background image

N700E INSTRUCTION MANUAL 

 

 

 

 

3-6 

 

 

3.1.4  Expanded Function Mode of b Group 

Code 

Name 

Edit 

Range 

Unit  Res  Default 

Restart Mode 

b01  Restart Select 

0: No Restart   

1: Restart from 0Hz 

2: Resume at frequency 

corresponding motor speed 

3: Resume at motor speed; then, 

decelerated to stop 

b02  Line Loss Ride-Through Time   

X  0.3 to 1.0 

Sec 

0.1 

1.0 

b03 

Line Loss Ride-Through Run 
Delay 

X  0.3 to 10.0 

Sec 

0.1 

1.0 

Electronic Thermal Overload Fault Setting

 

b04  Motor Thermal Overload Level   

X  20.0 to 120.0   

0.1 

100.0 

b05  Motor Thermal Overload Profile    X  0: Self Cooling 

1: Forced Cooling   

 

 

b06 

Overload/Overvoltage 
Restriction Mode   

0: OLR = OFF, OVR = OFF 

1: OLR = ON, OVR = OFF 

2: OLR = OFF, OVR = ON 

3: OLR = ON, OVR = ON 

b07  Overload Restriction Level 

X  20.0 to 200.0   

0.1 

HD : 180% 

ND : 150% 

(≤200HP) 

HD : 150% 

ND : 120% 

(≥250HP

 

,300LF~ 

750LF) 

b08 

Overload Restriction 
Deceleration Rate 

X  0.1 to 10.0 

Sec 

0.1 

1.0 

Software Lock Mode 

b09  Software Lock Mode   

0: All Parameters are locked except 

b09 when SFT terminal input 

is ON 

1: All parameters are locked   

except b09 and F01   

by SFT terminal signal 

2: All parameters are locked   

except b09   

3: All parameters are locked   

except b09 and F01   

4: All parameters are locked   

except b09, F01, F02, and F03   

 

 

Summary of Contents for N700E

Page 1: ...N700E INSTRUCTION MANUAL A N700E INSTRUCTION MANUAL For sizes N700E 055LF HF through N700E 3500HF DOC NO HHIS WZ PE 086 11 ...

Page 2: ...LTS FOR HF TYPE AND 240 VOLTS FOR LF TYPE MAXIMUM BRANCH CIRCUIT SHORT CIRCUIT PROTECTION SHALL BE PROVIDED BY FUSE ONLY 1 N700E MODELs and KA VALUE N700E 055LF 075LFP N700E 300LF 370LFP N700E 055HF 075HFP N700E 370HF 450HFP 5KA N700E 370LF 450LFP N700E 750LF 900LFP N700E 450HF 550HFP N700E 1320HF 1600HFP 10KA N700E 1600HF 2000HFP N700E 2200HF 2500HFP 18KA N700E 2800HF 3200HFP N700E 3500HF 3800HFP...

Page 3: ...OIDED CAN RESULT IN SERIOUS INJURY OR DEATH CAUTION INDICATES A POTENTIALLY HAZARDOUS SITUATION WHICH IF NOT AVOIDED CAN RESULT IN MINOR TO MODERATE INJURY OR SERIOUS DAMAGE OF PRODUCT THE MATTERS DESCRIBED UNDER CAUTION MAY IF NOT AVOIDED LEAD TO SERIOUS RESULTS DEPENDING ON THE SITUATION IMPORTANT MATTERS ARE DESCRIBED IN CAUTION AS WELL AS WARNING SO BE SURE TO OBSERVE THEM NOTE INDICATES AN AR...

Page 4: ...RY OPERATION THE GROUND FAULT PROTECTION CIRCUIT IS NOT DESIGNED TO PROTECT PERSONAL INJURY CAUTION HEAVY OBJECT TO AVOID MUSCLE STRAIN OR BACK INJURY USE LIFTING AIDS AND PROPER LIFTING TECHNIQUES WHEN REMOVING OR REPLACING CAUTION THESE INSTRUCTIONS SHOULD BE READ AND CLEARLY UNDERSTOOD BEFORE WORKING ON N700E SERIES EQUIPMENT CAUTION PROPER GROUNDS DISCONNECTING DEVICES AND OTHER SAFETY DEVICES...

Page 5: ...TYPICAL CONSTRUCTIONS THAT REDUCE THE POSSIBILITY OF CONDUCTIVE POLLUTION ARE 1 THE USE OF AN UNVENTILATED ENCLOSURE 2 THE USE OF A FILTERED VENTILATED ENCLOSURE WHEN THE VENTILATION IS FAN FORCED THAT IS VENTILATION IS ACCOMPLISHED BY ONE OR MORE BLOWERS WITHIN THE ENCLOSURE THAT PROVIDE A POSITIVE INTAKE AND EXHAUST ...

Page 6: ...OR LESS d VOLTAGE DISTORTION THD 10 OR LESS 2 INSTALLATION MEASURE a USE A FILTER DESIGNED FOR N700E INVERTER 3 WIRING a SHIELDED WIRE SCREENED CABLE IS REQUIRED FOR MOTOR WIRING AND THE LENGTH MUST BE LESS THAN 20 METERS b THE CARRIER FREQUENCY SETTING MUST BE LESS THAN 5KHZ TO SATISFY EMC REQUIREMENTS c SEPARATE THE MAIN CIRCUIT FROM THE SIGNAL PROCESS CIRCUIT WIRING d IN CASE OF REMOTE OPERATIN...

Page 7: ...ET OR BY ADDING COVERS AS FOLLOWS CABINET AND COVER THE VFD MUST BE INSTALLED INTO A CABINET WHICH HAS THE PROTECTION DEGREE OF TYPE IP2X IN ADDITION THE TOP SURFACES OF CABINET ARE EASILY ACCESSIBLE SHALL MEET AT LEAST THE REQUIREMENTS OF THE PROTECTIVE TYPE IP4X OR WHICH IS CONSTRUCTED TO PREVENT SMALL OBJECTS FROM ENTERING INVERTER Air IP4X cabinet IP20 with louver Air Fig 1 INVERTER CABINET ...

Page 8: ...0LF 370LFP 58 4 3 2P 52 6 2P 0 87 N700E 370LF 450LFP 58 4 2 2P 66 4 2P 0 87 N700E 450LF 550LFP 58 4 1 2P 83 7 2P 0 87 N700E 550LF 750LFP 105 7 2 0 2P 133 1 2P 1 18 N700E 750LF 900LFP 105 7 3 0 2P 167 8 2P 1 18 N700E 055HF 075HFP 12 4 12 6 53 0 42 N700E 075HF 110HFP 12 4 10 10 4 0 42 N700E 110HF 150HFP 12 4 8 16 5 0 42 N700E 150HF 185HFP 26 6 8 16 5 0 51 N700E 185HF 220HFP 26 6 8 16 5 0 51 N700E 22...

Page 9: ... 550LFP FWH 400A Bussmann N700E 550LF 750LFP FWH 600A Bussmann N700E 750LF 900LFP FWH 700A Bussmann N700E 055HF 075HFP 15 N700E 075HF 110HFP 20 N700E 110HF 150HFP 30 N700E 150HF 185HFP 40 N700E 185HF 220HFP 50 N700E 220HF 300HFP 60 N700E 300HF 370HFP 80 N700E 370HF 450HFP 100 N700E 450HF 550HFP 125 N700E 550HF 750HFP 150 N700E 750HF 900HFP 200 N700E 900HF 1100HFP 250 N700E 1100HF 1320HFP 300 N700E...

Page 10: ...omply with the following could result in electrical shock fire or other harm to personnel or machinery Be sure to comply Be sure to install the unit on flame resistant material such as metal Be sure not to place anything highly flammable in the vicinity Do not carry unit by top cover always carry by supporting base of unit Be sure not to let foreign matter enter VFD such as cut wire refuse spatter...

Page 11: ... fire or other harm to personnel or machinery Be sure to comply Make sure that the input voltage is 200 to 240V 10 50 60Hz 380 to 480V 10 50 60Hz For single phase input applications de rating of the VFD will be required for safe and reliable operation Please contact World Wide Electric for sizing assistance and proper VFD selection Be sure not to connect AC power supply to the output terminals U V...

Page 12: ...proach the equipment Be sure to design the equipment so that personnel safety will be secured even if equipment restarts Be sure not to select retry mode for lift or traveling equipment Even if the power supply is cut for a short period of time the inverter may restart operation after the power supply is restored if the operation command is given If a restart may incur danger to personnel be sure ...

Page 13: ...efore and during the test run Was the direction of the motor correct Did the inverter trip for on acceleration or deceleration Were the RPM and frequency motor correct Were there any abnormal motor vibrations or noises The AC reactor must be installed when the power is not stable in order to avoid damage to the VFD 4 Maintenance Inspection and Part Replacement CAUTION Failure to comply with the fo...

Page 14: ...ollowing could result in electrical shock fire or other harm to personnel or machinery Be sure to comply Never modify the unit For heavy objects over 33 lbs use lifting aids and proper lifting techniques to avoid muscle strain or back injury General Safety Information CAUTION ...

Page 15: ...20 1 5 11 N700E 2800HF 3200HFP N700E 3500HF 3800HFP Figure 1 18 2800HF 3500HF 1 21 1 6 Transportation 1 22 1 7 Unpacking 1 22 1 8 Installation 1 23 1 8 1 Mounting Surface 1 23 1 8 2 Mounting Position 1 23 1 8 3 Environment Ambient Temperature 1 24 1 8 4 Environment Humidity 1 24 1 8 5 Environment Air 1 24 1 8 6 Ventilation within an Enclosure 1 24 2 N700E VFD Set Up 2 1 2 1 Wiring 2 1 2 1 1 N700E ...

Page 16: ... 5 b Group Parameters 3 31 3 6 C Group Parameters 3 51 3 7 RS485 Communication 3 75 3 7 1 RJ 45 Port Connections and Pin Description Except 300LF 750LF 3 75 3 7 2 RXP PXN Connector 3 75 3 7 3 RS485 Interface Description 3 75 3 7 4 Communication Frame Type and Form 3 76 3 7 5 ModBus Address Table 3 82 4 Diagnostics Trouble Shooting 4 1 4 1 Fault Codes 4 1 4 2 Troubleshooting 4 3 4 3 Maintenance and...

Page 17: ... below Motor speed is a function of the number of motor poles and the frequency o At 60 Hz a motor runs at 3600 1800 1200 900 RPM for 2 poles 4 poles 6 poles and 8 pole respectively At 50 Hz 3000 1500 1000 750 RPM o A VFD can control the frequency to operate the motor over a range of speeds to optimize an application Maintain a constant motor speed regardless of load Control forward reverse operat...

