11 mW to 20.91 kW) 0.9 A to 2.1999 A
1.6 x10¯³.PLaboratoryActive
  • (45 Hz to 65 Hz, PF=1) (Voltage (330 mV to 1020 V)) (0.11 mW to 20.91 kW) 2.2 A to 4.4999 A
1.4 x10¯³.PLaboratoryActive
  • (45 Hz to 65 Hz, PF=1) (Voltage (330 mV to 1020 V)) (0.11 mW to 20.91 kW) 4.5 A to 20.5 A
1.4 x10¯³.PLaboratoryActive
  • (Voltage (100 V to 1000 V)) (45 Hz to 65 Hz, PF=1) (100 W to 750 kW) 1 A to 50 A
1.3 x10¯³.PLaboratoryActive
  • (Voltage (100 V to 1000 V)) (45 Hz to 65 Hz, PF=1) (100 W to 750 kW) >50 A to 250 A
1.4 x10¯³.PLaboratoryActive
  • (Voltage (100 V to 1000 V)) (45 Hz to 65 Hz, PF=1) (100 W to 750 kW) >250 A to 500 A
1.4 x10¯³.PLaboratoryActive
  • (Voltage (100 V to 1000 V)) (45 Hz to 65 Hz, PF=1) (100 W to 750 kW) >500 A to 750 A
1.4 x10¯³.PLaboratoryActive
  • DC Voltage
  • Direct Method Calibration Procedure # DA-E-001 & DA-E-008 U = Measured Voltage Value
  • 1 mV to 100 mV
85 x10¯⁶.U + 3.5 μVLaboratoryActive
  • >0.1 V to 1 V
38 x10¯⁶.U + 7 μVLaboratoryActive
  • >1 V to 10 V
34 x10¯⁶.U + 50 μVLaboratoryActive
  • >10 V to 100 V
51 x10¯⁶.U + 0.6 mVLaboratoryActive
  • >100 V to 1000 V
59 x10¯⁶.U + 10 mVLaboratoryActive
  • >1 kV to 40 kV
24 x10¯³.ULaboratoryActive
  • AC Voltage
  • Direct Method Calibration Procedure # DA-E-001 U = Measured Voltage Value
  • (10 mV to 100 mV) 10 Hz – 20 kHz
1.2 x10¯³.U + 0.04 mVLaboratory/ Customer PremicesActive
  • (10 mV to 100 mV) 20 kHz – 50 kHz
2.0 x10¯³.U + 0.05 mVLaboratory/ Customer PremicesActive
  • (10 mV to 100 mV) 50 kHz – 100 kHz
7.9 x10¯³.U + 0.08 mVLaboratory/ Customer PremicesActive
  • (10 mV to 100 mV) 100 kHz – 300 kHz
52 x10¯³.U + 0.5 mVLaboratory/ Customer PremicesActive
  • (> 0.1 V to 1 V) 10 Hz – 20 kHz
1.1 x10¯³.U + 0.3 mVLaboratory/ Customer PremicesActive
  • (> 0.1 V to 1 V) 20 kHz – 50 kHz
2.0 x10¯³.U + 0.5 mVLaboratory/ Customer PremicesActive
  • (> 0.1 V to 1 V) 50 kHz – 100 kHz
7.9 x10¯³.U + 0.8 mVLaboratory/ Customer PremicesActive
  • (> 0.1 V to 1 V) 100 kHz – 300 kHz
52 x10¯³.U + 5 mVLaboratory/ Customer PremicesActive
  • (> 1 V to 10 V) 10 Hz – 20 kHz
1.1 x10¯³.U + 3 mVLaboratory/ Customer PremicesActive
  • (> 1 V to 10 V) 20 kHz – 50 kHz
2.0 x10¯³.U + 5 mVLaboratory/ Customer PremicesActive
  • (> 1 V to 10 V) 50 kHz – 100 kHz
7.9 x10¯³.U + 8 mVLaboratory/ Customer PremicesActive
  • (> 1 V to 10 V) 100 kHz – 300 kHz
52 x10¯³.U + 50 mVLaboratory/ Customer PremicesActive
  • (> 10 V to 100 V) 10 Hz – 20 kHz
1.1 x10¯³.U + 30 mVLaboratory/ Customer PremicesActive
  • (> 10 V to 100 V) 20 kHz – 50 kHz
2.0 x10¯³.U + 50 mVLaboratory/ Customer PremicesActive
  • (> 10 V to 100 V) 50 kHz – 100 kHz
7.9 x10¯³.U + 80 mVLaboratory/ Customer PremicesActive
  • Direct Method Calibration Procedure # DA-E-001 U = Measured Voltage Value
  • (> 100 V to 1000 V) 10 Hz – 20 kHz
