March, 2008 Part #46687-004
TOSHIBA IMPORTANT NOTICE The instructions contained in this manual are not intended to cover all of the details or variations in equipment, nor to provide for every possible contingency to be met in connection with installation, operation, or maintenance. Should additional information be desired or should particular problems arise which are not covered sufficiently for the purchaser's purposes, the matter should be referred to the local Toshiba sales office.
TOSHIBA INTRODUCTION Thank you for purchasing the H3 adjustable speed drive. This adjustable frequency solid-state AC drive features "True Torque Control" - Toshiba's 'vector algorithm' that enables motors to develop high starting torque and compensates for motor slip. The H3 also features a multi-lingual forty-character LCD display, RS232 port, dynamic braking transistor and ground fault, overload, and overcurent protection.
TOSHIBA GENERAL SAFETY INSTRUCTIONS Warnings in this manual appear in either of two ways: 1) Danger warnings - The danger warning symbol is an exclamation mark enclosed in a triangle which precedes the 3/16" high letters spelling the word "DANGER".
TOSHIBA CONTENTS PAGE Disclaimer ............................................................................................... i Introduction .............................................................................................. ii General Safety Instructions ..................................................................... iii Contents ............................................................................................
TOSHIBA CONTENTS (cont'd) PAGE Section 5 Jumper and Terminal Connections Terminal Strip Board ..................................................................................5-1 Control Board ............................................................................................5-2 Terminal Connections and Functions ........................................................5-3 Section 6 Operating Panel Panel Layout ......................................................................................
TOSHIBA CONTENTS (cont'd) PAGE Section 8 Programming Charts (cont'd) Industrial Application Parameters (Machine Tools) ..................................8-26 AM/FM Terminal Adjustment Parameters.................................................8-27 Utility Parameters .....................................................................................8-28 Motor Parameters .....................................................................................8-32 Parameter Tree .................................
Inspection of the New Unit Upon receipt of the H3, a careful inspection for shipping damage should be made. After uncrating: 1) Check the unit for loose, broken, bent or otherwise damaged parts due to shipping. Storage 1) 2) Check to see that the rated capacity and the model number specified on the nameplate conform to the order specifications. Store in a well ventilated location and preferably in the original carton if the inverter will not be used immediately after purchase.
TOSHIBA SECTION 2: Installation and Operation Installation Safety Precautions CAUTION 1) Install in a secure and upright position in a well ventilated location that is out of direct sunlight. The ambient temperature should be between -10° C and 40° C. 2) Allow a clearance space of 8 inches (20 cm) for the top and bottom and 2 inches (5 cm) on both sides. For models 2010-2270 and models 4015-4500, the top and bottom clearance can be reduced to 4 inches (10 cm).
CAUTION Do not connect control circuit terminal block return connections marked CC to inverter earth ground terminals marked GND(E). See Standard Connection Diagrams page 4-1 and Terminal Connections and Functions page 5-3. 15) If a secondary Magnetic Contactor (MC) is used between the inverter output and the load, it should be interlocked so the ST-CC terminals are disconnected before the output contactor is opened.
TOSHIBA Operating Safety Precautions (cont'd) CAUTION 8) Interface problems can occur when this drive is used in conjunction with some types of process controllers. Signal isolation may be required to prevent controller and/or drive malfunction (contact Toshiba or the process controller manufacturer for additional information about compatibility and signal isolation).
Maintenance CAUTION 1) Use lockout/tagout procedures in accordance with local electrical codes before performing any drive maintenance. 2) Periodically check the operating drive for cleanliness. 3) Do not use liquid cleaning agents. 4) Keep the heatsink free of dust and debris. Inspection Dimensions Service Programming Parameters Periodically check electrical connections for tightness (with power off, locked out, and with charge LED out (see page 5-1 for location)).
TOSHIBA SECTION 3: Specifications 230 Volt NEMA Type 1 Chassis Standard Ratings 2035 2055 2080 2110 2160 2220 2270 2330 (1) (1) (1) (1) (1) (1) (1) (1) (see below) NOTES STANDARD RATINGS MODEL H3 RATED MOTOR OUTPUT KVA HP(KW) CURRENT (AMPS) 3.5 3/2.2 10.6 5.5 5/3.7 17 8 7.5/5.5 24.3 11 10/7.5 33 16 15/11 46 22 20/15 60 27 25/18 75 33 30/23 89 OUTPUT VOLTAGE 200-230V 3-PHASE MAX VOLTAGE OVERLOAD CURRENT MAIN CIRCUIT INPUT INPUT POWER CONTROL 3-PHASE POWER 120% FOR 200V/50Hz or NO EXTERNAL 60 SEC.
Inspection TOSHIBA Wiring Jumpers Consult the factory for applications above 80 Hz. Index * Panel Operating functions Keypad Frequency Analog input: ±0.2% of the maximum output frequency (25°C±10°C), Digital input: ±0.
