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Frecon FR600 Series Installation And Commissioning Manual

550vac/690vac vector control inverter
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FR600 series inverters fast installation and commissioning guide
Step 1. Checking the inverter model No.
Master series code of
Product:
FR600: 550/690VAC
Vector control inverter
Industry-specific series
code:
None:Standard Machine
A~Z:Industry-specific
retention
Input voltage:
5: 550V(-30%~+10%)
6: 690V(-30%~+10%)
Step 2. Wirings
By step 1 to check and confirm that the purchased inverter is what user need, and then
wirings as below:
1. Main circuit wiring
Power
Terminal marks
R/L1、S/L2、T/L3
U/T1、V/T2、W/T3
(+)、(-)
PB
2. Control circuit wirings
Different control circuit wirings for different applications, for FRECON product quick-menu,
here take some normal-used wirings as example below:
FR600
Figure 1 Produce Model No. Naming Rule
Braking Resistor(Optional spares)
MCCB
L1
L2
L3
Figure 2 Main Circuit Wirings
Designation and function of terminals.
AC power input terminals for connecting to 3-phase AC380V power
supply.
AC output terminals of inverter for connecting to 3-phase induction
motor.
Positive and negative terminals of internal DC bus.
Positive and negative terminals of internal DC bus. Connecting
terminals of braking resistor. One end connected to + and the other to
PB.
Grounding terminal.
FR600 Series 550VAC/690VAC Vector Control Inverter
-6T-7.5
(+)
PB
Inverter
- 1 -
Brake unit:
None: No Braking Unit
B: Built-in brake unit
Adaptable Motor (kW)And
Type of Motor:
7.5: 7.5kW
Input voltage phases:
S:Single-phase
T:Three-phase
U
M
V
W

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Summary of Contents for Frecon FR600 Series

  • Page 1 One end connected to + and the other to Grounding terminal. 2. Control circuit wirings Different control circuit wirings for different applications, for FRECON product quick-menu, here take some normal-used wirings as example below: - 1 -...
  • Page 2 +10V R1A R1B R1C Figure 3 FR600 series Control Terminal Diagram 2.1 Frequency given by keypad potentiometer, start or stop the machine controlled by RUN and STOP button on keypad. Control circuits no need to be wired, directly work with power 2.2 Frequency given by external potentiometer, start or stop the machine controlled by...
  • Page 3 FR600 Series 550VAC/690VAC Vector Control Inverter F01.01 Main frequency source given mode 6: Process PID 1: External terminal (LED light F02.00 Start/stop command source selection turn on) F13.01 PID Digital Given 25.0% 0.0~100.0% F13.08 Proportional Gain Kp1 0.0~100.0 F13.09 Integration Time Ti1 0.01~10.00s...
  • Page 4 FR600 Series 550VAC/690VAC Vector Control Inverter 3.1 Operation panel button and potentiometer function There are 8 buttons and 1 analog potentiometer, functions of every button as table 1. Table 1 Operation Panel Buttons Function Table Symbol Name Function Escape Enter or exit Level I menu...
  • Page 5 FR600 Series 550VAC/690VAC Vector Control Inverter If the default quick-parameters can’t meet the user demand, user can self-define the quick-parameters according to the actual situation; detailed method is to change F17 group function code. F17 group supply max 30 groups of user customized parameters, F17 group parameter show value 00.00, means the user function code is null.
  • Page 6 FR600 Series 550VAC/690VAC Vector Control Inverter F03.00 Accel time 0 15.0s △ 0.0~6000.0s △ F03.01 Decel time 0 0.0~6000.0s 15.0s Function of F04.00 0: No function × terminal DI1 Function of F04.01 1: Running forward (FWD) × terminal DI2 Function of F04.02...
  • Page 7 FR600 Series 550VAC/690VAC Vector Control Inverter 7:AI3 △ F13.01 PID digital setting 0.0~100.0% 50.0% 0:AI1 F13.02 PID feedback × 1:AI2 2: Communication Proportional gain F13.08 △ 0.0~100.0 Integration time F13.09 0.10s △ 0.01~10.00s - 7 -...

  • Page 8: Preface

    Thank you for choosing FRECON developed and produced FR600 series vector control inverter. FR600 series vector control inverter is mainly positioned as a high-end market for OEM customers and the specific requirements of fan and pump load applications,its flexible design, both embedded SVC and VF control in one,can be widely used for speed control accuracy, torque...

  • Page 9: Table Of Contents

    FR600 Series 550VAC/690VAC Vector Control Inverter Contents PREFACE ..............................- 8 - CONTENTS .............................. - 9 - CHAPTER 1 SAFETY PRECAUTIONS ......................- 11 - 1.1 S .......................... - 11 - AFETY ONSIDERATIONS 1.2 P ............................- 13 - RECAUTIONS CHAPTER 2 PRODUCT INFORMATION ....................
  • Page 10 FR600 Series 550VAC/690VAC Vector Control Inverter F11 P ......................- 103 - ROUP ROTECTION ARAMETERS F12 M PLC F ................- 108 - ROUP ULTI EFERENCE AND IMPLE UNCTION F13 P PID ..........................- 112 - ROUP ROCESS F14 S ..............

  • Page 11: Chapter 1 Safety Precautions

    Users are requested to read this chapter carefully when installing, commissioning and repairing this product and perform the operation according to safety precautions as set forth in this chapter without fail. FRECON will bear no responsibility for any injury and loss as a result of any violation operation.
  • Page 12 R1A、 R1B、 R1C andR2A、 R2B、 R2C. Failure to comply may result in equipment damage. ◆Since all adjustable frequency AC drives from FRECON have been subjected to hi-pot test before delivery, users are prohibited from implementing such a test on this equipment.

  • Page 13: Precautions

    1.2.11 Altitude De-rating In places where the altitude is above 1000 m and the cooling effect reduces due to thin air, it is necessary to de-rate the AC drive. Contact FRECON for technical support. 1.2.12 some special usages If wiring that is not described in this manual such as common DC bus is applied, contact the agent or FRECON for technical support.
  • Page 14 FR600 Series 550VAC/690VAC Vector Control Inverter The standard parameters of the adaptable motor have been configured inside the AC drive. It is still necessary to perform motor auto-tuning or modify the default values based on actual conditions. Otherwise, the running result and protection performance will be affected.

  • Page 15: Chapter 2 Product Information

    FR600 Series 550VAC/690VAC Vector Control Inverter Chapter 2 Product Information 2.1 Nameplate information Fig.2-1 Nameplate information Model Explanation Model show on product nameplate contains information below FR600 -6T-7.5 □ Master series code of Product: Brake unit: FR600: 550/690VAC None: No Braking Unit...

