Page 1 VF200 WME-VF200-A 2013.01 panasonic.net/id/pidsx/global...
Page 3 Foreword Thank you for purchasing Panasonic products. - For optimum performance and safety, please read this manual carefully before using this product. - Please save this manual for future use. Applicability of the Product • This general-purpose inverter manufactured by us is not designed or manufactured to be used in machine or system in situations that can affect or endanger human life.
Page 4: Table Of Contents
Table of contents Safety Precautions .................1 Points for Handling ................ 9 Special Precautions ................10 1. Parts Identification ..............13 1.1 Part Names and Functions ............14 1.2 Details on Part Number...............16 2. Installation ................17 2.1 Safety Precautions ..............18 2.2 Installation Precautions .............. 19 2.3 Outline Dimensions ..............
Page 5: Table Of Contents
Table of contents ........ 4.5 Setting Frequency with Operation Panel ....4.6 Setting Forward/Reverse Run with Operation Panel 4.7 Operating with Operation Panel ..........54 5. Control Status Monitor..............69 5.1 List of Control Status Monitor Items ...........70 5.2 Introduction of Monitor No ............72 6.
Page 6: Table Of Contents
Table of contents 10. Maintenance and Inspection ..........121 10.1 Safety Precautions ..............122 10.2 Precautions on Inspection ............122 10.3 Inspection Items ..............122 10.4 Component Replacement ............124 10.5 Maintenance and Inspection Table ........125 11. Specifications ...............129 11.1 Rated Specifications .............. 130 11.2 Standard Specifications ............132 11.3 Common Specifications ............133 Appendix ..................139...
Page 8: Safety Precautions
Safety Precautions...
Page 9 Safety Precautions Safety Precautions Read this manual and related documents before attempting to install, operate, service or inspect the inverter. Make sure that you have a full understanding of the device, the safety information and all precautions before starting use. Precautions described in this manual are divided into two grades: “Danger”...
Page 10 Safety Precautions 1. Installation Caution • Install the unit on non-flammable material, such as metal, etc. Failure to do so may lead to fire. • Do not place the unit near flammable materials. Failure to do so may lead to fire. •...
Page 11 Safety Precautions Caution • Do not connect an AC power supply to output terminals (U, V, W). Failure to do so may result in injury or fire. • Make sure that the voltage rating of the product matches with that of AC power supply.
Page 12 Safety Precautions (Always take measures to ensure personal safety.) Failure to do so may result in injury. • When retry function is in use, the unit may automatically start (restart) suddenly, so do not approach the unit. (Always take measures to ensure personal safety.) Failure to do so may result in injury.
Page 13: General Precautions
Safety Precautions 4. Maintenance, Inspection and Part Replacement Danger • Wait at least five minutes after turning OFF inlet power before starting maintenance and inspection. Failure to do so may result in an electric shock. • Maintenance, inspection and part replacement work must be done only by qualified persons.
Page 14 Safety Precautions 7. Warning Label on Inverter VF200...
Page 15 Safety Precautions...
Page 16: Points For Handling
Points for Handling Special Precautions............10...
Page 17: Special Precautions
Points for Handling Special Precautions Use the inverter only within allowable ambient temperature range (-10～50°C). Since service life of the inverter is greatly affected by ambient temperature, use it within allowable temperature range. Also, observe the installation directions and conditions. (Refer to P.21) The inverter will be damaged if the power voltage is applied to its output side.
Page 18 If parameters are frequently written in, service life of built-in non-volatile memory (EEPROM) of the inverter will be shortened. The maximum life of non-volatile memory (EEPROM) used in VF200 is 100,000 times. Therefore, do not write in parameters frequently. Precautions for inverter's protection function The inverter integrates various protection functions such as stall prevention, current limiting and over-current shut-off.
Page 19 Points for Handling...
Page 20: Parts Identification
Parts Identification 1.1 Part Names and Functions......14 1.2 Details on Part Number ........16...
Page 21: Part Names And Functions
1. Parts Identification 1.1 Part Names and Functions Inside of terminal cover Inside of terminal cover Note) This explanatory drawing shows the state with terminal cover removed. During normal use, do not remove terminal cover.
Page 22 1. Parts Identification Operation panel unit Warning label Terminal cover 1 (terminal cover for control circuit) Mounting holes Casing Rating nameplate*1 Inlet hole for control wire Inlet hole for main circuit wire Heat sink Terminal cover 2 (terminal cover for main circuit) Cooling fan*2 Terminal block for control circuit (relay output) Terminal block for control circuit (signal input/output)
Page 23: Details On Part Number
1. Parts Identification 1.2 Details on Part Number VF200 Part Number Power Applicable motor supply capacity (kW) Operation panel Simple panel AVF200-0022 AVF200-0022P AVF200-0042 AVF200-0042P 1-phase 0.75 AVF200-0072 AVF200-0072P 200 V AVF200-0152 AVF200-0152P AVF200-0222 AVF200-0222P 0.75 AVF200-0074 AVF200-0074P AVF200-0154 AVF200-0154P...
Page 24: Installation
Installation 2.1 Safety Precautions ..........18 2.2 Installation Precautions ........19 2.3 Outline Dimensions .........21 2.4 Removal and Installation of Operation Panel ..23...
Page 25 2. Installation 2.1 Safety Precautions Install the unit on non-flammable material, such as metal,etc. Failure to do so may lead to fire. Do not place the unit near flammable materials. Failure to do so may lead to fire. Do not hold the unit by terminal cover while transporting Failure to do so may cause the unit to drop and result in injury.
Page 26: Installation Precautions
2. Installation 2.2 Installation Precautions ■ Do not install the inverter in the following locations. ·Locations subject to direct sunlight ·Locations subject to water vapor or high humidity ·Locations with large amount of oil mist, dust or fiber dust ·Locations where rain water, water drops or oil drops may come in contact ·Locations where corrosive gases, explosive gases or flammable gases are present ·Installation onto flammable materials such as wood, or near flammable...
Page 27 2. Installation Vertical Horizontal Sideways ■ Space for installation When a single inverter is installed To ensure sufficient space for ventilation (cooling) and wiring of the inverter, always provide a clearance as shown in the following figure. When multiple inverters are installed sideways If multiple inverters are installed sideways inside control panel, always provide a clearance as shown in the following figure.
Page 28: Outline Dimensions
2. Installation 2.3 Outline Dimensions Unit : mm 4-φd(Mounting holes) 1-phase 200 V input type Unit: mm ● Inverter φ d capacity 0.2, 0.4 kW 100 112 130 143 120 0.75, 1.5 kW 100 112 130 143 150 2.2 kW 130 143 130 143 160 Note) Cooling fan is not mounted on 0.2 kW～0.75 kW model.
Page 29 2. Installation VF200...
Page 30: Removal And Installation Of Operation Panel
While holding the center top and bottom part of the ② 〔Installation〕 operation panel, align mounting position (align transverse slot on operation panel with flange on the casing) and press down vertically to install it. Note) After installation, confirm that the operation panel is fitted in position. VF200...
Page 31 2. Installation ■ Connect the operation panel via a LAN cable A commercially available LAN cable can be used to connect the main unit of the inverter and the operation panel. Use LAN cable only for the purpose of connecting the main unit of the inverter and operation panel.
Page 32: Wiring
Wiring 3.1 Safety Precautions ............26 3.2 Removal and Installation of Terminal Cover....27 3.3 Wiring (Main Circuit)............29 3.4 Wiring (Control Circuit)..........33...
Page 33 3. Wiring 3.1 Safety Precautions Make sure that power is turned OFF before starting wiring. Failure to do so may result in an electric shock or fire. Always connect ground wire. Failure to do so may result in an electric shock or fire. Wiring work should always be carried out by qualified electrician.
Page 34: Removal And Installation Of Terminal Cover
3. Wiring 3.2 Removal and Installation of Terminal Cover ■ Removal and Installation of Terminal Cover 1 (Terminal Cover for Control Circuit ) While holding the center bottom edge of the 〔Removal〕 ① terminal cover 1 and pull it up lightly. Insert the mounting jaw of terminal cover 1 〔Installation〕...
Page 35 3. Wiring Mounting jaw (two) Terminal cover 2 Note) After installation, make sure that the terminal cover 1 and 2 are fitted in position.
Page 36: Wiring (Main Circuit)
3. Wiring 3.3 Wiring (Main Circuit) 3.3.1 Wiring (Terminals for Main Circuit) ■ 1-phase 200 V 0.2～2.2 kW ■ 3-phase 400 V 0.75～15 kW To conform to CE mark compliance, protective devices against overcurrent, short-circuit and current leakage must be set up on the power supply side of the inverter.
Page 37 3. Wiring ■ Functions of Terminals for Main Circuit Terminal No. Terminal name Explanation of terminal function R/L1, S/L2. Power supply for Main For 1-phase 200 V type, connect to terminal T/L3 circuit L1 and L2. U, V, W Inverter output Connect to 3-phase motor.
Page 38 3. Wiring 3.3.2 Precautions on Wiring Main Circuit ■ Precautions on Wiring To avoid mistakes in wiring and operation, be sure to observe the following guides.(Failure to do so may damage the unit.) ·Always connect the power source to input terminals (R/L1, S/L2, T/L3), and connect the motor to output terminals (U,V,W).
Page 39 3. Wiring ■ Connected Device, Wire Size and Tightening Torque (1-phase 200 V) Current rating Wire size of circuit L1, L2 Inverter Terminal Tightening breaker for U, V, W capacity screw size torque Ground wire wiring (MCCB) 0.2 kW 0.4 kW 10 A 2 mm (AWG14)
Page 40: Wiring (Control Circuit)
3. Wiring 3.4 Wiring (Control Circuit) 3.4.1 Terminal Arrangement and Functions ■ Terminal arrangement ·Specification for frequency setting potentiometer (VR): 10 kΩ,1/4W or higher ·Specification for relay output contact : 1c volt free contact 230 VAC 0.3 A, 30 VDC 0.3A (resistive load) ·Specification for open-collector output: Max.
Page 41 3. Wiring ■ Explanation of terminals for control circuit Terminal Terminal function Related parameter No. － Common terminal for input signals (②～⑧) Input terminal for start /stop, forward run signal P003 Input terminal for forward / reverse, reverse run P003 signal P036, P041 Input terminal for multi-function control signal SW1...
Page 42 3. Wiring Built-in 200 Ω terminal for analog current input P004, P125 Output terminal for relay contact (NO: factory P092 setting) Output terminal for relay contact (NC: factory P092 setting) P092 Output terminal for relay contact (COM) Note ) Common terminals (①, ⑨, ⑮, ⑱) are connected internally. Do not ground the common terminal.