Page 18: ...E 037HF 7 5 10 N700E 055LF N700E 055HF 10 15 N700E 075LF N700E 075HF 15 20 N700E 110LF N700E 110HF 20 25 N700E 150LF N700E 150HF 25 30 N700E 185LF N700E 185HF 30 40 N700E 220LF N700E 220HF 40 50 N700E 300LF N700E 300HF 50 60 N700E 370LF N700E 370HF 60 75 N700E 450LF N700E 450HF 75 100 N700E 550LF N700E 550HF 100 125 N700E 750LF N700E 750HF 125 150 N700E 900HF 150 200 N700E 1100HF 200 250 N700E 132...

Page 19: ...60 Hz 5 Rated Output Voltage Note2 Three Phase 200 240 V Corresponding to Input Voltage Protection Design IP20 Table 1 2 230V Class N700E 055LF 220LF Specification Summary Inverter Model Max Applicable Motor 4P kW HP Note1 Rated Capacity kVA Rated Output Current A Weight lbs HD ND HD ND HD ND 200V 240V 200V 240V 300LF 370LFP 30 40 37 50 39 47 48 58 114 140 53 00 370LF 450LFP 37 50 45 60 48 58 59 7...

Page 20: ...550HFP 45 60 55 75 59 2 74 8 72 7 87 2 90 105 59 5 550HF 750HFP 55 75 75 100 72 4 91 5 93 5 112 110 135 66 1 750HF 900HFP 75 100 90 125 98 1 123 9 111 133 149 160 110 2 900HF 1100HFP 90 125 110 150 115 8 146 3 135 162 176 195 110 2 1100HF 1320HF 110 150 132 200 142 8 180 4 159 191 217 230 132 3 1320HF 1600HFP 132 200 160 250 171 1 216 2 204 245 260 285 132 3 1600HF 2000HFP 160 250 200 300 195 230 ...

Page 21: ...l Start Stop FW RV Selection Intelligent Input Terminal FW Forward Run RV Reverse Run CF1 4 Multi speed Inputs 1 4 RS Reset AT Analog input current voltage selection signal USP Unattended Start Protection EXT1 6 External trip 1 6 FRS Free Run Stop JG Jogging SFT software lock 2CH 2nd Acceleration Deceleration STA STP F R 3 wire UP DOWN Up down UP DOWN initial value clear O R Local Keypad Operation...

Page 22: ...load OVS fail Fan fault Only 300LF 750LF Environment specification Ambient Temperature 10 40 If ambient temperature is above 40 Carrier frequency should be lower than default value Storage temperature 20 60 Ambient humidity Below 90 RH Installed with no dew condensation Vibration 5 9m s 2 0 6G 10 55Hz Location Under 1000m above sea level indoors Installed away from corrosive gasses dust Option Noi...

Page 23: ...RUCTION MANUAL 1 7 1 4 N700E Panel View 1 4 1 N700E 055LF 075LFP N700E 220HF 300HFP Figure 1 1 Front View with without Front Cover 055LF 220HF Front Cover Main circuit terminals Control circuit terminals Operator ...

Page 24: ...N700E INSTRUCTION MANUAL 1 8 1 4 2 N700E 300LF 370LFP Figure 1 2 Front View with without Front Cover 300LF Operator Front Cover Control circuit terminals Main circuit terminals ...

Page 25: ...N700E INSTRUCTION MANUAL 1 9 1 4 3 N700E 370LF 450LFP N700E 450LF 550LFP Figure 1 3 Front View with without Front Cover 370LF 450LF Operator Front Cover Main circuit terminals Control circuit terminals ...

Page 26: ...N700E INSTRUCTION MANUAL 1 10 1 4 4 N700E 550LF 750LFP N700E 750LF 900LFP Figure 1 4 Front View with without Front Cover 550LF 750LF Operator Front Cover Main circuit terminals Control circuit terminals ...

Page 27: ...t View with without Front Cover 370HF 1320HF 1 4 6 N700E 1600HF 2000HFP N700E 2200HF 2500HFP Figure 1 6 Front View with without Front Cover 1600HF 1320HF Front Cover Operator Operator Front Cover Control circuit terminals Control circuit terminals Main circuit terminals Main circuit terminals ...

Page 28: ...0E INSTRUCTION MANUAL 1 12 1 4 7 N700E 2800HF 3200HFP N700E 3500HF 3800HFP Figure 1 4 Front View with without Front Cover 2800HF 3500HF Operator Front Cover Control circuit terminals Main circuit terminals ...

Page 29: ...7 7 44 10 83 9 69 6 61 0 28 9 26 N700E 075HF 110HFP 8 27 7 44 10 83 9 69 6 61 0 28 9 92 N700E 110HF 150HFP 8 27 7 44 10 83 9 69 6 61 0 28 9 92 N700E 150HF 185HFP 9 84 9 02 15 35 14 80 7 40 0 28 15 43 N700E 185HF 220HFP 9 84 9 02 15 35 14 80 7 40 0 28 15 43 N700E 220HF 300HFP 9 84 9 02 15 35 14 80 7 40 0 28 16 53 N700E 300HF 300HFP 12 28 10 43 9 45 20 87 20 08 10 63 0 39 48 50 N700E 370HF 450HFP 12...

Page 30: ...nch H 6 61 inch D 2 Ф 0 28 inch 2 0 28 inch 0 28 0 87 Figure 1 8 Physical Dimension Specific to 055LF 110LF 055HF 110HF 1 5 2 N700E 150LF 185LFP N700E 185LF 220LFP N700E 220LF N700E 150HF 185HFP N700E 185HF 220HFP N700E 220HF 300HFP 9 84 inch W 15 35 inch H 14 8 inch H1 7 4 inch D 9 02 inch W1 2 Ф 0 28 inch 2 0 28 inch 0 28 0 28 Figure 1 9 Physical Dimension Specific to 150LF 220LF 185HF 220HF ...

Page 31: ... 1 15 1 5 3 N700E 300LF 370LFP 10 63 inch W 7 87 inch W1 2 Φ9 0 35 inch 9 84 inch 10 43 inch D 0 59 inch 0 39 inch 0 31 inch 21 65 ihch H 7 87 inch W1 2 0 35 inch 20 94 ihch H1 Figure 1 10 Physical Dimension Specific to 300LF ...

Page 32: ...N700E 370LF 450LFP N700E 450LF 550LFP 9 84 inch 10 43 inch D 2 Φ9 0 35 inch 0 59 inch 11 61 inch W 7 87 inch W1 25 98 ihch H 25 28 ihch H1 0 39 inch 0 31 inch 2 0 35 inch 7 87 inch W1 Figure 1 11 Physical Dimension Specific to 370LF 450LF ...

Page 33: ...700E 550LF 750LFP N700E 750LF 900LFP 10 24 inch 10 83 inch D 2 Φ12 0 47 inch 0 59 inch 13 58 inch W 9 06 inch W1 29 92 ihch H 28 94 ihch H1 0 63 inch 0 35 inch 2 0 47 inch 9 06 inch W1 Figure 1 12 Physical Dimension Specific to 550LF 750LF ...

Page 34: ... 12 28 inch W 10 43 inch W1 20 08 inch H1 20 87 inch H 10 63 inch D 4 Ф 0 39 inch 9 45 inch W2 0 39 2 0 39 inch 10 43 inch 0 39 1 5 7 N700E 450HF 550HFP N700E 550HF 750HFP Figure 1 14 450HF 550HF 2 Ф 0 47 inch 13 46 inch W 11 81 inch W1 20 47 inch H1 21 57 inch H 0 55 0 55 2 0 47 inch 11 02 inch D ...

Page 35: ...N700E INSTRUCTION MANUAL 1 19 1 5 8 N700E 750HF 900HFP N700E 900HF 1100HFP Figure 1 15 750HF 900HF 2 0 47 inch 15 59 inch W 0 55 11 02 inch D 0 55 11 81 inch W1 27 48 inch H 26 38 inch H1 2 Ф 047 inch ...

Page 36: ...ch H1 0 59 3 Ф 0 47 inch 3 0 47 inch 18 9 inch W 0 59 29 13 inch H 11 81 inch D 14 96 inch W1 1 5 10 N700E 1600HF 2000HFP N700E 2200HF 2500HFP Figure 1 17 1600HF 2200HF 19 92 inch W 35 04 inch H1 13 78 inch W1 0 59 inch 36 22 inch H 2 Ф 0 55 inch 2 0 55 inch 15 35 inch D 15 35 inch D 3 07 inch 3 07 inch 0 59 inch ...

Page 37: ... 1 21 1 5 11 N700E 2800HF 3200HFP N700E 3500HF 3800HFP Figure 1 18 2800HF 3500HF 0 79 inch 3 0 55 inch 40 16 inch H 15 55 inch D 15 55 inch D 38 58 inch H1 0 79 inch 31 73 inch W 3 Ф 0 55 inch 27 56 inch W1 2 09 inch 2 09 inch ...

Page 38: ...ring delivery Do not place heavy items on the inverter 1 7 Unpacking Please inspect following No damage made to the unit during transportation One Operational Manual is enclosed Check the Label Specification if the correct product is delivered per your order Model N700E 110LF 150LFP Max Temp 40deg OUTPUT CAPACITY 17 1kVA 19kVA IP20 INPUT 3Ph 200 240V 50 60Hz 47 4A OUTPUT 3Ph 0 240V 0 01 400Hz 45A ...

Page 39: ...t and well ventilated Avoid an environment which tends to be high in temperature high in humidity or to have condensation 1 8 1 Mounting Surface It is critical to mount the VFD to the proper surface in order to prevent any possible risk of fire The temperature of the VFD heatsink can rise very high The surface must be made of a non flammable material i e steel Attention should also be made to the ...

Page 40: ...ces should the VFD be in an environment where there is the possibility of moisture entering the inverter Also avoid having the VFD mounted in a place that is exposed to the direct sunlight 1 8 5 Environment Air Install the VFD in a place free from dust corrosive gas explosive gas combustible gas mist of coolant and sea damage 1 8 6 Ventilation within an Enclosure If you are installing one or more ...

Page 41: ... to 22kW 30HP Due to the possibility that a wire may be damaged shorted or may have a ground fault with the edge of the wiring cover CAUTION Failure to comply with the following could result in electrical shock fire or other harm to personnel or machinery Make sure that the input voltage is 200 to 240V 10 50 60Hz Model N700E 055LF 075LFP 750LF 900LFP 380 to 480V 10 50 60Hz Model N700E 055HF 075HFP...

Page 42: ...y1 Default AlarmSignal G AL1 AL2 AL0 RN3 RN2 Default RUN Siganl Control Circuit N700E IM T1 T2 T3 Rectifier Control PCB Inverter Signals L Power Circuit 1 Intelligent Input 6 connections Digital Input 4 5 6 P10V RXP RXN Analog Input 200 10k 230 V D type 460 V C type Earth Ground 1 5kΩ Communication RN1 RN0 Default Frequency Arrival Signal AMI Output Monitor Analog Current Out FM Output Relay2 Outp...

