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Sinclair SDV5-224EAS Service Manual

Full dc inverter systems
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OUTDOOR UNITS SDV5-200-335EAS
C O M M E R C I A L A I R C O N D I T I O N E R S S D V 5

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Summary of Contents for Sinclair SDV5-224EAS

  • Page 1 OUTDOOR UNITS SDV5-200-335EAS C O M M E R C I A L A I R C O N D I T I O N E R S S D V 5...
  • Page 2 Original instructions IMPORTANT NOTE: Read this manual carefully before installing or operating your new air conditioning unit. Make sure to save this manual for future reference.
  • Page 3 Part 1 General Information Indoor and Outdoor Unit Capacities ..........4 External Appearance ................5 Combination Ratio ................8...
  • Page 4 1 Indoor and Outdoor Unit Capacities 1.1 Indoor Units 1.1.1 VRF indoor units Table 1-1.1: Standard indoor unit abbreviation codes Abbreviation Abbreviation Type Type code code One-way Cassette High Static Pressure Duct Two-way Cassette Wall-mounted Compact Four-way Cassette Ceiling & Floor Four-way Cassette Floor Standing Medium Static Pressure Duct...
  • Page 5 1.3 Outdoor Units Table 1-1.5: Outdoor unit capacity range Capacity Model Name SDV5-200EAS SDV5-224EAS SDV5-260EAS SDV5-280EAS 10HP SDV5-335EAS 12HP Notes: SDV5 side discharge series outdoor units could not be combined.
  • Page 6 2 External Appearance 2.1 Indoor Units Table 1-2.1: Indoor unit appearance One-way Cassette Two-way Cassette Compact Four-way Cassette Four-way Cassette Medium Static Pressure Duct High Static Pressure Duct Wall-mounted Ceiling & Floor Floor Standing Console 2.1.1 Fresh air processing unit Table 1-2.2: Fresh air processing unit appearance Fresh Air Processing Unit...
  • Page 7 2.3 Outdoor Units Table 1-2.4: Outdoor unit appearance 7-12HP...
  • Page 8 3 Combination Ratio Sum of capacity indexes of the indoor units Combination ratio = Capacity index of the outdoor unit T Table 1-3.1: Indoor and outdoor unit combination ratio limitations Maximum combination ratio Minimum Type Standard indoor Fresh air processing Fresh air processing units and combination ratio units only...
  • Page 9 Part 2 Component Layout and Refrigerant Circuits 1 Piping Diagrams ..................10 2 Refrigerant Flow Diagrams ............... 13...
  • Page 10 1 Piping Diagrams Figure 2-1.1: 7/8/9/10HP piping diagram Legend Parts name Parts name Compressor Stop valve (gas side) High pressure switch Stop valve (liquid side) High pressure sensor Heat exchanger temperature sensor Oil separator Outdoor ambient temperature sensor Four-way valve Discharge temperature sensor Heat exchanger Heat sink temperature sensor...
  • Page 11 Figure 2-1.2: 12HP piping diagram Legend Parts name Parts name Compressor Stop valve (gas side) High pressure switch Stop valve (liquid side) High pressure sensor Heat exchanger temperature sensor Oil separator Outdoor ambient temperature sensor Four-way valve Discharge temperature sensor Heat exchanger Heat sink temperature sensor Electronic expansion valve (EXV)
  • Page 12 Key components: 1. Oil separator: Separates oil from gas refrigerant pumped out of the compressor and quickly returns it to the compressor. Separation efficiency is up to 99%. 2. Accumulator: Stores liquid refrigerant and oil to protect compressor from liquid hammering. 3.
  • Page 13 2 Refrigerant Flow Diagrams Cooling operation Figure 2-2.1: Refrigerant flow during cooling operation High temperature, high pressure gas High temperature, high pressure liquid Low temperature, low pressure Unit on Thermostat on Filter Filter Normal control Unit on Thermostat on Filter Filter Normal control Unit off...
  • Page 14 Heating operation Figure 2-2.3: Refrigerant flow during heating operation High temperature, high pressure gas High temperature, high pressure liquid Low temperature, low pressure Unit on Thermostat on Filter Filter Normal control Unit on Thermostat on Filter Filter Normal control Unit off Filter Filter 96 steps...
  • Page 15 Defrosting operation Figure 2-2.5: Refrigerant flow during defrosting operation High temperature, high pressure gas High temperature, high pressure liquid Low temperature, low pressure Unit on Thermostat on Filter Filter 480steps Unit on Thermostat on Filter Filter 480steps Unit off Filter Filter 480steps Unit on...