Page 43 3. Wiring 3.4.2 Common Precautions on Terminals for Control Circuit ■ Precautions on Wiring ·For wiring of terminals of control circuit, strip specified length of insulation coating before connecting. ·Loosen the terminal screws and insert the wires from bottom of the terminal block, and tighten the screws to specified tightening torque.
Page 44 ■ Terminals for Control Circuit (Terminal No.1～9) ·Control logic of input signal can be switched according to the connected external input devices. Please set the changeover switch of VF200 unit as required. ·Input circuit is shown in the following figure. Take back current and leakage current into account.
Page 45 3. Wiring Wiring diagram and precautions for source input setting ·Set the changeover switch to “SOURCE” position. ·Supply +24V power to each input terminal.
Page 46 3. Wiring ■ Wiring for PWM/Pulse input controlled Operating Frequency Mode (Terminal No.7, 8) ·When parameter P087 is set to "1”, the operating frequency will be controlled by external PWM signal from PLC, etc. ·When parameter P087 is set to "2”, the operating frequency will be controlled by external pulse signal from PLC, etc.
Page 47 3. Wiring ■ Wiring for Analog Signal Terminals (Terminal No.13 to 16, 24) ·When parameter P004 is set to “2”, frequency setting will be made through external potentiometer. ·When using external potentiometer for frequency setting, select a potentiometer of “10 kΩ, 1/4 W or higher” rating. ·When parameter P004 is set to “5”...
Page 48 3. Wiring ·As for communication cable, use a shielded twisted-pair cable and separate it from power lines or high-voltage circuits (20 cm or more). ·The total wiring length of the communication cables must not exceed 500 m. ·Connect the communication terminals “D+” to “D+” and “D-” to “D-”. ·Jump out the terminal “D-”...
Page 50: Operation Method(Basic Operation)
Operation Method (Basic Operation) 4.1 Safety Precautions ............44 4.2 Description of Operation Panel/Simple Panel ....45 4.3 Operation Modes............47 4.4 Type of Operation Method ..........50 4.5 Setting Frequency with Operation Panel.......51 4.6 Setting Forward/Reverse Run with Operation Panel ..52 4.7 Operating with Operation Panel ........54...
Page 51 4. Operation Method (Basic Operation) 4.1 Safety Precautions ・Always close the terminal cover before turning ON the inlet power. ・Do not open the terminal cover while the power is ON. Failure to do so may result in an electric shock or fire. ・Do not operate the switches or dials with wet hands.
Page 52: Description Of Operation Panel/Simple Panel
4. Operation Method (Basic Operation) 4.2 Description of Operation Panel/Simple Panel VF200 VF200 Operation panel Simple panel Component name Details of function For displaying output frequency, current, linear speed, set Display part frequency, communication station No., error details, each ①...
Page 53 4. Operation Method (Basic Operation) Component name Details of function RUN button A button for making inverter running STOP button A button for making inverter stopping A button for switching various modes (such as “operation status display”, “frequency setting and monitor”, “rotation MODE button direction setting”, “control state monitor”, “custom”, “function setting”...
Page 54: Operation Modes
4. Operation Method (Basic Operation) 4.3 Operation Modes ■ Functions of Operation Modes Mode Description Panel display content ①Operation status For displaying output display frequency and output current mode For digital setting of ②Frequency setting frequency and frequency mode command monitoring For rotation direction setting of panel operation and ③Rotation...
Page 55 4. Operation Method (Basic Operation) ■ Switching of Operation Modes ·Press MODE button to switch various modes in order. ·In each mode, if SET button is pressed, data monitoring or changing function will be enabled; and if MODE button is pressed, it will return to the previous display status.
Page 56 4. Operation Method (Basic Operation)
Page 57: Type Of Operation Method
4. Operation Method (Basic Operation) 4.4 Type of Operation Method There are 3 methods to operate VF200 as follows. 1. Operation panel Making inverter operation by using buttons and potentiometer on operation panel. 2. External control Making inverter operation by using control circuit terminals.
Page 58: Setting Frequency With Operation Panel
4. Operation Method (Basic Operation) 4.5 Setting Frequency with Operation Panel There are 2 modes to set frequency with operation panel as follows. ■ Potentiometer Setting Mode (Parameter P004 is set to “0”: factory setting.) Adjust the position of potentiometer dial on operation panel to make setting. MIN.
Page 59: Setting Forward/Reverse Run With Operation Panel
4. Operation Method (Basic Operation) 4.6 Setting Forward/Reverse Run with Operation Panel There are 2 modes to set forward/reverse run with operation panel as follows. ■ Forward/Reverse Run Button Operation Mode (Parameter P003 is set to “1”.) Press UP (forward run) button or DOWN (reverse run) button on the panel to select the rotation direction.
Page 60 4. Operation Method (Basic Operation) * The relationship between operation modes and “MOP function” and “Rotation direction setting content” Rotation direction Operation mode MOP function setting content Forward/Reverse Run Button Only monitoring × (unavailable) Operation Mode function is available Both monitoring and Rotation Direction Setting ○...
Page 61: Operating With Operation Panel
4. Operation Method (Basic Operation) 4.7 Operating with Operation Panel When the inverter is operated with operation panel, as shown in “4.5 Setting Frequency with Operation Panel” and “4.6 Setting Forward/Reverse Run with Operation Panel”, there are 4 combined modes by using parameters “P003: Run Command Select”...
Page 62 4. Operation Method (Basic Operation) 4.7.1 Operating with Operation Panel - 1 (Factory Setting) ·Forward/reverse run function: Rotation Direction Setting Operation Mode”(Parameter P003 = 0) ·Frequency setting: Potentiometer Setting Mode (Parameter P004 = 0) ■ Operating Example ①: Forward run operation at operating frequency of 25 Hz 1.
Page 63 4. Operation Method (Basic Operation) ■ Operating Example ②: Reverse run operation at operating frequency of 25 1. Turn on the power. The display part will be ON immediately after power-on. (Operation Status Display Mode) 2. Change rotation direction. Press button twice successively.
Page 64 4. Operation Method (Basic Operation) 4.7.2 Operating with Operation Panel - 2 ·Forward/reverse run function: Forward/Reverse Run Button Operation Mode (Parameter P003 = 1) ·Frequency setting: Potentiometer Setting Mode (Parameter P004 = 0) ■ Operating Example ①: Forward run operation at operating frequency of 25 Hz 1.
Page 65 4. Operation Method (Basic Operation) ■ Operating Example ②: Monitoring and setting potentiometer frequency command before operation 1. Turn on the power. The display part will be ON immediately after power-on. (Operation Status Display Mode) 2. Confirm and set operating frequency. Press button.
Page 66 4. Operation Method (Basic Operation) 7. Stop operation. Press button. The motor starts to decelerate till to stop.
Page 67 4. Operation Method (Basic Operation) ■ Operating Example ③: Cancelling rotation direction setting ／ To cancel the setting, press button again after using them to set the rotation direction. During forward run operation at 25 Hz 1. Set rotation direction. Press button to select reverse run.
Page 68 4. Operation Method (Basic Operation) 4.7.3 Operating with Operation Panel - 3 ·Forward/reverse run function: Rotation Direction Setting Operation Mode (Parameter P003 = 0) ·Frequency setting: Digital Setting Mode (Parameter P004 = 1) ■ Operating Example ①: Forward run operation at operating frequency of 25 Hz 1.
Page 69 4. Operation Method (Basic Operation) 4. Set operating frequency (forward run operation at operating frequency of 50 Hz). Press button.(The display part is flickering.) Press button.(The display part is flickering.) ／ button to make value “50.0 (Hz)” Press appear on the display. (The display part is flickering.) Press button to make acceleration till to 50 Hz.
Page 70 4. Operation Method (Basic Operation) 8. Switch reverse run to forward run during operation. Press button twice successively. Press button.(The display part is flickering.) Press button.(The display part is flickering.) Press button. The motor gradually decelerates and starts forward run operation at 50 Hz again. 9.
Page 71 4. Operation Method (Basic Operation) ■ Operating Example ②: Changing frequency by using ／ button during operation (MOP function) ／ Press button to change operating frequency during operation. The motor will accelerate or decelerate according to such operation. Operating frequency will rise when button is kept on pressed.
Page 72 4. Operation Method (Basic Operation) 4.7.4 Operating with Operation Panel - 4 ·Forward/reverse run function: Forward/Reverse Run Button Operation Mode (Parameter P003 = 1) ·Frequency setting: Digital Setting Mode (Parameter P004 = 1) ■ Operating Example: Forward run operation at operating frequency of 25 Hz 1.
Page 73 4. Operation Method (Basic Operation) 5. Start forward run operation at operating frequency of 50 Press button. Press button.(The display part is flickering.) ／ button to make value “50.0 (Hz)” Press appear on the display. (The display part is flickering.) Press button to set operating frequency.
Page 74 4. Operation Method (Basic Operation) 11. Stop operation. Press button. The motor starts to decelerate till to stop. ·The rotation direction cannot be set in “rotation direction setting mode (dr)”. The mode can only monitor the operation panel/external control/communication controlling rotation direction and operation status. ·The MOP function cannot be used.
Page 75 4. Operation Method (Basic Operation)
Page 76: Control Status Monitor
Control Status Monitor 5.1 List of Control Status Monitor Items......70 5.2 Introduction of Monitor No..........72...
Page 77: List Of Control Status Monitor Items
5. Control Status Monitor 5.1 List of Control Status Monitor Items The 23 items listed below can be monitored in control status monitor mode. Monitor Monitor item Unit Indication n001 Output frequency Output frequency n002 Output current Output current n003 Output voltage Output voltage n004...
Page 78 Abnormality display 4 (fourth n023 Details of abnormality from fourth to latest － to latest) n024 Unit version * Firmware version of VF200 unit － n025 Panel version * Firmware version of operation panel － n026 Detection value for pulse input signal...
Page 79: Introduction Of Monitor No
5. Control Status Monitor 5.2 Introduction of Monitor No. n001 Output frequency For displaying output frequency of inverter. When the inverter is stopped, “0.0” is displayed. n002 Output Current n003 Output Voltage Internal DC Voltage n004 For displaying output current, output voltage and internal DC voltage of inverter. The indications are just reference values instead of accurate values for precision measurement.
Page 80 5. Control Status Monitor n008 Alarm Type For displaying different alarm LED contents. Alarm type Indication Normal Abnormal output voltage alarm Overload alarm Abnormal temperature alarm Abnormal cooling fan alarm Timer stop signal Note) 1. When “Alarm LED Operation Select” (parameter P147) is set to “1”. When various alarms occur simultaneously, the display priority is as follows.