TOSHIBA Standard Specifications (cont'd) ITEM Display Inverter/Motor Output signals Enclosure STANDARD SPECIFICATIONS Interface Fault display 2-line backlit display LCD 20 characters per line Overcurrent, overvoltage, heatsink overheat, load-side short-circuit, load-side ground fault, inverter overload, stator overcurrent during start-up, load-side overcurrent during start-up, EEPROM error, RAM error, ROM error, communication error, (dynamic braking unit overcurrent/overload), (emergency stop), (unde
Inspection TOSHIBA SECTION 4: Wiring Specifications Precautions Standard Connection Diagrams TOSVERT-130H3 STANDARD CONNECTION MODEL 2035 TO 2330 MODEL 4055 TO 4330 Wiring DBR MCCB ST M (see note 3 below) S4 CC FLA FLB R/CH-A S2 S3 PROGRAMMABLE OUTPUT CONTACTS 250V, 2A MAX R/CH-C LOW-A PROGRAMMABLE ANALOG INPUT PP PROGRAMMABLE OUTPUT CONTACTS 250V, 2A MAX FLC S1 Potentiometer M DIGITAL OPERATION PANEL RR LOW-C P24 CC FP IV AM 50mA MAX PULSE OUTPUT AUTO REF. + AUTO REF.
TOSHIBA Standard Connection Diagrams (cont'd) TOSVERT-130H3 STANDARD CONNECTION MODEL 4400 TO 430K MCCB INPUT POWER SUPPLY (set by input power selection) INPUT POWER SELECTION 415/460V-50/60Hz 400/440V-50/60Hz 380V-50Hz T1(U) T2 (V) T3 (W) L1(R) L2 (S) L3 (T) R41/46 M M (see note 1 below) S4 R40/44 CC R38 RJ RES F PROGRAMMABLE SIGNAL INPUT R FLA ST FLB PROGRAMMABLE OUTPUT CONTACTS 250V, 2A MAX FLC S1 S2 R/CH-A S3 R/CH-C PROGRAMMABLE ANALOG INPUT Potentiometer PROGRAMMABLE OUTPUT CONT
Inspection TOSHIBA ** Typical cable size (AWG) 20 13.3 #14 24-12 / 24-12 H3-2055 30 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.
TOSHIBA Selection of Main Circuit Wiring Equipment and Standard Cable Sizes (cont'd) * The customer supplied Molded Case Circuit Breaker (MCCB) or Magnetic Circuit Protector (MCP) should be coordinated with the available short circuit current. The drives are rated for output short circuit fault currents of 200,000A (in all horsepowers). The selection of breakers for this table is in accordance with 1987 NEC Article 430.
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 drive output. Suggested Maximum 1 Output Lead Distance All 1000 ft. 460 V < = 5 kHz 600 ft. 575 V > 5 kHz 300 ft.
TOSHIBA Connection Examples: Potentiometer Operation Wiper (usually middle terminal) stop/start P24 RES RR ST FM F AM R CC S1 CC S2 RX S3 PP S4 IV RCH A FP RCH C FLC LOW LOW A C FLB FLA Terminal Block To run from a pot, the H3 must have: 1) Drive enable ("ST"-"CC" made) 2) Direction command ("F" or "R" to "CC" made) 3) Frequency reference ( wiper from pot is read via "RR" terminal ) 4) LOCAL/REMOTE LED off (puts drive in remote mode).
Inspection TOSHIBA Specifications Precautions Connection Examples: 4 - 20mA Reference Operation I 5 Phone Jack on Control Board Dipswitch Wiring V 10 Jumpers stop/start P24 RES RR FM AM R CC S1 CC S2 RX S3 PP S4 IV RCH A FP RCH C FLC LOW LOW A C FLB FLA Panel ST F To follow a 4-20 mA signal, the H3 must have: 1) "IV" dipswitch to the right of phone jack on control board (immediately under keypad) set to "I" position. "5/10" dipswitch has no effect in this scenario.
TOSHIBA Connection Examples: Keypad Frequency Reference and Remote Stop/Start dry contact (stop/start) P24 RES RR ST FM F AM R CC S1 CC S2 RX S3 PP S4 IV RCH A FP RCH C FLC LOW LOW A C FLB FLA Terminal Block To follow a local (keypad) reference with a remote stop/start, the H3 must have: 1) Drive enable ("ST"-"CC" made) 2) Direction command ("F" or "R" to "CC" made) 3) Frequency reference: Adjust on keypad with arrows. Press READ/WRITE to enter.
Inspection TOSHIBA Specifications Precautions Connection Examples: 0-10 volt Reference Operation 0-10 V (+) ( - ) Jumpers Wiring stop/start P24 RES RR FM AM R CC S1 CC S2 RX S3 PP S4 IV RCH A FP RCH C FLC LOW LOW A C FLB FLA Panel ST F Programming Dimensions 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.
TOSHIBA SECTION 5: Jumper and Terminal Connections Terminal Board The terminal printed wiring board is shown in the detail below. See Terminal Connections and Functions starting on page 5-3. This board is used in all drive sizes. Charge LED Fused Resistor for P24 P24 RES RR ST FM F AM R CC S1 CC S2 RX S3 PP S4 IV RCH A FP RCH C FLC LOW LOW A C FLB FLA Terminal Block 0-1mA 4-20 mA 0-1mA JP3 4-20 mA JP4 Jumper JP3 is used to set AM terminal and Jumper JP4 is used to set FM terminal.
