Accuracy
- Updated2025-04-11
- 2 minute(s) read
Resolution | 10 bits |
DC accuracy1 Within ±3 °C of self-calibration temperature. This specification is typical for peak-to-peak input ranges of 0.05 V to 0.1 V and warranted for all other input ranges.[1] | ±[(2% × |Reading - Vertical Offset|) + (1.4% × |Vertical Offset|) + (0.6% of FS) + 600 µV] |
DC drift2 Used to calculate errors when onboard temperature changes more than ±3 °C from the self-calibration temperature.[2] | ±[(0.1% × |Reading - Vertical Offset|) + (0.025% × |Vertical Offset|) + (0.03% of FS)] per °C, nominal |
AC amplitude accuracy[1] | ±0.5 dB at 50 kHz |
AC amplitude drift[2] | ±0.01 dB per °C at 50 kHz, nominal |
| Input Impedance | Input Frequency | Crosstalk |
|---|---|---|
| 50 Ω 3 Measured on one channel with test signal applied to another channel with the same range setting on both channels. | DC ≤ f ≤ 100 MHz | -60 dB |
| 100 MHz < f ≤ 700 MHz | -45 dB | |
| 700 MHz < f ≤ 1000 MHz | -40 dB | |
| 1 MΩ[4]4 Only valid on peak-to-peak input ranges of 0.05 V to 10 V. | DC ≤ f ≤ 100 MHz | -55 dB |
| 100 MHz < f ≤ 200 MHz | -45 dB |
1 Within ±3 °C of self-calibration temperature. This specification is typical for peak-to-peak input ranges of 0.05 V to 0.1 V and warranted for all other input ranges.
2 Used to calculate errors when onboard temperature changes more than ±3 °C from the self-calibration temperature.
3 Measured on one channel with test signal applied to another channel with the same range setting on both channels.
4 Only valid on peak-to-peak input ranges of 0.05 V to 10 V.