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Shenzhen Nowforever Electronics Technology E100S1R5 User Manual

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DK00 Series Inverter
User Manual V1.3

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Summary of Contents for Shenzhen Nowforever Electronics Technology E100S1R5

  • Page 1 DK00 Series Inverter User Manual V1.3...

  • Page 2: Table Of Contents

    Contents Inspection ....... 1 Sofeware updated description ..3 1 Summarize ...... 4 1.1 Description of Nameplate ..4 1.2 Selection guide ....5 1.3 Technology Criterion ... 6 1.4 Features ....... 8 2 Installation ....10 2.1 Installation Environment ..10 2.2 Installation direction and space11...
  • Page 3 2.3 Installation dimensions of inverter ........12 Installation dimension of keyboard ........14 3 wiring ......15...
  • Page 4 3.1 Connection of Periperal devices 15 3.2 Wiring Diagram ....16 3.2.1 Description of main circuit terminals ....16 3.2.2 Jumpers of control circuit17 3.2.3 Description of Control Circuit Terminals ....18 4 Operation ..... 20 4.1 Keypad Description .... 20 4.1.1 Key function description 21 4.1.2 Indicator light description ......
  • Page 5 4.2.4 Fault Alarm Reset ..26 4.2.5 Keyboard digital setting modify...
  • Page 6 rapid ......26 4.3 Quick debugging ....27 5 Detailed Function Description .. 28 5.1 P0 Function Group ..... 28 5.1.1 Basic Function ..28 5.1.2 Simple vector control parameter ......34 5.1.3 Input terminals ..37 5.1.4 Output terminals ..41 5.1.5 Keyboard setting ..
  • Page 7 5.1.11 Serial Communication Settings ......56...
  • Page 8 5.1.12 Built-in PLC Run Mode . 57 5.2 P1 Function Groups ( Function Codes modify Setting) ....64 5.3 P2 Function Groups(reserved) 65 5.4 d0 function groups(read only) 65 6 Fault and trouble shooting ..66 6.1 Fault and Alarm ....66 6.1.1 Fault Indication and Fault Reset ......
  • Page 9 7 Maintenance ....73 7.1 Inspect the inverter periodically73...
  • Page 10 7.2 Replacement of wearing parts .. 74 8 List of Function Parameters ..75 8.1 P0 function groups (users setup function codes)......75 P1 function groups(function codes modify setting) ....90 8.3 d0 Function Groups(fault information of history) ...... 90 Groups (...
  • Page 11 9.3 Examples of MODBUS Information 100...
  • Page 12 9.3.1 To read the contents of storage register ....100 9.3.2 Test circuit ..101 9.3.3 Write into multi-storage register ....102 9.3.4 Data saved instruction 103 9.3.5 Broadcast model sent data103 9.4 Inverter for slave ... 104 9.4.1 Instruction Data ..104 9.4.2 Monitoring Data ..
  • Page 13 Chart Index ....109...

  • Page 14: Inspection

    Inspection Inspection Check the following items when unpacking the inverter, 1. Ensure there is operation manual and warranty card in the packing box. 2. Inspect the nameplate and ensure it is what you ordered. 3. Ensure the optional parts are what you need if have ordered any optional parts.
  • Page 15 Inspection use,such as temperature, dust, corrosion and other non-compliance of the working conditions and overload operation , manufacturer is irresponsible.

  • Page 16: Sofeware Updated Description

    Sofeware updated description Sofeware updated description Firmware version updated for X902,mostly add “interior PLC run mode” relative to X901 version. Please refer to“5.1.12 built-in PLC run mode”.

  • Page 17: Summarize

    Summarize Summarize Please check the following items when unpacking the inverter, the nameplate and ensure it is what you ordered, the entire exterior of the inverter to ensure there are no scratches or other damage caused by the transportation, ensure there is operation manual and warranty card in the packing box.

  • Page 18: Selection Guide

    “d1 function groups”. 1.2 Selection guide Rated Output Motor Power Rated output Model (KW) power(KW) Current(A) E100S0R4 E100S0R7 0.75 0.75 E100S1R5 E100S2R2 10.0 Chart 1-3 220V series description Model Rated output Rated Output Motor Power...

  • Page 19: Technology Criterion

    Summarize (KW) power(KW) Current(A) E100T0R7G 0.75 0.75 E100T1R5G E100T2R2G E100T3R7P E100T3R7G E100T5R5P Chart 1-4 380V series description 1.3 Technology Criterion Items Criterion Frequency 0~600Hz Performance range Precision of output 0.01Hz frequency Distinguish Digital setting:0.01Hz. Analog setting : AD rate of setting switch precision for one in frequency...
  • Page 20 Summarize Items Criterion E100S series:150%rated current 60s;180%rated current 2s. E100T series(G model):150%rated current 60s;180%rated current 2s. Overload E100T series(P model):120%rated current 60s;150%rated capability current 2s. remark:may obtain the informations of model and power in “d1 function groups”. Control Mode Open-loop simple vector control Manual torque can be adjust;Auto-Torque upgrade the whole Torque boost frequency band.