Page 81 5. Control Status Monitor n009 Control Circuit Terminal Status (Input Signal) Control Circuit Terminal Status (Output Signal) n010 For displaying various status of input and output signals of control circuit terminals. When input terminals (② to ⑧) and common terminal (① or ⑨) are turned ON, segment a1 to g1 light up;...
Page 82 5. Control Status Monitor n011 Operation Status Monitor For displaying operation status of inverter. Each LED segment lights up and out depending on details shown in the following table. Normally, segment i to I light up. LED segment indication Monitor Operation status Details of lighting up Details of lighting out...
Page 83 5. Control Status Monitor n012 Operation Control Status Monitor For displaying operation control status of inverter. Each LED segment lights up and out depending on details shown in the following table. Normally, segment i to I light up. When command status is "Timer in Operation" and parameter P45 (Multi-speed Function Setting) is set to “3”...
Page 84 5. Control Status Monitor n013 Terminal Function Status Monitor For displaying function status of control circuit terminals. Each LED segment lights up and out depending on details shown in the following table. Normally, segment i to l light up. LED segment indication Monitor Command status 1: with command...
Page 85 5. Control Status Monitor n014 PID Setting Value (SP) PID Measured Value (PV) n015 PID Output Value (MV) n016 For displaying setting value (SP), measured value (PV) and output value (MV) under PID control. The unit is “%”. n017 Progress of Automatic Tuning For showing progress of automatic tuning when automatic tuning is set with “P106: PID Control Mode”.
Page 86 5. Control Status Monitor n020 Abnormality Display 1 (Latest) n021 Abnormality Display 2 (Second to Latest) Abnormality Display 3 (Third to Latest) n022 Abnormality Display 4 (Fourth to latest) n023 For showing abnormality information of inverter (latest, second to latest, third to latest and fourth to latest).
Page 87 Unit Version Panel Version n025 ·They show the firmware versions of VF200 unit and operation panel. ·The model code and version code are shown as follows. About the version of VF200 unit and operation panel ·Operation status display varies depending on the combination of firmware version of VF200 unit and operation panel.
Page 88: Function Parameters
Function Parameters 6.1 Setting and Changing Function Parameters ....8/ 6.2 Function Parameter List ..........83...
Page 89: Setting And Changing Function Parameters
6. Function Parameters 6.1 Setting and Changing Function Parameters Parameters can be set and monitored in Custom Mode and Function Setting Mode. Be sure to change and set various function parameters in stop status. And note that some function parameters can be changed during operation. 6.1.1 Setting and Changing Function Parameters in Stop Status Setting Example...
Page 90 6. Function Parameters 8. Press button to enter “operation ready” status. That’s to say, the inverter is in normal stop status and can be operated if required. (Operation Status Display Mode) • If data is written into the built-in non-volatile memory of inverter when setting and changing operation, it can be stored even if the power is cut off.
Page 91 6. Function Parameters 6.1.2 Setting and Changing Function Parameters During Operation If data is changed during operation, the motor and motor load may suddenly start/stop for the great fluctuation. (Please take measures to ensure personal safety.) Failure to do so may result in injury. For function parameters that can be changed during operation, refer to items marked with “...
Page 92 6. Function Parameters n i l 1. Press button to set the value. 2. Press button. (If the built-in memory setting mode is set to “conceal”, the inverter enters Operation Status Display Mode.) 3. Press button to switch to Operation Status Display Mode.
Page 93: Function Parameter List
6. Function Parameters 6.2 Function Parameter List Function parameter list of inverter VF200 is as follows. Changeable Reference Function name during Setting range Unit Initial value page operation P.140 P001 The 1 Acceleration Time 0000,0.1 to 3600 P.141 P002 The 1 Deceleration Time 0000,0.1 to 3600...
Page 94 6. Function Parameters Changeable Reference Function name during Setting range Unit Initial value page operation Ride-through Restart 0 to 3 P.165 P025 － Select P.167 P026 Waiting Time 0.1 to 100.0 P.167 P027 Reverse Run Lock 0·1 － P.167 P028 Stop Mode 0·1 －...
Page 95 6. Function Parameters Changeable Reference Function name during Setting range Unit Initial value page operation 0000,0.5 to 400.0 Hz 15.0 P.204 P049 The 5 Speed Frequency 0000,0.5 to 400.0 Hz 17.5 P.204 P050 The 6 Speed Frequency 0000,0.5 to 400.0 Hz 20.0 P.204 P051 The 7...
Page 96 6. Function Parameters Changeable Reference Function name during Setting range Unit Initial value page operation 0000 P.208 P072 The 2 Speed Runtime 0000·0.1 to 6553 sec 0000 P.208 P073 The 3 Speed Runtime 0000·0.1 to 6553 sec 0000 P.208 P074 The 4 Speed Runtime 0000·0.1 to 6553 sec P075 The 5...
Page 97 6. Function Parameters Changeable Reference Function name during Setting range Unit Initial value page operation 0.1 to 100.0 P.217 P095 Current Sensing Level Current Sensing Delay P.217 P096 0.1 to 10.0 Time Analog and PWM Output 0·1 P.217 P097 － Function Select Analog and PWM Output 25 to 100...
Page 98 6. Function Parameters Changeable Reference Function name during Setting range Unit Initial value page operation The 2 Thermal Current P.233 P119 0.1 to 100.0 Setting The 2 Change Point P.235 P120 0.5 to 400.0 Frequency 1 The 2 Change Point P.235 P121 0 to 100...
Page 99 6. Function Parameters Changeable Reference Function name during Setting range Unit Initial value page operation 1 *2 1 to 1000 msec P141 Wait-to-send Time P.254 Judging Time for TEXT 3 to 200 msec 3 *2 P.254 P142 Completion Cooling Fan ON-OFF 0 to 3 P.256 P143...
Page 100 6. Function Parameters Changeable Reference Function name Setting range Unit Initial value during page operation Waiting Time to Speed P.269 P163 0.0 to 100.0 Search Voltage Recover Time for P.269 P164 0.1 to 10.0 Speed Search Speed Search Select P165 0·1 P.270 －...
Page 101 6. Function Parameters...
Page 102: Custom Mode
Custom Mode 7.1 Allocating Parameter No..........96 7.2 Setting and Changing Parameters ......98...
Page 103: Allocating Parameter No
7. Custom Mode 7.1 Allocating Parameter No. “Custom Mode” allows selection of up to 10 function parameters changed frequently by customer, thus making data modification easier. The number “1” to “10” can be allocated as custom parameter No. The allocated data will be written into built-in non-volatile memory of inverter. Even if the power is cut off, the data will still be held.
Page 104 7. Custom Mode 6. Press button to complete allocation of parameter No. Initial settings of custom parameters No.1 to No.10 are shown in the following table. Custom parameter Function Parameter Initial Reference Function name value page The 1 Acceleration U001 P001 P.142 Time...
Page 105: Setting And Changing Parameters
7. Custom Mode 7.2 Setting and Changing Parameters The section describes the method of setting, changing and confirming function parameters allocated to custom parameter No. For function parameters that can be changed during operation, refer to items in “Changeable during Operation”...
Page 106 7. Custom Mode 6. Press button to apply the value. If data is changed during operation, the unit will start operation with the new data. ·All data, except those that can be changed during operation, can only be monitored during operation.
Page 107 7. Custom Mode...
Page 108: Setting Modes And Copy Functions Of Built-In Memory
Setting Modes and Copy Functions of Built-in Memory 8.1 Setting Modes and Copy Functions of Built-in Memory ... 102 8.2 Setting Built-in Memory Parameters......103 8.3 Parameter Upload Function (CPY1)......105 8.4 Parameter Download Function (CPY2) ....... 107 8.5 Parameter Verification Function......... 109 8.6 To Display or Conceal Built-in Memory Setting Mode ...
Page 109 8.1 Setting Modes and Copy Functions of Built-in Memory For VF200 inverter, both of its unit and operation panel are equipped with built-in memory as well as “Parameter Copy Function”. When operation panel is removed, the data inside can be copied to other inverter units.
Page 110: Setting Built-In Memory Parameters
8. Setting Modes and Copy Functions of Built-in Memory 8.2 Setting Built-in Memory Parameters The contents of built-in memory parameters “E001” to “E182” are identical to those of function parameters “P001” to “P182”. The setting value of build-in memory parameter can be changed in “Built-in Memory Setting Mode”. Setting Example Change the maximum output frequency from 50.0 Hz to 60.0 Hz (change setting value of built-in memory parameter E008 from “50.0”...
Page 111 8. Setting Modes and Copy Functions of Built-in Memory Setting values of function parameters in the unit connected with operation panel will remain unchanged even those in built-in memory are changed. The data is written into built-in non-volatile memory of operation panel during setting and changing operation, so it can be held even if the power is cut off.
Page 112: Parameter Upload Function (Cpy1)
8. Setting Modes and Copy Functions of Built-in Memory 8.3 Parameter Upload Function (CPY1) Refers to the function of uploading all function parameters in connected unit to built-in memory of operation panel. The upload operation will start after setting value “UPL” is set. How to upload function parameters 1.
Page 113 8. Setting Modes and Copy Functions of Built-in Memory The upload function cannot be used during operation. Be sure to use it in stop status. After upload completion, setting values of parameters in built-in memory are identical to those in the unit. During upload, the inverter will not start operation even if an operation signal enters.
Page 114: Parameter Download Function (Cpy2)
8. Setting Modes and Copy Functions of Built-in Memory 8.4 Parameter Download Function (CPY2) Refers to the function of changing setting values of all function parameters in the unit to those in built-in memory of connected operation panel. The download operation will start after setting value “dOL” is set. How to download parameters in built-in memory 1.
Page 115 8. Setting Modes and Copy Functions of Built-in Memory The download function cannot be used during operation. Be sure to use it in stop status. After download completion, all setting values of parameters in built-in memory are identical to those in the unit. During download, the inverter will not start operation even if an operation signal enters.
Page 116: Parameter Verification Function
8. Setting Modes and Copy Functions of Built-in Memory 8.5 Parameter Verification Function Refers to the function of making comparison and verification between setting values of function parameters in the unit and those in built-in memory of operation panel. The comparison and verification will start after setting value “VEr”...
Page 117 8. Setting Modes and Copy Functions of Built-in Memory 8. Press button.(Make displaying switched to CPY4.) 9. Press button to enter “operation ready” status. That’s to say, the inverter is in normal stop status and can be operated if required. (Operation Status Display Mode) The verification function cannot be used during operation.
Page 118: To Display Or Conceal Built-In Memory Setting Mode
