Carel MPXone AX3000PS20031 User Manual

Provides critical warnings and precautions to avoid during controller installation.

Details the purpose and function of each terminal connection on the controller.

Offers crucial guidelines and warnings for safe and effective electrical wiring practices.

Describes the SPARK software used for configuring and commissioning the MPXone controller.

Explains how to set default parameters and load pre-defined parameter sets for the controller.

Details the 'Clone' feature in the Applica app for replicating controller configurations.

Guides the user through the initial setup wizard for essential controller configuration.

Details the steps for configuring critical parameters via the user terminal during initial setup.

Explains how to configure the controller using the CAREL Applica mobile application.

Provides detailed descriptions of the initial configuration parameters for Master/Slave setup and probe types.

Lists essential checks to perform after installation and configuration to ensure proper operation.

Details the available analogue and digital inputs and outputs, and their configuration.

Explains the types of probes and their assignment to analogue inputs on the controller.

Details how to assign specific functions to analogue inputs and probes using parameters.

Details the assignment and configuration of physical and virtual digital inputs.

Details the analogue outputs (Y1, Y2) and their configuration for modulating fans or anti-sweat heaters.

Details the available digital outputs (NO1-NO4) and their assignment to various controller functions.

Explains the double thermostat function for adaptive control based on two set points.

Manages control offset when a probe fails, ensuring continued operation with adjusted set points.

Allows scheduling of up to 8 defrost events based on day, hour, minute, and type.

Sets the number of daily defrost cycles for evaporators 1 and 2.

Covers advanced defrost parameters, including maximum interval between defrosts and drip times.

Sets the maximum allowed interval between consecutive defrost cycles to ensure system integrity.

Details parameters for managing fixed-speed evaporator fans, including control logic and thresholds.

Explains the installation and optimization of variable-speed fans for energy efficiency.

Details the PI control algorithm for managing anti-sweat heaters and fan modulation based on dew point.

Explains manual control of anti-sweat heaters based on activation percentage and period.

Selects the type of electronic expansion valve to be used with the controller.

Specifies the refrigerant type for accurate superheat calculations and system compatibility.

Sets the target superheat value for precise control of the electronic expansion valve.

Details PID parameters for controlling the electronic valve's speed, reactivity, and stability.

Optimizes evaporator capacity for stable control using a PI algorithm, eliminating on/off cycles.

Sets a threshold to prevent low superheat, activating protection to avoid system instability.

Protects against excessive evaporation pressure by adjusting valve opening and activating integral control.

Activates an alarm and closes the valve when suction temperature falls below a defined threshold.

Prevents excessively low evaporation pressure by activating integral control action for valve opening.

Details parameters for compressor protection, including start delays, run times, and defrost priority.

Lists parameters for defrost scheduling, types, durations, and fan behavior during defrost.

Lists parameters for managing evaporator fan speed, activation thresholds, and operation modes.

Lists parameters for configuring the electronic expansion valve type, superheat, and PID settings.

Lists parameters for configuring alarm thresholds, delays, and probe assignments.

Categorizes alarms into system and control types, explaining their indication and behavior.

Explains how active alarms are signalled, including buzzer, flashing, and acknowledgement procedures.

Provides a comprehensive table of all alarms, their display codes, and associated behaviors with system components.

Details parameters for configuring alarm thresholds, delays, and probe assignments.

Assigns specific probes for high/low temperature alarm monitoring and threshold referencing.

Details parameters and activation methods for HACCP alarms, specifically HA and HF types.

Explains the generation and delay mechanism for Type HA HACCP alarms related to high temperatures.

Explains the generation mechanism for Type HF HACCP alarms following power failure and temperature recovery.