Page 43: ...tive terminal can be used as command Contact Closed ON Contact Open OFF Min ON Time 12 ms CM1 IN OUT Common Terminal for Intelligent Input and Monitor Output AMI OUT Analog Current 4 20mA Output FM OUT Analog Voltage 0 10V Output L OUT DC Power Supply Common H P12 OUT Power Supply for Potentiometer 12VDC O IN Analog Voltage for Frequency Setpoint 0 10 VDC Input Impedance 10 kΩ OI IN Analog Current...

Page 44: ...Output Monitor Analog Voltage Out DC0 10V DC4 20mA P24 Output Relay1 Default AlarmSignal G AL1 AL2 AL0 RN3 RN2 Default RUN Siganl Control Circuit N700E IM T1 T2 T3 Rectifier Control PCB Inverter Signals L Power Circuit 1 Intelligent Input 6 connections Digital Input 4 5 6 P10V RXP RXN Analog Input 200 10k 230 V D type 460 V C type Earth Ground N 1 5kΩ Communication RN1 RN0 Default Frequency Arriva...

Page 45: ...erminal can be used as command Contact Closed ON Contact Open OFF Min ON Time 12 ms CM IN OUT Common Terminal for Intelligent Input and Monitor Output AMI OUT Analog Current 4 20mA Output FM OUT Analog Voltage 0 10V Output L OUT DC Power Supply Common H P12 OUT Power Supply for Potentiometer 12VDC O IN Analog Voltage for Frequency Setpoint 0 10 VDC Input Impedance 10 kΩ OI IN Analog Current for Fr...

Page 46: ...de Electric for proper sizing Do not operate under the following conditions Unbalanced power supply voltage more than 3 Power supply capacity more than 10 times of the capacity of inverter and case beyond 600kVA 4000 Power Supply Capacity kVA 600 0 60 400 Power Supply Hamonics Reactor Required Drive Capacity kVA Reactor Unnecessary Turning on off the power supply more than three times in one minut...

Page 47: ...RD Dynamic Braking Module 2 1 2 5 Regenerative Breaking Unit Terminals P N 30kW 40HP Units VFDs rated greater than and equal to 30KW 40HP do not contain an internal BRD circuit If regenerative braking is going to occur then an external BRD circuit Option is required along with a resistor Option Connect external regenerative braking unit terminals P N to terminals P N on the VFD The braking resisto...

Page 48: ...110HF 150HFP M4 0 42 R L1 S L2 T L3 PD 1 P RB U T1 V T2 W T3 G G N700E 110LF 150LFP M5 0 51 R L1 S L2 T L3 PD 1 P RB U T1 V T2 W T3 G G N700E 150LF 185LFP N700E 150HF 185HFP N700E 185HF 220HFP N700E 220HF 300HFP M5 0 51 R L1 S L2 T L3 PD 1 P RB U T1 V T2 W T3 G G N700E 185LF 220LFP N700E 220LF M6 0 67 R L1 S L2 T L3 P N U T1 V T2 W T3 G G N700E 300LF 370LFP M8 0 87 R L1 S L2 T L3 P N U T1 V T2 W T...

Page 49: ... 750HF 900HFP N700E 900HF 1100HFP M8 1 14 R L1 S L2 T L3 PD 1 P N U T1 V T2 W T3 G G N700E 1100HF 1320HFP N700E 1320HF 1600HFP M10 1 18 PD 1 P N R L1 S L2 T L3 U T1 V T2 W T3 G G N700E 1600HF 2000HFP N700E 2200HF 2500HFP M10 1 50 PD 1 P N R L1 S L2 T L3 U T1 V T2 W T3 G G N700E 2800HF 3200HFP N700E 3500HF 3800HFP M13 1 50 Table 2 3 Wiring of Power Circuit Terminals ...

Page 50: ...Terminal Torque N m Lb ft AWG kcmil 230V Class 7 5 N700E 055LF 075LFP 8 16 5 8 M4 1 2 0 89 10 N700E 075LF 110LFP 8 16 5 8 M4 1 2 0 89 15 N700E 110LF 150LFP 6 26 3 8 M5 3 0 2 21 20 N700E 150LF 185LFP 4 41 7 4 M5 3 0 2 21 25 N700E 185LF 220LFP 3 52 6 4 M6 4 5 3 32 30 N700E 220LF 1 83 7 4 M6 4 5 3 32 40 N700E 300LF 370LFP 3 2P 52 6 2P M8 6 0 4 43 50 N700E 370LF 450LFP 2 2P 66 4 2P M8 6 0 4 43 60 N700...

Page 51: ...0HFP 6 26 3 6 M5 3 0 2 21 40 N700E 300HF 370HFP 4 41 7 M6 4 5 3 32 50 N700E 370HF 450HFP 2 66 4 M6 4 5 3 32 60 N700E 450HF 550HFP 1 83 7 M8 6 0 4 43 75 N700E 550HF 750HFP 2 0 133 M8 6 0 4 43 100 N700E 750HF 900HFP 4 0 212 M8 6 0 4 43 125 N700E 900HF 1100HFP 300 M8 6 0 4 43 150 N700E 1100HF 1320HFP 350 M10 10 0 7 38 200 N700E 1320HF 1600HFP 400 M10 10 0 7 38 250 N700E 1600HF 2000HFP 4 0 2P 212 2P M...

Page 52: ...20 N700E 110LF 150LFP 6 26 3 4 M5 3 0 2 21 25 N700E 150LF 185LFP 4 41 7 4 M6 4 5 3 32 30 N700E 185LF 220LFP 3 52 6 4 M6 4 5 3 32 30 N700E 220LF 1 83 7 4 M6 4 5 3 32 40 N700E 300LF 370LFP 3 2P 52 6 2P M8 6 0 4 43 50 N700E 370LF 450LFP 2 2P 66 4 2P M8 6 0 4 43 60 N700E 450LF 550LFP 1 2P 83 7 2P M8 6 0 4 43 75 N700E 550LF 750LFP 2 0 2P 133 1 2P M10 10 0 7 38 100 N700E 750LF 900LFP 3 0 2P 167 8 2P M10...

Page 53: ...0HFP 6 26 3 M6 4 5 3 32 50 N700E 300HF 370HFP 4 41 7 M6 4 5 3 32 60 N700E 370HF 450HFP 2 66 4 M8 6 0 4 43 75 N700E 450HF 550HFP 1 83 7 M8 6 0 4 43 100 N700E 550HF 750HFP 2 0 133 M8 6 0 4 43 125 N700E 750HF 900HFP 4 0 212 M8 6 0 4 43 150 N700E 900HF 1100HFP 300 M10 10 0 7 38 200 N700E 1100HF 1320HFP 350 M10 10 0 7 38 250 N700E 1320HF 1600HFP 400 M10 10 0 7 38 300 N700E 1600HF 2000HFP 4 0 2P 212 2P ...

Page 54: ...00A Bussmann N700E 550LF 750LFP FWH 600A Bussmann N700E 750LF 900LFP FHW 700A Bussmann N700E 055HF 075HFP 15 N700E 075HF 110HFP 20 N700E 110HF 150HFP 30 N700E 150HF 185HFP 40 N700E 185HF 220HFP 50 N700E 220HF 300HFP 60 N700E 300HF 370HFP 80 N700E 370HF 450HFP 100 N700E 450HF 550HFP 125 N700E 550HF 750HFP 150 N700E 750HF 900HFP 200 N700E 900HF 1100HFP 250 N700E 1100HF 1320HFP 300 N700E 1320HF 1600H...

Page 55: ... a rapid change in the power supply It also reduces harmonics and improves the power factor 2 Noise filter for Inverter Reduces common noise generated between the power supply and the ground as well as normal noise Put it in the primary side of inverter 3 Radio Noise Filter zero phase reactor Helps to reduce noise on a peripheral radio when an inverter is running 4 Input Radio Noise Filter capacit...

Page 56: ... 17 1000 150LF 185LFP 8 7 2500 185LF 220LFP 6 3000 220LF 6 4000 055HF 075HFP 70 1200 075HF 110HFP 50 1200 110HF 150HFP 50 2000 150HF 185HFP 30 2500 185HF 220HFP 20 3000 220HF 300HFP 20 4000 Table 2 11 Recommended DB Resistors for the N700E VFDs 5 Duty Cycle 2 1 3 Control Circuit Wiring RJ45 RXP RNP CM1 6 5 4 3 2 1 CM1 P24 H O OI L L FM AM1 RN0 RN1 RN2 RN3 AL0 AL1 RN2 Figure 2 5 Control Circuit Ter...

Page 57: ...he connection wires to 65 feet Separate the control circuit wiring from the main power and relay control wiring When using relays for the FW terminal or an intelligent input terminal use a control relay that is designed to work with 24 Vdc When a relay is used as an intelligent output connect a diode for surge protection parallel to the relay coil Do not short the analog voltage terminals H and L ...

Page 58: ...3 External Power supply 24V PNP TRANSISTOR Don t care J1 IGND PCS J3 SW2 IGND PCS J2 IPV24 PCS J4 SW3 IPV24 PCS Sink Mode Internal power supply Sink Mode External power supply 24V P24 IGND PCS CM1 PCS 1 2 3 4 5 6 INVERTER NPN TRANSISTOR J1 J3 SW2 J2 J4 SW3 J2 IPV24 PCS J4 SW3 IPV24 PCS J3 SW2 IGND PCS J1 IGND PCS IGND PCS CM1 1 2 3 4 5 6 INVERTER NPN TRANSISTOR 24V P24 PCS J1 J3 SW2 J2 J4 SW3 Exte...

Page 59: ...erminal strip In addition a second RS 485 option is offered via RXP RXN terminals RJ45 RXP RNP CM1 6 5 4 3 2 1 CM1 P24 H O OI L L FM AM1 RN0 RN1 RN2 RN3 AL0 AL1 RN2 Figure 2 10 Communication Terminal Connector Diagram Except 300LF 750LF 1 3 5 FM AMI OI RN2 RN3 P24 PCS CM L RXP RXN AL0 AL1 AL2 2 4 6 CM H O L RN0 RN1 Figure 2 11 Communication Terminal Connector Diagram Only 300LF 750LF Sink Type RN0...

Page 60: ...dance matching resistor in long distance transport of RS 485 data The termination resistor is inserted only in the final stage in single line Terminating resistance selection switch SW7 055LF HF 220LF HF 300HF 3500HF except 300LF 750LF SW1 Only 300LF 750LF Default Status Terminating resistance ON 1 Regarding terminating resistance only applied to RXP RXN terminals 2 Turn off the switch when master...

Page 61: ...y Pad Description KEY STOP RESET Stop Reset Function FUNC Run UP Arrow Down Arrow Store RUN STR Potentiometer Stop the motor or reset the faults Selection of parameter and parameter value To run VFD Key is active when its LED is ON Increment the parameter or increase the parameter value Decrement the parameter or decrease the parameter value Stores the new parameter value to memory Set the VFD out...