  • Page 17 Part 3 Control General Control Scheme Flowchart ............18 Stop Operation ..................19 Standby Control ................... 19 Startup Control ..................20 Normal Operation Control ..............21 Protection Control ................24 Special Control ..................26...
  • Page 18 1 General Control Scheme Flowchart Sections 3-2 to 3-7 on the following pages detail when each of the controls in the flowchart below is activated. Stop operation  Abnormal shutdown  System stop Standby control  Crankcase heater control Thermo on Startup control ...
  • Page 19 2 Stop Operation The stop operation occurs for one of the three following reasons: 1. Abnormal shutdown: in order to protect the compressors, if an abnormal state occurs the system makes a 'stop with thermo off' operation and an error code is displayed on the outdoor unit digital displays. 2.
  • Page 20 4 Startup Control 4.1 Compressor Startup Delay Control In initial startup control and in restart control (except in oil return operation and defrosting operation), compressor startup is delayed such that a minimum of 7 minutes has elapsed since the compressor stopped, in order to prevent frequent compressor on/off and to equalize the pressure within the refrigerant system.
  • Page 21 4.3 Startup Control for Heating Operation Table 3-4.2: Component control during startup in heating mode Wiring diagram Component 7-12HP Control functions and states label Controlled according to load requirement, operating frequency Inverter compressor COMP ● increased by 1 step / sec Fan speed controlled according to ambient temperature (T4) and Upper DC fan motor...
  • Page 22 5 Normal Operation Control 5.1 Component Control during Normal Operation Table 3-5.1: Component control during normal cooling operation Wiring diagram Component 7-12HP Control functions and states label Inverter compressor COMP Controlled according to load requirement ● Upper DC fan motor FAN_UP ●...
  • Page 23 5.2 Compressor Output Control The compressor rotation speed is controlled according to the load requirement. Before compressor startup, the outdoor unit first estimates the indoor unit load requirement according to the nominal capacity of indoor units currently running, and then correct for ambient temperature. The compressors then start up according to the corrected load requirement. During operation the compressors are controlled according to the nominal capacity of indoor units currently running and the indoor unit heat exchanger temperatures.
  • Page 24 6 Protection Control 6.1 High Pressure Protection Control This control protects the system from abnormally high pressure and protects the compressors from transient spikes in pressure. Figure 3-6.1: High pressure protection control Normal operation > 4.4MPa < 3.2MPa High pressure protection, error code P1 is displayed Notes: : Discharge pressure When the discharge pressure rises above 4.4MPa the system displays P1 protection and the unit stops running.
  • Page 25 6.4 Compressor and Inverter Module Protection Control This control protects the compressors from abnormally high currents and protects the inverter modules from abnormally high temperatures. Figure 3-6.4: Compressor current protection control Normal operation Current ≥ Current Current < Current Compressor current protection, error code P3 is displayed Compressor model ATQ580D66UNT LNB65FAGMC...
  • Page 26 7 Special Control 7.1 Oil Return Operation In order to prevent compressors from running out of oil, the oil return operation is conducted to recover oil that has flowed out of the compressor(s) and into the piping system. This operation is performed for all units including units that are in standby.
  • Page 27 Tables 3-7.3 and 3-7.4 show component control during oil return operation in heating mode. Table 3-7.3: Outdoor unit component control during oil return operation in heating mode Wiring diagram Component 7-12HP Control functions and states label Inverter compressor COMP Controlled according to load requirement ●...
  • Page 28 7.2 Defrosting Operation In order to recover heating capacity, the defrosting operation is conducted when the outdoor unit heat exchanger is performing as an evaporator. The defrosting operation is controlled according to outdoor ambient temperature, outdoor heat exchanger temperature, indoor heat exchanger temperature and outdoor unit running time. When the outdoor unit is running in defrosting, the digital display on outdoor main PCB will display “df”.
  • Page 29 Part 4 Field Settings Outdoor Unit Field Settings ..............30...
  • Page 30 1 Outdoor Unit Field Settings 1.1 PCB Switches and Switch Settings Figure 4-1.2: Outdoor unit main PCB switches PCB switches ENC1 ENC3...
