Janson Controls FC100 Series Manual
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Janson Controls FC100 Series Manual

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FC100 Series
Thank you for purchasing the FC100 series AC drive developed by our company.
FC100 series AC drive is a compact small power AC drive. It is an economic model
specialized for the small automation equipments, especially for electronic equipments,
food packaging, woodworking and other applications.
FC100SeriesACDriveFeatures
AdvancedV/FControl / Vector ControlAlgorithm:
Adjustable V/F Control is more stable at low speed, high torque output at low frequency
.
and better dynamic performance.
MultipleFunctions:
Multi-stage speed control, simple PLC, PID and pulse counting control.
.
StableandReliableAnti-tripFunction:
Stable and reliable overvoltage/overcurrent stalling control algorithm, non-stop control
.
function to prevent frequent trip in complex applications.
This manual describes the functions and features and correct use of FC100 series
AC drive, including product selection, parameter setting, running commissioning,
troubleshooting and routine maintenance and other related matters. Please read
this manual carefully to make sure the correct installa-tion and operation and
maintenance to achieve the high performance of this AC drive. Please hand this
manual to the users and keepers of this AC drive.
UnpackingInspectionCautions
Every AC drive have been tested strictly in factory prior to shipment. Upon unpacking, check:
.
Whether the product is damaged;
Whether the nameplate model and AC drive ratings are consistent with your order.
Whether the box contains the AC drive, certificate of conformity, user manual and
warranty card. If you find any omission or damage, contact our company or your
supplier immediately.
Preface
1
Preface

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Summary of Contents for Janson Controls FC100 Series

  • Page 1 Preface Thank you for purchasing the FC100 series AC drive developed by our company. FC100 series AC drive is a compact small power AC drive. It is an economic model specialized for the small automation equipments, especially for electronic equipments, food packaging, woodworking and other applications.
  • Page 2 FC100 Series Preface First-timeUse: For the users who use this product for the first time, read the manual carefully. If in doubt concerning some functions or performances, please contact the technical support personnel of our company to ensure correct use. FC100seriesACdriveshavepassedCEtestandalsomeettherequirementsof followingInternationalStandard. IEC/EN 61800-5-1:2003 safety requirements for adjustable speed electric drive systems. IEC/EN 61800-3:2004 adjustable speed electric drive systems: The third part: the electromagnetic compatibility standard of the product and its specific test method.

  • Page 3: Table Of Contents

    FC100 Series Contents Contents Preface........................01 Chapter1ProductInformation ..................05 1.1 Naming Rules.....................06 1.2 Naming Plate......................06 1.3 FC100 Model List....................07 1.4 Size and Dimensions..................07 Specifications.....................08 Chapter2 Storage and Installation ................. 09 2.1 Storage ......................10 2.2 Installation ......................11 Chapter3 Wire Diagram and Terminal Explanation ............ 13 3.1 Basic Wire Diagram ...................

  • Page 4: Table Of Contents

    FC100 Series Contents Chapter6DESCRIPTION OF PARAMETER SETTINGS ..........37 Group P0: User Parameters................38 Group P1: Basic Parameters................41 Group P2: Parameters of applications............... 51 Group P3: Input and Output Function Parameters..........53 Group P4: Secondary Application Group............71 Group P5: PLC Control (Special Operation)............79 Group P6: PLC Control (Special Operation)............84...
  • Page 5 Chapter ProductInformation ThisChapterContent This chapter briefly introduces the operation principle, product performa-nce, layout, nameplate, and type of instructions.

  • Page 6: Chapter1ProductInformation

    Chapter 1 Product Information FC100 Series User Manual CHAPTER 1 Products Information This FC100 AC drive has gone through rigorous quality control tests at the factory before shipment. After receiving the AC drive, please check for the following: Receiving Check to make sure that the package includes an AC drive, the User Manual, dust covers and rubber bushings.

  • Page 7: Size And Dimensions

    FC100 Series User Manual Chapter 1 Product Information 1.3FC100SeriesACDrive PowerCapacity RatedInput RatedOutput AdaptableMotor ACDriveModel (KVA) (KW) Current(A) Current(A) Input voltage: single phase 220V Range -15%~20% : FC100-2S-0.7G 0.75 FC100-2S-1.5G 14.0 FC100-2S-2.2G 23.0 10.0 Input voltage: three phase 380V Range: -15%~20% FC100-4T-0.7G...

  • Page 8: Specifications

    Chapter 1 Product Information FC100 Series User Manual 1.5Specifications V oltage Class 230V Model Number FC100 pplicable Motor Output (kW) Rated Frequency (Hz) 1.0~400Hz Single / 3-phase Input voltage Tolerance 180~264V 50/60Hz Frequency tolerance ±5% SVPWM (Sinusoidal Pulse Width Modulation, carried frequency...
  • Page 9 Chapter StorageandInstallation...

  • Page 10: Storage

    Chapter 2 Storage and Installation FC100 Series User Manual CHAPTER 2 STORAGE AND INSTALLATION 2.1 Storage The AC drive should be kept in the shipping carton before installation. In order to retain the warranty coverage, the AC drive should be stored properly when it is not to be used for an extended period of time.

  • Page 11: Installation

    FC100 Series User Manual Chapter 2 Storage and Installation 2.2Installation: CAUTION The control, power supply and motor leads mu st be laid separatel y. They must not be fed through the same cable conduit / trunking. High voltage insulation test equipment must not be used on cables connected to the drive.
  • Page 13 Chapter Wiring Diagram and Terminal Explanation...
  • Page 14 FC100 Series User Manaul Chapter 3 Wire diagram and terminal explanation CHAPTER 3 WIRING Diagram and Terminal Explanation DANGER Hazardous Voltage Before accessing the AC drive: Disconnect all power to the AC drive. Wait five minutes for DC bus capacitors discharge.
  • Page 15 FC100 Series User Manaul Chapter 3 Wire diagram and terminal explanation 3.1 Basic Wiring Diagram Users must connect wiring according to the circuit diagram shown below. Please follow all National and State wiring codes, when wiring the FC100. Main Circuit Power...

  • Page 16: Terminal Explanation

    FC100 Series User Manaul Chapter 3 Wire diagram and terminal explanation 3.2 Terminal Explanations Terminal Symbol Explanation of Terminal Function R/L1, S/L2, T/L3 AC line input terminals U/T1, V/T2, W/T3 AC drive output terminals motor connections Earth Ground 3.3 Control Terminals Explanations...

  • Page 17: Main Circuit Wiring

    FC100 Series User Manaul Chapter 3 Wire diagram and terminal explanation 3.4 Main Circuit Wiring AC line input terminals grounding Single phase models input from R/L1, S/L2 R/L1 S/L2 T/L3 UP/DOWN LED display Function ENTER DISP Display key Data Frequency...
  • Page 18 FC100 Series User Manaul Chapter 3 Wire diagram and terminal explanation 3.5 Wiring Notes: PLEASE READ PRIOR TO INSTALLATION. CAUTION: Do not connect the AC power to the U/T1, V/T2, W/T3 terminals, as it will damage the AC drive. WARNING: Ensure all screws are tightened to the proper torque rating.
  • Page 19 FC100 Series User Manaul Chapter 3 Wire diagram and terminal explanation 11. Do not monitor the signals on the circuit board while the AC drive is in operation. 12. For the single-phase rated AC drives, the AC power can be connected to any two of the three input terminals R/L1, S/L2, T/L3.
  • Page 21 Chapter KeypadOperation...

  • Page 22: Digital Keypad Operation

    FC100 Series User Manaul Chapter 4 Digital Keypad Operation CHAPTER 4 DIGITAL KEYPAD OPERATION 4.1 Description of Digital Keypad This digital keypad includes two parts: Display panel and keypad. Display panel provides the parameter display and shows operation status of the AC drive. Keypad provides programming interface between users and AC drives.

  • Page 23: Detailed Way For How To Use Keypad

    FC100 Series User Manaul Chapter 4 Digital Keypad Operation 4.2 Detailed way for how to use keypad Change Changethe Changethe Changethe Changethe thesetting setting setting setting setting frequency frequency frequency frequency frequency Short Short Short Short Change press DISP DISP...
  • Page 25 Chapter Function Parameters Table...
  • Page 26 FC100 Series User Manaul Chapter 5 Function Parameters Table CHAPTER 5 Function Parameters Table Minimum Initial Name Setting Range Parameters Setting value increments Maindisplaydata P000 0-32 selection Displaytheset P001 Readonly frequecy Displaytheoutput P002 Readonly frequency Displaytheoutput P003 Readonly current Displaythemotor...
  • Page 27 FC100 Series User Manaul Chapter 5 Function Parameters Table Minimum Initial Name Setting Range Parameters Setting value increments 0.00~Maximum Digitalfrequency setting P100 0:Digitalfiequency setting (P100) 1:Analogvoltage 10VDC) 2:Analogcurrent (0~20mADC) P101 Frequencysetting selection 3:Settingdial (Operation panel) 4UP/DOWNfrequency setting 5:RS485communication frequency setting...
  • Page 28 FC100 Series User Manaul Chapter 5 Function Parameters Table Minimum Initial Name Setting Range Parameters Setting value increments V/Fintermediatefrequen P110 V/Fbasefrequency cy~max. frequency V/F minimum voltage V/Fintermediate Changing P111 ~ V/F maximumvoltage voltage V/Fminimumfrequency V/Fintermediate frequency P112 0.01 2.50 ~V/Fbase frequency...
  • Page 29 FC100 Series User Manaul Chapter 5 Function Parameters Table Minimum Initial Name Setting Range Parameters Setting value increments P211 Noloadcurrentratio ofmotor 0~100% 0~6000r/min 1420 P212 Ratedmotorrotation speed Numberofmotor poles P213 0~20 P214 Ratedmotorslip 0~10.00Hz 2.50 Ratedmotor frequency P215 50.00 0~400.0Hz...
  • Page 30 FC100 Series User Manaul Chapter 5 Function Parameters Table Minimum Initial Name Setting Range Parameters Setting value increments InputterminalS2 (0~32) 0:Invalid P318 1:Jog 2:JogForward 3:Jogreverse 4:Forward/reverse Reserved P319 5:Run 6:Forward 7:Reverse Reserved P320 8:Stop 9:Multi -speed1 10:Multi speed2 Reserved 11:Multi speed3...
  • Page 31 FC100 Series User Manaul Chapter 5 Function Parameters Table Minimum Initial Name Setting Range Parameters Setting value increments 0~999.9s 10.0 0.1S P404 Accelerationtime3 Accelerationtime 10.0 0.1S 0~999.9s P405 4/Jogacceleration time Decelerationtime 10.0 0.1S P406 0~999.9s 4/Jogdeceleration time Designatedvalueof 0~999.9s P407...
  • Page 32 FC100 Series User Manaul Chapter 5 Function Parameters Table Minimum Initial Name Setting Range Parameters Setting value increments Timer1setting 0~10.0s P427 Timer2setting P428 0~100s Constant speedtorque P429 0~999.9s Changing limitingtime Widthofarrivalof 0.50 0~2.0 P430 frequencyin hystereticloop Jumpfrequency1 P431 0~maximumfrequency Jumpfrequency2...
  • Page 33 FC100 Series User Manaul Chapter 5 Function Parameters Table Minimum Initial Name Setting Range Parameters Setting value increments 0.00~maximumfrequency Multi speed8 45.0 P510 Multi speed9 P511 50.0 0.00~maximumfrequency Multi speed10 10.0 P512 0.00~maximumfrequency P513 10.0 Multi speed11 0.00~maximumfrequency 0.00~maximumfrequency P514 Multi speed12 10.0...
  • Page 34 FC100 Series User Manaul Chapter 5 Function Parameters Table Minimum Initial Name Setting Range Parameters Setting value increments 0:PIDdisable P600 1:PIDstart PIDstartingmode 2:PIDstartbyexternalterminal 0:Negativefeedbackmode P601 PIDoperationmode selection 1:Positivefeedbackmode 0:figuremode(P604) PIDactionsetpoint P602 1: AVI(0~10V) 2:AVI(0~20mA) P603 0:AVI(0~10V) PIDfeedbackvalue selection 1:AVI(0~20mA) P604 PIDfiguretarget valuesetting 0~100.0%...
  • Page 35 FC100 Series User Manaul Chapter 5 Function Parameters Table Minimum Initial Name Setting Range Parameters Setting value increments 0:4800bps 1:9600bps Communication speed P700 2:19200bps 3:38400bps 1:8E1FPRASC 0:8N1FORASC P701 2:801FORASC 3:8N1F0RRTU Communication mode 4:8E1FORRTU 5:801FORRTU Communication address 0~240 P702 0:Locked Advancedapplication...
  • Page 37 Chapter DESCRIPTION OF PARAMETER SETTINGS...

  • Page 38: Group P0: User Parameters

    FC100 Series User Manaul Chapter 6 Description of parameter setting CHAPTER 6 DESCRIPTION OF PARAMETER SETTINGS Group P0: User Parameters 0 - 00 Main Display Data Selection Factory setting: 00 User can set the initial display of VFD through parameter P000, For example, in order to monitor rotation speed through the operation panel, user can set parameter P000 into”03"...
  • Page 39 FC100 Series User Manaul Chapter 6 Description of parameter setting Display the set frequency P001 You can monitor the set frequency of inverter by examinng the content of this parameter. Display the output frequency P002 You can monitor the present output frequency of inverter by examinng the content...
  • Page 40 For FC100 Series, you can use parameter “F.00" to set the mian display data It’s also possible to monitor the data directly through the parameters “P001~P018"...

  • Page 41: Group P1: Basic Parameters

    FC100 Series User Manaul Chapter 6 Description of parameter setting Group P1: Basic Parameters P100 Digital frequency setting Factory Setting: 0.00HZ SettingRange:0.00HZ-MaximumFrequencyUnit:0.011 P101 Frequency Setting Selection Factory Setting: 0 SettingRange:0-5Unit:1 Explanation: 0: Digital frequency setting (P100) 1: Analog voltage (0 —10VDC) 2: Analog current (0—20mADC )
  • Page 42 FC100 Series User Manaul Chapter 6 Description of parameter setting Explanation: control the output frequency through terminal AVI (0-10V). Explanation: control output frequency of inverter by AVI voltage signal sent by external POT (10k Q) 2: Analog current mode (0~20mA DC) The output frequency of inverter is decided by external current signal (0-20mA).
  • Page 43 Chapter 6 Description of parameter setting 3: Setting dial mode (Operation panel) You can control the running of FC100 series inverter by the POT knob on Keypad. Pay attention to the POT knob in Keypad which enables you to switch between monitoring images.
  • Page 44 (or Keep the original running condition ) You can make two-wire type or three-wire type control mode by using I/O terminal ① Two-wire type A two-wire type connection is shown below : Parameter P102= 1 P315=6 P316=7 Operation Instruction of FC100 Series Inverter Actuating explanation:...
  • Page 45 FC100 Series User Manaul Chapter 6 Description of parameter setting Input Status Status of inverter Forward Stop Reverse Keep the original running condition ② Three-wire type A three-wire type connection is shown below. The start self-holding selection becomes valid when the STOP signal is turned on.
  • Page 46 FC100 Series User Manaul Chapter 6 Description of parameter setting 2: RS485 mode Inverter can receive command and exchange data with computer by serial communication. P103 “Stop” key lock operation selection Factory Setting: 1 SettingRange:0-1Unit:1 Explanation: 0: “Stop"key lock mode invalid 1: “Stop”...
  • Page 47 FC100 Series User Manaul Chapter 6 Description of parameter setting Procedure Input Explanation K1 close Reverse of inverter is started (K1 open) press stop key Inverter stops K1 open Running signal is removed K1 close Reverse of inverter is started...
  • Page 48 FC100 Series User Manaul Chapter 6 Description of parameter setting P107 ACC time Factory Setting: change P108 DEC time Factory Setting: change SettingRange:0.1s~999.9s Acc time refers to the time for inverter to reach the max. frequency from 0.00Hz. Dec time refers to the time for inverter to lower to 0.00Hz from max. frequency.
  • Page 49 FC100 Series User Manaul Chapter 6 Description of parameter setting Parameters from P109 to P114 determine the V/F curve of inverter. Set corresponding V/F curves according to different loads. Constant torque curve: application for constant torque load, output voltage and output frequency are in linear relation.
  • Page 50 FC100 Series User Manaul Chapter 6 Description of parameter setting P113: V/F minimum voltage V/F minimum voltage setup is relevant to start torque to a certain extend. Increasing the value of this parameter properly can increase the torque of starting, it can also cause over current. Generally, it's not necessary to change the value of P113.
  • Page 51 SettingRange:0-1Unit:1 Explanation: 0: Start at start frequency 1: Tracing start There are two start modes for FC100 series inverter. You can choose from the two by setup of parameter P200 and the condition of machinery. 0: Start at start frequency Most loads do not have special requirement in start.
  • Page 52 FC100 Series User Manaul Chapter 6 Description of parameter setting 1: Tracing start Tracing start is application for start after fault reset or instantaneous power failure. Using tracing start function, inverter can automatically detect the rotation speed and rotation direction of motor, the output the starting frequency and voltage accordingly.
  • Page 53 FC100 Series User Manaul Chapter 6 Description of parameter setting With regard to stop mode after stop frequency is reached, you can choose DC injection brake and other options. If you do not choose DC injection braking, it will stop in coasting stop mode.
  • Page 54 FC100 Series User Manaul Chapter 6 Description of parameter setting P204 Dc braking current in start Factory Setting: 100 SettingRange:0~150Unit:1 P205 Dc braking time in start Factory Setting: 0 SettingRange:0~250Unit:1 Dc braking in start is application for fan in stop mode and moving load. Because before inverter starts, motor is in free mnriing modeand the rotation direction is unknown.
  • Page 55 FC100 Series User Manaul Chapter 6 Description of parameter setting P208 Torque boost Factory Setting: 5% SettingRange:0.1~20%Unit:0.1 Adjusting parameter P208 can increase voltage 3nd obtain higher torque. Attention: Too big setting may cause motor overheating. Increase the setting step by step until you get the requested starting torque.
  • Page 56 FC100 Series User Manaul Chapter 6 Description of parameter setting P209 Rated voltage motor Please set rated voltage of motor according to voltage value on motor nameplate. P210 Rated motor current Please set rated current of motor according to the current value on nameplate. If the running current exceeds the value of rated current, inverter will trip to protect the motor.
  • Page 57 FC100 Series User Manaul Chapter 6 Description of parameter setting P218 Self inductance of rotor Factory Setting: 1 SettingRange:0~1.0Unit:0.1 P219 Mutual inductance of rotor Factory Setting: 0.2 SettingRange:0~1.0Unit:0.1 The above parameters are parameters of motor. The above parameters are parameters of motor.
  • Page 58 FC100 Series User Manaul Chapter 6 Description of parameter setting P302 Input filter time Value of input filter time decides the response speed of inverter to analogue change. With the increase of value of P302, the inverter will get slower for responding to analogue change.
  • Page 59 FC100 Series User Manaul Chapter 6 Description of parameter setting P310 Frequency of low analog Factory Setting: 0.0 Setting Range: 0~400.0 Unit:0.1 P311 Direction of of low analog Factory Setting: 0 Setting Range: 0~1 Unit:1 Explanation: 0: Positive direction 1: Negative direction...
  • Page 60 FC100 Series User Manaul Chapter 6 Description of parameter setting P310 Frequency of low analog Frequency of lower analogue decides the output frequency of lowest analogue input, corresponding to analogue minimum voltage (current) input. P311 Direction of low analog Direction of lower analogue decides the running condition at low frequency, whether it is Forward or reverse.
  • Page 61 FC100 Series User Manaul Chapter 6 Description of parameter setting Introduction: P300=2 AVI minimum voltage input: 2V (inverter regards signals below 2V as invalid signals); P301=10 AVI maximum voltage input: 10V (signals over 10V are regarded and handled as 10V);...
  • Page 62 FC100 Series User Manaul Chapter 6 Description of parameter setting Parameter: P33=4 AVI minimum current input P304=20 AVI maximum current input P310=100.00 analogue low-end frequency P311=0 analogue low-end direction (Forward) P312=0 analogue high-end frequency P314=0 analogue high-end direction (Forward) Special inverted curve can be constituted by using P310-P314. Introduction: signal input below 4mA is regarded as invalid signal by inverter.
  • Page 63 FC100 Series User Manaul Chapter 6 Description of parameter setting 0: Invalid Set as empty terminal, no function 1: Jog Set as JOG (inching), usually used in trial running, common inching is operated by 5Hz, 2: Jog Forward Set as JOG forward.
  • Page 64 FC100 Series User Manaul Chapter 6 Description of parameter setting Multi - function terminal Status and explanation Multi Multi Multi Multi speed speed speed speed Primary frequency, Primary frequency is determined by P100 or potentiometer Multi -speed 1 (P503) Multi -speed 2 (P504)
  • Page 65 FC100 Series User Manaul Chapter 6 Description of parameter setting Remark:0: terminal invalid 1: terminal invalid 13: acceleration / deceleration selection 1 14: acceleration / deceleration selection 2 4 kinds of acceleration / deceleration times can be selected by acceleration / deceleration selection terminal l and 2.
  • Page 66 FC100 Series User Manaul Chapter 6 Description of parameter setting 17: Coasting stop When this terminal is valid, inverter coasting to stop. Fault reset Reset the inverter when alarm occurs, this terminal function is sameto that of the RESET key on the Keypad.
  • Page 67 FC100 Series User Manaul Chapter 6 Description of parameter setting 26. Winding function enable When this signal is valid, winding function is enabled. Introduction: Introduction: 1,Winding function is activated, and winding begins; 1,Winding function is activated, and winding begins; 2,Winding operation complete, inverter output according to the frequency 2,Winding operation complete, inverter output according to the frequency that winding is completed.
  • Page 68 FC100 Series User Manaul Chapter 6 Description of parameter setting 0: Invalid 1: In running 2: Frequency reached 3: In fault 4: Zero-speed 5: Frequency 1 reached 6: Frequency 2 reached 7: Accelerating 8: Decelerating 9: Under voltage Setting 10: Timer 1 reached...
  • Page 69 FC100 Series User Manaul Chapter 6 Description of parameter setting Frequency 7: Accelerating When inverter is in the status of accelerating, this contact is ON. 8: Decelerating When inverter is in the status of decelerating, this contact is ON. 9. Under voltage alarming When inverter detects that DC bus voltage is lower than setting value, this contact is ON and alarm.
  • Page 70 FC100 Series User Manaul Chapter 6 Description of parameter setting 10: Timer 1 reached 11: Timer 2 reached When inverter arrives at setting value, this contact is ON, when timer start-up signal is removed, this contact is reset. 12: Stage completion indication In the PLC operation mode, inverter output this pulse signal when inverter finished a section of program.

  • Page 71: Group P4: Secondary Application Group

    Default value 50 Setting Range:0~999.9S Unit.1 Fc100 Series inverter design 2 group of counters, pulase signal less than 250Hz can be accepted through multi-function terminal, when exeunt value reaches setting value, corresponding multifunction output terminal is ON, input terminal of counter resets signal through counter, counter resets and begins counting again.
  • Page 72 FC100 Series User Manaul Chapter 6 Description of parameter setting Parameter P409 is the torque limit level during acceleration. When output current reaches the setting value, inverter will stop accelerating, and when current is below the set value, inverter resume the accelerating.
  • Page 73 FC100 Series User Manaul Chapter 6 Description of parameter setting Explanation: 0: Invalid 1: Valid 0: Invalid During deceleration, the DC-bus voltage may increase, when over- voltage prevention selection is invalid, inverter may trip for over voltage. 1: Valid During deceleration, when DC-bus voltage reaches the setting value, inverter will stop the deceleration procedure.
  • Page 74 FC100 Series User Manaul Chapter 6 Description of parameter setting P413 Automatic energy-saving selection Default value 0.0 Setting Range:0~100 Unit:1 P413 Automatic energy-saving selection In constant-speed running of automatic energy-saving selection, best voltage value may be calculated by loading condition and provided to load, in order to achieve best energy-saving.
  • Page 75 FC100 Series User Manaul Chapter 6 Description of parameter setting Example: Use K1 (FWD), control running of inverter. K1 closes, frequency conversion operates, when K1 is cut off, inverter stops. When power is shut off and K1 remains closed, if power is on, inverter starts up suddenly and it may be very dangerous.
  • Page 76 FC100 Series User Manaul Chapter 6 Description of parameter setting P420 Fault restart times Default value 0 Setting Range:0~5 Unit:1 P421 Delay time for restart after fault Default value 150 Setting Range:0~100 Unit:1 After alarm (such as current, over-voltage and so on) occurs, inverter resets automatically (valid when non-zero as set by P420),...
  • Page 77 Default value 0 No. 2 timer Setting Range:0~100S Unit:1 FC100 series have two timers, when time of the timers reaches setting value (set by P427 and P428), corresponding multi-function terminal is ON. Timer start is controlled by external multi-function input terminal.
  • Page 78 FC100 Series User Manaul Chapter 6 Description of parameter setting P429 Constant-speed torque limiting time Default value 0.5 Setting Range:0~999.9S Unit:0.1 P430 Default value 0 Width of arrive of frequency in hqsteretic loop Setting Range:0~2.00S Unit:0.1 This parameter sets frequency reached width, for details, refer to P425-F426...

  • Page 79: Group P5: Plc Control (Special Operation)

    FC100 Series User Manaul Chapter 6 Description of parameter setting Group P5: PLC Control ( Special Operation) P500 PLC memory mode Default value 0 Setting Range:0~1 Unit:1 Explanation: 0: Do not remember 1: Remember 0: Do not remember In the operational process of PLC program, P500 will choose not to remember.
  • Page 80 FC100 Series User Manaul Chapter 6 Description of parameter setting P502 PLC running mode Default value 0 Setting Range:0~4 Unit:1 Explanation: 0: PLC stop running after a week 1: PLC pause mode, stop running after a week 2: PLC cycle running...
  • Page 81 FC100 Series User Manaul Chapter 6 Description of parameter setting Setting Range:0~Max Frequency Unit:0.1 P503 — P517 are set of 15 speed of rated frequency in the running. Regarding relationship multi speed and external terminal please refer to rated instruction 1,2,3,4 of multifunctional terminal.
  • Page 82 FC100 Series User Manaul Chapter 6 Description of parameter setting For example: there is a five-segment rate, the circling running is required as follow: Items Output frequency Running direction Running duration Dominant Potentiometer is Forward frequency adjustable Segment 1 20.0...
  • Page 83 FC100 Series User Manaul Chapter 6 Description of parameter setting The binary system number 01010 is transferred to decimal system number: 1x21+1x23+8=10 Define to: P533=10 The parameter defines to: P101=3 Keyboard potentiometer setting mode: dominant frequency is controlled by potentiometer...

  • Page 84: Group P6: Plc Control (Special Operation)

    FC100 Series User Manaul Chapter 6 Description of parameter setting Action instruction: 1, Press K1 to startup the inverter and the potentiometer will set output frequency. 2, Press K3, PLC to startup, and from the segment 1 PLC program running one circle and then ceasing 3,...
  • Page 85 FC100 Series User Manaul Chapter 6 Description of parameter setting P601 PID operation mode selection Default value 0 Setting Range:0~1 Unit:1 Explanation: 0: Negative feedback mode 1: Positive feedback mode Explanation: 0: Negative feedback mode If feedback value(P603)>setting value(P602), inverter decrease output frequency If feedback value(P603)<setting value(P602), inverter increase output...
  • Page 86 FC100 Series User Manaul Chapter 6 Description of parameter setting P604 PID figure target value setting Default value 0 Setting Range:0~100% Unit:0.01 Select AVI as feedback value 100% setting is corresponding to analog input 10V voltage. PID closed-loop control is widely used to control the process such as pressure and temperature.
  • Page 87 FC100 Series User Manaul Chapter 6 Description of parameter setting 2. Restraint output from oscillating a: Decrease differential time (D value) or set it as 0 b: Decrease the value of proportional constant (P) P605 PID upper limit alarm value Default value 100 Setting Range:0.0~100%...
  • Page 88 FC100 Series User Manaul Chapter 6 Description of parameter setting P608 PID integral time Default value 0.3s Setting Range:0~200.0s Unit:0.1 For deviation step input, time(Ti) required for only the integal (I) action to provide the same manipulated variable as that for the proportional (P) action.
  • Page 89 FC100 Series User Manaul Chapter 6 Description of parameter setting Example: PID action set point is 60% (0 - 100% is corresponding to 0 - 10V), and the wake-up value is 80%, which is actually corresponding to 0 - 10V, then the actual wake-up value is 60% x 80% = 48% (corresponding to 0 - 10V).
  • Page 90 If P702 is set to 0, means communication function is invalid. FC100SeriesModbusCommunicationProtocol Fc100 series communication agreement is with MODBUS ASCII (American standard code for information inter change) mode: Each byte consists of 2 ASCII characters, for example: The expressionof the numerical value of 54Hex ASCII is that "54”...
  • Page 91 FC100 Series User Manaul Chapter 6 Description of parameter setting 2.. Character structure 10 - Bit character box (For ASCII) Data pattern: 8N1 For ASCII Start bit Stop bit 8-Data bits Character string 10-bits Characte r box 10 - Bit character box (For RTU) Data pattern: 8N1 For RTU...
  • Page 92 FC100 Series User Manaul Chapter 6 Description of parameter setting Data pattern: 801 For RTU Start bit Odd parity Stop bit 8-Data bits Character string 11-bits Characte r box Data pattern: 8E1 For RTU Start bit ever parity Stop bit...
  • Page 93 FC100 Series User Manaul Chapter 6 Description of parameter setting RTU mode: Keep that zero - input signal is more than or equal to 10 ms START - bit binary address Address Communication address: 8 Function code: 8 - bit binary address...
  • Page 94 FC100 Series User Manaul Chapter 6 Description of parameter setting Format of enquiry message Format of response message Character string Character string 0 Address Address 1 0 Function Function 3 0 Number of data 4 (count by byte) Starting address 1...
  • Page 95 FC100 Series User Manaul Chapter 6 Description of parameter setting For example: Driver address 01H, writes 6000 (1770H) into the internal setting parameter 0100H of driver. LRCCheckofASCIImode Format of response message Format of enquiry message Character string Character string Address...
  • Page 96 FC100 Series User Manaul Chapter 6 Description of parameter setting LRC Check is the value added from Address to Data Content. For example, the LRC Check of the above 3.3.1 enquiry message is as: 01H + 03H + 21H + 02H + 00H + 02H = 29H, then the complement of2(D7H) is taken.