Page 62: ... values Up Down Keys are to select the specified functional code by moving up or down RUN RUN Key It executes the VFD to Running A set value in F04 determines a forward run or a Reverse run STOP STOP RESET Key It executes the VFD to stop For trips it resets the VFD RESET STR STORE Key It stores the selected data to the memory register F 01 58 0 F 01 FUNC 58 1 57 9 FUNC F 01 58 0 FUNC 58 1 STR A FU...

Page 63: ...Command will appear Press the FUNC key again to enter the set point 0 shown as potentiometer Press the Up Arrow key twice till 2 Press the STR key to store value 2 to A01 register A 01 Press the FUNC key once Display A Now F01 Frequency Set Point Press the FUNC key for entering Frequency Data Press the Up Arrow key till specific value 60 00 Hz Press the STR key to store value 60 to F01 register FU...

Page 64: ... keys simultaneously and move the digit by the STR key When UP and DOWN keys are pressed simultaneously the most left 7 segment digit blinks Then by pressing the STR key the data pointer is shift to the right and blinks its corresponding segment bit When reached to the most right segment STR key brings it back to the functional code F 01 FUNC DataField Press On Display Discription Press the FUNC k...

Page 65: ...nd DOWN keys simultaneously to move to the display mode It goes to one of d group Parameters by set point in b30 Parameter d 01 d 17 F 01 F 04 A 01 A 65 b 01 b 54 C 01 C 27 H 01 H 11 A b C H AND o 01 o 33 o U d 01 d 13 If b 30 1 If b 30 13 Figure 2 17 N700E Advanced Key Feature Shortcut to d Group Parameter ...

Page 66: ...ping command can be done by Keypad RUN STOP Keys 2 3 7 Intelligent Input Terminal Connector 2 3 8 Modbus RJ 45 2 3 9 Modbus Remote Operator 2 3 10 2 3 1 Frequency Command Source to Potentiometer Keypad Diagram Programming N700E Parameters Set Frequency Setpoint Keypad Diagram Potentiometer Programming N700E Parameters for Frequency Command Source to Potentiometer on Keypad On Keypad program follow...

Page 67: ...Code Set Value Description A01 2 Frequency Command Source to Up Down Keys on Keypad F01 Program Frequency Setpoint Setting Frequency Setpoint Navigate parameter F01 Press the function key to open F01 Use Up Down keys to program the frequency setpoint Press the store key to save the value 2 3 3 Frequency Command Source to Input Terminal Multi Speed Frequency Input Terminal Diagram Programming N700E...

Page 68: ...F1 0001 A12 Frequency Value Selected when CF4 CF3 CF2 CF1 0010 A13 Frequency Value Selected when CF4 CF3 CF2 CF1 0011 A14 Frequency Value Selected when CF4 CF3 CF2 CF1 0100 A15 Frequency Value Selected when CF4 CF3 CF2 CF1 0101 A16 Frequency Value Selected when CF4 CF3 CF2 CF1 0110 A17 Frequency Value Selected when CF4 CF3 CF2 CF1 0111 A18 Frequency Value Selected when CF4 CF3 CF2 CF1 1000 A19 Fre...

Page 69: ...uency Command Source to Input Voltage Source or Current Source On Keypad program following parameters with corresponding values Code Set Value Description A01 1 Frequency Command Source to Input Terminal C05 13 Set Terminal 5 to AT Operation If Closed Select Current Source If opened Voltage Source If function 13 is not programmed to any of the terminals on the terminal strip C01 C06 frequency setp...

Page 70: ...r 4 Integer data represents 0 01 Hz ex 6000 60 00 Hz 2 3 6 Frequency Command Source to Remote Operator RXP RXN Use RXP RXN Terminal Programming N700E Parameters Specifying Command Sources Entering Frequency Set Point Programming Frequency Command Source to Remote Operator RXP RXN On Keypad program following Parameters Code Set Value Description A01 4 Frequency Command by Remote RXP RXN b17 1 Commu...

Page 71: ...00E Parameters Executing RUN command Diagram Programming Run Stop Command Source to Keys on Keypad On Keypad program following parameters Code Set Value Description A02 0 Run Command Source to RUN STOP Keys on Keypad Executing Run Command Press RUN Key on the keypad to execute Run command For stop the VFD ...

Page 72: ... Value Description A02 1 Run Command Source to Input Terminal C01 0 Set Terminal 1 to Forward FW Run Operation C02 1 Set Terminal 2 to Reverse RV Run Operation Executing Run Stop Closing FW switch Run command is executed in forward direction when opened it stops the VFD Closing RV switch Run command is executed in reverse direction when opened it stops the VFD If both FW and RV switches are closed...

Page 73: ...g VFD Use Modbus register 2 Data 0 Stop 1 Forward Run 2 Reverse Run 2 3 10 Run Command Source to Remote Operator RXP RXN Use RXP RXN Terminal Programming N700E Parameters Running Stopping VFD Programming Frequency Command Source to Remote Operator RXP RXN On Keypad program following Parameters with corresponding set point Code Set Value Description A02 3 Frequency Command by Remote RXP RXN b31 3 R...

Page 74: ...01 Output Frequency Monitor 0 00 to 400 00 Hz d02 Output Current Monitor 0 0 to 9999 A d03 Output Voltage Monitor 0 to 480 V AC d04 Rotation Direction F Forward Stop r Reverse Run d05 PID Feedback 0 00 to 100 0 d06 Intelligent Input Terminal Status d07 Intelligent Output Terminal Status d08 RPM Output 0 to 65540 RPM d09 Power Consumption 0 to 999 9 kW d10 VFD Runtime Hours 0 to 9999 Hours d11 VFD ...

Page 75: ...uency Setpoint Source X 0 Keypad Potentiometer 1 Terminal 2 Keypad Up Down Keys 3 RJ45 Connector Except 300LF 750LF 4 RXP RXN Terminal 5 Fieldbus option 0 A02 Run Source X 0 Keypad 1 Input Terminal 2 RJ45 Connector Except 300LF 750LF 3 RXP RXN Terminal 4 Fieldbus option 0 A03 Base Frequency Setpoint X 0 00 to A04 Max Frequency Hz 0 01 60 00 A04 Maximum Frequency Setpoint X A03 to 400 00 if A31 2 A...

Page 76: ...s Vector Control 0 A32 Voltage Gain Factor O 20 0 to 110 0 0 1 100 0 DC Injection Braking Settings at VFD Stop A33 DC Injection Braking X 0 Disabled 1 Enabled 0 A34 DC Injection Braking Frequency Setpoint X 0 50 to 10 00 Hz 0 01 0 50 A35 DC Injection Braking Delay Time X 0 0 to 5 0 Sec 0 1 0 0 A36 DC Injection Braking Force at Stop O 0 0 to 100 0 0 1 50 0 30HP 10 0 40HP 7 0 250HP A37 DC Injection ...

Page 77: ... 1 30 0 A56 Accel Decel 2 Command Select X 0 2CH Input Terminal 1 Parameters A54 A55 A57 A58 0 A57 Accel 2 Transition Frequency X 0 00 to Max Frequency A04 Hz 0 01 0 00 A58 Decel 2 Transition Frequency X 0 00 to Max Frequency A04 Hz 0 01 0 00 A59 Acceleration Curve Select X 0 Linea 1 S curve 2 U curve 0 A60 Deceleration Curve Select X 0 Linear 1 S curve 2 U curve 0 A61 Analog Input Voltage Offset ...

Page 78: ... 0 1 100 0 A75 PID I Gain Time O 0 0 to 3600 Sec 0 1 1 0 A76 PID D Gain Time O 0 00 to 10 00 Sec 0 01 0 0 A77 PID Error Limit O 0 0 to 100 0 0 1 100 0 A78 PID Output High Limit O 100 0 to 100 0 0 1 100 0 A79 PID Output Low Limit O 100 0 to 100 0 0 1 0 0 A80 PID Output Invert X 0 Disabled 1 Enabled 0 A81 PID Scale Factor X 0 1 to 1000 0 1 100 0 A82 Pre PID Frequency Setpoint X 0 00 to Max Frequency...

Page 79: ...100 0 b05 Motor Thermal Overload Profile X 0 Self Cooling 1 Forced Cooling 0 b06 Overload Overvoltage Restriction Mode X 0 OLR OFF OVR OFF 1 OLR ON OVR OFF 2 OLR OFF OVR ON 3 OLR ON OVR ON 3 b07 Overload Restriction Level X 20 0 to 200 0 0 1 HD 180 ND 150 200HP HD 150 ND 120 250HP 300LF 750LF b08 Overload Restriction Deceleration Rate X 0 1 to 10 0 Sec 0 1 1 0 Software Lock Mode b09 Software Lock ...

Page 80: ...o 300 1 100 b21 Speed Search Voltage Decrease O 10 to 300 1 100 b22 Speed Search Speed Decrease O 1 0 to 200 0 On display 10 2000 0 1 100 0 1000 b23 Frequency Match O 0 Start from 0 Hz 1 Start from frequency corresponding motor speed 0 b24 Fault Relay Select O 0 Inactive for the Under Voltage trip signal 1 Inactive during auto reset 2 Active every trip 3 Active for the Under Voltage trip signal en...

Page 81: ...n O 0 Disabled 1 Enabled v 0 b41 Limit Time O 0 0 to 1000 Sec 0 1 0 5 DC Injection Braking Setting b42 VFD Start Delay Time after DC Injection Braking X 0 0 to 60 0 Sec 0 1 0 0 b43 DC Injection Braking Time at Start O 0 0 to 6000 Sec 0 1 0 0 b44 Current Controller P Gain in DC Braking O 1 0 to 10000 1 1000 b45 Current Controller I Gain Time in DC Braking O 0 0 to 10000 Sec 1 500 b46 DC Injection B...

Page 82: ...ction 2 Underload Detection 3 Overload Underload Detection 4 Overload Detection with Fault E23 5 Underload Detection with Fault E24 6 Overload Underload Detection with Fault E23 E24 0 b57 System Overload Detection Level X 20 0 to 200 0 0 1 100 0 b58 System Underload Detection Level X 20 0 to 200 0 0 1 100 0 b59 System Overload Underload Detection Time X 0 0 to 60 0 Sec 0 1 10 0 b60 System Overload...

Page 83: ...Terminal Input Override T R 22 PID Integral Reset PIDIR 23 PID Disabled PIDD 24 Freq Override F O 25 Reset Override R O 26 External trip2 EXT2 27 External trip3 EXT3 28 External trip4 EXT4 29 External trip5 EXT5 30 External trip6 EXT6 31 UP DOWN Initial Value Clear 0 C02 Intelligent Input Terminal 2 X 1 C03 Intelligent Input Terminal 3 X 2 C04 Intelligent Input Terminal 4 X 3 C05 Intelligent Input...