1.1 x10¯³.U + 0.3 VLaboratory/ Customer PremicesActive
  • (> 100 V to 1000 V) 20 kHz – 50 kHz
2.0 x10¯³.U + 0.5 VLaboratory/ Customer PremicesActive
  • (> 100 V to 1000 V) 50 kHz – 100 kHz
7.9 x10¯³.U + 0.8 VLaboratory/ Customer PremicesActive
  • (1 kV to 28 kV) 50 Hz to 60 Hz
58 x10¯³.ULaboratory/ Customer PremicesActive
  • DC Current
  • Direct Method Calibration Procedure # DA-E-001 (I = Measured Current Value)
  • 1 μA to 100 μA
0.9 x10¯³.I + 25 nALaboratory/ Customer PremicesActive
  • 0.1 mA to 1 mA
0.64 x10¯³.I + 50 nALaboratory/ Customer PremicesActive
  • 1 mA to 10 mA
0.81 x10¯³.I + 2 μALaboratory/ Customer PremicesActive
  • 10 mA to 100 mA
0.64 x10¯³.I + 5 μALaboratory/ Customer PremicesActive
  • 0.1 A to 1 A
1.0 x10¯³.I + 0.2 mALaboratory/ Customer PremicesActive
  • 1 A to 3 A
1.4 x10¯³.I + 0.6 mALaboratory/ Customer PremicesActive
  • 3 A to 10 A
1.8 x10¯³.I + 0.8 mALaboratory/ Customer PremicesActive
  • AC Current
  • (1 μA to 100 μA) 10 Hz – 5 kHz
1.6 x10¯³.I + 0.04 μALaboratoryActive
  • (1 μA to 100 μA) 5 kHz – 10 kHz
5.2 x10¯³.I + 0.25 μALaboratoryActive
  • (> 0.1 mA to 1 mA) 10 Hz – 5 kHz
1.6 x10¯³.I + 0.4 μALaboratoryActive
  • (> 0.1 mA to 1 mA) 5 kHz – 10 kHz
5.6 x10¯³.I + 2.5 μALaboratoryActive
  • (> 1 mA to 10 mA) 10 Hz – 5 kHz
1.6 x10¯³.I + 4 μALaboratoryActive
  • (> 1 mA to 10 mA) 5 kHz – 10 kHz
5.2 x10¯³.I + 25 μALaboratoryActive
  • (> 10 mA to 100 mA) 10 Hz – 5 kHz
1.6 x10¯³.I + 0.04 mALaboratoryActive
  • (> 10 mA to 100 mA) 5 kHz – 10 kHz
5.2 x10¯³.I + 0.25 mALaboratoryActive
  • (0.1 A to 1 A) 10 Hz – 1 kHz
1.8 x10¯³.I + 0.4 mALaboratoryActive
  • (1 A to 3 A) 10 Hz – 1 kHz
2.5 x10¯³.I + 1.8 mALaboratoryActive
  • (3 A to 10 A) 10 Hz – 5 kHz
2.4 x10¯³.I + 6 mALaboratoryActive
  • (3 A to 10 A) 1 Ω to 10 Ω
0.48 x10¯³.R + 3 mΩLaboratoryActive
  • Resistance
  • Direct Method Calibration Procedure # DA-E-001 R= Measured Resistance Value
  • 10 Ω to 100 Ω
0.17 x10¯³.R + 4 mΩLaboratoryActive
  • 0.1 kΩ to 1 kΩ
0.15 x10¯³.R + 10 mΩLaboratoryActive
  • 1 kΩ to 10 kΩ
0.13 x10¯³.R + 0.1 ΩLaboratoryActive
  • 10 kΩ to 100 kΩ
0.13 x10¯³.R + 1 ΩLaboratoryActive
  • 0.1 MΩ to 1 MΩ
0.13 x10¯³.R + 10 ΩLaboratoryActive
  • 1 MΩ to 10 MΩ
0.5 x10¯³.R + 0.1 kΩLaboratoryActive
  • 10 MΩ to 100 MΩ
9.4 x10¯³.R + 10 kΩLaboratoryActive
  • 0.1 GΩ to 1 GΩ
23 x10¯³.R + 0.1 MΩLaboratoryActive
  • Capacitance
  • Direct Method Calibration Procedure # DA-E-001 C= Measured Capacitance Value
  • 0.1 nF to 1 nF
53 x10¯³.C + 8 pFLaboratoryActive
  • 1 nF to 10 nF
18 x10¯³.C + 50 pFLaboratoryActive
  • 10 nF to 100 nF
18 x10¯³.C + 0.5 nFLaboratoryActive
  • 0.1 μF to 1 μF
18 x10¯³.C + 5 nFLaboratoryActive
  • 1 μF to 10 μF
17 x10¯³.C + 0.05 μFLaboratoryActive
  • 10 μF to 100 μF
17 x10¯³.C + 0.5 μFLaboratoryActive
  • 0.1 mF to 1mF
18 x10¯³.C + 5 μFLaboratoryActive
