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Zoncn H5000 Series User Manual

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H5000 Series User Manual

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Summary of Contents for Zoncn H5000 Series

  • Page 1 H5000 Series User Manual...
  • Page 3 Thank you for using H5000 Series Inverter. In order to make use of the functions full on the Inverter and ensure safety of user, please read this instruction carefully before installing, running, maintaining and checking Inverter. This instruction divides safety cautions into Danger and Warning, please pay special attention to the symbols “...
  • Page 4 Operation Instruction of H5000 Series Inverter TABLE OF CONTENTS Chapter 1 Safety Cautions ............1 1-1 Confirmation on Receiving ..........1 1-2 Moving and Installation ............1 1-3 Wiring and Junction .............2 1-4 Power on and Commissioning ..........4 1-5 Check and Maintenance ............5 1-6 Exception Processing ............5...
  • Page 5 TABLE OF CONTENTS 4-1-4 Main loop terminals and description .......19 4-2 Control terminal ..............21 4-2-1 Basic wiring diagram ..........21 4-2-2 Control terminals arrangement .......23 4-2-3 Control terminal description ........23 4-2-4 Control Loop Wiring Notice ........24 Chapter 5 Running ..............25 5-1 Digital Operating Panel .............25 5-1-1 Key function description ..........25 5-1-2 LED indicator light description ........26 5-1-3 Display Description ..........26...
  • Page 6 Appendix 2 Description of communication mode ....141 2-1. ASCII mode ..............141 2-2. RTU mode ...............141 2-3 Description of Register Address: ........142 2-4 Data address ..............142 2-4-1 Sample of using ASCII mode: .......143 Appendix 3 Common parameters for H5000 series drives ...145 Contents ‖ 3...
  • Page 7 Chapter 1 Safety Cautions Chapter 1 Safety Cautions 1-1 Confirmation on Receiving Warning All the products have gone by strictly checking and testing before delivery, but considering transportation, please verify: • Whether Inverter is distorted or damaged during transportation, do not install broken Inverter, and it may cause personnel injury, please inform our agent in time.
  • Page 8 Operation Instruction of H5000 Series Inverter • Please choose a safe location to install Inverter, and operation environment is shown as follows. Ambient temperature: -10℃-40℃ (non-freezing). Ambient humidity: max. 95% relative humidity (non-condensing) Ambient environment: indoors,(no corrosive gas, combustible gas, oil mist and dust.
  • Page 9 Chapter 1 Safety Cautions clamped may damage the wires and cause an electric shock. • Do not install the phase-shifting capacitor, surge absorber or noise filter in output terminal of Inverter, otherwise may cause Inverter fault. • Do not install switch devices in the output terminal of Inverter such as the air switch and contactor.
  • Page 10 Operation Instruction of H5000 Series Inverter the internal fault of Inverter. • Please do not test Inverter on pressure resistance. Otherwise it may cause the internal fault of Inverter. • Please install accessories such as brake units, brake resistors in accordance with the user’s instruction; otherwise it may cause Inverter fault or fire.
  • Page 11 Chapter 1 Safety Cautions • Please do not touch the heat sink and brake resistor, otherwise you may get burned. • Do not use wet hands to touch bottom plate and to operate switches and keys. Otherwise you may get an electric shock or injury. •...
  • Page 12 Operation Instruction of H5000 Series Inverter display of Inverter to find out causes and eliminate the fault, then reset and restart Inverter. If the fault is not eliminated. Resetting and restarting Inverter can cause Inverter s or machine fault. •...
  • Page 13 Chapter 2 Product Introduction Chapter 2 Product Introduction 2-1 Unpacking inspection In unpacking, please confirm the following: • Check whether the model type of Inverter is in accordance with your order. • Check whether Inverter is damaged and related accessories are completed.
  • Page 14 Operation Instruction of H5000 Series Inverter Items Description Rated Voltage, Three-phase 380V 50/60Hz; Frequency one-phase 220V 50/60Hz Input Allowed Voltage 380V: 330~440V; Range one-phase 220V: 170V~240V 380V: 0~380V; Voltage one-phase 220V: 0~220V Output Frequency 0.10~400.0Hz Control mode Space vector, V/F control Five-digit LED display, Indicator display;...
  • Page 15 Chapter 2 Product Introduction Items Description Eight multifunctional input terminals, 15 section Multiple Speed speed can be set Auto Stabilizer Option for auto Stabilizer Counter Built-in 2 group of Counters Constant torque 150% 1 minute, blowing Overload machine 120% 1 minute Over Voltage Over voltage protection can be set.
  • Page 16 Operation Instruction of H5000 Series Inverter Output Capacity Output Overload Applicable MODEL powet Current(A) capacity(60s) motor KW H5400P0055KN H5400P0075KN 182.4 H5400P0090KN H5400P0110KN H5400P0132KN H5400P0160KN H5400P0185KN H5400P0200KN H5400P0220KN H5400P0250KN H5400P0280KN 2-5 Product storage Inverter must be put in the package before installation. If Inverter is...
  • Page 17 Chapter 3 Installation of AC motor speed Controller Chapter 3 Installation of Inverter 3-1 Installation environment and requirements Environment of installation has direct effect on the life span and usage of Inverter. If Inverter is used in the environment that does not accord with allowed range of the operational instruction, and may lead to Inverter protection or fault.
  • Page 18 Operation Instruction of H5000 Series Inverter inspection and maintenance, and in the incombustible substance of solid. Apart from heating unit (as break resistor). (10) Preserve enough space for Inverter installation, especially for multiple Inverter installation. Please pay attention to the position of Inverter, and install an extra heat sink to keep environment temperature lower than 45℃.
  • Page 19 Chapter 3 Installation of AC motor speed Controller Correct installation position of hte fan Incorrect installation position of hte fan 3-2 The outline and installation size Unit: mm Model Install Casing H5400P07D5K 185 260 170 168 Plastic H5400P0011K H5400P0015K 210 330 190 195 H5400P0018K Semi...
  • Page 20 Operation Instruction of H5000 Series Inverter Model Install Casing H5400P0090KN H5400P0110KN 380 625 650 252 250 H5400P0132KN H5400P0160KN 430 825 850 336 250 H5400P0185KN H5400P0200KN 500 845 860 360 370 Iron H5400P0220KN Case H5400P0200KN1 H5400P0220KN1 530 800 860 335 +200...