8. Setting Modes and Copy Functions of Built-in Memory 8.6 To Display or Conceal Built-in Memory Setting Mode For determining whether to display built-in memory setting mode or not. When copy function is unused, make setting to “conceal” for simplified operation. To display built-in memory setting mode, change the setting value to “E2P”;...
Page 119 8. Setting Mode and Copy Function of Built-in Memory...
Page 120: Troubleshooting
Troubleshooting 9.1 Safety Precautions............. 114 9.2 Abnormality Diagnostic Function and Resetting Method ... 114 9.3 Handling Abnormalities..........118...
Page 121 9. Troubleshooting 9.1 Safety Precautions Wait at least five minutes after turning off the input power before starting maintenance and inspection work. Failure to do so may result in an electric shock. Maintenance, inspection and part replacement work must be done only by qualified persons. (Remove metal articles such as watch, bracelet(s) etc.
Page 122 9. Troubleshooting Indication Details and causes of abnormality Remedies • Check output for open phase and • Overcurrent during acceleration remove sharp variations at load side. • Overcurrent at constant speed • Extend acceleration/deceleration time (parameters P001, P002 and P061 to P066). •...
Page 123 • Check if the operation panel is Er1 * unit and the operation panel failed connected properly to the unit. • VF200 unit firmware version>Operation • Check the firmware version. panel firmware version The details of abnormality corresponding to “Er1” are not displayed in monitor...
Page 124 9. Troubleshooting 9.2.2 Resetting Fault Trips If the abnormality indicator in the display part of operation panel lights up and operation is stopped, please handle the abnormality before resetting operation. Reset by The reset can be made by cutting off the power once. power (The inverter can operate when powered on again.) 1 For the operation in panel setting mode (parameter P003 is set to “0”...
Page 125: Handling Abnormalities
9. Troubleshooting 9.3 Handling Abnormalities 9.3.1 The motor does not rotate. (When abnormality indicator lights out.) 9.3.2 The motor does not rotate. (When abnormality indicator lights up.) When abnormality indicators of P.114 to P.116 light up but the motor does not rotate, please check out the following two items.
Page 126 9. Troubleshooting 9.3.3 Breaker Trip 9.3.4 Motor Overheating 9.3.5 Communication Failed...
Page 127 9. Troubleshooting...
Page 128: Maintenance And Inspection
Maintenance and Inspection 10.1 Safety Precautions ............122 10.2 Precautions on Inspection.........122 10.3 Inspection Items ............122 10.4 Component Replacement .........124 10.5 Maintenance and Inspection Table......125...
Page 129 10. Maintenance and Inspection 10.1 Safety Precautions Wait at least five minutes after turning off the input power before starting maintenance and inspection work. Failure to do so may result in an electric shock. Maintenance, inspection and part replacement work must be done only by qualified persons.
Page 130 10. Maintenance and Inspection A multimeter is normally used to check input and output voltage of inverter during operation. 2. Periodic inspection: To check all locations where inspection can be performed only when the inverter is stopped and where periodic inspection is required.
Page 131: Component Replacement
10. Maintenance and Inspection 10.4 Component Replacement Wear-out faults are related to endurance period and service life. The endurance period largely depends on the working conditions. 1. For example, service life of relay is determined by roughness of contact surface. Contact current and load inductance are major factors affecting its service life.
Page 132: Maintenance And Inspection Table
10. Maintenance and Inspection 10.5 Maintenance and Inspection Table Note) Symbols used in “Inspection interval” are with different meanings: ✩ for for “yearly” and ◎ for “every two years”. “daily”, Inspection Inspection Inspection Inspection Judgment Instrument item details interval method criteria Check the Ambient...
Page 133 10. Maintenance and Inspection Inspection Inspection Inspection Inspection Judgment Instrument item details interval method criteria Check if there is In normal ✩ Transformer Just smell. burning smell. status Terminal Check if there is In normal Check visually. block sign of damage. status Check the Disconnect the...
Page 134 10. Maintenance and Inspection Inspection Inspection Inspection Inspection Judgment Instrument item details interval method criteria 1) Check the 1) Line balance output condition of balance is output 4 V max. 1) Measure the voltage (8 V max. voltage between between each for 400 V output terminals;...
Page 135 10. Maintenance and Inspection Inspection Inspection Inspection Inspection Judgment Instrument item details interval method criteria Check if the In normal ✩ Display unit indicator Check visually. status malfunctions. Within Check if the Check the specifications Voltmeter ✩ indication is Meter indication.
Page 136: Specifications
Specifications 11.1 Rated Specifications ..........130 11.2 Standard Specifications ..........132 11.3 Common Specifications ..........133...
Page 137: Rated Specifications
11. Specifications 11.1 Rated Specifications • 1-phase 200 V Input Type Applicable Rated output Rated output Power supply Model motor output current capacity (kVA) capacity Mass (kg) (kW) Note 2) (kVA) Note 3) AVF200-0022 AVF200-0042 AVF200-0072 0.75 Note 4) AVF200-0152 1.5 Note 4) AVF200-0222 10.0...
Page 138 11. Specifications Note 1) Rated output current of 3.7 kW+ inverters varies with the set carrier frequency. Derate the output current as shown in the following figure. •3.7 kW to 11 kW Type •15 kW Type Note 2) Rated output capacity: refers to the value at output voltage of 230 VAC for 1-phase 200 V type and the value at output voltage of 460 VAC for 3-phase 400 V type.
Page 139: Standard Specifications
11. Specifications 11.2 Standard Specifications • 1-phase 200 V Input Type Items Specifications Standard output of applicable 0.2 to 2.2 kW motor (kW) 3-phase, 200 to 230 VAC (proportional to power supply Rated voltage Rated voltage) output Overload current rating 150% of rated output current for 1 minute Number of phases, 1-phase, 200 to 230 VAC, 50/60 Hz...
Page 140: Common Specifications
11. Specifications 11.3 Common Specifications Items Specifications Frequency range 0.5 to 400 Hz Digital display Frequency display Analog setting: within ±0.5% of maximum setting Output frequency (25°C±10°C) Frequency Frequency accuracy Digital setting: within ±0.01% of maximum setting frequency (-10°C to +50°C) Digital setting: 0.1 Hz Frequency resolution Analog setting: 0.1 Hz (in 50/60 Hz mode)
Page 141 11. Specifications Items Specifications Ride-through restart 0 Hz restart/operation frequency restart/speed search restart (switchable) select Speed search during startup (optional) Speed search Operation Retry select: validity of function, details of retry Retry function faults Retry times: adjustable from 1 to 10 times Panel setting (operation panel): potentiometer and digital setting Analog setting signal input from external control ：...
Page 142 11. Specifications Items Specifications • Multi-speed operation: up to 16 speed settings (No limitation to frequency setting) • Timer operation: up to 8 speed settings (No Multi-speed frequency limitation to frequency setting) setting • Pulse input operation: up to 8 speed settings (No limitation to frequency setting) It can be linked with acceleration/ deceleration time.
Page 143 11. Specifications Items Specifications • 200 V 0.2 kW: 100% or higher; 0.4 kW: 80% or higher Regenerative braking torque 0.75 to 2.2 kW: 20% or higher • 400 V 0.75 to 15 kW: 20% or higher Braking Operate at the frequency below stop frequency •...
Page 144 11. Specifications Items Specifications Specific symbol is indicated when the protection Details of abnormality function is activated (the latest four abnormalities are stored.) Current limit can be set within 1 to 200% of rated Current limit output current. Instantaneous overcurrent (SC1-6) and abnormal temperature (OH) Protection Overcurrent (OC1-3), overload and electronic...
Page 145 11. Specifications...
Page 146: Appendix
Appendix Function Parameter List...
Page 147 Appendix Function Parameter List P001 The 1 Acceleration Time The time to accelerate from 0.5 Hz to the maximum output frequency can be set. Data setting range (s) 0.04·0.1 to 3600 0.1(0.1 to 999.9), Increment (s) 1(1000 to 3600) ・The display code for “0.04 s” is “0000”. ・The maximum output frequency can be set with parameter P005 and P008.
Page 148 Appendix Function Parameter List P002 The 1 Deceleration Time The time to decelerate from the maximum output frequency to 0.5 Hz can be set. Data setting range (s) 0.04·0.1 to 3600 0.1 (0.1 to 999.9), Increment (s) 1 (1000 to 3600) ・The display code for "0.04 s”...
Page 149 Appendix Function Parameter List P003 Run Command Select Run/stop and forward/reverse run can be selected with operation panel, signal input from external control device or communication commands. Panel Setting Command Operation method and control circuit terminal reset value status connection diagram function Start: RUN, Stop: STOP ○...
Page 150 Appendix Function Parameter List ■ 3-wire run/stop command Please assign “3-wire stop command” to any input terminal of SW1 to SW5. The following connection example indicates the situation that “3-wire stop command” is assigned to input terminal SW1. Setting Command Panel reset Operation method and control circuit terminal value...
Page 151 Appendix Function Parameter List P004 Frequency Setting Signal The frequency setting signal can be selected with operation panel, signal input from external devices or communication command. Setting Command Details of signal Operation method and control circuit terminal value status setting connection diagram Potentiometer on the panel MAX: maximum frequency (refer to P005 and...
Page 152 Appendix Function Parameter List inverter will run or stop as defined by the setting value of “P101: 0 V Stop Function Select”. If 0 V stop function is set to invalid, parameter P101 should be set to “0000”. Related paremeters: P005, P008, P101 to P104...
Page 153 Appendix Function Parameter List ■ Operation when P004 is set to “8” · The basic operation is the same as the operation when P004 is set to “0”, but the operation will continue instead of triggering OP trip even if the operation panel is removed.
Page 154 Appendix Function Parameter List P005 V/F Mode V/F mode of “50· 60 Hz” and “0.5 to 400 Hz” can be set separately within the maximum output frequency band (50 to 400 Hz). Setting Name Details value V/F mode of 50 Hz is set regardless of parameter P008 and P009 50 Hz mode setting.
Page 155 Appendix Function Parameter List If 3-point V/F mode is used, please set each parameter according to the following relation diagram. (Also apply to the 2 characteristic)
Page 156 Appendix Function Parameter List ■ 3-point mode 1 ■ 3-point mode 2 ■ 3-point mode 3 Output frequency(Hz) Output frequency(Hz) Output frequency(Hz) ■ 3-point mode 4 ■ 3-point mode 5 ■ 3-point mode 6 Output frequency(Hz) Output frequency(Hz) Output frequency(Hz) ·...
Page 157 Appendix Function Parameter List P006 V/F Curve Constant or square torque mode can be selected. Setting Name Remarks value Constant torque For machine mode applications, etc. Square torque For fan and pump mode applications, etc. If “P005: V/F Mode” is set to 3-point mode, 3C1 to 3C6，V/F curve will ·...
