Specifications
Table 1: Signal acquisition system characteristics (cont.)
This is the accuracy of the nominal voltage level represented by the c ode at the vendor of the A-D
converter's dynamic range.
Volts/Div Setting
Position Accuracy
2 mV/div to 200 mV/div ±(1% of |selected value| + 0.1 div + 5 mV ) within the
range ±1.8 V
√ Vertical Position
Accuracy
> 200 mV/div to 5 V/div ±(1% of |selected value| + 0.1 div + 125 mV) within the
range ±45 V
With the same signal applied to each channel, C MRR is the ratio of the acquired signal amplitude to the
amplitude of the MATH difference waveform, either (Channel 1 - Channel 2), (Channel 2 - Channel 1),
(Channel 3 - Channel 4) or (Channel 4 - Channel 3)
Model
Common Mode Rejection Ratio
TDS1012C-EDU
TDS2012C
TDS2014C
TDS2022C
TDS2024C
100:1 at 60 H z, reducing to 10:1 with 50 M Hz sine wave, w ith equal
Volts/Div and Coupling settings on each channel.
Common Mode
Rejection Ratio (CMRR),
typical
TDS1001C-EDU
TDS1002C-EDU
TDS2001C
TDS2002C
TDS2004C
100:1 at 60 Hz, reducing to 20:1 with a sine wave with frequency equal to
½ the -3 dB bandwidth and with equal Volts//Div and Coupling settings
on each channel.
Section 4.11 .1 of IEEE std. 1057. It is the ratio of the level of a signal input into one channel to that of
the same signal present in another channel due to stray coupling.
Model
Crosstalk
TDS2022C
TDS2024C
≥ 100:1 with a 100 MHz sine wave and with equal V/div settings on each
channel
TDS1012C-EDU
TDS2012C
TDS2014C
≥ 100:1 with a 50 MHz sine wave and with equal V/div settings on each
channel
TDS1002C-EDU
TDS2002C
TDS2004C
≥ 100:1 with a 30 MHz sine wave and with equal V/div settings on each
channel
Crosstalk (Channel
Isolation)
TDS1001C-EDU
TDS2001C
≥ 100:1 with a 20 MHz sine wave and with equal V/div settings on each
channel
6 TDS2000C and TDS1000C-EDU Series Oscilloscope Service Manual
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