BaganTrack
Online Customer Interface

BAGAN Richard J. Bagan, Inc.
red line

A2LA Accredited Calibration Services
In-Lab and On-Site metrology services accredited by A2LA to ISO/IEC 17025:2005

Download
PDF Brochure

Electrical Calibration

Alternating Current (AC)

AC Voltage – Measure Range CMC Uncertainty (±)
AC Voltage – Measure (0 to 200) mV

(1 to 10) Hz
(10 to 40) Hz
(40 to 100) Hz
(0.1 to 2) kHz
(2 to 10) kHz
(10 to 30) kHz
(30 to 100) kHz

0.019 % + 18 μV
0.016 % + 5 μV
0.013 % + 5.2 μV
0.013 % + 2.5 μV
0.013 % + 5 μV
0.036 % + 9.5 μV
0.049 % + 130 μV

AC Voltage – Measure (0.2 to 2) V
(1 to 10) Hz
(10 to 40) Hz
(40 to 100) Hz
(0.1 to 2) kHz
(2 to 10) kHz
(10 to 30) kHz
(30 to 100) kHz
(100 to 300) kHz
(0.3 to 1) MHz
0.016 % + 170 μV
0.012 % + 45 μV
0.011 % + 26 μV
78 μV/V + 25 μV
0.011 % + 25 μV
0.024 % + 52 μV
0.043 % + 740 μV
0.35 % + 2.4 mV
1.2 % + 24 mV
AC Voltage – Measure (2 to 20) V
(1 to 10) Hz
(10 to 40) Hz
(40 to 100) Hz
(0.1 to 2) kHz
(2 to 10) kHz
(10 to 30) kHz
(30 to 100) kHz
(100 to 300) kHz
(0.3 to 1) MHz
0.016 % + 16 mV
0.013 % + 340 μV
0.011 % + 280 μV
78 μV/V + 260 μV
0.011 % + 250 μV
0.024 % + 480 μV
0.058 % + 2.5 mV
0.35 % + 24 mV
1.2 % + 240 mV
AC Voltage – Measure (20 to 200) V
(1 to 10) Hz
(10 to 40) Hz
(40 to 100) Hz
(0.1 to 2) kHz
(2 to 10) kHz
(10 to 30) kHz
(30 to 100) kHz
(100 to 300) kHz
(0.3 to 1) MHz
0.017 % + 15 mV
0.013 % + 3.5 mV
0.011 % + 2.5 mV
85 μV/V + 2.4 mV
0.011 % + 2.5 mV
0.024 % + 4.8 mV
0.059 % + 24 mV
0.35 % + 240 mV
1.2 % + 2.4 V
AC Voltage – Measure (200 to 1000) V
(1 to 10) Hz
(10 to 40) Hz
(0.04 to 10) kHz
(10 to 30) kHz
(30 to 100) kHz
0.018 % + 81 mV
0.015 % + 24 mV
0.012 % + 24 mV
0.024 % + 47 mV
0.061 % + 240 mV
AC Voltage – Measure High Voltage (HV) Range CMC Uncertainty (±)
AC HV Voltage – Measure (1 to 5) kV
Up to 60 Hz
0.15 kV
AC HV Voltage – Measure (5 to 50) kV
Up to 60 Hz
13 V + 21 V/kV
AC HV Voltage – Measure (50 to 85) kV Up to 60 Hz 3.5 kV
AC Voltage – Generate Range CMC Uncertainty (±)
AC Voltage – Generate (0.005 to 2.2) mV (10 to 20) Hz
(20 to 40) Hz
(0.04 to 20) kHz
(20 to 50) kHz
(50 to 100) kHz
(100 to 300) kHz
(300 to 500) kHz
(0.5 to 1) MHz
0.058 % + 5.2 μV
0.022 % + 5.2 μV
0.011 % + 5.2 μV
0.038 % + 5.3 μV
0.087 % + 8.1 μV
0.12 % + 15 μV
0.18 % + 29 μV
0.36 % + 29 μV
AC Voltage – Generate (2.2 to 22) mV (10 to 20) Hz
(20 to 40) Hz
(0.04 to 20) kHz
(20 to 50) kHz
(50 to 100) kHz
(100 to 300) kHz
(300 to 500) kHz
(0.5 to 1) MHz
0.059 % + 5.9 μV
0.023 % + 5.8 μV
0.012 % + 5.8 μV
0.039 % + 5.9 μV
0.088 % + 8.1 μV
0.12 % + 16 μV
0.18 % + 30 μV
0.34 % + 37 μV
AC Voltage – Generate (22 to 220) mV (10 to 20) Hz
(20 to 40) Hz
(0.04 to 20) kHz
(20 to 50) kHz
(50 to 100) kHz
(100 to 300) kHz
(300 to 500) kHz
(0.5 to 1) MHz
0.059 % + 16 μV
0.023 % + 10 μV
0.012 % + 10 μV
0.018 % + 62 μV
0.057 % + 130 μV
0.12 % + 38 μV
0.18 % + 41 μV
0.37 % + 93 μV
AC Voltage – Generate (0.22 to 2.2) V (10 to 20) Hz
(20 to 40) Hz
(0.04 to 20) kHz
(20 to 50) kHz
(50 to 100) kHz
(100 to 300) kHz
(300 to 500) kHz
(0.5 to 1) MHz
0.052 % + 130 μV
0.016 % + 48 μV
75 μV/V + 13 μV
30 μV/V + 710 μV
0.016 % + 380 μV
0.046 % + 160 μV
0.12 % + 420 μV
0.23 % + 1 mV
AC Voltage – Generate (2.2 to 22) V (10 to 20) Hz
(20 to 40) Hz
(0.04 to 20) kHz
(20 to 50) kHz
(50 to 100) kHz
(100 to 300) kHz
(300 to 500) kHz
(0.5 to 1) MHz
0.052 % + 1.2 mV
0.017 % + 380 μV
75 μV/V + 160 μV
0.011 % + 830 μV
0.025 % + 480 μV
0.053 % + 1.8 mV
0.14 % + 5.0 mV
0.3 % + 10 mV
AC Voltage – Generate (22 to 220) V (10 to 20) Hz
(20 to 40) Hz
(0.04 to 20) kHz
(20 to 50) kHz
(50 to 100) kHz
(100 to 300) kHz
(300 to 500) kHz
(0.5 to 1) MHz
0.053 % + 11 mV
0.017 % + 3.9 mV
85 μV/V + 1.3 mV
0.023 % + 4.2 mV
0.053 % + 9.5 mV
0.17 % + 110 mV
0.53 % + 110 mV
1.3 % + 220 mV
AC Voltage – Generate (220 to 1100) V (15 to 50) Hz
(0.050 to 1) kHz
0.043 % + 19 mV
80 μV/V + 9.3 mV
AC Current – Measure Range CMC Uncertainty (±)
AC Current – Measure (0 to 200) μA (1 to 10) Hz
(0.01 to 10) kHz
(10 to 30) kHz
(30 to 100) kHz
0.034 % + 25 nA
0.032 % + 26 nA
0.076 % + 28 nA
0.46 % + 39 nA

