Toshiba Adjustable Speed Drive H3 Operation Manual Download Page 65

Page: 65 / 122

TOSHIBA

PASS NUMBER

284

Panel operation mode selection

0 - 99

9-26

CPU VERSION

285

CPU version

Can be monitored only

120

9-26

ROM VERSION

286

ROM version

Can be monitored only

6800

9-26

EEPROM VERSION

287

EEPROM version

Can be monitored only

100

9-26

INVERTER TYPEFORM

288

Inverter typeform

Can be monitored only

9-26

STATUS MONITOR #1

289

Programmable monitor #1

1: post-compensation

9-27

DISPLAY SELECT

(displayed in MON mode)

output frequency

2: frequency

command setting

3: output current
4: input voltage
5: output voltage
6: torque current
7: excitation current
8: PID feedback value
9: motor overload

ratio

10:inverter overload

ratio

11:DBR overload ratio
12:input power
13:output power
14:RR input value
15:peak load current
16:peak input voltage

STATUS MONITOR #2

290

Programmable monitor #2

Same options as

9-27

DISPLAY SELECT

(displayed in MON mode)

Item 289

STATUS MONITOR #3

291

Programmable monitor #3

Same options as

9-27

DISPLAY SELECT

(displayed in MON mode)

Item 289

STATUS MONITOR #4

292

Programmable monitor #4

Same options as

9-27

DISPLAY SELECT

(displayed in MON mode)

Item 289

FREQUENCY UNITS

293

multiplier to scale Hz display

0 (Off), 0.01 - 200

0.01

0.00

9-27

SCALE FACTOR

FREQUENCY DISPLAY

294

Frequency display resolution

0: 1 Hz

9-27

RESOLUTION

1: 0.1 Hz
2: 0.01 Hz

ACC/DEC TIME UNITS

295

ACC/DEC time units selection

0: 0.1 secs

9-27

SELECTION

1: 0.01 secs

CURRENT UNITS

296

Current units selection

0: %

9-27

SELECTION

1: A

VOLTAGE UNITS

297

Voltage units selection

0: %

9-27

SELECTION

1: V

8 - 30

GROUP:UTILITY PARAMETERS

(cont'd)

PARAMETER

DESCRIPTION

LIQUID CRYSTAL DISPLAY

ADJUSTMENT

RANGE

ITEM

NO.

PAGE

NO.

DISPLAY

RESOLUTION

FACTORY

SETTING

Table continued on next page

Specifications

Precautions

Wiring

Jumpers

Panel

Keypad

Parameters

Programming

Service

Dimensions

Index

Inspection

Summary of Contents for Adjustable Speed Drive H3

Page 1: ...March 2008 Part 46687 004 ...

Page 2: ......

Page 3: ...ive Division and any statements contained herein do not create new warranties or modify the existing warranty Toshiba International Corporation reserves the right without prior notice to update information make product changes or to discontinue any product or service identified in this publication Any electrical or mechanical modification to this equipment without prior written consent of Toshiba ...

Page 4: ...intaining the drive This operation manual contains a section of general safety instructions and is marked throughout with warning symbols Read this operation manual thoroughly before installing and operating this electrical equipment All safety warnings must be followed to ensure personal safety Follow all precautions to attain proper equipment performance and longevity We hope that you find this ...

Page 5: ...a lighting bolt mark enclosed in a triangle The Electrical warning symbol is used to indicate high voltage locations and conditions that may cause serious injury or death if the proper precautions are not observed DANGER CAUTION 2 Explosion warnings The explosion warning symbol is an explosion mark enclosed in a triangle The Explosion warning symbol is used to indicate locations and conditions whe...

Page 6: ...g 2 3 Start up and Test 2 4 Maintenance 2 4 Section 3 Specifications 230 Volt NEMA Type 1 Chassis Ratings 3 1 460 Volt NEMA Type 1 Chassis Ratings 3 1 Standard Specifications 3 2 Section 4 Wiring Standard Connection Diagrams 4 1 Selection of Main Circuit Wiring Equipment and Standard Cable Sizes 4 3 Grounding 4 5 Application Notes Motor Selection 4 5 Connection Examples Potentiometer Operation 4 6...

Page 7: ... Input Special Function 7 4 Monitoring Pattern Run 7 4 Section 8 Programming Charts Fundamental Parameters 1 8 1 Fundamental Parameters 2 8 2 Panel Control Parameters 8 3 Special Control Parameters 8 4 Terminal Selection Parameters 8 5 Frequency Setting Parameters 8 8 Protection Parameters 8 13 Pattern Run Control Parameters 8 16 Feedback Parameters 8 22 Communication Setting Parameters 8 24 Indus...

Page 8: ...ing Groups 9 1 Blinding 9 2 Search Function 9 2 Parameter Explanations 9 3 Programming Examples 9 30 Section 10 Service Requesting After Sales Service 10 1 Parts Service Life 10 2 Troubleshooting 10 3 How to Clear a Fault 10 3 Drive Fault Displays and Explanations 10 3 Drive Warning Displays and Explanations 10 7 Section 11 Dimensions Weights Basic Dimensions 11 1 Shipping Weights 11 3 Drive Optio...

Page 9: ...specifications Storage 1 Store in a well ventilated location and preferably in the original carton if the inverter will not be used immediately after purchase 2 Avoid storage in locations with extreme temperatures high humidity dust or metal particles Disposal Please contact your state environmental agency for details on disposal of electrical components and packaging in your particular area Never...

Page 10: ...F CONDUIT IS NOT AN ACCEPTABLE GROUND 8 Use lockout tagout procedures before connecting three phase power of the correct voltage to input terminals L1 L2 L3 R S T and connect three phase power from output terminals T1 T2 T3 U V W to a motor of the correct voltage and type for the application Size the conductors in accordance with Selection of Main Circuit Wiring Equipment and Standard Cable Sizes ...

Page 11: ...ange may cause internal protection devices to turn on or can cause damage to the unit Also the input frequency should be within 2 Hz of the specified input frequency 3 Do not use this inverter with a motor whose rated input is greater than the rated inverter output 4 This inverter is designed to operate NEMA B motors Consult the factory before using the inverter for special applications such as an...

Page 12: ...on when setting the acceleration and deceleration time Unnecessarily short times can cause tripping of the drive and mechanical stress to loads 12 Only qualified personnel should have access to the adjustments and operation of this equipment They should be familiar with the drive operating instructions and with the machinery being driven 13 Only properly trained and qualified personnel should be a...

Page 13: ...the desired settings before initiating a run The drive can be operated with no motor connected Operation with no motor connected or use with a small trial motor is recommended for initial adjustment or for learning to adjust and operate the drive Maintenance 1 Use lockout tagout procedures in accordance with local electrical codes before performing any drive maintenance 2 Periodically check the op...

Page 14: ...w STANDARD RATINGS 460 Volt NEMA Type 1 Chassis Standard Ratings 230 Volt NEMA Type 1 Chassis Standard Ratings RATED MOTOR OUTPUT OUTPUT OVERLOAD MAIN CIRCUIT INPUT KVA HP KW CURRENT VOLTAGE CURRENT INPUT POWER CONTROL AMPS 3 PHASE POWER 4055 1 5 5 5 3 7 7 6 380 460V 120 FOR 380V 50Hz or NO EXTERNAL 4080 1 8 7 5 5 5 11 3 PHASE 60 SEC 400 460V 60Hz CONTROL 4110 1 11 10 7 5 15 MAX VOLTAGE 110 VOLTAG...

