Download
Share
Print this page
Kinco SV200 Manual
  1. Manuals
  2. Brands
  3. Kinco Manuals
  4. Inverter
  5. SV200
  6. Manual
Kinco SV200 Manual

Kinco SV200 Manual

Vector control frequency inverter
Hide thumbs

Advertisement

Quick Links

Download this manual
SV200
Vector Control Frequency
Inverter
1 / 51

Advertisement

loading
Need help?

Need help?

Do you have a question about the SV200 and is the answer not in the manual?

Questions and answers

Related Manuals for Kinco SV200

Summary of Contents for Kinco SV200

  • Page 1 SV200 Vector Control Frequency Inverter 1 / 51...

  • Page 2: Chapter 1 Introduction

    SV200 Vector Control Frequency Inverter for Synchronous Motor CHAPTER 1 INTRODUCTION 1. Technical Specification Item Specification Max. Frequency 0 ~ 320Hz Carrier Frequency 1KHz ~ 16KHz The carrier frequency is automatically adjusted based on the load features. Digital setting:0.01Hz Input frequency resolution Analog setting:max.
  • Page 3 regulation (AVR) the mains voltage changes It helps to avoid frequent over current faults of the AC Rapid current limit drive. The load feedback energy compensates the voltage Power dip ride reduction so that the AC drive can continue to run for through a short time The current and voltage are limited automatically during...
  • Page 4 1-2 Description of the name plate MODEL:SV200-3R7G/5R5P-4 INPUT: 3PH 380V 50Hz/60Hz OUTPUT: 3PH 380V 9.0/13.0 FREQ RANGE: 0.1-320Hz 3.7/5.5KW 140113111111 MODEL: SV200 – 3R7G/5R5P- Voltage: 200: 1PH AC220V 400: 3PH AC 380V Capacity: 3R7: 3.7kW G:Constant torque P:Variable torque...
  • Page 5 Rated Motor (KVA) Output Input capacity Model No. Output Power Power Current(A (60s) (A) Current (A) (KW) (KW) INPUT VOLTAGE: 3PH AC380V ±15% SV200-0R75G-4 0.75 3.75 0.75 SV200-1R5G-4 SV200-2R2G-4 SV200-3R7G/5R5P- 10.7 13.5 SV200-5R5G/7R5P- 14.6 19.5 SV200-7R5G/11P-4 11.2 25.5 SV200-11G/15P-4 25.5 37.5...

  • Page 6: Chapter 2 Installation And Wiring

    CHAPTER 2 Installation and wiring 2-1 The inverter’s outside shape and the installation dimensions 6 / 51...
  • Page 7 2-2 Wiring 2-2-1 Main circuits and description Open the cover of inverter, and you can see the main circuits terminals. Main circuit terminal arrangement NZ200 series inverter is as follows 7 / 51...
  • Page 8 Description of main circuit terminals Terminal Name Description R/L1、S/L2、T/L3 Connect to the commercial power supply. U/T1、U/T2、U/T3 Inverter output terminals,connect a three-phase motor. +/B1、- Positive and negative DC inverter, brake unit can be connected. +/B1、B2 Connect brake resistor. Earth (ground) 3.Wiring Example: 8 / 51...
  • Page 9 4.The basic wiring diagram 9 / 51...
  • Page 10 2-3 Control Terminals Control terminal arrangement 10 / 51...
  • Page 11 NOTE: Above 45kW with 24V terminal. Terminal arrangement of Air compressor application 2-3-1 Control terminal description Terminal Function Description Remarks Name Forward command input Multi-function input (multi-function input terminals) terminals S1 ~ S4, FWD, REV terminals Reverse command input (multi-function input terminals) by reference number of specific settings, set Multi-function input terminals...
  • Page 12 Control board switchover switch description Switch Description name Voltage (0-10V)/ Current (0~20mA) input switchover switch, Connect the V, FIC is voltage input, connect I, FIC is current input Voltage (0-10V)/ Current (0~20mA) input switchover switch Connect the V, FOV is voltage output, connect I, FOV is current output Control loop distribution NOTES: (1) Please let the control signal lines and the main lines, and other power lines,...