  • Page 21: Features

    Summarize Items Criterion 1 relay output, up to 6 kinds of user defined functions;11 Output open-collector output, 6 user defined functions; Terminals 1 analog output, 4 kinds of user defined functions; can export voltage signal (0 ~ 10V). Protection Overvoltage,undervoltage external functions fault,overcurrent,overheating,overload...
  • Page 22 Summarize 3. Have a proportional, integral and differential (PID) control function of the closed-loop control, can be used for process control ,such as constant pressure water supply. 4. Built-in the function of the textile-specific swing band. 5. Fast current limit (FCL) function, to avoid undue running trip. 6.

  • Page 23: Installation

    Installation 2 Installation 2.1 Installation Environment There are vents or ventilation devices in indoor places. Ambient temperature -10 ℃ ~ 40 ℃. If the ambient temperature is bigger than 40 ℃, but lower than 50 ℃, may take off the cover board of inverter or open the front door cabinet, in order to reduce temperature.

  • Page 24: Installation Direction And Space11

    Installation Keep away from the electromagnetic radiation source. 2.2 Installation direction and space In order not to affect the life of converter and reduce its performance, it should be noted mounting direction and the surrounding space, and be properly fixed. >...
  • Page 25 Installation 2.3 Installation dimensions of inverter Chart 2-2 External dimension...
  • Page 26 Installation Installation Hole Weight Model (mm) (mm) (mm) (mm) (mm) (mm) (Kg) E100S0R4 E100S0R7 φ4.5 E100S1R5 E100S2R2 E100T0R4G E100T0R7G E100T1R5G φ4.5 E100T2R2G E100T3R7P E100T3R7G φ5.5 E100T5R5P Chart 2-3 list of External Dimension...
  • Page 27 Installation 2.4 Installation dimension of keyboard Face profile dimension Chart 2-4 installation dimension of keyboard(mm)...

  • Page 28: Connection Of Periperal Devices

    wiring 3 wiring 3.1 Connection of Periperal devices Power Supply Circuit breaker Contactor AC reactor Input filter Inverter DC reactor A T T E N T I O N : Ground R e a d t h e u s e r ' n s i s t r u c t i o n b e f o r e u s i n g t h e n v i e r t e r D o t c o n t a c t A C w e r t o t t t e r m i n a l s U V W Output filter Motor...

  • Page 29: Wiring Diagram

    wiring 3.2 Wiring Diagram 3 Phase ou tput 220V Input Inverter Main circuit terminals Multufunctional Digital Intput Relay Output Inverter COM control circuit terminals Multufunctional Analog Intput Digital Output Open-collector +12V AIN1 jump er AIN2 jumper AIN1 0-10V or 0-20mA 20mA 20mA AIN2...

  • Page 30: Jumpers Of Control Circuit17

    wiring 3.2.2 Jumpers of control circuit Name Function 10V:input signal of AIN1 for0~10V; AIN1 jumper 20mA:input signal of AIN1for4~20mA. 10V:input signal of AIN2 for 0~10V; AIN2 jumper 20mA:input signal of AIN2 for 4~20mA. Chart 3-4 Jumpers of control circuit...

  • Page 31: Description Of Control Circuit Terminals

    wiring 3.2.3 Description of Control Circuit Terminals Control panel interface, including digital input and output signals, analog input and output signals. Terminal Items Name Function Specifications Factory Multufunctional settings:forward Optical Intput<X1> Coupling Factory Insulation. Multufunctiona settings:reverse l Intput <X2> When X Factory terminal and Multufunctiona...
  • Page 32 wiring Terminal Items Name Function Specifications B node output node Capacity: MB—MC: AC250V, node less than node output 2A; common less DC30V, than Optical Factory setting: Open-collecto Coupling inverter output output1 running Optical Coupling Digital Optical Output Coupling Capacity: output DC36V ,...

  • Page 33: Operation

    Operation 4 Operation 4.1 Keypad Description Digital display Unit indicator light Handle box Up key Shift key ESC key Data enter key Run status indicator Down key Stop key Fault reset key Run key Dir key Jog key Chart 4-1 Keypad schematic diagram...

  • Page 34: Key Function Description

    Operation 4.1.1 Key function description Button Name Function symbol 1.Switch to system minitor state. MON/ Monitor/ 2.Escape to first-level menu. Escape key 3.In alarm state,clear away alarm. Data/ 1.Enter menu. ENTER nter key 2.Confirm modified data. 1.In fast monitor state,switch the monitor parameters.

  • Page 35: Indicator Light Description

    Operation 4.1.2 Indicator light description 4.1.2.1 Run state indication Indicator Indicator State Description Light Name Light State Light on Operating or JOG status The inverter is decreasing Flickering speed until stop. Extinguished stop status Light on Reverse state Switching to forward and Flickering reverse.

  • Page 36: Operation Process

    Operation 4.1.2.2 Unit indication In fast monitor state, indicate monitor unit and data. Data order Indication Range Unit Setting 0.00~600.00Hz light on 0.01Hz frequency Output 0.00~600.00Hz flickering 0.01Hz frequency Output current light on 0.1~2000.0A 0.1A Output voltage light on 0.1~2000.0V 0.1V DC bus 100~1000V...

  • Page 37: Fast-Monitoring

    Operation Operation state Main contents Fast monitor 5 kinds of run states. Including Fast monitor setting frequency, output frequency ,output current and so on. Function code Modify function code, the P function group of first-level menu. setting Information Inquire about information and run state .the d query function group of first-level menu.