  • 1 mF to 10 mF
17 x10¯³.C + 0.05 mFLaboratoryActive
  • 10 mF to 100 mF
49 x10¯³.C + 0.2 mFLaboratoryActive
  • Frequency
  • Direct Method Calibration Procedure # DA-E-001 F= Measured Frequency Value
  • 3 Hz to 5 Hz
2.3 x10¯³.FLaboratoryActive
  • 5 Hz to 10 Hz
1.2 x10¯³.FLaboratoryActive
  • 10 Hz to 40 Hz
0.35 x10¯³.FLaboratoryActive
  • 40 Hz to 300 kHz
0.12 x10¯³.FLaboratoryActive
  • 300 kHz to 1 MHz
0.12 x10¯³.FLaboratoryActive
  • Temperature Measurement RTD
  • Direct Method Calibration Procedure # DA-E-010
  • -200 °C to -80°C
0.12°CLaboratory/ Customer PremicesActive
  • -80°C to 0°C
0.13°CLaboratory/ Customer PremicesActive
  • 0°C to 100°C
0.14°CLaboratory/ Customer PremicesActive
  • 100°C to 300°C
0.17°CLaboratory/ Customer PremicesActive
  • 300°C to 400°C
0.17°CLaboratory/ Customer PremicesActive
  • 400°C to 630°C
0.19°CLaboratory/ Customer PremicesActive
  • 630°C to 800°C
0.29°CLaboratory/ Customer PremicesActive
  • Thermocouple Simulation Type B
  • Direct Method Calibration Procedure # DA-E-010
  • 600°C to 800°C
0.52°CLaboratory/ Customer PremicesActive
  • 800°C to 1000°C
0.41°CLaboratory/ Customer PremicesActive
  • 1000°C to 1550°C
0.37°CLaboratory/ Customer PremicesActive
  • 1550°C to 1820°C
0.41°CLaboratory/ Customer PremicesActive
  • Thermocouple Simulation Type C
  • 0°C to 150°C
0.37°CLaboratory/ Customer PremicesActive
  • 150°C to 650°C
0.33°CLaboratory/ Customer PremicesActive
  • 650°C to 1000°C
0.38°CLaboratory/ Customer PremicesActive
  • 1000°C to 1800°C
0.59°CLaboratory/ Customer PremicesActive
  • 1800°C to 2316°C
0.98°CLaboratory/ Customer PremicesActive
  • Thermocouple Simulation Type E
  • -250°C to -100°C
0.59°CLaboratory/ Customer PremicesActive
  • -100°C to -25°C
0.22°CLaboratory/ Customer PremicesActive
  • -25°C to 350°C
0.20°CLaboratory/ Customer PremicesActive
  • 350°C to 650°C
0.23°CLaboratory/ Customer PremicesActive
  • 650°C to 1000°C
0.28°CLaboratory/ Customer PremicesActive
  • Thermocouple Simulation Type J
  • -210°C to -100°C
0.33°CLaboratory/ Customer PremicesActive
  • -100°C to -30°C
0.21°CLaboratory/ Customer PremicesActive
  • -30°C to 150°C
0.19°CLaboratory/ Customer PremicesActive
  • 150°C to 760°C
0.22°CLaboratory/ Customer PremicesActive
  • 760°C to 1200°C
0.28°CLaboratory/ Customer PremicesActive
  • Thermocouple Simulation Type K
  • -200°C to -100°C
0.40°CLaboratory/ Customer PremicesActive
  • -100°C to -25°C
0.24°CLaboratory/ Customer PremicesActive
  • -25°C to 120°C
0.22°CLaboratory/ Customer PremicesActive
  • 120°C to 1000°C
0.33°CLaboratory/ Customer PremicesActive
  • 1000°C to 1372°C
0.48°CLaboratory/ Customer PremicesActive
  • Thermocouple Simulation Type L
  • -200°C to -100°C
0.44°CLaboratory/ Customer PremicesActive
  • -100°C to 800°C
