Weidmuller WI-I/O 9-K: Wireless I/O Transmitter v1.9 User Manual

User Manual v1.9

Manual

WI-I/O 9-K

v1.9

Page 43

4.7.1 Manually Setting Counter Values
The values in the counters can be manually set to any value - refer to section 5.3.2 of this

manual.

4.7.2 Shaft Encoder Inputs
If the pulse inputs are connected to a shaft encoder (incremental or quadrature types), then the

Shaft Encoder Inputs option should be selected. The WI-I/O K will then look at both pulse input

signals and calculate a “position” value for the shaft encoder.

If an incremental encoder is used, then the correct counter value will be stored in the PI1

counter. If a quadrature encoder is used, the value will be stored in the PI2 counter. Note that

you don’t need to select which type of encoder is used. The WI-I/O K will calculate both values.

Only the base counters should be used; do not use the Hi or overflow counters.

If the pulse rate from the encoder is greater than 10Hz, then Fast Pulse Inputs should be selected

as for normal pulse inputs. The scaling divider for PI2 must be set to 1.

To physically set up the shaft encoder, set the shaft encoder to the middle of the range, then

manually set the counter value to the value required (refer section 5.3.2). As the encoder moves

up and down, the counter value will increase or decrease.

4.7.3 Pulse Rates
The WI-I/O K calculates the

rate of the pulse inputs and

makes these values available

to be mapped as internal

analog inputs. For PI2, the

pulse rate is calculated on the

scaled counter - that is, after

the input is divided. The

maximum rate that can be

calculated for both inputs is

1000Hz.

The maximum value of the

pulse rate is user-configurable.

That is, you select the

maximum rate that corresponds

to 100% of the analog value.

For example, if the normal

pulse rate is 35Hz, you may

decide that the maximum

signal should be 50Hz. The

WI-I/O K will then transmit