AC Current – Measure (0.2 to 2) mA

(1 to 10) Hz
(0.01 to 10) kHz
(10 to 30) kHz
(30 to 100) kHz
0.032 % + 300 nA
0.024 % + 550 nA
0.074 % + 280 nA
0.46 % + 470 nA
AC Current – Measure (2 to 20) mA (1 to 10) Hz
(0.01 to 10) kHz
(10 to 30) kHz
(30 to 100) kHz
0.034 % + 2.4 μA
0.033 % + 2.4 μA
0.072 % + 3.2 μA
0.46 % + 2.7 μA
AC Current – Measure (20 to 200) mA (1 to 10) Hz
(0.01 to 10) kHz
(10 to 30) kHz
0.03 % + 36 μA
0.028 % + 29 μA
0.068 % + 28 μA
AC Current – Measure (0.2 to 2) A (0.01 to 2) kHz
(2 to 10) kHz
(10 to 30) kHz
0.067 % + 310 μA
0.081 % + 240 μA
0.35 % + 320 μA
AC Current – Measure (2 to 20) A (0.01 to 2) kHz
(2 to 10) kHz
0.084 % + 4.6 mA
0.28 % + 5.6 mA
AC Current – Measure (0.1 to 1) A Up to 10 kHz 0.5 mA
AC Current – Measure (1 to 10) A Up to 10 kHz 5 mA
AC Current – Measure (10 to 100) A Up to 1 kHz 50 mA
AC Current – Measure (100 to 1000) A Up to 60 Hz 0.3 A
AC Current – Generate Range CMC Uncertainty (±)
AC Current – Generate (0.02 to 220) μA