Page 84: ...r Monitor 4 Output Torque Monitor 5 Operated by Communication 0 C19 FM Gain O 0 0 to 250 0 0 1 100 0 C20 FM Offset O 3 0 to 10 0 0 1 0 0 C21 Motor Overload Alarm X 10 0 to 200 0 0 1 100 0 C22 FA2 SetPoint at Acceleration X 0 00 to Max Frequency A04 Hz 0 01 0 00Hz C23 FA2 SetPoint at Deceleration X 0 00 to Max Frequency A04 Hz 0 01 0 00Hz C24 PID Error Tolerance X 0 0 to 100 0 0 1 10 0 C25 AMI Outp...

Page 85: ...0 HP 40H 40 HP 50H 50 HP 60H 60 HP 75H 75 HP 100H 100 HP 125H 125 HP 150H 150 HP 200H 200 HP 250H 250 HP 275H 275 HP 300H 300 HP 350H 350 HP 400H 400 HP 425H 425 HP 450H 450 HP 500H 500 HP H04 Motor Poles Setting X 2 4 6 8 4 H05 Motor Rated Current X 0 1 to 800 0 A 0 1 H06 Motor Flux Current X 0 1 to 400 0 A 0 1 H07 Motor Rated Slip X 0 01 to 10 0 0 1 H08 Motor Resistance R1 X 0 1 to 3000 0 mΩ 0 1...

Page 86: ...us Input Address 9 X 0x0000 to 0xFFFF Hex 1 0x010D o17 Fieldbus Input Address 10 X 0x0000 to 0xFFFF Hex 1 0x0111 o18 Fieldbus Input Address 11 X 0x0000 to 0xFFFF Hex 1 0x0115 o19 Fieldbus Input Address 12 X 0x0000 to 0xFFFF Hex 1 0x0000 o20 Fieldbus Output Address 1 X 0x0000 to 0xFFFF Hex 1 0x0202 o21 Fieldbus Output Address 2 X 0x0000 to 0xFFFF Hex 1 0x0203 o22 Fieldbus Output Address 3 X 0x0000 ...

Page 87: ...tor Input Voltage X 230V class inverter settings 200 220 230 240 460V class inverter settings 380 400 415 440 460 480 LF 230V HF 460V H03 Motor Capacity X 3L 3 HP 5L 5 HP 7 5L 7 5 HP 10L 10 HP 15L 15 HP 20L 20 HP 25L 25 HP 30L 30 HP 40L 40 HP 50L 50 HP 60L 60 HP 75L 75 HP 100L 100 HP 125L 125 HP 3H 3 HP 5H 5 HP 7 5H 7 5 HP 10H 10 HP 15H 15 HP 20H 20 HP 25H 25 HP 30H 30 HP 40H 40 HP 50H 50 HP 60H 6...

Page 88: ... Run Real time display of rotation of the VFD d05 PID Feedback Range 0 00 100 0 Scaled PID process variable feedback value d06 Intelligent Input Terminal Status Show the Intelligent Input Terminal Status Meaning T1 is On T2 is Off T3 is On T4 is Off T5 is On T6 is Off d07 Intelligent Output Terminal Status Show the Intelligent Output Terminal Status Meaning RN0 1 is On RN2 3 is On AL0 AL1 is On d0...

Page 89: ... Press the UP key Output frequency at time of fault Press the UP key Output current at time of fault Press the UP key DC bus voltage at time of fault Press the FUNC key Back to d13 display d14 Previous Fault 1 Displays last fault that occurred Additional information can be accessed as shown above in d13 d15 Previous Fault 2 Displays Fault 2 that occurred Additional information can be accessed as s...

Page 90: ...Down Keys If A01 3 Use Control Terminal Input RJ45 Except 300LF 750LF If A01 4 Use Control Terminal Input RXP RXN if A01 5 Fieldbus option Related Parameters A01 F02 Acceleration Time 1 Range 0 1 999 9 Sec in 0 1 Sec 1000 3000 Sec in 1 Sec Acceleration time from 0Hz to Maximum Frequency A04 Related Parameters A54 A56 A57 A59 F03 Deceleration Time 1 Range 0 1 999 9 Sec in 0 1 Sec 1000 3000 Sec in 1...

Page 91: ...Frequency Setpoint Range 0 00 Maximum Frequency A04 in 0 01 Hz Frequency at which the maximum voltage is reached Should be set to the motor rated frequency Related Parameters None A04 Maximum Frequency Setpoint Range A03 400 00 Hz in 0 01 Hz If Sensorless Vector Control A31 2 Base Frequency A03 300 Hz in 0 01 Hz Maximum frequency the VFD will output Related Parameters F02 F03 A05 Frequency at Min ...

Page 92: ...rence below A05 Related Parameters F01 A05 A07 A10 Low Pass Filter Gain Range 1 8 Filter on analog input to help reduce noise on signal Related Parameters None A11 A25 Multiple Speed Frequency Setpoints Range 0 01 Max Frequency A04 Programming 15 different frequency values to Parameters A11 A25 and select by a combination of 4 terminal inputs CF4 CF1 will further discuss in C group For HVAC system...

Page 93: ...te the motor in small increment at low frequency It is selected using input terminal Related Parameters C01 C12 Programming Example A02 1 run by keypad or A02 2 by Terminal F01 Frequency Number CF4 CF1 0000 C01 C05 Assign to FW JOG C07 C12 Assign Close Open Polarity A11 A25 Frequency Values A28 Torque Boost Mode 0 Manual Torque Boost A29 A30 1 Automatic Torque Boost H02 Select a torque boost mode ...

Page 94: ...do not require high torque at low frequency By reducing the output voltage increased efficiency lower noise and lower vibration For Sensorless Vector method per specified output voltage current motor parameters motor rpm the corresponding torque value is calculated At very low frequency up to 0 5 Hz high torque operation is possible Related Parameters A29 A30 H01 H11 A32 Voltage Gain Factor Range ...

Page 95: ...ted Parameters A33 A37 A37 DC Injection Braking Time at Stop Range 0 0 10 0 Sec in 0 1 Sec Program the DC Injection Braking duration Related Parameters A33 A37 A34 A37 A35 Frequency Motor Run t A36 AC Current DC Current FW Run Motor Free Run FW Run b43 Frequency Motor FreeRun t b42 DC Current AC Current Motor Run b42 b46 Extended A33 A37 Note For independent DC injection braking function control a...

Page 96: ...rce at Start Range 0 0 100 0 in 0 1 Program the level of DC injection braking force of rated electric power of N700E Related Parameters A38 Frequency Upper Limit If 0 disable Frequency Limit Function Range Frequency Lower Limit A39 Max Frequency A04 in 0 01 Hz Program upper limit of an output frequency Related Parameters A39 Frequency Lower Limit Range 0 00 A38 Hz in 0 01 Hz Program lower limit Re...

Page 97: ...n 0 1 Sec Range 1000 3000 Sec in 1 0 Sec In addition to deceleration Time 1 in F03 Second acceleration time can be specified Its value can also be entered by input terminal 2CH Related Parameters A56 Accel Decel 2 Command Select 0 2CH from Input Terminal 1 Parameters A54 A55 A57 A58 Select the transition frequency point about acceleration deceleration by input terminal or frequency Related Paramet...

Page 98: ... Input Voltage Offset Range 10 0 10 0 in 0 1 Real time editable offset factor for analog input voltage Related Parameters A05 A08 A62 Analog Input Voltage Gain Range 0 0 200 0 in 0 1 Real time editable gain factor for analog input voltage Related Parameters A05 A08 A63 Analog Input Current Offset Range 10 0 10 0 in 0 1 Real time editable offset factor for analog input current Related Parameters A0...

Page 99: ... Based on current rate of changes Error e t Set Point _ Basic PID Overview P0 Kp e t I0 Ki D0 Kd d dt e t t o e t dt u t u t Kpe t Ki t o e t dt Kd d dt e t PID Functional Description Set Point Desired System Output Value Error Difference between System output and Set Point Proportional P Term Current Error Integral I Term Accumulated Past Error Derivative D Term Predicted Future Error based on cu...

Page 100: ...ter response speed shorten the accumulate time If I Gain time is set too short oscillation or over shooting may occur Related Parameters A76 PID D Gain Time Range 0 0 10 00 Sec in 0 01 Sec Program the derivative time for PID function For faster response speed lengthen the D gain time If D gain time is set too long system may become unstable Related Parameters PID Gain Adjustment Example If the res...

Page 101: ...ID Output Invert Disabled 1 PID Output Invert Enabled Program to enable the PID Output Invert Related Parameters A81 PID Scale Factor Range 0 1 1000 in 0 1 Program the minimum PID output as a percentage of the maximum output frequency A04 Related Parameters A04 A82 Pre PID Frequency Setpoint 0 00 Disabled Pre PID Function Range 0 00 Max Frequency A04 in 0 01 Hz Program the frequency setpoint when ...

Page 102: ...ally goes to Sleep Wake from reaching the sleep frequency or wake frequency Related Parameters A04 A85 PID Wake Frequency Setpoint Range Sleep Frequency A83 Max Frequency A04 in 0 01 Hz Program the frequency setpoint when the VFD wakes up from the Sleep mode for the specified operation Related Parameters RUN command FW RV Output frequency d01 PID output Motor operation run ON Sleep frequency A83 W...

Page 103: ...put reverse 1 Analog input 3 Remote 2 Keypad 0 Potentiometer 1 Analog input A77 PID error limit CurFreq PrePID Freq LIMIT A73 PID Feed back source MFI 22 PIDIR A82 PrePID Freq GAIN 2 PID enable F F LIMIT F02 Acceleration time A71 PID Reference F03 Deceleration time Output frequency ACC DEC A72 PID Reference source 0 Potentiometer 2 Keypad P I D A74 P gain A75 I time A76 D time A70 PID Function sel...

Page 104: ...ion without UV trip This time varies depending upon the loading Thus a user must perform the test prior to entering the time value Related Parameters b03 Line Loss Ride Through Run Delay Range 0 3 10 0 Sec in 0 1 Sec Frequency value of VFD output Voltage It is the value specified on the Motor nameplate Related Parameters b04 Motor Thermal Overload Level Range 20 0 120 0 in 0 1 Program a level of t...

Page 105: ... in 0 1 Sec Program the deceleration time for the rate when the VFD detects the overload Related Parameters Output Current b07 0 F01 Output Frequency by b08 b09 Software Lock Mode 0 All Parameters are locked except b09 when SFT terminal input is ON 1 All Parameters are locked except b09 and F01 by SFT terminal Signal 2 All Parameters are locked except b09 3 All Parameters are locked except b09 and...

Page 106: ...arameters except b13 Country Code and A53 Motor Input Voltage Select an initialization mode Related Parameters b13 Country Code 0 Korea 1 Europe 2 US Select a country code of which default parameter values to use Related Parameters b14 RPM Display Scale Factor Range 0 01 99 99 in 0 01 Program RPM Scale factor for d08 Display Related Parameters d08 b15 Stop Key Function 0 Enabled 1 Disabled To avoi...