  • Page 38: Function Codes Setting

    Operation chart 4-6 Fast-monitoring diagram 4.2.2 Function codes setting The function codes of P0、P1 function group in first-level menu are can read-write parameters, users can modify. ▲ me nu ▲ ENT ER EN TER ▼ ▼ F irst-leve l me nu E SC Fa st-monitoring Se cond-cla ss menu...

  • Page 39: Rapid

    Operation Chart 4-8 Information query diagram 4.2.4 Fault Alarm Reset If the inverter has fault or alarm, it will prompt the related fault information. Codes for the E001 to E030. If the inverter has E001 to E029 fault, please use the "reset button"...

  • Page 40: Quick Debugging

    Operation When inverter in a parking state, UP, DOWN monitor a given frequency in effect in the fast-monitoring mode; Inverter in running, UP, DOWN in effect in the fast-monitoring mode. 4.3 Quick debugging Set the basic function code in operation ,refer to the following diagram .

  • Page 41: Detailed Function Description

    Detailed Function Description 5 Detailed Function Description This chapter introduces the function codes setting of the P0, P1, P2 function group. d0, d1, d2, d3 function group for running information query of the inverter, reference "8 Function Code List" . 5.1 P0 Function Group 5.1.1 Basic Function Setting range:...
  • Page 42 Detailed Function Description Setting range:0~4 Select frequency Factory value:0 P0-001 source 0:Main frequency source x. 1:Assisiant frequency source Y. 2:Main frequency source x+Assistant frequency source y. 3:max(Main frequency source x,Assisiant frequency source y). 4:Switch by selection terminals of frequency source. Setting range:...
  • Page 43 Detailed Function Description fast-monitoring mode with UP, DOWN key ; When inverter in running, it is effective in the fast-monitoring mode with UP, DOWN key. 2:AIN1. Setting frequency is controlled by the input analog terminal AIN1 . 3:AIN2. Setting frequency is controlled by the input analog terminal AIN2.
  • Page 44 Detailed Function Description setting frequency 0.00~600.00Hz 50.00Hz Set the keyboard digital setting frequency velue . Setting range : 0.00 ~ Factory value : P0-005 600.00Hz 5.00Hz frequency After inverter has received JOG command, will run in the setting frequency of the function code. Setting range:0~...
  • Page 45 Detailed Function Description 2: reverse prohibited. reverse run is prohibited. Setting range :0.00 ~ Factory value : Upper limit P0-007 600.00Hz 50.00Hz frequency limit Setting range :0.00 ~ Factory value : Lower P0-008 frequency 600.00Hz 0.00Hz Set the maximum and minimum value of output frequency. Notice :set the upper and lower limit frequency mostly prevent personnels mistake operation.inverter will avoid the motor overheat caused by low frequency , or because of the high...
  • Page 46 Detailed Function Description Hz ~50 Hz) or deceleration time(50 Hz~0 Hz). Notice: The factory value is different according to inverter power. Setting range : 1.0 ~ Factory value : Carrier P0-011 6.0KHz frequency 10.0KHz Set the PWM output carrier frequency. Carrier frequency have effect for the motor noise 、inverter thermal and environment interference、temperature rise of motor and inverter.

  • Page 47: Simple Vector Control Parameter

    Detailed Function Description 5.1.2 Simple vector control parameter P0-012 V/F curve setting Setting range:1~7 Factory value:1 1:50 Hz motor, the general load; 2:50 Hz motor, high starting torque; 3:50 Hz motor, reduced torque 4:60 Hz motor, the general load; 5:60 Hz motor, high starting torque; 6:60 Hz motor, reduced torque 7: factory test.
  • Page 48 Detailed Function Description Output vo ltage Output vo ltage Rated vo ltage Rated vo ltage Output frequ en cy Output frequ en cy P0- 013 P0- 013 V/ F curve 1 50 Hz moto r V/ F curve 4 6 0 Hz moto r Output vo ltage Output vo ltage Rated vo ltage...
  • Page 49 Detailed Function Description Factory value :3.0 Setting range:0.0~15.0 Torque P0-013 % % boost Set 0Hz corresponding output voltage. 1.0% significance of the function code for 1.0% inverter rated voltage. For the heavy load can be a gradual increase rate of 1.0% of the value. Factory value :...

  • Page 50: Input Terminals

    Detailed Function Description Setting range:0.0~ Factory value : Automatic slip P0-015 100.0% 250.0% compensation gain The function is used to improve the motor speed by reason of load changes. When Load is stable, if the motor fluctuation of rotate speed is large, please reduce the function code. This function code for 0.0 mean that the automatic slip compensation is prohibited.
  • Page 51 Detailed Function Description 3: 3-wire control. 3-wire system to run auxiliary input commands. 4: Fault reset. Fault reset command input, equal to the "reset button." 5: UP command. Increasing frequency command input. 6: DOWN command. Reduce the frequency command input. 7: Forward jog.
  • Page 52 Detailed Function Description frequency source Y”. P0-020 Control mode of terminal Setting range:0~3 Factory value:0 0: 2-wire mode1; 1: 2-wire mode 2. 2: 3-wire mode 1; 3: 3-wire mode 2. 2-wire run mode only need to connect two signals: Forward run and reverse run.
  • Page 53 Detailed Function Description 3 wire run 3 wire run Forward run Forward run Reverse run Reverse run SB1: SB1:run SB2:stop SB2:stop Switiching for direction SB3: Running direction(OFF:forward; ON:reverse) 3 wire mode 1 3 wire mode 2 Chart 5-4 Diagram of 3-wire run mode Setting range :...