I 5 V 10 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 +/- 0-10 volt reference signal is input to terminal "RX", set SW1 to 10 Keypad Operation panel connector Programming Make connections to this board only with power off.
TOSHIBA Terminal Connections and Functions Terminal name L1, L2, L3 (R, S, T) T1, T2, T3 (U, V, W) PA, PB Terminal functions Line input supply terminals for models H3-2035 to H3-2330: Connect to either 3ø, 50Hz, 200VAC or 3ø, 60Hz, 200 to 230VAC. Line input supply terminals for models H3-4055 to H3-420K: Connect to either 3ø, 50HZ, 400VAC or 3ø, 60Hz, 400 to 460VAC. Drives can be operated on single phase power with when appropriately derated; contact Toshiba distributor for information.
Programmable analog input. User can input a +/- 10VDC or a +/- 5VDC signal as a frequency command (see page 5-2). Input has bias/gain adjustments for forward and reverse operation. ST Programmable digital input. With default setting, shorting 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.
TOSHIBA SECTION 6: Operating Panel Operating Panel Layout The operating panel enables the user to enable or disable the keypad, input commands 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.
Key Keys and Functions Function Up scroll key used for incrementing numerical values. Also, when a parameter or group name is displayed, the name of the previous parameter/group can be displayed by pressing this key. Down scroll key used for decrementing numerical values. Also, when a parameter or group name is displayed, the name of the next parameter/group can be displayed by pressing this key.
TOSHIBA SECTION 7: Keypad Operating Functions This chapter discusses basic keypad operating functions. The keypad allows the user to enter one of four modes: LOCAL, REMOTE, PROGRAMMING, or MONITORING. LOCAL MODE Turn on the power source (MCCB). The drive will display OUTPUT FREQUENCY 0.0Hz. Press the LOCAL/REMOTE button so that the local/remote LED is on. The illuminated LED indicates that the drive is receiving run/stop commands from the keypad (LOCAL mode).
PROGRAMMING MODE Pressing the PRG button allows users to enter the programming mode. See parameter tree on page 8-33 and parameter charts starting on page 8-1. Parameter explanations and examples can be found in section 9. REMOTE MODE The drive operates in REMOTE mode when the LOCAL/REMOTE LED is not illuminated. The LOCAL/REMOTE LED can be turned on and off with the LOCAL/REMOTE key only when the drive is stopped and at 0.0 Hz. With default programming, the drive powers up in remote mode.
TOSHIBA MONITOR MODE Pressing the MON key switches the drive to monitor mode. The following table is an example of the drive operation variables visible in the monitor: Keystroke Display Explanation Standard output frequency display OUTPUT FREQUENCY MON down arrow down arrow down arrow down arrow down arrow down arrow down arrow down arrow down arrow down arrow down arrow down arrow down arrow 0.0Hz MOTOR RUN DIRECTION: FORWARD MONITOR #1 0.
2 3 4 Monitor display With 10 volts on the "RR" terminal, this monitor shows MAXIMUM OUTPUT FREQUENCY. Zero volts on "RR" makes the effective Maximum Output Frequency 30 Hz. See Item 1, MAXIMUM OUTPUT FREQUENCY. This monitor displays the acc/dec multiplier. Zero volts on "RR" results in a display of "1.0". Ten volts on "RR" results in a display of "10.0". This monitor displays the effective voltage boost. Zero volts on the "RR" terminal results in a "0.0" display. At ten volts, VOLTAGE BOOST is displayed.
TOSHIBA SECTION 8: Programming Charts GROUP:FUNDAMENTAL PARAMETERS #1 LIQUID CRYSTAL DISPLAY DISPLAY FACTORY PAGE RESOLUTION SETTING NO. ITEM NO. PARAMETER DESCRIPTION ADJUSTMENT RANGE MAXIMUM OUTPUT FREQUENCY 1 Maximum frequency 30 - 400 Hz 0.01/0.1 Hz 80 Hz 9-3 BASE FREQUENCY #1 2 Base frequency #1 25 - 400 Hz 0.01/0.
Inspection TOSHIBA 15 Base frequency #2 25 - 400 Hz 0.01/0.1 Hz 60.0 9-5 MAXIMUM OUTPUT VOLTAGE #2 16 Maximum voltage #2 for 230V Maximum voltage #2 for 460V 0 - 255V 0 - 510V 1V 1V 230V 460V 9-5 9-5 17 * 30 HP and less 40 HP and greater 0 - 30% 0.
TOSHIBA GROUP:PANEL CONTROL PARAMETERS LIQUID CRYSTAL DISPLAY ITEM NO. PARAMETER DESCRIPTION DIRECTION SELECTION (FORWARD/REV) 25 Forward/reverse STOP PATTERN SELECTION 26 Stop pattern selection FUNDAMENTAL PARAM SWITCHING 27 Fundamental parameter #1 or #2 selection ACCEL/DECEL #1/#2 SELECTION 28 Acc/dec #1 or #2 selection PANEL RESET SELECTION 29 PANEL FEEDBACK CONTROL 30 ADJUSTMENT RANGE DISPLAY FACTORY PAGE RESOLUTION SETTING NO.