Page 158: Torque Boost
Appendix Function Parameter List P007 Torque Boost ● Torque boost level corresponding to load characteristics can be set. The larger the setting value is, the higher output voltage and torque boost will ・After the mode is set to “auto torque boost”, the output voltage will change automatically according to the load fluctuation.
Page 159 Appendix Function Parameter List automatically by “P132: Motor Constant Measuring Function”. ・Overcurrent trip may occur if the value of voltage compensation constant is too large. ・The torque may be insufficient at lower speed if the value of voltage compensation contant is too small. ・The change from manual torqe boost to auto torque boost or vice versa cannot be made during operation.
Page 160 Appendix Function Parameter List P008 Max. Output Frequency Base Frequency P009 Maximum output frequency and base frequency can be set. (Parameter P005 is valid only when “FF” or “3C” is set.) ■ Parameter P008: Max. Output Frequency Data setting range 50.0 to 400.0 (Hz) ■...
Page 161 Appendix Function Parameter List P010 Change Point Frequency 1 P012 Change Point Frequency 2 Change Point Voltage 1 Change Point Voltage 2 P011 P013 Change point 1 and 2 can be selected in 3-point mode of “P005: V/F Mode”. (It is valid only when parameter P005 is set to “3C”.) ■...
Page 162 Appendix Function Parameter List P014 Max. Output Voltage Maximum output voltage can be set. Data setting 1 to 500 range (V) *When the data is set to “0”, power voltage value will be output. ・A voltage exceeding power supply rating cannot be output. ・This setting has no connection with DC brake level.
Page 163 Appendix Function Parameter List P015 S-shaped Acceleration/Deceleration Mode The acceleration/deceleration mode can be switched between linear and S-shaped (quadratic and cubic) pattern. Setting value Details Linear acceleration/deceleration (Factory setting) S-shaped acceleration/deceleration (Quadratic curve) S-shaped acceleration/deceleration (Cubic curve) ・The acceleration/deceleration time remains the same regardless of the acceleration/deceleration mode (linear or s-shaped acceleration/deceleration).
Page 164 Appendix Function Parameter List P016 Electronic Thermal Select Thermal Current Setting P017 Electronic thermal operation level can be set when motor overload is detected and the inverter output needs to be stopped. Operation coasts to stop when OL is displayed. ■...
Page 165 Appendix Function Parameter List P018 Overcurrent Stall Prevention Function ・Overcurrent stall prevention function: During acceleration/deceleration, if acceleration/deceleration time is too short for the inertial load and the output current exceeds OCS level, the parameter serves to extend acceleration/deceleration time. ・Overcurrent trip prevention function: If overcurrent occurs in the inverter during operation, output will be temporarily stopped and started again when the current drops to normal level.
Page 166 Appendix Function Parameter List ・Overcurrent trip prevention function is activated regardless of setting of parameter “P018: Overcurrent Stall Prevention Function” after parameter “P020: Current Limit Function” is set. Related parameter: P021 P019 Overvoltage Stall Prevention Function During deceleration, when the deceleration time is too short for the inertial load, this parameter can be used to temporarily retard deleceration, thus preventing overvoltage trip.
Page 167 Appendix Function Parameter List P020 Current Limit Function If the output current reaches the overcurrent stall level (OCS level) during overload operation, the frequency will be automatically reduced. When the load recovers to normal level, the frequency will be automatically restored to the original setting and the operation will continue.
Page 168 Appendix Function Parameter List P021 OCS Level The OCS level (overcurrent stall prevention operation level) and current limit function level can be set with a ratio (%) to the rated current of inverter. Data setting range (%) 1 to 200 ・The factory setting of OCS level is 140％...
Page 169: Retry Function
Appendix Function Parameter List P022 Retry Function Retry Count P023 The retry function can automatically reset the fault and restart (run) operation after waiting time has elapsed when an inverter fault trip occurs. Please use this function to continue the operation. When the retry function is used, the unit may automatically start (restart) suddenly, so do not approach the unit.
Page 170 Appendix Function Parameter List ・The retry interval is set with parameter “P026: Waiting Time”. ・ Fault alarm is not output during retry operation. But when the fault still occurs even if retry is performed for preset times, the fault alarm will be output.
Page 171 Appendix Function Parameter List ・The factory setting is "1" (OP stop). ・If the value is set to “0”, operation will start immediately after the power is turned ON. ・If the value is set to "2", operation will start when the power is turned ON and after the waiting time has elapsed.
Page 172 Appendix Function Parameter List P025 Ride-through Restart Select The restart pattern after constant power failture or instantaneous power supply can be selected according to the load status and system configuration. A waiting timer function is built-in. The inverter may suddenly start (restart) if the power is restored after a power failure with the setting of ride-through restart, so do not approach the unit.
Page 173 Appendix Function Parameter List (approx. 1 min.), the inverter may sometimes restart after the power is restored. Therefore, inverter, motor and load equipments should be restarted after the power is restored for more than 4 minutes (waiting time + 2 minutes). ・Waiting time can be set with parameter P026.
Page 174 Appendix Function Parameter List P026 Waiting Time Waiting time required by the start mode, the ride-through restart and retry function can be set. Data setting range (s) 0.1 to 100.0 Related parameters: P022 to P025 P027 Reverse Run Lock When used only in forward run mode, reverse run can be disabled to avoid possible mishandling.
Page 175 Appendix Function Parameter List P029 Start Frequency The frequency at which the inverter output starts can be set during inverter start-up. Data setting range 0.5 to 60.0 (Hz) ・Please note that overcurrent may occur depending on setting values and load status if the data is changed during operation. P030 Stop Frequency The frequency at which the inverter output stops can be set when the inverter ramps...
Page 176 Appendix Function Parameter List P031 DC Brake Time DC Brake Level P032 DC brake can be applied when the inverter output frequency drops below “P030: Stop Frequency” during ramp-to-stop. In addition, positioning control can be performed combining with JOG operation. ■...
Page 177 Appendix Function Parameter List P033 Stop Frequency during Forward/Reverse Run Operation DC Brake Time during Forward/Reverse Run Operation P034 DC Brake Level during Rorward/Reverse Run Operation P035 DC brake can be applied when the inverter output frequency drops below “P033: Stop Frequency during Forward/Reverse Run Operation” during forward/reverse run operation.
Page 178 Appendix Function Parameter List when DC brake is applied during forward/reverse run operation.(It's valid when P034 is set to a value other than “0000”.) ・To stop the inverter, DC brake can be set with parameter “P030: Stop Frequency”, “P031: DC Brake Time” and “P032: DC Brake Level”.
Page 179 Appendix Function Parameter List P036 SW1 Function Select P037 SW2 Function Select SW3 Function Select P038 SW4 Function Select P039 SW5 Function Select P040 Control function of SW1, 2, 3, 4, 5 (control circuit terminal No. 4, 5, 6, 7, 8) can be set.
Page 180 Appendix Function Parameter List Pulse Frequency —— counter —— —— ▲／▼ input setting Speed Speed Speed Speed Speed search search search search search Temporary Temporary Temporary Temporary Temporary Setting stopping of stopping of stopping of stopping of stopping of value winding winding winding...
Page 181 Appendix Function Parameter List ■ Multi-speed SW Function SW function is set so that it is used as multi-speed function. Multi-speed function select is set with parameter P045. ・When all SWs are set to multi-speed function and 16-speed operation is performed, the four SWs with lower No.
Page 182 Appendix Function Parameter List ■ Reset Lock Function When a fault trip occurs, clearing of fault trip status with stop signal is disabled to perform reset operation with SW signal after identifying the details of fault trip and eliminating the abnormality. ・Normally, SW signal is input with ON status.
Page 183 Appendix Function Parameter List ■JOG Function Micro operations such as position adjustment can be performed with external control signals. Signal input terminals for controlling micro operation from external devices can be set with parameter P036 to P040. But Run Command Select (parameter P003) should be set through external control.
Page 184 Appendix Function Parameter List ■External Fault Stop Function Signal input terminal for applying fault stop (emergency stop) to the inverter through external devices can be set. ・The inverter will stop output immediately after the external fault stop input (setting value = 4) turns SW signal ON and “AU” is displayed. ・...
Page 185 Appendix Function Parameter List ■ Coast-to-stop Function The signal input terminal for applying coast-to-stop through external control can be set. ・During operation, the inverter will stop output immediately after signal input is turned ON and “0.0” is displayed. (without fault indication and fault alarm output) ・The inverter will run immediately after signal input is turned OFF and run signal is turned ON.
Page 186 Appendix Function Parameter List ■ Frequency Signal Switching Function Signal input terminal for switching frequency setting command from “The 1 Frequency Setting Signal (command set with parameter P004)” to “The 2 Frequency Setting Signal (command set with parameter P125)” can be set. This function is valid when parameter “P124: The 2 Analog Input Function Select”...
Page 187 Appendix Function Parameter List ■ The 2 Characteristics Select Input When SW signal is ON, the inverter will run according to the 2 Characteristics Function settings as follows. Switching button OFF Switch button ON P001: The 1 Acceleration Time P061: The 2 Acceleration Time P002: The 1 Deceleration Time...
Page 188 Appendix Function Parameter List ■PID Control Switching Function Signal input terminal for cancelling PID control through external control can be set. When the signal input is turned ON, the inverter switches from “PID control” to the the command set with parameter P004. The function is valid when parameter “P124: The 2 Analog Input Function Select”...
Page 189 Appendix Function Parameter List ■ 3-wire Stop Command Function Signal input terminal for executing 3-wire stop command can be set. When “3-wire stop signal” is ON, “run signal” or “forward/reverse run operation” can be held automatically. Also, switching to OFF will cancel the holding status.
Page 190 Appendix Function Parameter List ■ Frequency Setting Function When frequency and parameter P040 are set to “digital setting with operation panel (P004 = 1)” and “11” respectively, SW3 and SW4 can be used to change frequency while SW5 to save this frequency. ・It is forced to be used as function input terminal of “SW3: frequency increase SW”, “SW4: frequency decrease SW”...
