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VFD-F Series 

DELTA ELECTRONICS, INC. ALL RIGHTS RESERVED 

3-5

3.2 External Wiring 

R/L1 S/L2 T/L3

U/T1 V/T2 W/T3

B2

-

+/B1

E

E

BR

VF

DB

BR

EMI Filter

Power Supply

FUSE/NFB

Magnetic 

Contactor

Input AC 
Line Reactor

Zero-phase 

Reactor

B

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ke

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(O

p

ti

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B

ra

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 U

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Zero-phase 
Reactor

Output AC 

Line Reactor

Motor

 

 

 

 

 

 

 

Items Explanations 

Power 
supply 

Please follow the specific power 
supply requirements shown in 
Appendix A. 

Fuse/NFB 
(Optional) 

There may be an inrush current 
during power up. Please check the 
chart of Appendix B and select the 
correct fuse with rated current. Use 
of an NFB is optional. 

Magnetic 
contactor 
(Optional) 

Please do not use a Magnetic 
contactor as the I/O switch of the AC 
motor drive, as it will reduce the 
operating life cycle of the AC drive. 

Input AC 
Line Reactor
(Optional) 

Used to improve the input power 
factor, to reduce harmonics and 
provide protection from AC line 
disturbances (surges, switching 
spikes, short interruptions, etc.). AC 
line reactor should be installed when 
the power supply capacity is 500kVA 
or more or advanced capacity is 
activated. The wiring distance should 
be

  10m. Refer to appendix B for 

details. 

Zero-phase 
Reactor 
(Ferrite Core 
Common 
Choke) 
(Optional) 

Zero-phase reactors are used to 
reduce radio noise especially when 
audio equipment is installed near the 
inverter. Effective for noise reduction 
on both the input and output sides. 
Attenuation quality is good for a wide 
range from AM band to 10MHz. 
Appendix B specifies the zero-phase 
reactor. (RF220X00A) 

EMI filter 
(Optional) 

To reduce electromagnetic 
interference, please refer to 
Appendix B for more details. 

Brake 
Resistor 
(Optional) 

Used to reduce the deceleration time 
of the motor. Please refer to the chart 
in Appendix B for specific Brake 
Resistors. 

Output AC 
Line Reactor
(Optional) 

Motor surge voltage amplitude 
depends on motor cable length. For 
applications with long motor cable 
(>20m), it is necessary to install a 
reactor at the inverter output side. 

Summary of Contents for AC Drive VFD-F Series

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Page 4: ...bare hands DANGER A charge may still remain in the DC link capacitor with hazardous voltages even if the power has been turned off To avoid personal injury do not remove the cover of the AC drive unti...

Page 5: ...ion 2 2 CHAPTER 3 WIRING 3 1 Basic Wiring Diagram 3 2 3 2 External Wiring 3 5 3 3 Main Circuit Connection 3 6 3 4 Control Terminals 3 9 3 5 Specifications for Power Terminals and Control Terminals 3 1...

Page 6: ...ameters 5 9 5 4 Group 3 Output Function Parameters 5 15 5 5 Group 4 Input Function Parameters 5 19 5 6 Group 5 Multi step Speed Frequency Parameters 5 24 5 7 Group 6 Protection Parameters 5 30 5 8 Gro...

Page 7: ...ake Unit B 5 B 1 3 Dimensions for Brake Unit B 6 B 2 AMD EMI Filter Cross Reference B 8 B 3 AC Reactor B 10 B 3 1 AC Input Reactor Recommended Value B 10 B 3 2 AC Output Reactor Recommended Value B 11...

Page 8: ...r 7 5HP 5 5kW 3 phase 460V AC drive MODEL VFD055F43A INPUT 3PH 380 480V 50 60Hz 14A OUTPUT 3PH 0 480V 13 9KVA 7 5HP A 9 Frequency Range 1 5 120Hz DELTA ELECTRONICS INC MADE IN XXXXX AC Drive Model Inp...

Page 9: ...GHTS RESERVED 1 2 1 3 Series Number Explanation Production number 3 055F43A Production model 460V 3 PHASE 7 5HP 5 5kW If there is any nameplate information not corresponding to your purchase order or...

Page 10: ...ithout dust cover Atmosphere pressure 86 to 106 kPa Installation Site Altitude below 1000m Vibration Maximum 9 80 m s2 1G at less than 20Hz Maximum 5 88 m s2 0 6G at 20Hz to 50Hz Storage Temperature 2...

Page 11: ...s when selecting a mounting location Failure to observe these precautions may void the warranty Do not mount the AC drive near heat radiating elements or in direct sunlight Do not install the AC drive...

Page 12: ...Any electrical or mechanical modification to this equipment without prior written consent of Delta Electronics Inc will void all warranties and may result in a safety hazard in addition to voiding th...

Page 13: ...C7 RA8 RC8 Relay B D RY00 4 20mA 0 10V 0 5V SW2 FWD REV 24V Power Supply 10V 20mA For 230V series 1 15HP models 460V series 1 20HP models Brake Resistor Optional Motor NFB FWD STOP REV STOP E F Multi...

