If it is necessary to design your own circuit to use the remote on-off feature, you
can refer to these output circuit diagrams as examples.
There are three types of interfaces for output circuits. Be careful not to use an
incorrect circuit.
It is the responsibility of the system integrator to make sure that circuit designs
obey all applicable national and local codes.
Logic interface, active high
| A |
XPR® |
| B |
Computer Numerical Control (CNC) |
| 1 |
5 VDC – 24 VDC |
| 2 |
10 kΩ (optional) |
| 3 |
High-impedance (≤ 10 mA) |
| 4 |
Shielded
cable connected to chassis or earth ground |
Logic interface, active low
| A |
XPR |
| B |
CNC |
| 1 |
5 VDC – 24 VDC |
| 2 |
10 kΩ (optional) |
| 3 |
High-impedance (≤ 10 mA) |
| 4 |
Shielded cable connected to chassis or earth ground |
Relay interface
| A |
XPR |
| B |
CNC |
| 1 |
CNC +24V |
| 2 |
+24 V |
| 3 |
Install a jumper (108056) |
| 4 |
°t = temperature (200 mA resettable fuse) |
| 5 |
- External relay
- 24 VDC low-power coil
- ≤ 10 mA or ≥ 2400 Ω
- For all relay coils it is necessary to have a freewheeling diode across the
relay coil.
|
| 6 |
Power ground |
| 7 |
Shielded cable connected to chassis or earth ground |
This circuit voids the warranty. Do not use.
| A |
XPR |
| B |
CNC |
| 1 |
Any voltage |
| 2 |
Power ground |