  • Page 31 Table 4-1.2: Outdoor unit main PCB switch settings Switch Setting Switch positions Description The number of indoor units is in the range 0-15 ENC1 S9-3 0-9 on ENC1 indicate 0-9 indoor units; A-F on ENC1 indicate 10-15 indoor units Number of indoor units The number of indoor units is in the range 16-31 0-9 on ENC1 indicate 16-25 indoor units;...
  • Page 32 1.2 Priority Mode Setting on Main PCB Priority mode can only be set on the outdoor unit. When an indoor unit is in mode conflict with the outdoor units the unit displays the mode conflict error. The digital display on indoor main PCB will display error code E0. Figure 4-1.2: Indoor unit digital displays Digital display Digital display...
  • Page 33 Cooling priority mode Refer to above “1.2. Cooling priority mode” descriptions. First on priority mode: The outdoor unit operates in the mode of the first on indoor unit is being requested. Indoor units that are in a mode different to the first on unit display the mode conflict error. Heating only mode The outdoor unit only operates in heating mode.
  • Page 35 Part 5 Electrical Components and Wiring Diagrams 1 Outdoor Unit Electric Control Box Layout ..........36 2 Outdoor Unit Main PCB ................. 37 3 Compressor Inverter Module and Filter Board ........44 4 Wiring Diagrams ..................48...
  • Page 36 1 Outdoor Unit Electric Control Box Layout Figure 5-1.1: Front view of electric control box Main PCB Communication terminals block Power supply terminals Figure 5-1.2: Rear view of electric control box Reactor Inverter module Filter board Inductor...
  • Page 37 2 Outdoor Unit Main PCB 2.1 Ports Figure 5-2.1: Outdoor unit main PCB ports ① ② ③ ④ ⑤ ⑥ ⑦ ⑧ ⑨ ⑩ Notes: Label descriptions are given in Table 5-2.1.
  • Page 38 Table 5-2.1: Main PCB ports Label in Port code Content Port voltage Figure 5-2.1 220V AC between A/B/C and N; CN30 Power input of main board 380V AC between A,B and C CN36 Inverter module connection 0V or 5V DC Control port of filter board 0V or 12V DC CN14...
  • Page 39 2.2 Components 2.2.1 Layout Figure 5-2.2: Outdoor unit main PCB components Display Main control chip Dial switches Buttons Dial switches 2.2.2 Function of buttons Table 5-2.2: Function of buttons SW1 to SW4 Button Function In menu mode: previous and next buttons for menu SW3 (UP) modes.
  • Page 40 2.2.3 Menu mode 1. Long press SW1 “MENU” button for 5 seconds to enter menu mode, and the digital display displays “n1”; 2. Press SW3 / SW4 “UP / DOWN” button to select the first level menu “n1”, “n2”, “n3”, “n4”, “nb” or “nF”; 3.
  • Page 41 Menu mode function: Table 5-2.3: Menu mode function Digital display Menu mode Remarks content Force cooling mode All indoor units running in cooling mode Maintenance mode The system does not check the indoor units’ number. It is only used in maintenance process. The digital display displays “R01”, and all solenoid Vacuum mode valves are opened and EXVs are positioned to 480 steps.
  • Page 42 2.2.4 System check button Before pressing UP or DOWN button, make sure that the system has been operating steadily for more than one hour. On pressing UP or DOWN button, the parameters listed in Table 5-2.5 will be displayed in sequence. Table 5-2.5: System check Parameters displayed on DSP Remarks...
  • Page 43 2.2.5 Digital display output Table 5-2.6: Digital display output in different operating states Outdoor unit state Parameters displayed on DSP Standby The number of indoor units in communication with the outdoor unit Frequency limitation code and running speed of the compressor in Normal operation rotations per second Error or protection...
  • Page 44 3 Compressor Inverter Module and Filter Board 3.1 Inverter module ports Figure 5-3.1: Outdoor unit inverter module ports ① 3-phase bridge rectifier power input ⑩ 3-phase bridge ⑨ rectifier power output ② PED board ③ ⑧ ⑦ ④ ⑤ ⑥ Notes: Label descriptions are given in Table 5-3.1.
  • Page 45 Table 5-3.1: Inverter module ports Label in Port code Content Port voltage Figure 5-2.1 Power input L1 of inverter module 380V AC Power input L2 of inverter module 380V AC CN11 Power input L3 of inverter module 380V AC Above 156V DC (varying according to CN12 Power output U of inverter module to compressor frequency)
  • Page 46 3.2 Filter board ports Figure 5-3.2: Outdoor unit filter board ports ⑨ ⑧ ⑩ ① ⑦ ② ③ ④ ⑤ ⑥ Notes: Label descriptions are given in Table 5-3.3.
