Lock Controller
Secure controller for lockers, pin pads, gates, lift and lighting.
Applications
- Locker Banks
- Gates
- Lifts
- Lighting Control
Content
Content
Features
- Expandable platform for infinite channels
- Control and monitor various systems
- Gates, locks, doors and PIRs
- Lift floors and lighting control
- Vend trailers and trolleys
- Wifi, ethernet and RS485 comms
Technical Specifications
Network Interface
- 802.11n WiFi
- Fast Ethernet
- Bluetooth Low Energy 5.0
- 1 x 2P 24~14 AWG
- 1 x 2.5mm x 5.5mm Barrel Jack Connector
- 3 x RJ45
- USB Type-C (USB 2.0)
- 16 x Molex KK254 Connectors
- 4 x 10P 3.81mm Screw Terminals
- ∓2% Temperature & Humidity Sensor
- 16 x Reed Switch Inputs
Operating Voltage
Operating Current
- 100mA Max, 65mA Typical @ 12V, All outputs off
- Add 50mA / Relay for each Active Channel, plus any additional Loads
- 16 x 1.5A Relay Drives (pulsed 200ms)
- 16 x up to 30VDC 3A Relay
- Width:155.5mm
- Length: 208mm
- Depth: 45mm
Wiring Diagram
Advanced Installation Specifications
Lock Controller (LC020) Wiring
Lock Controllers are designed to operate in a range of configurations, from inside lockers to use on trailer and trolley hire, as well as for high-security gate installations. The following section describes the wiring of Lock controllers in a range of common configurations.
Lock Controller – Gate / Door Sense Inputs
All Inputs should be Normally Open type switches: Wire the N/O terminal of the switch into its specific channel number on the Lock Controller, then wire the common terminal of the switch into the “COM” terminal for that input bank.
Common (COM) terminals are shared between 4 inputs (ie. 1->4, 5->8, 9->12, 13->16).
Lock Controller – Gate / Door Motor Control
Gates and roller motors use the dry-contact configuration of Lock Controller outputs to trigger the motor to open or close.
- Check which bank of the Lock Controller will be configured for Dry-Contact operation. It’s preferable to assign all dry-contact outputs to the same bank on a lock controller.
- Remove the 12V / DryContact Jumper for the bank.
- Wire the common terminal of the motor into the terminal labelled “12V” for that bank. With the jumper removed, this 12V terminal acts as a Relay Common
- Wire the other relay input into the associate output channel number on the Lock Controller.
- When the lock controller is told to fire it will short the “12V” and output channel terminals together. Where multiple motors are to be controlled from the lock controller, share the motor common terminals by wiring all into the “12V” terminal of the Lock Controller.
Lock Controller – 12V Outputs
Lock controllers can be configured to provide 12V power through to electric strikes and cabinet locks.
- Check which bank of the Lock Controller will be configured to provide 12V power to its outputs. Its preferred to connect powered outputs (up to 4 separate channels and <=3A Load) to the same bank
- Ensure that the 12V Jumper is placed in position to pass 12V power through to the “12V” terminal labelled on the Lock Controller
- Wire the common / Gnd terminals for each load on that bank into the “COM” terminal of the Lock Controller.
- Wire the +12V supply for each output into the associated numbered output channel.
No connections should be made to the “12V” terminal of the Lock Controller. The jumpers inserted in step 2 pass power through from the Lock Controller DC supply to the common terminal of the relay outputs.