Toshiba RAV-SM806BT-TR Setting data read out from Eeprom, Code No. required at least, Contents

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UNIT LOUVER

[1] Setting data read out from EEPROM

The setting data modified on the site, other than factory-set value, stored in the EEPROM shall be read out.

Step 1 Push SET , CL and TEST button on the remote controller simultaneously for more than 4 seconds.

When the group operation control is performed, the unit No. displayed for the first time is the header unit No. At this time, the CODE No. (DN) shows “10 ”. Also, the fan of the indoor unit selected starts its operation and the swing operation also starts if it has the louvers.

Step 2 Every time when the button is pushed, the indoor unit No. under the group control is displayed in order. Specify the indoor unit No. to be replaced.

1.Change the CODE No. (DN) to 10 01 by pushing / buttons for the temperature setting. (this is the setting for the filter sign lighting time.)

At this time, be sure to write down the setting data displayed.

2.Change the CODE No. (DN) by pushing / buttons for the temperature setting. Similarly, be sure to write down the setting data displayed.

3.Repeat the step 2-2 to set the other settings in the same way and write down the setting data as shown in the table 1 (example).

The CODE No. (DN) are ranged from “01 ” to “FF ”. The CODE No. (DN) may skip.

Step 3 After writing down all setting data, push TEST button to return to the normal stop status. (It takes approx. 1 min until the remote controller operation is available again.)

CODE No. required at least

DN

Contents

 

 

10

Type

 

 

11

Indoor unit capacity

 

 

12

System address

 

 

13

Indoor unit address

 

 

14

Group address

 

 

5d

External static pressure.

 

 

1.The CODE No. for the Indoor unit type and Indoor unit capacity are required to set the rotation number setting of the fan.

2.If the system/indoor/group addresses are different from those before replacement, the auto-address setting mode starts and the manual resetting may be required again.

(when the multiple units group operation including twin system.)

[2] P.C. Board for indoor unit servicing replacement procedures

Step 1 Replace the P.C. board to the P.C. board for indoor unit servicing.

At this time, perform the same setting of the jumper wire (J01) setting (cut), switch SW501, (short-circuit) connector CN34 as the setting of the P.C. board before replacement.

Step 2 According to the system configuration, turn on the indoor unit following to the either methods shown below.

a)Single operation (Indoor unit is used as standalone.) Turn on the indoor unit.

1.After completion of the auto-address setting mode (required time: approx. 5 min.), proceed to [3]. (System address = 1, Indoor unit address = 1, Group address = 0 (standalone) are automatically set.)

2.Push SET , CL and TEST buttons simultaneously for more than 4 seconds to interrupt the auto-address

setting mode, and proceed to [3]. (The unit No. “ ” is displayed.)

b)Group operation (including twin system)

Turn on the indoor unit(s) with its P.C. board replaced to the P.C. board for indoor unit servicing, accord- ing to either methods 1 or 2 shown below.

1.Turn on only the indoor unit with its P.C. board replaced. (Be sure to confirm the remote controller is surely connected. If not, the operation [3] cannot be performed.)

Perform either methods 1 or 2 described in item a) above.

2.Turn on the multiple indoor units including the indoor unit with its P.C. board replaced.

Twin 1 system only

All group connections

After completion of the auto-address setting mode (required time: approx. 5 min.), proceed to [3].

The header unit of the group may be changed by performing the auto-address setting.

Also, the system address/Indoor unit address of the indoor unit with its P.C. board replaced may be assigned to the addresses (not used) other than those of the indoor units without its P.C. board replaced. It is recommended to keep the information in advance, which cooling system the indoor unit belongs to or whether the indoor unit works as the header unit or the follower unit in the group control operation.

