Toshiba MMU-AP0121MH Applied Control, Procedure Execute the setup operation while the unit stops

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6. APPLIED CONTROL

6-1. Setup of Selecting Function in Indoor Unit

(Be sure to Execute Setup by a Wired Remote Controller)

<Procedure> Execute the setup operation while the unit stops.

3

5

6

1

TEMP.

 

ON / OFF

TIMER SET

FAN

MODE

TIME

SWING/FIX

VENT

FILTER

 

 

RESET TEST SET CL

UNIT

 

4

2

1

2

3

4

Push SET , CL , and TEST buttons simultaneously for 4 seconds or more.

The firstly displayed unit No. indicates the header indoor unit address in the group control.

In this time, the fan of the selected indoor unit is turned on.

Every pushing

UNIT

button, the indoor unit numbers in the group control are successively

 

displayed. In this time, the fan of the selected indoor unit only is turned on.

Specify the item code (DN) using the setup temperature and buttons.

Select the setup data using the timer time and buttons.

(When selecting the DN code to “33”, change the temperature indication of the unit from “°C” to “°F” on the remote controller.)

5 Push SET button. (OK if display goes on.)

To change the selected indoor unit, return to procedure 2 .

To change the item to be set up, return to procedure 3 .

6 Pushing TEST button returns the status to normal stop status.

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Contents Compact 4-Way Air Discharge Cassette Type Contents Safety Caution Metal section Earth position Check the following items after reinstallationCatch the inner cables Fire is caused at user’s sideFlare nut Safety Caution Concerned to New RefrigerantPipe Materials PipingGeneral tools Conventional tools can be used R410A Conventional air Air conditioner installationConditioner installation ToolsCylinder with siphon Recharge of RefrigerantEnvironment 4mm-hexagonal wrench is requiredDrain-up standing-up size Space required for Installation and servicingWired remote Construction Views External ViewsControl P.C. board Wiring DiagramFor Indoor unit MCC-1402Model Parts RatingParts Rating Name of Each PartDisplay section Parts Name of Remote ControllerWind direction and Swing Remote controller sensorOperation section ButtonStop Turn on the main power switch and/or the leakage breakerCorrect Usage PreparationAutomatic Operation Super Heat Recovery Type Only When restarting the operation after stopStart To select SET Time Timer OperationTimer operation Cancel of timer operationHow to stop swinging Adjustment of Wind DirectionHow to set up the air direction How to start swingingInformation Air Conditioner Operations and Performance Standby When the Following Symptoms are FoundConnect all of the installation wiring correctly Precautions for SafetyNew Refrigerant Air Conditioner Installation To Disconnect the Appliance from Main Power SupplyInstallable ceiling height list Selection of Installation PlaceInstallation space Installation spaceInstallation of Indoor Unit Case of wireless typeDimensional view Installation of remote controller Sold separately Ceiling opening and installation of hanging boltsInstallation of ceiling panel Sold separately Installation of hanging boltDrain Piping Work Permissible pipe length and permissible height difference Piping material and dimensionsRefrigerant Piping Thermal insulating processOpen fully valves of the outdoor unit Gas leak check Electric WorkConnection of refrigerant pipe Airtight test/Air purge, etcRemote controller wiring *4 Power supply specificationsIndoor unit power supply *1 Indoor/Outdoor inter-unit wiring, Central controller wiringApplicable Controls Increased heating effect Case of installation to high ceilingCase of remote controller-less Group control Change of lighting time of filter signTest RUN How to execute test operationCase of wireless remote controller Case of wired remote controllerConfirmation and check Check method TroubleshootingConfirmation of error history Check code listError detected by TCC-LINK central control device TroubleshootingWay Air Discharge Cassette Type MaintenanceDaily maintenance New check codeFunctional part name Functional outline Refrigerating Cycle DiagramControl Outline Control SpecificationsOutline of specifications Remarks Remote controller Control outline CommandValue Reset conditionsTCB-AX21E Central control mode 1 Cannot operate Central control modeCentral control mode 4 Cannot select mode Applied Control Procedure Execute the setup operation while the unit stopsHEAT, Heat → Cool Description At shipmentApplied Control in Indoor Unit Indoor unit capacityRemote location ON/OFF control box TCB-IFCB-4E Operation Ventilating fan control from remote controllerWiring FunctionLeaving-ON prevention control Power peak-cut