Page 15: ...top when ST CC opened default emergency coast stop by a command from operating panel or terminal block 3 wire control and motorized speed pot programmable functions Jogging run Jog run from panel with JOG mode selection Terminal block operation possible with parameter settings Multispeed run Set frequency plus 15 preset speeds possible with combinations of CC SS1 SS2 SS3 and SS4 default functions ...

Page 16: ...ergency stop open output phase Electronic thermal Drive s motor overload protection for motor can be adjusted for motor characteristics rated amperage Motor overload has adjustable speed sensitivity Soft stall on off Motor 150 time programmable Reset Fault reset via keypad remote contact closure or programming drive retry Cycling power also resets fault fault display can be maintained Regeneration...

Page 17: ...PP S3 T3 W T2 V T1 U R CH A LOW C 50mA MAX PULSE OUTPUT PROGRAMMABLE SIGNAL OUTPUT 0 1mA or 4 20mA M FLC GND E INPUT POWER SUPPLY see notes 1 and 2 below Potentiometer NOTES 1 For drive models 2035 through 2330 use input power supply of 200VAC 50Hz or 200 230VAC 60Hz 2 For drive models 4055 through 4330 use input power supply of 380VAC 50Hz or 400 460VAC 60Hz 3 As an example the S4 terminal is sho...

Page 18: ...41 46 R40 44 R38 RJ RES F R ST MCCB CC R CH A LOW A LOW C P24 FP FM AM CC PULSE OUTPUT 50mA MAX GND E DIGITAL OPERATION PANEL CC IV RX see note 1 below S4 FLB S3 S2 NOTE 1 As an example the S4 terminal is shown above as an EMERGENCY OFF input See Section 8 for information on how to program the drive for this and other functions INPUT POWER SELECTION 415 460V 50 60Hz 400 440V 50 60Hz 380V 50Hz INPU...

Page 19: ...0 21 3 14 24 12 24 12 H3 2080 50 30 4 10 24 8 24 8 H3 2110 70 41 3 8 18 2 18 2 H3 2160 90 57 5 6 18 2 18 2 H3 2220 100 75 0 4 18 2 18 2 H3 2270 125 93 8 3 18 2 14 2 0 H3 2330 150 111 3 2 6 250 6 250 H3 4055 15 9 5 14 24 12 24 12 H3 4080 30 13 8 14 24 8 24 8 H3 4110 30 18 8 14 24 8 24 8 H3 4160 40 27 5 10 18 2 14 2 H3 4220 50 35 8 18 2 14 2 H3 4270 70 42 5 8 18 2 14 2 H3 4330 90 50 6 18 2 14 2 H3 4...

Page 20: ...nnect drive terminals should be capable of switching low current signals i e 5 mA 2 The drive has internal overload protection which has been calibrated and certified by Underwriters Laboratories Inc and does not require external motor overload protection 3 When wiring with parallel conductors the conductors should be kept together in phase sets with U1 V1 W1 in one conduit and parallel conductors...

Page 21: ... notes 7 and 14 Motor Selection 1 Exceeding the peak voltage rating or the rise time allowable of the motor insulation system will reduce the life expectancy To insure good motor insulation life consult with the motor supplier as to determine motor insulation ratings and allowable maximum output lead distance Long lead lenghts between the motor and the drive may require filters to be added to the ...

Page 22: ...off puts drive in remote mode Toggle the LOCAL REMOTE button on keypad to turn LED off with drive stopped Notes 1 Use a 3K ohm pot 1 to 10 K ohms will work 2 The drive will accel to commanded frequency when F or R to CC is made 3 The drive will decel to 0 0 Hz when F or R to CC is broken 4 Motor will coast to a stop if ST to CC is broken 5 The above information applies to a H3 with factory default...

Page 23: ...E LED off puts drive in remote mode Toggle the LOCAL REMOTE button on keypad to turn LOCAL REMOTE LED off Notes 1 The drive will accel to the commanded frequency when F or R to CC is made 2 The drive will decel to 0 0 Hz when F or R to CC is broken 3 Motor will coast to a stop if ST to CC is broken 4 The above information applies to a H3 with factory default programming 5 Do not connect CC to grou...

Page 24: ...Item 282 FREQUENCY MODE SELECTION to 2 See page 8 28 Notes 1 The drive will accel to the commanded frequency when F or R to CC is made 2 The drive will decel to 0 0 Hz when F or R to CC is broken 3 Motor will coast to a stop if ST to CC is broken Connection Examples RS232 Port Connect DB9 pin 5 to RJ11 pin 3 Connect DB9 pin 3 to RJ11 pin 4 Connect DB9 pin 2 to RJ11 pin 2 Connect DB9 pin 7 to RJ11 ...

Page 25: ...oggle the LOCAL REMOTE button on keypad to turn LED off Notes 1 The drive will accel to commanded frequency when F or R to CC is made 2 The drive will decel to 0 0 Hz when F or R to CC is broken 3 Motor will coast to a stop if ST to CC is broken 4 The above information applies to a H3 with factory default programming 5 Do not connect CC to ground Reference 0 10 V stop start Connection Examples 0 1...

Page 26: ...e LED Terminal Block ST FM AM CC CC RX PP IV FP FLC FLB FLA P24 RES RR F R S1 S2 S3 S4 RCH A RCH C LOW A LOW C JP3 0 1mA 4 20 mA 0 1mA Jumper JP3 is used to set AM terminal and Jumper JP4 is used to set FM terminal 4 20 mA JP4 CAUTION Turn off power to the drive before connecting or disconnecting any wiring to the terminal block SECTION 5 Jumper and Terminal Connections Fused Resistor for P24 ...

Page 27: ... Ribbon cable connector back side Dip Switch SW1 Detail When a 4 0 20mA reference signal is input to terminal IV set switch SW1 to I When a 0 10 volt reference signal is input to terminal IV set SW1 to V When a 0 5 volt reference signal is input to terminal RX set SW1 to 5 When a 0 10 volt reference signal is input to terminal RX set SW1 to 10 Make connections to this board only with power off Spe...

Page 28: ... contact when an acc dec is complete or when the output frequency is within a specified range Contact rating is 250Vac 2A LOW A C Programmable relay contact output Standard setting closes contact when a preset low speed or a preset lower limit is reached Contact rating is 250Vac 2A PP 10 VDC supply typically used to drive potentiometers Wipers from pots typically connected to RR or RX terminals FM...

Page 29: ... terminal to CC enables drive Opening ST to CC coasts motor F Programmable digital input With default setting shorting terminal to CC gives drive forward run command Opening F to CC decels motor to a stop R Programmable digital input With default setting shorting terminal to CC gives drive reverse run command Opening R to CC decels motor to a stop S1 Programmable digital input With default setting...

Page 30: ...nds from the keypad and monitor the H3 s operation on the liquid crystal display The panel consists of the keypad 20 character x 2 line LCD and a LED in the LOCAL REMOTE button of the keypad The illustration below shows the operating panel keypad layout and the locations of the keys and display 6 1 Liquid crystal display Local remote LED ...

Page 31: ...ypad is on operation of the drive is from the keypad This key functions as the STOP key when running from keypad local control In all other modes emergency off is engaged when this key is pressed twice During a drive trip the tripped state can be reset by pressing this key twice This key is used to enter the monitor mode This key is used to select or enter a parameter name a parameter value a freq...