Page 14: ...istor Optional Motor NFB FWD STOP REV STOP E F Multi step 1 Multi step 2 Multi step 3 Multi step 4 RESET JOG Accel Decel Prohibit Digital Signal Common Don t apply the mains voltage directly to above...

Page 15: ...VFD F Series DELTA ELECTRONICS INC ALL RIGHTS RESERVED 3 4 Wiring for SINK mode and SOURCE mode JOG 1 2 Accel Decel switch MI7 MI8 Sw1 Sink Source JOG 1 2 Accel Decel switch MI7 MI8...

Page 16: ...otection from AC line disturbances surges switching spikes short interruptions etc AC line reactor should be installed when the power supply capacity is 500kVA or more or advanced capacity is activate...

Page 17: ...circuit terminals R L1 S L2 T L3 R S T U T1 V T2 W T3 IM 3 MC E E VFDB 1 2 Brake Resistor Optional Non fuse breaker NFB Motor Terminal Explanations Terminal Symbol Explanation of Terminal Function R...

Page 18: ...ime to avoid nuisance tripping For the specific GFCI of the AC motor drive please select a current sensor with sensitivity of 30mA or above Do NOT run stop AC motor drives by turning the power ON OFF...

Page 19: ...stor or brake unit in applications with frequent deceleration ramps short deceleration time too low brake torque or requiring increased brake torque If the AC motor drive has a built in brake chopper...

Page 20: ...ti step speed command 3 MI4 Multi function Input 4 Factory setting Multi step speed command 4 MI5 Multi function Input 5 Factory setting RESET MI6 Multi function Input 6 Factory setting JOG MI7 Multi...

Page 21: ...l common Control signal wiring size 18 AWG 0 75 mm2 Analog input terminals ACI1 ACI2 ACM Analog input signals are easily affected by external noise Use shielded wiring and keep it as short as possible...

Page 22: ...2 18kgf cm 15 6in lbf Stranded Copper only 75 Control Terminals Wire Gauge Torque 12 24AWG 3 3 0 2mm2 4kgf cm 3in lbf Frame C POWER IM MOTOR 3 Power Terminals R L1 S L2 T L3 U T1 V T2 W T3 1 2 B1 B2 M...

Page 23: ...Recognized Ring Terminal to conduct a proper wiring Control Terminals Wire Gauge Torque 12 24AWG 3 3 0 2mm2 4kgf cm 3in lbf Frame E POWER IM MOTOR 3 CHARGE Power Terminals R L1 S L2 T L3 U T1 V T2 W T...

Page 24: ...tion where following figure shows 31MAX 8 2MIN 26 5MAX 70MAX 16 0 4 Control Terminals Wire Gauge Torque 12 24AWG 3 3 0 2mm2 4kgf cm 3in lbf Frame H POWER U T1 DC DC T L3 R L1 S L2 W T3 V T2 Power Term...

Page 25: ...s possible 7 Multiple VFD F units can be installed in one location All the units should be grounded directly to a common ground terminal The VFD F ground terminals may also be connected in parallel as...

Page 26: ...tance Capacitance or R C Filter Resistance Capacitance unless approved by Delta 17 When using a general GFCI Ground Fault Circuit Interrupter select a current sensor with sensitivity of 200mA or above...

Page 27: ...an for an inverter duty motor 2 Avoid running a standard induction motor at low speed Under these conditions the motor temperature may rise above the motor rating due to limited airflow produced by th...

Page 28: ...cribes the various controls and indicators found on the digital keypad The information in this chapter should be read and understood before performing the start up procedures described in the chapter...

Page 29: ...OP STOP RESET UP and DOWN Key Sets the parameter number and changes the numerical data such as Master Frequency JOG By pressing JOG key Initiates jog operation MODE Changes between different display m...

Page 30: ...run status Display the specified parameter setting Display the actual value stored within the specified parameter External Fault Display End for approximately 1 second if input has been accepted After...

Page 31: ...odify data Setting direction or Setting parameters U F H U F H U F H GO START U F H U F H U F H U F H U F H U F H Note to set the parameters In the selection mode press NOTE to return the selecting mo...

Page 32: ...from 2nd communication 4 2 1 Description of the Digital Keypad KPF CC01 LCD Display Indicates frequency voltage current user defined units read and save etc Model Number Status Display Display the dr...

Page 33: ...nd setting Copy Mode Press MODE key for about 2 3 seconds in main page Use UP DOWN key to select copy function Read Write Delete and LEFT RIGHT key to select memory address Total two blocks are availa...

Page 34: ...ection function activated during self check 10 ocA over current during acceleration Output current exceeds protection level during acceleration 11 ocd over current during deceleration Output current e...

Page 35: ...Reverse to Forward 10 Rev LED is on and FWD led is blink Forward to Reverse 11 Rev LED is on and FWD led is off Reverse Bit 5 7 Reserved Bit 8 Master frequency source via communication interface Bit 9...

Page 36: ...value 00 11 Feedback Signal Factory setting Read Only This parameter displays feedback signal value 00 12 User Target Value Low bit uL 0 99 99 Factory setting Read Only 00 13 User Target Value High b...

Page 37: ...r nameplate If this parameter setting is smaller than the rated frequency of the motor nuisance over current faults or damage to the AC drive may occur If this parameter setting is greater than the ra...