  • Page 47 Table 5-3.3: Filter board ports Label in Port code Content Port voltage Figure 5-3.2 Control port of filter board 12V DC CN212 Power supply to DC fan motor (CN212) of filter board 310V DC 220V AC between L1/L2/L3 and N; CN203 Power input N of filter board 380V AC between L1,L2 and L3...
  • Page 48 4 Wiring Diagrams Figure 5-4.1: Wiring diagram...
  • Page 49 Part 6 Diagnosis and Troubleshooting Error Code Table .................. 50 Troubleshooting .................. 51 Appendix to Part 6 ................103...
  • Page 50 1 Error Code Table Table 6-1.1: Error code table Error Manual re-start Content Remarks code required Phase sequence error Displayed on the outdoor unit PCB Communication error between indoor and outdoor units Displayed on the outdoor unit PCB Outdoor heat exchanger temperature sensor (T3) error or Displayed on the outdoor unit PCB outdoor ambient temperature sensor (T4) error Abnormal power supply voltage...
  • Page 51 2 Troubleshooting 2.1 Warning Warning  All electrical work must carried by competent and suitably qualified, certified accredited professionals and in accordance with all applicable legislation (all national, local and other laws, standards, codes, rules, regulations and other legislation that apply in a given situation). ...
  • Page 52 2.2 E1: Phase sequence error 2.2.1 Digital display output 2.2.2 Description  Phase sequence error.  The system stops running.  Error code is displayed on the outdoor unit PCB. 2.2.3 Trigger / recover condition  Trigger condition: Wrong phase connection for 1.6s or phase missing for 48s. ...
  • Page 53 2.2.5 Procedure The phase sequence of the 3-phase Exchange any two of the 3 phase wires power supply is incrorrect Ensure all supply terminals are securely Some power supply terminals are loose fastened The power supply is abnormal, the voltage variation among L1 N, L2 N and Check the power supply equipment L3 N is greater than 5V Replace outdoor main PCB...
  • Page 54 2.3 E2: Communication error between indoor and outdoor unit 2.3.1 Digital display output 2.3.2 Description  Communication error between indoor and outdoor unit.  The system stops running.  Error code is displayed on the outdoor unit PCB. 2.3.3 Trigger / recover condition ...
  • Page 55 2.3.5 Procedure Communication wires P Q E have short Reconnect the communication wires circuited or disconnected Communication wires P Q E are not Connect the communication wires in a connected in a daisy chain daisy chain IDU power supply is abnormal Ensure normal power supply Wires between outdoor main PCB and electric control box communication...
  • Page 56 2.4 E4: Temperature sensor (T3/T4) error 2.4.1 Digital display output 2.4.2 Description  Outdoor heat exchanger temperature sensor (T3) error or outdoor ambient temperature sensor (T4) error.  The system stops running.  Error code is displayed on the outdoor unit PCB. 2.4.3 Trigger / recover condition ...
  • Page 57 2.4.5 Procedure Temperature sensor connection on main Ensure the sensor is connected properly PCB is loose Temperature sensor has short-circuited Replace the sensor or failed Replace outdoor main PCB Notes: Outdoor ambient temperature sensor (T4) and heat exchanger temperature sensor (T3) connection is port CN9 on the main PCB (labeled 10 in Figure 5-2.1 in Part 5, 2.1 “Ports”).
  • Page 58 2.5 E5: Abnormal power supply voltage 2.5.1 Digital display output 2.5.2 Description  Abnormal power supply voltage.  The system stops running.  Error code is displayed on the outdoor unit PCB. 2.5.3 Trigger / recover condition  Trigger condition: Outdoor unit power supply phase voltage < 172V. ...
  • Page 59 2.5.5 Procedure ODU power supply is abnormal or a Provide normal power supply phase is missing Wires between outdoor main PCB, filter boards and electric control box power Ensure the wires are connected properly supply terminals are loose The voltage between orange and blue wire connecting main PCB’s and filter Replace outdoor filter board board is not 2.5V...
  • Page 60 2.6 E6, Eb: DC fan motor error 2.6.1 Digital display output 2.6.2 Description  DC fan motor error.  The system stops running.  Error code is displayed on the outdoor unit PCB. 2.6.3 Trigger / recover condition  Trigger condition: For E6 protection: Actual fan speed is <...
