Daikin RXS35G2V1B9 User Manual

Details functions for Cooling Only and Heat Pump, categorized by features.

Lists available functions for Cooling Only models, including basic, compressor, and comfort features.

Lists available functions for Heat Pump models, covering basic, compressor, and comfort features.

Detailed technical specifications for indoor and outdoor units.

Technical specs for Cooling Only models, including capacity, airflow, and electrical data.

Technical specs for Heat Pump models, covering capacity, airflow, and electrical data.

Illustrates connector layouts and wiring for indoor and outdoor unit PCBs.

Identifies connectors for indoor unit PCBs: Control, Signal Receiver, Display, and Sensor.

Identifies connectors for outdoor unit PCBs: Filter, Main, and Forced Operation.

Covers core functions like frequency, airflow, fan speed, auto operation, and modes.

Explains inverter control of compressor speed based on operating conditions.

Details manual and automatic airflow direction control methods.

Describes the 9 fan speed steps and automatic fan speed adjustment.

Manages humidity removal while maintaining comfortable room temperature.

Unit automatically selects cooling or heating based on room temperature.

Explains thermostat operation based on temperature differences.

Adjusts temperature for sleep comfort and energy saving.

Limits power consumption to prevent breaker trips and save energy.

Detects human presence in zones to adjust airflow and save energy.

Uses motion sensor to reduce capacity when room is empty.

Maximizes cooling/heating by increasing fan speed and compressor frequency.

Covers hot-start, signal receiving, ON/OFF button, filter, auto-restart, and timers.

Explains the role of thermistors in controlling discharge pipe temperature and protection.

Covers mode hierarchy, frequency control, and specific operational controls.

Defines normal and forced operating modes for different unit types.

Details frequency determination based on temperature difference and control parameters.

Covers preheating, four-way valve switching, and compressor protection.

Manages frequency based on discharge pipe temperature to prevent overheating.

Sets frequency upper limits based on input current to prevent overload.

Prevents indoor heat exchanger freezing by limiting frequency during cooling.

Prevents high pressure by controlling frequency limit during heating.

Manages outdoor fan for electrical box cooling and pressure upkeep.

Stops compressor based on outdoor temperature and heat exchanger temperature.

Details the defrosting process using the cooling cycle to remove frost.

Covers valve control based on frequency, temperature, and thermistor conditions.

Covers sensor, overcurrent, refrigerant shortage, and voltage abnormalities.

Describes forced cooling mode, including start conditions and frequency.

Enables energy saving by turning off outdoor unit power supply.

Guidance on initial operation and user handover for the air conditioner.

Covers remote control operation and modes for FTXS models.

Identifies remote control buttons and display elements for FTXS units.

Explains how to select and adjust operation modes and temperature settings.

Instructions for adjusting horizontal, vertical, and 3-D airflow.

Combines airflow comfort with person detection for energy saving.

Maximizes cooling/heating by increasing fan speed and compressor capacity.

Lowers outdoor unit noise by adjusting frequency and fan speed.

Limits maximum power consumption for efficient operation.

Details OFF TIMER, ON TIMER, and combined timer settings.

Allows saving up to 4 timer settings per day for custom schedules.

Covers remote control operation and modes for ATXS models.

Identifies remote control buttons and display elements for ATXS units.

Explains mode selection, temperature, and airflow rate adjustments for ATXS units.

Instructions for adjusting airflow direction, including 3-D airflow.

Adjusts airflow direction for comfort, preventing direct air contact with people.

Uses infrared sensor to detect human movement for energy saving.

Maximizes cooling/heating by increasing fan speed and compressor capacity.

Lowers outdoor unit noise by adjusting frequency and fan speed.

Limits maximum power consumption for efficient operation.

Details setting OFF TIMER, ON TIMER, and combined timer settings.

Important warnings and procedures for troubleshooting using LED indicators.

Lists common unit issues and corresponding troubleshooting steps.

Methods for checking system status and error codes via remote control.

Instructions for entering and interpreting diagnostic codes using the ARC452 remote.

Instructions for entering and interpreting diagnostic codes using the ARC433 remote.

Detailed error codes, descriptions, and troubleshooting procedures for faults.

Table of error codes, their descriptions, and corresponding reference pages for troubleshooting.

Diagnoses and resolves issues related to indoor unit PCB abnormalities.

Addresses freeze-up protection (cooling) and peak-cut (heating) controls.

Diagnoses and resolves abnormalities related to the DC fan motor.

Diagnoses and resolves issues with indoor unit thermistors.

Resolves communication errors between indoor and outdoor units.

Addresses issues with incorrect voltage between indoor and outdoor units.

Diagnoses and resolves abnormalities related to the outdoor unit PCB.

Addresses issues with compressor overload (OL activation).

Diagnoses and resolves compressor lock issues.

Diagnoses and resolves issues with the DC fan lock.

Addresses issues related to input overcurrent detection.

Diagnoses and resolves abnormalities with the four-way valve.

Addresses issues related to discharge pipe temperature control.

Resolves high pressure issues during cooling operation.

Diagnoses abnormalities in compressor system sensors.

Addresses issues with position sensor abnormalities.

Troubleshoots DC voltage/current sensor issues in specific unit classes.