Page 38: ...nt Voltage 01 07 Upper Bound Frequency Factory Setting 60 00 Settings 0 00 120 00 Hz This parameter will limit the maximum output frequency of AC drive If slip compensation Pr 07 02 07 05 or feedback...

Page 39: ...ettings 0 1 3600 0 Sec Unit 0 1sec Acceleration time is the time required for the AC drive to ramp from 0 Hz to its Maximum Output Frequency Pr 1 00 Deceleration time is the time required for the AC d...

Page 40: ...transition between speeds 01 22 Modulation Index a Factory Setting 1 00 Settings 0 90 1 20 Unit 0 1 This parameter sets the ratio of the Maximum Output Voltage to the input voltage The Maximum Output...

Page 41: ...VFD F Series DELTA ELECTRONICS INC ALL RIGHTS RESERVED 5 8 01 23 Accel Decel time unit Accel Decel time range 00 1 Sec 1 36000 Sec 01 0 1 Sec 0 1 3600 0 Sec 02 0 01 Sec 0 01 360 00 Sec...

Page 42: ...he analog input terminal ACI2 04 Frequency command source is the RS485 serial communication 05 Frequency command source depends on the setting of Pr 04 24 You may use SW2 on the control board to choos...

Page 43: ...nal Please refer to Pr 04 00 to 04 07 Loss of an ACI signal may cause an E F condition Please refer to 02 07 Motor speed Operation Command RUN STOP Stops according to deceleration time Motor Speed Ope...

Page 44: ...lay value greater than the actual value 02 04 Forward Reverse Enable Factory Setting 00 Settings 00 Forward Reverse enabled 01 Reverse disabled 02 Forward disabled This parameter enables the direction...

Page 45: ...determines the AC drives response to a loss of the ACI input 02 08 Start up Display Selection a Factory Setting 00 Settings Bit0 1 00 F LED 01 H LED 10 U LED special display 11 Fwd Rev Bit2 0 Fwd LED...

Page 46: ...cy of AC drive x 02 10 If output frequency of AC drive is 90Hz set 02 10 to 2 5 When H LED lights the value on the display is 225 00 02 11 Flying Start a Factory Setting 00 Settings 00 Disable 01 Enab...

Page 47: ...cy command after power is removed If this parameter is set to 01 The AC drive will memorize the last known master frequency command after power off Upon power up the last known frequency is displayed...

Page 48: ...will automatic set this parameter by 11 01 to 11 03 09 Auxiliary 1 output 10 Auxiliary 2 output 11 Auxiliary 3 output 12 Auxiliary 4 output 13 Auxiliary 5 output 14 Auxiliary 6 output 15 Auxiliary 7...

Page 49: ...will be closed when multi function input terminals Pr 04 00 to 04 07 are set to emergency stop and then activated 29 Software brake output The corresponding output will be closed when the AC drives D...

Page 50: ...ill be closed When the output frequency is less than 18Hz the corresponding output relay will be opened as the following diagram shows Frequency Master frequency 1 Master frequency 2 attained Master f...

Page 51: ...imited to 10V and 20mA The gain is designed to offer a normally small output signal to be enlarged for easier viewing on a meter 03 14 Analog Output 2 Selection Factory Setting 01 Settings 00 0 20mA 0...

Page 52: ...0 to 05 14 to program the 15 step speeds 05 Reset NO 06 Reset NC Clears Reset a fault and returns the AC drive to normal operation 07 Jog operation JOG Enables the JOG command Works identical to the J...

Page 53: ...otor No 1 output disable 28 Motor No 2 output disable 29 Motor No 3 output disable 30 Motor No 4 output disable When multiple motors are controlled by an AC drive these settings will allow the corresp...

Page 54: ...04 12 AVI Maximum Frequency percentage of Pr 1 00 Factory Setting 100 00 Settings 0 00 100 00 Unit 0 01 04 13 ACI1 Minimum Current Factory Setting 4 0 04 14 ACI1 Maximum Current Factory Setting 20 0 S...

Page 55: ...ation for a pressure sensor connected If your target value is between 3 7Pa Set Pr 10 01 to 10 other parameters settings refer Pr 10 01 to set as shown in the following diagram and then setting the PI...

Page 56: ...properly adjusted time constant may help filter noise on the analog input terminals If the input delay is set too long the system may experience oscillation Be careful setting these parameters 04 24 S...

Page 57: ...peed Frequency a Factory Setting 0 00 05 11 12th Step Speed Frequency a Factory Setting 0 00 05 12 13th Step Speed Frequency a Factory Setting 0 00 05 13 14th Step Speed Frequency a Factory Setting 0...

Page 58: ...program completed Pr 05 16 Direction of operation for the 1st to 15th step speed Pr 05 17 to 05 31 Operation time setting of the 1st to 15th step speed Program operation command Program operation ind...

Page 59: ...05 17 05 18 05 19 05 20 05 00 05 01 05 02 05 03 Frequency Time Program operation command Program operation indication Step operation indication PLC operation execution one cycle step by step 05 16 PLC...

Page 60: ...it 0 Forward 1 Reverse Direction of Pr 05 00 1st speed Forward Direction of Pr 05 01 2nd speed Reverse Direction of Pr 05 02 3rd speed Forward Direction of Pr 05 03 4th speed Forward Direction of Pr 0...

