Table 8-2. frequency measurement method comparison, Position measurement, Measurements using quadrature encoders – National Instruments Data Acquisition Device NI USB-621x User Manual

Chapter 8

Counters

© National Instruments Corporation

8-15

NI USB-621x User Manual

Table 8-2 summarizes some of the differences in methods of measuring
frequency.

For information about connecting counter signals, refer to the

Default

Counter/Timer Pinouts

section.

Position Measurement

You can use the counters to perform position measurements with
quadrature encoders or two-pulse encoders. You can measure angular
position with X1, X2, and X4 angular encoders. Linear position can be
measured with two-pulse encoders. You can choose either a single point
(on-demand) position measurement or a buffered (sample clock) position
measurement. You must arm a counter to begin position measurements.

Measurements Using Quadrature Encoders

The counters can perform measurements of quadrature encoders
that use X1, X2, or X4 encoding. A quadrature encoder can have up
to three channels—channels A, B, and Z.

•

X1 Encoding—When channel A leads channel B in a quadrature
cycle, the counter increments. When channel B leads channel A in a
quadrature cycle, the counter decrements. The amount of increments
and decrements per cycle depends on the type of encoding—X1, X2,
or X4.

Figure 8-14 shows a quadrature cycle and the resulting increments and
decrements for X1 encoding. When channel A leads channel B, the
increment occurs on the rising edge of channel A. When channel B
leads channel A, the decrement occurs on the falling edge of
channel A.

Table 8-2. Frequency Measurement Method Comparison

Method

Number of

Counters

Used

Number of

Measurements

Returned

Measures High

Frequency

Signals

Accurately

Measures Low

Frequency

Signals

Accurately

1

1

1

Poor

Good

1b

1

Many

Fair

Good

2

1 or 2

1

Good

Poor

3

2

1

Good

Good