Page 32: ...When one of these keys is pressed the LCD display will blink indicating that the value is being changed When the desired frequency is shown on the display press the READ WRITE key The output frequency will change even if the READ WRITE key is not pressed However if power is removed and the READ WRITE key has not been pressed then the new frequency will be lost because it was not written into the E...

Page 33: ...nformation on physical connections to the drive See Items 44 55 on page 8 5 for information on the functions available using the input terminals See Item 281 COMMAND MODE SELECTION and Item 282 FREQUENCY MODE SELECTION for information on how to set where the drive receives start stop and frequency commands REMOTE MODE EMERGENCY OFF EMERGENCY OFF can be executed from the keypad when running and ope...

Page 34: ...ELECTION to 4 7 3 Keystroke Display Explanation OUTPUT FREQUENCY Standard output frequency display 0 0Hz MON MOTOR RUN DIRECTION Pressing the MON key places drive in monitor FORWARD mode The first monitor window indicates direction down arrow MONITOR 1 Programmable monitor 1 0 0 Hz the default shows frequency command down arrow LOAD CURRENT Programmable monitor 2 0 default setting shows total curr...

Page 35: ... terminal results in a 0 0 display At ten volts VOLTAGE BOOST is displayed 4 This monitor shows effective Stall Protection Current Level If Item 296 CURRENT UNITS SELECTION is set to 1 no units will be displayed with the current value MONITORING DURING PATTERN RUN During a pattern run the following four windows are added to the monitor sequence Key Operation LCD Message Explanation OUTPUT FREQUENC...

Page 36: ...0 Hz Maximum 0 01 0 1 Hz 80 0 9 3 FREQUENCY Output Frequency LOWER LIMIT 7 Lower limit frequency 0 0 Hz Upper 0 01 0 1 Hz 0 0 9 3 FREQUENCY Limit Frequency VOLTS PER HERTZ 8 V F pattern 1 Constant torque 1 9 3 PATTERN 2 Variable torque 3 Automatic torque boost 4 Automatic torque boost with automatic energy savings feature 5 Vector control 6 Vector control with automatic energy savings feature VOLT...

Page 37: ...and greater 60 sec DECELERATION TIME 2 22 60 HP and less 0 1 6000 0 01 600 0 0 1s 0 01s 10 sec 9 5 75 HP and greater 60 sec ACC DEC PATTERN 2 23 Acc Dec pattern 2 0 Linear 0 9 5 SELECTION 1 Self adjusting 2 S Pattern 3 Overspeed Pattern ACC DEC 1 2 SWITCH 24 Hz at which to switch from 0 Max Output Freq 0 1 0 01 Hz 0 0 9 5 FREQUENCY ACC1 DEC1 to ACC2 DEC2 Item 1 8 2 GROUP FUNDAMENTAL PARAMETERS 2 P...

Page 38: ... 28 Acc dec 1 or 2 1 Acc dec 1 1 9 6 SELECTION selection 2 Acc dec 2 PANEL RESET 29 Panel reset selection 0 All possible 0 9 6 SELECTION 1 Only OL can be reset 2 Only OL OC1 OC2 OC3 can be reset PANEL FEEDBACK 30 Panel feedback control 0 On valid when 0 9 6 CONTROL PID speed feedback drooping panel operation is selected 1 Off invalid when panel operation is selected 8 3 GROUP PANEL CONTROL PARAMET...

Page 39: ...ut Freq 0 1 0 01 Hz 0 0 9 6 JUMP FREQUENCY 1 37 band 1 0 30 0 1 0 01 Hz 0 0 9 7 BANDWIDTH JUMP FREQUENCY 2 38 Jump frequency 2 0 0 Max Output Freq 0 1 0 01 Hz 0 0 9 7 JUMP FREQUENCY 2 39 band 2 0 30 0 1 0 01 Hz 0 0 9 7 BANDWIDTH JUMP FREQUENCY 3 40 Jump frequency 3 0 0 Max Output Freq 0 1 0 01 Hz 0 0 9 7 JUMP FREQUENCY 3 41 band 3 0 30 0 1 0 01 Hz 0 0 9 7 BANDWIDTH PWM CARRIER 42 PWM carrier frequ...

Page 40: ...function to S5 terminal 0 54 8 9 8 FUNCTION available on option board S6 INPUT TERMINAL 53 assign function to S6 terminal 0 54 9 9 8 FUNCTION available on option board S7 INPUT TERMINAL 54 assign function to S7 terminal 0 54 10 9 8 FUNCTION available on option board POTENTIAL TERMINAL 55 pick function that is always active 0 42 33 9 8 FUNCTION no physical connection R S1 S7 TERMINAL 56 R and S1 S7...

Page 41: ...t Freq 0 1 0 01 Hz 0 0 9 13 OUTPUT FREQ ACC DEC COMPLETE 73 Acc Dec complete detection 0 Max Output Freq 0 1 0 01 Hz 2 5 9 13 DETECT BAND bandwidth SPEED REACH MAXIMUM 74 Speed reach high frequency 0 Max Output Freq 0 1 0 01 Hz 0 0 9 13 FREQUENCY SPEED REACH MINIMUM 75 Speed reach low frequency 0 Max Output Freq 0 1 0 01 Hz 0 0 9 13 FREQUENCY COMMERCIAL POWER INV 76 Bypass control 0 Off 0 9 13 SWI...

Page 42: ...8 Output terminal pulse 0 48 times output frequency 0 9 13 PULSE FREQUENCY frequency selection 1 96 times output frequency 5 1 2 360 times output frequency RR INPUT SPECIAL 79 RR input special function selection 0 Standard 0 9 13 FUNCTION SELECT 1 Set effective Maximum 5 1 Output Frequency 2 Scale ACC DEC times 3 Set effective Voltage Boost 4 Set effective Stall Level ...

Page 43: ... 86 RR reference point 2 0 100 1 100 9 14 POINT 2 of terminal max 10V RR REF POINT 2 87 Output frequency desired 0 Max Out Freq 0 1 0 01 Hz 80 0 9 14 FREQUENCY with input entered in Item 86 IV TERMINAL STANDARD 88 IV input selection 0 Standard 0 9 14 OR ADJUSTABLE 1 Adjustable 5 1 IV REFERENCE SETTING 89 IV reference point 1 0 100 1 20 9 14 POINT 1 of terminal maximum IV REF POINT 1 90 Output freq...

Page 44: ...99 Max Out Freq PG REFERENCE SETTING 101 PG reference point 2 100 100 of Max 1 100 9 14 POINT 2 Out Freq X PPR PG REF POINT 2 102 Output Hz desired when reference Max Out Freq to 0 1 0 01 Hz 80 0 9 14 FREQUENCY equals value entered in Item 101 Max Out Freq BINARY INPUT STD 103 Bias gain for binary input 0 Standard 0 9 14 OR ADJUSTABLE via input terminals 1 Adjustible BINARY REF SETTING 104 Binary ...

Page 45: ...run 3 Acc dec 2 reverse run 4 Acc dec 1 forward run 5 Acc dec 1 reverse run 6 Acc dec 2 forward run 7 Acc dec 2 reverse run PRESET SPEED 2 114 2nd speed Lower limit frequency 0 1 0 01 Hz 0 0 9 15 FREQUENCY to upper limit frequency PRESET SPEED 2 115 2nd speed run mode Same options as 0 9 15 OPERATING MODE Item 113 PRESET SPEED 3 116 3rd speed Lower limit frequency 0 1 0 01 Hz 0 0 9 15 FREQUENCY to...