  • Page 61 2.6.5 Procedure E6, Eb DC fan motor connection on main PCB or Ensure the wires are connected properly filter board is loose The voltage of CN53 terminals is 310V Replace the filter board Replace the DC fan motor, the problem is solved? Replace outdoor main PCB Notes:...
  • Page 62 2.7 E7: Temperature sensor (T5) error 2.7.1 Digital display output 2.7.2 Description  A compressor discharge pipe temperature sensor (T5) error.  The system stops running.  Error code is displayed on the outdoor unit PCB. 2.7.3 Trigger / recover condition ...
  • Page 63 2.7.5 Procedure Temperature sensor connection on main Ensure the sensor is connected properly PCB is loose Temperature sensor has short-circuited Replace the sensor or failed Replace outdoor main PCB Notes: Compressor discharge pipe temperature sensor connection is port CN5 on the main PCB (labeled 6 in Figure 5-2.1 in Part 5, 2.1 “Ports”). Measure sensor resistance.
  • Page 64 2.8 EH: Outdoor refrigerant cooling pipe temperature sensor (TL) error 2.8.1 Digital display output 2.8.2 Description  An outdoor refrigerant cooling pipe temperature sensor (TL) error.  The system stops running.  Error code is displayed on the outdoor unit PCB. 2.8.3 Trigger / recover condition ...
  • Page 65 2.8.5 Procedure Refrigerant cooling pipe temperature Ensure the sensor is connected properly sensor connection on main PCB is loose Refrigerant cooling pipe temperature Replace the sensor sensor has short-circuited or failed Replace outdoor main PCB Notes: Outdoor refrigerant cooling pipe temperature sensor connection is port CN24 on the main PCB (labeled 5 in Figure 5-2.1 in Part 5, 2.1 “Ports”). Measure sensor resistance.
  • Page 66 2.9 F1: DC bus voltage error 2.9.1 Digital display output 2.9.2 Description  F1 indicates compressor DC bus voltage error.  The system stops running.  Error code is displayed on the unit with the error. 2.9.3 Trigger / recover condition ...
  • Page 67 2.9.5 Procedure F1 error Compressor inverter module wiring is Reconnect cables based on loosened wiring diagram Disconnect the Reconnect the reactor and power supply Reactor and DC bus wiring is incorrectly DC bus wire based on wiring diagram Check the power supply The power supply is abnormal equipment Replace the inverter module...
  • Page 68 2.10 H0: Communication error 2.10.1 Digital display output 2.10.2 Description  H0 indicates a communication error between the main control chip and the compressor inverter driver chip.  The system stops running.  Error code is displayed on the outdoor unit PCB. 2.10.3 Trigger / recover condition ...
  • Page 69 2.10.5 Procedure Communication wire from main PCB Reconnect the communication wire CN36 to invert module CN8 is loose Both LED1 and LED2 on the inverter Check the power supply circuit module are off when power on Replace outdoor main PCB, is the Normal malfunction solved? Replace the inverter module...
  • Page 70 2.11 H4: Inverter module protection 2.11.1 Digital display output 2.11.2 Description  H4 indicates compressor inverter module protection.  The system stops running.  Error code is displayed on the outdoor unit PCB. 2.11.3 Trigger / recover condition  Trigger condition: Compressor appears three inverter module protections. ...
  • Page 71 The specific error codes L0, L1, L2 and L4 can also be obtained from the inverter module LED indicators. If an inverter module error has occurred, LED2 is continuously on and LED1 flashes. Figure 6-2.2: LED indicators LED1 and LED2 on inverter module Table 2-6.2: Errors indicated on LED1 LED1 flashing pattern Corresponding error...
  • Page 72 L0 protection 2.11.6 L0: Inverter module protection Ensure the wire is The DC bus wire connected incorrectly L0 protection connected properly The compressor wiring is connected Reconnect the cables incorrectly based on wiring diagram The resistance between 3 phases of Disconnect compressor is over 5Ω...
  • Page 73 2.11.7 L1: DC bus low voltage protection L1 protection Check the power supply The power supply is abnormal equipment No output from bridge rectifier Replace the The DC bus voltage (P, N) is abnormal The reactor performs well reactor Replace the inverter module Note: The normal DC voltage between terminals P and N on inverter module should be 450-650V.