  • Page 16: Information Of Fr600 Product Model

    FR600 Series 550VAC/690VAC Vector Control Inverter 2.2 Information of FR600 Product Model Table 2-1 FR600 Product model and technical data Rated Rated Power Input output Applicable motor Model No capacity current current 3-Phase:550V,50/60Hz Range:-30%~+10% FR600-5T-4.0 3.7、4 FR600-5T-5.5 FR600-5T-7.5 14.5 FR600-5T-011...

  • Page 17: Technical Features Of Fr600

    FR600 Series 550VAC/690VAC Vector Control Inverter FR600-6T-630 2.3 Technical Features of FR600 Table 2-2 Technical features of FR600 Project Specifications Rated input 3-Phase:550V, (-30%~+10%) voltage (V) 3-Phase:690V, (-30%~+10%) Rated input See table 2-1 Power input current (A) Rated input frequency 50Hz/60Hz,tolerance±5%...
  • Page 18 FR600 Series 550VAC/690VAC Vector Control Inverter Jog frequency range:0.00Hz~50.00Hz. Jog brake Jog deceleration time: 0.0s~6000.0s. Through the built-in PLC or control terminal to achieve Simple PLC、 up to 16 speed running Multi-speed Facilitate the realization of process control loop control...

  • Page 19: Parts Drawing

    FR600 Series 550VAC/690VAC Vector Control Inverter monitoring objects were. information Indoors, no direct sunlight, free from dust, corrosive Place of gases, operation flammable gases, oil mist, water vapor, water drop and salt, etc. 0~2000m Altitude De-rate 1% for every 100m when the altitude is above...

  • Page 20: Configuration, Mounting Dimensions And Weight

    FR600 Series 550VAC/690VAC Vector Control Inverter 2.5 Configuration, Mounting Dimensions and Weight a: FR600-6T-4.0~630KW Dimensions and wall mounting dimensions ~ ~ Fig 2-6 4.0 200kW wall mounting diagram (1) Fig 2-7 220 630kW wall mounting diagram (2) Table 2-3 Configuration, mounting dimensions and weight External and installation dimensions(mm)...

  • Page 21: Flange Mounting Dimensions

    FR600 Series 550VAC/690VAC Vector Control Inverter FR600-6T-037 FR600-6T-045 FR600-6T-055 FR600-6T-075 FR600-6T-090 FR600-6T-110 FR600-6T-132 FR600-6T-160 FR600-6T-185 FR600-6T-200 FR600-6T-220 FR600-6T-250 FR600-6T-280 1030 1000 FR600-6T-315 FR600-6T-355 FR600-6T-400 FR600-6T-450 FR600-6T-500 1167 1137 FR600-6T-560 FR600-6T-630 note: 450 ~ 630 kw dc reactor can be installed in a gutter or rack, if vertical installation, need to purchase the base (dc reactor can be installed in the base), base height is 452 mm.

  • Page 22: External Dimensions Of Keypad

    FR600 Series 550VAC/690VAC Vector Control Inverter Table 2-4 Flange mounting dimensions table External and installation dimensions(mm) Model.NO 3-Phase:550V,50/60Hz Range:-30%~+10% FR600-5T-4.0 FR600-5T-5.5 FR600-5T-7.5 FR600-5T-011 FR600-5T-015 FR600-5T-018 FR600-5T-022 FR600-5T-030 FR600-5T-037 65.5 FR600-5T-045 FR600-5T-055 FR600-5T-075 FR600-5T-090 FR600-5T-110 FR600-5T-132 3-Phase:690V,50/60Hz Range:-30%~+10% FR600-6T-015 FR600-6T-018 FR600-6T-022...
  • Page 23 FR600 Series 550VAC/690VAC Vector Control Inverter External keyboard installation instruction: 1. first install the panel according to inverter’s power range corresponding to the size of hole as shown on scheme 2-11, After that insert keyboard pad into the mounting panel and then insert the keyboard module into the keyboard pad.(Before removing the keyboard pad, first remove the...

  • Page 24: Chapter 3 Installation And Wiring

    Multi- FR600 can be installed in parallel horizontally e and vertically. See followings for specific space requirement, heat dissipating capacity and mass airflow. FR600 series inverter installation of the following three: Wall mounting: (suitable for 630KW (inclusive)). Wall-mounted: (suitable for 200KW (inclusive)).
  • Page 25 FR600 Series 550VAC/690VAC Vector Control Inverter 3.2.1 Single installation Ventilation clearance Ventilation clearance Fig.3-2 Single inverter mounting orientation and space requirements 3.2.2 Multiple installations a. Multiple parallel installations Ventilation clearance Ventilation clearance Fig.3-3 multiple inverters installed direction and space requirements b.Multiple Upper and lower installations...

  • Page 26: Fixed Manner

    FR600 Series 550VAC/690VAC Vector Control Inverter Table 3-1 Requirement of minimum mounting clearances Mounting clearances (mm) Drive model ≥50 ≥200 4.0~37kW ≥150 ≥300 45kW and above 3.3 Fixed manner a. Wall installation Wall mounting dimensions refer to Chapter II(table 2-3),As shown in Fig drilling four holes in the mounting surface,Put the inverter against the panel and mate 4 holes, and then tighten screws in...

  • Page 27: Wiring Way

    FR600 Series 550VAC/690VAC Vector Control Inverter Do not take the sunken screws as shown in the picture. Otherwise, inverter may be damaged Take screws combined with springs and plain gaskets to Install inverter. 3.4 Wiring way Braking resistor MCCB U/T1...

  • Page 28: Terminal Configuration

    FR600 Series 550VAC/690VAC Vector Control Inverter power cable in 90° if needed. The best selection of analog signal lines shielded twisted pair,Power cables use shielded three-core cable(The specifications of the motor cable than ordinary freshman profile)or Comply with manual drive.
  • Page 29 FR600 Series 550VAC/690VAC Vector Control Inverter Table 3-6 main circuit terminal functions Terminal marks Designation and function of terminals. AC power input terminals for connecting to 3-phase 690V R/L1、S/L2、T/L3 AC power supply. AC output terminals of inverter for connecting to 3-phase U/T1、V/T2、W/T3...
  • Page 30 FR600 Series 550VAC/690VAC Vector Control Inverter range of 1–5 kΩ. Maximum output current: 10 mA External +24V Provide +24 V power supply to power external unit. supply Applying +24V-COM Generally, it provides power supply to to Overvoltage DI/Do terminals and external sensors.
  • Page 31 FR600 Series 550VAC/690VAC Vector Control Inverter Termination resistor is set by the Communication toggle switch on the control panel shielded RS485 ground Shield Shield Ground Ground terminal for shield External Use standard network cable operation Auxiliary Maximum cable distance: 50m...
  • Page 32 FR600 Series 550VAC/690VAC Vector Control Inverter Otherwise, it may result in equipment damage The voltage range of external power supply should be DC20~30V. Otherwise, normal operation could not be assured and/or result in equipment damage. B: Open collector NPN connection...