Page 46: ...it frequency 0 1 0 01 Hz 0 0 9 15 FREQUENCY to upper limit frequency PRESET SPEED 8 127 8th speed run mode Same options as 0 9 15 OPERATING MODE Item 113 PRESET SPEED 9 128 9th speed Lower limit frequency 0 1 0 01 Hz 0 0 9 15 FREQUENCY to upper limit frequency PRESET SPEED 9 129 9th speed run mode Same options as 0 9 15 OPERATING MODE Item 113 PRESET SPEED 10 130 10th speed Lower limit frequency 0...

Page 47: ...QUENCY to upper limit frequency PRESET SPEED 14 139 14th speed run mode Same options as 0 9 15 OPERATING MODE Item 113 PRESET SPEED 15 140 15th speed Lower limit frequency 0 1 0 01 Hz 0 0 9 15 FREQUENCY to upper limit frequency PRESET SPEED 15 141 15th speed run mode Same options as 0 9 15 OPERATING MODE Item 113 8 12 GROUP FREQUENCY SETTING PARAMETERS cont d PARAMETER DESCRIPTION LIQUID CRYSTAL D...

Page 48: ... Coast to stop 0 9 17 SELECTION 1 Decelerated stop 2 DC injection stop EMERGENCY OFF DC 152 Emergency stop DC injection time 0 10 0 1 sec 0 1 9 17 INJECTION TIME NUMBER OF RETRY 153 Retry selection 0 No retry 0 9 17 ATTEMPTS 1 Retry 1 time 2 Retry 2 times 3 Retry 3 times 4 Retry 4 times 5 Retry 5 times 6 Retry 6 times 7 Retry 7 times 8 Retry 8 times 9 Retry 9 times 10 Retry 10 times TIME BETWEEN R...

Page 49: ...VEL UNDERVOLTAGE TRIP 164 Undervoltage detection can 0 Trip disabled 0 9 18 SELECTION cause a warning or a trip 1 Trip enabled UNDERVOLTAGE DETECT 165 Undervoltage detection time 0 10 0 01 sec 0 03 9 18 TIME LOW CURRENT DETECT 166 Low current detection can 0 Trip disabled 0 9 18 SELECTION cause a warning or a trip 1 Trip enabled LOW CURRENT DETECT 167 Low current detection level 0 100 or amps 1 A ...

Page 50: ...ower cycled 1 Fault display retained when power cycled COOLING FAN CONTROL 173 Cooling fan control selection 0 Automatic fan 0 9 19 SELECTION 1 Fan always on CUMULATIVE RUN TIMER 174 Cumulative run timer alarm setting 0 00 999 9 0 02 175 0 9 19 ALARM SETTING 01 1 hour 8 15 GROUP PROTECTION PARAMETERS cont d PARAMETER DESCRIPTION LIQUID CRYSTAL DISPLAY ADJUSTMENT RANGE ITEM NO PAGE NO DISPLAY RESOL...

Page 51: ... Same options as 3 9 20 SPEED 2 3rd speed selection Item 177 PATTERN GROUP 1 180 1st Pattern Group Same options as 4 9 20 SPEED 3 4th speed selection Item 177 PATTERN GROUP 1 181 1st Pattern Group Same options as 5 9 20 SPEED 4 5th speed selection Item 177 PATTERN GROUP 1 182 1st Pattern Group Same options as 6 9 20 SPEED 5 6th speed selection Item 177 PATTERN GROUP 1 183 1st Pattern Group Same op...

Page 52: ...n Group Same options as 15 9 20 SPEED 6 7th speed selection Item 177 PATTERN GROUP 2 193 2nd Pattern Group Same options as 0 9 20 SPEED 7 8th speed selection Item 177 PATTERN GROUP 2 194 number of repeats of 1 254 255 infinity 1 9 20 NUMBER OF CYCLES entire pattern group PATTERN GROUP 3 195 3rd Pattern Group Same options as 1 9 20 SPEED 0 1st speed selection Item 177 PATTERN GROUP 3 196 3rd Patter...

Page 53: ...em 177 PATTERN GROUP 4 207 4th Pattern Group Same options as 12 9 20 SPEED 3 4th speed selection Item 177 PATTERN GROUP 4 208 4th Pattern Group Same options as 13 9 20 SPEED 4 5th speed selection Item 177 PATTERN GROUP 4 209 4th Pattern Group Same options as 14 9 20 SPEED 5 6th speed selection Item 177 PATTERN GROUP 4 210 4th Pattern Group Same options as 15 9 20 SPEED 6 7th speed selection Item 1...

Page 54: ... 9 21 SPEED 4 CONTINUE 219 Speed 4 drive continuation mode Same options as 0 9 20 MODE Item 213 SPEED 4 DRIVE TIME 220 Speed 4 drive time 0 8000 1 sec min 0 9 21 SPEED 5 CONTINUE 221 Speed 5 drive continuation mode Same options as 0 9 20 MODE Item 213 SPEED 5 DRIVE TIME 222 Speed 5 drive time 0 8000 1 sec min 0 9 21 8 19 GROUP PATTERN RUN CONTROL PARAMETERS cont d PARAMETER DESCRIPTION LIQUID CRYS...

Page 55: ...231 Speed 10 drive continuation mode Same options as 0 9 20 MODE Item 213 SPEED 10 DRIVE TIME 232 Speed 10 drive time 0 8000 1 sec min 0 9 21 8 20 GROUP PATTERN RUN CONTROL PARAMETERS cont d PARAMETER DESCRIPTION LIQUID CRYSTAL DISPLAY ADJUSTMENT RANGE ITEM NO PAGE NO DISPLAY RESOLUTION FACTORY SETTING Table continued on next page Item 224 is available only when Item 223 Adjustment Range option 0 ...

Page 56: ...40 Speed 14 drive time 0 8000 1 sec min 0 9 21 SPEED 15 CONTINUE 241 Speed 15 drive continuation mode Same options as 0 9 20 MODE Item 213 SPEED 15 DRIVE TIME 242 Speed 15 drive time 0 8000 1 sec min 0 9 21 8 21 GROUP PATTERN RUN CONTROL PARAMETERS cont d PARAMETER DESCRIPTION LIQUID CRYSTAL DISPLAY ADJUSTMENT RANGE ITEM NO PAGE NO DISPLAY RESOLUTION FACTORY SETTING Table continued on next page It...

Page 57: ...it selection 0 No PID deviation 0 9 21 SELECTION limit 1 PID deviation limited PID DEVIATION UPPER 251 PID deviation upper limit 0 50 1 50 9 21 LIMIT PID DEVIATION LOWER 252 PID deviation lower limit 0 50 1 50 9 21 LIMIT PG INPUT NUMBER OF 253 pulses per rev for feedback or 1 9999 1 500 9 21 PULSES pulses 1Hz for pulse reference PG INPUT NUMBER OF 254 number of phases 1 Single phase input 2 9 22 P...