Page 107: ...rent For N700E models under 3 7 kW 5 HP this function is turned off from the Factory Related Parameters b19 Speed Search Current Level Range 90 180 in 1 Controls the starting current level during speed search motion on the basis of the motor rated current Related Parameters b19 b23 b20 Speed Search Voltage Increase Range 10 300 in 1 In case of the lower starting current level during speed search m...

Page 108: ...t frequency of the inverter can be selected as follows Related Parameters b19 b23 MotorRPM Power t Free Run i When b23 0 MotorRPM Power t VFDout i When b23 1 Free Run VFDout b24 Fault Relay Select 0 Inactive 1 Active only when a long steady trip signal 2 Active for every trip 3 Active only when a long steady trip signal then auto reset Combined with Restart b01 select various method can be selecte...

Page 109: ...t for User Act 4th Trip Restart Relay 1 1st 2nd 3rd 4th Trip Relay 1 On Restart from 0 Hz But if Trips Again 1st Trip Relay 1 On Restart from 0 Hz 2nd Trip Relay 1 On Restart from 0 Hz 3rd Trip Relay 1 On Wait for User Act 4th b01 2 Yes Restart M Hz Trip Restart Relay 1 1st 2nd 3rd 4th Trip No Relay 1 but Restart M Hz But if Trips Again 1st Trip No Relay 1 Restart M Hz 2nd Trip No Relay 1 Restart ...

Page 110: ...VFD Restart from M Hz But Slow down to stop 1st Stop Trip goes back on and Relay 1 Activated VFD to STOP 10th 11th 11th Trip Restart Relay 1 1st 2nd Trip No Relay 1 but Restart from 0 Hz 1st Trip No Relay 1 Restart from 0 Hz 2nd Trip No Relay 1 Wait for User Act 10th 11th 11th Trip Restart Relay 1 1st 2nd Trip Relay 1 On Restart from 0 Hz 1st Trip Relay 1 On Restart from 0 Hz 2nd Trip Relay 1 On W...

Page 111: ...les sets the time period to determine if an Input Phase Loss occurs The VFD monitors the ripple on the DC bus voltage and if it occurs for the programmed magnitude and time period an Input Phase Loss fault will occur The ripple on the DC bus will cause heating to the DC Bus capacitors which will shorten their life Related Parameters b28 Communication Time Out Detection 0 Disabled Range 0 60 Sec in...

Page 112: ...4 Sec 2 Sec 2 Sec 100 Sec 5 Sec 3 Sec Example 10 Over heat Trip E06 BRD Normal Operation b34 41 Overvoltage Suppression OVS Function The Overvoltage Suppression OVS feature will over speed the motor up to the Maximum OVS Output Frequency b34 to prevent motor regeneration and creating an Overvoltage Fault If the OVS runs at maximum frequency for longer than the Limit Time b41 the unit will fault on...

Page 113: ...me Voltage suppression D gain 0 0 10000 0 Sec O b38 q Current Reference q axis reference current 100 0 100 0 25 0 O b39 Filter Bandwidth q axis LPF coefficient 0 0 1000 1 mS O b40 Overvoltage Suppression wDec Mode 0 Disabled 1 Enabled 0 O b41 Limit Time wRegen Time 0 0 1000 0 5 Sec O Setting Parameters P b35 I D b36 b37 PID P Gain PID I Gain PID D Gain 0 FreqAdd LIMIT RefIq Iq b37 b38 LP F Feedbac...

Page 114: ...loop PIOut err Ki Hz err Ki scalefactor 50 1e 6 dT 1msec Example Integration Time to 10Hz on Error err 10 Ki 1000 Time to 10Hz on 10 Error 20msec err 10 Ki 100 Time to 10Hz on 10 Error 200msec err 10 Ki 10 Time to 10Hz on 10 Error 2000msec Recommended Value in test bench 100 or less than 500 Related Parameters b37 OVS D Gain Time Range 0 10 000 Sec in 1 Sec Real time editable D gain for OVS PID lo...

Page 115: ... b38 to a negative value Related Parameters b39 Filter Bandwidth q axis LPF coefficient Range 0 1000 milliseconds in 1 mSec Real time editable Iq feedback Low Pass Filter time constant If output Frequency is not stable Increase b39 value Recommended Value as a function of b39 b37 value should be set accordingly Not set over 50 Related Parameters b40 Overvoltage Suppression wDec Mode 0 Disabled 1 E...

Page 116: ... Please set the b37 between 500 to 1000 Experimental values on MG Set test are b39 30 b37 1000 Case2 If overvoltage trip is occurred at normal operation Cause Torque is over estimated due to motor parameter error or current sensing error Measures Change a b38 Reference Current Please set the b39 between 30 to 100 If this value is set too high Frequency output can be saturated to maximum frequency ...

Page 117: ...e value 150 150 by analog output AM output Torque 4mA 150 12mA 0 20mA 150 C25 0 3 are the same as existed function Special parameter Calculated torque read frame by Modbus CMD 03 Read Parameter 10 Calculated Torque Communication Number CMD Parameter Data Quantity CRC TX 01 03 000A 0001 2byte Communication Number CMD Byte Quantity Data CRC RX 01 03 02 Torque value 2byte This document are written by...

Page 118: ...raking This value is applied both brake modes start and stop If motor is vibrated or not stop at DC braking decreased this value If value is too big DC braking force can be weak Related Parameters A33 b42 b46 b46 DC Injection Braking Force at Start Range 0 0 100 0 in 0 1 Program the level of DC injection braking force of rated electric power of N700E Related Parameters b47 Flying Start P Gain Rang...

Page 119: ... 165 0 ND Separately programmable overload restriction is that applies only during the acceleration and deceleration periods This function works the same as b07 but can be configured to a different value to account for the difference in current draw during normal operation and flying start Related Parameters b06 b07 b23 ...

Page 120: ...lance Start Frequency Range 0 00 60 00 Hz in 0 01 Hz Sets the frequency where the Load Balance Start Frequency feature is enabled When running below this frequency the feature is disabled b52 Load Balance Gain Range 0 00 50 00 in 0 01 Sets the rate of change when this feature is functioning It is based on a percentage of the output torque being applied b53 Load Balance Start Torque Range 0 0 100 0...

Page 121: ... The Load Balance control decreased the output frequency for b54 value 5sec at step load The Load Balance control increased the output frequency for b54 value 5sec at no step load Ch1 Out Freq 12Hz div time 5s div Ch2 Estimated Torque Ch3 Calculated Load Balance Freq Ch4 Output Current 100A div Ch1 Out Freq 12Hz div time 5s div Ch2 Estimated Torque Ch3 Calculated Load Balance Freq Ch4 Output Curre...

Page 122: ...y contact to alert an external device related parameters C13 C14 C15 In addition setting 4 6 triggers trip signals display on the keypad b57 System Overload Detection Level Range 20 0 200 0 in 0 1 Sets the System Overload level This feature is triggered when the motor current exceeds this level 100 level is based off of the value in H05 10 hysteresis 10 hysteresis b59 b59 b57 Motor Current System ...

Page 123: ...r a predetermined time before accelerating or decelerating to the current frequency reference The Dwell function helps preventing speed loss when starting and stopping a heavy load B61 Dwell time at start B62 Dwell reference at start b63 Dwell reference at stop B64 Dwell time at stop F Hz t Run command b61 Dwell Reference at Start Range 0 00 Max frequency A04 in 0 01 Hz Program Dwell frequency at ...

Page 124: ...R Local Keypad Operation 21 T R Local Terminal Input Operator 22 PIDIR PID Integral Reset 23 PIDD PID Disabled 24 FO Frequency Override 25 RO Reset Override 26 EXT2 External Trip 2 27 EXT3 External Trip 3 28 EXT4 External Trip 4 29 EXT5 External Trip 5 30 EXT6 External Trip 6 31 UP DOWN Initial Value Clear C07 C012 Input Terminal Mode 1 6 0 Normally Open NO 1 Normally Closed NC Set 0 Forward Run S...

Page 125: ... 1 C03 3 Set Terminal 3 to Multi Speed Command 2 C04 4 Set Terminal 4 to Multi Speed Command 3 C05 5 Set Terminal 5 to Multi Speed Command 4 C07 C11 0 Set Terminal 1 to 5 Normal Open When shorted Closed FW Run When Open FW Stop F01 60 Set Output Frequency to 60Hz but user programmable from 0 to 400 Hz A11 A25 Hz Program values for respective parameters Refer to A Group CF2 CF3 CF4 CF1 FW 0 0 0 1 0...

Page 126: ... A26 F Out Set 8 2 Stage Acceleration Deceleration 2CH By activating FRS command second set of frequency acceleration and deceleration values can be selected Code Set Value Description A02 1 Run Command by Terminal Input C01 0 Set Terminal 1 to FW Operation C05 6 Set Terminal 5 to 2CH Operation C07 0 Set Terminal 1 to Normal Open When shorted Closed FW Run When Open FW Stop C11 0 Set Terminal 5 to...

Page 127: ...Run t b03 FRS Free Run i When b16 0 MotorRPM FW Run t FRS i When b16 1 Free Run CM1 6 P24 FW 5 4 3 2 1 FRS Set 10 External Trip 1 EXT By asserting a trip signal it forces the VFD to stop and generates E12 Even when EXT becomes inactive by opened the switch the VFD remains the trip state Thus activating reset signal or recycle the power must be done to clear the error state Code Set Value Descripti...

Page 128: ... FW Operation C03 11 Set Terminal 3 to USP Operation C07 0 Set Terminal 1 to Normal Open When shorted Closed FW Run When Open FW Stop C09 0 Set Terminal 3 to Normal Open USP VFD POWER Relay Alarm FW Run VFD RUN CM1 6 P24 USP FW 5 4 3 2 1 Set 12 Software Lock Function SFT Software lock function disables all the parameter value editing except b09 Code Set Value Description A02 1 Run Command by Termi...

Page 129: ...P24 SFT FW 5 4 3 2 1 CM1 6 P24 AT FW 5 4 3 2 1 H O OI L VR DC 12V DC 0 10V H O OI L DC 4 20mA Input Voltage Source Setup Input Current Source Setup Set 14 Reset RS Code Set Value Description A02 1 Run Command by Terminal Input C01 0 Set Terminal 1 to FW Operation C04 14 Set Terminal 4 to ST Operation C07 0 Set Terminal 1 to Normal Open When shorted Closed FW Run When Open FW Stop C10 0 Set Termina...

Page 130: ...ue Description A02 1 Run Command by Terminal Input C01 15 Set Terminal 1 to STA Operation C02 16 Set Terminal 2 to STP Operation C03 17 Set Terminal 3 to F R Operation C07 0 FW Operation Terminal 1 to Normal Open When shorted Closed FW Run When Open FW Stop C08 0 FW Operation Terminal 2 to Normal Open C09 0 FW Operation Terminal 3 to Normal Open Set 18 Remote Control Up UP Set 19 Remote Control Do...