0.33°CLaboratory/ Customer PremicesActive
  • 800°C to 900°C
0.24°CLaboratory/ Customer PremicesActive
  • Thermocouple Simulation Type N
  • -200°C to -100°C
0.48°CLaboratory/ Customer PremicesActive
  • -100°C to -25°C
0.28°CLaboratory/ Customer PremicesActive
  • -25°C to 120°C
0.25°CLaboratory/ Customer PremicesActive
  • 120°C to 410°C
0.25°CLaboratory/ Customer PremicesActive
  • 410°C to 1300°C
0.34°CLaboratory/ Customer PremicesActive
  • Thermocouple Simulation Type R
  • 0°C to 250°C
0.67°CLaboratory/ Customer PremicesActive
  • 250°C to 400°C
0.43°CLaboratory/ Customer PremicesActive
  • 400°C to 1000°C
0.41°CLaboratory/ Customer PremicesActive
  • 1000°C to 1767°C
0.48°CLaboratory/ Customer PremicesActive
  • Thermocouple Simulation Type S
  • 0°C to 250°C
0.56°CLaboratory/ Customer PremicesActive
  • 250°C to 1000°C
0.44°CLaboratory/ Customer PremicesActive
  • 1000°C to 1400°C
0.45°CLaboratory/ Customer PremicesActive
  • 1400°C to 1767°C
0.55°CLaboratory/ Customer PremicesActive
  • Thermocouple Simulation Type T
  • -250°C to -150°C
0.74°CLaboratory/ Customer PremicesActive
  • -150°C to 0°C
0.30°CLaboratory/ Customer PremicesActive
  • 0°C to 120°C
0.23°CLaboratory/ Customer PremicesActive
  • 120°C to 400°C
0.21°CLaboratory/ Customer PremicesActive
  • Thermocouple Simulation Type U
  • -200°C to 0°C
0.66°CLaboratory/ Customer PremicesActive
  • 0°C to 600°C
0.44°CLaboratory/ Customer PremicesActive
  • Temperature Measurement RTD Simulation PT 385,100Ω
  • Direct Method Calibration Procedure # DA-E-010
  • -200 °C to -100°C
0.10°CLaboratory/ Customer PremicesActive
  • -100°C to 0°C
0.10°CLaboratory/ Customer PremicesActive
  • 0°C to 100°C
0.10°CLaboratory/ Customer PremicesActive
  • 100°C to 300°C
0.15°CLaboratory/ Customer PremicesActive
  • 300°C to 600°C
0.18°CLaboratory/ Customer PremicesActive
  • Thermocouple Measure Type B
  • Direct Method Calibration Procedure DA-E-010
  • 600°C to 800°C
0.57°CLaboratory/ Customer PremicesActive
  • 800°C to 1000°C
0.47°CLaboratory/ Customer PremicesActive
  • 1000°C to 1550°C
0.43°CLaboratory/ Customer PremicesActive
  • 1550°C to 1820°C
0.46°CLaboratory/ Customer PremicesActive
  • Thermocouple Measure Type C
  • 0°C to 150°C
0.43°CLaboratory/ Customer PremicesActive
  • 150°C to 650°C
0.39°CLaboratory/ Customer PremicesActive
  • 650°C to 1000°C
0.44°CLaboratory/ Customer PremicesActive
  • 1000°C to 1800°C
0.63°CLaboratory/ Customer PremicesActive
  • 1800°C to 2316°C
1.00°CLaboratory/ Customer PremicesActive
  • Thermocouple Measure Type E
  • -250°C to -100°C
0.62°CLaboratory/ Customer PremicesActive
  • -100°C to -25°C
0.30°CLaboratory/ Customer PremicesActive
  • -25°C to 350°C
0.30°CLaboratory/ Customer PremicesActive
  • 350°C to 650°C
0.31°CLaboratory/ Customer PremicesActive