(10 to 20) Hz
(20 to 40) Hz
(0.04 to 1) kHz
(1 to 5) kHz
(5 to 10) kHz

0.071 % + 30 nA
0.036 % + 30 nA
0.014 % + 20 nA
0.058 % + 50 nA
0.17 % + 100 nA

AC Current – Generate (0.22 to 2.2) mA (10 to 20) Hz
(20 to 40) Hz
(0.04 to 1) kHz
(1 to 5) kHz
(5 to 10) kHz
0.065 % + 190 nA
0.022 % + 490 nA
0.014 % + 40 nA
0.058 % + 490 nA
0.17 % + 1 μA
AC Current – Generate (2.2 to 22) mA (10 to 20) Hz
(20 to 40) Hz
(0.04 to 1) kHz
(1 to 5) kHz
(5 to 10) kHz
0.07 % + 700 nA
0.036 % + 580 nA
0.014 % + 410 nA
0.057 % + 5.2 μA
0.17 % + 9.4 μA
AC Current – Generate (22 to 220) mA
(10 to 20) Hz
(20 to 40) Hz
(0.04 to 1) kHz
(1 to 5) kHz
(5 to 10) kHz
0.061 % + 28 μA
0.032 % + 18 μA
0.015 % + 4.2 μA
0.058 % + 49 μA
0.16 % + 120 μA
AC Current – Generate (0.22 to 2.2) A (0.02 to 1) kHz
(1 to 5) kHz
(5 to 10) kHz
0.058 % + 200 μA
0.071 % + 240 μA
0.87 % + 720 μA
AC Current – Generate (2.2 to 11) A (0.04 to 1) kHz
(1 to 5) kHz
(5 to 10) kHz
0.025 % + 3.9 mA
0.068 % + 5.1 mA
0.3 % + 13 mA
AC Current– Generate (11 to 20.5) A
(45 to 100) Hz
(0.1 to 1) kHz
(1 to 5) kHz
0.14 % + 7 mA
0.17 % + 7.7 mA
3.4 % + 14 mA
AC Current– Generate (20 to 150) A
(65 to 440) Hz
0.64 % + 0.85 A
AC Current– Generate (20 to 1000) A (45 to 65) Hz 0.39 % + 0.85 A
AC Power – Generate (10 to 65 Hz)
Watts (Φ = 0 °)
Range CMC Uncertainty (±)
AC Power – Generate (3.3 to 9) mA (0.11 to 3.0) mW
(0.001 to 9) W
0.089 % of rdg
0.082 % of rdg
AC Power – Generate (9 to 33) mA (0.30 to 10) mW
(0.003 m to 33) W
0.13 % of rdg
0.13 % of rdg
AC Power – Generate (33 to 90) mA (1 to 30) mW
(0.01 to 90) W
0.089 % of rdg
0.082 % of rdg
AC Power – Generate (90 to 330) mA (3.0 to 100) mW
(0.03 to 300) W
0.11 % of rdg
0.1 % of rdg
AC Power – Generate (0.33 to 0.9) A (11 to 300) mW
(0.11 to 900) W
0.087 % of rdg
0.081 % of rdg
AC Power – Generate (0.9 to 2.2) A (30 to 720) mW
(0.30 to 2000) W
0.09 % of rdg
0.084 % of rdg
AC Power – Generate (2.2 to 4.5) A (0.08 to 1.4) W
(0.73 to 4500) W
0.16 % of rdg
0.16 % of rdg
AC Power – Generate (4.5 to 20.5) A (0.15 to 6.7) W
(1.5 to 20 000) W
0.18 % of rdg
0.18 % of rdg