Inspection TOSHIBA START-UP FREQUENCY 31 Start-up frequency 0.0 - 10 0.1/0.01 Hz 0.1 9-6 END FREQUENCY 32 End frequency 0.0 - 30 0.1/0.01 Hz 0.1 9-6 RUN FREQUENCY 33 Run frequency 0.0 - max output freq 0.1/0.01 Hz 0.0 9-6 RUN FREQUENCY HYSTERESIS 34 Run frequency hysteresis 0.0 - 30 0.1/0.01 Hz 0.0 9-6 ENABLE JUMP FREQUENCIES 35 Jump frequency enable - 0 9-6 JUMP FREQUENCY #1 36* Jump frequency #1 0.0-Max Output Freq 0.1/0.01 Hz 0.
TOSHIBA GROUP:TERMINAL SELECTION PARAMETERS LIQUID CRYSTAL DISPLAY DISPLAY FACTORY PAGE RESOLUTION SETTING NO. ITEM NO.
63 assign function to "LOW" contact 0 - 63 1 4 9-10 5-1 "LOW" CONTACTS DELAY TIME 64 "LOW" output contact delay time 1 - 100 1 1 9-10 5-1 "LOW" CONTACTS HOLD TIME 65 "LOW" output contact hold time 1 - 100 1 1 9-10 5-1 "FL" CONTACTS FUNCTION 66 asssign function to "FL" output contact 0 - 63 1 10 9-10 5-1 "FL" CONTACTS DELAY TIME 67 "FL" output contacts delay time 1 - 100 1 1 9-10 5-1 "FL" CONTACTS HOLD TIME 68 "FL" output contacts hold time 1 - 100 1 1 9-10 5-1 "OUT"
TOSHIBA GROUP:TERMINAL SELECTION PARAMETERS LIQUID CRYSTAL DISPLAY (cont'd) ITEM NO.
Inspection TOSHIBA 81 Assign second priority frequency reference source 1:RR terminal 2:IV terminal 3:RX terminal 4:PG input 5:Binary input or MOP ANALOG INPUT FILTER 82 Analog input filter 0-3 RR TERMINAL STANDARD OR ADJUSTABLE 83 RR input selection RR REFERENCE SETTING POINT #1 84* RR reference point #1 RR REF POINT #1 FREQUENCY 85* Output frequency desired with input entered in Item 84 RR REFERENCE SETTING POINT #2 86* RR reference point #2 RR REF POINT #2 FREQUENCY 87* Output freq
TOSHIBA GROUP:FREQUENCY SETTING PARAMETERS LIQUID CRYSTAL DISPLAY ITEM NO. PARAMETER DESCRIPTION PG TERMINAL STANDARD OR ADJUSTABLE 98 Bias/gain for PG input selection (option board) PG REFERENCE SETTING POINT #1 99* PG reference point #1 PG REF POINT #1 FREQUENCY 100* PG REFERENCE SETTING POINT #2 (cont'd) ADJUSTMENT RANGE - 0 9-14 -100 - 100% of Max. Out. Freq. X PPR 1% 0 9-14 Output Hz desired when reference equals value entered in Item 99 -Max. Out. Freq. to Max. Out. Freq. 0.1/0.
Inspection TOSHIBA DISPLAY FACTORY PAGE RESOLUTION SETTING NO.
TOSHIBA GROUP:FREQUENCY SETTING PARAMETERS LIQUID CRYSTAL DISPLAY ITEM NO.
Inspection TOSHIBA PRESET SPEED #12 FREQUENCY 134* 12th speed PRESET SPEED #12 OPERATING MODE 135* 12th speed run mode PRESET SPEED #13 FREQUENCY 136* 13th speed PRESET SPEED #13 OPERATING MODE 137* 13th speed run mode PRESET SPEED #14 FREQUENCY 138* 14th speed PRESET SPEED #14 OPERATING MODE 139* 14th speed run mode PRESET SPEED #15 FREQUENCY 140* 15th speed PRESET SPEED #15 OPERATING MODE 141* 15th speed run mode (cont'd) ADJUSTMENT RANGE DISPLAY FACTORY PAGE RESOLUTION SETTING
TOSHIBA GROUP:PROTECTION PARAMETERS LIQUID CRYSTAL DISPLAY DISPLAY FACTORY PAGE RESOLUTION SETTING NO. ITEM NO. PARAMETER DESCRIPTION ADJUSTMENT RANGE DYNAMIC BRAKING SELECTION 142 Dynamic braking selection 0: No DBR used 1: DBR used. Drive's DBR OL protect off. 2: DBR used. Drive's DBR OL protect on. - 0 9-15 BRAKING RESISTOR VALUE 143* DBR resistor value 1.0 - 1000 0.1 ohm ***** 9-15 BRAKING RESISTOR POWER RATING 144* DBR capacity 0.01 - 600 0.