Page 191 Appendix Function Parameter List ・ON/OFF status of each SW can be set to “contact A input” or “contact B input” with parameter “P041: Input Logic Setting”. When using each SW function, please note the setting of parameter P041. ・When parameter “P154: MOP Function Select” is set to “1”, the acceleration/deceleration time set with parameter “P155: Accelertion/Deceleration Time for MOP Operation”...
Page 192 Appendix Function Parameter List ■ Speed Search Function ・The inverter will apply minor DC voltage to the motor, detect its rotation speed and restart it at this frequency when the motor rotates freely due to inertia, which is the so-called “speed search fuction”. ・There are 3 methods to start speed search.
Page 193 Appendix Function Parameter List ・The sensing function may fail if the speed search is performed for the motor with capacity smaller than the inverter. ・“CAL” will be displayed on the operation panel during speed search. During the displaying, there is minor DC voltage applied on the motor externally.
Page 194 Appendix Function Parameter List ■ Winding Mode Control Function · Winding mode control fuction will operate at the triangular-wave-shaped frequency as shown in the following graph. · When parameter “P169: Coiling Mode Control Select” is set to “1” or “2”, winding mode control function will start after run comm and is turned ON.
Page 195 Appendix Function Parameter List If the following functions start together with winding mode control function, such function will take precedence. And what’s more, winding mode control will not start when the following functions operate. Trial operation function · Automatic tuning function ·...
Page 196 Appendix Function Parameter List P041 Input Logic Setting Input signals can be detected by selecting “A contact input” or “B contact input”. ■ Setting value ・Contact A input = “0” : When SW (button) signal is OFF (terminal level is “L”), ON will be detected.
Page 197 Appendix Function Parameter List P042 JOG Frequency JOG Acceleration Time P043 JOG Deceleration Time P044 Operating frequency and acceleration/deceleration time during JOG operation can be set. ■ Parameter P042: JOG Frequency Data setting range 0.5 to 400.0 (Hz) ■ Parameter P043: JOG Acceleration Time Data setting range (s) 0.04·...
Page 198 Appendix Function Parameter List P045 Multi-speed Function Select When SW1 to SW5 (control circuit terminal No.4 to No.8) are set as multi speed function with parameter P036 to P040 and SW2 (control circuit terminal No.5) is set as pulse counter input function with parameter P037, each control function can be set through the parameter.
Page 199 Appendix Function Parameter List ■ Setting value = “1”: multi-speed frequency operation Up to 16 steps can be set by SW in multi-speed frequency operation. Acceleration/deceleration time is fixed to “the 1 Acceleration/Deceleration Time” (parameter P001, P002). When functions of SW1 to SW5 are all set to “0” (multi-speed SW input function), 4 SWs (starting from the one with the smallest No.) can be valid as multi-speed command SW.
Page 200 Appendix Function Parameter List Acceleration/ The 2 Multi-speed frequency deceleration linked with acceleration/ operation multi-speed frequency deceleration function operation (Note (Note (Note (Note P045 = 0 P045 = 1 P045 = 2 Acceleration/ Acceleration/ Acceleration/ Frequency deceleration Frequency deceleration Frequency deceleration time time...
Page 201 Appendix Function Parameter List ■ Setting value = “1”: Example of multi-speed frequency operation function Up to sixteen levels of frequency can be selected, switched and controlled by 4 button signals. (The 1 speed: setting signal of P004, the 2 to 16 speed: setting frequency of P046 to P060)
Page 202 Appendix Function Parameter List ■Setting value = “2”: Example of the 2 and 4 acceleration/deceleration operation function Four groups of acceleration/deceleration times can be selected, switched and controlled with two SW signals. (The 1 acceleration/deceleration time: P001 and P002, the 2 to 4 acceleration/deceleration time: P061 to P066) ・Set any two buttons of SW1 to SW5 to multi-speed function buttons.
Page 203 Appendix Function Parameter List ■ Setting value = “3”: Example of acceleration/deceleration linked with multi-speed frequency operation The 2 and 4 speed can be linked (combined) with the 2 and 4 acceleration/deceleration by using two SW signals. ・Set any 2 buttons of SW1 to SW5 to multi-speed function buttons.(When setting of P036 to P040 is “0”) ・The 1 speed is command value of frequency setting signal set with...
Page 204 Appendix Function Parameter List Multi-speed frequency operation by timer (setting value = “3”) Acceleration/deceleration linked with multi-speed frequency operation by timer (setting value = “4”) ■ Setting value = “3”: multi-speed frequency operation by timer During multi-speed frequency operation using timer, the acceleration/deceleration time can be fixed to 8 steps.
Page 205 Appendix Function Parameter List ■ Setting value = “4”: aceleration/deceleration linked with multi-speed frequency operation using timer Up to 8 steps of speeds and 4 acceleration/deceleration times can be linked to perform mullt-speed operation using timer. Aceleration/deceleration linked with Multi-speed frequency operation by timer multi-speed frequency operation by timer P045 = 3 P045 = 4...
Page 206 Appendix Function Parameter List ■ Example: mode for one cycle of timer operation After the timer runs one cycle for times set with parameter “P068: Continuous Operation Times of Timer”, “tEnd” will be displayed. Then the timer will return to “0000” (operation status mode) after stop command is input with “tEnd” displayed.
Page 207 Appendix Function Parameter List Multi-speed frequency operation using pulse input (setting value = “5”) Acceleration/deceleration linked with multi-speed frequency operation using pulse input (setting value = “6”) ■ Setting value = “5”: multi-speed frequency operation using pulse input The acceleration/deceleration time can be fixed to 8 steps at most by using SW2 to input pulses to perform multi-speed frequency operation.
Page 208 Appendix Function Parameter List...
Page 209 Appendix Function Parameter List Acceleration/deceleration linked with Multi-speed frequency operation using pulse multi-speed frequency operation using pulse input input P045 = 5 P045 = 6 Rotation Acceleratio Rotation Acceleration direction direction Frequency Runtime Frequency Runtime (selected deceleratio (selected deceleration bit) n time bit) time...
Page 210 Appendix Function Parameter List ■ Example: Mode for one cycle of pulse input operation Setting value * Setting value of “P069: Continuous Operation Mode of Timer” is “0”. Setting value of “P067: Rotation Direction of Timer Operation” is “14”. After the timer runs one cycle for times set with parameter “P068: Continuous Operation Times of Timer”, “tEnd”...
Page 211 Appendix Function Parameter List P046 P051 P056 The 2 Speed Frequency The 7 Speed Frequency The 12 Speed Frequency The 3 Speed Frequency The 8 Speed Frequency The 13 Speed Frequency P047 P052 P057 The 4 Speed Frequency The 9 Speed Frequency The 14 Speed Frequency...
Page 212 Appendix Function Parameter List P067 Rotation Direction of Timer Operation Rotation direction at each level from the 1 to 8 speed can be set in “P045: Multi Speed Function Select” when setting value is “3 to 6”. “0” and “1” indicate forward run and reverse run respectively, while the 1 to 8 speed indicate different levels.
Page 213 Appendix Function Parameter List P068 Continuous Operation Times of Timer Continuous operation times of timer in one cycle can be set by using the 1 speed operation as “timer operation cycle” when the setting is “3” to “6” in “P045: Multi Speed Function Select”. Data setting range 0000·1 to 9999 (times)
Page 214 Appendix Function Parameter List ■ Parameter P069: Continuous Operation Mode of Timer Setting value Details After one cycle of operation, the operation returns to the 0 V stop status within the 1 deceleration time and enters the next cycle. After one cycle of operation, the operating frequency will change to the 1 speed frequency of the next cycle within the 1 deceleration...
Page 215 Appendix Function Parameter List P071 P075 The 1 Speed Runtime The 5 Speed Runtime The 2 Speed Runtime The 6 Speed Runtime P072 P076 The 3 Speed Runtime The 7 Speed Runtime P073 P077 The 4 Speed Runtime The 8 Speed Runtime P074 P078...
Page 216 Appendix Function Parameter List P079 P083 The 1 Speed Pulse Input Times The 5 Speed Pulse Input Times P084 P080 The 2 Speed Pulse Input Times The 6 Speed Pulse Input Times The 3 Speed Pulse Input Times The 7 Speed Pulse Input Times P085 P081...
Page 217 Appendix Function Parameter List P087 PWM/Pulse Input Frequency Signal Select PWM/Pulse Input signal from PLC etc. can be used to control the operating frequency. (However, the allowable PWM signal cycle ranges from 0.9 ms to 1100 ms.) Setting value Details *When PWM/Pulse Input frequency signal is selected, functions of SW4 (terminal No.7) PWM frequency signal...
Page 218 Appendix Function Parameter List P088 PWM Signal Average Times The inverter measures and calculates ON time and OFF time of each PWM cycle used as frequency command. When using this parameter, the times of each PWM cycle command should be averaged, and then the average operation times are set as final output frequency.
Page 219 Appendix Function Parameter List P090 Output TR1 Function Select Output TR2 Function Select P091 Functions of open-collector output 1 (control circuit terminal No.10 to No.12) and open-collector output 2 (control circuit terminal No.11 to No.12) can be set. ON conditions for open-collector TR1P090 TR2P091 Function output...
Page 220 Appendix Function Parameter List When speed search starts, the Speed search open-collector output is ON; when operation signal the speed search completes, the Setting open-collector output is OFF. value PWM signals in proportion to output Output status frequency or output current will be signal output.
Page 221 Appendix Function Parameter List P092 Output RY Function Select Functions of relay output (control circuit terminal A, B and C) can be set. ・Energizing in ON status: The relay is turned ON when the coil is energized. (Signal ON status = ON between terminals A and C, OFF between terminals B and C) ・Non-energizing in ON status: the relay is turned ON when the coil is not energized.
Page 222 Appendix Function Parameter List When one cycle of timer After one cycle of operation completes (output is timer operation available only during waiting time). Timer operation When timer operation completes completed (with “tEnd” displayed). Output is available with alarm Alarm LED flickering.
Page 223 Appendix Function Parameter List P093 Sensing Frequency［Output TR］ Sensing Frequency［Output RY］ P094 Open-collector 1, 2 and relay output can be used to set the frequency sensed when outputting frequency sensing signals. ■ Parameter P093: Sensing Frequency [Output TR] Data setting range 0000·0.5 to 400.0 (Hz) ・It is valid in open-collector output 1 and 2.
Page 224 Appendix Function Parameter List P095 Current Sensing Level Current Sensing Delay Time P096 Open-collector 1, 2 and relay output can be used to set current sensing level and delay time when current sensing signal is output. ■ Parameter P095: Current Sensing Level Data setting range (A) 0.1 to 100.0 ■...