Capacitance

Capacitance – Measure Range CMC Uncertainty (±)
(0.001 to 1) μF
(0.001 to 1) μF
100 Hz to 1 kHz
(1 to 100) kHz
0.71 % + 3.2 pF
0.76 % + 2.5 pF
Synthesized Capacitance Range CMC Uncertainty (±)
(0.19 to 0.4) nF
(0.4 to 1.1) nF
(1.1 to 3.3) nF
(3.3 to 11) nF
(11 to 33) nF
(33 to 110) nF
(110 to 330) nF
(0.33 to 1.1) μF
(1.1 to 3.3) μF
(3.3 to 11) μF
(11 to 33) μF
(33 to 110) μF
(110 to 330) μF
(0.33 to 1.1) mF
(1.1 to 3.3) mF
(3.3 to 11) mF
(11 to 33) mF
(33 to 110) mF

(0.01 to 10) kHz
(0.01 to 10) kHz
(0.01 to 3) kHz
(0.01 to 1) kHz
(0.01 to 1) kHz
(0.01 to 1) kHz
(0.01 to 1) kHz
(10 to 600) Hz
(10 to 300) Hz
(10 to 150) Hz
(10 to 120) Hz
(10 to 80) Hz
(0 to 50) Hz
(0 to 20) Hz
(0 to 6) Hz
(0 to 2) Hz
(0 to 0.6) Hz
(0 to 0.2) Hz

0.58 % + 12 pF
0.58 % + 12 pF
0.57 % + 12 pF
0.28 % + 14 pF
0.29 % + 120 pF
0.28 % + 140 pF
0.28 % + 390 pF
0.28 % + 1.4 nF
0.28 % + 3.9 nF
0.27 % + 15 nF
0.28 % + 43 nF
0.43 % + 170 nF
0.49 % + 480 nF
0.51 % + 1.4 μF
0.49 % + 5 μF
0.37 % + 36 μF
0.83 % + 49 μF
0.11 % + 360 μF

Discrete Capacitance Points Range CMC Uncertainty (±)
1 nF
2 nF
10 nF
100 nF
200 nF
1 μF
1 kHz
1 kHz
1 kHz
1 kHz
1 kHz
1 kHz
2.3 pF
2.4 pF
19 pF
170 pF
260 pF
840 pF

Conductivity

Conductivity Simulation Range CMC Uncertainty (±)
Conductivity Simulation – Generate Up to 1 μS
1 μS to 10 mS
0.015 μS
16 μS

Direct Current (DC)

DC Voltage Range CMC Uncertainty (±)
DC Voltage – Measure, Fixed Point 10 V 1 μV/V
DC Voltage – Measure (0 to 200) mV
(0.2 to 2) V
(2 to 20) V
(20 to 200) V
(200 to 1000) V
5.9 μV/V + 130 nV
3.6 μV/V + 480 nV
3.6 μV/V + 4.7 μV
5.3 μV/V + 50 μV
5.2 μV/V + 760 μV
DC Voltage – Measure High Voltage (HV) (1 to 5) kV
(5 to 50) kV
(50 to 100) kV
0.024 kV
19 V + 16 V/kV
2.9 kV
DC Voltage Generate – Fixed Point 10 V 1 μV/V
DC Voltage – Generate (0 to 220) mV
(0.22 to 2.2) V
(2.2 to 11) V
(11 to 22) V
(22 to 220) V
(220 to 1 100) V
9.2 μV/V + 560 nV
5.8 μV/V + 880 nV
4 μV/V + 3.3 μV
4 μV/V + 5.3 μV
5.3 μV/V + 180 μV
7.3 μV/V + 730 μV
DC Current Range CMC Uncertainty (±)
DC Current – Measure (0 to 200) μA
(0.2 to 2) mA
(2 to 20) mA
(20 to 200) mA
(0.2 to 2) A
(2 to 20) A
(1 to 10) A
(10 to 100) A
(100 to 1000) A
14 μA/A + 660 pA
15 μA/A + 5.0 nA
16 μA/A + 53 nA
43 μA/A + 200 nA
0.019 % + 28 μA
0.058 % + 1.9 mA
1.2 mA
13 mA
23 mA
DC Current – Generate (0 to 220) μA
(0.22 to 2.2) mA
(2.2 to 22) mA
(22 to 220) mA
(0.22 to 2.2) A
(2.2 to 11) A
(20.5 to 100) A
(100 to 1000) A
47 μA/A + 9.3 nA
47 μA/A + 9.5 nA
47 μA/A + 97 nA
53 μA/A + 950 nA
67 μA/A + 41 μA
0.04 % + 560 μA
1.3 A + 27 mA/A
1.5 A + 0.05 μA/A
DC Power Range CMC Uncertainty (±)
DC Power – Generate (0.33 to 3.3) mA (0.011 to 1.1) mW
(0.11 to 11) mW
(1.1 to 110) mW
(0.011 to 1.1) W
(0.11 to 3.3) W
0.043 % of rdg
94 μW/W
94 μW/W
95 μW/W
80 μW/W
DC Power – Generate (3.3 to 33) mA (0.11 to 11) mW
(1.1 to 110) mW
(0.011 to 1.1) W
(0.11 to 11) W
(1.1 to 33) W
0.043 % of rdg
90 μW/W
90 μW/W
91 μW/W
76 μW/W
DC Power – Generate (33 to 330) mA (1.1 to 110) mW
(0.011 to 1.1) W
(0.11 to 11) W
(1.1 to 110) W
(11 to 330) W
0.043 % of rdg
91 μW/W
91 μW/W
92 μW/W
77 μW/W
DC Power – Generate (0.33 to 3) A (11 to 990) mW
(0.11 to 9.9) W
(1.1 to 99) W
(11 to 990) W
(0.11 to 3) kW
0.05 % of rdg
0.028 % of rdg
0.028 % of rdg
0.028 % of rdg
0.027 % of rdg
DC Power – Generate (3 to 20.5) A (0.099 to 6.7) W
(0.99 to 6.7) W
(9.9 to 670) W
(0.099 to 6.8) kW
(0.99 to 20.9) kW
0.082 % of rdg
0.071 % of rdg
0.071 % of rdg
0.071 % of rdg
0.07 % of rdg