  • Page 33: Emi Solutions

    4)Wiring instruction of relay output terminal Control boards of FR600 series drives are provided with two programmable relay dry contact outputs. One relay contacts are R1A/R1B/R1C, whose R1Aand R1C are normally open, while R1B and R1C are normally closed.
  • Page 34 FR600 Series 550VAC/690VAC Vector Control Inverter 1) Mount input noise filter at input terminal of the drive; 2) Mount power supply filter at power input terminal of affected equipment; 3) Use isolation transformer to isolate the noise transmission path between other equipment and the drive.
  • Page 35 FR600 Series 550VAC/690VAC Vector Control Inverter 3.6.4 Use of Power Supply Filter Since AC drives may generate strong interference and are also sensitive to outside interference, power supply filters are recommended. Pay close attention to the following instructions during the use: Enclosure of the filter needs to be reliably grounded;...

  • Page 36: Chapter 4 Operation And Display

    FR600 Series 550VAC/690VAC Vector Control Inverter Chapter 4 Operation and display 4.1 Introduction of Keypad As a human-machine interface, you can modify the parameters, monitor the working status and start or stop the inverter by operating the keypad. Its appearance and function area as shown in the following figure:...
  • Page 37 FR600 Series 550VAC/690VAC Vector Control Inverter 4.1.2 Keypad Indicators There are 8 Indicators on the keypad, whose descriptions are as shown in Table 4-2. Table 4-2 Description of indicators Indicator Name Meaning ON: currently displayed parameter is Frequency frequency Voltage ON:currently displayed parameter is voltage...

  • Page 38: Viewing And Modifying Function Codes

    FR600 Series 550VAC/690VAC Vector Control Inverter 4.1.4 Message status A message appears when the state of completion of certain operations. Prompt message characters and their meanings are specified in Table 4-4. Table 4-4 Prompt characters Prompt symbol Meaning Prompt symbol...

  • Page 39: Motor Auto-Tuning

    FR600 Series 550VAC/690VAC Vector Control Inverter status parameters. Which parameters are displayed is determined by the values of F16.03~F16.06 (Running state parameters 1~4) 、F16.07~F16.10(stop state parameters1~4) ,it can select the U00 group. 4.4 Motor Auto-tuning Tuning is valid only when the keyboard command mode. Set tuning mode (stationary or rotating), press the ENT key to confirm, the keyboard will display TUNE, then press the RUN key, the inverter will drive motor acceleration and deceleration, positive inversion operation,and the run indicator lights.
  • Page 40 FR600 Series 550VAC/690VAC Vector Control Inverter display second level menu, switch to shortcut menu automatically Method 2. Long Press when display second level menu, switch to basic menu automatically If the shortcut menu is not enough, user can reset the shortcut menu, refer to group F17 for details.

  • Page 41: Chapter 5 List Of Parameter

    FR600 Series 550VAC/690VAC Vector Control Inverter Chapter 5 List of Parameter Group F00~F17 are standard function parameters. Group U00 is status monitoring parameters. Group U01 is fault record parameters. The symbols in the function code table are described as follows: "△...

  • Page 42: Five Led (Digital) Display Indicators

    FR600 Series 550VAC/690VAC Vector Control Inverter 5.1 Five LED (digital) display indicators Ten thousand’s Unit’s place place Thousand’s place Hundred’s place Ten’s place Fig.5-1 LED indicators 5.1 Standard Function Parameters Table 5-1 Standard Function Parameters Param. Parameter Name Setting Range...

  • Page 43: Group F01 Frequency Command

    FR600 Series 550VAC/690VAC Vector Control Inverter 2: Sensor-less vector control 2 0:Digital input terminal 7 F00.09 DI7/HI input mode × 1: Pulse input Unit's place: AI1 0: Analog input F00.10 AI1\AI2\AI3 input mode 1: Digital input × Decade: AI2 (same as AI1)
  • Page 44 FR600 Series 550VAC/690VAC Vector Control Inverter 2: Master +Auxiliary 3: Master - Auxiliary 4: MAX{Master, Auxiliary } 5: MIN {Master, Auxiliary } 6: AI1 ( Master + Auxiliary ) 7: AI2 ( Master +Auxiliary ) 0:Master digital setting (F01.02) 1: keypad potentiometer...

  • Page 45: Group F03 Accel /Decel Parameters

    FR600 Series 550VAC/690VAC Vector Control Inverter 0: Forward △ F02.01 Running direction 1: Reverse 0: Reverse enabled F02.02 Reverse-proof action × 1: Reverse disabled Dead time between F02.03 0.0~6000.0s 0.0s × forward and reverse Unit’s place: 0:Start directly 1:Rotational speed track and restart Ten’s place:...

  • Page 46: Group F04 Digital Input

    FR600 Series 550VAC/690VAC Vector Control Inverter △ F03.00 Accel time 1 15.0s 0.0~6000.0s △ F03.01 Decel time 1 15.0s 0.0~6000.0s △ F03.02 Accel time 2 0.0~6000.0s 15.0s △ F03.03 Decel time 2 0.0~6000.0s 15.0s △ F03.04 Accel time 3 0.0~6000.0s 15.0s...
  • Page 47 FR600 Series 550VAC/690VAC Vector Control Inverter 22: Simple PLC paused 23: Simple PLC paused 24: PID adjustment direction 25: PID integration paused 26: PID parameter switch 27: Swing frequency pause(output the currentfrequency) 28: Swing frequency reset(output the central frequency) 29: Run command switched to...

  • Page 48: Group F05 Digital Output

    FR600 Series 550VAC/690VAC Vector Control Inverter 0: Not Clear 1: Clear Terminal UP/DOWN 1.00Hz/ △ F04.17 frequency change step 0.00~50.00Hz 0.00:Disabled 200ms size 0: Level effective 1: Edge trigger +Level Terminal action selection F04.18 effective(When power on) × when power on...

