Toshiba RAV-SM806BT-TR, RAV-SM406BT-TR „ Indoor unit power-ON sequence, Initial communication

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„Indoor unit power-ON sequence

Power ON

The unit without power feed waits entirely Waiting status is released by system start

Reboot when power is fed on the way

<Automatic address judgment>

<By indoor unit

which receives power feed from outdoor unit>

Not normal

NO

Gr construction check

Normal

Gr normal

1)There is no duplicated indoor unit address.

2)There is no invalid indoor unit address.

3)Individual unit and header / follower units are not intermingled.

4)Only a unit for individual.

5)Header indoor unit and 1 or more follower units for Gr.

3 minutes elapse

YES

System start

<Initial communication>

Automatic address starts.

(Approx. 1 minute up to finish)

Outdoor model distinction (10 seconds) (Indoor unit)

 

<Cautions at test run>

 

 

Twin header/follower distinction (Indoor unit)

 

Power supply/Indoor/Outdoor serial and Gr wiring: OK

 

Gr construction, louver information (Remote controller)

 

 

 

Powers of all indoor units are turned on within 3 minutes.

 

 

 

 

 

 

 

 

 

 

 

 

 

 

Reception time for remote controller operation

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

(After power supply was turned on)

 

 

 

 

 

 

 

 

1) When address is OK : Approx. 50 seconds

 

 

 

 

 

 

 

 

2) In AUTO address

: Approx. 4 to 5 minutes

 

 

Remote controller operation is available.

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

(Approx. 50 seconds after power-ON)

 

 

 

 

 

<Usual regular communication>

Regular communication between indoor units (Every 30 seconds) (Header / Follower)

 

(Repetition)

Regular communication of the identical piping system (Every 30 seconds)

 

(Twin header / follower) (When the above status changes, immediately communicates.)

 

 

 

 

 

 

 

 

 

 

In a group operation, if the indoor unit which was fed power after judgment of automatic address cannot receive regular communication from the header unit and regular communication on identical pipe within 120 seconds after power was turned on, it reboots (system reset).

The operation starts from judgment of automatic address (Gr construction check) again.

(If the address of the header unit was determined in the previous time, the power fed to the header unit and reboot works, the header unit may change though the indoor unit line address is not changed.)

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Contents Split Type Contents 11-1 11-211-3 11-4Original instruction Explanation of indications Explanation of illustrated marksWork undertaken Protective gear worn Indication ExplanationConfirmation of warning label on the main unit Electrical Shock HazardService person is allowed to do this work Without first conducting these checksProceeding with the repair work DischargedProcedure in the ladders instructions Protective gloves and safety work clothingTelephone wires Electric shocks, electrical leakage, smoking and/or a fireNever recover the refrigerant into the outdoor unit Wires as beforeRefrigerant gas may catch fire Do not use a welder in the closed roomService panel Before opening the service panelThough the refrigerant gas itself is innocuous Refrigerant leaksPage Explanations given to user RelocationDeclaration of Conformity Specifications Safety Caution Concerned to New Refrigerant Copper pipe PipingFlare nut JointTools General tools Conventional tools can be usedSM40, SM45, SM56 type SM80 type Construction Views External Views Page Wiring Diagram Parts name Type Specifications Concealed Duct TypeIndoor Controller Block Diagram Case of Connection of Wired Simple Remote ControllerCase of Connection of Wireless Remote Controller Indoor unit #1 Heder Wireless remote controllerLCD Outline of specifications Remarks Temperature in heating Setting at shipmentRoom temp. control Tc ≥ 60C, the fan speed increases by 1 step Temperature HeatOutline of specifications Fan speed controlHeating ready is RemarksTcj TcnTc n ConditionsSetup at shipment Mode whenSetup temperature on Room temp. monitorCase of wired remote controller Case of wireless remote controllerCentral Goes onValues of various sensors Conditioner may stop or an error code may be displayed Pushed for 4 seconds or more on the remote controller When validating the save operation, the next operationStarts with save operation valid because contents are This function is set up at the customer’s sideMCC-1631 Indoor P.C. Board Optional Connector Specifications MCC-1631 Summary of Troubleshooting Before troubleshootingTroubleshooting procedure Wired remote controller typeWireless remote controller type Outline of judgment Lamp indication Check code Cause of trouble occurrenceLamp indication Check code Others Other than Check Code Remote controller detected Indoor unit detectedCentral control devices detected Check Code List Error mode detected by indoor unitError mode detected by outdoor unit Air conditionerOperation of diagnostic function Check Status Operation of diagnostic function Judgment and measures Check code E01 error E09 errorE04 error E10 errorE18 error E08, L03, L07, L08 errorL09 error L20 error L30 errorP30 error Central controller P10 error F10 errorP12 error CN333 CN334P19 error Check by testerExchange to cooling cycle Exchange to heating cycleF02 error F01 errorC06 error 11 model connection interface E03 error Master indoor unit F29 errorP31 error Follower indoor unit Temperature Resistance value characteristic table TA, TC, TCJ, TE, TS, to sensorTD, TL sensor TD, TL sensorPart name Checking procedure Position Resistance valueReplacement procedures CaseSetting data read out from Eeprom C. Board for indoor unit servicing replacement proceduresContents Code No. required at leastWriting the setting data to Eeprom Refer to table Button for the temperature settingEeprom layout diagram Setting data Type Type name abb Setting data TypeType Code No Model Name RAV-SM∗∗∗BT-ETRTest Run Setup on Remote Controller Wired remote controller Wiress remote controllerIndoor Unit Practical operation LED Display on Indoor P.C. Board D501 RedD403 Red Function Selection Setup Using the set temperatureTo change the selected indoor unit, proceed to Procedure To change item to be set up, proceed to ProcedureItem No. DN table Selection of function Description At shipmentDescription At shipment Wireless remote controller When connected 2 remote controllers operate an idoor unitWhen connected 2 remote controllers operate the twin Remote controller address A-B selection settingWireless remote controller A-B selection Wireless remote controller B setupContents „ Calling of error history Contents Order to monitor another error history, push the setTemperature Buttons to change the error Pushing„ Indoor unit power-ON sequence Initial communicationUsual regular communication Microprocessor block diagram Model connection interface wiring connectionModel Connection Interface TCC-LINK adapter Model name TCB-PCNT30TLE2Wiring Specifications C. Board Switch SW01 SetupUse 2-core with no polar wire To prevent noise trouble, use 2-core shield wireHow to set up from indoor unit side by remote controller External view of P.C. board assemblyAddress setup Push Test + Vent buttons for 4 seconds or morePage Address Setup Address setup procedureSystem configuration Address Setup & Group Control TerminologySingle Triple Single group operationExample It is not influenced by the line 2 or 3 address indoor unitAutomatic Address Example from Unset Address No miswiring Only turning on source power supply Automatic completionStandard One outdoor unit Multiple groups operationUsing timer time Buttons, set the line address Push SET + CL + Test buttonsSimultaneously for 4 seconds or more Folloer unit PushProcedure To know the position of indoor unit body by addressButton if the unit stops Fan and louver of the selected indoor unit only operatePart name Procedure Remarks DetachmentAttachment Suction panel Electric partsCover from the projection of the side plate Then remove the coverBox Control P.CBoard Remove connectors for fan motor wiring Fan motorFrom control P.C. board Match the fan motor with turning directionFloat switch Drain panDrain pump AttachmentPosition and fix it as before, using screws HeatPerform works of 1 Set the heat exchanger at the originalRAV-SM406BT-E, RAV-SM456BT-E, RAV-SM566BT-E Location Description Model Name RAV SM456BT-E SM566BT-ERAV-SM806BT-E Location Description Model Name RAV-SM406BT-TR, RAV-SM456BT-TR, RAV-SM566BT-TR SM456BT-TR SM566BT-TR RAV-SM806BT-TR RAV-SM806BT-TR Location Model Name RAV Description SM406BT-E SM456BT-E SM566BT-ERAV-SM1106BT-E, RAV-SM1406BT-E, RAV-SM1606BT-E Location Description Model Name RAV SM1106BT-E 100 RAV-SM1106BT-TR, RAV-SM1406BT-TR, RAV-SM1606BT-TR101 RAV-SM1106BT-E TR, RAV-SM1406BT-E TR, RAV-SM1606BT-E TR Check of Concentration Limit Toshiba Carrier Corporation

