0.250 + 0.05
True RMS
AC Current
[6]
60.000 mA, 600.00 mA,
6.0000 A, 10.000 A
[5]
20 Hz – 45 Hz 2 + 0.10
45 Hz – 2 kHz 0.50 + 0.10
2 kHz – 10 kHz 2.50 + 0.20
Resistance
[7]
600.00 Ω 1 mA 0.040 + 0.01
6.0000 kΩ 1 mA 0.030 + 0.01
60.000 kΩ 100 μA 0.030 + 0.01
600.00 kΩ 10 μA 0.040 + 0.01
6.0000 MΩ 1 μA 0.120 + 0.03
60.000 MΩ 200 nA || 10 MΩ 0.90 + 0.03
100.00 MΩ 200 nA || 10 MΩ 1.75 + 0.03
Diode Test
3.0000 V
[8]
1 mA 0.05 + 0.01
Continuity
1000 Ω 1 mA 0.05 + 0.01
Frequency
/Period
600 mV to 750 V
[9]
20 Hz – 2 kHz 0.01 + 0.003
2 kHz – 20 kHz 0.01 + 0.003
20 kHz – 200 kHz
0.01 + 0.006
60 mA to 10 A
20 Hz – 2 kHz 0.01 + 0.003
2 kHz – 10 kHz 0.01 + 0.003
Capacitance
[10]
2.000 nF 200 nA 3 + 1.0
20.00 nF 200 nA 1 + 0.5
200.0 nF 2 μA 1 + 0.5
2.000 μF 10 μA 1 + 0.5
200 μF 100 μA 1 + 0.5
10000 μF 1 mA 2 + 0.5
Temperature
Temperature sensors under 2 categories supported -
thermocouple (ITS-
90 conversion between B / E / J / K / N / R / S / T type), and
thermal resistance (RTD sensor conversion between PT100 and PT385 type)
[1]
Specifications are for 30-minute warm-up, "Low" measurement rate and calibration temperature
18℃ - 28℃.
[2] 10% over range on all ranges, except 1,000 V DCV, 750 ACV, 10 A DCI, 10 A ACI, 100 MΩ resistance, and
10000 μF capacitance.
[3] For each additional volt over ± 500 VDC add 0.02 mV of error.
[4] Specifications are for amplitude of sine wave input > 0.5% of range. For inputs from 1% to 5% of range and
<50 kHz, add 0.1% of range extra error.
For 50 kHz to 100 kHz, add 0.13% of range extra error.
[5] 30 seconds OFF after 30 seconds ON is recommend for the continuous current that higher than DC 7 A or
AC RMS 7 A.
[6] Specifications are for amplitude of sine wave input > 0.5% of range. 0.1% errors will be added when the
range of input sine wave is 1% to 5%.
[7] Specifications are for 4–wire ohms function or 2–wire ohms using the relative operation of math. Without
relative operation, add ±0.20 Ω additional error in 2-wire ohms function.
[8] Specifications are for the voltage measured at the input terminals. The 1 mA test current is typical. Variation
in the current source will create some variation in the voltage drop across a diode junction.
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