Page 58: ...ON 1 RR terminal 2 IV terminal 3 RX terminal 4 PG option board 5 Keypad 6 All other opt board 7 Multiplier OVERRIDE MULTIPLIER 258 trim source selection 0 Reference 0 9 22 INPUT SELECTION 1 RR terminal 2 IV terminal 3 RX terminal 4 Binary input OVERRIDE CHANGE 259 sets trim range 100 0 100 0 0 1 0 0 9 22 MULTIPLIER of reference Items 258 259 are available only when Item 257 Adjustment Range option...

Page 59: ...ETTING 262 Parity 0 Even parity 0 9 22 1 Odd parity INVERTER ID NUMBER 263 Inverter number 0 255 0 9 22 COMMUNICATION 264 Communication selection 0 Off 0 9 23 SELECTION 1 RS485 board 2 Tosline F10 DN board MB board RIO board 3 Tosline S20 4 12 bit binary input option board 5 BCD board 0 1 Hz units 6 BCD board 1 Hz units MASTER SLAVE 265 Master follower selection 0 Follower 0 9 23 SELECTION 1 Maste...

Page 60: ...485 12 bit binary input bias 0 Off 0 0 9 23 BIAS GAIN and gain settings 1 On RS485 12 BIT BINARY 271 Point 1 setting signal 0 100 of 1 0 9 23 POINT 1 Max Out Freq RS485 12 BIT BINARY 272 Output Hz desired with input 0 Max Out Freq 0 1 0 01 Hz 0 0 9 23 POINT 1 FREQ entered in Item 271 RS485 12 BIT BINARY 273 Point 2 setting signal 0 100 of 100 100 9 23 POINT 2 Max Out Freq RS485 12 BIT BINARY 274 O...

Page 61: ...USTRIAL APPLICATION PARAMETERS TEXTILES GROUP INDUSTRIAL APPLICATION PARAMETERS MACHINE TOOLS These groups contain the parameters likely to be used for certain applications See the H3 Industrial Application Manual available from your Toshiba distributor for programming charts and macro values Specifications Precautions Wiring Jumpers Panel Keypad Parameters Programming Service Dimensions Index Ins...

Page 62: ...ut power 13 Output power 14 Meter calibration 100 fixed output 15 Peak output current 16 Peak input voltage FREQUENCY METER 276 FM terminal calibration 0 0 Hz 9 24 ADJUSTMENT AM TERMINAL FUNCTION 277 AM terminal signal selection 0 Pre compensation 3 9 25 SELECTION reference frequency 1 Post compensation output frequency 2 Frequency setting value 3 Output current 4 DC voltage 5 Output voltage 6 Tor...

Page 63: ...MODE 283 limits keypad s functions 0 Prohibit all key operations 63 9 26 SELECTION 1 Perform reset 2 Perform monitor operations 3 Perform reset perform monitor operations 4 Perform emergency stop 5 Perform emergency stop perform reset 6 Perform emergency stop perform monitor operations 7 Perform emergency stop perform monitor operations perform reset 8 Perform run stop operations 9 Perform run sto...

Page 64: ...on 16 Option 11 28 Option 16 Option 12 29 Option 16 Option 13 30 Option 16 Option 14 31 Option 16 Option 15 32 Perform parameter change operations 33 Option 32 Option 1 34 Option 32 Option 2 35 Option 32 Option 3 36 Option 32 Option 4 37 Option 32 Option 5 38 Option 32 Option 6 39 Option 32 Option 7 40 Option 32 Option 8 41 Option 32 Option 9 42 Option 32 Option 10 43 Option 32 Option 11 44 Option...

Page 65: ... options as 3 9 27 DISPLAY SELECT displayed in MON mode Item 289 STATUS MONITOR 3 291 Programmable monitor 3 Same options as 4 9 27 DISPLAY SELECT displayed in MON mode Item 289 STATUS MONITOR 4 292 Programmable monitor 4 Same options as 5 9 27 DISPLAY SELECT displayed in MON mode Item 289 FREQUENCY UNITS 293 multiplier to scale Hz display 0 Off 0 01 200 0 01 0 00 9 27 SCALE FACTOR FREQUENCY DISPL...

Page 66: ...d this group to visible group list FEEDBACK CONTROL 306 This group must be unblinded to 0 Blind 0 9 28 PARAMS BLIND access group s parameters 1 Add this group to visible group list COMMUNICATION PARAMS 307 This group must be unblinded to 0 Blind 0 9 28 BLIND access group s parameters 1 Add this group to visible group list INDUSTRIAL APPL PUMP 308 This group must be unblinded to 0 Blind 0 9 28 PARA...

Page 67: ...9 1 RPM 1710 9 29 AUTO TUNING ENABLE 322 Auto tuning 0 Auto tuning 0 9 29 disabled 1 Auto tuning enabled LOAD MOMENT OF 323 Load moment of inertia 0 Small 1 9 29 INERTIA 1 Medium 2 Large 3 Very large 8 32 PARAMETER DESCRIPTION LIQUID CRYSTAL DISPLAY ADJUSTMENT RANGE ITEM NO PAGE NO DISPLAY RESOLUTION FACTORY SETTING GROUP MOTOR PARAMETERS Item 317 factory setting depends on inverter rating 1 HP 74...

Page 68: ...07 Volts per hertz Pattern Deceleration Time 2 Jump Frequency 2 RES Input Terminal Function OUT Contacts Function RR Ref Point 2 Frequency Binary Ref Point 2 Frequency 9 23 39 51 70 88 108 Voltage Boost 1 Acc Dec Pattern 2 Jump Frequency 2 Bandwidth ST Input Terminal Function OUT Contacts Delay Time IV Terminal Standard or Adj Jog Run Frequency 10 24 40 52 71 89 109 Acceleration Time 1 Acc Dec 1 2...

Page 69: ... Detect Level Pattern Group 3 Number of Cycles PID Deviation Limit Selection TOSLINE F10 S20 Command Input ROM Version Frequency Setting Params Blind Load Moment of Inertia 150 168 204 211 251 268 287 304 Motor Shaft stationary control Low Current Detection Time Pattern Group 4 Speeds 0 7 PID Deviation Upper Limit TOSLINE F10 S20 Monitor Output EEPROM Version Protection Function Params Blind 151 1...

Page 70: ...INDUSTRIAL APPLICATION PARAMETERS PUMP GROUP INDUSTRIAL APPLICATION PARAMETERS FAN GROUP INDUSTRIAL APPLICATION PARAMETERS CONVEYOR GROUP INDUSTRIAL APPLICATION PARAMETERS HOIST GROUP INDUSTRIAL APPLICATION PARAMETERS TEXTILES GROUP INDUSTRIAL APPLICATION PARAMETERS MACHINE TOOLS GROUP AM FM TERMINAL ADJUSTMENT PARAMETERS GROUP UTILITY PARAMETERS GROUP MOTOR PARAMETERS Programming Example 1 Object...

Page 71: ...PARAMETERS to 1 Step 1 Press PRG and use up arrow to display GROUP UTILITY PARAMETERS Press READ WRITE key Drive will display INDUSTRIAL APPLICATIONS because it is the first parameter in the group Step 2 Instead of using the down arrow to go through all the parameters in GROUP UTILITY PARAMETERS use the up arrow to make the drive display the last visible parameter in GROUP UTILITY PARAMETERS which...

Page 72: ... output regardless of reference Item 7 LOWER LIMIT FREQUENCY This parameter sets the lowest speed the drive can run regard less of reference If this parameter is set to a non zero value and the drive is given a run command i e F CC closure or RUN button the drive will run at LOWER LIMIT FREQUENCY if the reference is less than LOWER LIMIT FREQUENCY Item 8 VOLTS PER HERTZ PATTERN This parameter cann...

