Measurement Computing DaqBoard 3000USB Series User Manual

5-10 Counter Input Modes

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DaqBoard/3000USB Series User’s Manual

Upper 16-bits of the 32-bit counter

Lower 16-bits of the 32-bit counter

Range (Hz)

Ticksize (nS)

Averaging

Option

Range (Hz)

Ticksize (nS)

Averaging

Option

15u – 1500u

20833.333

1

1 – 100

20833.333

1

150u – 15m

2083.333

1

10 – 1k

2083.333

1

1500u – 150m

208.333

1

100 – 10k

208.333

1

15m – 1500m

20.833

1

1k – 100k

20.833

1

150m – 15

20.833

10

10k – 1M

20.833

10

1500m – 150

20.833

100

100k – 5M

20.833

100

15 – 1500

20.833

1000

1M – 5M

20.833

1000

Frequency Ranges for a 16-bit value, sampling error is less than 0.21%

Each frequency range given in the previous table-set can be exceded. If the input waveform goes under-
range by too much, the counter value will top out at 65535 indicating you have reached the lowest possible
frequency that can be measured on that range. If the input waveform goes over range by too much, the
counter will return values that are very course and have a lot of sampling error. The values returned will
have a small number of counts for the period duration. If an input waveform cannot fit within one of the
16-bit ranges shown above or requires much higher accuracy, then a 32-bit range should be considered.

Full 32-bit Counter
Range (Hz)

Ticksize (nS)

Averaging Option

15u – 100

20833.333

1

150u – 1k

2083.333

1

1.5m – 10k

208.333

1

15m – 100k

20.833

1

150m – 1M

20.833

10

1.5 – 5M

20.833

100

15 – 5M

20.833

1000

Frequency Ranges for a 32-bit Value,

Sampling Error is Less than 0.21%

The 32-bit ranges shown above are much wider than the 16-bit ranges, but also require the full 32-bit value
to be returned. Since digital or counter channels do not take up any time in the scan period there is no
disadvantage in reading a 32-bit counter versus a 16-bit counter. The 32-bit frequency ranges can also be
exceeded with a loss of accuracy or topping out at 4,294,967,295 counts.

Some measurements will require the accuracy of an input waveform to be free of sampling error, having only
the absolute accuracy of the internal timebase as the source of error. Sampling error can be averaged out to
give the required result. In most cases, the 3000USB Series board can perform the required averaging on
the values before they are returned to the PC. The frequency ranges shown below will give a sampling error
that is less than 10ppm or 1ppm.

Full 32-bit Counter <10 ppm

Full 32-bit Counter <1 ppm

Range (Hz)

Ticksize (nS)

Averaging

Option

Range (Hz)

Ticksize (nS)

Averaging

Option

15u – 500m

20833.333

1

15u – 50m

20833.333

1

150u – 5

2083.333

1

150u – 500m

2083.333

1

1.5m – 50

208.333

1

1.5m – 5

208.333

1

15m – 500

20.833

1

15m – 50

20.833

1

150m – 5k

20.833

10

150m – 500

20.833

10

1.5 – 50k

20.833

100

1.5 – 5k

20.833

100

15 – 500k

20.833

1000

15 – 50k

20.833

1000

High Accuracy Frequency Ranges for a 32-bit Value

that has little sampling error (<10ppm, <1ppm)

If the input frequency is required to have less than 1 ppm sampling error and is greater than 50kHz, use the
15– 50kHz, 1ppm range. The values returned will have sampling error that is greater than 1ppm but they
can be averaged by the PC software to further reduce the sampling error.