REGENERATION RIDETHROUGH TIME 156* maximum allowable ride-through time AUTO-RESTART (MOTOR SPEED SEARCH) 157 "catch" a spinning motor (forward or reverse) ELECTRONIC THERMAL PROTECT LVL 1 158 sets drive's overload to protect motor OVERLOAD REDUCTION START FREQ 159 frequency at which drive's motor overload becomes speed sensitive MOTOR 150% OVERLOAD TIME LIMIT 160 sets motor overload time OVERLOAD SELECTION 161 OL selection STALL PROTECTION ENABLE 162 Stall protection #1 STALL PROTECTION
TOSHIBA GROUP:PROTECTION PARAMETERS LIQUID CRYSTAL DISPLAY (cont'd) ITEM NO. PARAMETER DESCRIPTION OVERTORQUE TRIP SELECTION 170 Overtorque detection can cause a warning or a trip OVERTORQUE TRIP LEVEL 171 Overtorque trip level FAULT TRIP EEPROM SAVE ENABLE 172 COOLING FAN CONTROL SELECTION CUMULATIVE RUN TIMER ALARM SETTING ADJUSTMENT RANGE 0: Trip disabled 1: Trip enabled DISPLAY FACTORY PAGE RESOLUTION SETTING NO.
Inspection TOSHIBA 175 Pattern run on/off 0: Off 1: On * - 0 9-19 PATTERN RUN CONTINUE MODE 176* Pattern run mode 0: Pattern is reset when inverter is stopped 1: Pattern resumes with speed of interruption and with time left at interruption - 0 9-19 PATTERN GROUP #1 SPEED #0 177* 1st Pattern Group 1st speed selection 0: Skip 1: Preset speed #1 2: Preset speed #2 3: Preset speed #3 4: Preset speed #4 5: Preset speed #5 6: Preset speed #6 7: Preset speed #7 8: Preset speed #8 9: Preset speed
TOSHIBA GROUP:PATTERN RUN CONTROL PARAMETERS (cont'd) LIQUID CRYSTAL DISPLAY ITEM NO. PARAMETER DESCRIPTION PATTERN GROUP #1 NUMBER OF CYCLES 185* number of repeats for entire pattern group PATTERN GROUP #2 SPEED #0 186* PATTERN GROUP #2 SPEED #1 ADJUSTMENT RANGE DISPLAY FACTORY PAGE RESOLUTION SETTING NO.
Inspection TOSHIBA 3rd Pattern Group 5th speed selection Same options as Item 177 - 5 9-20 PATTERN GROUP #3 SPEED #5 200* 3rd Pattern Group 6th speed selection Same options as Item 177 - 6 9-20 PATTERN GROUP #3 SPEED #6 201* 3rd Pattern Group 7th speed selection Same options as Item 177 - 7 9-20 PATTERN GROUP #3 SPEED #7 202* 3rd Pattern Group 8th speed selection Same options as Item 177 - 8 9-20 PATTERN GROUP #3 NUMBER OF CYCLES 203* number of repeats of entire pattern group
TOSHIBA GROUP:PATTERN RUN CONTROL PARAMETERS (cont'd) LIQUID CRYSTAL DISPLAY ITEM NO. PARAMETER DESCRIPTION ADJUSTMENT RANGE SPEED #1 CONTINUE MODE 213 determines how speed time is measured 0: Count in seconds from time of activation * 1: Count in minutes from time of activation * 2: Count in seconds from time set speed is reached * 3: Count in minutes.
SPEED #7 CONTINUE MODE 225 SPEED #7 DRIVE TIME SPEED #8 CONTINUE MODE SPEED #8 DRIVE TIME 226** 227 228*** SPEED #9 CONTINUE MODE 229 SPEED #9 DRIVE TIME 230 **** 231 SPEED #10 CONTINUE MODE SPEED #10 DRIVE TIME 232 ***** Speed #6 drive time 0 - 8000 Speed #7 drive continuation mode Same options as Item 213 Speed #7 drive time 0 - 8000 Speed #8 drive continuation mode Same options as Item 213 Speed #8 drive time 0 - 8000 Speed #9 drive continuation mode Same options as Item 213 Speed #
TOSHIBA GROUP:PATTERN RUN CONTROL PARAMETERS (cont'd) LIQUID CRYSTAL DISPLAY ITEM NO.
Inspection TOSHIBA FEEDBACK CONTROL SELECTION 243 select type of feedback control 0: No feedback control 1: PID setpoint control * 2: Speed feedback control * - 0 9-21 FEEDBACK INPUT SIGNAL SELECTION 244* Feedback input signal selection 1: 2: 3: 4: "RR" terminal "IV" terminal "RX" terminal PG feedback (option board) 5: RS232C input 6: RS485 board or 12-bit binary/BCD option board input 7: Binary input - 2 9-21 PROPORTIONAL GAIN 245* Proportional gain 0.01 - 2.55 0.01 0.
TOSHIBA GROUP:FEEDBACK PARAMETERS (cont'd) LIQUID CRYSTAL DISPLAY ADJUSTMENT RANGE DISPLAY FACTORY PAGE RESOLUTION SETTING NO. ITEM NO. PARAMETER DESCRIPTION OVERRIDE CONTROL SELECTION 257 trim source 0: 1: 2: 3: 4: 5: 6: 7: Off "RR" terminal "IV" terminal "RX" terminal PG option board Keypad All other opt board Multiplier - 0 9-22 OVERRIDE MULTIPLIER INPUT SELECTION 258* trim source selection 0: 1: 2: 3: 4: Reference "RR" terminal.