  • Page 54: Output Terminals

    Detailed Function Description parameter of the group. Input curve diagram, such as chart 5-5. Setting frequency Corresponding frequency value by maximum input Corresponding frequency value by minimum input Maximum input Chart 5-5 Analog input corresponding frequency 5.1.4 Output terminals Setting range:0~6 Factory value:1 P0-025 Relay output selection Setting range:0~6...
  • Page 55 Detailed Function Description when stop fault. 2: inverter running. the effective signal will be output when running. 3: Run frequency reaches the setting value. See P0-110 Function Code Description. 4: Upper limit frequency running. When run frequency reaches Upper limit, output is an effective signal. 5: Lower limit frequency running.
  • Page 56 Detailed Function Description corresponds to 10V output. 2: output voltage. The output voltage is 500.0V corresponds to 10V output. 3: Setting frequency. Setting frequency is 50.00Hz corresponds to 10V output. P0-028 AO1 output gain Setting range:0.10~10.00 Factory value:1.00 Set analog output gain. The following diagram for the analog function of AO1 as "output frequency"...

  • Page 57: Keyboard Setting

    Detailed Function Description Gain=1.00 Gain=2.00 AO1Output voltage Gain=0.50 Output frequency 50.00Hz Chart 5-6 Analog Output Gain diagram 5.1.5 Keyboard setting Setting range: P0-029 DIR/JOG function selection Factory value:0 0~2 0: switching at running direction. 1: jog command. The key is a jog command. 2: The key is invalid.

  • Page 58: Start And Stop Control

    Detailed Function Description Keyboard STOP key Setting range:0~1 Factory value:0 P0-030 function setting 0: It is invalid in the analog terminal / serial communication control mode. 1: It is effective in the analog terminal / serial communication control mode (equivalent to the external fault input). 5.1.6 Start and Stop Control Setting range:0~1 Factory value:0...

  • Page 59: Protect Function

    Detailed Function Description Starting frequency of DC Setting range :0.00~ Factory value : P0-032 0.00Hz braking 50.00Hz Setting range : 0.0 ~ Factory value: 0.0 DC braking current P0-033 % 150.0% Setting range : 0.0 ~ Factory value : DC braking time P0-034 60.00s 0.00s...
  • Page 60 Detailed Function Description Setting range: Factory value : Over-current protection value P0-036 150.0% when lose speed 110.0%~200.0% This 100.0% of function code corresponding to rated current of inverter. Surge current phenomenon of inverter will occur in the accelerating running process , due to acceleration time and motor inertia does not match or load inertia alters suddenly .
  • Page 61 Detailed Function Description Setting frequency Output frequency(Hz) Acc speed pause time 5%delay P0-036 Limit current Output current(%) time Chart 5-7 Diagram of over-current protection when lose speed Over-voltage protection Setting range: Factory P0-037 value 120.0%~150.0% value:130.0% when lose speed This 100.0% of function code corresponding to the bus voltage 311 volts.
  • Page 62 Detailed Function Description short, does not match with the motor inertia. By detecting the bus voltage of inverter, and with the setting value of this function code to compare, when the actual bus voltage exceeds this value, the inverter will pause slow down until the bus voltage is reduced to less than the 5.0% of setting value , and then continue to slow down.

  • Page 63: Multi-Step Speed

    Detailed Function Description When inverter went wrong, after delaying 0.5s, will auto clean fault according to auto reset times of fault, and send run command to inverter. When P0-039 is set to be 0, it means “auto reset” is invalid, and the fault times will be cleared.

  • Page 64: Pid Control

    Detailed Function Description 600.00Hz 0.00Hz range : 0.00 ~ value : Muti-step speed Setting Factory P0-043 600.00Hz 0.00Hz range : 0.00 ~ value : Muti-step speed Setting Factory P0-044 600.00Hz 0.00Hz With the use of multi-step speed terminals: Muti-step Muti-step Corresponding speed speed terminal...
  • Page 65 Detailed Function Description potentiometer. Setting range is 0 ~ 10.00V. 2: AIN1 (0 ~ 10V). The PID setting is set by the AIN1 voltage of control terminal. 3: AIN1 (4 ~ 20mA). The PID setting is set by the AIN1 current of control terminal.
  • Page 66 Detailed Function Description Setting range : PID feedback channel Factory value: P0-047 selection 0~4 0: AIN1 (0 ~ 10V). The PID feedback is set by the AIN1 voltage of control terminal . 1: AIN1(4~20mA). The PID feedback is set by the AIN1 current of control terminal.
  • Page 67 Detailed Function Description independent of each other, through their respective codes to adjust the function. The proportional gain P: the value is bigger means that the proportion regulation is stronger. This function code is 1.00 means when the deviation of PID setting and feedback is 10.00V , the output frequency command of PID regulator is 10.00Hz (ignore the role of integral and differential).