  • 650°C to 1000°C
0.35°CLaboratory/ Customer PremicesActive
  • Thermocouple Measure Type J
  • -210°C to -100°C
0.39°CLaboratory/ Customer PremicesActive
  • -100°C to -30°C
0.30°CLaboratory/ Customer PremicesActive
  • -30°C to 150°C
0.30°CLaboratory/ Customer PremicesActive
  • 150°C to 760°C
0.32°CLaboratory/ Customer PremicesActive
  • 760°C to 1200°C
0.37°CLaboratory/ Customer PremicesActive
  • Thermocouple Measure Type K
  • -200°C to -100°C
0.45°CLaboratory/ Customer PremicesActive
  • -100°C to -25°C
0.31°CLaboratory/ Customer PremicesActive
  • -25°C to 120°C
0.31°CLaboratory/ Customer PremicesActive
  • 120°C to 1000°C
0.39°CLaboratory/ Customer PremicesActive
  • 1000°C to 1372°C
0.53°CLaboratory/ Customer PremicesActive
  • Thermocouple Measure Type L
  • -200°C to -100°C
0.49°CLaboratory/ Customer PremicesActive
  • -100°C to 800°C
0.39°CLaboratory/ Customer PremicesActive
  • 800°C to 900°C
0.32°CLaboratory/ Customer PremicesActive
  • Thermocouple Measure Type N
  • -200°C to -100°C
0.52°CLaboratory/ Customer PremicesActive
  • -100°C to -25°C
0.35°CLaboratory/ Customer PremicesActive
  • -25°C to 120°C
0.33°CLaboratory/ Customer PremicesActive
  • 120°C to 410°C
0.33°CLaboratory/ Customer PremicesActive
  • 410°C to 1300°C
0.40°CLaboratory/ Customer PremicesActive
  • Thermocouple Measure Type R
  • 0°C to 250°C
0.70°CLaboratory/ Customer PremicesActive
  • 250°C to 400°C
0.48°CLaboratory/ Customer PremicesActive
  • 400°C to 1000°C
0.46°CLaboratory/ Customer PremicesActive
  • 1000°C to 1767°C
0.53°CLaboratory/ Customer PremicesActive
  • Thermocouple Measure Type S
  • 0°C to 250°C
0.60°CLaboratory/ Customer PremicesActive
  • 250°C to 1000°C
0.49°CLaboratory/ Customer PremicesActive
  • 1000°C to 1400°C
0.50°CLaboratory/ Customer PremicesActive
  • 1400°C to 1767°C
0.59°CLaboratory/ Customer PremicesActive
  • Thermocouple Measure Type T
  • -250°C to -150°C
0.76°CLaboratory/ Customer PremicesActive
  • -150°C to 0°C
0.36°CLaboratory/ Customer PremicesActive
  • 0°C to 120°C
0.31°CLaboratory/ Customer PremicesActive
  • 120°C to 400°C
0.30°CLaboratory/ Customer PremicesActive
  • Thermocouple Measure Type U
  • -200°C to 0°C
0.69°CLaboratory/ Customer PremicesActive
  • 0°C to 600°C
0.40°CLaboratory/ Customer PremicesActive
Dimensions
  • All types of Caliper Digital / Dial / Vernier
  • Calibartion Procedure DA-D-001: BS EN ISO 13385-1: 2019 For determining error of indicated size Comparison with calliper checker / gauge blocks
  • 0 mm to 300 mm
20 µmLaboratoryActive
  • > 300 mm to 600 mm
25 µmLaboratoryActive
  • External Micrometer Digital / Dial / Analog
  • Procedure DA-D-002: ISO 3611 For determining error of indicated size Comparison with gauge blocks
  • 0 mm to 25 mm
2.5 μmLaboratoryActive
  • > 25 mm to 100 mm
4.0 μmLaboratoryActive