Page 73: ...n time may result in an overcurrent trip Item 11 DECELERATION TIME 1 DT 1 This parameter sets the time for drive output frequency to go from MAXIMUM OUTPUT FREQUENCY Item 1 to 0 Hz A small deceleration time may result in an overvoltage trip Item 12 ACC DEC PATTERN 1 This value determines the way the drive s output frequency varies with time during an accel or decel as follows 0 Linear pattern Driv...

Page 74: ...ive s overload to protect the motor Divide motor full load amps by drive full load amps and multiply by one hundred Enter the result in this parameter Input in amps with item 296 CURRENT UNITS SELECTION is set to 1 Item 19 STALL PROTECTION SELECTION 2 Stall is a drive function wherein the drive limits the motor current by reducing output voltage and frequency in an effort to reduce load Stall is m...

Page 75: ...FREQUENCY When the reference is great enough drive immediately outputs commanded frequency no accel ramp Item 32 END FREQUENCY Drive s output frequency immediately goes to 0 Hz no decel ramp when reference commands an output frequency less than or equal to END FREQUENCY Item 33 RUN FREQUENCY Frun Use in conjunction with item 34 below This parameter is the center of the hysteresis band Item 34 RUN ...

Page 76: ...drive s input terminals when shorted to CC have the following default functions R terminal gives reverse run command F terminal gives forward run command RES terminal resets a fault ST terminal enables drive S1 S2 S3 and S4 terminals give preset speed references The user has the option of changing the function as signed to any of the G3 s input terminals by programming a 1 into item 43 and program...

Page 77: ...t The S6 terminal is available on the option boards INV3 COM B and INV3 COM D See page 9 9 for codes for other available functions Item 54 S7 INPUT TERMINAL FUNCTION sets the function realized when the S7 terminal is shorted to CC Default setting gives a binary speed reference bit The S7 terminal is available on the option boards INV3 COM B and INV3 COM D See page 9 9 for codes for other available...

Page 78: ... 108 and 109 21 Jog reverse includes reverse command See items 108 and 109 22 Bit 0 for binary speed reference value of MAXIMUM OUTPUT FREQUENCY 2048 23 Bit 1 for binary speed reference value of MAXIMUM OUTPUT FREQUENCY 1024 24 Bit 2 for binary speed reference value of MAXIMUM OUTPUT FREQUENCY 512 25 Bit 3 for binary speed reference value of MAXIMUM OUTPUT FREQUENCY 256 26 Bit 4 for binary speed r...

Page 79: ... sets the delay between the time the drive senses a desired condition and the time at which a change in RCH contact indicating this condition occurs Maximum adjustment of 100 is approximately 200 milliseconds Item 62 RCH CONTACTS HOLD TIME Example Suppose drive is programmed to close RCH contact when it is outputting more than 30 Hz When the drive s output frequency dips below 30 Hz the contact wi...

Page 80: ...alarm Example of drive overload H3 is rated for 150 of rated current for 2 minutes If drive is operated at 150 of rated current for one minute the drive overload is at 50 or half of its overload current time capability The drive trips on overload at 100 Drive overload pre alarm starts at 50 17 Contact closes to signify drive is not in an overload pre alarm See explanation for value 16 above 18 Con...

Page 81: ...ripped on a retryable fault 46 Auto bypass control Contact closes to energize coil of output contactor 47 Opposite logic state of above 48 Auto bypass control Contact closes to energize coil of bypass contactor 49 Opposite logic state of above 50 Contact closes when drive s cooling fan s is on 51 Contact closes when drive s cooling fan s is not on 52 Contact closes when drive is jogging 53 Contact...

Page 82: ... a drive for this function Item 78 FP OUTPUT TERMINAL PULSE FREQUENCY Use this parameter to set the number of pulses per output Hz Item 79 RR INPUT SPECIAL FUNCTION SELECT Use this parameter to change the function of the 0 10 volt signal applied to the RR terminal 0 Standard speed reference 1 Scale MAXIMUM OUTPUT FREQUENCY Minimum 30 Hz 2 Adjust multiplier on accel decel times Zero volts sets the ...

Page 83: ...pswitch in I position drive considers 100 reference 20 mA 20 would be 4 mA With dipswitch in V position 100 reference 10 volts See page 5 3 for dipswitch location Items 93 97 RX TERMINAL STANDARD OR ADJUSTABLE Use these parameters to allow adjustment of the RX reference s bias and gain See explanation for Items 83 87 above With dipswitch in 5 position drive considers 100 reference 5 volts With dip...

Page 84: ...NCY Use this parameter to set preset speed frequencies Items 113 115 117 119 121 123 125 127 129 131 133 135 137 139 141 PRESET SPEED 1 2 3 4 5 6 7 8 9 10 11 12 13 14 or 15 OPERATING MODE Use this parameter to associate a direction and ACCELERATION TIME 1 DECELERATION TIME 1 or ACCELERATION TIME 2 DECELERATION TIME 2 with a preset speed See Item 111 With default programming the S1 S2 S3 and S4 ter...

Page 85: ...in braking resistor damage from overheating HEAVY DUTY RESISTORS LIGHT DUTY RESISTORS WATTS 300 watts per drive HP WATTS 60 watts per drive HP H3 H D H3 H D H3 L D H3 L D Model Ohms Model Ohms Model Ohms Model Ohms 2035 35 4055 108 2035 150 4055 360 2055 28 4080 65 2055 90 4080 240 2080 20 4110 60 2080 61 4110 180 2110 12 4160 38 2110 45 4160 120 2160 7 0 4220 30 2160 30 4220 90 2220 6 0 4270 22 2...

Page 86: ...ntrol starts after DC injection and continues until ST CC is opened power is turned off drive emergency stops or parameter is changed Item 151 EMERGENCY STOP SELECTION This parameter determines ESTOP method Item 152 EMERGENCY OFF DC INJECTION TIME This is an unique DC injection time for ESTOPs Item 153 NUMBER OF RETRY ATTEMPTS The H3 can be programmed to restart after a fault occurs This parameter...

Page 87: ...eter adjusts the overload protection scheme 0 Standard 1 Soft stall on Soft stall reduces output frequency only when the drive is in its overload region Soft stall helps prevent drive from tripping on INVERTER OVERLOAD 2 Motor overload trip off 3 Soft stall on and motor overload trip off Motor overload sensing is on unless 2 or 3 is selected INVERTER OVERLOAD cooling time is approximately one minu...

Page 88: ...ect of cycling power on a faulted drive 0 Fault and fault data cleared when drive powers up 1 Drive powers up in tripped state drive display remains in faulted state but fault data and fault contact are not maintained The setting of Item 153 NUMBER OF RETRY ATTEMPTS is ignored by the drive when Item 172 is set to 1 Item 173 COOLING FAN CONTROL SELECTION This parameter determines if the drive s fan...

Page 89: ...determines which preset speed preset speeds 1 through 15 programmed in Items 110 141 is the next speed in the pattern group Speed 6 can be but does not have to be Preset Speed 6 Items 184 193 202 211 PATTERN GROUP 1 2 3 or 4 SPEED 7 This parameter determines which preset speed preset speeds 1 through 15 programmed in Items 110 141 is the next speed in the pattern group Speed 7 can be but does not ...