  • Page 68: Traverse Frequency Setting

    Detailed Function Description adjustment is stronger. This function code is 1.00s means when the change rate of deviation of PID setting and feedback is 10.00Vwithin 1s, the output frequency command of PID regulator is 10.00Hz (ignore the role of proportion and integral). Notice: when the function code is 0, means that the differential regulation is prohibited.
  • Page 69 Detailed Function Description Notice: When the traverse amplitude set is too large, result in output frequency during traverse running will be higher than Upper limit, traverse running will be automatically invalid. Output frequency Traverse ampltude Setting frequency Skip amplitude Fall time of traverse Rise time of traverse time Run command...

  • Page 70: Built-In Plc Run Mode

    Detailed Function Description Setting range:0~4 P0-056 Baud rate Factory value:2 Select data speed when serial communication. 0:2400bps;1:4800bps;2:9600bps;3:19200bps;4:38400bps. Setting range:0~2 Factory value:0 P0-057 Data format 0: 1 start bit,8 data bits,no parity check, 1 stop bit. 1: 1 start bit, 8 data bits, even parity check, 1 stop bit 2: 1 start bit, 8 data bits, odd parity check, 1 stop bit.
  • Page 71 Detailed Function Description 15 at all times. Setting range:0.00 P0-059 PLC step speed 0 Factory value:0.00 ~600.00Hz Setting range:0.00 P0-060 PLC step speed 1 Factory value:1.00 ~600.00Hz Setting range:0.00 P0-061 PLC step speed 2 Factory value:2.00 ~600.00Hz Setting range:0.00 Factory value:3.00 P0-062 PLC step speed 3 ~600.00Hz Setting range:0.00...
  • Page 72 Detailed Function Description Setting range:0.00 Factory value:13.00 P0-072 PLC step speed 13 ~600.00Hz Setting range:0.00 Factory value:14.00 P0-073 PLC step speed 14 ~600.00Hz Setting range:0.00 Factory value:15.00 P0-074 PLC step speed 15 ~600.00Hz Set the frequency of PLC step speed 16 P0-075 Unit setting of PLC run times Setting range:0~1 Factory value:0 0: second.
  • Page 73 Detailed Function Description time 6553.5s(h) value:0.0s P0-081 5 -step running Setting range:0.0~ Factory time value:0.0s 6553.5s(h) P0-082 6 Setting range:0.0~ -step running Factory time value:0.0s 6553.5s(h) P0-083 7 -step running Setting range:0.0~ Factory time 6553.5s(h) value:0.0s P0-084 8 Setting range:0.0~ -step running Factory time...
  • Page 74 Detailed Function Description setting2 65535 value:0 Set acceleration and deceleration time of PLC per step, need binary switching. binary number of 16-bit, the lowest bit for the BIT0, the highest for the BIT15. Fnction Binary PLCstep Acc/Dec Acc/Dec Acc/Dec Acc/Dec code number time 0...
  • Page 75 Detailed Function Description Fnction Binary PLCstep Acc/Dec Acc/Dec Acc/Dec Acc/Dec code number time 0 time 1 time 2 time 3 P0-093 BIT7 BIT6 P0-093 BIT9 BIT8 P0-093 BIT11 BIT10 P0-093 BIT13 BIT12 P0-093 BIT15 BIT14 Chart 5-10 PLC Acc/Dec time selection To select a group of Acc/Dec time by 2 binary bits, a total of four groups can be selected.
  • Page 76 Detailed Function Description Setting range:0.1~3200.0s P0-095 PLC Dec time0 Factory value:15.0s Setting range:0.1~3200.0s Factory value:15.0s P0-096 PLC Acc time 1 Setting range:0.1~3200.0s P0-097 PLC Dec time 1 Factory value:15.0s Setting range:0.1~3200.0s Factory value:15.0s P0-098 PLC Acc time 2 Setting range:0.1~3200.0s P0-099 PLC Dec time 2 Factory value:15.0s Setting range:0.1~3200.0s Factory value:15.0s...

  • Page 77: P1 Function Groups(Function Codes Modify Setting

    Detailed Function Description BIT15 means that PLC 15 -step running direction. When BIT15= 0, the 15 -step running direction is positive;; when BIT15=1, the -step running direction is opposite. Convert the 16-bit binary number to decimal number and set to the function code.

  • Page 78: P2 Function Groups(Reserved

    Detailed Function Description 5.3 P2 Function Groups(reserved) The function groups are strictly prohibited to modify. 5.4 d0 function groups(read only) d function groups are divided into four parts (d0, d1, d2, d3), display the historical fault information、inverter information、 running status of inverter、the user interface status respectively, please look over "Function Code List."...

  • Page 79: Fault And Trouble Shooting

    Fault and trouble shooting 6 Fault and trouble shooting 6.1 Fault and Alarm Fault and alarm are abnormal working status of inverter.But both have obvious distinguish. Inverter in running for self-monitoring. If fault issued,fault code of inverter will be displayed,and the inverter output will be shut down ,...