  • Page 21 Chapter 4 Wiring Chapter 4 Wiring The wiring of Inverter can be divided into main loop and control loop. 4-1 Main loop wiring 4-1-1 External Components Description AC power supply. Please adopt three-phase AC power supply in accordance allowed regulation of the converter. Air switch:Non-fuse circuit breaker (MCCB) or residual current circuit breaker.
  • Page 22 Operation Instruction of H5000 Series Inverter (1) AC power supply Please supply power with the appointed power supply in the operational instruction. (2) Non-fuse circuit breaker: (MCCB) When the power supply voltage is low or short circuit of input terminal takes place, the breaker can provide protection, inspection and maintenance.
  • Page 23 Chapter 4 Wiring To select the brake resistor, please refer to section 2, chapter 9: Brake resistor configuration. 4-1-2 Main Loop Wiring Notice (1) Specifications of the circuit in wiring shall be in accordance with the regulations of electrical code. (2) Please do not connect the AC with the output terminal (u, v, w) of Inverter;...
  • Page 24 Operation Instruction of H5000 Series Inverter than 30 meters. If the distance is a long way, the impulse current which is produced by parasitical capacitance will lead to over current protection, or will produce wrong order may cause Inverter fault or running abnormity of the equipment. The maximum distance between Inverter and the motor shall not be over 100 meters.
  • Page 25 Chapter 4 Wiring Motor Main circuit Contactor Model Breaker (A) (KW) diameter (mm H5400P0018K 18.5 H5400P0022KN H5400P0030KN H5400P0037KN H5400P0045KN H5400P0055KN H5400P0075KN H5400P0090KN H5400P0110KN H5400P0132KN H5400P0160KN *The above data is only for reference. 4-1-4 Main loop terminals and description If you open the outer casing of Inverter, you will see the main loop terminals.
  • Page 26 Operation Instruction of H5000 Series Inverter 4-1-4-1 Main loop terminals and description Name Function description Grounding terminal Power supply input terminal, one-phase 220V, select any two of R, S, T the terminals to connect DC voltage positive terminal Remove the connecting sheet between P1 and P/+ to connect with DC reactor.
  • Page 27 Chapter 4 Wiring Note: The grounding terminal is on the casing next to the main loop terminal, and it is a screw hole on the steel plate marked with 4. DC current reactor connection P/+ P1 P/+ P1 Remove DC current reactor A.
  • Page 28 Operation Instruction of H5000 Series Inverter (1) Models below 18.5KW Motor Power supply input Grounding connect DC reactor To connect brake resistor Forward rotation Reverse rotation < - > Multifunctional output terminal +10V 10KΩ frequency setup power supply 0-10V frequency setup...
  • Page 29 Chapter 4 Wiring 4-2-2 Control terminals arrangement Model 5.5KW or above FWD REV SC S6 RS+ RS- 24V M01 M02 SC 10V FIV FIC FC FOC FOV FC YB YC 4-2-3 Control terminal description Terminal Function description Note name Forward rotation command input terminal (multifunctional input terminal) Reverse rotation command input terminal (multifunctional input terminal)
  • Page 30 Operation Instruction of H5000 Series Inverter Analog signal shared terminal Digital signal shared terminal Multifunctional output terminal Multifunctional output terminal Multifunctional output terminal (normally closed) 250V AC/3A, Multifunctional output terminal 30V DC/3A (normally closed) Multifunctional YA, YB output contact mutual terminal...
  • Page 31 Chapter 5 Running Chapter 5 Running 5-1 Digital Operating Panel Main Display: Such as Setting Frequency, Status Indicator Lights Running Frequency Voltage, Current, Fault Potentiometer Function Mode /Display State Switch Shift / Enter Key Figure Modify Key / Up and Down Key Stop / Fault Reset Key Forward Mode Reverse Mode...
  • Page 32 Operation Instruction of H5000 Series Inverter Key name Function description Stop command key (apply to operating panel control state), STOP fault reset key RESET Forward rotation command key Reverse rotation command key 5-1-2 LED indicator light description Indicator Indicator Description...
  • Page 33 Chapter 5 Running Display Description FOUT Display: Output frequency 0.5Hz Display: Parameter F1.50 Display: Parameter setup is modified and confirmed successfully Display: Fault code, over current in OC 1 acceleration 5-2 Operational Instruction of Digital Operating panel (1) Parameter setup.(taking modifying F1.04 as example) Program Key name Display...
  • Page 34 Operation Instruction of H5000 Series Inverter Program Key name Display Description The flashing is shifted 2 positions to the left. ENTER Quickly press Note: Quick pressing means twice (Quick press the pressing means shift.) time is within 2 seconds. The value...
  • Page 35 Chapter 5 Running Program Key name Display Description FREF Setup frequency Power on display state FREF Setup frequency Rotate 5.0Hz FREF Forward running of the frequency is on. FOUT Shift to actual Press running frequency display picture once Modify setup FOUT frequency, the actual Rotate...
  • Page 36 Operation Instruction of H5000 Series Inverter Program Key name Display Description Display F00.04 Press and hold which means the running rotation ENTER speed is 140 DRV FREF Return to main display picture, the Press setup frequency is 15Hz RDY FREF...
  • Page 37 Chapter 5 Running 5-3-2 Wiring inspection According to the wiring requirements of Inverter, check if there are errors. After confirming there is no mistake, turn on power supply to set up parameters. 5-3-3 Parameter setup The basic parameter setup of running Inverter must have frequency setup and running signal source setup, in order that they can start Inverter on one hand, and indicate running speed of Inverter on the other hand.
  • Page 38 Operation Instruction of H5000 Series Inverter Chapter 6 Table of Functional Parameters **Setting F3.15~F3.22 for 27 to 30, F3.30~F3.33 and F20~F74 are only for P+ series Code Name Description Unit Default The screen displays F0.00 0-32 option setup F0.01 Frequency setup Read only F0.02 Output frequency...
  • Page 39 Chapter 6 Table of Functional Parameters Code Name Description Unit Default 0: digital frequency setup 1: Analog voltage setup 2: Analog current setup Option for frequency F1.01 3. Keyboard POT setup setup 4. UP/DOWN setup 5.RS485 communication frequecy setup 0: Keyboard F1.02 Option for running setup 1: IO terminal 2: Communication...
  • Page 40 Operation Instruction of H5000 Series Inverter Code Name Description Unit Default 0/1 regular start/re start after F2.00 Option of start mode inspection F2.01 Option for stop mode 0/1 ~ slow down/auto stop F2.02 Setup of start frequency 0.10 ~ 10.00Hz 0.01...