Page 90: ...ential gain or rate this parameter is actually a time The larger the value here the more pronounced the effect of the differential function Contact Houston for the PID application guideline READ WRITE does not have to be pressed to make the value entered here effective Item 248 LAG TIME CONSTANT This parameter effects drive reaction time to change in feedback value Decrease this setting to improve...

Page 91: ...R INPUT SELECTION When used with a multiplier the following inputs bias and gain do not determine their effect on the master reference Select which of the following trim sources will be used with the muliplier 0 Frequency reference 1 RR terminal 2 IV terminal 3 RX terminal 4 RS485 input or 12 bit input on option cards INV3 COM A INV3 COM C or G3 VF5X 4526A Item 259 OVERRIDE CHANGE MULTIPLIER When ...

Page 92: ... 19200 INV3 COM C card s max baud is 38400 Cycle power after changing this parameter Item 267 TOSLINE F10 S20 COMMAND INPUT determines if drive accepts run stop and or frequency commands from TOSLINE Contact PLC marketing for more information Cycle power after changing this parameter Item 268 TOSLINE F10 S20 MONITOR OUTPUT determines the drive operating data to be communicated Contact PLC marketin...

Page 93: ...ress the up down arrows ignoring parameter value shown until external meter system reads the following value for the chosen operating variable For post compensation frequency adjust until meter system reads 75 of Item 1 MAXIMUM OUTPUT FREQUENCY For post compensation output frequency adjust until meter system reads 75 of Item 1 MAXIMUM OUTPUT FREQUENCY For frequency command adjust until meter syste...

Page 94: ...em 275 but it affects the AM terminal Item 278 AMMETER ADJUSTMENT This parameter is programmed like Item 276 but it affects the AM terminal Item 279 INDUSTRIAL APPLICATION SELECTION This parameter can be changed only when the drive s output is 0 0 Hz When programmed with a non zero value the drive will initialize itself prior pro gramming is erased to parameter values that lend themselves to speci...

Page 95: ...Precautions Wiring Jumpers Panel Keypad Parameters Programming Service Dimensions Index Inspection Item 284 PASS NUMBER Incorrect entry of the setting in this parameter prevents resetting keypad lockout Item 283 set to 0 Item 284 is viewable through RS232 port Item 285 CPU VERSION This is a read only parameter This manual is for the version 120 CPU Version 120 added the following features to versi...

Page 96: ... 10 Inverter overload ratio See example for selection 9 above 11 Dynamic braking resistor overload ratio See example for selection 9 above 12 Input power 13 Output power 14 RR terminal input value the variable displayed here varies with the setting of Item 79 RR INPUT SPECIAL FUNCTION SELECT 15 Peak output current Peak is reset by cycling power initiating a run or resetting drive 16 Peak input vol...

Page 97: ... of the parameters on pages 8 24 through 8 25 can be read or changed Putting a 1 here adds GROUP COMMUNICATION PARAMENTERS to the visible group list accessed via the PRG button Item 308 INDUSTRIAL APPL PUMP PARAMS BLIND Putting a 1 here adds GROUP INDUSTRIAL APPLICATION PUMP to the visible group list accessed via the PRG button This group contains parameters from other groups which may be useful w...

Page 98: ...ore any of the parameters on page 8 27 can be read or changed Putting a 1 here adds GROUP AM FM ADJUSTMENT PARAMS to the visible group list accessed via the PRG button Item 315 MOTOR PARAMETERS BLIND This parameter must be set to 1 before any of the parameters on page 8 31 can be read or changed Putting a 1 here adds GROUP MOTOR PARAMETERS to the visible group list accessed via the PRG button Item...

Page 99: ...TING PARAMETERS BLIND 1 FEEDBACK PARAMETERS OVERRIDE CONTROL SELECTION 3 FREQUENCY SETTING PARAMETERS RX TERMINAL STANDARD OR ADJUSTABLE 1 FREQUENCY SETTING PARAMETERS RX REFERENCE SETTING POINT 1 0 FREQUENCY SETTING PARAMETERS RX REFERENCE POINT 1 FREQUENCY 7 HZ FREQUENCY SETTING PARAMETERS RX REFERENCE SETTING POINT 2 100 FREQUENCY SETTING PARAMETERS RX REFERENCE POINT 2 FREQUENCY 5 HZ Motor Ope...

Page 100: ... board motor model If a generic motor is used the drive can be programmed to auto tune During auto tuning the drive derives a motor model by applying a voltage to the motor and analyzing the resulting decay These parameters must be adjusted to use TTC with a TOSHIBA HOUSTON motor Group Parameter Value UTILITY PARAMETERS BLIND FUNCTION SELECTION 1 UTILITY PARAMETERS MOTOR PARAMETERS BLIND 1 FUNDAME...

Page 101: ...een L2 phase and L3 phase source Voltage between L3 phase and L1 phase Number of Hz Problem occurred hours after motor had been started Motor has been stopped for hours Phenome State of Problem occurred during periodic inspection non motor when Problem occurred when motor was started problem was Problem occurred during acceleration found Problem occurred during deceleration Problem occurred while ...

Page 102: ...arent problems Use the following service life chart as a guide for major part periodic replacement when the equipment is used in a standard installation service environment Service Life Replacement Chart Part Name Service Life Remarks Large capacity 5 Years To be electrified semiannually in electrolytic capacitor case of long term disuse Cooling Fan 26000 Hours Internal fans Contact relays 500 000...

Page 103: ...control board with phone jack and terminal strip board are common to all drive ratings If a board or keypad is suspect exchange with a known good board keypad to verify Drive Fault Displays and Explanations OVERCURRENT ACCEL or DC OVERCURRENT ACC Cause Drive current exceeded 215 of its rated FLA 190 above 100 HP Comments Check for phase phase short ACCELERATION TIME may be too small VOLTAGE BOOST ...

Page 104: ...ced to run faster than drive is commanding due to large load inertias mechanical couplings install appropriate dynamic braking resistor see page 9 16 On eccentric cyclic loads like presses or pump jacks contact your Toshiba distributor for special programming instructions that may make a DBR unnecessary INVERTER OVERLOAD Cause Drive exceeded 110 of its rated current for too long of a time Comments...

Page 105: ...ad write to peripherals Comments Check for miswiring that may be causing noise such as CC connected to ground an external 10 volt source connected to PP etc Control board may need to be replaced part number45996 See picture of board on page 5 2 RAM ERROR or ROM ERROR Comments Check for miswiring that may be causing noise such as CC connected to ground an external 10 volt source connected to PP etc...

Page 106: ...quest the torque limit application guideline EARTH FAULT SOFT or EARTH FAULT HARD Cause Drive detected some current to ground Depending on rating drive senses ground fault via ZCT hard fault or HCT soft fault Comments With leads disconnected from drive meg motor and leads Look for any moisture that may provide current path to ground Make sure that control wiring is separated from power wiring Addi...

Page 107: ...ng an inverter overload trip on page 10 4 Setting one of the monitor s functions Items 289 292 to 10 will give an indication of how close a drive is to tripping OVERCURRENT A flashing overcurrent display means that the drive is stalling Stall level is set by Item 160 STALL PROTECTION CURRENT LEVEL The drive s output frequency will automatically decrease OVERVOLTAGE A flashing overvoltage display m...

