Wiring a probe for rising edge configurations – Rockwell Automation 8520 9/Series CNC Integration Maintenance Manual Documentation Set User Manual

Section 4B

Connecting the 3-axis Servo Module

4B-49

Figure 4B.39 shows the internal servo module circuitry that interfaces to

the touch probe connector. It is shown here to assist you in determining

whether your touch probe hardware is compatible.

Figure 4B.39

Internal Circuitry Supporting the Touch Probe

11309-I

5
4
3
2
1

Servo Module

26LS32

470 ohm

5V common

1000 ohm

+5 V dc

6

BAT/TP

TB1

NC

+5V Power

probe

GND

Shield

The following table indicates probing threshold voltages. Maximum Input

Threshold (critical if the control has been configured to fire on the falling

edge of the probe signal) indicates the voltage that the probe signal must

fall below to be considered as “fired”. Minimum Input Threshold (critical

if the control has been configured to fire on the rising edge of the probe

signal) indicates the voltage that the probe signal must rise above to be

considered as fired

Probe Thresholds

Voltage at Threshold

Minimum Input Threshold (probe circuit)

3.06 (min)

Maximum Input Threshold (probe circuit)

2.18V dc (max)

To avoid misfires use the threshold values from the above table to

determine the necessary signal voltage for steady state operation (probe not

fired). For probes configured to fire on the falling edge the steady state

voltage must remain above 3.06 volts. For probes configured to fire on the

rising edge the steady state voltage must remain below 2.18 volts.

Wiring a Probe for Rising Edge Configurations

Typical wiring of a simple contactor type touch probe configured to fire on

the rising edge of the probe signal, requires the addition of a 1000 ohm pull

down resistor. Figure 4B.40 shows a typical wiring diagram compatible

with most probe designs configured to trigger on the rising edge of the

probe’s signal.