  • Page 80: Alarm Indication And Alarm Reset

    Fault and trouble shooting fault has disappeared, inverter will resume normal operation; if the fault still exists, inverter will be tripped again. Notice: If the jump-start command is effective, fault reset will jump-start transmission equipment. 6.1.2 Alarm Indication and Alarm Reset E030 for alarm indication.
  • Page 81 Fault and trouble shooting Code Model Reason Solution Power module damaged. Inspect external Exterior equipment if has strong disturbances. interference source. Extend the Dec time. Dec time is too short and regenerative energy from the motor is too large. DC bus Network voltage Inspect input voltage.
  • Page 82 Fault and trouble shooting Code Model Reason Solution Cooling fans of Check replace inverter stop or cooling fans damaged Ask for support. Detection circuit temperature damaged Soft startup E007 Soft Startup circuit Ask for support. fault contactor damaged E008 Reserved Current Check output...

  • Page 83: Common Faults And Solutions

    Fault and trouble shooting Code Model Reason Solution Inspect external E015 CPU External equipment if has strong disturbed fault disturbances interference source. This is a alarm, Press the"ESC key" exit inverter output is alarm state. not turn-off. Function code is E030 Operation error Check P1-000 function locked...

  • Page 84: Motor Doesn't Move After Inverter Running

    Fault and trouble shooting of inverter is consistent with multi-meter. If the power supply has problem, inspect and solve it. Check the CHARGE light. If the above are normal, the fault may lie part of the switching power supply. Please ask for support. 6.3.2 Motor doesn’t move after inverte r running For the motor has brake device, make sure that motor...
  • Page 85 Fault and trouble shooting...
  • Page 86 Maintenance 7 Maintenance 7.1 Inspect the inverter periodically On account of the change of inverter using environment , such as temperature、 humidity、fog and other effects, as well as the internal components of inverter are aging and other factors that could cause a variety of faults. So , during in storage and use of inverter must be carried out daily inspections and maintain the inverter periodically.

  • Page 87: Replacement Of Wearing Parts

    Maintenance and no vibration with a vacuum cleaner in Power No dust 4~6kg/cm2 pressure blow Components Whether change Electrolytic Replace colour 、 peculiar capacitors smell、bubbling Chart 7-1 Inspect the inverter periodically 7.2 Replacement of wearing parts Fans and electrolytic capacitors are wearing parts, please make periodic replacement to ensure long term, In the less than 30 ℃...

  • Page 88: List Of Function Parameters

    List of Function Parameters 8 List of Function Parameters × indicates that this parameter cannot be modified during running. ○ indicates that this parameter can be modified during running. Address items for the MODBUS register address. P0 function groups(users setup function codes) Factory Code Function name Setting range Units...
  • Page 89 List of Function Parameters Factory Code Function name Setting range Units Modify Address setting 0:main frequency source x 1:Auxiliary frequency source Y 2:main frequency Select source x+Auxiliary frequency frequency source y P0-001 ○ 001H source 3:max(main frequency source x,Auxiliary frequency source y) 4:be confirmed selection terminal of...
  • Page 90 List of Function Parameters Factory Code Function name Setting range Units Modify Address setting 0:keyboard poentionmeter 1:keyboard digital ) setting(UP、DOWN Auxiliary 2:AIN1 frequency P0-003 ○ 003H 3:AIN2 source 4:multi-step speed selection 5:PID 6: communication 7:interior PLC Digital setting 0.00~600.00Hz P0-004 frequency 0.01Hz 50.00Hz ○...
  • Page 91 List of Function Parameters Factory Code Function name Setting range Units Modify Address setting Acc time P0-009 0.1s 15.0s ○ 009H 0.1~3200.0s Dec time P0-010 0.1~3200.0s 0.1s 15.0s ○ 00AH Carrier 1.0~10.0KHz P0-011 0.1KHz 6.0KHz ○ 00BH frequency Vector Control parameter 1:50 Hz motor, the general load 2:50 Hz motor, high...
  • Page 92 List of Function Parameters Factory Code Function name Setting range Units Modify Address setting Automatic slip 0.0~250.0% 0.1% 100.0% P0-015 ○ 00FH compensation gain Input terminals 0:invalid 1:Forward terminal 2:Reverse P0-016 × 010H function 3:3-wire control 4:Reset fault 5:UP command 6:DOWN command 7:JOG forward terminal...
  • Page 93 List of Function Parameters Factory Code Function name Setting range Units Modify Address setting terminal 2 14:switch command terminal source P0-019 × 013H function 0: 2-wire mode1 Control mode 1: 2-wire mode 2 P0-020 × 014H of terminal 2: 3-wire mode 1 3: 3-wire mode 2 P0-021 AIN min input 0.00~10.00V 0.01V...
  • Page 94 List of Function Parameters Factory Code Function name Setting range Units Modify Address setting 0: Invalid 1:stop fault in running Relay output 2:inverter running P0-025 × 019H selection 3:run frequency arrived setting value 4: Upper limit frequency running 5: Lower limit frequency output running P0-026...
  • Page 95 List of Function Parameters Factory Code Function name Setting range Units Modify Address setting 0:Invalid,when controlling analog terminals /communication Keyboard 1:effective,when STOP key P0-030 ○ 01EH controlling function setting analog terminals /communication (be equal external fault input) Start and stop control 0: DEC stop Stop mode P0-031...
  • Page 96 List of Function Parameters Factory Code Function name Setting range Units Modify Address setting Motor overload 50.0%~110.0% 0.1% 100.0% P0-035 × 023H protection current Over-current 110.0%~200.0% 0.1% 150.0% P0-036 protection when ○ 024H lose speed Over-voltage 120.0%~150.0% 0.1% 130.0% P0-037 ○...
  • Page 97 List of Function Parameters Factory Code Function name Setting range Units Modify Address setting Muti-step 0.00Hz 0.00~600.00Hz P0-043 0.01Hz ○ 02BH speed 2 Muti-step 0.00Hz 0.00~600.00Hz P0-044 0.01Hz ○ 02CH speed 3 PID control 0:Keyboard digital setting 1:Keyboard setting poentionmeter 2:AIN1(0~10V)...
  • Page 98 List of Function Parameters Factory Code Function name Setting range Units Modify Address setting 0:AIN1(0~10V) 1:AIN1(4~20mA) 2:AIN2(0~10V) PID feedback 3:AIN2(4~20mA) P0-047 ○ 02FH selection :Keyboard poentionmeter (testing) Proportional 0.00~10.00 P0-048 0.01 1.00 ○ 030H gain P )~ no integral 0.00( Integral time I P0-049 0.01s...
  • Page 99 List of Function Parameters Factory Code Function name Setting range Units Modify Address setting Fall time of 0.1~3200.0s P0-054 0.1s 15.0s ○ 036H traverse Serial Communication Setting :slave 1~31: address Local address 32:master P0-055 ○ 037H address(use inverters) 0:2400bps 1:4800bps Baud rate 2:9600bps P0-056...
  • Page 100 List of Function Parameters Factory Code Function name Setting range Units Modify Address setting 0:Stop after cycle 1:continuous cycle × 03AH P0-058 mode 2:running according -step after one cycle P0-059 0.00~600.00Hz 0.01Hz 0.00Hz ○ 03BH PLC step speed 0 P0-060 0.00~600.00Hz 0.01Hz 1.00Hz ○...
  • Page 101 List of Function Parameters Factory Code Function name Setting range Units Modify Address setting P0-075 Unit setting of 0: Second × 04BH PLC run times 1: Hour -step 0.0~6553.5s(h) P0-076 0.1s 0.0s ○ 04CH running time -step 0.0~6553.5s(h) 0.0s P0-077 0.1s ○...
  • Page 102 List of Function Parameters Factory Code Function name Setting range Units Modify Address setting -step P0-086 0.1s 0.0s 0.0~6553.5s(h) ○ 056H running time -step P0-087 0.0~6553.5s(h) 0.1s 0.0s ○ 057H running time -step P0-088 0.0~6553.5s(h) 0.1s 0.0s ○ 058H running time -step P0-089 0.1s...