Inspection TOSHIBA 260 set RS232 baud rate 0: 2400 baud 1: 4800 baud 2: 9600 baud - 2 9-22 NUMBER OF DATA BITS 261 Number of data bits 0: 7 bits 1: 8 bits - 0 9-22 PARITY SETTING 262 Parity 0: Even parity 1: Odd parity - 0 9-22 INVERTER ID NUMBER 263 Inverter number 0 - 255 - 0 9-22 COMMUNICATION SELECTION 264 Communication selection 0: Off 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.
TOSHIBA GROUP:COMMUNICATION SETTING PARAMETERS (cont'd) LIQUID CRYSTAL DISPLAY ITEM NO.
Inspection TOSHIBA GROUP:INDUSTRIAL APPLICATION PARAMETERS (CONVEYOR) GROUP:INDUSTRIAL APPLICATION PARAMETERS (HOIST) GROUP:INDUSTRIAL APPLICATION PARAMETERS (TEXTILES) GROUP:INDUSTRIAL APPLICATION PARAMETERS (MACHINE TOOLS) Wiring GROUP:INDUSTRIAL APPLICATION PARAMETERS (FAN) Specifications Precautions GROUP:INDUSTRIAL APPLICATION PARAMETERS (PUMP) Index Dimensions Service Programming Parameters Keypad Panel Jumpers These groups contain the parameters likely to be used for certain applicatio
TOSHIBA GROUP:AM/FM TERMINAL ADJUSTMENT PARAMETERS LIQUID CRYSTAL DISPLAY ITEM NO.
Inspection TOSHIBA PARAMETER DESCRIPTION INDUSTRIAL APPLICATIONS 279 selects application-specific programming (macros) 0: 1: 2: 3: 4: 5: 6: Does nothing Pump application Fan application Conveyor application Hoist application Textiles application Machine tool application 0 9-25 STANDARD SETTING MODE SELECTION 280 defaults drive parameters 0: 1: 2: 3: 4: 5: 6: 7: Does nothing 50 Hz setting 60 Hz setting Default drive to factory settings Clear past trips in monitor Store user default settings Def
TOSHIBA GROUP:UTILITY PARAMETERS (cont'd) LIQUID CRYSTAL DISPLAY ITEM NO. PARAMETER DESCRIPTION * 283 Panel operation mode selection ADJUSTMENT RANGE FACTORY PAGE SETTING NO. (cont'd from p.
284 Panel operation mode selection 0 - 99 - 0 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 DISPLAY SELECT 289 Programmable monitor #1 (displayed in MON mode) 1: post-compensation output frequency 2: frequency command setting 3: output c
TOSHIBA GROUP:UTILITY PARAMETERS (cont'd) LIQUID CRYSTAL DISPLAY ITEM NO. PARAMETER DESCRIPTION ADJUSTMENT RANGE BLIND FUNCTION SELECTION 298 Blind function selection 0: Items 299-315 blinded 1: View Items 299-315 FUNDAMENTAL PARAMS #2 BLIND 299* PANEL CONTROL PARAMS BLIND FACTORY PAGE SETTING NO.
Inspection TOSHIBA NUMBER OF MOTOR POLES 316 Number of motor poles 2, 4, 6, 8, 10, 12, 14, 16 2 4 9-29 MOTOR RATED CAPACITY 317 Motor rated capacity 0.1 - 999.9 0.
TOSHIBA Parameter Tree Fundamental Parameters #1 Fundamental Parameters #2 Panel Control Parameters Special Control Parameters Terminal Selection Parameters Terminal Selection Parameters (continued) Frequency Setting Parameters Frequency Setting Parameters (continued) 1 Maximum Output Frequency 15 Base Frequency #2 25 Direction Selection Forward/Rev 31 Start up Frequency 43 Input Terminal Selection 62 "RCH" Contacts Hold Time 80 Frequency Priority Selection #1 100 PG Ref Point #1 Frequency 2
147 DC Injection Current Magnitute 146 DC Injection Start Frequency 145 Overvoltage Stall Protection 144 Braking Resistor Power Rating 143 Branking Resistor Value 142 Dynamic Braking Selection 166 Low Current Detect Selection 165 Undervoltage Detect Time 164 Undervoltage Trip Selection 163 Stall Protection Current Level 162 Stall Protection Enable 161 Overload Selection 160 Motor 150% Overload Time Limit 203 Pattern Group #3 Number of Cycles 195-202 Pattern Group #3 Speeds #0 - #7 194 Pattern
TOSHIBA SECTION 9: Programming Note: The H3 will "kick out" of programming mode (return to OUTPUT FREQUENCY display) when a parameter name is displayed for fourteen seconds after the previous parameter has been read and written. Press the PRG button to access the H3's programming mode. The drive now displays the first of the available groups. The H3 parameters that have related functions are gathered into families called groups. Use the up/down arrows to scroll through the available group list.