Page 61: ...d Factory Setting 0 0 05 26 Time Duration of 10th Step Speed Factory Setting 0 0 05 27 Time Duration of 11th Step Speed Factory Setting 0 0 05 28 Time Duration of 12th Step Speed Factory Setting 0 0 0...

Page 62: ...Run Signal 2nd step speed Multi function Terminal Pr 04 00 to Pr 04 07 MI1 to MI8 2 1st step speed Multi function Terminal Pr 04 00 to Pr 04 07 MI1 to MI8 1 3rd step speed Multi function Terminal Pr...

Page 63: ...ration time due to the step function shown below If the deceleration time is critical for the application then dynamic brake resistors should be used Output frequency Deceleration characteristic when...

Page 64: ...quency to prevent the drive from faulting with an OC Once the current falls below the value specified in Pr 06 02 the drive will then accelerate to catch up with the command frequency Over current Sta...

Page 65: ...keypad 06 06 Electronic Thermal Relay Selection Factory Setting 02 Settings 00 Operation disabled 01 Operation with a standard motor shaft mounted fan cooled 02 Operation with a vector motor non fan c...

Page 66: ...Settings 00 Warn and Ramp to stop 01 Warn and Coast to stop 02 Warn and keep operating These parameters set the low current detection mode time and operation 06 11 Present Fault Record Factory Setting...

Page 67: ...21 External emergency stop EF1 22 Phase Loss PHL 23 Low current Lc 24 FbL Feedback Loss 25 Reserved 26 Fan Power Fault FAnP 27 Fan 1 Fault FF1 28 Fan 2 Fault FF2 29 Fan 3 Fault FF3 30 Fan 1 2 3 Fault...

Page 68: ...lly entering the password the user may change parameters as they wish Once the drive is powered off the drive has locked the parameters again To clear the password the user must enter the correct pass...

Page 69: ...0 120 145 Max Carried Freq 10KHz 9KHz 6KHz Min Carried Freq 4KHz 3KHz 2KHz Factory Setting 9KHz 6KHz 4KHz 460V series KW 0 75 1 5 2 2 3 7 5 5 7 5 11 15 18 5 22 30 37 45 55 75 90 110 130 160 185 220 HP...

Page 70: ...keypad display 07 04 Auto Slip Compensation Gain a Factory Setting 0 0 Settings 0 0 3 0 Unit 0 1 This parameter is set to auto slip compensation gain Rotor speed of the motor output frequency of AC dr...

Page 71: ...g to make voltage of exciting inductance of motor is not enough Therefore the short of gap magnet field will make a high output current but low output torque Auto torque compensation gain could adjust...

Page 72: ...otor stop and get a steady start up characteristic 08 02 DC Brake Time during Stopping Factory Setting 0 0 Settings 0 00 60 00 Sec Unit 0 01 This parameter determines the duration of time that the DC...

Page 73: ...ommended to use this setting if the motor loading has the characteristics of high inertial and low resistance If this parameter is set to 02 AC drive will trace from the Min frequency upward After out...

Page 74: ...n speed search is from top downward output frequency is searched from master frequency command downward Now output voltage and output current will be added from zero When output current is equal to 08...

Page 75: ...ction input terminal 04 00 to 04 07 is set to BB External interrupt 11 or 12 and activates BB speed search method is the same with restart speed search after momentary loss power 08 09 Auto Restart Ti...

Page 76: ...he inhibition operation frequency range This function will let AC drive not run continuous in the resonance frequency of the motor or loading system or inhibition operation frequency The settings of t...

Page 77: ...ut voltage won t vary by DC Bus varying This parameter is set to 02 AC drive will disable AVR function during decelerate to stop It can speed up braking in some degree 08 19 Software Setting of the Br...

Page 78: ...RAMP to stop 02 Warn and COAST to stop 03 No warning and no display This parameter is set to detect if an error occurs and take actions 09 03 Time out Detection during Transmission Factory Setting 00...

Page 79: ...speed 0110 6th step speed 0111 7th step speed 1000 8th step speed 1001 9th step speed 1010 10th step speed 1011 11th step speed 1100 12th step speed 1101 13th step speed 1110 14th step speed 1111 15t...

Page 80: ...owing modes ASCII American Standard Code for Information interchange or RTU Remote Terminal Unit Users can select the desired mode along with the serial port communication protocol in 09 04 and 09 05...

Page 81: ...y Stop bit 7 bit character 10 bit character frame 2 2 11 bit character frame for 8 bit 8 N 2 9 04 1 or 2 9 05 00 0 1 2 3 4 5 6 7 Start bit Stop bit Stop bit 8 bit character 11 bit character frame 8 E...

Page 82: ...than 10 ms ADR Communication address 8 bit address CMD Command code 8 bit command DATA n 1 DATA 0 Contents of data N X 8 bit data n 25 CRC CHK Low CRC CHK High CRC check sum 16 bit check sum consists...

Page 83: ...ode 0 data 1 data Word 4 2 address 0 Data 1 LRC CHK 0 6 1 of 7 LRC CHK 1 D Number 0 0101H 7 END 1 CR of 0 0 END 0 LF data 0 Data 0 Word 2 of 8 LRC CHK 1 D 0102H 9 LRC CHK 0 7 8 END 1 CR LRC CHK 1 D EN...