Page 108: ...295 7 69 195 28 7 28 7 VT130H3U4080 1 12 13 308 8 66 220 7 44 189 11 38 289 11 63 295 7 69 195 28 7 28 7 VT130H3U4110 1 17 88 454 8 66 220 7 44 189 17 13 435 17 38 441 7 69 195 28 7 28 7 VT130H3U4160 2 18 75 476 14 25 362 9 81 249 17 09 434 18 09 459 11 25 286 38 10 38 10 VT130H3U4220 2 18 75 476 14 25 362 9 81 249 17 09 434 18 09 459 11 25 286 38 10 38 10 VT130H3U4270 2 18 75 476 14 25 362 9 81 2...

Page 109: ... 69 18 69 18 VT130H3U420K 3 57 00 1448 19 25 489 13 16 334 54 16 1376 55 81 1418 12 63 321 69 18 69 18 VT130H3U425K 3 57 00 1448 19 25 489 13 16 334 54 16 1376 55 81 1418 12 63 321 69 18 69 18 VT130H3U430K 4 59 94 1522 25 88 657 14 47 368 57 00 1448 58 75 1492 11 81 300 69 18 69 18 11 2 TOSHIBA SECTION 11 Dimensions Weights Programming Parameters Keypad Panel Jumpers Wiring Specifications Inspecti...

Page 110: ...5 23 10 5 2055 19 8 6 4080 24 10 9 2080 31 14 1 4110 32 14 5 2110 51 23 2 4160 55 25 2160 53 24 1 4220 55 25 2220 54 24 5 4270 56 25 5 2270 54 24 5 4330 58 26 4 2330 98 44 5 4400 103 46 8 4500 106 48 2 4600 110 50 4750 210 95 5 410K 215 975 412K 305 138 3 415K 315 142 9 420K 336 152 4 425K 415 188 2 430K 440 199 6 ...

Page 111: ...ard INV3 COM B Offers same capabilities as INV3 COM D plus 19 2 K baud RS485 communication Modbus network communication board INV3 MODPLUS Remote I O network communication board INV3 RIO DeviceNet network communication board INV3 DEVICENET BCD 12 bit binary input option board G3 VFSX 4526A Toshiba F 10 network communication board G3 VF5X 1254A Toshiba S 20 network communication board G3 VF5X 1255A...

Page 112: ...ba distributor DC Link Reactor INV3 DCL _ _ _ _ Remote Stations custom stop start metering etc VT REMOTE _ _ _ Additional H3 documentation available RS232 Inverter PC Communications Software Manual for the free software RS232C Communications Manual protocol information Application Guidelines programming examples such as dancer control three wire start pattern run and PID Devicenet Communications O...

Page 113: ...Auto restart 8 14 9 17 Auto tuning enable 8 32 9 29 B Bandwidth Acc Dec detection 8 6 Bandwidth of jump frequency 1 thru 3 8 4 Base frequency 1 8 1 Base frequency 2 8 2 Base frequency voltage select 8 1 Basic operation 7 1 thru 7 4 Baud rates 8 24 Bearing considerations 4 7 Bias Gain adjustments 9 14 Binary input selection 8 9 Binary reference point frequency 8 9 Binary reference pt setting 8 9 Bl...

Page 114: ... 11 7 D Dancer 11 7 Data bits number 8 24 DC injection braking start frequency 8 13 DC injection current 8 13 DC injection time 8 13 Deceleration time 1 8 1 Deceleration time 2 8 2 Delay time FL output 8 6 Delay time LOW output 8 6 Delay time OUT output 8 6 Delay time RCH output 8 5 Detection bandwidth Acc Dec 8 6 Detection level for low current 8 14 Detection time for low current 8 14 Detection t...

Page 115: ...3 4 Frequency command value setting 7 1 Frequency display resolution 8 30 Frequency meter adjustment 8 27 Frequency mode selection 8 28 Frequency priority selection 8 8 Frequency rating of motor 8 32 Frequency setting mode selection 8 28 Frequency setting parameters 8 8 to 8 12 Frequency setting resolution 3 4 Frequency units scale factor 8 30 Function selection FL output 8 6 Function selection LO...

Page 116: ...n precautions 2 1 to 2 2 Integral gain 8 22 Inverter number 8 24 Inverter trip codes 10 3 Inverter typeform 8 30 Isolation 2 3 IV input selection 8 8 5 2 IV reference point frequency 8 8 IV reference point setting 8 8 J Jog run frequency 8 9 9 15 Jog run mode 7 1 Jog stop control 8 9 9 15 Jump frequency enable 8 4 Jumpers JP3 JP4 5 2 K Key functions 6 2 Keys 6 1 6 2 L Lag time constant 8 22 Langua...

Page 117: ...arch 8 14 Motor type 8 32 N NEC requirements 4 6 NEMA enclosures 3 1 to 3 3 11 1 to 11 3 Number of data bits 8 24 Number of inverter identifier 8 24 Number of motor poles 8 32 Number of preset speeds 8 10 O OL reduction start frequency 8 14 OL time limit 8 14 Operating mode preset speeds 1 thru 15 8 10 thru 8 12 Operating panel 6 1 6 2 Options 11 4 Output fault detection 8 14 Output frequency 3 4 ...

Page 118: ...ulses and phases 8 22 PG input selection 8 9 PG reference point frequency 8 9 PG reference point setting 8 9 PID deviation of upper and lower limit 8 22 PID deviations limit activation 8 22 Potential terminal function 8 5 Power factor improvement precautions 2 2 Power inverter switching frequency 8 6 Power inverter switching output 8 6 Precautions 2 1 2 2 Preset frequency for speeds 1 thru 15 8 10...

Page 119: ... gain activation 8 25 RS485 12 bit binary frequency setting 8 25 RS485 12 bit binary point setting 8 25 Run frequency 8 4 Run frequency for jog 8 9 Run stop commands 9 25 RX input selection 8 8 RX reference point frequency 8 8 RX reference point setting 8 8 S S1 terminal 8 5 S2 terminal 8 5 S3 terminal 8 5 S4 terminal 8 5 S5 terminal 8 5 S6 terminal 8 5 S7 terminal 8 5 Scale factor 8 30 Searching ...

Page 120: ...ontrol 5 2 Terminal functions 5 3 to 5 5 Terminal identification 5 3 to 5 5 Terminal location 5 3 to 5 5 Terminal selection parameters 8 5 to 8 7 Textiles application parameters 8 26 Thermal protection 8 14 Three wire control 9 9 Time of ride through 8 14 Time units selection for Acc dec 8 30 Torque current 9 27 9 31 Tosline F10 S20 command input 8 24 Tosline F10 S20 communication error mode 8 25 ...

Page 121: ...ost 2 8 2 Voltage rating of motor 8 32 Voltage units selection 8 30 Volts Hertz pattern 8 1 W Weights shipping 11 3 Wire size for control and signal circuit 4 4 Wire size for grounding 4 7 Wire size for main and motor power 4 4 Wiring confirmation 2 3 Inspection Precautions Specifications Wiring Jumpers Panel Keypad Parameters Programming Service Dimensions Index ...

Page 122: ...TOSHIBA INTERNATIONAL CORPORATION INDUSTRIALDIVISION 13131 West Little York Rd Houston Texas 77041 Tel 800 231 1412 Fax 713 937 9349 Telex 762078 www toshiba com ind Printed in U S A ...

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Toshiba Adjustable Speed Drive H3, Operation Manual

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