  • Page 41 Chapter 6 Table of Functional Parameters Code Name Description Unit Default F3.02 FIV input filter time 0~25.0S FIC minimum current F3.03 0~FIC maximum current input FIC maximum current FIC minimum current F3.04 20.0 input input~20mA F3.05 FIC input filter time 0~25.0S FOV minimum voltage F3.06...
  • Page 42 Operation Instruction of H5000 Series Inverter Code Name Description Unit Default 12: Multi-section terminal 4 13: 13: Acc/De terminal 1 14: 13: Acc/De terminal 2 15: Frequency increase signal Input terminal REV F3.16 16: Frequency decrease (0~32) signal 17: Emergency stop signal...
  • Page 43 Chapter 6 Table of Functional Parameters Code Name Description Unit Default 29: Water supply by constant Output terminal FOV F3.26 voltage (0~32) “1” effective “2” ineffective 0: Frequency output 1: Current output 2: DC voltage Output terminal FOC 3: Ac voltage F3.27 (0~7) 4 pulse output, 1impulse/HZ...
  • Page 44 Operation Instruction of H5000 Series Inverter Code Name Description Unit Default Intermediate value of F4.08 0~65000 counter Limitation of F4.09 0~200% 150% acceleration torque Limitation of constant F4.10 0~200% speed torque Prevent over-voltage in F4.11 deceleration Option for automatic F4.12...
  • Page 45 Chapter 6 Table of Functional Parameters Code Name Description Unit Default F4.30 Frequency reach width 0.00-2.00 0.01 0.50 F4.31 Jump frequency 1 0.00-upper frequency 0.01 F4.32 Jump frequency 2 0.00-upper frequency 0.01 F4.33 Jump frequency width 0.00-2.00 0.01 0.50 Up/Down frequency F4.34 0~10.00Hz 0.01...
  • Page 46 Operation Instruction of H5000 Series Inverter Code Name Description Unit Default Multi-section speed 0.00 ~ maximum running F5.11 0.01 50.00 terminal 9 frequency Multi-section speed 0.00 ~ maximum running F5.12 0.01 10.00 terminal 10 frequency Multi-section speed 0.00 ~ maximum running F5.13...
  • Page 47 Chapter 6 Table of Functional Parameters Code Name Description Unit Default 0: PID prohibited 1: PID open F6.00 PLD start mode 2: Conditional running of PID. PID is open when external terminal is effective. 0: Negative feedback mode of PID F6.01 PID running mode 1: Negative and positive feedback mode of PID...
  • Page 48 Operation Instruction of H5000 Series Inverter Code Name Description Unit Default Digital number PID F6.15 display Digital number of F6.16 decimal figure of PID display PID upper limit 0~maximum running F6.17 0.01 48.00 frequency frequency PID lower limit 0~maximum running F6.18...
  • Page 49 Chapter 6 Table of Functional Parameters Code Name Description Unit Default F6.28 Time second setting 0 ~ 60 F6.29 Time minute setting 0 ~ 60 F6.30 Time hour setting 0 ~ 24 F6.31 Time day setting 1 ~ 31 F6.32 Time month setting 1~ 12 F6.33 Time year setting 00 ~ 99...
  • Page 50 Operation Instruction of H5000 Series Inverter Code Name Description Unit Default F6.57 Start time T6 00 ~ 23:59 F6.58 Start time T7 00 ~ 23:59 F6.59 Start time T8 00 ~ 23:59 F6.60 Pressure 1 00 ~ 23:59 F6.61 Pressure 2 00 ~ 23:59 F6.62 Pressure 3...
  • Page 51 Chapter 6 Table of Functional Parameters Code Name Description Unit Default Setup of guaranteed F8.03 Change Change level of over voltage Setup of guaranteed F8.04 Change Change level of low voltage Setup of guaranteed F8.05 level of over 40~120℃ 85/95℃ temperature Setup of displaying F8.06...
  • Page 52 Operation Instruction of H5000 Series Inverter Chapter 7 Detailed Explanations of Parameters 7-1 Parameters for Monitoring Display option setup F0.00 default 00 Display frequency setup Display frequency output Display current output Range Display rotation rate output/ PID target value 00-32...
  • Page 53 Chapter 7 Detailed Explanations of Functional Parameters F0.02 Output frequency Display the present output frequency of Inverter. You can monitor present output frequency of Inverter by examining parameter F0.02. F0.03 Current output Display the present output current of Inverter. You can monitor present output current by examining parameter F0.03.
  • Page 54 Operation Instruction of H5000 Series Inverter Record the latest four errors of Inverter. You can check condition of latest four errors by examining F0.10 to F0.13. These four parameters can help user make a judgment on the running condition of Inverter and find the cause of production error and eliminate concealed trouble.
  • Page 55 Chapter 7 Detailed Explanations of Functional Parameters Step Press key Display Explanation A. Inverter is in standby mode. FREE B. The main image is Turn on displaying setup frequency. power C. the main image is displaying setup frequency when FREE light is on Start Inverter A.
  • Page 56 Operation Instruction of H5000 Series Inverter 7-2 Parameters for basic running F1.00 Setup of dominant frequency default: 0.00Hz Range 0.00-uppper frequency Unit 0.01 When F1.01 is set for 0, which is frequency setup option. When the setup mode is figure digital frequency, running frequency of Inverter is decided by F1.00.
  • Page 57 Chapter 7 Detailed Explanations of Functional Parameters of external voltage signal: one is designated signal ranging from 0 to 10V; the other is designated by POT. Refer to the following diagram for connection method. Motor Three phase power supply 0-10V Explanation: control the running frequency of Inverter from 0 to 10V by FIV or FC Three phase...
  • Page 58 Operation Instruction of H5000 Series Inverter Press: switch between Turn: change running monitoring images frequency 4: UP/DOWN setup The running frequency is controlled by external UP/DOWN terminal. External terminals can be selected from F3.15 to F3.22, been selected one of external terminals as UP/DOWN. When UP is Effective, the frequency will go up.
  • Page 59 Chapter 7 Detailed Explanations of Functional Parameters be controlled by the FWD key (Forward) and REV (Reserve) key in operating panel of Inverter. Press stop key to stop running of Inverter. Press Procedure Display Explanation Turn on Presume the frequency is power set at 10.0Hz A.