from indoor unitUsing the setup temp Button, set to the setup dataTroubleshooting procedure TroubleshootingTroubleshooting Summary Before troubleshootingJudging device Check code listCheck Method Auxiliary codeSensor block display MG-SWCheck code Outdoor 7-segment display Auxiliary code Error detected by TCC-LINK central control deviceCheck code Procedure Description Troubleshooting by Check Display on Remote ControllerCase of wired remote controller RBC-AMT31E Confirmation of error historyCase of central remote controller TCB-SC642TLE Remote Check codeOutdoor 7-segment display Check code Auxiliary codeConvenient functions Setup method of No. capacity-over DetectionCheck code Main Outdoor 7-segment display RemoteDetected Main Outdoor 7-segment displayCheck code Auxiliary code RemoteCheck item position Remote Check codeStatus Error detection condition Check item position Detected MainPosition Remote Check clogging of oil equation pipe between compressors Check code Main Outdoor 7-segment displayH07 Check all the outdoor units in the corresponding lineH16 Check code Main Outdoor 7-segment display RemoteL30 Detected indoor address L31 P01 P03 P04 TS error judgment standard temperature NameHeating Remote Check code Auxiliary code Outdoor 7-segment display Check code name Error detection condition Check item positionCentral control Outdoor 7-segment display Detected positionDevice Check code Display onMeasured position Criteria How to check inverter outputHow to check resistance of compressor winding How to check the outdoor fan motorE02 Diagnosis Procedure for Each Check CodeE03 E04E07 E06 Decreased number of indoor unitsE09 Duplicated master E08E12 E15Reference E16E18 E19E25 ∗ 1 How to clear the errorE20 E23F03 E31F01 F02F08 To sensor error F04 TD1 sensor errorF05 TD2 sensor error F06 TE1 sensor errorF23 F29 Indoor other errorF15 Outdoor temp sensor miscabling TE1, TLH03 F31H02 H01H06 Low-pressure protective operation Leakage check for SV3C valve Clogging for SV3E valveClogging check for SV3D valve H08 Clogging check for oil-equalization circuitTK3 temperature detective circuit error Oil level detective circuit system errorL03 H16 TK4 temperature detective circuit errorL04 L05L08 L07 Group line in individual indoor unitL10 L17L28 L18L29 L20L31 P01 Indoor fan motor errorL30 Interlock in indoor unit P03Auxiliary code Compressor 1 side P05 Open phase, negative phaseP04 Actuation High-pressure SWP12 P07 Heat sink overheat errorP10 Indoor overflow error Indoor fan motor errorTS condition Auxiliary code P13 Outdoor liquid back detection error 1. PMV1/PMV2 errorP15 Gas leak detectionTD condition Auxiliary code Discharge temp TD2 errorP15 Gas leak detection P17P19 Way valve operation error P20 High-pressure protective operationJudgment criteria Auxiliary code 0 ∗ P22 Outdoor fan Ipdu errorP31 P26 Tr short-circuit protection errorDetective circuit error P29Segment display on the outdoor unit Interface P.C. board Check procedure in case of stop with troubleHow to read the check monitor Segment display Segment Display FunctionSW01 SW02 SW03 Display contents There is auxiliary code Check code ∗ ∗ ∗ for 3 seconds SW03 SW02 Indoor address Segment display a Data display of outdoor cycle Displayed on each outdoor unitSegment display A, B Sensor CharacteristicsTemperature sensor characteristics W01 SW02 SW03 Display contents Segment displayIndoor Unit Configuration of Control CircuitWired remote controller Up to 2 units Weekly timerConnection of wireless remote controller KitCompact 4-way Air Discharge Cassette Type Compact4-way Air Discharge Connection of both remote WirelessCassette Type Controller RemoteCassette Air DischargeType MCC-1402 Compact 4-wayFunction Connector Pin Specifications Remarks Optional Connector Specifications of Indoor P.C. BoardAttachment Part name Procedure RemarksDetachments Preparing work100 101 No. Part name Procedure Remarks102 Bell mouth 1. Detachment No. Part name Procedure103 Fan guard 1. DetachmentFan motor 1. Detachment 104Drain pump 1. Detachment 105Details of a part Details of sensor lead wire drawing106 Arrow view BExchanger Recover refrigerant gas 107Heat 108 10. P.C. Board Exchange ProceduresExchange of P.C. Board for Indoor Service Exchange procedureRemote controller operation diagram Procedure 1 Readout setup contents from Eeprom110 Procedure 2 Exchange of P.C. board for serviceEeprom layout Procedure 3 Writing-in of setup contents to EepromMake a note of the setup contents. Item code list Example Description Exploded Views and Parts ListCeiling Panel 113114 Compact 4-way Air Discharge Cassette TypeMMU-AP0071MH, AP0091MH, AP0121MH, AP0151MH, AP0181MH 211115 Description Remarks Model Name0071MH 0091MH 0121MH 0151MH 0181MH Description Model Name 116Toshiba Carrier Corporation