  • > 100 mm to 400 mm
8.0 μmLaboratoryActive
  • > 400 mm to 600 mm
11.0 μmLaboratoryActive
  • Dial Test Indicator/ Lever Type Dial Gauges
  • Procedure DA-D-007: JIS 7533, IS 11498 For determining error of indicated displacement Comparison with ULM scale
  • 0 mm to 1 mm
2.0 μmLaboratoryActive
  • Tubular Micrometer/ Inside Micrometer Digital / Dial / Analog
  • Procedure DA-D-004: BS 959: 2008 For determining error of indicated size Comparison with gauge blocks and scale of the universal length measuring machine (ULM).
  • 0 mm to 300 mm
7.0 μmLaboratoryActive
  • > 300 mm to 600 mm
12.0 μmLaboratoryActive
  • Micrometer Setting Standard
  • Procedure DA-D-005: ISO 3611 For determining length using universal length measuring machine (ULM)
  • 25 mm to 100 mm
2.0 μmLaboratoryActive
  • > 100 mm to 200 mm
3.0 μmLaboratoryActive
  • > 200 mm to 300 mm
4.5 μmLaboratoryActive
  • > 300 mm to 400 mm
6.0 μmLaboratoryActive
  • > 400 mm to 500 mm
7.0 μmLaboratoryActive
  • > 500 mm to 600 mm
8.0 μmLaboratoryActive
  • Plunger Dial Gauge Digital / Dial Indicators
  • DA-D-006 : JIS 7503 For determining error of indicated displacement Comparison with ULM scale
  • 0 mm to 50 mm
3.0 μmLaboratoryActive
  • 0 mm to 100 mm
5.0 μmLaboratoryActive
  • Bore Gauge Digital / Dial
  • Procedure DA-D-008: JIS B 7515 For determining error of indicated diameter Comparison with ULM
  • 18 mm to 400 mm
7 μmLaboratoryActive
  • Inside Micrometer (Caliper Type)
  • Procedure DA-D-037 For determining error of indicated size Comparison with reference gauge blocks using gauge block accessories
  • 5 mm to 50 mm
4.0 μmLaboratoryActive
  • Depth Micrometer Digital / Dial / Analog
  • Calibartion Procedure DA-D-003: BS 6468: 2008 For determining error of indicated depth Comparison with gauge blocks and Depth Micro Checker
  • 0 mm to 25 mm
3.0 μmLaboratoryActive
  • > 25 mm to 50 mm
3.5 μmLaboratoryActive
  • > 50 mm to 100 mm
6.0 μmLaboratoryActive
  • > 100 mm to 300 mm
7.0 μmLaboratoryActive
  • Digital / Dial Thickness Gauge
  • Procedure DA-D-011 For determining error of indicated size Comparison with calibrated gauge blocks
  • 0 mm to 25 mm / 0.001 mm
3 μmLaboratoryActive
  • 0 mm to 50 mm / 0.01mm
7 μmLaboratoryActive
  • Thread Plug Gauges
  • Procedure DA-D-019: EURAMET cg-10 For determining Simple Pitch Diameter using ULM
  • 1 mm to 100 mm
4 μmLaboratoryActive
  • > 100 mm to 200 mm
5 μmLaboratoryActive
  • Depth Gauge (Dial / Digital / Vernier)
  • Procedure DA-D-014: BS EN ISO 13385-2: 2020 For determining error of indicated depth Comparison with gauge blocks and depth micro checker
  • 0 mm to 300 mm
20 μmLaboratoryActive
  • Height Gauge Digital / Dial / /Analog
  • Procedure DA-D-012: BS EN ISO 13225 : 2012 For determining error of indicated vertical size Comparison with calliper checker / gauge blocks