Page 84: ...ata 0 data 0 Error 0 starting 1 starting 1 code 2 address 0 address 0 LRC CHK 0 6 0 0 LRC CHK 1 D data 1 data 1 END 1 CR 7 7 END 0 LF 7 7 0 0 LRC CHK 1 7 LRC CHK 1 7 LRC CHK 0 1 LRC CHK 0 1 END 1 CR E...

Page 85: ...D 0 8 data 0 data 0 Error 0 Starting 0 Starting 0 code 2 address 0 0 LRC CHK 0 6 0 0 LRC CHK 1 D data 1 data 1 END 1 CR 7 7 END 0 LF 7 7 0 0 LRC CHK 1 7 LRC CHK 1 7 LRC CHK 0 0 LRC CHK 0 0 END 1 CR EN...

Page 86: ...0 Word 2 Word 2 Number of 0 LRC CHK 1 E data Byte 4 LRC CHK 0 8 The first 1 END 1 CR data 3 END 0 LF 8 8 The second 0 data F A 0 LRC CHK 1 9 LRC CHK 0 A END 1 CR END 0 LF RTU mode Command message Res...

Page 87: ...s CRC Cyclical Redundancy Check detect value CRC Cyclical Redundancy Check is calculated by the following steps Step 1 Load a 16 bit register called CRC register with FFFFH Step 2 Excusive OR the firs...

Page 88: ...m ADR to number of data is F76FH The command message is as following 6FH will transmit before F7H Command message ADR 01H CMD 03H 02H Data starting address 02H 00H Number of data word 02H CRC CHK Low...

Page 89: ...2nd accel decel 10B Comm forced 3rd accel decel 11B Comm forced 4th accel decel Bit 8 11 Represented 16 step speeds Bit 12 0 No comm multi step speed or accel decel time 1 Comm multi step speed or ac...

Page 90: ...rotect Fv Status of AC drive 00 Run LED is off and STOP led is on AC Drive stopping 01 RUN LED is blink and STOP led is on AC Drive deceleration to stop 10 RUN LED is on and STOP led is blink AC Drive...

Page 91: ...The AC motor drive does not receive the messages due to a communication error thus the AC motor drive has no response The master device will eventually process a timeout condition The AC motor drive...

Page 92: ...a address received in the command message is not available for the AC motor drive 03 Illegal data value The data value received in the command message is not available for the AC drive 04 Slave device...

Page 93: ...s calculated by master frequency and PID feedback signal P 10 03 I 10 04 10 01 Target value 02 00 Detection Signal 10 02 Position Negative Feedback Difference Range D 10 05 10 06 Upper Bound for Integ...

Page 94: ...controller is large and the response is fast The control ability to external is fast If the setting of integral time is too small output frequency and system may occur oscillation If integral time is...

Page 95: ...bnormal The treatment is set as 10 10 10 09 PID Feedback Signal Fault Treatment Time Factory Setting 0 0 Settings 0 0 3600 0 Sec Unit 0 1 This parameter is to set the detection time of abnormal PID de...

Page 96: ...t current is minimum If motor loading is unsteady torque loading loading torque is in direct proportion with speed For example the loading of fan or pump loading torque is low during low speed suitabl...

Page 97: ...Pr 11 03 time includes both the acceleration time and the running time coast to stop Motor 1 Motor 2 Motor 3 Motor 4 VFD F operation time freq by VFD F by VFD F by VFD F by VFD F Output Freq by VFD F...

Page 98: ...after time lag of 11 04 VFD F will switch 1st motor power supply to commercial power and energize 2nd motor At this time 1st motor is full power running and 2nd motor is running PID control mode by V...

Page 99: ...s are running if VFD F output frequency continually surpasses 11 06 frequency setting and 11 05 time period after time lag of 11 04 VFD F will energize 3rd motor as full power running and 1st motor is...

Page 100: ...1 runs by commercial power 02 Motor 1 runs by commercial power 02 Motor 1 runs by commercial power 03 02 N A N A 03 Motor 3 runs by AC drive 03 Motor 3 runs by AC drive N A 03 Motor 2 runs by AC driv...

Page 101: ...eed to set suitable time delay to avoid water hammer effect damaging AC drive motor or system This parameter determines time interval between power supply changes from AC drive to commercial power dur...

Page 102: ...tting 60 00 Hz Settings 0 00 to 120 00 Hz Unit 0 01Hz This parameter determines frequency that motor runs by commercial power during fixed amount circulation 11 01 02 fixed amount control 11 01 03 Thi...

Page 103: ...hat doesn t run Are there any motors that power supply is from commercial power Sleep Process Fixed amount circulation switch process T1 0 Away from commercial power in order NO YES NO YES T3 T3 1 T3...

Page 104: ...ttings 0 00 11 09 wake up frequency Unit 0 01 This parameter determines frequency after AC drive enters sleep process After AC drive enters sleep status it will stop to output signal but PID controlle...

Page 105: ...fixed amount circulation When AC drive occurs power circuit malfunction to make auxiliary power disable and microprocessor can t work all output will close automatically 11 11 Stop Frequency of Auxili...