MMU-AP0181MH, MMU-AP0071MH, MMU-AP0091MH, MMU-AP0151MH, MMU-AP0121MH specifications

The Toshiba MMU-AP series, consisting of models MMU-AP0121MH, MMU-AP0151MH, MMU-AP0091MH, MMU-AP0071MH, and MMU-AP0181MH, represents a significant advancement in the realm of power management and energy efficiency for a variety of applications. These modules are designed to optimize performance while ensuring minimal energy consumption, making them suitable for both commercial and industrial uses.

One of the standout features of the MMU-AP series is its intelligent power management technology. This feature allows for adaptive energy distribution based on real-time demands. By leveraging precise control algorithms, the modules can adjust their output to match the specific requirements of connected devices, ultimately leading to reduced power loss and increased efficiency. This adaptability not only benefits end-users by lowering operational costs but also contributes to a greener environment by minimizing waste.

The versatility of the MMU-AP series is evident in its wide range of operational capabilities. These power modules are designed to work effectively in various voltage levels and load conditions. With input voltage ranges suitable for standard industrial environments, they can easily be integrated into existing systems, enhancing overall functionality without requiring extensive modifications.

Moreover, the compact design of the MMU-AP modules is another notable characteristic. Their size and light weight facilitate easier installation and integration into tight spaces, making them ideal for applications where real estate is a premium. This compact profile does not compromise performance, as these modules are engineered to deliver robust power output while maintaining thermal efficiency.

In terms of reliability, the MMU-AP series is built with high-grade components that withstand harsh operating conditions. With features such as over-voltage protection, short-circuit protection, and thermal shutdown capabilities, users can trust that their equipment would operate safely and efficiently, thereby extending the lifespan of both the power modules and the devices they serve.

Finally, Toshiba’s commitment to innovation ensures that the MMU-AP series incorporates cutting-edge technology. The series supports communication protocols that enable seamless integration with smart systems, paving the way for advanced monitoring and control functions. This levels up the user experience, providing insights into performance and diagnostics that are crucial for uptime and reliability in demanding environments.

In conclusion, the Toshiba MMU-AP series offers a blend of efficiency, adaptability, and advanced technology, making it a valuable asset for various industrial and commercial applications. Its intelligent design and robust features ensure that users can optimize energy use while maintaining high performance and reliability.
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