  • Page 74 2.11.8 L2: DC bus high voltage protection L2 protection Check the power supply The power supply is abnormal equipment Replace the 3-phase bridge The DC bus voltage (P, N) is abnormal rectifier Replace the inverter module Note: The normal DC voltage between terminals P and N on inverter module should be 520V. When the voltage is higher than 630V, L2 protection will be appeared.
  • Page 75 2.11.9 L4: MCE error L4 protection Remove barriers from heat ODU ventilation is not good exchanger and air outlet of ODU ODU stop valves are closed Open the ODU stop valves Reconnect the cables based on Compressor wiring is not properly Disconnect wiring diagram the power...
  • Page 76 2.11.10 L5: Zero speed protection L5 protection There is abnormal noise of Replace the compressor compressor when startup or running Replace the inverter module...
  • Page 77 2.11.11 L7: Phase sequence error L7 protection Reconnect cables based on Compressor wiring is loose wiring diagram Disconnect the An open circuit in the 3-phase U/V/W power supply Replace the compressor of compressor terminals Replace the inverter module...
  • Page 78 2.11.12 L8: Compressor frequency variation greater than 15Hz within one second protection L9: Actual compressor frequency differs from target frequency by more than 15Hz protection L8 protection L9 protection ODU stop valves are closed Open the ODU stop valves Reconnect the cables based on Compressor wiring is not properly wiring diagram The resistance between 3 phases of...
  • Page 79 2.11.13 Compressor replacement procedure Figure 6-2.5: Draining oil from a compressor Step 1: Remove faulty compressor and remove oil  Remove the faulty compressor from the outdoor unit.  Before removing the oil, shake the compressor so as to not allow impurities to remain settled at the bottom.
  • Page 80 Figure 6-2.7: Inspecting compressor oil This oil is a little This oil is black yellow, but is clear - it has been and transparent and carbonized the condition is acceptable This oil is still transparent but there are impurities which Cloudy or gray may clog the filter oil indicates...
  • Page 81 2.12 H7: Unmatched total number of indoor units 2.12.1 Digital display output 2.12.2 Description  Number of indoor units detected by the outdoor unit not same as number set on main PCB.  The system stops running.  Error code is displayed on the outdoor unit PCB. 2.12.3 Trigger / recover condition ...
  • Page 82 2.12.5 Procedure Number of indoor units set on main PCB Change the setting on the PCB to be the not same as actual number of indoor same as the actual number of indoor units units Some indoor units are powered off Power on all indoor units After re-starting the ODUs and IDUs and Refer to indoor unit troubleshooting...
  • Page 83 2.13 H8: High pressure sensor error 2.13.1 Digital display output 2.13.2 Description  High pressure sensor error.  The system stops running.  Error code is displayed on the unit with the error. 2.13.3 Trigger / recover condition  Trigger condition: Discharge pressure ≤ 0.3MPa. ...
  • Page 84 2.13.5 Procedure High pressure sensor connection on main Ensure the sensor is connected properly PCB is loose High pressure sensor has short-circuited Replace the sensor or failed Insufficient refrigerant caused by Add refrigerant and inspect system for refrigerant leakage leaks The low pressure side is blocked, caused Inspect the system and fix the error.
  • Page 85 2.14 bL: High pressure switch protection on compressor inverter board 2.14.1 Digital display output 2.14.2 Description  Discharge pipe high pressure protection or DC bus voltage abnormal.  The system stops running.  Error code is displayed on the outdoor unit PCB. 2.14.3 Trigger / recover condition ...
  • Page 86 2.14.5 Procedure Power off the outdoor unit for more than 5 minutes and power on again, the error Refer to the P1 protection procedure code “bL” disappeared Short circuit high pressure sensor High pressure sensor has short-circuited connection on the inverter module, the or failed , replace the sensor error code “bL”...
  • Page 87 2.15 bH: PED board protection 2.15.1 Digital display output 2.15.2 Description  PED board protection.  The system stops running.  Error code is displayed on the outdoor unit PCB. 2.15.3 Trigger / recover condition  Trigger condition: Contact conglutination or PED board self-check failure. ...
  • Page 88 2.15.5 Procedure Power off the outdoor unit for more than 5 minutes and power on again, the error It’s normal, no need to be treated. code “bH” disappeared The error code is “bL” appeared firstly PED board is damaged, replace the PED and then changed to “bH”...
  • Page 89 2.16 P1: Discharge pipe high pressure protection 2.16.1 Digital display output 2.16.2 Description  Discharge pipe high pressure protection.  The system stops running.  Error code is displayed on the outdoor unit PCB. 2.16.3 Trigger / recover condition  Trigger condition: Discharge pressure ≥ 4.4MPa. ...
