IoT Hardware Configuration
SCS Controller
- Standard operation for the SCS Controller
- Update settings manually on your SCS Controller
- How standard SCS Controller modes work
- About SCS Controller firmware
- Update firmware using Field app
- Frequency-based speed controls for Variable Speed Compressors
- Disable a cooler with Field App
- Timed disabling for untracked equipment
SCS Controller - Parameters
- Edit parameter files using Field app
- Normal Mode parameters for the SCS Controller
- Transition Mode parameters for the SCS Controller
- Standby Mode parameters for the SCS Controller
- Defrost Mode parameters for the SCS Controller
- Supply parameters for the SCS Controller
- Display parameters for the SCS Controller
- Compressor parameters in the SCS Controller
- Door switch parameters in the SCS Controller
- Hardware Inputs for the SCS Controller
- Hardware Outputs for the SCS Controller
- Time-of-day standby parameters for the SCS Controller
SCS Controller - Faults and Alarms
- Alarm logic for coolers with installed SCS Controllers
- Adding external alarms to an SCS Controller
- Fault logic for cooler doors
- dor - How the 'Door Open' alarm works
- How the 'Excessive Door Open' alarm works
- How the 'Over voltage' alarm works
- How the 'Under voltage' alarm works
- AL14 - How the 'Condenser over temp' alarm works
- AL15 - How the 'Excessive Condenser Overtemp' alarm works
- AL17 - How the 'NTC Failure' alarm works
- AL19 - How the 'Terminal Alarm' works
- AL19 - Clear the Terminal Alarm for the SCS Controller
- AL20 - How the 'Return Air Under Temperature' alarm works
- AL21 - How the 'Max Compressor Starts' alarm works
Monitor
- Edit parameters for the Monitor
- Standard operating modes for the Monitor
- Messages displayed on the Monitor's LED indicator
- Explaining the Monitor Energy Saving Mode
Gateway
- Standard operation for the Gateway
- Connecting the Gateway to AoFrio software
- How Gateway can continue working without mains power
- Messages displayed on the Gateway's LED indicators