  • Page 60 Operation Instruction of H5000 Series Inverter Parameter: F3.15=6 F3.16=7 Actuating explanation: Shape and condition Condition of Inverter Forward Stop Reverse Keep running condition B. Three-wire-system mode Three phase Motor power supply Use S1, S2, or S3 as input terminal for external signal Parameter: F3.17=6 S1 is in forward...
  • Page 61 Chapter 7 Detailed Explanations of Functional Parameters Serial interface sends running command to Inverter. Inverter will receive command from upper computer by serial interface. F1.03 Setup of stop key default 1 Range Unit Content 0: stop key is ineffective 1: stop key is effective When the running setup option is 1 or 2, equals the running command coming from external terminal or RS485, you can set stop STOP...
  • Page 62 Operation Instruction of H5000 Series Inverter F1.04 Setup of reverse default 1 Range Unit 0: Reverse prohibited Content 1: Reverse allowed Many machines only allow one single direction of rotation but not reverse; otherwise, mechanical fault or accident may take place.
  • Page 63 Chapter 7 Detailed Explanations of Functional Parameters operation. You can put a limit to the minimum running frequency by the parameter. If the setup frequency signal is below that limit, Inverter will still output minimum frequency. Inverter operates at frequency between minimum running frequency and maximum running frequency, which can prevent false actuating and prevent overheat of motor caused by low running frequency.
  • Page 64 Operation Instruction of H5000 Series Inverter F1.11 V/F intermediate voltage default * V/F minimum voltage ~ V/F Range Minimum unit 0.1 maximum voltage F1.12 V/F intermediate frequency default 2.5 V/F minimum frequency ~ V/F Range Minimum unit 0.01 fundamental frequency F1.13 V/F minimum voltage...
  • Page 65 Chapter 7 Detailed Explanations of Functional Parameters F1.10: Standard V/F frequency Please set according to the rated running voltage frequency of motor. Do not change standard V/F frequency setup. Otherwise, that may damage motor. F1.11: intermediate V/F voltage Set intermediate V/F voltage according to the specific load. Improper setup will cause over current of motor or insufficient output of torque, or even will cause protection of Inverter.
  • Page 66 Operation Instruction of H5000 Series Inverter Parameter F1.07 F1.08 F1.11 F1.15 Model H5400P5D5K H5400P7D5K H5400P0011K H5400P0015K H5400P0018K H5400P0022KN H5400P0030KN H5400P0037KN H5400P0045KN H5400P0055KN H5400P0075KN H5400P0090KN H5400P0110KN H5400P0132KN H5400P0160KN H5400P0185KN H5400P0200KN H5400P0220KN H5400P0250KN H5400P0280KN F1.15 Carrier frequency default * Range 1-15 unit 1 Carrier frequency decides the switch frequency of power module in Inverter.
  • Page 67 Chapter 7 Detailed Explanations of Functional Parameters on environment. Therefore, when environment does not allow Inverter running with noise, you shall increase the value of F1.15. The maximum load of Inverter will decrease. For further occasion between motor and Inverter, you shall lower the value of F1.15 to decrease power leakage in wires and between wire and ground.
  • Page 68 Operation Instruction of H5000 Series Inverter F2.00 Options of start mode default 0 Range minimum unit 0: Start at start frequency Content 1: Racing start There are two start modes for Model A. P. H. You can select from F2.00 according to the condition of machinery.
  • Page 69 Chapter 7 Detailed Explanations of Functional Parameters 0: Decelerate to stop Content 1: Free running stop You can choose a suitable stop mode according to the actual load. 0: Deceleration stop Once Inverter receives stop command, it will carry out deceleration according to the deceleration time and decrease output gradually until the output frequency reaches the frequency for stop.
  • Page 70 Operation Instruction of H5000 Series Inverter Setup frequency Start frequency Running command F2.03 Stop frequency setup default 0.5 Range 0.10-10.00 Unit 0.01 When Inverter receives stop command, it will begin to carry out deceleration and decrease output gradually according to the fixed time until reaching stop frequency.
  • Page 71 Chapter 7 Detailed Explanations of Functional Parameters load stay in stop mode before starting, and then start Inverter. This procedure can prevent over current protection. DC braking current in start means that is the ratio of rated current of Inverter. Adjusting F2.04 will get different braking torque. While setting value of parameter, you can adjust it from low to high until reaching sufficient braking torque according to the actual load.
  • Page 72 Operation Instruction of H5000 Series Inverter F2.08 Automatic torque compensation default 5% Range 0.1-20% Unit Adjusting parameter F2.08 will increase voltage and obtain higher torque. Attention: increasing torque by a great margin may make motor heated. Set proper increasing voltage according to the actual load.
  • Page 73 Chapter 7 Detailed Explanations of Functional Parameters F2.09 rated voltage of motor Please set rated voltage of motor according to voltage value on nameplate. F2.10 rated current of motor Please set rated current of motor according to the current value on the nameplate.
  • Page 74 Operation Instruction of H5000 Series Inverter F2.19 Mutual inductance of rotor default 0 Range 0-1.000 Unit 0.001 The above parameters are of motor. F2.15 Rated frequency of motor Please set rated frequency of motor according to motor nameplate. F2.16 Resistance of stator F2.17 Resistance of rotor...
  • Page 75 Chapter 7 Detailed Explanations of Functional Parameters F3.02 input filter time Value of input filter time decides the analog response speed of Inverter. With the increasing value of F3.02, Inverter will get slower for responding of analog change. F3.03 FIC minimum current input default 0 Range 0~FIC maximum current input...
  • Page 76 Operation Instruction of H5000 Series Inverter Output frequency For current signal higher than 20mA, the converter will treat it as 20mA. 50Hz (F3.12) Current signal 4 mA 20 mA (F3.10) F3.03 F3.04 The Parameters: F3.03=4 F3.04=20 F3.10= 0 F3.12= 50 F3.06...
  • Page 77 Chapter 7 Detailed Explanations of Functional Parameters F3.08 FOC minimum current output default 0 Range 0-FOC maximum current output Unit F3.09 FOC maximum current output default 20.0 Range FOC minimum current output-20.0mA Unit F3.08 and F3.09 decide the range of output current of FOC terminal.
  • Page 78 Operation Instruction of H5000 Series Inverter F3.11 direction of lower analog Direction of lower analog decides the running condition (forward or reverse) in low frequency. F3.12 Analog high-end frequency Analog high-end frequency determines high-end running frequency, and is corresponding to analog maximum voltage (current) input.