20 μmLaboratoryActive
  • 300 mm to 600 mm
25 μmLaboratoryActive
  • Thread Ring Gauges
  • DA-D-018: EURAMET cg-10 For determining Simple Pitch Diameter using ULM
  • 3 mm to 100 mm
4 μmLaboratoryActive
  • > 100 mm to 180 mm
5 μmLaboratoryActive
  • Feeler Gauge
  • Procedure DA-D-013: BS 957 For determining thickness Comparison method using universal length measuring machine (ULM)
  • Up to 1 mm
3.5 μmLaboratoryActive
  • Taper Thread Plug Gauges
  • Procedure DA-D-017: JIS B0262 and EURAMET cg-10 For determining Simple Pitch Diameter using ULM
  • 3 mm to 100 mm
4.5 μmLaboratoryActive
  • Taper Thread Ring Gauges
  • Procedure DA-D-016: JIS B0262 and EURAMET cg-10 For determining Simple Pitch Diameter using ULM
  • 7 mm to 100 mm
4.6 μmLaboratoryActive
  • Plain Plug Gauges
  • Procedure DA-D-015: ASME B89.1.5 & EURAMET cg-6 For determining diameter Comparison with ULM scale / gauge block using ULM
  • 1 mm up to 50 mm
1.2 μmLaboratoryActive
  • > 50 mm up to 100 mm
1.8 μmLaboratoryActive
  • > 100 mm up to 200 mm
3.0 μmLaboratoryActive
  • > 200 mm up to 300 mm
4.5 μmLaboratoryActive
  • > 300 mm up to 400 mm
6.0 μmLaboratoryActive
  • Plain Ring Gauges
  • Procedure DA-D-020: BS 4064 & EURAMET cg-6 For determining diamater Comparison with reference ring gauge using ULM
  • 3 mm up to 50 mm
2.5 μmLaboratoryActive
  • > 50 mm up to 100 mm
2.8 μmLaboratoryActive
  • > 100 mm to 200 mm
3.7 μmLaboratoryActive
  • > 200 mm to 300 mm
4.7μmLaboratoryActive
  • > 300 mm to 400 mm
6.0 μmLaboratoryActive
  • Height Measuring System/Digital Height Gauge Resolution: 0.001 mm or better
  • Procedure DA-D-025 based on BS EN ISO 13225: For determining error of indicated vertical size Comparison with caliper checker or gauge blocks
  • 0 mm to 600 mm
4.5 + (0.008 × L) μm ; L: mmLaboratory / Customer PremisesActive
  • Thread Measuring Cylinder / Pins
  • Procedure DA-D-021: BS EN ISO 3777 and BS 5590 For determining diameter Comparison with ULM scale / reference gauge block using ULM
  • Up to 6.35 mm
1.0 μmLaboratoryActive
  • Cylindrical Standards / Measuring Pins
  • Procedure DA-D-022 : IS 11103 For determining diameter Comparison with ULM scale / reference gauge block using ULM
  • up to 20 mm
1.1 μmLaboratoryActive
  • Test Sieves
  • Procedure DA-D-026: ISO 3310-1 For determining aperture size using digital calliper
  • 5 mm to 125 mm
0.05 mmLaboratoryActive
  • Coating Thickness Gauge
  • Procedure DA-D-029 For determining error of indicated thickness Comparison with calibrated foil set standards
  • 0 mm to 1.046 mm
15 μmLaboratoryActive
  • Steel Scale
  • Procedure DA-D-023: IS 1480, IS 1269 and OIML R035-1 Measurement of line spacing using length measuring machine equipped with optical magnification unit.