Page 131: ...led C29 UP DOWN Initial Value Setting Range 0 00 Max Frequency A04 in 0 01 Hz Sets the UP DOWN Initial Value This value is then used as the starting frequency reference when the next Run Command is given UP Command Initial value Clear Output frequency UP DOWN reference Run Command C30 UP DOWN Reference Arriving Time Range 0 1 3000 Sec in 0 1 Sec Sets the rate of change for the reference when this ...

Page 132: ...ven command Set 22 PID Integral Reset Override PIDIR Even when the PID controller is activated PIDIR can force resetting an accumulated integral term Code Set Value Description C01 22 Set Terminal 1 to PIDIR C07 0 FW Operation Terminal 1 to Normal Open When shorted Closed FW Run When Open FW Stop A70 1 or 2 PID Control or F F Control Set 23 PID Disabled PIDD Even when the PID controller is activat...

Page 133: ...12 0 Terminal 6 to Normal Open F01 0 5 Max Hz Output Frequency Setting A11 0 5 F04 Hz 1st Multi Speed Frequency Shared with this function CM1 6 P24 RO FW 5 4 3 2 1 VFD F Out FW Run Reset Override RO FO F Target F01 F Target F01 A11 Frequency Override FO Set 26 External Trip 2 EXT2 Set 27 External Trip 3 EXT3 Set 28 External Trip 4 EXT4 Set 29 External Trip 5 EXT5 Set 30 External Trip 6 EXT6 In add...

Page 134: ... detected If C13 9 When System Overload and Underload are not detected If C13 0 When VFD is Running If C13 1 When Frequency is at Arrival 1 If C13 2 When Frequency is at Arrival 2 If C13 3 When Overload condition occurred If C13 4 When PID Error does Exceed the Set Level If C13 5 Fault condition is occurred If C13 6 When it is operated by modbus If C13 7 When System Overload is detected If C13 8 W...

Page 135: ...tput frequency reaches the set frequency specified in F01 FA1 FA2 becomes triggered active from 0 5Hz lower set frequency value during acceleration and 1 5Hz lower during deceleration But there is 60mS of delay time from the beginning of its activation Code Set Value Description C13 1 Set Intelligent Relay Out 1 Terminal to FA1 C15 0 Set C13 to Normally Open to Form A configuration If set to 1 For...

Page 136: ...ally Open to Form A configuration If set to 1 Form B configuration Normally Closed C21 10 200 Overload Advanced Notice Signal Setting x VFD rated current VFD F Out OL OL signal LOW AL0 AL1 AL2 AL0 AL1 AL2 OL signal HIGH Overload Limit Level b07 Advanced Notice Level C21 Set 4 Output Deviation Excess for PID Control OD The PID loop error is defined as the magnitude of the difference between the set...

Page 137: ...E INSTRUCTION MANUAL 3 64 Code Set Value Description C13 3 Set Intelligent Relay Out 1 Terminal to AL C16 0 Set C13 to Normally Open to Form A configuration If set to 1 Form B configuration Normally Closed ...

Page 138: ...t5 Bit4 Bit3 Bit2 Bit1 Bit0 Reserved AL0 2 RN2 3 RN0 1 Set 7 System Overload Detection SOD The inverter System Overload is active by b57 level Code Set Value Description C13 7 Set Intelligent Relay Out 1 Terminal to SOD C16 0 Set C13 to Normally Open to Form A configuration If set to 1 Form B configuration Normally Closed b56 1 or 4 or 6 System Overload Detection or Detection with Fault E23 b57 20...

Page 139: ...oad Detection Level 10 hysteresis b59 b59 b58 Motor Current System Underload Detection OD signal LOW AL0 AL1 AL2 AL0 AL1 AL2 OD signal HIGH Set 9 System Overload Underload Detection SOD SUD The inverter System Overload Underload is active by the each b57 b58 level Code Set Value Description C13 9 Set Intelligent Relay Out 1 Terminal to SOD SUD C16 0 Set C13 to Normally Open to Form A configuration...

Page 140: ...ltage value The highest analog value is the 100 of rated VFD voltage out The indicator accuracy after the adjustment is about 10 Set 3 Output Power Monitor Monitor the VFD output power value The highest analog value is the 200 of rated VFD power out The indicator accuracy after the adjustment is about 10 Set 4 Output Torque Monitor Monitor the VFD output torque value The highest analog value is th...

Page 141: ...by Communication Set 0 Output Frequency Monitoring Monitor the VFD output frequency value The highest analog output value is the maximum frequency value The indicator accuracy after the adjustment is about 5 Set 1 Output Current Monitoring Monitor the VFD output current value The highest analog value is the 200 of rated VFD current The indicator accuracy after the adjustment is about 10 Set 2 Outp...

Page 142: ...100 Write Command has to set C25 5 Digital Output Bit Table 1 st byte Bit7 Bit6 Bit5 Bit4 Bit3 Bit2 Bit1 Bit0 Reserved 2 nd byte Bit7 Bit6 Bit5 Bit4 Bit3 Bit2 Bit1 Bit0 Reserved AL0 2 RN2 3 RN0 1 C26 AMI Gain Range 0 0 250 0 in 0 1 Program the gain factor to AMI motoring setting C27 AMI Offset Range 99 9 100 0 in 0 1 Program the offset factor to AMI monitoring setting ...

Page 143: ...o tuning algorithm and automatically set for Sensorless Vector control design Related Parameters A31 2 Sensorless Vector Control H02 Motor Data Select 0 Standard Motor Data 1 Auto Tuning Data Program to select between standard motor data and auto tuned motor data Related Parameters H03 Motor Capacity When b26 is set to 1 this motor series is displayed 275H 350H 425H Program the corresponding N700E...

Page 144: ... rpm x 100 2 78 Related Parameters H08 Motor Resistance R1 Range 0 1 3000 0 mOhms in 0 1 mOhms Hyundai motor data Related Parameters H09 Transient Inductance Range 0 001 30 000 mH in 0 001 mH Hyundai motor data Related Parameters H10 Motor Resistance R1 Auto Tuning Data Range 0 1 3000 0 mOhms in 0 1 mOhms Value determined during Auto Tuning process Related Parameters H11 Transient Inductance Auto ...

Page 145: ...es 4 A01 Set to 0 frequency command source at potentiometer 5 A03 Set the base frequency default is 60Hz 6 F01 Set the target frequency to 0Hz by turning the potentiometer all the way down Verify this setting by looking at the value in F01 7 A53 Select the output voltage to the motor 8 A33 Set to 0 disables DC injection braking 9 H01 Set to 1 turns auto tuning mode on 10 After setting above parame...

Page 146: ... no rotation Single phase excitation End display Auto Tuning process completed Auto Tuning process failed Note The default motor parameters of the N700E use standard data of a HYUNDAI 4 pole motor If using sensorless vector or auto torque boost with a different motor type use the auto tune feature to set the motor data Auto Tuning mode selection H01 1 ...

Page 147: ...few Hz torque is insufficient Slowly increase the motor constant R1 1 2 times the auto tune data H08 H10 Slowly increase the motor no load current in up to 1 2 times original setting H06 Decrease the carrier frequency b11 2 If the inverter capacity is more than twice the capacity of the motor in setting of A28 1 A31 2 the VFD may not achieve its full performance specifications 3 When DC injection ...

Page 148: ...arameters to enable remote control Code Minimum Maximum Initial Value Unit Description b17 1 32 1 Setting the communication number b31 1 4 3 9600bps A01 0 4 0 4 Remote Operator Terminal A02 0 3 0 3 Remote Operator Terminal 3 7 3 RS485 Interface Description Item Description Remark Interface Communication method Communication speed Communication code Data bits Parity Stop bit Starting method Wait ti...

Page 149: ...on number Inverter Communication number 1 byte 1 32 Command Frame type 1 byte 0x03 Parameter Parameter 2 byte 1 st byte Group 2 nd byte Index Note1 Parameter number Request parameter number 2 byte 1 st byte 0x00 2 nd byte N 0x01 0x08 CRC Hi 1 byte Higher 8bit of 16bit CRC CRC Lo 1 byte Lower 8bit of 16bit CRC Inverter response frame Communication number Order Byte Number Data 1 Data N CRC Hi CRC L...

Page 150: ...tion Number 1 byte 1 32 Command Frame type 1 byte 0x06 Parameter Parameter 2 byte 1 st byte Group 2 nd byte Index Note1 Data Data 2 byte Setting value is response Note4 CRC Hi 1 byte Higher 8bit of 16bit CRC CRC Lo 1 byte Lower 8bit of 16bit CRC Note1 Parameter setting Basic parameter 1 st byte Each group is setting Group 1 st byte Group 1 st byte d F A b 0x01 0x02 0x03 0x04 C H o 0x05 0x06 0x08 2...

Page 151: ... Short Circuit 22 External Trip 2 5 Reserved 23 External Trip 3 6 Inverter Over Temperature 24 External Trip 4 7 Motor Overload 25 External Trip 5 8 External Trip 1 26 External Trip 6 9 EEPROM error 27 Fan Fault Only 300 750LF 10 Communication Error 28 Profibus Fault Option 11 USP Error 29 DeviceNet Fault Option 12 Ground Fault 30 System Overload Detection Fault 14 Inverter Overload 31 System Unde...

Page 152: ...100 1 st byte 0x00 2 nd byte 0x64 Note3 Special parameter Run command Parameter 1 st byte 0x00 2 nd byte 0x02 setting data 1 st byte Bit7 Bit6 Bit5 Bit4 Bit3 Bit2 Bit1 Bit0 Reserved 2 nd byte Bit7 Bit6 Bit5 Bit4 Bit3 Bit2 Bit1 Bit0 Reserved RST REV FWD Bit 0 Forward command Bit 1 Reverse command Bit 2 Reset command Frequency command Parameter 1 st byte 0x00 2 nd byte 0x04 setting data output frequ...

Page 153: ... Bit6 Bit5 Bit4 Bit3 Bit2 Bit1 Bit0 Reserved 2 nd byte Bit7 Bit6 Bit5 Bit4 Bit3 Bit2 Bit1 Bit0 Reserved 6 5 4 3 2 1 Note5 Read Write Command Parameter Address Description Digital Output Relay Output 0x1001 Refer to below bit table 0 Stop Write Command has to set C13 C16 6 Analog Output FM 0x1004 0 10000 0 1 scale 0 10V 0 100 Write Command has to set C18 5 Analog Output AMI 0x1005 0 10000 0 1 scale...

Page 154: ...0x01 0x00 0x01 The sequence of addition Byte 01x01 16 BIT PARAMETER MSB Flag Exclusive OR 1111 1111 1111 1111 01 0000 0001 1111 1111 1111 1110 Shift 1 0111 1111 1111 1111 Shift 2 0011 1111 1111 1111 1 Polynomial 1010 0000 0000 0001 1001 1111 1111 1110 Shift 3 0100 1111 1111 1111 Shift 4 0010 0111 1111 1111 1 Polynomial 1010 0000 0000 0001 1000 0111 1111 1110 Shift 5 0100 0011 1111 1111 Shift 6 001...