  • Page 79 Chapter 7 Detailed Explanations of Functional Parameters F3.13=0 Analog high-end direction: 0 (forward); F3.14=1 Analog reverse option: 1 (negative bias voltage can be reversed). Attention: In various curves, switching instructions of forward and reverse remains effective. When forward and reverse are switched, the curve will be reversed, and the diagram of curve is as follows: 50Hz 50Hz...
  • Page 80 Operation Instruction of H5000 Series Inverter F3.15 Multifunction input terminal---FWD terminal Default 6 F3.16 Multifunction input terminal---REV terminal Default 7 F3.17 Multifunction input terminal---S1 terminal Default 1 F3.18 Multifunction input terminal---S2 terminal Default 18 F3.19 Multifunction input terminal---S3 terminal Default 15 F3.20 Multifunction input terminal---S4 terminal...
  • Page 81 Chapter 7 Detailed Explanations of Functional Parameters be effective, running status will reverse Motor The parameters: F1.02=1, F3.15=6, F3.16=4 Terminal status Running condition Forward Reverse Stop 5: Run Set terminal as running signal. 6: Forward Define terminal as forward. When the terminal is effective, Inverter will forward.
  • Page 82 Operation Instruction of H5000 Series Inverter The concrete speed is determined by status of multi-speed one, two, three and four. Multi-function terminal Multi- Multi- Multi- Multi- Status and Explanation speed speed speed speed three four Primary frequency, determined by F1.00 or potentiometer Multi-speed terminal one (F5.03)
  • Page 83 Chapter 7 Detailed Explanations of Functional Parameters 15. Frequency is increasing signal (Up signal) When this terminal is effective, the frequency increases with even speed until operational frequency is the highest. 16. Frequency is decreasing signal (Down signal) When this terminal is effective, the frequency decreases with even speed until operational frequency is the lowest.
  • Page 84 Operation Instruction of H5000 Series Inverter 21. Timer 1 starts up 22. Timer 2 starts up When this contact closes, timer starts up and begins counting, when the timer reaches set value, corresponding multifunction outputs contacting action. 23. Counter pulse input This terminal may accept pulse signals no more than 250 Hz.
  • Page 85 Chapter 7 Detailed Explanations of Functional Parameters Frequency Preset frequency Time Running command Wingding action begins Winding ends Introduction: A. Detonating winding before winding action begins; B. When winding ends, Inverter will output C. When Inverter stops, winding ends of multi- terminal output will reset automatically.
  • Page 86 Operation Instruction of H5000 Series Inverter 2: Frequency arrival When frequency arrives at preset value, this contact will take action. 3: In fault When Inverter detects abnormal point, the contact will take action. The contact can be alarming. 4: Zero-speed When frequency output is less than start frequency, the contact will take action.
  • Page 87 Chapter 7 Detailed Explanations of Functional Parameters 9. Low-voltage alarm When Inverter detects that DC bus is lower than preset value, this contact will take action and alarm, low-voltage alarming preset value can be set through advanced application parameter group. 10: Timer 1 arrival 11: Timer 2 arrival When Inverter arrives at preset value, the contact will take action.
  • Page 88 Operation Instruction of H5000 Series Inverter When FIC input signal is disconnected, the contact will take action and alarm. 17: Overload detection When Inverter detects the motor with overload, the contact will take action. 18: Over torque detection When Inverter detects over torque, the contact will take action.
  • Page 89 Chapter 7 Detailed Explanations of Functional Parameters 0: Output frequency: Current (voltage) output is corresponded to minimum running frequency -------maximum running frequency. 1: Output current Current (voltage) output is corresponded to 0---2×rated current of Inverter. 2: Direct voltage Current (voltage) output is corresponded to 0---1000V. 3: Across voltage Current (voltage) output is corresponded to 0---510V.
  • Page 90 Operation Instruction of H5000 Series Inverter 7-5 Auxiliary application group F4.00 Jog frequency setting default 5.00 Setup range 0.00---maximum running frequency Unit 0.01 Jog frequency setting is suitable for test running. Jog function can run only by external terminal selected at will.
  • Page 91 Chapter 7 Detailed Explanations of Functional Parameters Setup range 0-6500 unit 2 groups of counter in Inverter can accept pulse signal less than 250Hz through multi-function terminal. When the value reaches presetting in counter, corresponding multi-function output terminal will take action, and input terminal of counter will reset signal through the counter, witch will recounting again.
  • Page 92 Operation Instruction of H5000 Series Inverter until coming back normal level, Inverter accelerates to set frequency (100% current is rated current of Inverter). When F4.10 is set for 0, constant-speed torque limited level is ineffective and cannot be protected. Current F4.10...
  • Page 93 Chapter 7 Detailed Explanations of Functional Parameters F4.12 Automatic voltage stabilizer default 1 Range Unit Content 0: Ineffective 1: Effective 2: Ineffective in deceleration When motor runs under the condition of instable input electric, temperature will increase, insulation will be damaged, and output torque will be instable in motor 0: Ineffective Choose ineffective of automatic voltage stabilizer, Inverter output...
  • Page 94 Operation Instruction of H5000 Series Inverter Attention: When load changes frequently or almost full load, this function will not be suitable. F4.14 and F4.15 are only for built-in braking unit in Inverter, not for external braking unit. The two parameters above set internal DC high voltage standard level and ratio of braking action of Inverter.
  • Page 95 Chapter 7 Detailed Explanations of Functional Parameters F4.16 Restart after instant power off default 0 Setup range Unit 0: Ineffective: no restart after instant power off Content 1: Effective: frequency tracking start 0: Ineffective In effectiveity, Inverter auto removes running commands after power is off.
  • Page 96 Operation Instruction of H5000 Series Inverter F4.17 Allowable time of power cut default 5.0 Setup range 0-10.0 Minimum unit F4.17 in setting allowable time of power cut, if time of power cut is over set value, “restart after instant power off” will be ineffective.
  • Page 97 Chapter 7 Detailed Explanations of Functional Parameters F4.21 Restart time with error default 2 Range 0-100 Unit After abnormity (such as over current, over-voltage) takes place, Inverter will auto reset (effectiveity in non-zero of F4.20). After the period time set by F4.21, Inverter will start up according to presetting start mode (F2.00).
  • Page 98 Operation Instruction of H5000 Series Inverter is detected, Inverter will not handle it and continue running. 3: Inverter begins to detect over torque on running. When over torque is detected, Inverter will stop. F4.23 Over torque detection level default 0...

  • Page 99: Table Of Contents

    Chapter 7 Detailed Explanations of Functional Parameters Arrival frequency setting Multi-funcion output F4.27 No. 1 timer default 0 Range 0.0-6000.0S Minimum unit F4.28 No. 2 timer default 0 Range 0.0-6000.0S Minimum unit When two timers which are common one reaches set value (set by F4.27 and F4.28), corresponding multi-function terminal will take action.

  • Page 100: Range 0-6000.0S

    Operation Instruction of H5000 Series Inverter resonance point, resonance frequency may be overleaped through F4.31-F4.33 to achieve the purpose of avoiding resonance. Set two jump frequencies totally. To provide convenience for customer, jump broad width can be set at will by F4.33 as follows: F4.31...

  • Page 101: Default 0

    Chapter 7 Detailed Explanations of Functional Parameters Inverter will not store status before the stopping. After restarting, running status will begin from initial state. 1: Stored In the running of PLC program, F5.00 will choose to store. When it stops because of error or other reasons, Inverter will store status before running.

  • Page 102: Default 10.0

    Operation Instruction of H5000 Series Inverter 0: PLC stops after running for a week 1: PLC pause mode, stops after running for a week 2: PLC cycle running Content 3: Cycle running of PLC pause mode 4: After running for a week, PLC continues running by the...

  • Page 103: Unit

    Chapter 7 Detailed Explanations of Functional Parameters F5.17 Multi speed terminal 15 default 10.0 Range 0.00-----Maximum running frequency Unit 0.01 F5.03 ----- F5.17 is set of 15 speed of rated frequency in the running. Regarding relationship Multi speed and external terminal please refer to rated instruction 1, 2, 3, 4 of multifunctional end.
  • Page 104 Operation Instruction of H5000 Series Inverter parameter will be only effective when the PLC is on. For example: there is a five-part rate, the circling running is required as follow: Running Running Items Running frequency direction period Dominant frequency Adjustable potentiometer...
  • Page 105 Chapter 7 Detailed Explanations of Functional Parameters The binary system number 01010 is changed into decimal system number: 1×2 +1×2 +8=10 F5.33=10 The parameter defines to: F1.01=3 (Keyboard potentiometer setting mode: dominant frequency is controlled by potentiometer) F1.02=1 (Running setting option: multifunctional terminal input) F1.05=60 (The maximum running frequency is 60HZ)
  • Page 106 Operation Instruction of H5000 Series Inverter Ceasing Frequency Frequency motor controller Time Instruction: A. Press K1 to start running with the frequency by potentiometer. B. Press K3 to start PLC running from first part by program until run a circle, and the stop.
  • Page 107 Chapter 7 Detailed Explanations of Functional Parameters 2. The jump frequency is decided by F5.17. 3. Running time is decided by F5.18 、 F5.19. 4. F5.35=1start this function. 7-7 Auxiliary application group (PID) F6.00 PID start mode default 0 Range Unit 0: Ineffective PID off 1: Effective PID on...
  • Page 108 Operation Instruction of H5000 Series Inverter 0: Select numeric target value 1: Choose FIV as target Content value 2: Choose FIC as target value F6.02 is set the source of target value, model A. P. H. can choose three ways. Target value can set by Inverter, external terminal, voltage, current input, and etc.
  • Page 109 Chapter 7 Detailed Explanations of Functional Parameters PID closed-loop control is used in the process of physical quantity with dull change such as control of pressure, temperature. Feedback signal is given from temperature transmitter, pressure transmitter. In case of PID control, the channel of feedback signal input is of analog current signal 4 –...
  • Page 110 Operation Instruction of H5000 Series Inverter Output Before regulation 2. Restraint output from oscillating Target value a: Decrease derivative time (D value) or set it as 0 After regulation b: Decrease the value of proportionality constant (P) Time F6.04 Target Value...
  • Page 111 Chapter 7 Detailed Explanations of Functional Parameters F6.08 PID I value default: 0.3s Range 0.0 – 200.0S Unit 0.1s I value (integration time) sets the response speed of action. The more I value is, the slower the response speed is. If I value is set litter, oscillation will happen by rapid response.
  • Page 112 Operation Instruction of H5000 Series Inverter to operate the duration in stand-by frequency. Under such situation when it’s running time over F6.12 setting value (stand-by duration), controller will enter stand-by status and stop outputting, turn off PID. But still continually to monitor F6.13 PID feedback status.
  • Page 113 Chapter 7 Detailed Explanations of Functional Parameters 0: Not display after decimal point 1: Display 1 digit after decimal point Content 2: Display 2 digits after decimal point 3: Display 3 digits after decimal point 4: Display 4 digits after decimal point F6.14 sets PID corresponding value of display.
  • Page 114 Operation Instruction of H5000 Series Inverter of pressure regulating output value in correspondence with sett pressure loop value. F6.17 PID upper limit frequency When turn on PID and the controller running, if output frequency (FOUT) bigger than its parameter F6.17, and its duration more than one minutes.
  • Page 115 Chapter 7 Detailed Explanations of Functional Parameters frequency. However, when feedback achieves F6.05, PID will not start counting, but will choose minimum of frequency to working. But when it turns down F6.06, PID will start counting again. F6.20 KB1, KA1 default 2 F6.21 KB2, KA2 default 1...
  • Page 116 Operation Instruction of H5000 Series Inverter F6.31 Time day setting Range 1 ~ 31 Unit F6.32 Time month setting Range 1~ 12 Unit F6.33 Time year setting Range 00 ~ 99 Unit F6.34 A pump default 1 F6.35 B pump default 1 F6.36 C pump...
  • Page 117 Chapter 7 Detailed Explanations of Functional Parameters F6.41 Pressure allowance of pump up default 5.00 Range 0 ~ 25.0% Unit F6.42 Running frequency of pump up default 48.00Hz Range 0 ~ max frequency Unit 0.01 F6.43 Delay time of pump up default 10S Range 0 ~ 3600.0S...
  • Page 118 Operation Instruction of H5000 Series Inverter F6.49 Time of injunction gate default 1.0 Range 0 ~ 10 S Unit F6.50 Time of pull gate default 1.0 Range 0 ~ 10 S Unit F6.51 Circuit time default 480 Range 0 ~ 65535 min Unit 1.