Inspection Specifications Precautions Wiring Jumpers Panel Index Search Function When GROUP: PARAMETERS CHANGED FROM FACTORY DEFAULT is displayed and READ/ WRITE is pressed, the drive will display SEARCHING. Any displayed parameters have been changed to a value different from Toshiba's default. Press READ/WRITE to see the value of the parameter. The parameter can be modified with the up/down arrows. Pressing READ/WRITE again resumes the drive's search.
TOSHIBA Parameter Explanations GROUP: FUNDAMENTAL PARAMETERS #1 and GROUP: FUNDAMENTAL PARAMETERS #2 allow the user to store unique V/Hz, accel/decel, etc. parameters for two motors to be operated on one drive at different times. Item 1, MAXIMUM OUTPUT FREQUENCY - This parameter cannot be changed while the motor is running, and affects accel/decel times, binary frequency references, and many other parameters and functions.
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 - Drive's output frequency change is linear with respect to time.
TOSHIBA Parameter Explanations (cont'd) Item 13, ACCEL/DECEL PATTERN ADJUST LOW - expressed as a percentage of Item 10, this time is represented as "*" in the graph of S Pattern for Item 12. Item 14, ACCEL/DECEL PATTERN ADJUST HIGH - expressed as a percentage of Item 10, this time is represented as "**" in the graph of S Pattern for Item 12. Note for GROUP:FUNDAMENTAL PARAMETERS #2 The parameters in this group are similar to those found in GROUP: FUNDAMENTAL PARAMETERS #1.
Item 31, START-UP FREQUENCY - Drive's output frequency remains at 0 Hz until reference commands an output frequency greater than START-UP 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.
TOSHIBA Parameter Explanations (cont'd) Item 37 JUMP FREQUENCY BAND #1 - Enter the bandwidth for JUMP FREQUENCY #1. The value entered here will be added to and subtracted from JUMP FREQUENCY #1 to determine the upper and lower frequencies of the deadband. Item 38 JUMP FREQUENCY #2 - see item 36. Item 39 JUMP FREQUENCY BAND #2 - see item 37. Item 40 JUMP FREQUENCY #3 - see item 36. Item 41 JUMP FREQUENCY BAND #3 - see item 37.
Item 52, "S5" INPUT TERMINAL FUNCTION - sets the function realized when the "S5" terminal is shorted to "CC". Default setting gives a binary speed reference bit. The "S5" 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 53, "S6" INPUT TERMINAL FUNCTION - sets the function realized when the "S6" terminal is shorted to "CC". Default setting gives a binary speed reference bit.
TOSHIBA Parameter Explanations (cont'd) The following are the functions that are realized when the appropriate drive terminal is shorted to "CC". Program the desired code from the list below into items 44-55 (see). Contact the factory on how to make a function active when the terminal is disconnected from "CC" (fail-safe).
Item 59, "ST" INPUT TERMINAL RESPONSE TIME - Use this function to adjust the time between an input terminal's connection to "CC" and its function's realization. A setting of "100" results in a delay of about 200 milliseconds. Item 60, "RCH" CONTACTS FUNCTION - Enter the code from the table on pages 9-11 and 9-12 to determine when drive will change the state of this dry output contact. Terminals "RCHA" and "RCHB" are either side of the contact.
TOSHIBA Parameter Explanations (cont'd) Output Contacts' Functions Value 0 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29 Comments Contact will close when drive is at or above Item 7, LOWER LIMIT FREQUENCY Contact will close when drive is not at or above LOWER LIMIT FREQUENCY Contacts will close when drive is at Item 6, UPPER LIMIT FREQUENCY Contacts will close when drive is not at UPPER LIMIT FREQUENCY Default for LOWA/LOWC terminals.
Parameter Explanations (cont'd) Inspection TOSHIBA 57 58 59 60 61 62 63 * Retryable faults include: OVERCURRENT(ACCEL), OVERCURRENT(DECEL), OVERCURRENT(RUN), DC OVERCURENT(ACC), DC OVERCURRENT (DEC), DC OVERCURRENT(RUN), OVERVOLTAGE(ACCEL), OVERVOLTAGE(DECEL), OVERVOLTAGE(RUN), OVERHEAT, MOTOR OVERLOAD, INVERTER OVERLOAD, DBR OVERLOAD TRIP 9 - 12 Wiring Jumpers Panel Keypad Parameters 40 41 42 43 44 45 46 47 48 49 50 51 52 53 54 55 56 Programming 39 Service 32 33 34 35 36 37 38 Dimensions 31 C
TOSHIBA Parameter Explanations (cont'd) Item 72, LOW SPEED SIGNAL OUTPUT FREQUENCY - Use this parameter to set the frequency above which one of the drive's output contacts (RCHA-RCHC, etc) changes state. See Item 60, 63, and 66. Item 73, ACC/DEC COMPLETE DETECT BAND - If one of the output contacts' function is set to "6" (accel/decel complete), use this parameter to operate the contact when the output frequency is within this bandwidth (minus during accel, plus during decel) of the frequency command.