  • Page 49: Group F06 Analog And Pulse Input

    FR600 Series 550VAC/690VAC Vector Control Inverter Hundreds place: Relay 1 output (same as unit's place) Thousands place: Relay 2 output (same as unit's place) Detection width of F05.09 5.00Hz × 0.00~20.00Hz frequency attained F05.10 FDT1 upper bound 0.00~Fmax 30.00Hz ×...
  • Page 50 FR600 Series 550VAC/690VAC Vector Control Inverter point 1 of curve AI2 Input of inflection point 1 of curve Input of inflection point △ F06.12 100.0% 2 of curve AI2 AI2~Maximum input of curve AI2 Set value corresponding △ F06.13 to input of inflection -100.0~100.0%...

  • Page 51: Group F07 Analog And Pulse Output

    FR600 Series 550VAC/690VAC Vector Control Inverter △ F06.36 HI terminal filtering time 0.100s 0.000~10.000s Group F07 Analog and Pulse Output F07.00 AO1 output function 00: No output × 01: Output frequency F07.01 AO2 output function × 02: Command frequency 03: Output current...

  • Page 52: Group F09 V/ F Control Parameters Of Motor 1

    FR600 Series 550VAC/690VAC Vector Control Inverter Field weakening coeff 1 F08.13 × 0.0~100.0 of async motor 1 Field weakening coeff 2 F08.14 0.0~100.0 × of async motor 1 Field weakening coeff 3 F08.15 × 0.0~100.0 of async motor 1 Motor’s pole number ⊙...

  • Page 53: Group F10 Vector Control Parameters Of Motor 1

    FR600 Series 550VAC/690VAC Vector Control Inverter 4: Pulse setting ( DI7/HI ) 5: PID 6: AI2 7: AI3 Voltage digital setting for △ F09.16 0 V to rated motor voltage 0.0% V/F separation 0.0~6000.0s Voltage rise time of V/F It indicates the time for the △...

  • Page 54: Group F11 Protection Parameters

    FR600 Series 550VAC/690VAC Vector Control Inverter Static friction frequency △ F10.23 1.00Hz 0.00~20.00Hz range Sliding friction torque △ F10.24 0.0~100.0% 1.0% compensation Rotary inertia △ F10.25 30.0% 0.0~200.0% compensation coeff 0: Set by F10.18 & F10.19 1: Keypad potentiometer 2: AI1 Max Frequency source F10.26...
  • Page 55 FR600 Series 550VAC/690VAC Vector Control Inverter Hundred's place: Communication overtime error (Err18) (Same as unit's place) Thousand's place: PID feedback loss (Err19) (Same as unit's place) Ten thousand's place: Continuous running time reached (Err20) (Same as unit's place) Unit's place: Module temperature detection disconnection(Err24)

  • Page 56: Group F12 Multi -Reference And Simple Plc Function

    FR600 Series 550VAC/690VAC Vector Control Inverter instantaneous power 1: Deceleration failure 2: Bus voltage constant control Decel time at △ F11.25 instantaneous power 0.0~6000.0s 5.0s failure 0: Disabled F11.26 Rapid current limit × 1: Enabled Times of automatic F11.27 ×...
  • Page 57 FR600 Series 550VAC/690VAC Vector Control Inverter △ F12.12 Reference 12 0.0% -100.0~100.0% △ F12.13 Reference 13 0.0% -100.0~100.0% △ F12.14 Reference 14 -100.0~100.0% 0.0% △ F12.15 Reference 15 -100.0~100.0% 0.0% 0: Digital setting(F12.00) 1: keypad potentiometer 2: AI1 F12.16 Reference 0 source ×...

  • Page 58: Group F13 Process Pid

    FR600 Series 550VAC/690VAC Vector Control Inverter reference 1 Acceleration/deceleration △ F12.36 time of simple PLC 0~3 reference 2 Acceleration/deceleration △ F12.37 time of simple PLC 0~3 reference 3 Acceleration/deceleration △ F12.38 time of simple PLC 0~3 reference 4 Acceleration/deceleration △...
  • Page 59 FR600 Series 550VAC/690VAC Vector Control Inverter 3: Communication 4: Multi-Reference 5: DI7/HI pulse input 6: AI2 7: AI3 △ F13.01 PID digital setting 50.0% 0.0~100.0% 0: AI1 1: AI2 2: Communication 3: AI1+AI2 4: AI1-AI2 F13.02 PID feedback × 5: Max{AI1,AI2} 6: Min{AI1,AI2}...

  • Page 60: Group F14 Swing Frequency , Fixed Length , Count And Wakeup

    FR600 Series 550VAC/690VAC Vector Control Inverter maximum frequency ) –100.0%~PID output frequency PID output frequency F13.23 0.0% × lower limit lower limit Low value of PID feedback 0.1~100.0% F13.24 0.0% × loss 0.0%: Not judging feedback loss Detection time for low F13.25...

  • Page 61: Group F15 Communication Parameters

    FR600 Series 550VAC/690VAC Vector Control Inverter △ F14.13 Dormant delay time 0.0s 0.0~6000.0s 0: Frequency F14.14 Wake up mode selection × 1: Pressure 0: Frequency F14.15 Dormancy mode selection × 1: Pressure Unit’s place: pressure feedback 0: AI1 1: AI2...

  • Page 62: Group F17 User-Defined Display Parameters

    FR600 Series 550VAC/690VAC Vector Control Inverter STOP/RESET key 0: stop function of STOP/RESET key is valid only in keyboard operation mode 1: Stop function of STOP/RES key is valid in any operation mode Ten’s digit: Speed display ( U00.05) 0: According to the actual speed 1: Multiply frequency by speed coefficient(F16.11)
  • Page 63 FR600 Series 550VAC/690VAC Vector Control Inverter User-defined Display △ F17.06 02.01 00.00~49.99 Parameter 6 User-defined Display △ F17.07 00.00~49.99 02.12 Parameter 7 User-defined Display △ F17.08 03.00 00.00~49.99 Parameter 8 User-defined Display △ F17.09 00.00~49.99 03.01 Parameter 9 User-defined Display △...
  • Page 64 FR600 Series 550VAC/690VAC Vector Control Inverter Function selection of F22.04 The same as function code F04.00 × virtual VDI5 terminal (VDI5、VDI4、VDI3、VDI2、VDI1) 0:Validity of VDI depends on virual Valid status setting mode VDOx’s status F22.05 00000 × of virtual VDI terminals 1:Validity of VDI set by function code F22.06...
  • Page 65 FR600 Series 550VAC/690VAC Vector Control Inverter ⊙ U00.09 Program Operation Time 0.0s(h) 0.0~6000.0s(h) ⊙ U00.10 PID set 0~60000 ⊙ U00.11 PID feedback 0~60000 Status of DI1~DI5 digital ⊙ U00.12 DI5 DI4 DI3 DI2 DI1 00000 input terminal Status of DI6~DI7 digital ⊙...
  • Page 66 FR600 Series 550VAC/690VAC Vector Control Inverter Err13: External equipment fault Err14: Module overheat Err15: EEPROM read/write fault Err16: Motor auto-tuning cancelled Err17: Motor auto-tuning fault Err18: Communication overtime Error Err19: PID feedback loss Err20: Continuous running time Reached Err21: Parameter upload fault...
  • Page 67 FR600 Series 550VAC/690VAC Vector Control Inverter Cumulative running time ⊙ U01.14 when before-previous 0~65535h fault occurred Previous 3 categories of ⊙ U01.15 The same with U01.00 Err00 faults Previous 4 categories of ⊙ U01.16 The same with U01.00 Err00 faults Previous 5 categories of ⊙...