  • Page 103: P1 Function Groups(Function Codes Modify Setting)

    List of Function Parameters Factory Code Function name Setting range Units Modify Address setting P0-100 PLC Acc time 3 0.1~3200.0s 0.1s 15.0s ○ 064H P0-101 PLC Dec time 3 0.1~3200.0s 0.1s 15.0s ○ 065H 0~65535 ( Binary bit P0-102 ○ 066H )...

  • Page 104: D1 Function Groups ( Inverter

    List of Function Parameters code function name range units address Latest fault 0(no fault)~18 d0-001 301H number Second latest 0(no fault)~18 d0-002 302H fault numbe d1 Function Groups(inverter information) code function name range units address d1-000 Software Version number 0~65535 400H d1-001 Software checkout 401H...

  • Page 105: D2 Function Groups(Inverter Running State

    List of Function Parameters d2 function groups(Inverter running state) code function name range units address Bit0: run sign 0:in stopping 1: in running Bit1:Running direction 0:Forward 1:Reverse Bit2: control 0:long-distance control 500H 1:Local keypad control d2-000 Inverter running state Bit3:sight fault 0: No slight fault,1: No slight fault Bit4:fault...

  • Page 106: D3 Function Groups(Users Interface State

    List of Function Parameters code function name range units address d2-006 Over-load count 0.1% 506H 0.0~100.0% d2-007 Inverter temperature 507H 0~100℃ 1℃ closed loop 0.00~10.00V d2-008 0.01V 508H setting closed loop 0.00~10.00V d2-009 0.01V 509H feedcack X Setting (main frequency 0.00~600.00Hz d2-010 0.01Hz 50AH...
  • Page 107 List of Function Parameters code function name range unit address LED bit1:X1 0:invalid 1:effective LED bit2:X2 0:invalid Input terminal 1:effective d3-000 600H status LED bit3:X3 0:invalid 1:effective LED bit4:X4 0:invalid 1:effective LED bit1:Y1 0:invalid Output terminal 1:effective d3-001 601H status LEDbit2: MAMC 0:invalid 1:effective...

  • Page 108: Modbus Communication Protocol

    MODBUS Communication Protocol MODBUS Communication Protocol This chapter describes the MODBUS communication function. Modbus protocol supports RTU mode 9.1 MODBUS Communication Modes MODBUS communication is made of a master station (PLC or PC)and maximum of 31 slave stations. It communicates in ‘point to point’...