  • Page 13: Chapter 3 Function Parameter List

    CHAPTER 3 FUNCTION PARAMETER LIST SV200 is special frequency inverter for 3-phase AC permanent magnet synchronous motor with open loop control mode. Below is the parameter description 1.Parameter List: Function Factory modi Name Setting range Code setting Group P0: Basic Parameters 1:G type(constant torque load)...
  • Page 14 Auxiliary frequency source P0.06 0%~150% 100% ☆ superposition Y setting range Unit’s digit:frequency source 0:main frequency source X 1: X and Y operation (operation relationship determined by ten’s digit) 2:switchover between X and Y Frequency source 3:switchover between X and “X P0.07 setting range and Y”...
  • Page 15 Acceleration/ 0:1s P0.19 deceleration time 1:0.1s ★ unit 2:0.01s Frequency offset of auxiliary frequency 0.00Hz~maximum frequency P0.21 0.00Hz ☆ source for X and Y P0.10 operation Frequency P0.22 2:0.01Hz ★ reference Retentive of digital 0:no memory 1:memory P0.23 setting frequency ☆...
  • Page 16 Group P1: Motor parameters Motor type Permanent magnet synchronous P1.00 ★ selection motor Model P1.01 Rated motor power 0.1kW~450.0kW ★ depended Rated motor Model P1.02 1V~500V ★ voltage depended Rated motor Model P1.03 0.1A~1000.0A ★ current depended Rated Motor Model P1.04 0.01Hz~Maximum frequency ★...
  • Page 17 proportional gain2 Speed loop integral P2.04 0.01s~10.00s 1.00s ☆ time2 Switchover P2.05 P2.02~maximum frequency 10.00Hz ☆ frequency2 0:P2.10 1:FIV 2:FIC Torque upper limit 3:Reserved P2.09 source in speed ☆ 4:PULSE setting control mode 5:Communication setting 6:MIN(FIV,FIC) 7:MAX(FIV,FIC) Digital setting of P2.10 torque upper limit in 0.0%~200.0%...
  • Page 18 Salient pole synchronous motor P2.27 50~500 ☆ rate adjustment gain Maximum torque 0(off) P2.28 ☆ current ratio control 1(on ) No-load current P2.36 (synchronous 0~80% ☆ motor) Start carrier P2.37 1KHz~P0.15 4.0KHz ☆ frequency 0(no action) SVC low frequency P2.38 1(braking when stop)...
  • Page 19 frequency adjustment range Group P4: Terminals X1 function 0:no function P4.00 ★ selection 1:FWD 2:REV X2 function P4.01 ★ 3:three-line running control selection 4FWD JOG X3 function P4.02 ★ 5:REVJOG selection 6:UP X4 function P4.03 ★ 7:DOWN selection 8:Coast to stop X5 function P4.04 ★...
  • Page 20 external fault 34:Frequency modification forbidden 35:Reverse PID action direction 36:External Stop Terminal 1 37:Command source switchover terminal2 38:PID integral pause 39:switchover between main frequency source X and preset frequency 40:switchover between auxiliary frequency Y and preset frequency 41~42:Reserved 43:PID parameter swithover 44~45: Reserved 46:Speed control/ torque control switchover...
  • Page 21 Corresponding P4.19 setting of FI curve 2 -100.0%~+100.0% 0.0% ☆ minimum input FI curve 2 P4.18~+10.00V P4.20 10.00V ☆ maximum input Corresponding P4.21 setting of FI curve 2 -100.0%~+100.0% 100.0% ☆ maximum input P4.22 FI curve 2 filter time0.00s~10.00s 0.10s ☆...
  • Page 22 Unit's digit: Setting for FIV less than minimum input 0: Corresponds to the minimum input settings P4.34 Setting selection 1:0.0% for FI less than ☆ Ten's digit:Setting selection for minimum input FIC less than minimum input ( 0~ 1,same as FIV) 0.0s~3600.0s P4.35 FWD delay time...
  • Page 23 13:Frequency limited 14:Torque limited 15:Ready for Run 16:FIV>FIC 17:Frequency upper limit reached 18:Frequency lower limit reached(relate to running) 19:Under voltage state output 20:Communication setting 21:Position finished(reserved) 22:Position closed(reserved) 23: Zero-speed running 2 (having output at stop) 24:Accumulative power-on time reached 25:Frequency level detection FDT2 output 26:Frequency 1 reached...
  • Page 24 8:FIC 9:Reserved 10:Length 11:The count value 12: Communication setting 13:Motor speed 14:Output current(100% corresponds 1000A) 15: Output voltage(100% correspond 1000V) 16: Reserved YOP output P5.09 maximum 0.01kHz~100.00kHz 50.00kHz ☆ frequency FOV offset P5.10 -100.0%~+100.0% 0.0% ☆ coeffcient P5.11 FOV gain -10.00~+10.00 1.00 ☆...
  • Page 25 /deceleration B Time proportion of P6.08 S-curve start 0.0%~(100.0%-P6.09) 30.0% ★ segment Time proportion of P6.09 S-curve end 0.0%~(100.0%-P6.08) 30.0% ★ segment P6.10 Stop mode 0: Dec. To stop 1: coast to stop ☆ P6.15 Brake use ratio 0%~100% 100% ☆...
  • Page 26 Bit01: Set frequency(Hz) Bit02: Bus voltage(V) Bit03: Output voltage (V) Bit04: Output current(A) Bit05: Output power(kW) Bit06: Output torque(%) Bit07:X Input status Bit08:Y Output status Bit09: FIV voltage(V) Bit10: FIC voltage(V) Bit11: Reserved Bit12: Count value Bit13: Length value Bit14: Load speed display Bit15: PID setting 0000~FFFF Bit00:PID Feedback...
  • Page 27 Bit02: X Input status Bit03: YO Output status Bit04: FIV voltage (V) Bit05: FIC voltage(V) Bit06: Reserved Bit07: Count value Bit08: Length value Bit09: PLC Stage Bit10: Load speed Bit11: PID Set Bit12: PULSE setting frequency (kHz) Load speed display P7.06 0.0001~6.5000 1.0000...
  • Page 28 Model P8.07 Acceleration time 4 0.0s~6500.0s confirmatio ☆ Model P8.08 Deceleration time4 0.0s~6500.0s confirmatio ☆ P8.09 Jump frequency 1 0.00Hz~maximum frequency 0.00Hz ☆ P8.10 Jump frequency 2 0.00Hz~maximum frequency 0.00Hz ☆ Frequency jump P8.11 0.00Hz~maximum frequency 0.00Hz ☆ amplitude FWD/REV rotation P8.12 0.0s~3000.0s 0.0s...
  • Page 29 Frequency switch over point between P8.26 deceleration time 1 0.00Hz~maximum frequency ☆ 0.00Hz and deceleration time 2 Terminal JOG P8.27 0:Disabled 1:Enable ☆ preferred Frequency 0.00Hz~maximum frequency P8.28 detection value 50.00Hz ☆ (FDT2) Frequency P8.29 detection 0.0%~100.0%(FDT2 level ) 5.0% ☆...
  • Page 30 Any current 0.0%~300.0%(motor rated P8.41 reaching 2 0.0% ☆ current) amplitude P8.42 Timing function 0:Disabled 1:Enable ☆ 0:P8.44 set 1:FIV 2:FIC Timing running time P8.43 3:Reserved option 100% of analog input ☆ corresponds to the value of P8.44 P8.44 Timing duration 0.0Min~6500.0Min 0.0Min ☆...
  • Page 31 Over current stall P9.06 50%~200% 150% ☆ protective current Short-circuit to P9.07 ground upon 0:Disabled 1:Enabled ☆ power-on Fault auto reset P9.09 0~20 ☆ times YO action during 0:Not act ☆ P9.10 fault auto reset 1:Act Time interval of P9.11 0.1s~100.0s 1.0s ☆...
  • Page 32 25:Reserved 26:Running time reached 27: User-defined fault 1 28: User-defined fault2 29: Accumulative running time reached 30:Load becoming 0 31:PID feedback lost during running 40:With-wave current limit overtime 41:Switch motor when running 42: Big deviation at speed 43:Motor over speed 45:Motor over heat 51:The initial position fault Group PA PID Function...
  • Page 33 PID reverse rotation PA.09 PID deviation limit 0.0%~100.0% 0.0% ☆ PA.10 PID differential limit 0.00%~100.00% 0.10% ☆ PID setting change PA.11 0.00~650.00s 0.00s ☆ time PID feedback filter 0.00~60.00s PA.12 0.00s ☆ time PID output 0.00~60.00s PA.13 0.00s ☆ feedback filter time PA.14 Reserved ☆...
  • Page 34 PID feedback loss PID operation at 0:No PID operation at stop PA.28 ☆ stop 1:PID operation at stop Group PC Multi-Reference and Simple PLC Function -100.0%~100.0% PC.00 Multi-reference 0 0.0% ☆ -100.0%~100.0% PC.01 Multi-reference 1 0.0% ☆ PC.02 Multi-reference 2 -100.0%~100.0% 0.0% ☆...
  • Page 35 reference 2 Acceleration/decele ration time of PC.23 0~3 ☆ simple PLC reference 2 Running time of PC.24 simple PLC 0.0s(h)~6500.0s(h) 0.0s(h) ☆ reference 3 Acceleration/decele ration time of PC.25 0~3 ☆ simple PLC reference 3 Running time of PC.26 simple PLC 0.0s(h)~6500.0s(h)...
  • Page 36 ration time of simple PLC reference 8 Running time of PC.36 simple PLC 0.0s(h)~6500.0s(h) 0.0s(h) ☆ reference 9 Acceleration/decele ration time of PC.37 0~3 ☆ simple PLC reference 9 Running time of PC.38 simple PLC 0.0s(h)~6500.0s(h) 0.0s(h) ☆ reference 10 Acceleration/decele ration time of 0~3...
  • Page 37 reference 14 Running time of PC.48 simple PLC 0.0s(h)~6500.0s(h) 0.0s(h) ☆ reference 15 Acceleration/decele ration time of PC.49 0~3 ☆ simple PLC reference 15 Time unit of simple 0:s(秒) PC.50 ☆ 1:h(小时) 0:set by PC.00 1:FIV 2:FIC 3:Reserved PC.51 Reference 0 source 4:PULSE setting 5:PID ☆...
  • Page 38 Unit’s digit:MODBUS 0:Non standard MODBUS Communication PD.05 protocol protocol selection 1:The standard MODBUS ☆ protocol Read the current 0:0.01A ☆ PD.06 resolution 1:0.1A Group PP User-Defined Function Codes PP.00 User password 0~65535 ☆ 0:No operation Restore default PP.01 01:Restore factory settings ★...
  • Page 39 Group D0: Monitoring Parameter Function Parameter name Unit Code D0.00 Running frequency (Hz) 0.01Hz D0.01 Set frequency(Hz) 0.01Hz D0.02 Bus voltage(V) 0.1V D0.03 Output voltage(V) D0.04 Output current(A) 0.01A D0.05 Output power(kW) 0.1kW D0.06 Output torque(%) 0.1% D0.07 X input state D0.08 Y output state D0.09...
  • Page 40 D0.38 ABZ position D0.39 Target voltage upon V/F separation D0.40 Output voltage upon V/F separation D0.41 X input state display D0.42 Y input state display D0.43 X Function stage display 1 (Function01-Function40) D0.44 X Function stage display 2 (Function41-Function80) D0.59 Set frequency(%)...
  • Page 41 Too large speed deviation fault Motor over-speed fault 3-5 Setting description If PP-00 is set to a non-zero number, parameter protection is enabled. You must enter the correct user password to enter the menu. To cancel the password protection function, enter with password and set PP.00 to 0. Parameters menu the user customizes are not protected by password.
  • Page 42 Chapter4 Fault checking and ruled out 4-1 Fault alarm and countermeasures SV200 inverter with a total of 24 warning information and the protection function, once the failure, protection function, inverter to stop output, inverter fault relay contact action, and in the inverter fault code shown on the display panel.
  • Page 43 Over-current 1: The output circuit is Eliminate during grounded external faults. acceleration or short circuited. 2: Perform the 2: Motor auto-tuning motor is not auto-tuning . Performed. 3: Increase the 3: The acceleration time acceleration is too time. Short. Adjust 4: Manual torque boost or manual torque...
  • Page 44 Over-current 1: The output circuit is Eliminate grounded external faults. constant or short circuited. 2: Perform the speed 2: Motor auto-tuning motor auto- is not performed. tuning. 3: The voltage is too low. Adjust 4: A sudden load is added voltage during normal range.
  • Page 45 1: Instantaneous power Reset failure fault. occurs on the input power Adjust supply. voltage Lack 2: The AC drive's input normal range. voltage voltage is 3,4,5,6:Looking not within the allowable technical range. support 3: The bus voltage is abnormal. 4: The rectifier bridge and buffer resistor abnormal.
  • Page 46 3: The fan is damaged. 2:Clean the air 4:The thermally sensitive filter. resistor 3:Replace module damaged fan. damaged. 4:Replace 5:The inverter module is damaged damaged. thermally sensitive resistor. 5:Replace inverter module. External 1: External fault signal is Reset equipment input via X. operation.
  • Page 47 connecting the AC drive and the motor. EEPROM The EEPROM chip is Replace read- damaged. main control write fault board. AC drive 1: Over-voltage exists. 1: Handle based hardware 2: Over-current exists. fault Over-voltage. 2: Handle based Over-current. Short circuit GND The motor short...
  • Page 48 class. large encoder speed parameters encoder deviation incorrectly. parameters fault motor properly. auto-tuning is not 2:Perform Performed. motor auto- 3:Parameters of too large tuning. speed deviation P9.69 P9.69 P9.70 and P9.70 incorrectly. correctly based on the actual situation. Motor encoder over-speed parameters are set encoder...
  • Page 49 5: The cable connecting the control board and the drive board and the operation panel breaks. “2000” is 1: The cable between Looking displayed the drive technical support when the board and the control power is on board is in poor contact. 2: Related components on the control...
  • Page 50 OH (module 1: The setting of carrier 1: Reduce the overheat) frequency is too high. carrier frequency fault 2: The cooling fan is (P0.17). is reported damaged, or the air filter 2: Replace the frequently. is blocked. fan and clean the 3: Components inside air filter.
  • Page 51 soft startup 1: Check reported contactor is not picked whether the when contactor cable power is or is loose. the AC drive 2: Check whether the running. contactor is faulty. 3: Check whether 24 V power supply of the contactor is faulty.

This manual is also suitable for:

Sv200-0r75g-4Sv200-1r5g-4Sv200-2r2g-4Sv200-3r7g/5r5p4Sv200-5r5g/7r5p4Sv200-7r5g/11p-4 ... Show all