  • Page 68: Chapter 6 Specification Of Parameters

    FR600 Series 550VAC/690VAC Vector Control Inverter Chapter 6 Specification of Parameters Group F00 System Parameters F00.00 Setting of user password Default: 0 Range: 0~65535 Setting of password: A number greater than 100 could be set as a user password by entering this password into F00.00 and pressing ENT key to confirm once, the password setting will take effect as long as there is no operation on keypad within 2 minutes, or cutting the power off and power up again .
  • Page 69 FR600 Series 550VAC/690VAC Vector Control Inverter Requirement to the drive is not rigorous, or using one drive to drive several motors, or it is difficult to identify motor parameters correctly, etc. When motor 1 under V/f control is selected, need to set related parameters Group F09 well.
  • Page 70 FR600 Series 550VAC/690VAC Vector Control Inverter The table below specifies the setting range and factory default of PWM carrier frequency of the drives at different power ratings: Power rating of the Range Default inverter ≤15kW 4.000k 0.700k~16.000k 18.5kW~45kW 0.700k~8.000k 4.000k 55kW~75kW...
  • Page 71 FR600 Series 550VAC/690VAC Vector Control Inverter ★: Setting this parameter may cause that the inverter can’t work normally, please set carefully. Group F01 Frequency command Switched by Switched by /DOWN terminal Terminal UP terminal Master frequency source Command frequency Auxiliary...
  • Page 72 FR600 Series 550VAC/690VAC Vector Control Inverter Analog input AI1 Analog input AI2 Inverter Fig. 6-2 If 10V power supply inside the drive is used with potentiometer, the connection diagram is shown as Fig. 6-3. Note that the toggle switch should be switched to voltage input side.
  • Page 73 FR600 Series 550VAC/690VAC Vector Control Inverter 9: AI3 Master frequency command is determined by analog input AI3. Digital setting of master F01.02 Default:50.00Hz Range:0.00~FmaxHz frequency When master frequency source selection F01.01 is set to 1, this parameter value will be the initial value of master frequency command.
  • Page 74 FR600 Series 550VAC/690VAC Vector Control Inverter to overheating. 2. Correlation of Fmax, Fup and Fdown: 0.00Hz ≤Fdown ≤Fup≤Fmax ≤600.00Hz Operation when command F01.11 frequency lower than lower Range:0~1 Default: 0 limit frequency Lower limit frequency F01.12 Range:0.0~6000.0s Default:0.0s running time...
  • Page 75 FR600 Series 550VAC/690VAC Vector Control Inverter reverse The dead time with 0Hz output during the transition from forward to reverse, or from reverse to forward. As shown in Fig. 6-4. Output frequency(Hz) Time(S) Dead time of forward Dead time of forward...
  • Page 76 FR600 Series 550VAC/690VAC Vector Control Inverter During switchover between forward rotation and reverse rotation, the startup frequency holding time is disabled. The holding time is not included in the acceleration time but in the running time of simple PLC. F02.07 Startup DC braking current Default:0.0...
  • Page 77 FR600 Series 550VAC/690VAC Vector Control Inverter Figure 6-5 Stop DC braking process Output frequency(Hz) Initial frequency of stop DC braking Time(S) Waiting time of stop DC braking Output voltage Time(S) Stop DC braking Run command time Fig. 6-5 F02.17 Dynamic brake Default: 0 Range:0~3...
  • Page 78 FR600 Series 550VAC/690VAC Vector Control Inverter time between power off and restart, but in the meantime if input stop comand, inverter will clear restarting condition. Attention: Power on again and auto-restart function can make inverter start running automatically after restoring the power. So, cause it’s big occasionality, please be careful to adopt this function for personal and equipment’s safety.
  • Page 79 FR600 Series 550VAC/690VAC Vector Control Inverter Output frequency(Hz) Fmax Fset ① ② ③ ④ ⑤ ⑥ Setting acceleration Setting time deceleration time ①F03.11 ④F03.17 ②F03.15 ⑤Setting acceleration time ③F03.16 ⑥Setting deceleration time Figure 6-6 unit of 0: 0.1s × F03.12 acceleration and decelerat 1: 0.01s...
  • Page 80 FR600 Series 550VAC/690VAC Vector Control Inverter Output frequency(Hz) Set frequency F03.13 F03.14 Time Acceleration Acceleration Deceleration Deceleration time 2 time 1 time 2 time 1 Figure 6-7 Group F04 Digital Input F04.00 Function of terminal DI1 Default:1 Range:0~99 F04.01 Function of terminal DI2 Default:2 Range:0~99...
  • Page 81 FR600 Series 550VAC/690VAC Vector Control Inverter If the frequency source is master frequency source setting, the UP and DOWN terminalis used to clear the modification by using the setting UP/DOWN function or the increment/decrement key on the clear (terminal, keypad, returning the set frequency to the value of master keypad) frequency source setting.
  • Page 82 FR600 Series 550VAC/690VAC Vector Control Inverter switched to keypad terminal status is switched from OFF to ON, run command will control be switched to keypad control. Run comman This terminal should be enabled by trigger edge. When this switched to terminal...
  • Page 83 FR600 Series 550VAC/690VAC Vector Control Inverter Reference 7 F12.07 Reference 8 F12.08 Reference 9 F12.09 Reference F12.10 Reference F12.11 Reference F12.12 Reference F12.13 Reference F12.14 Reference F12.15 Table 2 State combinations of two terminals for acceleration/deceleration time selection Acceleration/Deceler Acceleration/Deceler...
  • Page 84 FR600 Series 550VAC/690VAC Vector Control Inverter These parameters are used to set the valid mode of DI terminals. Unit's place: DI1 0: Positive logic The DI terminal is valid when being connected with COM, and invalid when being disconnected from COM.
  • Page 85 FR600 Series 550VAC/690VAC Vector Control Inverter Function Code Parameter Name Value Function Description F04.15 Terminal command mode Two-line 2 F04.00 DI1 function selection Forward RUN (FWD) F04.01 DI2 function selection Reverse RUN (REV) RUN command Stop Stop Inverter Forward RUN...