Troubleshoots CT or related abnormalities in 50 class units.

Diagnoses and resolves abnormalities related to outdoor unit thermistors.

Addresses issues related to electrical box temperature rise.

Troubleshoots problems related to radiation fin temperature rise.

Diagnoses and resolves issues with output overcurrent detection.

Identifies and addresses refrigerant shortage issues.

Diagnoses and resolves low-voltage or over-voltage detection issues.

Troubleshoots communication errors on the outdoor unit PCB for 50 class units.

Detailed procedures for checking various components like fan motors and PCBs.

Guides for checking fan motor, EV, four way valve, thermistors, and PCB.

Checks voltage outputs for fan motor power supply, control, and rotation command.

Procedures to check EV connector, latching sound, continuity, and PCB.

Checks four-way valve coil continuity and switching output.

Measures thermistor resistance against temperature charts for normal values.

Checks airflow, installation space, and cleanliness affecting unit performance.

Checks discharge pressure, stop valve status, and pipe condition.

Checks fan motor operation, connector, and rotation pulse input.

Checks power supply waveform for sine wave and zero cross disturbances.

Checks for refrigerant leakage and discharge pipe thermistor disconnection.

Checks main circuit for short circuit and measures capacitor voltage.

Measures resistance between diode bridge and compressor terminals.

Checks voltage outputs and rotation pulses for outdoor fan motor on PCB.

Measures resistance between DB1 pins to detect short circuits on the main circuit.

Procedures for removing indoor unit components like air filter, front panel, and electrical box.

Step-by-step guide to remove the air filter and its associated photocatalytic filter.

Instructions for removing the front panel of the indoor unit.

Steps to remove the front grille, including unscrewing and unfastening hooks.

Procedure for removing horizontal (flaps) and vertical (louvers) blades.

Steps to disconnect wires and remove the electrical box containing PCBs.

Instructions for removing shield plates, terminal boards, and various PCBs.

Procedure for disconnecting refrigerant piping and removing the heat exchanger.

Steps to remove swing motors for vertical and horizontal blades.

Procedure for removing the fan motor, including fixing plate and rotor.

Procedures for removing outer panels, fan motor, electrical box, PCB, and compressor.

Steps to remove outer panels, top panel, discharge grille, front panel, and fan motor.

Instructions for disconnecting connectors and removing the electrical box.

Procedure for releasing and removing discharge pipe and heat exchanger thermistors.

Steps to remove shield plates, terminal boards, and various PCBs.

Procedure for removing the reactor and partition plate.

Steps to remove sound blankets from the outer, top, and inner parts of the unit.

Procedure for removing the four-way valve coil and its associated components.

Steps to disconnect lead wires, remove protection bushing, and detach the compressor.

Procedures for removing outer panels, fan motor, electrical box, PCB, and sound blanket.

Steps to remove outer panels, top panel, discharge grille, front panel, and fan motor.

Instructions for disconnecting connectors and removing the electrical box.

Steps to remove shield plates, terminal boards, and various PCBs.

Procedure for removing the reactor and partition plate.

Steps to remove sound blankets from the outer, top, and inner parts of the unit.

Procedure for removing the four-way valve coil and its associated components.

Steps to disconnect lead wires, remove protection bushing, and detach the compressor.

Procedures for removing outer panels, electrical box, PCB, sound blanket, fan motor, and thermistors.

Steps to remove top panel, discharge grille, and front panel.

Instructions for disconnecting wires and removing the electrical box.

Steps to remove shield plates, terminal boards, and the main PCB.

Steps to remove sound blankets from the outer, top, and inner parts of the unit.

Steps to remove the four way valve coil and electronic expansion valve.

Steps to disconnect lead wires, remove protection bushing, and detach the compressor.

Procedures for removing outer panels, electrical box, PCB, sound blanket, fan motor, and thermistors.

Steps to remove top panel, discharge grille, and front panel.

Procedure for removing the outdoor fan and fan motor assembly.

Instructions for disconnecting wires and removing the electrical box.

Steps to remove shield plates, terminal boards, and the main PCB.

Steps to remove sound blankets and thermistors.

Procedure for removing the four-way valve coil and its associated components.

Steps to remove the electronic expansion valve and its coil.

Steps to disconnect lead wires, remove protection bushing, and detach the compressor.

Steps to perform trial operation for cooling or heating modes.

Covers model type setting, multi-unit installation, and standby electricity saving.

Instructions for setting the heat pump or cooling-only model using DIP switches.

Procedure for setting different addresses for multiple indoor units in one room.

Procedure to enable energy saving mode by turning off outdoor unit power.

Expands operation range to -15°C using jumpers/switches, for facility use only.

Details jumper and switch functions for fan speed, auto-restart, and defrost performance.

Essential steps for applying silicon grease to power transistors and diode bridges for heat dissipation.

Diagrams illustrating refrigerant flow for indoor and outdoor units.

Shows piping connections for indoor units FTXS and ATXS models.

Illustrates piping for RKS/ARXS models in Cooling Only and Heat Pump modes.

Provides wiring diagrams for indoor and outdoor units.

Wiring schematic for indoor units, showing PCB connections and components.

Wiring schematics for outdoor units RK(X)S20-35G2V1B and RK(X)S42G2V1B.