Page 225 Appendix Function Parameter List ■ The relationship between 0 to 10 V voltage signal and output frequency/output current ■ The relationship between PWM output signal and output frequency/output current ■ Precautions on 0 to 10 V voltage output and output status signal (PWM) Such output signal is not for precise measurement purpose, so use it just as ·...
Page 226 Appendix Function Parameter List P098 Analog and PWM Output Voltage Compensation “0 to 10 V voltage signal” and “output status signal (PWM)” can be compensated. Data setting range (%) 25 to 100 (increment = 1%) ■ Adjustment range (full-scale) ・Analog output voltage signal:3.75 to 10 (V) ・PWM signal :56.3 to 75 (%) Related parameters: P090, P097...
Page 227 Appendix Function Parameter List P101 0 V Stop Function Select When the frequency setting signal is lower than than setting value, the inverter output can be stopped by using 0 V stop function. Data setting range 0000·0.5 to 400.0 (Hz) ・Setting value “0000”...
Page 228 Appendix Function Parameter List ・When frequency setting signal is set with digitial or communication method, the inverter will not perform 0 V stop. ・If frequency setting signal is lower than 1/100 (1%) of full scale, the command value will become 0 Hz. Related parameters: P004, P099, P125 P102 Bias/Gain Function Select...
Page 229 Appendix Function Parameter List ■ When bias frequency is set to “positive” ■ When bias frequency is set to “negative” Related parameters: P004, P005, P008 P105 Analog Input Filter Filter constant of analog input terminal (control circuit terminal No.14 and No.16) can be set to eliminate external interference caused by external voltage or current frequency setting signals.
Page 230 Appendix Function Parameter List P106 PID Control Mode With this function, the inverter can be used to control processes such as flow, air volume or pressure. When the automatic tuning through PID control starts, the inverter will automatically drive the motor within the range of uppter/lower frequency limit.
Page 231 Appendix Function Parameter List Proportional-derivative precedence type PID control: generally speaking, when the setting value (SP) is changed, output variation will decrease and convergence will slow down. Upward/downward direction (negative operation/positive operation) of the · output can be selected when the process changes. Negative operation: the output is increased with the measured value (PV) decreased.(For example: heating air) Positive operation: the output is increased with the measured value (PV)
Page 232 Appendix Function Parameter List Proportional Gain [Kp] P107 Integral Time [Ti] P108 Derivative Time [Td] P109 Control Cycle [Ts] P110 PID Target Value P111 Proportional gain, integral time, derivative time, control cycle and PID target value required in PID control can be set. ・Parameter P107 to P109 are used to set coefficients for PID control.
Page 233 Appendix Function Parameter List ■ Parameter P109: Derivative Time [Td] Data setting range (s) 0000·0.1 to 3600 * “0000” indicates that there is no derivative control. ■ Parameter P110: Control Cycle [Ts] Data setting range (s) 0.01 to 60.00 ■ Parameter P111: PID Target Value Data setting range (%) 0.0·0.1 to 100.0 Related parameters: P004, P036 to P040, P099, P102 to P104, P124 to P127 ■...
Page 234 Appendix Function Parameter List 3. Setting value (SP) ・Setting signal of setting value (SP) is set with parameter P004 (Frequency Setting Signal). (Note) When Parameter P004 = “1” or “7”, setting value (SP) is set with parameter P111 (PID Targert Value). ・The relationship between setting signal and setting value (SP) is set with parameter P102 to P104 (Bias/Gain Function Select, Bias...
Page 235 Appendix Function Parameter List ■ Operation procedure of automatic tuning 1. Switch to automatic tuning function Select “A0 to A3” with “P106: PID Control Mode” and press button to set the data. 2. Enter measurement ready status Press button to enter measurement ready status. 3.
Page 236 Appendix Function Parameter List P112 The 1 Skip Frequency The 2 Skip Frequency P113 The 3 Skip Frequency P114 Skip Frequency Band Width P115 If mechanical parts of the load resonate at a specific output frequency of inverter, continuous operation within frequency band should be avoided by setting the skip frequency and the skip frequency band.
Page 237 Appendix Function Parameter List P116 The 2 Base Frequency The 2 base frequency can be selected and set with the 2 characteristics select button. (It is valid only when parameter P005 is set to “FF” or “3C”.) ■ Parameter P116: The 2 Base Frequency Data setting range 45.0 to 400.0...
Page 238 Appendix Function Parameter List P117 The 2 Torque Boost The 2 torque boost can be selected and set with the 2 characteristics select button. The larger the setting value is, the higher output voltage and torque boost are. ・After the mode is set to “auto torque boost”, the output voltage will be changed automatically according to the load fluctuation.
Page 239 Appendix Function Parameter List ●Please use the inverter in the following conditions when set to “auto torque boost”. ・The motor must be the squirrel-cage induction motor for general purpose. ・Please select the inverter with the capacity equivalent to or 1 level higher than motor capacity.
Page 240 Appendix Function Parameter List P118 The 2 Electronic Thermal Select The 2 Thermal Current Setting P119 Electronic thermal operation level can be selected and set with the 2 characteristics select button when the inverter output is stopped. Operation coasts to stop when OL is displayed. ■...
Page 241 Appendix Function Parameter List ■ Parameter P119 = 1 ■ Parameter P119 = 2 ■ Parameter P119 = 3 ■ Parameter P119: The 2 Thermal Current Setting Data setting range (A) 0.1 to 100.0 * Please make settings according to the rated current of the applicable motor. Related parameters: P036 to P040...
Page 242 Appendix Function Parameter List P120 P122 The 2 Change Point Frequency 1 The 2 Change Point Frequency 2 The 2 Change Point Voltage 1 The 2 Change Point Voltage 2 P121 P123 Change point 1 and 2 can be selected in 3-point mode of “P005: V/F Mode”. (It is valid only when parameter P005 is set to “3C”.) ■...
Page 243 Appendix Function Parameter List ・Please note that sharp acceleration/deceleration or overcurrent may occur depending on setting values and load status if data is changed during operation. ・If auto torque boost is selected with parameter “P117: The 2 Torque Boost”, auto torque boost will take precedence, and settings related to 3-point mode (parameters P120 to P123: Change Point Voltage and Change Point Frequency) will become invalid.
Page 244 Appendix Function Parameter List P124 The 2 Analog Input Function Select The control function of the 2 analog input terminal (control circuit terminal No.16) can be selected. Setting Name Details value The 2 The 2 frequency setting signal analog Measured value of PID control input Bias signal of PID control function...
Page 245 Appendix Function Parameter List ■ Bias signal of PID control (setting value = “2”) ・The 2 analog input terminal can be used as measured value of PID control (bias signal). ・Input signals (0 to 5 V, 0 to 10 V, 4 to 20 mA and 0 to 20 mA) are fed back as bias signal of PID control (setting example: -10% to +10%).
Page 246 Appendix Function Parameter List ■Auxiliary frequency setting signal (setting value = “3”) ・The 2 analog input terminal can be used as auxiliary frequency setting signal. ・Input signals (0 to 5 V, 0 to 10 V, 4 to 20 mA and 0 to 20 mA) are fed back as auxiliary frequency setting signal added to the 1 frequency setting signal (%) (setting example: -10% to +10%).
Page 247 Appendix Function Parameter List P125 The 2 Analog Input Signal Select Setting signal of the 2 analog input terminal (control circuit terminal No.16) can be selected. Setting Operation method and control circuit terminal Details of setting signal value connection diagram 0 to 5 V (voltage signal) Terminals No.16 and 15 (16: +, 15: -) 0 to 10 V (voltage signal)
Page 248 Appendix Function Parameter List P126 The 2 Bias Frequency Setting The 2 Gain Frequency Setting P127 The relationship between the output frequency and the 2 analog input signal (control circuit terminal No.16) can be adjusted freely. Please use this function according to the applications. ■...
Page 249 Appendix Function Parameter List ■ The relationship between the feedback signal and the measured value (PV) of PID control (When parameter “P124: The 2 Analog Input Function Select” is set to “1”.) ・The frequency exceeding the maximum frequency or the upper frequency limit will not be output.
Page 250: Carrier Frequency
Appendix Function Parameter List P128 Carrier Frequency This carrier frequency can be adjusted to reduce motor noise and avoid mechanical resonance. ■ When “P129: Vector Control Select” setting = “0” (when V/F control is selected) Setting value (kHz) 0.8, 1.1, 1.6, 2.5, 5.0, 7.5 , 10.0 (7 settings) ■...
Page 251 Appendix Function Parameter List P129 Vector Control Select This function is effective for the case that the load fluctuates sharply when high start-up torque or sufficient torque at lower speed is required. But it is not applicable to the load whose minor rotation may cause problems at lower speed.
Page 252 Appendix Function Parameter List ■ Setting procedure when vector control is selected 1) Control method select: Vector control select (set P129 to “1”). 2) Motor capacity select : Capacity of motor in use is set to “P130: Motor Capacity).(0.4 to 15kW) Motor capacity = Inverter capacity (factory setting) If the motor capacity is equal to the inverter, no additional setting will be required.
Page 253 Appendix Function Parameter List ・When vector control is selected, the output frequency ranges from 1 Hz to 120 Hz. ・Vector control select is valid only when “P128: Carrier Frequency” is from 2.5 kHz to 10.0 kHz. When carrier frequency is set to “0.8 kHz to 1.6 kHz” and “P129: Vector Control Select”...
Page 254 Appendix Function Parameter List P130 Motor Capacity ・During vector control or when auto torque boost or slip compensation is performed through V/F control, inverter capacity used to drive the motor can be set. Setting value Motor capacity Setting value Motor capacity 0.2 kW 3.7 kW 0.4 kW...
Page 255 Appendix Function Parameter List P132 Motor Constant Measuring Function ・During vector control or when auto torque boost or slip compensation is performed through V/F control, motor constant can be set through “automatic tuning” or specified as values recommended by our company. ・When automatic tuning of voltage compensation constant starts, the inverter will automatically apply DC high-voltage to the motor.
Page 256 Appendix Function Parameter List be set with P001. When acceleration time is too short, overcurrent trip may occur and tuning operation cannot be performed correctly. ・Automatic tuning sometimes cannot be performed when the inverter is affected by power supply environment and connected with special-purpose motor etc.
Page 257 Appendix Function Parameter List ■ Operation procedure of automatic tuning 1. Switch to automatic tuning mode setting ・When voltage compensation constant is measured, P132 is set to “1”. ・When slip compensation frequency is measured: P132 is set to “2”. 2. Enter measurement ready status Press button to enter operation status display mode.