  • Page 86 FR600 Series 550VAC/690VAC Vector Control Inverter Three-line control DIi Inverter Figure 6-11 setting of three-line mode 2 As shown in the preceding figure, if SB1 is ON, the AC drive starts running when SB2 is pressed to be ON; the AC drive instructs forward rotation when K is OFF and instructs reverse rotation when K is ON.
  • Page 87 FR600 Series 550VAC/690VAC Vector Control Inverter 0: Clear Terminal UP/DOWN frequency adjustment value is cleared in case of power loss. 1: Holding Terminal UP/DOWN frequency adjustment value is saved in case of power loss. Hundred's digit: integral function 0: No integral function Adjustment step size is kept constant during terminal UP/DOWN adjustment, in compliance with F04.17.
  • Page 88 FR600 Series 550VAC/690VAC Vector Control Inverter Drive in 0Hz running When be running at 0Hz, this corresponding terminal 1(no output at stop) outputs ON signal. No ON signal will be output at stop. Drive in 0Hz running Outputs ON signal when is running at 0Hz and also outputs 2(output at stop) ON signal at stop.
  • Page 89 FR600 Series 550VAC/690VAC Vector Control Inverter 0: Positive logic; ON when current passes through 1: Negative logic; ON when no current passes through 0: Positive logic; ON when there is coil excitation 1: Negative logic; ON when there is no coil excitation Wiring diagram of digital output terminal is shown as Fig.
  • Page 90 FR600 Series 550VAC/690VAC Vector Control Inverter Output frequency(Hz) FDT upper bound FDT lower bound Time(S) Valid Time(S) Fig. 6-14 F05.14 Consecutive running time Range:0.0~6000.0Min Default: 0.0Min This parameter should be set with digital output terminal “Consecutive running time attained". When current running time attains the value of F05.14, corresponding terminal outputs ON. Current running time is cleared when stop.
  • Page 91 FR600 Series 550VAC/690VAC Vector Control Inverter Frequency F05.18 F05.22 FWD/REV Internal operating Brake F05.2 F05.2 F05.2 F05.2 Current F05.19 Fig 6-15 Break control logic scheme 1)After inverter receives a run command, accelerate the run to set F05.18 brake open frequency.
  • Page 92 FR600 Series 550VAC/690VAC Vector Control Inverter Set value corresponding F06.05 to input of inflection Default: 100.0% Range:-100.0~100.0% point 2 of curve AI1 Range:Input of inflection point Maximum input of curve F06.06 Default:100.0% 2 of curve AI1~100.0% Set value corresponding to F06.07...
  • Page 93 FR600 Series 550VAC/690VAC Vector Control Inverter Set frequency F06.07 Fmax 100% F06.05 2.5V 7.5V Analog input 100% 0.0% F06.00 F06.02 F06.06 F06.04 F06.03 -50% F06.01 -100% Figure 6-16 (1) Set frequency F06.07 Fmax 100% F06.05 7.5V Analog input 0.0% 100% F06.00...
  • Page 94 FR600 Series 550VAC/690VAC Vector Control Inverter point 2 of curve AI2~100.0% Set value corresponding to F06.15 Range:-100.0~100.0% Default:100.0% maximum input of curve AI2 Minimum input of curve Range:0.0%~input of F06.16 Default:0.0% inflection point1 of curve AI3 Set value corresponding to F06.17...
  • Page 95 FR600 Series 550VAC/690VAC Vector Control Inverter Range:0.00kHz~Maximum F06.32 Minimum input of curve HI Default:0.00kHz input of curve HI Set value corresponding to F06.33 Range:-100.0~100.0% Default:0.0% minimum input of curve HI Range: Minimum input of F06.34 Maximum input of curve HI Default:50.00kHz...
  • Page 96 FR600 Series 550VAC/690VAC Vector Control Inverter given 2 F07.03 AO1 offset Range:-100.0~100.0% Default:0.0% F07.04 AO1 gain Default:1.000 Range:-2.000~2.000 When users need to chang AO1 measuring range or correct the error of meter, it can be realized by setting of F07.03 and F07.04. When using factory default set: 0~10V (or 0~20mA) of AO1 corresponds to “0~maximun”.
  • Page 97 FR600 Series 550VAC/690VAC Vector Control Inverter motor 1 Field weakening coeff 1 of F08.13 Range:0.0~100.0% Default:87%(1.1) async motor 1 Field weakening coeff 2 F08.14 Range:0.0~100.0% Default:75%(1.6) of async motor 1 Field weakening coeff 2 F08.15 Range:0.0~100.0% Default:70%(3) of async motor 1 The parameters in F08.08 to F08.15 are asynchronous motor parameters.
  • Page 98 FR600 Series 550VAC/690VAC Vector Control Inverter 4: 1.6th power 5: 1.8th power 6: 2.0th power Parameter values 2~6 apply to torque-dropped loads such as fans and water pumps. See Fig. 6-16. 2.0 power 1.8 power 1.6 power Output voltage (V) 1.4 power...
  • Page 99 FR600 Series 550VAC/690VAC Vector Control Inverter Output voltage (V) Rated voltage of motor Torque boost Output frequency(Hz) Cut-off frequency of Rated frequency of motor torque boost Fig. 6-25 F09.03 Multi-point V/F frequency 1(F1) Range:0.0~F09.05 Default:0.0Hz F09.04 Multi-point V/F voltage 1(V1) Default:0.0%...
  • Page 100 FR600 Series 550VAC/690VAC Vector Control Inverter Stator voltagedrop compensation is to compensate voltagedrop produced by stator resistance and connecting cable. F09.13 Excitation boost gain Range:0.0~200.0% Default:100.0% Default: Model F09.14 Oscillation Suppression Range:0.0~300.0% defined Set this parameter to a value as small as possible in the prerequisite of efficient oscillation suppression to avoid influence on V/F control.Set this parameter to 0 if the motor has no oscillation.
  • Page 101 FR600 Series 550VAC/690VAC Vector Control Inverter ASR low-speed proportional F10.01 Range:0.0~100.0 Default:15.0 gain Kp1 ASR low-speed integration F10.02 Default:0.050s Range:0.001~30.000s time Ti1 F10.03 ASR switching frequency 1 Range:0.0~F10.06 Default:5.0Hz ASR high-speed F10.04 Range:0.0~100.0 Default:10.0 proportional gain Kp2 ASR high-speed integration F10.05...
  • Page 102 FR600 Series 550VAC/690VAC Vector Control Inverter Torque setting source under F10.16 Range:0~6 Default:0 torque control F10.17 Digital setting of torque Range:-200~200% Default:50.0% F10.16 is used to set the torque setting source. There are a total of 6 torque setting sources.
  • Page 103 FR600 Series 550VAC/690VAC Vector Control Inverter coeff This parameter takes effect only in torque control. This parameter value is to compensate mechanical rotary inertia during acceleration/deceleration. 0: Set by F10.18 & F10.19 1:Keypad potentiometer 2:AI1 Max Frequency source F10.26 ×...
  • Page 104 FR600 Series 550VAC/690VAC Vector Control Inverter proportion gain Overvoltage stall mode2 F11.08 Default: 5.00Hz Range: 0.00~50.00Hz frequency limited F11.05=0: Overvoltage Stall Disabled. F11.05=1: Overvoltage Stall Mode 1 In deceleration process, after DC bus voltage exceeds overvoltage stall voltage (F11.06), inverter stops deceleration process, and remains at present running frequency.
  • Page 105 FR600 Series 550VAC/690VAC Vector Control Inverter Thousand's digit: PID feedback loss (Err19) (Same as unit's place) Ten thousand's digit: Continuous running time reached (Err20) (Same as unit's place) F11.12 Protection action 2 Range: 00~32 Default: 00 Unit's place: Module temperature detection disconnection(Err24)
  • Page 106 FR600 Series 550VAC/690VAC Vector Control Inverter Compared object is the rated current of drive, and display " A12" when the alarm is given under this setting. Hundred’s place: Select whether report fault or not 0: Not report fault. 1: Report fault Thousand’s place: Select whether decelerate or not...
  • Page 107 FR600 Series 550VAC/690VAC Vector Control Inverter Notice: 1. Proper adjustment of F11.25, can avoid production stop due tothe protection of the inverter when power switch 2. Input phase lack protection function must be forbidden to enable this feature F11.26 Rapid current limit Range: 0~1...
  • Page 108 FR600 Series 550VAC/690VAC Vector Control Inverter Group F12 Multi-Reference and Simple PLC Function Default:0.0% F12.00 Reference 0 Range:-100.0~100.0% Default:0.0% F12.01 Reference 1 Range:-100.0~100.0% Default:0.0% F12.02 Reference 2 Range:-100.0~100.0% Default:0.0% F12.03 Reference 3 Range:-100.0~100.0% Default:0.0% F12.04 Reference 4 Range:-100.0~100.0% Default:0.0% F12.05 Reference 5 Range:-100.0~100.0%...
  • Page 109 FR600 Series 550VAC/690VAC Vector Control Inverter Output frequency(Hz) T13T14 T15 Pulse length:250ms PLC cycle completed Run command Fig. 6-30 1: Continue to run with the last frequency after a single cycle After the completion of one cycle, PLC maintains the running frequency and direction of the last step.
  • Page 110 FR600 Series 550VAC/690VAC Vector Control Inverter Output frequency(Hz) T13T14 T15 Pulse length:250ms PLC cycle completed Run command Fig. 6-32 Decade: started mode 0: Continue to run from the step of stop (or fault) At the moment drive stop, the drive automatically records the running time of current step. When restarted, the drive will gets into this step, continue to run the remanent time with the frequency of this step.
  • Page 111 FR600 Series 550VAC/690VAC Vector Control Inverter Default:0.0s(h) F12.33 Running time of step 15 Range:0.0~6000.0s(h) Acceleration/deceleration time F12.34 Range: 0~3 Default: 0 of simple PLC reference 0 Acceleration/deceleration time F12.35 Range: 0~3 Default: 0 of simple PLC reference 1 Acceleration/deceleration time F12.36...
  • Page 112 FR600 Series 550VAC/690VAC Vector Control Inverter Group F13 Process PID The purpose of process PID control is to make feedback value consistent with the set value. PID control diagram is as shown in Fig. 6-25. F13.08\F13.11 PID positive and negative adjustment Integration F13.18...
  • Page 113 FR600 Series 550VAC/690VAC Vector Control Inverter Negative Positive Positive adjustment: When feedback signal is smaller than PID setting, output frequency of the drive will rise to reach PID balance. When feedback signal is bigger than PID setting, output frequency of the drive will drop to reach PID balance.
  • Page 114 FR600 Series 550VAC/690VAC Vector Control Inverter When digital input terminal "PID parameters switch" is OFF, it is determined by Kp1, Ti1 and Td1. When "PID parameters switch" is ON, it is determined by Kp2, Ti2 and Td2 F13.17 PID offset limit Range:0.0~100.0%...
  • Page 115 FR600 Series 550VAC/690VAC Vector Control Inverter Clear the value(increased or decreased) caused by UP/DOWN function when power off 1:Keep the value when power off. Keep the value (increased or decreased) caused by UP/DOWN function when power off Thousand’s place: Select whether to detect PID feedback loss or not at stop.
  • Page 116 FR600 Series 550VAC/690VAC Vector Control Inverter Rising Time of Swing F14.03 Default:5.0s Range:0.0~6000.0s frequency Dropping Time of Swing F14.04 Range:0.0~6000.0s Default:5.0s frequency See Figure 6-26. F14.05 Set length Default:1000m Range:0~65535m F14.06 Number of pulses per meter Default:100.0 Range:0.0~6553.5 The preceding parameters are used for fixed length control.
  • Page 117 FR600 Series 550VAC/690VAC Vector Control Inverter After the designated F14.08 counting value is (Designated reached, set the DO counting value) ~ F05.00 F05.03=17 terminal to 1. (Designated ≥ counting value reached) Counting pulses F04.00 ~ F04.06=32 U00.28 (Counting pulses) Counting value Reset F05.00...
  • Page 118 FR600 Series 550VAC/690VAC Vector Control Inverter 1:AI2 Pressure feedback given by AI2 2:DI7/HI pulse input Pressure feedback given by DI7/HI Ten’s place: dormancy mode on pressure 0: Positive mode, dormancy on high pressure and wakeup on low pressure When inverter is running, if the pressure feedback is higher than dormancy pressure, then inverter enter into dormancy.
  • Page 119 FR600 Series 550VAC/690VAC Vector Control Inverter Group F16 Keys and Display of Keypad Parameters F16.00 MF.K key setting Default:1 Range:0~4 0: No function 1: Jog 2: Forward/reverse switchover 3: Run command sources shifted 4:Jog reverse F16.01 Function of STOP/RST key Range:00~11...
  • Page 120 FR600 Series 550VAC/690VAC Vector Control Inverter Group F17 User-defined Display Parameters User-defined Display F17.00 Default:00.03 Range:00.00~49.99 Parameter 0 User-defined Display F17.01 Range:00.00~49.99 Default:01.01 Parameter 1 User-defined Display F17.02 Range:00.00~49.99 Default:01.02 Parameter 2 User-defined Display F17.03 Range:00.00~49.99 Default:01.08 Parameter 3 User-defined Display F17.04...