Page 106: ...expected 4 Whether any irregular vibration or sound occurred during the operation 5 Whether the motors are overheated during the operation 6 Always check the input voltage of the AC drive with Voltmet...

Page 107: ...VFD F Series DELTA ELECTRONICS INC ALL RIGHTS RESERVED This page intentionally left blank...

Page 108: ...bnormal increase in current 1 Check whether the motors horsepower corresponds to the AC drive output power 2 Check the wiring connections between the AC drive and motor for possible short circuits 3 I...

Page 109: ...The AC drive detects excessive drive output current Note The AC drive can withstand up to 150 of the rated current for a maximum of 60 seconds 1 Check whether the motor is overloaded 2 Reduce torque...

Page 110: ...Decrease the torque boost setting in Pr 7 02 3 Increase the acceleration time 4 Replace with the AC drive with one that has a higher output capacity next HP size Over current during deceleration 1 Sh...

Page 111: ...as been cleared Internal memory IC cannot be programmed 1 Return to the factory 2 Check the EEPROM on the control board Internal memory IC cannot be read 1 Return to the factory 2 Reset drive to facto...

Page 112: ...rned off 1 When the external input terminal B B is active the AC drive output will be turned off 2 Disable this connection and the AC drive will begin to work again PID Feedback Signal Error 1 Check p...

Page 113: ...y heat sink fins Fan 1 2 fault 150 300HP Remove any foreign objects on the heatsinks and check for possible dirty heat sink fins Fan 1 3 fault 150 300HP Remove any foreign objects on the heatsinks and...

Page 114: ...Hardware Protection Failure 10 ocA current exceed during Acceleration 11 ocd current exceed during Deceleration 12 ocn current exceed during Steady State 13 GFF Ground Fault 14 Lv Low voltage 15 cF1...

Page 115: ...ed Bit 8 Master frequency source via communication interface Bit 9 Master frequency source via analog Bit10 Running command via communication interface Bit11 Parameter locked Bit12 15 Reserved Read 00...

Page 116: ...00 Hz 60 00 01 08 Lower Bound Frequency 0 00 120 00 Hz 0 00 a 01 09 Acceleration Time 1 0 1 3600 0 Sec 10 0 60 0 a 01 10 Deceleration Time 1 0 1 3600 0 Sec 10 0 60 0 a 01 11 Acceleration Time 2 0 1 3...

Page 117: ...abled 03 Controlled by the RS 485 communication interface keypad STOP enabled 04 Controlled by the RS 485 communication interface keypad STOP disabled 00 02 02 Stop Method 00 Stop ramp to stop E F Ext...

Page 118: ...step 100 5th 7 step Bit6 7 Reserved 00 a 02 09 Special Display 00 A displays output current of AC drive 01 U displays DC Bus voltage of AC drive 02 E displays RMS of output voltage 03 P displays feed...

Page 119: ...No 5 06 Motor No 6 07 Motor No 7 08 Motor No 8 09 Auxiliary 1 output 10 Auxiliary 2 output 11 Auxiliary 3 output 12 Auxiliary 4 output 13 Auxiliary 5 output 14 Auxiliary 6 output 15 Auxiliary 7 outpu...

Page 120: ...00 Output frequency 01 Output current 02 Output voltage 03 Frequency command 04 Power factor loading 01 a 03 12 Analog Output Gain 1 01 200 100 a 03 13 Analog Output Gain 2 01 200 100 03 14 Analog Ou...

Page 121: ...ccel Decel 3 selection 11 B B NO input 12 B B NC input 13 Increase frequency 14 Decrease frequency 15 Emergency stop NO 16 Emergency stop NC 17 AVI open ACI1 close 18 KEYPAD open EXT close 19 PID disa...

Page 122: ...0 20 0mA 20 0 04 19 ACI2 Minimum frequency percentage of Pr 1 00 0 00 100 00 0 00 04 20 ACI2 Maximum frequency percentage of Pr 1 00 0 00 100 00 100 00 04 21 Analog Input Delay AVI 0 00 10 00 Sec 0 5...

Page 123: ...0 00 120 00 Hz 0 00 a 05 12 13th Step Speed Frequency 0 00 120 00 Hz 0 00 a 05 13 14th Step Speed Frequency 0 00 120 00 Hz 0 00 a 05 14 15th Step Speed Frequency 0 00 120 00 Hz 0 00 05 15 PLC Mode 00...

Page 124: ...ns Settings Factory Setting Customer 05 28 Time Duration Step 12 0 0 to 65500 Sec 0 0 05 29 Time Duration Step 13 0 0 to 65500 Sec 0 0 05 30 Time Duration Step 14 0 0 to 65500 Sec 0 0 05 31 Time Durat...

Page 125: ...eration halted 03 Over torque detection enabled during operation OL2 and operation continues 04 Over torque detection enabled during operation OL2 and operation halted 00 06 04 Over torque Detection L...

Page 126: ...15 cF1 EEPROM WRITE failure 16 cF2 EEPROM READ failure 17 bb Base block 18 OL2 over load2 19 Reserved 20 Code software password protection 21 EF1 Emergency stop 22 PHL phase loss 23 Lc Low Current 24...