Page 258 Appendix Function Parameter List 5. Enter operation ready status (normal stop status) Press button to enter operation ready status. After that, normal operation can be performed. ・For the 2 motor, related parameters are as follows. “P158: The 2 Motor Capacity”, “P159: The 2 Motor Pole Number”, “P160: The 2 Voltage Compensation Constant”...
Page 259 Appendix Function Parameter List For 1-phase 200 V type For 3-phase 400V type Motor Equivalent Motor Equivalent Motor Equivalent capacity current (A) capacity current (A) capacity current (A) 0.2 kW 0.4 kW 5.5 kW 12.0 0.4 kW 0.75 kW 7.5 kW 17.0 0.75 kW 1.5 kW...
Page 260 Appendix Function Parameter List P134 Slip Compensation Frequency During vector control or when slip compensation is performed through V/F control, slip compensation frequency can be set. Setting value (Hz) -5.00 to 5.00 (increment = 0.01) Slip compensation frequency is set by converting slip (at 60 Hz) to frequency value.
Page 261 P142 Important parameters necessary for sending commands to inverter through communication can be set. ■ P135: Communication Protocol Select VF200 is based on two protocols: MEWTOCOL-COM and Modbus (RTU). Either protocol can be selected. Setting value Details of function MEWTOCOL-COM Modbus (RTU) ■...
Page 262 Data setting range 3 to 200 (ms) *The setting is valid only when protocol Modbus (RTU) is used. For details of communication function, please refer to “VF200 · communication function manual”, which can be downloaded from our website: http://pewc.panasonic.cn/ac/c/. After setting values for communication parameter P135 to P142, please cut ·...
Page 263 Appendix Function Parameter List P143 Cooling Fan ON-OFF Control Select ・Operation modes of cooling fan in normal status and fault status can be set. Details Setting Operation when heat sink value Operation of cooling fan is faulty Power-on: ON The inverter stops Power-off :OFF abnormally.
Page 264 Appendix Function Parameter List P145 Operation Status Monitor Display on the panel can be adjusted according to applications. * The values above are examples of display for “operating frequency (50.0)”, “output current (1.0 A)”, “setting frequency (50.0)”, “communication station No. (01)” and “linear speed multiplier (0.5)”.
Page 265 Appendix Function Parameter List P146 Linear Speed Multiplier When setting value in “P145: Operation Status Monitor” is “1” (linear speed), multiplier relative to output frequency can be set. ■ Parameter P146: Linear Speed Multiplier 0.1 to 100.0 Data setting range <Setting example>...
Page 266 Appendix Function Parameter List Abnormal When cooling fan abnormality occurs, the alarm LED cooling fan will flicker. alarm ·If fault trip occurs, the alarm LED will light up. ·Monitor function “n008: Alarm Type” can be used to identify the type of the current alarm.
Page 267 Appendix Function Parameter List P149 Upper Current Limit of Alarm LED When alarm LED operation select is set to “1” or “3”, the upper current limit to judge overload fault alarm can be set with this parameter. If output current of inverter is higher than setting value, the alarm LED will flicker as overload fault alarm.
Page 268 Appendix Function Parameter List ■ Procedures of changing parameter data after setting password ·When password is set to “7777” 1. Enter operation status display mode (Press button to stop the inverter during operation.) 2. Enter password input display mode Press button four times to enter password input display mode.
Page 269 Appendix Function Parameter List P151 Setting Data Clear All data can be restored to factory settings with this parameter. Setting value Details It indicates the value in normal status. Except motor constants, all data will be restored to factory settings.* All data will be restored to factory settings.
Page 270 Appendix Function Parameter List ·The start frequency is specified by parameter “P029: Start Frequency”. ・Please note that sharp acceleration/deceleration or overcurrent may occur depending on setting values and load status if data is changed during operation. ·When parameter “P162: Speed Search during Startup” is set to “enabled”, the setting value of DC brake set with this parameter is “disabled”.
Page 271 Appendix Function Parameter List P154 MOP Function Select Acceleration/deceleration Time for MOP Operation P155 Operation of frequency change can be set with these parameters when MOP function is used. When acceleration/deceleration time is relatively short, frequency change is much easier with this function. ■...
Page 272 Appendix Function Parameter List ·This function still applies even if parameter “P040: SW5 Function Select” is ”. set to “11: Frequency ▲／▼ setting But when P154 is set to “2”, acceleration/deceleration will be performed according to acceleration/deceleration time set with parameter P001 and P002. ■Operation when parameter P154 is set to “2: Operation linked with frequency setting”...
Page 273 Appendix Function Parameter List P156 Slip Compensation Control During V/F control, the slip in relation to speed comman value is detected and slip compensation is controlled with this parameter. Setting value Details Without slip compensation Slip compensation made in normal status Slip compensation not performed during deceleration During slip compensation control, parameter “P130: Motor Capacity”, “P131:...
Page 274 Appendix Function Parameter List P157 The 2 Analog Superimposed Value Bias value can be superimposed to the 2 analog input value with this parameter. Name Setting range The 2 Analog －100.0% to ＋100.0% Superimposed Value Related parameters: P124, P126 to P127 ·For setting method, please refer to “P124: The 2 Analog Input Function Select”.
Page 275 Appendix Function Parameter List ·If data is changed, the setting values of parameter “P160: The 2 Voltage Compensation Constant” and “P161: The 2 Slip Compensation Frequency” will be automatically changed to motor constants recommended by our company. P160 The 2 Voltage Compensation Constant ·During vector control or when auto torque boost is performed through V/F control, necessary voltage compensation constants should be set.
Page 276 Appendix Function Parameter List Setting value Details Speed search during startup is disabled. When speed search is selected with parameter “P036 to P040: SW1 to SW5 Function Select”, speed search will be performed if relevant SWs are turned ON. Speed search during startup is enabled. P163 Waiting time for speed search The waiting time to start speed search can be set with this parameter during...
Page 277 Appendix Function Parameter List P165 Speed Search Select during Retry When retry function is set to “enabled” with parameter “P022: Retry Function”, whether speed search is performed or not during retry after fault occurrence can be set with this parameter. Setting value Details Disabled: speed search is not performed...
Page 278 Appendix Function Parameter List P168 Upper Frequency Limit Select for Speed Search Frequency range for speed search can be set with this parameter. Setting value Details Speed search is performed below the maximum frequency. Speed search is performed at the frequency lower than the previous frequency before the operation is stopped normally.
Page 279 Appendix Function Parameter List P171 Recoil Frequency Band in Winding Mode Percent of recoil frequency for frequency amplititude set with parameter P170 can be set with this parameter. Setting range (%) 0.0% to 100.0% Rise Time Coefficient in P172 Winding Mode Cycle P173 Winding Mode Time required for one cycle of winding mode control operation and the...
Page 280 Appendix Function Parameter List P175 Pulse Input Signal Bias P176 Pulse Input Signal Gain It can change the relationship between pulse frequency signal and output frequency. Please use as needed. ■ P175: Pulse Input Signal Bias Setting range (%) -99.0～100.0(Setting unit: 0.1%） ■...
Page 281 Appendix Function Parameter List P178 Winding Mode Operation Select It is used for setting winding mode operation select. Value Name Normal mode 2- point normal mode Random mode 2- point random mode ■ Random mode When set “P178: winding mode operation select” to “2” or “3”, winding mode is random mode.
Page 282 Appendix Function Parameter List P179 Max random rise time P180 Minimum random rise time Set the max and minimum value of rise time for random function. Setting range (%) 0.0～100.0(Setting unit: 0.1%） Winding length multiplier P181 Setting range (%) 0.0～100.0(Setting unit: 0.1%） When set parameter “P169: winding mode control select”...
Page 283: Hazardous Substances And Elements
“Administrative Measures for Control of Pollution Caused by Electronic Information Products” in China Names and Content Marks of Toxic or Hazardous Substances and Elements Toxic or hazardous substances or elements Polybrominated Component Hexavalent Polybrominated Mercury Lead Cadmium Diphenyl name Chromium Biphenyl (Hg) (Pb)
Page 284: Precautions On European Standard Directives
Precautions on European Standard Directives 1. CE Marking labeled on the inverter is based on Low Voltage Directive. 2. Adaptability to EMC Directive shall be determined in a complete plant equipped with the inverter. 3. Inverter's control circuit terminals are only basically insulated (protection against electric shock I, overvoltage category II, pollution degree 2).
Page 285: Conditions Of Ce Marking
Conditions of CE Marking VF200 inverter meets requirements of overvoltage category II stipulated in EN 61800-5-1 standard. A transformer subject to basic insulation shall be installed between inverter and power supply. The insulated transformer shall use the product in compliance with EN standard or IEC standard (with basic insulation at least).
Page 286: Warranty
Warranty The products and specifications listed in this document are subject to change without prior notice as occasioned by the improvements that we introduce into our products. Therefore, when you consider the use of the product and place orders for the product, you may contact our customer service representatives and check that the details listed in this document are commensurate with the most up-to-date information.
Page 287 • In the event of any failure or obvious defect in the product due to the reasons solely attributable to Panasonic Electric Works, Panasonic Electric Works shall remedy such malfunctioning or defective product at its own cost in one of the following ways: i) repair such product;...
Page 288: Revision History
Revision History The manual No. is recorded on the back cover. Issue Date Manual No. Descriptions of Revision 2013.01 The 1 edition WME-VF200-A...
Page 289 Panasonic Industrial Devices SUNX Suzhou Co., Ltd. No.97, Huoju Road, New District Suzhou, Jiangsu province, China Phone: +86-512-6843-2580 FAX: +86-512-6843-2590 © Panasonic Industrial Devices SUNX Suzhou Co., Ltd. 2013...

Panasonic VF200 Instruction Manual

Safety Precautions

Points for Handling

1 Parts Identification

2 Installation

3 Wiring

5 Control Status Monitor

6 Function Parameters

7 Custom Mode

8 Setting Modes and Copy Functions of Built-In Memory

9 Troubleshooting

10 Maintenance and Inspection

11 Specifications

Appendix

Precautions on European Standard Directives

Conditions of CE Marking

Warranty

Quick Links

Related Manuals for Panasonic VF200

Summary of Contents for Panasonic VF200

Table of Contents