Inductance

Inductance – Measure Range CMC Uncertainty (±)
(0.002 to 10) H
(0.002 to 10) H
(100, 120) Hz
1 kHz
0.26 % + 580 nH
0.27 % + 480 nH
Inductance– Generate Range CMC Uncertainty (±)
(0.002 to 10) H
(0.002 to 10) H
(100, 120) Hz
1 kHz
0.024 % + 2.2 μH
0.057 % + 1.6 μH

Oscilloscope

Oscilloscope Functions Range CMC Uncertainty (±)
Rise/Fall Time Up to 600 MHz 1.7 ns
Bandwidth Up to 1.1 GHz 0.11 Division

pH Simulation

pH Simulation Range CMC Uncertainty (±)
pH Simulation – Generate (0 to 14) pH units 0.011 pH

Resistance

Resistance – Measure Range CMC Uncertainty (±)
Resistance – Measure (0 to 2) Ω
(2 to 20) Ω
(20 to 200) Ω
(0.2 to 2) kΩ
(2 to 20) kΩ
(20 to 200) kΩ
(0.2 to 2) MΩ
(2 to 20) MΩ
(20 to 200) MΩ
(0.2 to 2) GΩ
18 μΩ/Ω + 7.2 μΩ
13 μΩ/Ω + 25 μΩ
12 μΩ/Ω + 59 μΩ
11 μΩ/Ω + 730 μΩ
10 μΩ/Ω + 6.2 mΩ
8.6 μΩ/Ω + 120 mΩ
6.3 μΩ/Ω + 17 Ω
22 μΩ/Ω + 120 Ω
70 μΩ/Ω + 12 kΩ
0.061 % + 1.2 MΩ
Resistance – Generate Range CMC Uncertainty (±)
Synthesized Resistance Points (0 to 11) Ω
(11 to 33) Ω
(33 to 110) Ω
(110 to 330) Ω
(0.33 to 1.1) kΩ
(1.1 to 3.3) kΩ
(3.3 to 11) kΩ
(11 to 33) kΩ
(33 to 110) kΩ
(110 to 330) kΩ
(0.33 to 1.1) MΩ
(1.1 to 3.3) MΩ
(3.3 to 11) MΩ
(11 to 33) MΩ
(33 to 110) MΩ
(110 to 330) MΩ
(0.33 to 1.1) GΩ
46 μΩ/Ω + 1.2 mΩ
35 μΩ/Ω + 1.8 mΩ
25 μΩ/Ω + 3.2 mΩ
29 μΩ/Ω + 4.2 mΩ
29 μΩ/Ω + 6.6 mΩ
29 μΩ/Ω + 41 mΩ
27 μΩ/Ω + 100 mΩ
29 μΩ/Ω + 400 mΩ
27 μΩ/Ω + 1 Ω
35 μΩ/Ω + 3.5 Ω
32 μΩ/Ω + 9.6 Ω
66 μΩ/Ω + 50 Ω
0.014 % + 250 Ω
0.027 % + 3.9 kΩ
0.052 % + 12 kΩ
0.35 % + 130 kΩ
1.7 % + 1.9 MΩ
Discrete Resistance Points 0 Ω
1 Ω
1.9 Ω
10 Ω
19 Ω
100 Ω
190 Ω
1 kΩ
1.9 kΩ
10 kΩ
19 kΩ
100 kΩ
190 kΩ
1 MΩ
1.9 MΩ
10 MΩ
19 MΩ
100 MΩ
59 μΩ
0.11 mΩ
0.21 mΩ
0.33 mΩ
0.58 mΩ
2 mΩ
3.8 mΩ
14 mΩ
27 mΩ
130 mΩ
250 mΩ
1.5 Ω
2.9 Ω
27 Ω
46 Ω
440 Ω
1.1 kΩ
15 kΩ