  • Page 97: Group P8: Advanced Application Parameters

    FC100 Series User Manaul Chapter 6 Description of parameter setting Group P8: Advanced application parameters P800 Advanced application parameter lock Factory Setting:1 Setting Range:0~1 Unit:1 Explanation: 0: Lock 1: Unlock If P800 is set to 0,you can not use the advanced parameters.
  • Page 98 FC100 Series User Manaul Chapter 6 Description of parameter setting P806 Current display filter time Factory Setting:2.0 Setting Range:0~100 Unit:1 This parameter setting is relevant to the stabilization of current display, and shall not be modified in general. If the setting is too small, current display will fluctuate.
  • Page 99 Chapter Maintence and Inspection...
  • Page 100 FC100 Series User Manaul Chapter 6 Maintence and inspection CHAPTER 7 MAINTENANCE AND INSPECTIONS Modern AC drives are based on solid state electronics technology, preventive maintenance is required to operate this AC drive in its optimal condition, and to ensure a long life. It is recommended to perform a monthly check up of the AC drive by a qualified technician.
  • Page 101 Chapter Troubleshooting and Fault Information ThisChapterContent This chapter briefly introduces the operation principle, product performa-nce, layout, nameplate, and type of instructions.
  • Page 102 FC100 Series User Manaul Chapter 8 Troubleshooting and Fault Informatin CHAPTER 8 Troubleshooting and Fault Information The FC100 AC drive has a comprehensive fault diagnostic system that includes several different alarms and fault messages. Once a fault is detected, the corresponding protective functions will be activated.
  • Page 103 FC100 Series User Manaul Chapter 8 Troubleshooting and Fault Informatin Operation Name Corrective action Possible fault reason Indication 1: The insulation of motor and motor wire is not good 2: Load fluctuation 1: Check the insulation of 3:Fluctuation of input...
  • Page 104 FC100 Series User Manaul Chapter 8 Troubleshooting and Fault Informatin Operation Possible fault Panel Name Cor rective action reason Indicati on 1: Check the power supply voltage 1: Power supply Under voltage 2: Check power supply voltage abnormal during stop...
  • Page 105 FC100 Series User Manaul Chapter 8 Troubleshooting and Fault Informatin Operation Panel Name Correc tive action Possible fault reason Indicati on weight. 1: Reduce the load 1: The motor for use during stop under overload 2: Increase acceleration time 2: Acceleration time...
  • Page 106 FC100 Series User Manaul Chapter 8 Troubleshooting and Fault Informatin 8-4 Check first when you have troubles If the causes is still unknown after every check, it is recommended to initialize the parameters (initial value) then reset the required parameter values and check again.
  • Page 107 FC100 Series User Manaul Chapter 8 Troubleshooting and Fault Informatin (7) Inverter may interfere with other devices. Causes and corrective actions: The input/output (main circuit) of the inverter includes high frequency components, which may interfere with the communication devices used near the inverter. In this case ,set EMC filter valid to minimize interference.
  • Page 108 FC100 Series User Manaul Chapter 8 Troubleshooting and Fault Informatin Noise reduction examples...

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