  • Page 121: Group F22 Virtual Io

    FR600 Series 550VAC/690VAC Vector Control Inverter User-defined Display F17.28 Default:00.00 Range:00.00~49.99 Parameter 28 User-defined Display F17.29 Range:00.00~49.99 Default:00.00 Parameter 29 F17 is user-defined parameter group. You can select the required parameters from all FR200 functions codes and add them into this group, convenient for view and modification.Description of Function Codes FR200 User Manual Group F17 provides a maximum of 30 user-defined parameters.

  • Page 122: Group U00 Status Monitoring

    FR600 Series 550VAC/690VAC Vector Control Inverter Virtual VDO5 output F22.16 Default: 0.0s Range: 0.0s~6000.0s delay time Positive and negative F22.17 logic of VD0 output Default: 00000 Range: 00000~11111 terminal Positive and negative logic of VD0 output terminal: Positive logic: If terminal is invalid, then output 0, if terminal is valid, then output 1.

  • Page 123: Group U01 Fault Record

    FR600 Series 550VAC/690VAC Vector Control Inverter U00.17 AI3 input Default: 0.0% Range: 0.0~100.0% Keypad potentiometer U00.18 Range: 0.0~100.0% Default: 0.0% input U00.19 HI input Range: 0.00~100.00kHz Default: 0.00kHz U00.20 AO1 output Range: 0.0~100.0% Default: 0.0% U00.21 AO2 output Default: 0.0% Range: 0.0~100.0%...
  • Page 124 FR600 Series 550VAC/690VAC Vector Control Inverter Bus voltage when U01.13 before-previous fault Default:0V Range:0~1200V occurred Cumulative running time U01.14 when before-previous fault Range:0~65535h Default:0h occurred Previous 3 categories of U01.15 The same with U01.00 Default: Err00 faults Previous 4 categories of U01.16...

  • Page 125: Chapter 7 Maintenance And Troubleshooting

    FR600 Series 550VAC/690VAC Vector Control Inverter Chapter 7 Maintenance and Troubleshooting FR600 inverter provides a number of warning information and protection, when a fault occurs, the protective function is activated, the inverter will stop output, inverter fault relay contact, and in the inverter displays the fault code on the display panel.
  • Page 126 FR600 Series 550VAC/690VAC Vector Control Inverter 1: The input voltage is too 1: Adjust the voltage to high. normal range. 2: An external force drives the 2: Cancel the external force motor during deceleration. Decel or install the braking resistor.
  • Page 127 FR600 Series 550VAC/690VAC Vector Control Inverter small power class. higher power class. 1: The load is too heavy or 1: Reduce the load and locked-rotor occurs on the check the motor and Err12 Inverter overload motor. mechanical condition. 2: The AC drive model is of too 2: Select an AC drive of small power class.
  • Page 128 FR600 Series 550VAC/690VAC Vector Control Inverter Module temperature The temperature sensor Err24 For technical support detection failure or cable break disconnection Check that the load is The AC drive running current disconnected or the setting Err25 Load becoming 0 is lower than F11.22 F11-22 and F11-23 is correct.

  • Page 129: Chapter 8 Maintenance And Inspection

    FR600 Series 550VAC/690VAC Vector Control Inverter Chapter 8 Maintenance and Inspection 8.1 Inspection Frequency semiconductor devices, passive electronic components, and the movement device is configured, these devices have life, even under normal working conditions, if over the useful life, some devices may have characteristic changes or failure.

  • Page 130: Maintenance

    FR600 Series 550VAC/690VAC Vector Control Inverter item contents Strategies ● fastening and replace bad parts; ● Insulation resistance check; ● Clean improving operating Overall ● environmental inspections. environment. ● Are there wires and connection ● Replace damaged wires; portion discolored insulation for ●...
  • Page 131 FR600 Series 550VAC/690VAC Vector Control Inverter the product, when changing the cooling fan to simultaneously replace all the fans. Fan Removal Method 1. Under pressure Figure 8-1 (a) shows a fan elastic snaps, while a little harder to pull out in parallel, remove the fan cover from the Inverter.

  • Page 132: Appendix A: Modbus Communication Protocol

    FR600 Series 550VAC/690VAC Vector Control Inverter Appendix A: Modbus Communication Protocol 1. Application Scope 1. Applicable series: FRECON FR series inverter. 2. Applicable network: Support Modbus protocol, RTU format, withsingle-master/multi-slave Communication network of RS485 bus. The typical RTU message frame format:...
  • Page 133 FR600 Series 550VAC/690VAC Vector Control Inverter 4.3 Allocation of Register Addresses name Description High byte function code group number, F00~F31, U00, U01, respectively, corresponding to the high byte address is 00H~1FH, 30H, 31H. Low byte of the group function code number, from 0 to 99 corresponding to the low byte address is 00H~63H.
  • Page 134 FR600 Series 550VAC/690VAC Vector Control Inverter Retention 2005~20FF 4.5 The status and function of the read address Description: (read only) Status word address functional status word 0000H: parameter setting 0001H: slave run 0002H: JOG operation 2100H 0003H: learning run 0004H: Slave parking...
  • Page 135 FR600 Series 550VAC/690VAC Vector Control Inverter Command code 0x06: Write single function code or control parameter of inverter. ADU Item Byte No. Range Master requests: Address of slave 0~127 Command Code 0x06 Register start address 0x0000~0xFFFF The number of register 0x0000~0xFFFF...
  • Page 136 FR600 Series 550VAC/690VAC Vector Control Inverter unsigned int crc_value = 0xFFFF; int i = 0; while (Length--) for (i=0; i<8; i++) if (crc_value & 0x0001) crc_value = (crc_value>>1) ^ 0xa001; else crc_value = crc_value>>1; return (crc_value); 7.Error Message Response Inverter will send an error message report when the master sends error data or inverter receives the error data due to the external interference.
  • Page 137 FR600 Series 550VAC/690VAC Vector Control Inverter 8. Illustration 1, No. 01 reads the output frequency value (U00.00), returned 5000, that 50.00Hz. To send data: 01 03 30 00 00 01 8B 0A The received data is: 01 03 02 13 88 B5 12 2, No.

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