Resistance Temperature Detectors (RTD)

RTD Indicator Range CMC Uncertainty (±)
Pt 385, 100 Ω RTD

(-200 to -80) °C
(-80 to 0) °C
(0 to 100) °C
(100 to 300) °C
(300 to 400) °C
(400 to 630) °C
(630 to 800) °C

0.06 °C
0.059 °C
0.083 °C
0.11 °C
0.12 °C
0.12 °C
0.27 °C

Pt 385, 200 Ω RTD (-200 to -80) °C
(-80 to 0) °C
(0 to 100) °C
(100 to 260) °C
(260 to 300) °C
(300 to 400) °C
(400 to 600) °C
(600 to 630) °C
0.048 °C
0.048 °C
0.048 °C
0.06 °C
0.15 °C
0.16 °C
0.17 °C
0.19 °C
Pt 385, 500 Ω RTD (-200 to -80) °C
(-80 to 0) °C
(0 to 100) °C
(100 to 260) °C
(260 to 300) °C
(300 to 400) °C
(400 to 600) °C
(600 to 630) °C
0.048 °C
0.06 °C
0.06 °C
0.071 °C
0.095 °C
0.095 °C
0.11 °C
0.13 °C
Pt 385, 1 kΩ RTD (-200 to -80) °C
(-80 to 0) °C
(0 to 100) °C
(100 to 260) °C
(260 to 300) °C
(300 to 400) °C
(400 to 600) °C
(600 to 630) °C
0.036 °C
0.036 °C
0.048 °C
0.06 °C
0.071 °C
0.083 °C
0.083 °C
0.28 °C
PtNi 385, 120 Ω RTD (-80 to 0) °C
(0 to 100) °C
(100 to 260) °C
0.095 °C
0.095 °C
0.017 °C
Pt 3916, 100 Ω RTD

(-200 to -190) °C
(-190 to -80) °C
(-80 to 0) °C
(0 to 100) °C
(100 to 260) °C
(260 to 300) °C
(300 to 400) °C
(400 to 600) °C
(600 to 630) °C

0.048 °C
0.048 °C
0.06 °C
0.071 °C
0.083 °C
0.095 °C
0.11 °C
0.12 °C
0.28 °C
Pt 3926, 100 Ω RTD (-200 to -80) °C
(-80 to 0) °C
(0 to 100) °C
(100 to 300) °C
(300 to 400) °C
(400 to 630) °C
0.06 °C
0.06 °C
0.083 °C
0.11 °C
0.12 °C
0.15 °C
Cu 427, 10 Ω RTD -100 °C to 260 °C 0.36 °C

Thermocouple Calibration

Thermocouples are a type of temperature sensor used to convert thermal potential difference into electric potential difference. Thermocouples can measure wide temperature ranges and are used by many industries for various applications.