RAV-SM456BT-E, RAV-SM566BT-TR, RAV-SM566BT-E, RAV-SM456BT-TR, RAV-SM806BT-E specifications

Toshiba has long been recognized as a leader in air conditioning technology, and their latest models, including the RAV-SM806BT-E, RAV-SM566BT-TR, RAV-SM1106BT-E, RAV-SM456BT-E, and RAV-SM1406BT-E, are prime examples of innovation in climate control solutions. These models combine energy efficiency, advanced technology, and user-friendly features to meet diverse cooling and heating needs for both residential and commercial spaces.

The RAV-SM806BT-E is notable for its impressive cooling and heating capabilities, making it suitable for larger areas. With a robust cooling capacity of 8.0 kW, this model is equipped with inverter technology, providing variable speed control that optimizes energy consumption while ensuring consistent comfort levels. Its quiet operation makes it ideal for settings where noise control is crucial, such as offices and bedrooms.

Similarly, the RAV-SM566BT-TR offers a balanced solution for medium-sized environments. With a capacity of 5.6 kW, it features advanced air filtration systems that enhance indoor air quality by removing dust, allergens, and pollutants. This model is particularly appreciated in regions with high air pollution levels, providing a healthier living or working environment.

The RAV-SM1106BT-E stands out for its high efficiency and eco-friendly refrigerant use. This model is designed to reduce greenhouse gas emissions while delivering significant cooling output, making it a responsible choice for environmentally conscious consumers. Additionally, Toshiba’s smart temperature control technology allows users to precisely manage their climate settings through a user-friendly remote control or smartphone app, offering convenience and ease of use.

For those looking for a compact yet powerful solution, the RAV-SM456BT-E is designed to fit smaller spaces without sacrificing performance. With a cooling capacity of 4.5 kW, it still utilizes sophisticated inverter technology, ensuring minimal energy loss and optimal heating and cooling efficiency. Its compact design allows for flexible installations in varied spaces.

Lastly, the RAV-SM1406BT-E model emphasizes versatility and performance. With a cooling capacity of 14.0 kW, it is designed for larger commercial spaces, delivering powerful climate control while maintaining energy efficiency. Its advanced multi-zone system allows simultaneous operation across different areas, adapting to the unique requirements of each zone.

In summary, Toshiba's RAV-SM series reflects the company's commitment to innovation, energy efficiency, and user comfort. Each model offers unique features tailored to specific needs, setting new standards in the air conditioning industry. Whether for residential or commercial use, these systems provide reliable performance while promoting sustainable practices.