  • Page 90 … flowchart continued from previous page Discharge part of the refrigerant. Add oil Excess refrigerant if it leaks during discharge Flush all refrigerant then vacuum the System contains air or nitrogen system and recharge the refrigerant. Add oil to the system if it leaks The high pressure side is blocked, caused Inspect the system and fix the error by crushed or bent pipe or blocked EXV...
  • Page 91 2.17 P2, H5: Suction pipe low pressure protection 2.17.1 Digital display output 2.17.2 Description  Suction pipe low pressure protection.  The system stops running.  Error code is displayed on outdoor unit PCB. 2.17.3 Trigger / recover condition  Trigger condition: For P2 protection: Suction pressure ≤...
  • Page 92 2.17.5 Procedure P2 / H5 ODU stop valves are closed Open the stop valves Insufficient refrigerant caused by Add refrigerant or inspect the system for refrigerant leakage leaks The low pressure side is blocked, caused Inspect the system and fix the error. If the by crushed or bent pipe, blocked EXV, or filter is blocked by ice, the piping should dirty filter...
  • Page 93 2.18 P3: Compressor current protection 2.18.1 Digital display output 2.18.2 Description  P3 indicates current protection on compressor.  The system stops running.  Error code is displayed on the outdoor unit PCB. 2.18.3 Trigger / recover condition  Trigger condition: Current of compressor LNB65FAGMC ≥ 29A. ...
  • Page 94 … flowchart continued from previous page Discharge part of the refrigerant. Add oil Excess refrigerant if it leaks during discharge Flush all refrigerant then vacuum the System contains air or nitrogen system and recharge refrigerant. Add oil to the system if it leaks The condenser heat exchange is poor Inspect the system and fix the error The high pressure side is blocked, caused...
  • Page 95 2.19 P4: Discharge temperature protection 2.19.1 Digital display output 2.19.2 Description  Discharge temperature protection.  The system stops running.  Error code is displayed on the unit with the error. 2.19.3 Trigger / recover condition  Trigger condition: Discharge temperature (T5) > 110 ...
  • Page 96 … flowchart continued from previous page Insufficient refrigerant caused by Add refrigerant and inspect the system refrigerant leakage for leaks Inspect the system and fix the error. If the The system is blocked, caused by crushed filter is blocked by ice, the piping should or bent pipe, blocked EXV or dirty filter be cleaned Make sure the combination ratio is less...
  • Page 97 2.20 P5: Outdoor heat exchanger temperature protection 2.20.1 Digital display output 2.20.2 Description  Outdoor heat exchanger temperature protection.  The system stops running.  Error code is displayed on the unit with the error. 2.20.3 Trigger / recover condition ...
  • Page 98 2.20.5 Procedure ODU stop valves are closed Open the stop valves Outdoor heat exchanger temperature Ensure the sensor is connected properly sensor connection on main PCB is loose Outdoor heat exchanger temperature Replace the sensor sensor has short-circuited or failed Make sure the combination ratio is less The indoor load is too large than 130%...
  • Page 99 2.21 P8: Typhoon protection 2.21.1 Digital display output 2.21.2 Description  P8 indicates strong wind protection.  The system stops running.  Error code is displayed on the outdoor unit PCB. 2.21.3 Trigger / recover condition  Trigger condition: Fan speed ≥400rps when the outdoor unit is not start up. ...
  • Page 100 2.21.5 Procedure There is strong wind around the outdoor Wait unit the strong wind stops unit Replace the DC fan motor, the problem is solved? Replace outdoor main PCB Notes: P8 protection recovers in 2 minutes when the strong wind stops.
  • Page 101 2.22 PL: Inverter module temperature protection 2.22.1 Digital display output 2.22.2 Description  PL indicates inverter module temperature protection.  The system stops running.  Error code is displayed on the outdoor unit PCB. 2.22.3 Trigger / recover condition  Trigger condition: Inverter module heat sink temperature (Tf) ≥...
  • Page 102 2.22.5 Procedure The inverter module heat sink is blocked Clean or replace the heat sink or dirty The screws connecting the heat sink to Tighten the screws and make sure the the inverter module are loose heat sink is well-connected Heat sink temperature sensor connection Ensure the sensor is connected properly on main PCB is loose...