  • Page 109: Information Format

    MODBUS Communication Protocol time Instruction Instruction Response information information Information Inverter response delay 24bit 24bit Response delay P0-187 Chart 9-1 Serial Communication diagram 9.2 Information format MODBUS communication adopts the format that master issue the directions and the slave to respond . The message formats(receive/send) are shown in chart 9-2 , according to the different content of instructions (function) , the length of the data also will be changed.
  • Page 110 MODBUS Communication Protocol Inverter address(0~1FHex).If setting for 0,slave will not respond to the command sent by the master . function Code Function code is used to specify the command code. See the table below. Function Instruction info Response info code Function (hex)...
  • Page 111 MODBUS Communication Protocol data length the instruction will change. Check error Using the CRC-16 (cyclic redundancy check, check sum means) to check communication errors. The result (Check and calculate) is stored in a data(16bit), its a start value of FFFFH.The data to be sent (slave address, function code and data), a fixed value A001H put together XOR and shift calculation.
  • Page 112 MODBUS Communication Protocol results of step 3, and a fixed value A001H to do the XOR calculation. 8 times shift to calculate after (whenever the overflow bit becomes 1, must be carried out as described in Step 4 to do the XOR calculation), use the results of the previous and the next data (8-bit function code) for XOR operation.

  • Page 113: To Read The Contents Of Storage Register

    MODBUS Communication Protocol 9.3 Examples of MODBUS Information 9.3.1 To read the contents of storage register A maximum of 16 can be read out the contents of inverter memory registers every time. First, the instruction information must contain to read out the beginning address of the first register and the amount of register.

  • Page 114: Test Circuit

    MODBUS Communication Protocol Response information (normal) Slave address Command information Function code Slave address Function code Data code High byte High byte Start storage Response information (fault) start address register Low byte Low byte Slave address High byte High byte Function code The next Number...

  • Page 115: Write Into Multi-Storage Register

    MODBUS Communication Protocol 9.3.3 Write into multi-storage register A maximum of 16 can be written into the contents of inverter memory registers every time. The specified data are written specified number into the specified storage register . Write into data must in accordance with the number order of register, respectively, according to a high 8 bits, low 8bits order array in the instruction information.

  • Page 116: Data Saved Instruction

    MODBUS Communication Protocol 9.3.4 Data saved instruction After using MODBUS communication, if function code data had been written from the PLC into the inverter, it will be temporarily stored in the data field of inside converter. Save command mean that RAM function code data is written into the internal EEPROM of inverter (permanent storage ).

  • Page 117: Inverter For Slave

    MODBUS Communication Protocol 9.4 Inverter for slave When the inverter address for 1 to 31, the slave converter will accept the following data. 9.4.1 Instruction Data Instruction data as below list. only can be written by using function code10H. MODBUS Countents register address Bit 0...

  • Page 118: Monitoring Data

    MODBUS Communication Protocol 9.4.2 Monitoring Data The function code of d0, d1, d2, d3 function groups can be used as surveillance data, use the 03H function Code to read the content. Each function code MODBUS register address see the function list. Transfer data to an integer, pay attention to the unit of each function code.

  • Page 119: Inverter For Master

    MODBUS Communication Protocol 9.5 Inverter for master When the address of inverter is 32, the inverter will act as the master converter to send the following broadcast data. At this time the master inverter in currently running to send run and stop instructions.

  • Page 120: Modbus Communication Error Codes107 9.7 Back-Check Of No Response Fault For Slave

    MODBUS Communication Protocol MODBUS Communication Error Codes When the slave inverter receives the data is incorrect, it will respond to function code for the data frame of 80H , see the table below: Error Contents codes In running, not allowed to access. Data overflow 1.MODBUS address exceed range 2.
  • Page 121 MODBUS Communication Protocol information( exceed melody、frame、checkout、CRC-16). It is different that slave address of instruction information and slave address of inverter side. When time intervals of data and data of composing information exceed the length(24 bit).
  • Page 122 Chart Index Chart Index Chart 1-1 Nameplate ....4 Chart 1-2 Naming rule ..... 5 Chart 1-3 220V series description . 5 Chart 1-4 380V series description . 6 Chart 1-5 Technology criterion ..8 Chart 2-1 Safe space ..... 11 Chart 2-2 External dimension ..
  • Page 123 Chart Index Chart 3-4 Jumpers of control circuit17 Chart 3-5 Description of control circuit terminals ....19 Chart 4-1 Keypad schematic diagram 20 Chart 4-2 Key function description 21 Chart state indicator light description ....22 Chart unit indicator light description ....
  • Page 124 Chart Index frequency ....33 Chart 5-2 V/F curve ....35 Chart 5-3 Diagram of two-wire run mode ......39 Chart 5-4 Diagram of 3-wire run mode40 Chart Analog input corresponding frequency ....41 Chart 5-6 Analog Output Gain diagram44 Chart Diagram over-current...
  • Page 125 Chart Index periodically ....74 Chart 9-1 Serial Communication diagram ......96 Chart 9-2 Information formats of serial communication ....96 Chart 9-3 Serial Communication Function Code Description ..... 97 Chart 9-4 Examples of serial communication ......101 Chart Examples serial communication loop testing ..
  • Page 126 Chart Index Chart Error codes serial communication ....107...
  • Page 127 ————————————————————————————— In order to improve our products constantly, we remain the power of designs modified . 3/8/2010...

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