  • Page 119 Chapter 7 Detailed Explanations of Functional Parameters Principle of time setting: T1 < T2 < T3 < T4 < T5 < T7 < T8 F6.68 Sleep section mode default 255 Range 0 ~ 255 Unit 1. It will be ineffective as setting for 0. 2.
  • Page 120 Operation Instruction of H5000 Series Inverter guaranteed for both parties in communication. F7.01 Mode of communication data default: 0 Range 0 – 5 Unit 0: 8N1 For ASC 1: 8E1 For ASC Content 2: 8O1 For ASC 3: 8N1 For RTU...
  • Page 121 Chapter 7 Detailed Explanations of Functional Parameters Start bit Stop bit 8-Data bits character string 10-bits character frame 10 – Bit character frame (For RTU) Data type: 8N1 For RTU Start bit Stop bit 8-Data bits character string 10-bits character frame Data type: 8O1 For ASCII Start bit Odd parity...
  • Page 122 Operation Instruction of H5000 Series Inverter Start bit ever parity Stop bit 8-Data bits character string 11-bits character frame 3. Structure of communication data Data format frame ASCII mode: Start character = ‘:’(3AH) Address Hi Communication address: 8-bit address consists of 2 ASCII codes...
  • Page 123 Chapter 7 Detailed Explanations of Functional Parameters 01H: For Inverter with 01st address 0FH: For Inverter with 15th address 10H: For Inverter with 16th address, by analogy, the maximum can reach 240. Function code and Data Characters 03H: Read out content of temporary storage 06H: Write a WORD into temporary storage.
  • Page 124 Operation Instruction of H5000 Series Inverter Address Address Function Function Number of data (count Starting data address by byte) Content of data Number of data (count address 8102H by word) Content of data CRC CHK Low address 8103H CRC CHK High...
  • Page 125 Chapter 7 Detailed Explanations of Functional Parameters Address Address Function Function Data address Data address Data content Data content CRC CHK Low CRC CHK Low CRC CHK High CRC CHK High LRC Check of ASCII mode LRC Check is the value added from Address to Data Content. For example, the LRC Check of the above 3.3.1 inquires message: 01H + 03H + 21H + 02H + 00H + 02H = 29H, then the complement of 2 (D7H) is taken.
  • Page 126 Operation Instruction of H5000 Series Inverter The following is the example of CRC Check running written in C language: unsigned char * data ←//Message instruction pointer unsigned char length ←//Length of message instruction unsigned int crc-chk(unsigned char * data,unsigned char length) int j;...
  • Page 127 Chapter 7 Detailed Explanations of Functional Parameters condition of electric network. F8.02 Selection of constant and variable torque default: 0 Range 0 – 1 Unit Content 0: Constant torque 1: Variable torque F8.02 can work switch constant torque, or variable torque, which is suitable for different loads, protection level and related parameter.
  • Page 128 Operation Instruction of H5000 Series Inverter This parameter setting is related to the stabilization of current display, please do not modify in general situation. If the setting is much lower, current display will fluctuate. F8.07 0 – 10V Analog output low-end correction factor...
  • Page 129 Chapter 8 Maintenance, Fault Diagnosis and Countermeasure Chapter 8 Maintenance, Fault Diagnosis and Countermeasure Please keep regular maintenance of Inverter for normal condition. 8-1 Daily checking items (1) Sound and vibration in motor. (2) Heat on motor. (3) Completion of power supply wire and machine electrical wire. (4) Completion of wire and connection of terminal wire.
  • Page 130 Operation Instruction of H5000 Series Inverter Checking items Checking content Countermeasure terminal, screw, loose Screw fasten connective plug Blow off with dry compressed Radiator dust air (4-6kgcm sound and vibration, Heat sinker and working duration Replace over 20,000 hours Blow off with dry compressed...
  • Page 131 Chapter 8 Maintenance, Fault Diagnosis and Countermeasure Chapter 8 Maintenance, Fault Diagnosis and Countermeasure Inverter has complete protective functions, such as over voltage, over currency, over load, over heat, short circuit to the ground, short circuit and etc. When Inverter gets error, there must be some reasons, please find out the reason and remove the error.
  • Page 132 Operation Instruction of H5000 Series Inverter Error Content Possible reason Solution code Over currency 1: Controller failed 1: Sent for repairing in stopping 1: Abnormal power 1: Check power supply supply voltage Over voltage in 2: improper circuitry 2: Do not use power...
  • Page 133 Chapter 8 Maintenance, Fault Diagnosis and Countermeasure Chapter 8 Maintenance, Fault Diagnosis and Countermeasure Error Content Possible reason Solution code 1: Over load 1: Reduce load or replace 2: Much shorter larger capacity of Controller over Acceleration time controller load 3: Much quicker torsion 2: Extend acceleration lifting...
  • Page 134 Operation Instruction of H5000 Series Inverter Error Content Possible reason Solution code 1: Loose terminal and 1: Check connection line 4-20mA broken bad connection and link the broken wire down wire Wrong 1.Parameters are set 1.Correct to set the Parameters...
  • Page 135 Chapter 8 Maintenance, Fault Diagnosis and Countermeasure Chapter 8 Maintenance, Fault Diagnosis and Countermeasure H: Motor is fault. Please check if the motor is broken down. I: Inverter is fault. Please check the mistake of Inverter. (3) Motor over heat Reason and solution: A: Higher temperature of environment.
  • Page 136 Operation Instruction of H5000 Series Inverter Reason and solution: A: Exchange both of three terminals U, V, W. on Inverter output B: Reverse the running controlling signal. If the original signal is positive, set it negative. (7) Inverter starts up and disturbs other settings...
  • Page 137 Chapter 8 Maintenance, Fault Diagnosis and Countermeasure Chapter 8 Maintenance, Fault Diagnosis and Countermeasure Generate electromagnetic noise to directly driving motor and transmit disturbance to power supply, and transmit it to other device through electronic net. Filter wave may solve the problems. (3)Inductance coupling Generate inductance coupling to other connections The concrete solution for disturbance...
  • Page 138 Operation Instruction of H5000 Series Inverter 8-8 Failure Records Status Failure Record Display figure Big letters “OC0” Big letters “OC1” IGBT gets over current in checking Big letters “OC2” Big letters “OC3” Small letters “oc 0” Small letters “oc 1”...