  • Page 103 3 Appendix to Part 6 3.1 Temperature Sensor Resistance Characteristics Table 6-3.1: Outdoor ambient temperature sensor, outdoor heat exchanger temperature sensor and refrigerant cooling pipe temperature sensor resistance characteristics Temperature Resistance Temperature Resistance Temperature Resistance Temperature Resistance (°C) (kΩ) (°C) (kΩ) (°C) (kΩ)
  • Page 104 Table 6-3.2: Compressor discharge pipe temperature sensor resistance characteristics Temperature Temperature Temperature Temperature Resistance Resistance Resistance Resistance (kΩ) (kΩ) (kΩ) (kΩ) (°C) (°C) (°C) (°C) 913.239 83.541 12.809 2.918 862.001 79.801 12.357 2.835 813.806 76.248 11.923 2.755 768.47 72.871 11.506 2.678 725.821 69.66...
  • Page 105 Table 6-3.3: Heat sink temperature sensor resistance characteristics Temperature Temperature Temperature Temperature Resistance Resistance Resistance Resistance (kΩ) (kΩ) (kΩ) (kΩ) (°C) (°C) (°C) (°C) 971.4 109.0 19.70 5.000 912.8 103.9 18.97 4.855 858.2 99.02 18.26 4.705 807.3 94.44 17.59 4.566 759.7 90.11 16.94...
  • Page 106 3.2 Normal Operating Parameters of Refrigerant System Under the following conditions, the operating parameters given in Tables 6-3.4 and 6-3.5 should be observed:  The outdoor unit can detect all the indoor units.  The number of indoor units displayed on DSP is steady and is equal to the actual number of indoor units installed. ...
  • Page 107 OUTDOOR UNITS SDV5-200-335EAS C O M M E R C I A L A I R C O N D I T I O N E R S S D V 5...
  • Page 108 SDV5-200EAS...
  • Page 109 Description Part Code Note Qty Price Code MODEL: SDV5-200EAS OUTDOOR UNIT Fan motor support 12227000001289 Top cover 12223000010788 Front panel 12223000013751 Partition board assembly 12227000010337 E-part box assembly 17227000004124 Outdoor main control board assembly 17122300003792 Communication modular converter assembly 17111200001301 Wire joint 17400401002616 Reactor...
  • Page 110 SDV5-224EAS...
  • Page 111 Description Part Code Note Qty Price Code MODEL: SDV5-224EAS OUTDOOR UNIT Fan motor support 12227000001289 Top cover 12223000010788 Front panel 12223000013751 Partition board assembly 12227000010337 E-part box assembly 17227000004123 Outdoor main control board assembly 17122300003794 Communication modular converter assembly 17111200001301...
  • Page 112 SDV5-260EAS...
  • Page 113 Description Part Code Note Qty Price Code MODEL: SDV5-260EAS OUTDOOR UNIT Fan motor support 12227000001289 Top cover 12223000010788 Front panel 12223000013751 Partition board assembly 12227000010337 E-part box assembly 17227000004123 Outdoor main control board assembly 17122300003794 Communication modular converter assembly 17111200001301 Wire joint 17400401002616 Reactor...
  • Page 114 SDV5-280EAS...
  • Page 115 Description Part Code Note Qty Price Code MODEL: SDV5-280EAS OUTDOOR UNIT Fan motor support 12227000001289 Top cover 12223000010788 Front panel 12223000013751 Partition board assembly 12227000010337 E-part box assembly 17227000004123 Outdoor main control board assembly 17122300003794 Communication modular converter assembly 17111200001301 Wire joint 17400401002616 Reactor...
  • Page 116 SDV5-335EAS...
  • Page 117 Description Part Code Note Qty Price Code MODEL: SDV5-335EAS OUTDOOR UNIT Fan motor support 12227000001289 Top cover 12223000010788 Front panel 12223000013751 Partition board assembly 12227000011035 E-part box assembly 17227000003566 Outdoor main control board assembly 17127000008676 Communication modular converter assembly 17111200001301 Wire joint 17400401002616 Reactor...
  • Page 120 SINCLAIR CORPORATION Ltd. 1-4 Argyll St. London W1F 7LD Great Britain www.sinclair-world.com This product was manufactured in China (Made in China). REPRESENTATIVE SINCLAIR Global Group s.r.o. Purkynova 45 612 00 Brno Czech Republic TECHNICAL SUPPORT SINCLAIR Global Group s.r.o. Purkynova 45...

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