Page 127: ...model type a 07 02 Full load Current of Motor 30 120 100 a 07 03 No load Current of Motor 1 99 30 a 07 04 Auto Slip Compensation Gain 0 0 3 0 0 0 07 05 Rated Slip Frequency of Motor 0 00 20 00Hz 0 00...

Page 128: ...ard 00 08 09 Auto Restart Times after Fault 00 10 00 08 10 Auto Restart Time after Fault 00 to 60000 sec 600 08 11 Operation Frequency Inhibition 1 UP 0 00 120 00 Hz 0 00 08 12 Operation Frequency Inh...

Page 129: ...ime Detection during Transmission 00 Disable 01 Enable 00 09 04 Communication Format 00 7 bit for ASCII 01 8 bit for ASCII 02 8 bit for RTU 00 09 05 Even Odd Parity and Stopping Parity Setting 00 None...

Page 130: ...step speed 0101 5th step speed 0110 6th step speed 0111 7th step speed 1000 8th step speed 1001 9th step speed 1010 10th step speed 1011 11th step speed 1100 12th step speed 1101 13th step speed 1110...

Page 131: ...ack control 01 Positive feedback control 00 10 03 Proportional Gain P 0 0 10 0 1 0 10 04 Integral Time I 0 00 100 00 Sec 1 00 10 05 Differential Time D 0 00 1 00 Sec 0 00 10 06 Upper Bound for Integra...

Page 132: ...tors Control 01 04 01 11 03 Time Circulation Time Setting 00 65500 Min 00 11 04 Motor Switch Delay Time 0 0 3600 0 sec 1 0 11 05 Motor Switch Delay Time during Fixed Amount Circulation 0 0 3600 0 sec...

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Page 134: ...y Hz 0 10 120 00Hz Output Rating Carrier Frequency kHz 4 10 3 9 2 6 Rated Input Current A 3 2 4 3 5 9 11 2 14 19 25 32 39 49 60 73 91 120 160 160 200 240 300 380 400 Rated Voltage 3 phase 342 528 V In...

Page 135: ...ge Over Current Under Voltage Overload Overheating External Fault Electronic thermal Ground Fault Phase loss Built in Reactor DC Reactor 25 215HP AC Reactor 250 300HP Built in Brake Chopper 1 20HP Coo...

Page 136: ...15 11 6 186 2400W 13 6 BR1K2W6P8 2 125 13 6 20 15 8 248 3000W 10 2015 1 BR1K5W005 2 125 10 25 18 5 10 281 4800W 8 2022 1 BR1K2W008 4 125 8 30 22 12 338 4800W 6 8 2022 1 BR1K2W6P8 4 125 6 8 40 30 16 4...

Page 137: ...ation The definition of the brake usage ED is for assurance of enough time for the brake unit and brake resistor to dissipate away heat generated by braking When the brake resistor heats up the resist...

Page 138: ...0 BR080W750 BR300W070 BR300W100 BR300W250 BR300W400 BR400W150 BR400W040 TYPE L1 L2 H D W MAX WEIGHT g BR080W200 140 125 20 5 3 60 160 BR080W750 140 125 20 5 3 60 160 BR300W070 215 200 30 5 3 60 750 BR...

Page 139: ...N BR500W030 BR500W100 BR1K0W020 BR1K0W075 TYPE L1 L2 H D W MAX WEIGHT g BR500W030 335 320 30 5 3 60 1100 BR500W100 335 320 30 5 3 60 1100 BR1K0W020 400 385 50 5 3 100 2800 BR1K0W075 400 385 50 5 3 10...

Page 140: ...345 360 380 400 415 3V 660 690 720 760 800 830 6V 618 642 667 690 725 750 6V Input Rating DC Voltage 200 400VDC 400 800VDC 480 750VDC Heat Sink Overheat Temperature over 95 C 203 o F Alarm Output RELA...

Page 141: ...C ALL RIGHTS RESERVED B 6 B 1 3 Dimensions for Brake Unit Dimensions are in millimeter inch Figure 1 VFDB2015 VFDB2022 VFDB4030 VFDB4045 80 0 3 15 121 0 4 76 189 5 7 46 200 0 7 87 130 0 5 12 R3 3 R0 1...

Page 142: ...B VFD F Series DELTA ELECTRONICS INC ALL RIGHTS RESERVED B 7 Figure 2 VFDB4132 VFDB4132 CHARGE ACT OC OH...

Page 143: ...r drive and EMI filter are installed and wired according to user manual EN61000 6 4 EN61800 3 1996 A11 2000 EN55011 1991 Class A Group 1 1st Environment restricted distribution General precaution 1 EM...

Page 144: ...Series DELTA ELECTRONICS INC ALL RIGHTS RESERVED B 9 Remove any paint on metal saddle for good ground contact with the plate and shielding saddle the plate with grounding Saddle on both ends Saddle on...

Page 145: ...25 35 52 5 0 8 1 2 22 30 45 67 5 0 7 1 2 30 40 55 82 5 0 5 0 85 37 50 80 120 0 4 0 7 45 60 80 120 0 4 0 7 55 75 100 150 0 3 0 45 75 100 130 195 0 2 0 3 90 125 160 240 0 15 0 23 110 150 200 300 0 11 0...