The main limitation of thermocouples is accuracy; temperature measurements with uncertainties less than 1C are difficult to achieve without expertise of a trained metrologist. Bagan thermocouple calibration service provides temperature measurement with an uncertainty of .14 C for some thermocouples, and can help you select the best thermocouple for the application.

Thermocouple Indicators Range CMC Uncertainty (±)
Thermocouple Type: B (600 to 800) °C
(800 to 1000) °C
(1000 to 1550) °C
(1550 to 1820) °C
0.52 °C
0.41 °C
0.36 °C
0.4 °C
Thermocouple Type: C (0 to 150) °C
(150 to 650) °C
(650 to 1000) °C
(1000 to 1800) °C
(1800 to 2316) °C

0.36 °C
0.32 °C
0.37 °C
0.59 °C
0.98 °C
Thermocouple Type: E (-250 to -100) °C
(-100 to -25) °C
(-25 to 350) °C
(350 to 650) °C
(650 to 1000) °C
0.59 °C
0.21 °C
0.19 °C
0.21 °C
0.26 °C

Thermocouple Type: J (-210 to -100) °C
(-100 to -30) °C
(-30 to 150) °C
(150 to 760) °C
(760 to 1200) °C
0.33 °C
0.21 °C
0.18 °C
0.22 °C
0.28 °C

Thermocouple Type: K (-200 to -100) °C
(-100 to -25) °C
(-25 to 120) °C
(120 to 1000) °C
(1000 to 1372) °C
0.4 °C
0.23 °C
0.21 °C
0.32 °C
0.47 °C
Thermocouple Type: N (-200 to -100) °C
(-100 to -25) °C
(-25 to 120) °C
(120 to 410) °C
(410 to 1300) °C
0.47 °C
0.27 °C
0.24 °C
0.23 °C
0.33 °C
Thermocouple Type: R (0 to 250) °C
(250 to 400) °C
(400 to 1000) °C
(1000 to 1767) °C
0.67 °C
0.43 °C
0.41 °C
0.48 °C
Thermocouple Type: S
(0 to 250) °C
(250 to 1000) °C
(1000 to 1400) °C
(1400 to 1767) °C
0.56 °C
0.44 °C
0.45 °C
0.55 °C
Thermocouple Type: T (-250 to -150) °C
(-150 to 0) °C
(0 to 120) °C
(120 to 400) °C
0.74 °C
0.29 °C
0.21 °C
0.19 °C
Thermocouple Type: U (-200 to 0) °C
(0 to 600) °C
0.66 °C
0.33 °C

Calibration and Measurement Capability (CMC) is the smallest uncertainty of measurement that a laboratory can achieve within its scope of accreditation when performing more or less routine calibrations of nearly ideal measurement standards or nearly ideal measuring equipment.

Calibration and Measurement Capabilities represent expanded uncertainties expressed at approximately the 95 %
level of confidence, usually using a coverage factor of k = 2. The actual measurement uncertainty of a specific calibration performed by the laboratory may be greater than the CMC due to the behavior of the customer’s device and to influences from the circumstances of the specific calibration.

Please note the actual measurement uncertainties achievable on a customer's site can normally be expected to be larger than the CMC found on the A2LA Scope. Allowance must be made for aspects such as the environment at the place of calibration and for other possible adverse effects such as those caused by transportation of the calibration equipment. The usual allowance for the actual uncertainty introduced by the item being calibrated, (e.g. resolution) must also be considered and this, on its own, could result in the actual measurement uncertainty achievable on a customer’s site being larger than the CMC.

line
A2LA Accredited
A2LA Accredited Calibration
In-Lab / On-Site
ISO/IEC 17025:2005
ANSI/NCSL Z540-1-1994
Certificate 1625.01
ABS Quality Evaluations
ISO 9001:2008 Certified
• Calibration Management
• Repairable Asset Management
• Preventive Maintenance Management
Certificate 34299

NCSL International
NCSLI Member

National Conference of Standards Laboratories International

Calibration / Repair Depot
Headquarters

1280 S. Williams Dr.
Columbia City, IN 46725-0169

Phone: 800.552.5115
Fax: 260.244.4158
mail@rjbagan.com

Fort Wayne Calibration
Sales Office

7231 Engle Road, Suite 500
Fort Wayne, IN 46804

Phone: 800.552.5115
Fax: 260.244.4158
mail@rjbagan.com