Page 155: ...0 40000 Trip Monitor 2 Frequency at Trip 0x0112 275 R 0 0 40000 0 01 Hz Trip Monitor 2 Current at Trip 0x0113 276 R 0 0 40000 0 1 A Trip Monitor 2 Vdc at Trip 0x0114 277 R 0 0 40000 1 V d15 Previous Fault 2 Fault Code 0x0115 278 R 0 0 40000 Trip Monitor 3 Frequency at Trip 0x0116 279 R 0 0 40000 0 01 Hz Trip Monitor 3 Current at Trip 0x0117 280 R 0 0 40000 0 1 A Trip Monitor 3 Vdc at Trip 0x0118 2...

Page 156: ... Init Value Min Value Max Value Scale Unit F01 Output Frequency SetPoint 0x0201 514 R W 6000 0 Eu 0 Am 0 A04 0 01 Hz F02 Acceleration Time 1 0x0202 515 R W 300 1 30000 0 1 Sec F03 Deceleration Time 1 0x0203 516 R W 300 1 30000 0 1 Sec F04 Rotation Direction 0x0204 517 R W 0 0 1 Init value of F02 F03 F02 30000 A59 0 390 A59 1 290 A59 2 F03 30000 A60 0 390 A60 1 290 A60 2 ...

Page 157: ...ti speed frequency Setpoint 4 0x030e 783 R W 2000 0 A04 0 01 Hz A15 Multi speed frequency Setpoint 5 0x030f 784 R W 3000 0 A04 0 01 Hz A16 Multi speed frequency Setpoint 6 0x0310 785 R W 4000 0 A04 0 01 Hz A17 Multi speed frequency Setpoint 7 0x0311 786 R W 5000 0 A04 0 01 Hz A18 Multi speed frequency Setpoint 8 0x0312 787 R W 6000 5000 Eu 0 A04 0 01 Hz A19 Multi speed frequency Setpoint 9 0x0313 ...

Page 158: ...ip Output Frequencies 0x032c 813 R W 0 0 A04 0 01 Hz A45 Skip Frequency Range 0x032d 814 R W 0 0 1000 0 01 Hz A46 Reserved Data 0x032e 815 R W A47 Reserved Data 0x032f 816 R W A48 Reserved Data 0x0330 817 R W A49 Reserved Data 0x0331 818 R W A50 Reserved Data 0x0332 819 R W A51 Reserved Data 0x0333 820 R W A52 Automatic Voltage Regulation AVR 0x0334 821 R W 2 2 Eu 2 Am 0 2 A53 Motor Input Voltage ...

Page 159: ...c A76 PID D Gain Time 0x034c 845 R W 0 0 1000 0 01 Sec A77 PID Error Limit 0x034d 846 R W 1000 0 1000 0 1 A78 PID Output High Limit 0x034e 847 R W 1000 0 1000 0 1 A79 PID Output Low Limit 0x034f 848 R W 0 999 1000 0 1 A80 PID Output Invert 0x0350 849 R W 0 0 1 A81 PID Scale Factor 0x0351 850 R W 1000 1 10000 0 01 A82 Pre PID Frequency Setpoint 0x0352 851 R W 0 0 A04 0 01 Hz A83 PID Sleep Frequency...

Page 160: ...0 1 100 0 1 Sec b09 Software Lock Mode 0x0409 1034 R 0 0 9999 b10 Start Frequency Setpoint 0x040a 1035 R W 50 50 1000 0 1 Hz b11 PWM Carrier Frequency 0x040b 1036 R W 50 5 055LF 150LF MAX 160 055HF 150HF MAX 160 185LF 750LF MAX 100 185HF 1320H F MAX 100 1600HF above MAX 40 0 1 kHz b12 Initialization Mode 0x040c 1037 R W 0 0 1 b13 Country Code 0x040d 1038 R W 0 1 Eu 2 Am 0 2 b14 RPM Display Scale F...

Page 161: ...000 b36 OVS I Gain Time 0x0424 1061 R W 100 0 10000 b37 OVS D Gain Time 0x0425 1062 R W 0 0 10000 b38 q Current Reference 0x0426 1063 R W 250 1000 1000 0 01 b39 Filter Bandwidth 0x0427 1064 R W 1 0 1000 b40 Overvoltage Suppression 0x0428 1065 R W 0 0 1 b41 Limit Time 0x0429 1066 R W 5 0 1000 0 1 Sec b42 VFD Start Delay Time after DC Injection Braking 0x042a 1067 R W 0 0 600 0 1 Sec b43 DC Injectio...

Page 162: ... Ramp Time 0x0436 1079 R W 200 10 1000 0 1 Sec b55 Load Balance Control Mode 0x0437 1080 R W 0 0 1 b56 System Load Detection Selection 0x0438 1081 R W 0 0 6 b57 System Overload Detection Level 0x0439 1082 R W 1000 200 2000 0 1 b58 System Underload Detection Level 0x043a 1083 R W 1000 200 2000 0 1 b59 System Detection Time 0x043b 1084 R W 100 0 600 0 1 Sec b60 System Detection Safe Zone 0x043c 1085...

Page 163: ...t Terminal 4 Mode 0x050a 1291 R W 0 0 1 C11 Input Terminal 5 Mode 0x050b 1292 R W 0 0 1 C12 Input Terminal 6 Mode 0x050c 1293 R W 0 0 1 C13 Output Relay 1 AL0 AL1 AL2 0x050d 1294 R W 5 0 9 C14 Output Relay 2 RN0 RN1 0x050e 1295 R W 1 0 9 C15 Output Relay 3 RN2 RN3 0x050f 1296 R W 0 0 9 C16 Output Relay 2 RN0 RN1 Mode 0x0510 1297 R W 0 0 1 C17 Output Relay 3 RN2 RN3 Mode 0x0511 1298 R W 0 0 1 C18 F...

Page 164: ... 1 8000 0 1 A H06 Motor Flux Current 0x0606 1543 R W F S 1 4000 0 1 A H07 Motor Rated Slip 0x0607 1544 R W F S 1 1000 0 001 Hz H08 Motor Resistance R1 0x0608 1545 R W F S 1 30000 0 1 mOhm H09 Transient Inductance 0x0609 1546 R W F S 1 10000 0 001 mH H10 Motor Resistance R1 Auto Tuning Data 0x060a 1547 R W F S 1 30000 0 1 mOhm H11 Transient Inductance Auto Tuning Data 0x060b 1548 R W F S 1 10000 0 ...

Page 165: ...bus Input Address 10 0x080d 1806 R 0x0111 0x0000 0xFFFF bit hex o18 Fieldbus Input Address 11 0x080e 1807 R 0x0115 0x0000 0xFFFF bit hex o19 Fieldbus Input Address 12 0x080f 1808 R 0x0000 0x0000 0xFFFF bit hex o20 Fieldbus Output Address 1 0x0810 1809 W 0x0202 0x0000 0xFFFF bit hex o21 Fieldbus Output Address 2 0x0811 1810 W 0x0203 0x0000 0xFFFF bit hex o22 Fieldbus Output Address 3 0x0812 1811 W ...

Page 166: ...ition causes the VFD to shut off it s output E04 or E34 USP Error The USP error is indicated when the power is turned on with the Inverter in RUN state Enabled when the USP function selected E13 EEPROM The VFD output is shut off when the EEPROM in the VFD has an error The condition can occur due to external noise excessive temperature or other factors E08 External Interlock 1 An Intelligent Input ...

Page 167: ...resistor this fault will occur The circuit is designed to calculate and protect the braking resistor from thermally overheating E06 OVS Fail The OVS output frequency is higher than maximum OVS output frequency during the setting time when the OVS function is enabled E02 Fan Fault 300 750LF Only The Fan fault is indicated when the fan is not rotated E33 System Overload Detection Fault The output cu...

Page 168: ...ter F01 to a safe non zero value If the potentiometer is the Frequency Setpoint Source verify that the DC voltage at O 0V Is the RS reset function or FRS free run stop function on Turn off the command s Inverter outputs U V W are supplying voltage Is the motor load too heavy Is the motor locked Reduce load and test the motor independently The direction of the Motor is reversed Are the connections ...

Page 169: ...nds Wait six seconds or more before turning power off after editing data A param eter will not change after an edit reverts to old setting The frequency setting will not change Run Stop does not operate Was the standard operator mode and terminal mode changed correctly Make sure the setting mode of A01 A02 is changed True for all parameters If you re using an Intelligent Input Terminal configured ...

Page 170: ...lation resistance test by short circuiting the terminals as shown below mega R S T P N U V W NEVER perform the withstand voltage test with wires connected to the VFD The VFD has a surge protector between the main circuit terminals and the chassis ground 4 3 3 Spare Parts Part description Symbol Quantity Note Used Spare Cooling FAN FAN 2 2 7 5 HP HD 75 HP HD 10 HP ND 100 HP ND 3 3 100 HP HD 200 HP ...

Page 171: ...Nm M5 2 0 2 5Nm M6 2 5 3 0Nm M8 15 2 21 5Nm M10 28 0 33 0Nm M12 39 0 50 0Nm Components Overheating Thermal trip events No trip events Housing Dirt dust Visual Vacuum dust and dirt Terminal block Secure connections Visual No abnormalities Smoothing capacitor Leaking swelling Visual No abnormalities Relay s Chattering Aural Single click when switching On or Off Resistors Cracks or discoloring Visual...

Page 172: ...T W11 W12 Electronic type wattmeter Supply power factor Pf1 Calculate the output power factor from the output voltage E1 output current I1 and output power W1 Output voltage E0 U V V W W U EU EV EW Rectifier type voltmeter Total effective value PWM Output Voltage Output current I0 U V W Current IU IV IW Moving coil type Ammeter Total effective value Output power W0 U V V W W01 W02 Electronic type ...

Page 173: ...se as directed in this manual or attempted repair by unauthorized personnel Any damage sustained other than from transportation Which should be reported immediately Using the unit beyond the limits of the specifications Natural Disasters Earthquakes Lightning etc 2 The warranty is for the inverter only any damage caused to other equipment by malfunction of the inverter is not covered by the warran...

Page 174: ...dition 13 04 HHIS WZ PE 086 04 6 A revised edition of N700E EIO 13 06 HHIS WZ PE 086 05 7 Function code description changed 13 12 HHIS WZ PE 086 06 8 Add jogging command by RS485 14 02 HHIS WZ PE 086 07 9 Over Voltage Suppression function added 15 03 HHIS WZ PE 086 08 10 300LF 750LF models are added 16 01 HHIS WZ PE 086 09 11 Fieldbus Load sharing and OL UL functions added 16 06 HHIS WZ PE 086 10 ...

Reviews: