Simphoenix V800 Series Manual

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PREFACE

Thanks for choosing V800 Series High Performance Closed-Loop Vector Frequency

Inverter produced by Shenzhen Simphoenix Electric Technology Co, Ltd.

This Manual is the operating manual for V800 series closed-loop vector frequency

inverter. It provides all relevant instructions and precautions for installation, wiring,

functional parameters, daily care and maintenance, fault diagnosis and troubleshooting

of V800 series inverter.

In order to use this product correctly, guarantee product's best performance and ensure

safety of users and equipment, be sure to read this manual carefully before using V800

series inverters. Improper use may cause abnormity and malfunction of the inverter,

reduce its service life and even damage equipments and lead to personal injury and

death, etc.

This user manual is delivered with the device. Please keep it property for future

overhaul and maintenance.

Owing to constant improvement of products, all data may be changed without further

notice.

V800 Series High Performance Closed-Loop Vector Inverter User Manual

Version:

V1.1

Revision Date: june. 2018

This Manual is applicable to V6100 and above programs.

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Summary of Contents for Simphoenix V800 Series

Page 1 Thanks for choosing V800 Series High Performance Closed-Loop Vector Frequency Inverter produced by Shenzhen Simphoenix Electric Technology Co, Ltd. This Manual is the operating manual for V800 series closed-loop vector frequency inverter. It provides all relevant instructions and precautions for installation, wiring, functional parameters, daily care and maintenance, fault diagnosis and troubleshooting of V800 series inverter.
Page 2: Table Of Contents
CATALOG 1. PRODUCT CONFIRMATION AND OPERATION CAUTIONS..........1.1 PRODUCT CONFIRMATION......................1.1.1 CONFIRMATION OF FREQUENCY INVERTER BODY AND ACCESSORIES. 1.1.2 NAMEPLATE OF FREQUENCY INVERTER.............. 1.2 SAFETY CAUTIONS........................1.2.1 NOTICES DURING INSTALLATION................1.2.2 SAFETY CAUTION FOR WIRING................1.2.3 SAFETY CAUTION FOR RUNNING OPERATION........... 1.2.4 SAFETY CAUTION FOR MAINTENANCE CHECK..........
Page 3 3.6 INSTALLATION AND DISASSEMBLY OF FUNCTION BOARD..........3.7 INSTALLATION SIZE OF FREQUENCY INVERTER............... 4. WIRING OF FREQUENCY INVERTER..................4.1 CAUTIONS OF WIRING......................... 4.2 CONNECTION OF OPTIONAL FITTINGS AND FREQUENCY INVERTER...... 4.3 WIRING OF CONTROL TERMINAL..................... 4.3.1 WIRING OF CONTROL PANEL STANDARD TERMINAL CON1 AND CON2..4.3.2 FUNCTION DESCRIPTION OF CONTROL TERMINAL..........
Page 4 6.2.8 V/F PARAMETERS AND OVERLOAD PROTECTION (MOTOR 1)...... 6.2.9 V/F PARAMETERS AND OVERLOAD PROTECTION (MOTOR 2)...... 6.2.10 STEADY RUNNING......................6.2.11 VECTOR RUNNING PARAMETERS (MOTOR 1)........... 6.2.12 VECTOR RUNNING PARAMETERS (MOTOR 2)........... 6.2.13 PARAMETER MEASUREMENT AND PRE-EXCITATION........6.2.14 MULTIFUNCTIONAL INPUT TERMINAL..............6.2.15 MULTIFUNCTIONAL OUTPUT TERMINAL..............
Page 5 6.2.44 EXPANSION MULTIFUNCTIONAL OUTPUT TERMINAL........6.2.45 SERVOCONTROL AND SCALE POSITIONING............6.2.46 VIRTUAL INPUT AND OUTPUT................... 6.2.47 PROTECTION FUNCTION CONFIGURATION PARAMETER......6.2.48 CORRECTION PARAMETER..................6.2.49 SPECIAL FUNCTIONAL PARAMETERS..............6.2.50 OTHER CONFIGURATION PARAMETERS.............. 6.2.51 HISTORICAL FAULT RECORDING................6.2.52 OPERATION STATUS AT THE LAST FAULT............6.2.53 BASIC STATUS PARAMETER..................
Page 6 7.20 ANALOG INPUT WIRE-BREAK DETECTION (GROUP F4.3)........... 7.21 HOPPING FREQUENCY (GROUP F5.0)................7.22 BUILT-IN AUXILIARY TIMER (GROUP F5.1)................. 7.22.1 BASIC FUNCTIONS OF THE TIMER................ 7.22.2 TRIGGER AND GATE CONTROL FUNCTION SETTING OF TIMER....7.22.3 CLOCK CONCATENATION FUNCTION SETTING OF TIMER......7.22.4 CONCATENATION TRIGGER FUNCTION SETTING OF TIMER......
Page 7 8.2 ABNORMAL OPERATION WITHOUT PROMPTS AND THE SOLUTIONS...... 8.3 FAILURES IN SETTING OPERATION OF FREQUENCY INVERTER....... 8.4 INQUIRY FOR FAILURE RECORD..................... 8.5 RESET OF WARNING OR ALARM FAILURE................9. MAINTENANCE..........................9.1 ROUTINE MAINTENANCE......................9.2 INSPECTION AND DISPLACEMENT OF THE VULNERABLE COMPONENTS.... 9.2.1 FILTER CAPACITOR......................
Page 8 ............................... 12.1 CE..............................12.2 DEFINITION............................ 12.3 OBEY STANDARD ORDER......................12.3.1 OBEY EMC ORDER...................... 12.3.2 OBEY LVD ORDER....................... 12.4 GUIDANCE OF EMC EXTERNAL ACCESSORIES INSTALLATION AND Selection..12.4.1 NOTICE OF I EMI INPUT FILTER INSTALLATION..........12.4.2 DC REACTOR......................... 12.4.3 FU INPUT REACTOR....................12.4.4 AC OUTPUT REACTOR....................
Page 9: Product Confirmation And Operation Cautions
 Warning: Without operation according to the requirements, moderate injuries or minor injuries of personnel and material loss may be caused.  Danger: Without operation according to the requirements, serious damage to the equipment or personnel injuries may be caused. V800 Series High Performance Closed-Loop Vector Inverter User Manual...
Page 10: Notices During Installation
5. Please set additional emergency stop switch, otherwise, personal injuries may be caused. 6. The temperature of cooling fin and direct current reactor can be very high, therefore, do not touch them, in case of the danger of burns. V800 Series High Performance Closed-Loop Vector Inverter User Manual...
Page 11: Safety Caution For Maintenance Check
In this case, please lower the carrier frequency, or apply with output filter. 4. For noise interference, connection filter, magnet ring and shielded wire can be applied as corresponding measures. V800 Series High Performance Closed-Loop Vector Inverter User Manual...
Page 12: Transportation And Storage
2. Do not allowed to do withstand voltage test with any part of the inverter because lots of precision devices are used in the inverter and that might cause performance disability even inverter failure. V800 Series High Performance Closed-Loop Vector Inverter User Manual...
Page 13: Production Introduction
Lower cover Control loop terminal Wiring entrace of extension loopr Wiring entrace of control loop Major loop terminal Wiring entrace of main loop Plugboard Appearance of Category Ⅲ Applicable for:V800-4T0370G/4T0450P ~ V800-4T1320G/4T1600P V800 Series High Performance Closed-Loop Vector Inverter User Manual...
Page 14 Applicable for: V800-4T1600G/4T1850P ~ V800-4T3150G/4T3500P Operating panel Upper cover Extension loop terminal 2 Extension loop Control loop terminal 1 terminal Major loop terminal Major loop terminal Appearance of Category Ⅴ Applicable forV800-4T3500G/4T4000P ~ V800-4T8000G/4T9000P V800 Series High Performance Closed-Loop Vector Inverter User Manual...
Page 15: Model Table
13.8 16.5 V800-4T0110G/4T0150P 16.5 21.7 V800-4T0150G/4T0185P 21.7 25.7 18.5 V800-4T0185G/4T0220P 25.7 18.5 29.6 V800-4T0220G/4T0300P 29.6 39.5 V800-4T0300G/4T0370P 39.5 49.4 V800-4T0370G/4T0450P 49.4 62.5 V800-4T0450G/4T0550P 62.5 75.7 V800-4T0550G/4T0750P 75.7 98.7 V800-4T0750G/4T0900P 98.7 V800-4T0900G/4T1100P V800 Series High Performance Closed-Loop Vector Inverter User Manual...
Page 16: Product Technical Index And Specifications
Analog output (can be set to 0~10V current output mode) Standard one group of AC 250V/2A normally open and closed contacts, Contact output extensible 1-6 groups normally open and closed contacts V800 Series High Performance Closed-Loop Vector Inverter User Manual...
Page 17 8-circuit one-to-one virtual output and input terminals, allowing for Function terminal complicated engineering onsite application in an easy way. Features Allows for easy servo control and precision positioning of spindle angle. Position servo V800 Series High Performance Closed-Loop Vector Inverter User Manual...
Page 18 0~1000 m. The output current capability drops by 10% for every rise of Altitude 1000 m. Environment Working ambient temperature: -10°C ~ +40°C Ambient temperature Storage ambient temperature: -20°C ~ +60°C Humidity Blow 95%, no condensed water Vibration < 20m/s V800 Series High Performance Closed-Loop Vector Inverter User Manual...
Page 19: Installation Of Frequency Inverter
Figure 3-3. If there is no choice but vertical installation, please consider setting partition plate as shown in Figure 3-2, to make no influence on upper frequency inverter from lower frequency inverter. V800 Series High Performance Closed-Loop Vector Inverter User Manual...
Page 20: Size And Assembly Of Operation Panel
DPNL350EM DPNL360CB DPNL360EA code 050M007033701 050M007360002 050M007360001 Apply to Standard Apply to the inverter below Apply to the inverter above V800-4T0040G/4T0055P ～ model V800-4T0030G/4T0040P V800-4T0370G/4T0450P V800-4T0300G/4T0370P appearance V800 Series High Performance Closed-Loop Vector Inverter User Manual...
Page 21 15 meters.  Do not carry out wiring horizontally close to power line.  Panel shall be fastened on stable fixed surface or work bench so as to avoid damage. V800 Series High Performance Closed-Loop Vector Inverter User Manual...
Page 22: Disassembly Of Terminal Cover
3. Tighten up the two thumb screws at the bottom of cover plate. Figure 3-5 Schematic diagram of disassembly and installation of sheet-metal cover plate V800 Series High Performance Closed-Loop Vector Inverter User Manual...
Page 23: Installation Size Of Panel
: 127*67 external mounting installation mounting plate without the plate tray The trepanning of mounting plate as follow mounting plate screw External fixation installation No such connection with a tray V800 Series High Performance Closed-Loop Vector Inverter User Manual...
Page 24: Disassembly And Installation Of Expansion Board
1. Clockwise rotate cylinder to make the triangle on it direct to “open”, put index finger or middle finger into the hole, push up then can take the cylindrical cover plate out 2. Slightly pull the pin of control board up out from function board then can take it out. V800 Series High Performance Closed-Loop Vector Inverter User Manual...
Page 25: Installation Size Of Frequency Inverter
Figure 3-7-B installation and disassemble of type II function card 3.7 INSTALLATION SIZE OF FREQUENCY INVERTER Type I suitable model: V800-4T0007G/4T0011P ~ V800-4T0300G/4T0370P H H1 Type II suitable model: V800-4T0370G/4T0450P ~ V800-4T3150G/4T3500P 4T0450G/4T0550P 62.5KVA 95A/72.7KVA 115A V800 Series High Performance Closed-Loop Vector Inverter User Manual...
Page 26 18 Installation Of Frequency Inverter Type III suitable model: V800-4T3500G/4T4000P ~ V800-4T8000G/4T9000P Backboard width The distance between mounting hole The height of backboard The distance between mounting hole The distance between backboard and headboard V800 Series High Performance Closed-Loop Vector Inverter User Manual...
Page 27 Installation Of Frequency Inverter Specific installation sizes of V800 series frequency inverters as listed below: Model Screw （Three phase 380V） (mm) (mm) (mm) (mm) (mm) V800-4T0011G/4T0015P V800-4T0015G/4T0022P V800-4T0022G/4T0030P V800-4T0030G/4T0040P V800-4T0040G/4T0055P V800-4T0055G/4T0075P V800-4T0075G/4T0090P V800-4T0090G/4T0110P V800-4T0110G/4T0150P V800-4T0150G/4T0185P V800-4T0185G/4T0220P V800-4T0220G/4T0300P V800-4T0300G/4T0370P V800-4T0370G/4T0450P V800-4T0450G/4T0550P...
Page 28: Wiring Of Frequency Inverter
 Absorption capacitor or other RC absorbers shall not be installed at U, V and W output end of the frequency inverter, as shown in Figure 4-1. Figure 4-1 RC absorbers shall not be connected at output end V800 Series High Performance Closed-Loop Vector Inverter User Manual...
Page 29: Connection Of Optional Fittings And Frequency Inverter
Standard built-in DC reactor for V800-4T0750G/4T0900P model and above.  Filter at output side: EMI filter can be selected to restrict the interference noise generated at the output side of the inverter and wire leakage current. V800 Series High Performance Closed-Loop Vector Inverter User Manual...
Page 30 150*2 1250 V800-4T3500G/4T4000P 185*2 1250 V800-4T4000G/4T4500P 240*2 1600 V800-4T4500G/4T5000P 240*2 1600 V800-4T5000G/4T5600P 185*3 1800 1000 V800-4T5600G/4T6300P 185*3 1800 1200 V800-4T6300G/4T7000P 240*3 2000 1300 V800-4T7000G/4T8000P 240*3 2500 1500 V800-4T8000G/4T9000P 185*4 2800 1800 V800 Series High Performance Closed-Loop Vector Inverter User Manual...
Page 31 Wiring Of Frequency Inverter  The power of adaptive motor can be increased by one power grade when V800 series frequency inverter is connected with loads for fans and water pumps compared with that for connecting with general loads. Main loop screw specification/ tightening torque, as listed below...
Page 32: Wiring Of Control Terminal
Unit Variables for detail. output TA-TB Contact capacity: normally closed AC250V/2A TA-TC normally open +24V power supply reference place Power Power supply of switching value Maximum output supply terminal current:100mA +24V power supply V800 Series High Performance Closed-Loop Vector Inverter User Manual...
Page 33: Cautions To The Wiring Of Control Terminal
CO1 grade: AO2 terminal output current signal 3) JP3 5V grade: VS terminal provides 5V voltage signal outward OFF grade: VS terminal is in suspended status 10V grade: VS terminal provides 10V voltage signal outward V800 Series High Performance Closed-Loop Vector Inverter User Manual...
Page 34: Wiring Of Major Loop Terminal
Applicable type: V800-4T0011G/4T0015P ～ V800-4T0030G/4T0040P Energy consumption braking resistor Motor Ground Three-phase power supply Type II major loop terminal Applicable type: V800-4T0040G/4T0055P Energy consumption braking resistor Motor Ground Three-phase power supply V800 Series High Performance Closed-Loop Vector Inverter User Manual...
Page 35 V800-4T0150G/4T0185P ～ V800-4T0185G/4T0220P Energy consumption braking resistor DC reactor Ground Motor Three-phase power supply Type V major loop terminal Applicable type: V800-4T0220G/4T00300P DC reactor Motor Ground Energy consumption Three-phase power supply braking resistor V800 Series High Performance Closed-Loop Vector Inverter User Manual...
Page 36 Applicable type: V800-4T0370G/4T0450P DC reactor Motor Ground Three-phase power supply Braking unit Type VIII major loop terminal Applicable type: V800-4T0450G/4T0550P - V800-4T0550G/4T0750P DC reactor Motor Ground Three-phase power supply Braking unit V800 Series High Performance Closed-Loop Vector Inverter User Manual...
Page 37 Type X major loop terminal Applicable type: V800-4T1600G/4T1850P ～ V800-4T3150G/4T3500P Motor Ground Braking unit Three-phase power supply Type XI major loop terminal Applicable type: V800-4T3500G/4T4000P ～ V800-4T8000G/4T9000P Motor Three-phase power supply Braking unit V800 Series High Performance Closed-Loop Vector Inverter User Manual...
Page 38: Wiring Connection Of Basic Operation
Auxiliary power V800 supply Volt gauge（0-10V）/Ammeter（0-20mA） 0- 10V frequency Volt gauge（0-10V）/Ammeter（0-20mA） 0-20mA frequency Open collector output PG expansion card(otonal) +12V Figure 4-3 Basic wiring diagram for V800 series frequency inverter V800 Series High Performance Closed-Loop Vector Inverter User Manual...
Page 39: Operation And Simple Running Of Frequency Inverter
Key can be locked or functions can be changed by users (refer to Functional Parameter F0.011). V800 Series High Performance Closed-Loop Vector Inverter User Manual...
Page 40: Basic Functions And Operating Methods Of Panel
When the frequency inverter set F0.0.08 as # # 1 2 or # # 1 3 in stopped mode, the keyboard will begin to copy the backup parameters to frequency inverter and the operation panel will display the process in real V800 Series High Performance Closed-Loop Vector Inverter User Manual...
Page 41 The operation command channel switched by this function is not stored permanently. It will recover to original setting after the frequency inverter is power down and restarted. Relevant application parameters of the frequency inverter should be modified to permanently change the command channel. V800 Series High Performance Closed-Loop Vector Inverter User Manual...
Page 42: Operating Methods Of Panel
Operation And Simple Running Of Frequency Inverter 5.2.2 OPERATING METHODS OF PANEL 1) Query for status parameters (e.g.) Figure 5-1 Query for status parameters V800 Series High Performance Closed-Loop Vector Inverter User Manual...
Page 43 “EROM regional numerical value”, “parameter values at initial energizing” and “backup parameters in operation panel” are displayed. V800 Series High Performance Closed-Loop Vector Inverter User Manual...
Page 44: Simple Running Of Frequency Inverter
Automatic learning parameter set for accurate electric parameters of the controlled parameter determination motor. If the motor is rotating, please conduct after the motor is completely stopped. V800 Series High Performance Closed-Loop Vector Inverter User Manual...
Page 45 Acceleration Refer to F1.0.00 ~ process smooth and reduce mechanical impact, F1.0.10 function users can set S curve acceleration and deceleration parameter set deceleration function to make the speed of the V800 Series High Performance Closed-Loop Vector Inverter User Manual...
Page 46: Initial Setting Of Frequency Inverter
1 which is valid separately and F0.2.25 is set as 2 valid panel digital setting (maintaining after stopping and storing after power down), the frequency setting of the frequency inverter will be determined by F0.2.29. V800 Series High Performance Closed-Loop Vector Inverter User Manual...
Page 47: Simple Operation
Observe the operation of motor, if there are abnormalities, stop it immediately and power off and  re-operate it after finding out the causes; Press key to reduce set frequency;  V800 Series High Performance Closed-Loop Vector Inverter User Manual...
Page 48: Vc (Inductive Vector) Operation
At this time, please reduce the setting value of the carrier frequency. (Parameter [F1.1.13]). Three-phase breaker Motor Three-phase power supply Grounding PG expansion card (match) +12V V800 Figure 5-4 Wiring for the operation of VC mode V800 Series High Performance Closed-Loop Vector Inverter User Manual...
Page 49: Functional Parameter Table
4: Display modified and un-stored parameters after power-on this time _ _ X _: Parameter modification mode 0: Effective and permanently stored after modification 1: Effective after modification but not stored, and getting lost after power-off V800 Series High Performance Closed-Loop Vector Inverter User Manual...
Page 50 7: Factory Reset parameter groups F0>FF 8: Clear away fault records _ _ _ X: Upload and download 0: No action Parameter F0.0.08 0000 × 1: Parameter upload copying(H) 2: Parameter download 3: Parameter download V800 Series High Performance Closed-Loop Vector Inverter User Manual...
Page 51 X _ _ _: Reserved Principal monitoring F0.0.12 d0.0~d0.55 / d1.0~d1.55 d0.00 parameter (H) Auxiliary monitoring F0.0.13 d0.0~d0.55 / d1.0~d1.55 d0.02 parameter 1 (H) Auxiliary monitoring F0.0.14 d0.0~d0.55 / d1.0~d1.55 d0.04 parameter 2 (H) V800 Series High Performance Closed-Loop Vector Inverter User Manual...
Page 52: Selection Of Running Commands
0.01 60.00 frequency Upper limiting F0.1.21 [F0.1.22]~Min. (300.00Hz,[F0.1.20]) 0.01 50.00 frequency Lower limiting F0.1.22 0.0Hz~[F0.1.21] 0.01 frequency F0.1.23 FWD jog frequency 0.0Hz~[F0.1.21] 0.01 10.00 F0.1.24 REV jog frequency 0.0Hz~[F0.1.21] 0.01 10.00 V800 Series High Performance Closed-Loop Vector Inverter User Manual...
Page 53: Frequency Setting
Minimum value of F0.2.27 frequency setting 0.0~[F0.2.28] 0.01 source 1 Maximum value of F0.2.28 frequency setting [F0.2.27]~[F0.1.20] 0.01 50.0 source 1 Panel digital set F0.2.29 value of frequency 0.0~[F0.1.28] 0.01 setting source 1 V800 Series High Performance Closed-Loop Vector Inverter User Manual...
Page 54: Control Command Source
(Function No. 43) 2: Command word from standard fieldbus (standard expansion card) LED X _ _ _: The action mode when the running permission signal is void 0: Free stop V800 Series High Performance Closed-Loop Vector Inverter User Manual...
Page 55 0: The inverter will stop in deceleration mode according to the emergency stop and deceleration time. Emergency stop mode F0.4.54 (EMS) 1: The inverter will immediately lock output and the motor will stop in free sliding mode. V800 Series High Performance Closed-Loop Vector Inverter User Manual...
Page 56: Acceleration And Deceleration Characteristics
_ X _ _: Reference frequency linkage adjustment Carrier F1.1.14 0111 characteristics 0: Void 1: Effective X _ _ _: Modulation mode 0: Asynchronous modulation 1: Synchronous modulation 2~5: Sound smooth V800 Series High Performance Closed-Loop Vector Inverter User Manual...
Page 57: V/F Parameters And Overload Protection (Motor 1)
0~500 Frequency point 3 of motor 2 V/F F1.3.35 0.0~[F0.1.21] 0.01 × curve F1.3.36 Voltage point 3 of Motor 2 V/F curve 0~500V Slip frequency compensation for F1.3.37 0~150(%) motor 2 V800 Series High Performance Closed-Loop Vector Inverter User Manual...
Page 58: Steady Running
_ _ _ X: Output grounding 0: Self resetting forbidden 1: Self resetting permitted X _ _ _: Running under voltage 0: Self resetting forbidden 1: Self resetting permitted F1.4.53 Display coefficient 0.001~60.000 0.001 1.000 V800 Series High Performance Closed-Loop Vector Inverter User Manual...
Page 59: Vector Running Parameters (Motor 1)
Quadrature axis 0.001~6500.0mH × ☆ inductance of PMSM F2.0.22 Initial angle of PMSM 0~65535 × F2.0.23 Z pulse original angle 0.0~359.9 × F2.0.24 reserved reserved × F2.0.25 Overload protection 50.0~131.0(%)（131—closed） 110.0 setting V800 Series High Performance Closed-Loop Vector Inverter User Manual...
Page 60: Vector Running Parameters (Motor 2)
Z pulse original angle 0.0~359.9 × F2.1.50 reserved reserved ×  The stator resistance, stator inductance and the Minimum Unit of total leakage inductance of asynchronous motors is relevant with different models. V800 Series High Performance Closed-Loop Vector Inverter User Manual...
Page 61: Parameter Measurement And Pre-Excitation
_ _ X _: DI5~DI8 terminal Input terminal effective F3.0.11 0000 × level (H) The same as above _ X _ _: DI9 terminal The same as above X _ _ _: Reserved V800 Series High Performance Closed-Loop Vector Inverter User Manual...
Page 62: Multifunctional Output Terminal
Lower limiting value of monitor 3 F3.1.34 0.0~100.0 (%) variables (relative to full scale value Upper limiting value of monitor 3 F3.1.35 0.0~100.0 (%) 100.0 variables (relative to full scale value V800 Series High Performance Closed-Loop Vector Inverter User Manual...
Page 63: Pulse Input
F3.3.48 0.01 10.0 (PWM signal reference DO3/Fout frequency) 0~45(Monitor Variable F3.3.49 Pulse output mapping variable Comparison Table) F3.3.50 DO3/Fout assignment lower limit 0.0~[F3.3.51] F3.3.51 DO3/Fout assignment upper limit [F3.3.50]~100.0 (%) 100.0 V800 Series High Performance Closed-Loop Vector Inverter User Manual...
Page 64: Analog Input
AI3 curve correction value 1/ F4.1.19 [F4.0.04]~[F4.0.05] 0.01 standard expansion card AI3 curve correction point 2/ F4.1.20 [F4.0.04]~[F4.0.05] 0.01 10.00 standard expansion card AI3 curve correction value 2/ F4.1.21 [F4.0.04]~[F4.0.05] 0.01 10.00 standard expansion card V800 Series High Performance Closed-Loop Vector Inverter User Manual...
Page 65: Analog Output
F4.2.33 AO2 upper limiting value [F4.2.32]~100.0 (%) 100.0 AO2 filtering time F4.2.34 0.01~10.00Sec. 0.01 0.10 coefficient AO2 fixed output value F4.2.35 0.0~20.00mA (0.0~10.00V) 0.01 (at the time of fixed output value) V800 Series High Performance Closed-Loop Vector Inverter User Manual...
Page 66: Analog Input Power Failure Detection
2: Forcedly set to the maximum F4.3.48 × detection response 3: Forcedly set to the defaults value (F4.3.49) 4: Inverter forced trip stop AI3 power failure default F4.3.49 -10.00~10.00V 0.01 value V800 Series High Performance Closed-Loop Vector Inverter User Manual...
Page 67: Virtual Analog Input
Hopping frequency 2 0.0~[F0.1.21] 0.01 × Range of hopping F5.0.03 0.0~10.00Hz 0.01 × frequency 2 F5.0.04 Hopping frequency 3 0.0~[F0.1.21] 0.01 × Range of hopping F5.0.05 0.0~10.00Hz 0.01 × frequency 3 V800 Series High Performance Closed-Loop Vector Inverter User Manual...
Page 68: Built-In Auxiliary Timer
Timer 2 timing cycle 0~65535 (clock cycle) 30000 Timer 2 comparative F5.1.12 0~[F5.1.11] 10000 threshold value F5.1.13 Timer 3 timing cycle 0~65535 (clock cycle) 30000 Timer 3 comparative F5.1.14 0~[F5.1.13] 10000 threshold value V800 Series High Performance Closed-Loop Vector Inverter User Manual...
Page 69 1: Sec. 2: Min. 3: H. Timer value display F5.1.19 _ _ X _: Timer 2 0000 unit(H) The same as above _ X _ _: Timer 3 The same as above V800 Series High Performance Closed-Loop Vector Inverter User Manual...
Page 70: Built-In Auxiliary Counter
6: Set value 1 or set value 2 reached and signal(H) reversed _ _ X _: Output signal 2 The same as above _ X _ _: Reserved X _ _ _: Reserved V800 Series High Performance Closed-Loop Vector Inverter User Manual...
Page 71: Auxiliary Functions
5: Compensation PID output Reference value for F5.3.40 0.0~ 200.0 (%) 100.0 dynamic balance load Dynamic balance F5.3.41 0.00~100.00 0.01 50.00 adjustment gain Dynamic balance F5.3.42 0.00~100.00 (%) 0.01 1.00 adjustment limit V800 Series High Performance Closed-Loop Vector Inverter User Manual...
Page 72: Motor Temperature Detection
[F0.1.22]~[F0.1.21] 0.01 25.00 F6.0.11 12th operating frequency [F0.1.22]~[F0.1.21] 0.01 5.00 F6.0.12 13th operating frequency [F0.1.22]~[F0.1.21] 0.01 15.00 F6.0.13 14th operating frequency [F0.1.22]~[F0.1.21] 0.01 35.00 F6.0.14 15th operating frequency [F0.1.22]~[F0.1.21] 0.01 50.00 V800 Series High Performance Closed-Loop Vector Inverter User Manual...
Page 73: Simple Programmable Multi-Stage Operation
1: Min. F6.1.30 Stage 15 setting (H) 0000 F6.1.31 Stage 1 running time 0.0~6500.0(Sec./Min.) F6.1.32 Stage 2 running time 0.0~6500.0(Sec./Min.) F6.1.33 Stage 3 running time 0.0~6500.0(Sec./Min.) F6.1.34 Stage 4 running time 0.0~6500.0(Sec./Min.) V800 Series High Performance Closed-Loop Vector Inverter User Manual...
Page 74: Swing Frequency Operation
F6.2.50 0.0~50.0(%) 10.0 frequency Triangular wave F6.2.51 0.1~1000.0Sec. 10.0 rising time Triangular wave F6.2.52 0.1~1000.0Sec. 10.0 decreasing time Frequency setting F6.2.53 in the center of the 0.0~[F0.1.21] 0.01 10.00 swing frequency V800 Series High Performance Closed-Loop Vector Inverter User Manual...
Page 75: Process Pid (4Ms Control Cycle)
11: MODBUS value 2 Analog input quantity corresponding to 0% F7.0.04 0.0V~[F7.0.05]/ AI2: 0.0mA~[F7.0.05] 0.01 setting (Channel 1) Analog input quantity corresponding to F7.0.05 [F7.0.04]~10.00/AI2: [F7.0.04]~20.00mA 0.01 10.00 100% setting (Channel 1) V800 Series High Performance Closed-Loop Vector Inverter User Manual...
Page 76 (e.g. differential F7.0.16 0.01~100.00 0.01 1.00 voltage calculate flow rate with differential voltage) F7.0.17 Proportional gain 0.0~100.00 0.01 2.00 F7.0.18 Integration time 0.0~1000.0Sec. 20.0 F7.0.19 Differential coefficient 0.0~10.00 0.01 V800 Series High Performance Closed-Loop Vector Inverter User Manual...
Page 77: Process Pid Multi-Stage Setting
Process PID multi-stage preset 4 -100.0~100.0 (%) F7.1.31 Process PID multi-stage preset 5 -100.0~100.0 (%) F7.1.32 Process PID multi-stage preset 6 -100.0~100.0 (%) F7.1.33 Process PID multi-stage preset 7 -100.0~100.0 (%) V800 Series High Performance Closed-Loop Vector Inverter User Manual...
Page 78: Process Pid Sleep Function
4: Analog input AI3 (dual polarity) Pulse of decoder per F8.0.05 1~8192 1024 × revolution (PG) 0: Phase A leads PG rotation direction F8.0.06 × (Effective for PG card) 1: Phase B leads V800 Series High Performance Closed-Loop Vector Inverter User Manual...
Page 79: Revolution Closed-Loop Parameter
Unit Default Limit 0: Single PID parameter (the second group of parameters are effective separately ) F8.1.18 Controller PID selection 1: Dual PID parameter (hysteresis switching) 2: Dual PID parameter (continuous V800 Series High Performance Closed-Loop Vector Inverter User Manual...
Page 80: Protection Parameter
0.0~150.0% (as compared to upper F8.2.36 120.0% value (OS) limiting frequency) Over speed protection time F8.2.37 0.0~2.00Sec. 0.01 0.10 (OS) SVC rotating speed 0.10 ~ 10.00 0.01 1.00 F8.2.38 estimate gain factor V800 Series High Performance Closed-Loop Vector Inverter User Manual...
Page 81: Torque Control
1: Minimum torque set value 2 (F8.3.49) F8.3.47 2: Multifunctional selection terminal setting 1 or 0000 Setting of torque set value limit 3: AI1 set value 4: AI2 set value 5: MODBUS Fieldbus set value 1 V800 Series High Performance Closed-Loop Vector Inverter User Manual...
Page 82: Compensation Pid (Running Cycle: 1Ms)
X_ _ _: feed forward compensate frequency benchmark 0: Relative to the upper frequency 1: Relative to the frequency integrator output Compensation proportion (as F9.0.01 0.0~100.0(%) 50.0 compared to upper limiting frequency) V800 Series High Performance Closed-Loop Vector Inverter User Manual...
Page 83 F9.0.12 compensation PID 3: Output current feedback value 4: Output torque 5: Output power Actual value analog F9.0.13 0.0V~[F9.0.14]/AI2: 0.0mA~[F9.0.14] 0.01 input minimum F9.0.14 [F9.0.13]~10.00/AI2: [F9.0.13]~20.00mA 0.01 10.00 Actual value analog V800 Series High Performance Closed-Loop Vector Inverter User Manual...
Page 84: Compensation Pid Controller Parameter Selection
Differential coefficient2 0.0, 0.01~10.00 0.01 Differential output filtering F9.1.32 0.01~25.00Sec. 0.01 5.00 constant 2 Adjuster output filtering F9.1.33 0.0, 0.01~20.00Sec. 0.01 1.00 time coefficient 2 F9.1.34 Proportional gain 3 0.0~100.00 0.01 2.00 V800 Series High Performance Closed-Loop Vector Inverter User Manual...
Page 85: Modbus Fieldbus (Standard Expansion Card Configuration)
1: 1-8-1-E, RTU 2: 1-8-1-O, RTU 3: 1-8-2-N, RTU The device station FA.0.02 0~247(0 stands for broadcasting address) × address The device FA.0.03 0~1000ms response delay FA.0.04 0.01~10.00Sec. 0.01 1.00 × Communication V800 Series High Performance Closed-Loop Vector Inverter User Manual...
Page 86: Mapping Access Parameter
0310 × _ _ X _: Linkage target value (Master control options device parameter) 0: Proportional linkage of frequency /revolution set value 1: Proportional linkage of frequency /revolution integrator output value V800 Series High Performance Closed-Loop Vector Inverter User Manual...
Page 87: Expansion Multifunctional Input Terminal
EDI1 Expand multifunctional Fb.0.01 0~96 × input terminal EDI2 Expand multifunctional Fb.0.02 0~96 × input terminal EDI3 Expand multifunctional Fb.0.03 0~96 × input terminal EDI4 Fb.0.04 0~96 × Expand multifunctional V800 Series High Performance Closed-Loop Vector Inverter User Manual...
Page 88: Expansion Multifunctional Output Terminal
(DC bind-type brake preferred) VC mode) 3: Lock in the designated shutdown angle Position lock gain1(location Fb.2.21 00.10~10.00 0.01 1.00 gain) PG speed shaft propulsion Fb.2.22 0.001~50.000mm 0.01 0.500 distance per revolution V800 Series High Performance Closed-Loop Vector Inverter User Manual...
Page 89 _ _ X _: Command 0000 × 0: External terminal selection 1: Pulse command setting(Fin) _ X _ _: Direction arrival 0: Locate according to the order 1: Locate according to the minimum corner V800 Series High Performance Closed-Loop Vector Inverter User Manual...
Page 90: Virtual Input And Output
Definition of virtual output node 0~71 FF.0.05 (SDO5) Definition of virtual output node 0~71 FF.0.06 (SDO6) Definition of virtual output node 0~71 FF.0.07 (SDO7) FF.0.08 0~71 Definition of virtual output node V800 Series High Performance Closed-Loop Vector Inverter User Manual...
Page 91 1: Antipolar connection Virtual output- input connection FF.0.18 0000 × polarity _ X _ _: SDO7-SDI7 0: Homopolar connection 1: Antipolar connection X _ _ _: SDO8-SDI8 0: Homopolar connection 1: Antipolar connection V800 Series High Performance Closed-Loop Vector Inverter User Manual...
Page 92: Protection Function Configuration Parameter
_ _ _ X: warning the message shielded 0000 Protective action 0: Closed 1: Act (no warning) configuration 5 (H) FF.1.23 _ _ X _: Output supply power protection of phase sequence (reversed)LED 0: Closed V800 Series High Performance Closed-Loop Vector Inverter User Manual...
Page 93: Correction Parameter
FF.3.38 0.10 ~ 10.00 0.01 1.00 proportional gain Current closed-loop FF.3.39 0.10 ~ 10.00 (Sec.) 0.01 1.00 integration time constant Total leakage inductance FF.3.40 0.10 ~ 10.00 0.01 1.00 compensation constant V800 Series High Performance Closed-Loop Vector Inverter User Manual...
Page 94: Other Configuration Parameters
LED _ X _ _: Rotor time constant adaptive correction 0: Forbidden 1: Permitted LED X _ _ _: Torque increasing function 0: Void 1~5: Effective Random FF.4.45 0~65535 reference value V800 Series High Performance Closed-Loop Vector Inverter User Manual...
Page 95: Historical Fault Recording
_ _ X _: Operation status dE.0.17 Inverter operation status 0000 0: Stop 1: Start acceleration 2: Stop deceleration 3: Decreasing frequency and deceleration 4: Steady operation _ X _ _: Electric/braking status V800 Series High Performance Closed-Loop Vector Inverter User Manual...
Page 96: Basic Status Parameter
4: Steady operation _ X _ _: Electric/ braking status 0: Electric operation 1: Power generation operation X _ _ _: Limit suppression 0: No action 1: Over current suppression V800 Series High Performance Closed-Loop Vector Inverter User Manual...
Page 97 Accumulative power-on time (H) 0~65535h Power-on (hh.mm.s) cycling d0.0.26 00.00.0~23.59.9 timing d0.0.27 Kilowatt-hour counter (low) 0~1000.0KWh 0.1KWh d0.0.28 Kilowatt-hour counter (high) 0~60000KKWh 1KKWh d0.0.29 Megawatt hour counter 0~60000MW 1 MW V800 Series High Performance Closed-Loop Vector Inverter User Manual...
Page 98: Auxiliary Status Parameter
Total quantity of bus information 0~65535 d0.2.53 Number of bus CRC check errors 0~65535 d0.2.54 Number of error data accepted by bus 0~65535 d0.2.55 Number of effective data of bus 0~65535 V800 Series High Performance Closed-Loop Vector Inverter User Manual...
Page 99: Terminal Status And Variable
Limit d1.1.11 Counter 1 current value 0~65535 d1.1.12 Counter 2 current value 0~65535 d1.1.13 Timer 1 current value 0~65535 d1.1.14 Timer 2 current value 0~65535 d1.1.15 Timer 3 current value 0~65535 V800 Series High Performance Closed-Loop Vector Inverter User Manual...
Page 100: Spindle Control And Scale Positioning Status Parameter
Motherboard program d1.4.46 6000~6999 — version (H) d1.4.47 Reserved — d1.4.48 Motherboard check date(H) 2009~2100 — d1.4.49 Motherboard check date(H) 0101~1231 — Motherboard check serial d1.4.50 0 ~ 50000 — number V800 Series High Performance Closed-Loop Vector Inverter User Manual...
Page 101 Position pulse counting (PG pulse counting Automatic shifting (Spindle shifting jog running) accumulation) resetting Servo pulse command direction (Fin) Servo control effective Spindle positioning origin photoelectric Spindle origin homing signal input V800 Series High Performance Closed-Loop Vector Inverter User Manual...
Page 102 Position reached (Servo or spindle control) limit and the lower limit Analog input AI1 wire breakage detection Analog input AI2 wire breakage detection effective effective Analog input AI3 wire breakage detection Reserved effective V800 Series High Performance Closed-Loop Vector Inverter User Manual...
Page 103 500.0°C / 5000Ω Frequency setting channel set value Upper limiting frequency Speed command Upper limiting frequency*60/pairs of motor poles Torque command 300% rated torque Target operating frequency Upper limiting frequency Reserved —— V800 Series High Performance Closed-Loop Vector Inverter User Manual...
Page 104 Built-in Fieldbus set value 1 10000 Extended communication module set value 1 10000 Built-in Fieldbus set value 2 30000 Extended communication module set value 2 30000 39~44 Reserve Fixed output (current or voltage) 20.00mA (10.00V) V800 Series High Performance Closed-Loop Vector Inverter User Manual...
Page 105: Description Of Specific Functions
3: 2 wire Control 1/AI1 setting Refer to Figure 7-2-A for the application wiring diagram, and refer to Table 7-1 for macro- related parameters. Figure 7-2-A 2 wire control 1/AI1 setting wiring diagram V800 Series High Performance Closed-Loop Vector Inverter User Manual...
Page 106 Locked F0.2.25 2 (0~2) Locked F0.3.33 Locked F0.3.35 — — Locked F0.4.37 Locked F0.4.38 Locked F3.0.01 — — — — Locked F3.0.02 — — Locked F3.0.03 — — Locked F3.0.04 Locked V800 Series High Performance Closed-Loop Vector Inverter User Manual...
Page 107 Applicable to steady load (e.g. fan and pump load). In this mode, the load capacity of the equipment will be automatically increased by one power grade, and the initialization value of motor parameters will be also V800 Series High Performance Closed-Loop Vector Inverter User Manual...
Page 108 This function is used to make correction during field commissioning when the system works abnormally because no one knows which parameter is V800 Series High Performance Closed-Loop Vector Inverter User Manual...
Page 109 30 seconds or any other key is pressed down within 30 seconds, the password setting will be given up. The sketch of locking operation is as below: Figure 7-5 Parameter locking flow V800 Series High Performance Closed-Loop Vector Inverter User Manual...
Page 110 – The board memory parameters are not consistent with the frequency inverter parameters in terms of the version. aL.076 – There are no effective parameters in the board memory. V800 Series High Performance Closed-Loop Vector Inverter User Manual...
Page 111 All keys are effective on the operating panel. 1: All keys except for UP/DW (shuttle), STOP and RUN are locked. Only UP/DW (shuttle), STOP and RUN keys on the operating panel are effective. V800 Series High Performance Closed-Loop Vector Inverter User Manual...
Page 112 Be sure the safety before operation. If the running command (FWD/REV/JOG) after switching is inconsistent with that before switching, the inverter will change its current running status (stop, run or REV), which may cause accident. V800 Series High Performance Closed-Loop Vector Inverter User Manual...
Page 113: Running Command Selection (Group F0.1)
Setting range: 0~14 Factory default: 0 The V800 series inverter has two frequency setting sources (corresponding parameters F0.2.25, F0.2.26). This parameter determines 14 kinds of combined calculation methods for the two frequency setting sources. Figure 7-8 shows the structure sketch of the frequency setting channel.
Page 114 （ a ） Figure 7-9-A Frequency combination sketch 1  The combination result will only be in bipolarity when only two setting sources are set in bipolarity way. (Figure c) V800 Series High Performance Closed-Loop Vector Inverter User Manual ...
Page 115 Combination value （b）（c）（a） Figure 7-9-C Frequency combination sketch 3  The combination result will only be in bipolarity when only two setting sources are set in bipolarity way. (Figure c) V800 Series High Performance Closed-Loop Vector Inverter User Manual...
Page 116 Frequency set value = Min (|set value 1|, |set value 2|) The minimum value between the absolute values of set value 1 and set value 2 is taken as the frequency set value, and the combination value must be unipolar. V800 Series High Performance Closed-Loop Vector Inverter User Manual...
Page 117 The running direction is controlled by the direction command. 1: FWD locking The motor will run in FWD direction No matter the FWD running command or REV running command is given. V800 Series High Performance Closed-Loop Vector Inverter User Manual...
Page 118 However, it is also influenced by the startup frequency and startup frequency duration as well as the functions of DC band-type braking, startup delay and startup pre-excitation. V800 Series High Performance Closed-Loop Vector Inverter User Manual...
Page 119: Frequency Setup (Group F0.2)
17) the set frequency. The terminal function is selected by parameters F3.0.00 ~ F3.0.08.The set data will not be saved and will get lost after power-off. The relationship between the status setting combination of the three external switches and the current V800 Series High Performance Closed-Loop Vector Inverter User Manual...
Page 120 9: Analog input Al1 The frequency set value is given via the analog input AI1; For relevant characteristics please see the instructions of the parameters F4.0.00 and F4.0.01. V800 Series High Performance Closed-Loop Vector Inverter User Manual...
Page 121 The frequency set value = the frequency value corresponding to AI1 *the frequency value corresponding to AI2/the frequency corresponding to the maximum input of AI2. 22: AI1/AI2 The frequency set value= the frequency value corresponding to AI1/the frequency value corresponding to AI2. 23: Process PID output V800 Series High Performance Closed-Loop Vector Inverter User Manual...
Page 122: Control Command Source (Group F0.3)
The frequency command value at the time of panel digital setting can be directly modified with the ▲, ▼ keys (or shuttle) on the panel in the normal monitoring mode, and the set frequency can be also modified by means of parameter modification. V800 Series High Performance Closed-Loop Vector Inverter User Manual...
Page 123 0: Two wire mode 1 Running command Stop Stop Figure 7-13-A Two wire running mode 1 1: Two wire mode 2 Running command Stop Stop Figure 7-13-B Two wire running mode 2 V800 Series High Performance Closed-Loop Vector Inverter User Manual...
Page 124: Start And Stop (Group F0.4)
2: Command word from standard fieldbus (effective when standard expansion card is equipped) The start permission signal is from the bus command word. _ X _ _ : Running permission 0: Function closed V800 Series High Performance Closed-Loop Vector Inverter User Manual...
Page 125 See below figure for the revolution tracking start sketch. V800 Series High Performance Closed-Loop Vector Inverter User Manual...
Page 126 For the system with high inertia, heavy load and high requirement of start torque, the start frequency can effectively overcome the difficult of start, and the start frequency is also effective in each acceleration process when the inverter switches between forward and reverse running. V800 Series High Performance Closed-Loop Vector Inverter User Manual...
Page 127  When the rated current of the adapter motor differs greatly from the rated current of the inverter, please carefully set the pre-excitation current (F0.4.41), as excessive setting may damage the motor. Figure 7-18 Start pre-excitation output V800 Series High Performance Closed-Loop Vector Inverter User Manual...
Page 128 The DC brake time is the duration of the output DC braking current. If it is selected that the external terminal stop DC braking is effective, the parameter of DC braking action time will be void. V800 Series High Performance Closed-Loop Vector Inverter User Manual...
Page 129 REV or from REV to FWD. This function is used to overcome reversal current compact caused by mechanical dead zone, as shown in Figure 7-21. Output frequency Time [F0.4.50] Figure 7-21 FWD and REV transition dead zone Sketch V800 Series High Performance Closed-Loop Vector Inverter User Manual...
Page 130 Setting range: 0, 1 Factory default: 0 This parameter defines the stop mode after the inverter has received an emergency command (Function No. 14, to be set by the Group F3.0 parameters). V800 Series High Performance Closed-Loop Vector Inverter User Manual...
Page 131: Accel And Decel Characteristics (Group F1.0)
As shown in item ② in Figure 7-24, the acceleration rising/deceleration decreasing period of S curve is indicated by the percentage of the total acceleration and decoration time. V800 Series High Performance Closed-Loop Vector Inverter User Manual...
Page 132 The deceleration time means the time required for the inverter to decelerate from the maximum output frequency [F0.1.20] to 0.00Hz. V800 series inverters are defined with 4 kinds of acceleration/deceleration time. The acceleration/ deceleration time 1~4 during the running process of the inverter can be selected through different combinations of external terminals.
Page 133: Carrier Frequency (Group F1.1)
2: Noise smoothing In this mode, the inverter’s carrier frequency is uncertain random value, which is favorable for reducing audio noise and fixed frequency interference. V800 Series High Performance Closed-Loop Vector Inverter User Manual...
Page 134: V/F Parameters And Overload Protection (Motor 1) (Group F1.2)
The outputted is 2.5 times-square descending torque characteristics curve. See the curve 3 in the figure. It is suitable for torque load of fans and pumps. If it is not steady during light load operation, please switch to 1.5 times-square curve for operation. Figure 7-26 V/F curve V800 Series High Performance Closed-Loop Vector Inverter User Manual...
Page 135 Setting range: 0~500V Factory default: 0.0 motor 1 This group of parameters is used to flexibly set V/F curve desired by users, as shown in Figure 7-28. Figure 7-28 V/F customized curve V800 Series High Performance Closed-Loop Vector Inverter User Manual...
Page 136: V/F Parameters And Overload Protection (Motor 2) (Group F1.3)
Thus, for occasions requiring shorter acceleration time, acceleration torque level shall be properly improved. V800 Series High Performance Closed-Loop Vector Inverter User Manual...
Page 137 X _ _ _ : Failure Auto Recovery Mode Setting effective, failure auto recovery mode is normal start, setting not effective, failure auto recovery mode is speed tracking start V800 Series High Performance Closed-Loop Vector Inverter User Manual...
Page 138 减速时间 larger the undervoltage adjusting gain is, the stronger undervoltage suppression is. 自由停机减速停机 This function plays very efficiently in large inertia load application occasions like centrifugal pump and draught fan. V800 Series High Performance Closed-Loop Vector Inverter User Manual...
Page 139 F1.4.53 Display coefficient Setting range: 0.001~60.000 Factory default: 1.000 It is used for correction values of monitoring parameters (d0.0.00, d0.0.01, d0.0.9, d0.0.10), to match with site parameters. V800 Series High Performance Closed-Loop Vector Inverter User Manual...
Page 140: Vector Running Parameters (Motor 1) (Group F2.0)
 When a frequency inverter runs with several motors in parallel, function of heat relay protection of frequency inverter will out of action automatically. In order to protect motor efficiently, it is suggested that installation of heat protection relay in each motor. V800 Series High Performance Closed-Loop Vector Inverter User Manual...
Page 141: Parameter Measurement And Pre-Excitation (Group F2.2)
F8.0.17.  During the process of operation identification of motor parameter, it must sure that no load of motor during the whole process, otherwise, incorrect motor parameters will be obtained. V800 Series High Performance Closed-Loop Vector Inverter User Manual...
Page 142: Multifunctional Input Terminal (Group F3.0)
Multi-stage operation frequency 8 Multi-stage operation frequency 9 Multi-stage operation frequency 10 Multi-stage operation frequency 11 Multi-stage operation frequency 12 Multi-stage operation frequency 13 Multi-stage operation frequency 14 Multi-stage operation frequency 15 V800 Series High Performance Closed-Loop Vector Inverter User Manual...
Page 143 Once frequency inverter occurs to fault alarm, reset it through external terminals and be valid to input rising edge; the function is coincident to operation board's STOP/RESET buttons'. 14: Emergency stop (EMS) Whatever status frequency inverter operates, if the functional terminal is effective, frequency inverter stops in V800 Series High Performance Closed-Loop Vector Inverter User Manual...
Page 144 When select the multi-stage frequencies or rotation running condition input in the programmable multi-stage speed operation mode (regard F6.1.15 as ###2), the functional terminal can achieve simple PLC multi-stage running's input and cutting off. V800 Series High Performance Closed-Loop Vector Inverter User Manual...
Page 145 This functional terminal is applied to switch Process PID feedback of frequency inverter between process PID setting 1 and process PID setting 2. See process PID switching status as following table: V800 Series High Performance Closed-Loop Vector Inverter User Manual...
Page 146 42: Start permission When parameter F0.4.37 is set as ###1or ###2, the function terminal is valid. 43: Running permission When parameter F0.4.37 is set as #1## or #2##, the function terminal is valid. V800 Series High Performance Closed-Loop Vector Inverter User Manual...
Page 147 68: Servo pulse command direction This function is valid when pulse input port (DI9//Fin) is used as servo command pulse, and representative pulse direction is: invalid is positive (add plus), valid is negative (minus pulse). V800 Series High Performance Closed-Loop Vector Inverter User Manual...
Page 148 Setting range: 1~50ms Factory default: 5 time (DI6~DI9) /standard expansion card Set the filtering time of the input terminal detection. When state of the input terminal changes, if it remains the V800 Series High Performance Closed-Loop Vector Inverter User Manual...
Page 149 Determination methods of parameter setting value are shown as following: Table 7-16 Correspondence between Binary Number Setting and Digital Show Value Binary number setting Hexadecimal(digital show value) BIT3 BIT2 BIT1 BIT0 V800 Series High Performance Closed-Loop Vector Inverter User Manual...
Page 150: Multifunctional Output Terminal (Group F3.1)
When inverter goes wrong and sends fault signal, terminal will output effective signal/relay will pull in. 5: Equipment alarm When there is exception of inverter and sending warning signal, terminal will output effective signal/relay will pull in. V800 Series High Performance Closed-Loop Vector Inverter User Manual...
Page 151 When monitoring parameters 1/2/3 are below the lower limit values, terminal will output the valid signal/relay will pull in, which keeps until monitoring parameters 1/2/3 are above the upper limit values, then output the V800 Series High Performance Closed-Loop Vector Inverter User Manual...
Page 152 If D10~D18 terminals are effective, terminal will output effective signal/relay will pull in. 63: DO3/Fout terminal as the frequency output terminal As frequency output terminal, frequency range of signal output by D03/ Fout: 0.07-100.0KHz. V800 Series High Performance Closed-Loop Vector Inverter User Manual...
Page 153: Pulse Input (Group F3.2)
(for liner speed calculation) This group of parameters is used for linear speed calculation or length accumulation. Mechanical drive ratio=rotating speed of pulse speed measuring shaft: Rotating speed of motor shaft V800 Series High Performance Closed-Loop Vector Inverter User Manual...
Page 154: Pulse Output (Group F3.3)
Corresponding relationship between the two is as shown in Figure 7-35: Fout output frequency [F3.3.48] [F3.3.47] Per unit value of the pulse output mapping variable [F3.3.50] [F3.3.51] Figure 7-35 Characteristic curve of pulse output fount V800 Series High Performance Closed-Loop Vector Inverter User Manual...
Page 155: Analog Input (Group F4.0)
Filtering time constant (time needed for given signal rising to 63% of stable value) should be set properly according to fluctuation range of external input signal, if set it too high, anti-interference capacity will be strong while delaying the speed of response to setting signal. V800 Series High Performance Closed-Loop Vector Inverter User Manual...
Page 156: Analog Input Curve Correction (Group F4.1)
F4.2.31 AO2 max value/standard Setting range: 0.00~10.00V Factory default: 10.00 expansion card This group of parameters defines the maximum and minimum of multifunction analog output AO1, AO2 allowed to output. V800 Series High Performance Closed-Loop Vector Inverter User Manual...
Page 157 When the mapping variable of multifunction analog output AO1, AO2 is a fixed value (F4.02.22, F4.2.23 is set as 24), fixed value of AO1 output is [F4.2.29], and the fixed value of AO2 output is [F4.2.35], which can output voltage and current signal. V800 Series High Performance Closed-Loop Vector Inverter User Manual...
Page 158: Analog Input Wire-Break Detection (Group F4.3)
Output frequency of frequency inverter will still adjust out of the mechanical resonant band, operating with lower limiting value of the hopping range of this hopping frequency. V800 Series High Performance Closed-Loop Vector Inverter User Manual...
Page 159: Built-In Auxiliary Timer (Group F5.1)
Reset Comparative value reaching (0.5pulse) Comparative value reaching (level) REV after reaching the comparative value Figure 7-41-A Schematic diagram of comparison value of timer 1 reaching for the basic function (F5.1.06=11#1) V800 Series High Performance Closed-Loop Vector Inverter User Manual...
Page 160: Trigger And Gate Control Function Setting Of Timer
Figure 7-41-C Starting trigger and gate control signal function of timer 1 (UT1) (F5.1.06=1111; F5.1.15=0001) 7.22.3 CLOCK CONCATENATION FUNCTION SETTING OF TIMER [F5.1.09] Trigger signal Clock Trigger signal Clock Figure 7-41-D Pulse concatenation function of timer 1(UT1) (F5.1.06=10#1; F5.1.07=###3) V800 Series High Performance Closed-Loop Vector Inverter User Manual...
Page 161: Concatenation Trigger Function Setting Of Timer
Set value 2 Set value 1 Clock pulse Set value 1 reaching (0.5 Sec. pulse) Reset Set value 1 reaching (level) REV after reaching set value 1 Figure 7-42-A Counter function 1 V800 Series High Performance Closed-Loop Vector Inverter User Manual...
Page 162: Auxiliary Functions (Group F5.3)
Swing frequency Operating frequency compensation PID output Revolving speed setting channel (F8.0.00) Automatic multiple frequency operating order Multiple operating frequency of external terminal selection Frequency setting channel (F0.1.16) Lowest priority V800 Series High Performance Closed-Loop Vector Inverter User Manual...
Page 163 (F5.3.33). Brake torque （%） Brake with magnetic flux Figure 7-43 Magnetic flow braking curve Brake without magnetic flux Frequency(Hz) V800 Series High Performance Closed-Loop Vector Inverter User Manual...
Page 164 F5.3.38 Load balancing feature Setting range: 0, 1, 2 Factory default:0 F5.3.39 Load balancing reference Setting range: 0~5 Factory default:0 F5.3.40 Reference value for load Setting range: 0.0~200.0% Factory default:100.0 balance load V800 Series High Performance Closed-Loop Vector Inverter User Manual...
Page 165: Motor Temperature Detection (Group F5.4)
The motor temperature can be measured by connecting the PT100 or PTC sensor to the analog input and output interfaces of frequency converter. See Figure 7-47-A and Figure 7-47-B for wiring: V800 Series High Performance Closed-Loop Vector Inverter User Manual...
Page 166 The temperature signal of PT100 or PTC sensor should be inputted through analogy input Channel Al3. 3: DI1~DI9 (thermoswitch) The temperature signal of thermoswitch should be inputted through multifunctional input terminals Channel D1-D19 (Function No. 62). V800 Series High Performance Closed-Loop Vector Inverter User Manual...
Page 167: Multi-Stage Frequency Setting (Group F6.0)
_ _ _ X : Function selection 0: Function selection 1: Multi-stage frequency/revolution operation effective In case of frequency (revolution) instruction source allowed to the priority, the frequency converter operates in multi-stage frequency/revolution. V800 Series High Performance Closed-Loop Vector Inverter User Manual...
Page 168 [F6.0.35] [F6.0.01] [F6.0.34] [F6.0.00] Time [F6.0.31] [F6.0.05] [F6.0.32] [F6.0.33] [F6.0.36] [F6.0.04] Running command Stage end DO output Cycle end DO output Figure 7-48-C Single cycle stop mode of simple PLC operation V800 Series High Performance Closed-Loop Vector Inverter User Manual...
Page 169 _ X _ _ : Selection of breakpoint/stop recovery mode 0: Restore running at the first stage V800 Series High Performance Closed-Loop Vector Inverter User Manual...
Page 170 When the frequency converter fails power, it stores the simple programmable multi-stage operation, including the power-off status, operation frequency, operated time, and operates according to the parameter's breakpoint/stop recovery mode of hundred definition after power comes again. V800 Series High Performance Closed-Loop Vector Inverter User Manual...
Page 171: Simple Programmable Multi-Stage Operation (Group F6.1)
In case of frequency (revolution) instruction source allowed to the priority. If it invalidates, frequency converter operates with the set value of swing frequency preset frequency F6.2.47. In this mode, preset frequency waiting time invalidates. V800 Series High Performance Closed-Loop Vector Inverter User Manual...
Page 172 Frequency setting in the center of the swing frequency is referred to the center value of frequency converter output frequency in the process of swing frequency operation. Center frequency of practical output = [F6.2.53] + F0.1.16 certain set frequency. V800 Series High Performance Closed-Loop Vector Inverter User Manual...
Page 173 Description Of Specific Functions 165 Refer to the following figure for the structure of Process PID and functions of each functional parameters: Figure 7-51 Schematic block of process PID control V800 Series High Performance Closed-Loop Vector Inverter User Manual...
Page 174: Process Pid (4Ms Control Cycle) (Group F7.0)
F7.0.15 Actual value 2 maximum Setting range: [F7.0.14]~10.00V/ Factory default: 5.00 ( feedback channel 2) AI2: [F7.0.14] ~20.00mA When the analog channel input is selected for feedback source of process PID, corresponding relationship V800 Series High Performance Closed-Loop Vector Inverter User Manual...
Page 175 The larger the differential coefficient is set, the stronger the differential function is. In general system, there is no need to introduce differential link. Larger differential inertia filtering time can make the differential adjustment more smoother, generally, It is set in proportion to the inertia of system. V800 Series High Performance Closed-Loop Vector Inverter User Manual...
Page 176 PID output direction, and PID output can change the operation direction. If the direction lock parameter (F0.1.17) is valid, efficient PID output shall take the absolute value. Refer to Figure 7-55-A and Figure 7-55-B. V800 Series High Performance Closed-Loop Vector Inverter User Manual...
Page 177 Controller output value is the permitted maximum deviation amount with given value of controller. When feedback value is within the range of maximum deviation range, the controller stops adjusting. Proper setting of his function contributes to covering the accuracy and stability of output of system. V800 Series High Performance Closed-Loop Vector Inverter User Manual...
Page 178 This group of parameter determines the corresponding relationship between feedback percentage and feedback physical quantity, which determines monitoring the displayed dimension of parameter d0.1.36 and d0.1.37. Corresponding relationship curve is shown in Figure 7-58. V800 Series High Performance Closed-Loop Vector Inverter User Manual...
Page 179: Process Pid Multi-Stage Setting (Group F7.1)
Set value of awakens deviation is the relevant percentage of PID given value.  7.32 REVOLUTION SETTING AND FEEDBACK (GROUP F8.0) Figure 7-60 Closed-loop block diagram of revolution This group of parameter is valid with VC and SVC modes. V800 Series High Performance Closed-Loop Vector Inverter User Manual...
Page 180 Motor revolution [F8.0.02] [F8.0.01] Maximum Minimum Revolution set value set value channel setting Figure 7-61 Corresponding relation of revolution set value and motor revolution V800 Series High Performance Closed-Loop Vector Inverter User Manual...
Page 181 Setting range: 0~30000rpm Factory default: 1500 maximum value (not PG) The parameter is used to set relations between revolution feedback signal (feedback channel 1~4) and the corresponding to the motor feedback. V800 Series High Performance Closed-Loop Vector Inverter User Manual...
Page 182: Revolution Closed-Loop Parameter (Group F8.1)
F8.1.22 Integral time 1 (ASR-I1) Setting range:0.0,0.01~50.00Sec. Factory default: 1.00 F8.1.23 Differential coefficient Setting range: 0.0, 0.01~10.00 Factory default: 0.0 1 (ASR-D1) F8.1.24 Differential output Setting range:0.10~5.00Sec. Factory default: 1.00 filtering constant 1 (ASR-DT1) V800 Series High Performance Closed-Loop Vector Inverter User Manual...
Page 183: Protective Parameters (Group F8.2)
Inverter keeps on running without reporting any fault or warning message. 1: Alarm free stop Inverter immediately blockades output and reports overlarge deviation of rotating speed (Fu.018) or over- speed fault (Fu.019), while electric motor freely coasts to stop V800 Series High Performance Closed-Loop Vector Inverter User Manual...
Page 184: Torque Control (Group F8.3)
5: Analog input AI3 (bipolarity) AI3 input voltage value of -10~10V is corresponding to -250%~250% of rated torque; positive and negative input of AI3 are corresponding to positive and negative instruction value of torque. V800 Series High Performance Closed-Loop Vector Inverter User Manual...
Page 185 Its set value, the setting with symbols (Direction), is corresponding to the percentage of rated torque; Actual given direction of torque is “Exclusive OR” of control command direction and set value direction. V800 Series High Performance Closed-Loop Vector Inverter User Manual...
Page 186 Description Of Specific Functions 178 Refer to the following figure for the structure of compensation PID and functions of each functional parameter: Figure 7-64 Schematic block of compensation PID V560 Series High Performance Closed-Loop Vector Inverter User Manual...
Page 187: Compensation Pid (1Ms Control Cycle) (Group F9.0)
PID feedback value and the analogy port.The correspondence relationship is shown in Figure 7-66. Figure 7-65 Sketch of compensation PID set value definition Figure 7-66 Sketch of compensation PID feedback value definition V800 Series High Performance Closed-Loop Vector Inverter User Manual...
Page 188: Parameter Selection Of Compensation Pid Controller
Selection of controller parameters PID group 4 effective [F9.1.39]~[F9.1.43] PID group 3 effective [F9.1.34]~[F9.1.38] PID group 2 effective [F9.1.29]~[F9.1.33] PID group 1 effective [F9.0.03]~[F9.0.07] Time Figure 7-67 Sketch of compensation PID parameter switching V800 Series High Performance Closed-Loop Vector Inverter User Manual...
Page 189: Modbus Fieldbus (Group Fa.0)
Can be read as per the loops (1~16) Set value 1 0x1301 Setting of relative values Set value 2 0x1302 Setting of absolute values Mapping application parameter 1 0x1303 The access parameter is set by FA.1.08. V800 Series High Performance Closed-Loop Vector Inverter User Manual...
Page 190: Communication Linkage Synchronous Control (Group Fa.2)
FA.2.27 Coupling fine proportion Setting range: 0~3 Factory default: 0 adjustment 0: No fine adjustment If the fine adjustment source for linkage proportion coefficient is void, then: Slave frequency command = V800 Series High Performance Closed-Loop Vector Inverter User Manual...
Page 191 This method requires the motor that runs with linkage has the same parameter in the PG speed detector . Position synchronous balance can only revise the minor rotate speed deviation. Adjust the synchronous rotate speed function before use the function. V800 Series High Performance Closed-Loop Vector Inverter User Manual...
Page 192: Expansion Multifunctional Input Terminal (Group Fb.0 And Fb.1)
3: Lock in the designated stop angle It is used to the spindle drive of machine tool to ensure the constant angle in the spindle off. The stop angle is set by Fb 2.45. V800 Series High Performance Closed-Loop Vector Inverter User Manual...
Page 193 2 mm (B=2), and the pulse command unit is 1 um (C=0.001m), then the electronic gear is 4AC/B = 4000*0.001/2 = 2/1. Hence, the numerator and the denominator for the electronic gear is respectively 2 and 1. V800 Series High Performance Closed-Loop Vector Inverter User Manual...
Page 194 Fb.2.38~ Fb.2.44 Spindle Setting range: 0~359.9 Factory default: 0.0~315.0 positioning angle 1~7 Fb.2.45 Spindle stop angle Setting range: 0~359.9 Factory default: 0.0 Setting for multi-stage spindle positioning angle and stop angle. V800 Series High Performance Closed-Loop Vector Inverter User Manual...
Page 195: Virtual Input And Output (Group Ff.0)
SDI1~SDI8. When it is set to be reverse polarity connection, the virtual output signal will be negated before being inputted to the virtual input port, as shown in Figure 7-67. FF0.01~FF0.08 FF0.17~FF0.18 FF0.09~FF0.16 Figure 7-67 Block diagram of virtual output – input V800 Series High Performance Closed-Loop Vector Inverter User Manual...
Page 196: Protecting Function Configuration Parameters (Group Ff.1)
Generally, users do not need to set these parameters. Figure 7-68-B AI1 gain Figure 7-68-A AI1 zero offset correction curve correction curve V800 Series High Performance Closed-Loop Vector Inverter User Manual...
Page 197 The set value for this parameter [FF.2.35] must be no more than the under voltage adjustment action level [F1.4.45]. V800 Series High Performance Closed-Loop Vector Inverter User Manual...
Page 198: Special Functional Parameters (Group Ff.3)
The control command can only be given via RS485 port, and the standard panel is only used for monitoring. 2: Multifunctional terminal switching The master control panel is selected by the multifunctional input terminal (Function No. 40) and the terminal function is set with the parameters F3.0.00 ~ F3.0.08. V800 Series High Performance Closed-Loop Vector Inverter User Manual...
Page 199 X _ _ _ : SVC Revolution identification mode/synchro control mode 0: SVC Revolution identification mode 1/synchro id = 0 control mode 1: SVC Revolution identification mode 2 (reserved) effecctive/synchro minimum current control mode V800 Series High Performance Closed-Loop Vector Inverter User Manual...
Page 200: Warning, Alarm Diagnosis And Counter Measures
Eliminate short circuit failure. The encoder is faulty or disconnected during operation with PG. Inspect the connection of encoder. V800 Series High Performance Closed-Loop Vector Inverter User Manual...
Page 201 6. In closed loop vector mode, the direction level. of pulse of the encoder is opposite to that 6. Adjust the connection of encoder of the motor. or change the function setting for direction of the encoder. V800 Series High Performance Closed-Loop Vector Inverter User Manual...
Page 202 1. There is intense noise around in the 1. Retry after reset. Internal data process of writing in function code data. Fu.022 memory is faulty 2. Seek for manufacturer’s service. 2. The internal memory is damaged. V800 Series High Performance Closed-Loop Vector Inverter User Manual...
Page 203 2. Seek for manufacturer’s support. 2. The driving or control panel of the seriously frequency inverter is faulty. 3. Eliminate the failure of motor. unbalanced 3. The three-phase winding of the motor is V800 Series High Performance Closed-Loop Vector Inverter User Manual...
Page 204 2. Replace the extended abnormal 2. The extended components are damaged. components. Conflicting Fu.201 Please contact the direct supplier. parameter setting Fu.301 Control panel is Seek for manufacturer’s support. faulty Fu.311 V800 Series High Performance Closed-Loop Vector Inverter User Manual...
Page 205: Warning Display And Troubleshooting
1. Inspect the connection of speed measuring The rotating speed detecting module aL.040 Can be shielded loop is disconnected 2. Seek for manufacturer’s support No-load operation fails to aL.041 identify the parameters of motor V800 Series High Performance Closed-Loop Vector Inverter User Manual...
Page 206 Fail to establish aL.065 communications with function expansion unit 1 Fail to establish aL.066 communications with function expansion unit 2 The communication links of aL.067 function expansion unit 1 is interrupted abnormally V800 Series High Performance Closed-Loop Vector Inverter User Manual...
Page 207 Reset the motor parameters rotating speed conflict) The setting motor parameters are conflicted (No-load current, rated current, rated aL.104 Reset the motor parameters rotating speed, rated frequency and rotor time constant) V800 Series High Performance Closed-Loop Vector Inverter User Manual...
Page 208: Abnormal Operation Without Prompts And The Solutions
Inspect whether the setting of selection of frequency setting channel ([F0.1.16]) The set frequency is too low. is correct or not; the set frequency value is lower or the frequency setting channel is faulty. V800 Series High Performance Closed-Loop Vector Inverter User Manual...
Page 209 The load type is set improperly there’s vibration or not. The motor parameters are set 1. Make sure the motor parameters ([F2.0.00~F2.0.09]) are set correctly or inaccurately re-self adjust the internal parameters of the motor. V800 Series High Performance Closed-Loop Vector Inverter User Manual...
Page 210 2. Prolong acceleration and deceleration time ([F1.0.03]~[F1.0.10]). torque Wrongly select the acceleration Inspect whether the selection signal for acceleration and deceleration time of and deceleration time multifunctional input terminal ([F3.0.00]~[F3.0.08]) is correct or not. V800 Series High Performance Closed-Loop Vector Inverter User Manual...
Page 211: Failures In Setting Operation Of Frequency Inverter
Confirm whether the OK key is pressed after the modification of function Did not press OK key code data. There’s failure in the connection Remove the operation panel and reinstall or replace a new operation between operation panel and panel. frequency inverter V800 Series High Performance Closed-Loop Vector Inverter User Manual...
Page 212: Inquiry For Failure Record
0: Electric operation 1: Power generation operation LED X _ _ _ : Limit suppression 0: No action 1: Over current suppression action 2: Over voltage suppressor action 3: Under voltage suppressor action V800 Series High Performance Closed-Loop Vector Inverter User Manual...
Page 213: Reset Of Warning Or Alarm Failure
The reset shall be conducted 5 minutes later in overload and overheating protection  action. When external terminals control, the fault reset shall be conducted after the removal of  terminal operation command. V800 Series High Performance Closed-Loop Vector Inverter User Manual...
Page 214: Maintenance
2. No abnormalities and inconsistent noise 1. The input voltage is in the specified Input and 1. Input voltage scope output √ 2. Output current parameter 2. Output current is under the rated value V800 Series High Performance Closed-Loop Vector Inverter User Manual...
Page 215: Inspection And Displacement Of The Vulnerable Components
Service life of the entire cooling fan in frequency converter is about 15000 hours (i.e. frequency inverter use continuously for about two years), if the fan has unusual voice or vibration, it should be replaced immediately. V800 Series High Performance Closed-Loop Vector Inverter User Manual...
Page 216: Storage
 Damage to the machine due to fire, corrosive salt, gas corrosion, earthquake, storms, floods, thunder, abnormal voltage or other force majeure. The company will provide lifelong paid maintenance services even the warranty period expire. V800 Series High Performance Closed-Loop Vector Inverter User Manual...
Page 217: Example Of Usage
Multifunctional terminal D11 is defined as FWD operating terminal (to receive sensor signals) 9. F5.1.06= 0000 Timer 1's clock cycle: 1ms ; Operate trigger-start of multifunction terminals; State reset of multifunctional terminal; Single-cycle timing. V800 Series High Performance Closed-Loop Vector Inverter User manual...
Page 218: Wiring Diagram
Motor rolling: power: 5.5KW Rated torque: 36 N.m Pole number: 2 Tension sensor: Measuring range 0-40N Signal outputting: 0-10V Winding diameter: Diameter of hollow winding 0.5m Diameter of full winding 1m V800 Series High Performance Closed-Loop Vector Inverter User manual...
Page 219: Diagram Of Constant Tension Control
Proportional gain of PID in first part (relatively bigger than parameter value in second part) 15. F9.0.04= 2 Integral time of PID in first part (relatively smaller than parameter value in second part) V800 Series High Performance Closed-Loop Vector Inverter User manual...
Page 220: Wiring Diagram
Differential coefficient of PID in second part 31. F9.1.33= 5 Regulator output of filtering time constant 10.2.4 WIRING DIAGRAM Three-phase circuit breaker motor × Three-phase × power supply × Tension detecting sensor V800 Series High Performance Closed-Loop Vector Inverter User manual...
Page 221: Application In Mechanical Factory
Virtual input of SDl2 signal — three-line operating control 18. FF.0.17= 0010 Phase-reversing connection between SDO2 and SDl2 10.3.2 EXTERNAL CIRCUIT WIRING DIAGRAM Three-phase circuit breaker Electric motor × Three-phase × power supply × External sensor signal V800 Series High Performance Closed-Loop Vector Inverter User manual...
Page 222: Multi-Pid Setup, Multi-Part Pid Setup, Form A Multi- Step Pidsetup
Part 5 in process PID given with 50% 18. F7.1.32= 60 Part 6 in process PID given with 60% 19. F7.1.33= 80 Part 7 in process PID given with 70% 10.4.2 DIAGRAM OF STEP PID VALUE GIVEN V800 Series High Performance Closed-Loop Vector Inverter User manual...
Page 223: Description Of Communication Protocol
FA.0.02 = X, choose the address of this station; FA.0.03~FA.0.06, configure supporting communication parameters; refer to functional parameter table for detailed functions. X indicates that this digit can be any value in the allowed range.  V800 Series High Performance Closed-Loop Vector Inverter User manual...
Page 224: Brief Introduction Of Functions
0x10- Write to multiple registers area, 0x1300-0x1400) Setting values 0x17- Read/write to multiple registers Mapping status parameters Mapping application parameters For detailed address distribution, please refer to below section of Modbus detailed address-finding distribution. V800 Series High Performance Closed-Loop Vector Inverter User manual...
Page 225: Detailed Modbus Address-Finding Distribution
Multi-purpose output terminal 1 0x1020 Multi-purpose output terminal 2 0x1021 EDO1 Multi-purpose output terminal 3 (extendable card) 0x1030 Multi-purpose relay output 1 0x1040 ERO1 Multi-purpose relay output 2 (extendable card) 0x1050 Keep 0x1051~ 0x1099 V800 Series High Performance Closed-Loop Vector Inverter User manual...
Page 226 Multi-purpose input terminal 6 0x1125 EDI1 Multi-purpose input terminal 7 (extendable card) 0x1130 EDI2 Multi-purpose input terminal 8 (extendable card) 0x1131 EDI3 Multi-purpose input terminal 9 (extendable card) 0x1132 Keep 0x1133~0x1199 V800 Series High Performance Closed-Loop Vector Inverter User manual...
Page 227 Status parameter address (read-only): The address conversion method for status parameter is similar to that for application parameter. However, there is no ROM access address. Parameter Identifier RAM Access Address d0.#.00 ~ d0.#.55 0xD000~0xD055 d1.#.00 ~ d1.#.55 0xD100~0xD155 V800 Series High Performance Closed-Loop Vector Inverter User manual...
Page 228 If we need to read the operation direction, we can read the status digit 5 (address 0x1105) via functional code 02, we can also read the status character (address 0x1309) via functional code 03. V800 Series High Performance Closed-Loop Vector Inverter User manual...
Page 229 Return the number of bus anomaly failures 0000 data items Return the number of salve unit information items Number of valid data (corresponding with slave unit address or the 0000 items broadcasting information) V800 Series High Performance Closed-Loop Vector Inverter User manual...
Page 230: Examples
Host request: Sub-function Sub-function Query data Query data Slave Unit Function CRC Check CRC Check Code Code Address Code Low Digit High Digit High Digit Low Digit High Digit Low Digit V800 Series High Performance Closed-Loop Vector Inverter User manual...
Page 231 04 03 11 00 20 00 00 01 05 60 11 01 02 61 02 Model of frequency inverter: V800-4T1100G/4T1320P, frequency inverter in operation, production batch of 2011-2-3, version number: 6201. V800 Series High Performance Closed-Loop Vector Inverter User manual...
Page 232: Emc
400A, or it is suitable in complicated system of 2 environment. 12.3 OBEY STANDARD ORDER 12.3.1 OBEY EMC ORDER V800 Series meet the requirements of standard EN61800-3: 2004 C2, which is suitable in 1 and 2 environment. 12.3.2 OBEY LVD ORDER V800 Series meet the requirements of standard EN 61800-2.
Page 233: Guidance Of Emc External Accessories Installation And Selection
3) Insulation Resistance: iron core-winding 500VDC, insulation resistance ≥100MΩ； 4) Reactor noise is lower than 65dB (test at the point of 1m horizontal distance with reactor) Temperature rise is less than 70K V800 Series High Performance Closed-Loop Vector Inverter User Manual...
Page 234: Fu Input Reactor
1. Performance index of AC input reactor ● Rated operational voltage: 380V/50Hz； ● Dielectric strength: iron core-winding 3000VAC/50Hz/5mA/60S, no flashover breakdown； V800 Series High Performance Closed-Loop Vector Inverter User Manual...
Page 235: Ac Output Reactor
PWM wave of passivated inverter, improve power factor and quality of power grid as well as stabilize waveform. 1. Performance index of AC output reactor ● Rated operational voltage: 380V/50Hz； V800 Series High Performance Closed-Loop Vector Inverter User Manual...
Page 236 110*85 Φ8 AKSG40A/9V 210*165*170 110*85 Φ8 18.5 AKSG50A/9V 210*165*170 110*85 Φ8 AKSG60A/9V 210*165*170 110*85 Φ8 AKSG80A/9V 270*190*230 155*100 Φ10 AKSG110A/9V 270*190*230 155*100 Φ10 AKSG125A/9V 270*190*230 155*100 Φ10 AKSG150A/9V 290*200*230 170*115 Φ10 V800 Series High Performance Closed-Loop Vector Inverter User Manual...
Page 237: Shielded Cable
Aluminum wire casing could improve equipotential voltage. 6) Filter, inverter, and motor should be in good connection with system (mechanical equips) with painting protection of installed parts and sufficient contact with conductive metal. V800 Series High Performance Closed-Loop Vector Inverter User Manual...
Page 238: Leakage Current Response Requirements
4) If to install several inverters, each inverter should have a leakage circuit breaker. 5) Factors that affect leakage current, as follows: ◆ Inverter capacity V800 Series High Performance Closed-Loop Vector Inverter User Manual...
Page 239: Common Emc Interference Problem And Solution
◆Add capacitor filter on AI, maximum 0.22uF； I/O Interference ◆Analog signal use shielded wire, shields connect PE of frequency inverter. Remark：If you have any other EMC interference questions, please contact the manufacturer. V800 Series High Performance Closed-Loop Vector Inverter User Manual...
Page 240: Accessories
2. Power of brake resistance selection The power of brake resistance and power of braking keep consistent in theory, but should take 70% derating into account. The formula: 0.7*Pr=Pb*D Pr---- power of brake resistance V800 Series High Performance Closed-Loop Vector Inverter User Manual...
Page 241 Standard ≥60 Standard V800-4T0150G/4T0185P ≥50 Standard V800-4T0185G/4T0220P ≥35 Standard V800-4T0220G/4T0300P 18.5 ≥30 Standard V800-4T0011G/4T0015P ≥25 If need braking function of the model upon V560-4T0220, please refer to the braking unit manual. V800 Series High Performance Closed-Loop Vector Inverter User Manual...
Page 242: Appearance Of Brake Unit
13.1.4 INSTALLATION SIZE OF BRAKE UNIT Figure 13-3 Installation size diagram The installation size of brake unit is shown in the following table: Screw Model of the brake unit (mm) (mm) (mm) (mm) (mm) specification DBKU-4T0450(4T0900) V800 Series High Performance Closed-Loop Vector Inverter User Manual...
Page 243: 5Single Brake Unit And Inverter Reference Wiring Sketch
For more instructions of the brake unit please refer to the operating manual of the brake unit by visiting our website to download: http://www.sunfars.com. V800 Series High Performance Closed-Loop Vector Inverter User Manual...
Page 244: I/O Expansion Card (Standard Type: Dec350Vs, Pn: 050M008003000)
TA1-TB1 normally closed contacts; Programmable output TA1-TC1 normally open contacts; See F3 parameter for the contact capacity: AC 250V/1A Common port Common port for ±10V,AI3 Common port Common port for DO3,DI7,DI8, and DI9 V800 Series High Performance Closed-Loop Vector Inverter User Manual...
Page 245: Pg Expansion Card (Standard Deb3Pg12Va, Pn: 050M009012002)
Function +12V Externally providing +12V/200mA current Power supply reference point Encoder A-phase differential input (+12V±20%)，max frequency≤200 KHz Encoder B-phase differential input (+12V±20%)，max frequency≤200 KHz Encoder Z-phase differential input (+12V±20%)，max frequency≤200 KHz V800 Series High Performance Closed-Loop Vector Inverter User Manual...
Page 246: Introduction Of Lcd Operating Panel
13.4.3 FUNCTION OF KEYS Refer to Chapter 5 for the function and operation of keys on LCD panel. Please refer to the product catalogue if you want to know more about optional accessories. V800 Series High Performance Closed-Loop Vector Inverter User Manual...

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