  • Page 139 Chapter 8 Maintenance, Fault Diagnosis and Countermeasure Chapter 9 External Fittings Selection Chapter 9 External Fittings Selection 9-1 The Purpose of Accessory Name Purpose Circuit breaker Protect connections of the controller for convenience, Leakage switch installation, protection and maintenance. Magnetic Guarantee switching power supply of controller from contactor damage...
  • Page 140 Operation Instruction of H5000 Series Inverter DC reactor parameter Suitable Controller type power Rated currency (A) Inductance value (mH) H5400P0132KN 0.26 H5400P0160KN 0.18 H5400P0185KN 0.12 H5400P0200KN 0.12 H5400P0220KN 0.12 H5400P0250KN 0.11 H5400P0280KN 0.11 Install connection: Motor Motor Power Power Supply...
  • Page 141 Chapter 9 External Fittings Selection AC reactor parameter Suitable Controller type power Rated currency (A) Inductance value (mH) H5400P0160KN 0.04 H5400P0185KN 0.04 H5400P0200KN 0.03 H5400P0220KN 0.03 H5400P0250KN 0.03 H5400P0280KN 0.02 Installation: Motor Powe supply Ground AC reactor 9-2-3 Braking resistance Braking resistance Controller Torsion...
  • Page 142 Operation Instruction of H5000 Series Inverter Braking resistance Controller Torsion CDBR (KW) Type (10% ED) Ω H5400P0185KN 9600×4 13.6×4 4045×4 H5400P0200KN 9600×5 13.6×5 4045×5 H5400P0220KN 9600×5 13.6×5 4045×5 H5400P0250KN 9600×5 13.6×5 4045×5 H5400P0280KN 9600×6 13.6×6 4045×6 Calculate of braking resistance value: The braking resistance value is related to the DC currency when Inverter braking.
  • Page 143 Appendix 1 Simple Application Example Appendix 1 Simple Application Example 1-1 Example Use external end (three phases) to control running of Inverter, use external terminal to switch rotation forward or reverse. The potentiometer controls frequency of Inverter. A: Basic connection illustration: Three phase Motor power supply...
  • Page 144 Operation Instruction of H5000 Series Inverter Frequency Running frequency (Controlled by protentiometer) Time K2 running forward K3 Stop Running frequency is controlled by potentiometer. 1-2 Multi control function of H5000 L3 QF14 101 KA2 KA3 KH1 KH2 自动 停止 手动...
  • Page 145 Appendix 1 Simple Application Example L1 L2 L3 N QF10 QF11 QF12 QF13 U1 V1 W1 U3 V3 W3 U4 V4 W4 U5 V5 W5 L1 L2 L3 N U3 V3 W3 U4 V4 W4 U5 V5 W5 三相四线制 1#泵 2#泵...
  • Page 146 Operation Instruction of H5000 Series Inverter F6.01=0 ------------------- ( negative feedback mode ) F6.02=0 ------------------- ( figure targeted value ) F6.03=0 ------------------- ( FIV as feedback value ) F6.20=2 ------------------- ( KB1, KA1 ) F6.21=1 ------------------- ( KB2, KA2 ) F6.22=4 ------------------- ( KB3, KA3 )
  • Page 147 Appendix 2 Description of communication mode Appendix 2 Description of communication mode FUNC 03 → Read 06 → Write 2-1. ASCII mode START ADDR FUNC DATA LRC 0D 0A Receive 2000,0001 XX 0D 0A 17bytes Send in 11+2*N 02, 0120 0D 0A normal N=2,4,6,8...
  • Page 148 Operation Instruction of H5000 Series Inverter 2-3 Description of Register Address: 1) 2000H: Stop command 2) 2001H: Setting command (0~400.00HZ) Frequency of F1.01=5 is from 2001H Frequency of F1.01=0 is from F1.00 3) For example: a) Functional code F0.03(Current) Address: 3 (Hexadecimal: 00H 03H) b) Functional code F0.05 (Speed)
  • Page 149 Appendix 2 Description of communication mode Frequency command 00000~40000 2001H BIT0~BIT15 Second position of Decimal point Write _48194 (F1.01=5 this data can work) 2-4-1 Sample of using ASCII mode: Preset: F1.01 = 5 (frequency source ); F1.02 = 2 (control mode); F7.00 = 1 (baud frequency 9600);...
  • Page 150 Operation Instruction of H5000 Series Inverter Received word signal HEX: 3A 30 31 30 36 32 30 30 30 30 30 30 31 44 38 0D 0A About the “44 38” calculation please follow the LRC in user’s manual. 2-4-2 Sample of using RTU mode: Preset: F1.01 = 5 (frequency source);...
  • Page 151 Appendix 3 Common parameters for H5000 series drives Appendix 3 Common parameters for H5000 series drives Value from Seeting NO Code Name 1T1 1T2 1T3 1T4 remark value factory Setting 1 F1.02 1: IO Terminal selection effectively 0: Prohibit 2 F1.04...
  • Page 152 Operation Instruction of H5000 Series Inverter Value from Seeting NO Code Name 1T1 1T2 1T3 1T4 remark value factory PID opening 1. PID opening 14 F6.00 modes modes 0. Negative PID Running 15 F6.01 feedback modes model 01: Choose the PID target 16 F6.02...
  • Page 153 Appendix 3 Common parameters for H5000 series drives Value from Seeting NO Code Name 1T1 1T2 1T3 1T4 remark value factory 0:No effective Type of A 26 F6.34 of the water Pump pump Type of B 1: controller of 27 F6.35...
  • Page 154 Operation Instruction of H5000 Series Inverter Value from Seeting NO Code Name 1T1 1T2 1T3 1T4 remark value factory the range precentage target according to the 37 F6.60 value for precessure,the precessuring total range is 100% The time dormancy any 38 F6.68...
  • Page 155 Appendix 3 Common parameters for H5000 series drives 1T2 Electrical schematics · ·...
  • Page 156 Operation Instruction of H5000 Series Inverter 1T2 Electrical schematics · ·...
  • Page 157 Appendix 3 Common parameters for H5000 series drives 1T3 Electrical schematics · ·...
  • Page 158 Operation Instruction of H5000 Series Inverter 1T3 Electrical schematics · ·...
  • Page 159 Appendix 3 Common parameters for H5000 series drives 1T4 Electrical schematics · ·...
  • Page 160 Operation Instruction of H5000 Series Inverter 1T4 Electrical schematics · ·...
  • Page 164 We reserve the right of this manual contained information change without prior notice 2013.12...

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