  • 0 mm to 1000 mm
0.82 mmLaboratoryActive
  • Measuring Tape
  • In-House Calibartion Procedure DA-D-023 based on IS 1480, IS 1269 and OIML R035-1 Measurement of line spacing using length measuring machine equipped with optical magnification unit. Stitching is carried out after length of 1000 mm.
  • 0 m to 50 m
0.8 + (0.12 × L) mm ; L: mLaboratoryActive
  • Long gauge Blocks / Lenght Bars
  • Procedure DA-D-005: ISO 3650: 1998 Measurement of central length by mechanical comparison to reference long gauge blocks using universal length measuring machine (ULM
  • 125 mm to 200 mm
3.0 μmLaboratoryActive
  • > 200 mm to 300 mm
4.5 μmLaboratoryActive
  • > 300 mm to 400 mm
6.0 μmLaboratoryActive
  • > 400 mm to 500 mm
7.0 μmLaboratoryActive
  • > 500 mm to 600 mm
8.0 μmLaboratoryActive
  • Micrometer Head
  • Procedure DA-D-032: IS 9483 For determining error of indicated size Comparison with ULM scale
  • 0 mm to 25 mm
3 μmLaboratoryActive
  • Gauge blocks: (Steel, Tungsten Carbide and Ceramic)
  • Procedure DA-D-009: ISO 3650: 1998 Measurement of central length by mechanical comparison.
  • 0.5 mm to 10 mm
0.14 μmLaboratoryActive
  • > 10 mm to 25 mm
0.17 μmLaboratoryActive
  • > 25 mm to 50 mm
0.26 μmLaboratoryActive
  • > 50 mm to 75 mm
0.37 μmLaboratoryActive
  • > 75 mm to 100 mm
0.46 μmLaboratoryActive
  • Taper Plain Ring Gauges
  • Procedure DA-D-031: IS 9529, 2251, 9475 For determining diamater Comparison with reference ring gauge using ULM
  • 3 mm to 100 mm
3.0 μmLaboratoryActive
  • Taper Plain Plug Gauges
  • Procedure DA-D-030: IS 9529, 2251, 9475 For determining diameter Comparison with ULM scale / gauge block using ULM
  • Up to 100 mm
3.0 μmLaboratoryActive
  • > 100 mm to 200 mm
4.0 μmLaboratoryActive
  • > 200 mm to 300 mm
5.0 μmLaboratoryActive
  • Thickness Foil
  • Procedure DA-D-028: For determining thickness Comparison method using universal length measuring machine (ULM)
  • up to 1.5 mm
4 μmLaboratoryActive
  • Snap Gauge
  • Procedure DA-D-033: IS 3455 For determining face spacing Comparison with reference ring gauge using ULM
  • 3 mm to 50 mm
2.5 μmLaboratoryActive
  • > 50 mm to 100 mm
2.8 μmLaboratoryActive
  • > 100 mm to 200 mm
3.7 μmLaboratoryActive
  • > 200 mm to 300 mm
4.7 μmLaboratoryActive
Torque
  • Torque Indicating and Hand Setting Torque Tools
  • In-House calibration procedure DA-TW-001 based on ISO 6789-1 and ISO 6789-2
  • 80 in-lb to 1000 in-lb (9,04 N.m to 112,98 N.m)
0.0058LaboratoryActive
  • 20 ft.lb to 250 ft.lb (27,12 N.m to 338,96 N.m)
0.0031LaboratoryActive
  • 30 ft.lb to 600 ft.lb (40,67 N.m to 813,5 N.m)
0.01LaboratoryActive
Flow
  • Volume Flow Rate (Medium: Diesel Fuel)
  • Procedure DA-F-001 based on BS EN ISO 7278-2:1996 , BS EN ISO 4267-2:1996 , OIML R 117-1:2019 , OIML R 117-2:2019
  • 100 l/min to 600 l/min
0.15% of full scaleLaboratory/ Customer PremisesActive
  • > 600 l/min to 1200 l/min
0.18% of full scaleLaboratory/ Customer PremisesActive
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