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Contents Split Type Contents 11-4 11-111-2 11-3Original instruction Indication Explanation Explanation of indicationsExplanation of illustrated marks Work undertaken Protective gear wornElectrical Shock Hazard Confirmation of warning label on the main unitDischarged Service person is allowed to do this workWithout first conducting these checks Proceeding with the repair workElectric shocks, electrical leakage, smoking and/or a fire Procedure in the ladders instructionsProtective gloves and safety work clothing Telephone wiresDo not use a welder in the closed room Never recover the refrigerant into the outdoor unitWires as before Refrigerant gas may catch fireRefrigerant leaks Service panelBefore opening the service panel Though the refrigerant gas itself is innocuousPage Declaration of Conformity Explanations given to userRelocation Specifications Joint Safety Caution Concerned to New RefrigerantCopper pipe Piping Flare nutGeneral tools Conventional tools can be used ToolsSM40, SM45, SM56 type SM80 type Construction Views External Views Page Wiring Diagram Concealed Duct Type Parts name Type SpecificationsCase of Connection of Wired Simple Remote Controller Indoor Controller Block DiagramIndoor unit #1 Heder Wireless remote controller Case of Connection of Wireless Remote ControllerLCD Outline of specifications Remarks Room temp. control Temperature in heatingSetting at shipment Heat Tc ≥ 60C, the fan speed increases by 1 step TemperatureRemarks Outline of specificationsFan speed control Heating ready isConditions TcjTcn Tc nRoom temp. monitor Setup at shipmentMode when Setup temperature onCase of wireless remote controller Case of wired remote controllerValues of various sensors CentralGoes on Conditioner may stop or an error code may be displayed This function is set up at the customer’s side Pushed for 4 seconds or more on the remote controllerWhen validating the save operation, the next operation Starts with save operation valid because contents areMCC-1631 Indoor P.C. Board Optional Connector Specifications MCC-1631 Wired remote controller type Summary of TroubleshootingBefore troubleshooting Troubleshooting procedureWireless remote controller type Lamp indication Check code Cause of trouble occurrence Outline of judgmentLamp indication Check code Others Other than Check Code Central control devices detected Remote controller detectedIndoor unit detected Error mode detected by indoor unit Check Code ListAir conditioner Error mode detected by outdoor unitOperation of diagnostic function Check Status Operation of diagnostic function Judgment and measures E09 error Check code E01 errorE10 error E04 errorL09 error E18 errorE08, L03, L07, L08 error P30 error Central controller L20 errorL30 error F10 error P10 errorCN333 CN334 P12 errorExchange to heating cycle P19 errorCheck by tester Exchange to cooling cycleF01 error F02 errorC06 error 11 model connection interface P31 error Follower indoor unit E03 error Master indoor unitF29 error TD, TL sensor Temperature Resistance value characteristic tableTA, TC, TCJ, TE, TS, to sensor TD, TL sensorPosition Resistance value Part name Checking procedureCase Replacement proceduresCode No. required at least Setting data read out from EepromC. Board for indoor unit servicing replacement procedures ContentsRefer to table Button for the temperature setting Writing the setting data to EepromEeprom layout diagram Model Name RAV-SM∗∗∗BT-ETR Setting data Type Type name abbSetting data Type Type Code NoIndoor Unit Test Run Setup on Remote Controller Wired remote controllerWiress remote controller D403 Red Practical operationLED Display on Indoor P.C. Board D501 Red To change item to be set up, proceed to Procedure Function Selection SetupUsing the set temperature To change the selected indoor unit, proceed to ProcedureDescription At shipment Item No. DN table Selection of functionDescription At shipment Remote controller address A-B selection setting Wireless remote controllerWhen connected 2 remote controllers operate an idoor unit When connected 2 remote controllers operate the twinWireless remote controller B setup Wireless remote controller A-B selectionContents Pushing „ Calling of error history ContentsOrder to monitor another error history, push the set Temperature Buttons to change the errorUsual regular communication „ Indoor unit power-ON sequenceInitial communication Model name TCB-PCNT30TLE2 Microprocessor block diagramModel connection interface wiring connection Model Connection Interface TCC-LINK adapterTo prevent noise trouble, use 2-core shield wire Wiring SpecificationsC. Board Switch SW01 Setup Use 2-core with no polar wirePush Test + Vent buttons for 4 seconds or more How to set up from indoor unit side by remote controllerExternal view of P.C. board assembly Address setupPage Address setup procedure Address SetupTriple Single group operation System configurationAddress Setup & Group Control Terminology SingleIt is not influenced by the line 2 or 3 address indoor unit ExampleMultiple groups operation Automatic Address Example from Unset Address No miswiringOnly turning on source power supply Automatic completion Standard One outdoor unitFolloer unit Push Using timer time Buttons, set the line addressPush SET + CL + Test buttons Simultaneously for 4 seconds or moreFan and louver of the selected indoor unit only operate ProcedureTo know the position of indoor unit body by address Button if the unit stopsAttachment Part name Procedure RemarksDetachment Then remove the cover Suction panelElectric parts Cover from the projection of the side plateBoard BoxControl P.C Match the fan motor with turning direction Remove connectors for fan motor wiringFan motor From control P.C. boardAttachment Float switchDrain pan Drain pumpSet the heat exchanger at the original Position and fix it as before, using screwsHeat Perform works of 1RAV-SM406BT-E, RAV-SM456BT-E, RAV-SM566BT-E SM456BT-E SM566BT-E Location Description Model Name RAVRAV-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 SM406BT-E SM456BT-E SM566BT-E Location Model Name RAV DescriptionRAV-SM1106BT-E, RAV-SM1406BT-E, RAV-SM1606BT-E Location Description Model Name RAV SM1106BT-E RAV-SM1106BT-TR, RAV-SM1406BT-TR, RAV-SM1606BT-TR 100101 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.

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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.
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