Page 146: ...2 30 100 150 0 15 0 3 30 40 130 195 0 1 0 2 37 50 160 240 0 075 0 15 460V 50 60Hz 3 Phase Inductance mH kW HP Fundamental Amps Max continuous Amps 3 impedance 5 impedance 0 75 1 4 6 9 12 1 5 2 4 6 6 5...

Page 147: ...10 VFD007F43A H 5 VFD015F23A 15 VFD015F43A H 10 VFD022F23A 30 VFD022F43A H 15 VFD037F23A 40 VFD037F43A H 20 VFD055F23A 50 VFD055F43B H 30 VFD075F23A 60 VFD075F43B H 40 VFD110F23A 100 VFD110F43A H 50 V...

Page 148: ...3A 34 33 60 JJN 60 VFD075F43B H 19 18 40 JJS 40 VFD110F23A 50 49 100 JJN 100 VFD110F43A H 25 24 50 JJS 50 VFD150F23A 60 65 125 JJN 125 VFD150F43A H 32 32 60 JJS 60 VFD185F23A 75 75 150 JJN 150 VFD185F...

Page 149: ...ent display mode Left Key Move cursor to the left UP and DOWN Key Set the parameter number and changes the numerical data such as Master Frequency FWD REV Key Select FWD REV operation B 6 2 Explanatio...

Page 150: ...utomatically stored in memory To modify an entry use the or keys Err displays if the input is invalid Communication Error Please check the AC motor drive user manual Chapter 5 Group 9 Communication Pa...

Page 151: ...6G at 20Hz to 50Hz Notes 1 Please put RC network or Varistor on the side of coil to prevent sparks when connect the inductance loading device i e relay magnetic contactor motor etc 2 It is recommende...

Page 152: ...ELECTRONICS INC ALL RIGHTS RESERVED B 17 PCB SUPPORT PCB SUPPORT CONTROL BOARD PCB SUPPORT INSULATOR RELAY CARD SCREW M3 P0 5 TORQUE 2 4Kgf cm PCB SUPPORT SCREW M3 P0 5 TORQUE 2 4Kgf cm CONTROL BOARD...

Page 153: ...ly Zero Phase Reactor MOTOR Note 1 The table above gives approximate wire size for the zero phase reactors but the selection is ultimately governed by the type and diameter of cable fitted i e the cab...

Page 154: ...H1 W D1 S2 S1 UNIT mm inch Frame W W1 H H1 D D1 S1 S2 B1 150 0 5 91 135 0 5 32 260 0 10 24 244 3 9 63 160 2 6 31 4 0 0 16 8 0 0 32 6 5 0 26 NOTE Frame B B1 VFD007F23A VFD007F43A VFD007F43H VFD015F23A...

Page 155: ...D1 S1 UNIT mm inch Frame W W1 H H1 D D1 D2 S1 S2 C1 200 0 7 88 185 6 7 31 323 0 12 72 303 0 11 96 183 2 7 22 76 5 3 01 3 0 0 12 7 0 0 28 7 0 0 28 NOTE Frame C C1 VFD055F23A VFD055F43B VFD055F43H VFD0...

Page 156: ...D W W1 H H1 D S1 D2 D1 UNIT mm inch Frame W W1 H H1 D D1 D2 S1 D1 250 0 9 84 226 0 8 90 403 8 15 90 384 0 15 12 205 4 8 08 110 0 4 33 8 0 0 31 10 0 0 39 NOTE Frame D D1 VFD150F23A VFD185F23A VFD185F43...

Page 157: ...589 0 23 19 560 0 22 05 260 0 10 24 132 5 5 22 18 0 0 71 13 0 0 51 13 0 0 51 18 0 0 71 E2 370 0 14 57 335 0 13 19 595 0 23 43 589 0 23 19 560 0 22 05 260 0 10 24 132 5 5 22 18 0 0 71 13 0 0 51 13 0 0...

Page 158: ...DATA JOG RUN STOP REV VFD PU01 FWD F S1 D S3 S4 UNIT mm inch Frame W W1 H H1 H2 D D1 D2 S1 S2 S3 S4 G1 425 0 16 73 381 0 15 00 850 0 33 46 819 5 32 26 746 0 30 08 264 0 10 39 19 0 0 75 18 0 0 71 13 0...

Page 159: ...OG RESET STOP DATA JOG RUN STOP REV VFD PU01 FWD F S1 D S3 S4 UNIT mm inch Frame W W1 H H1 H2 H3 D D1 S1 S2 S3 H1 547 0 21 54 480 0 18 90 1357 6 53 45 1150 0 45 28 1119 0 44 06 1072 6 42 23 360 0 14 1...

Page 160: ...VFD F Series DELTA ELECTRONICS INC ALL RIGHTS RESERVED C 7 VFD PU01 Unit mm inches 6 5 0 26 19 0 0 75 110 0 4 33 73 0 2 87 97 0 3 82 44 0 1 73 77 0 3 03 M4 0 7 2X DATA PROG STOP MODE RUN JOG 4 0 0 1 5...

Page 161: ...VFD F Series DELTA ELECTRONICS INC ALL RIGHTS RESERVED C 8 KPF CC01 Unit mm inches...

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