Item 83, RR INPUT SELECTION - Use this parameter to allow adjustment of the RR reference's bias and gain. Items 84 and 85 define one point on a % input reference vs. output Hz graph; Items 86 and 87 define another. The drive varies its output frequency as its input changes according to a line connecting these points. See graph below. With default programming, drive outputs 40 Hz with 5 volts on the "RR" terminal. Item 84, RR REFERENCE POINT #1 - Use this parameter to set a percentage of reference.
TOSHIBA Parameter Explanations (cont'd) Item 108, JOG RUN FREQUENCY - Use this parameter to set the run frequency during a jog. An accel time of zero is used, so low jog frequencies of 5 Hz or less and light loads are recommended. For information on jogging from the keypad, see page 7-1. For information on how to jog from the terminal strip, see pages 8-9 and 9-9. During a jog, low speed, speed reach, and PID, functions do not operate.
H3 Model 2035 2055 2080 2110 2160 2220 2270 2330 H.D. Ohms 35 28 20 12 7.0 6.0 5.0 4.0 H3 Model 4055 4080 4110 4160 4220 4270 4330 H.D. Ohms 108 65 60 38 30 22 20 H3 Model 2035 2055 2080 2110 2160 2220 2270 2330 L.D. Ohms 150 90 61 45 30 23 18 15 H3 Model 4055 4080 4110 4160 4220 4270 4330 L.D. Ohms 360 240 180 120 90 70 61 Contact your Toshiba distributor for dynamic braking resistor part numbers and information.
TOSHIBA Parameter Explanations (cont'd) Item 146, DC INJECTION STARTING FREQUENCY - Use this parameter to set the frequency at which DC injection begins. DC injection can be initiated remotely by programming one of the input terminals appropriately (see Items 44-54 and page 9-9). Item 147, DC INJECTION CURRENT - sets the current level to be employed during DC injection. Amount can be in % of drive rating or in amps (set by Item 296).
Item 160, MOTOR 150% OVERLOAD TIME LIMIT - This parameter sets the time the drive will output 150% of the current set by Item 158, ELECTRONIC THERMAL PROTECTION LEVEL #1 before tripping on MOTOR OVERLOAD. Item 161, OVERLOAD SELECTION - This parameter 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.
TOSHIBA Parameter Explanations (cont'd) Item 167, LOW CURRENT DETECT LEVEL - Enter the current amount (in % or amps depending on setting of Item 296) below which the drive will trip and/or close an appropriately-programmed output contact. Item 168, LOW CURRENT DETECTION TIME - Enter the time the output current must be below the amount set in Item 167 before the drive trips and/or closes an appropriately-programmed output contact.
Items 182, 191, 200, 209, PATTERN GROUP #<1,2,3, or 4> SPEED #5 - 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 #5 can be but does not have to be Preset Speed #5. Items 183, 192, 201, 210, PATTERN GROUP #<1,2,3, or 4> SPEED #6 - This parameter determines which preset speed (preset speeds 1 through 15 programmed in Items 110-141) is the next speed in the pattern group.
TOSHIBA Parameter Explanations (cont'd) Items 214, 216, 218, 220, 222, 224, 226, 228, 230, 232, 234, 236, 238, 240, and 242, SPEED NUMBER <1,2,3,4,5,6,7,8,9,10,11,12,13,14, or 15> DRIVE TIME - This parameter determines the amount of time associated with each preset speed. The time unit (minutes/seconds is determined by the preceding parameter.
Item 258, OVERRIDE MULTIPLIER INPUT SELECTION - When used with a multiplier, the following inputs' bias and gain do not determine their effect on the master reference.
TOSHIBA Parameter Explanations (cont'd) Item 264, COMMUNICATION SELECTION - Use this parameter to select type of communication: 0: None 1: RS485 port on option boards INV3-COM-A, INV3-COM-C, or INV3-COM-B 2: Toshiba TOSLINE F10 (twisted pair). Contact your Toshiba distributor for more information 3: Toshiba TOSLINE S20 (fiber optic). Contact your Toshiba distributor for more information. 4: 12 bit binary reference using option card G3-VF5X-4526A 5: Three digit BCD input on card G3-VF5X-4526A ( 0.
Inspection Specifications Precautions Wiring Jumpers Panel Keypad Index 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/system reads 75% of Item 1, MAXIMUM OUTPUT FREQUENCY For output current, adjust until meter/system reads drive rated amps (or 100%) For DC bus voltage, adjust until meter/system 2
TOSHIBA Parameter Explanations (cont'd) Item 277, AM TERMINAL FUNCTION SELECTION - This parameter is programmed like Item 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.
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 version 5101: input terminal functions 52,53, and 54; output terminal functions 62 and 63; "RR" special input function #4; PID lower limit, peak voltage, peak current, and calibration settings for AM/FM terminal functions; peak voltage and peak current monitor choices; drooping control. Item 286, ROM VERSION - This is a read-only parameter.
TOSHIBA Parameter Explanations (cont'd) Items 289-292, STATUS MONITOR #<1,2,3,and 4> SELECT - Pressing MON button displays the drive's monitor mode. See Item 296 to display currents in amps or percent. See Item 297 to display voltages in volts or percent. The drive operation variable displayed in four of the monitor mode's screens are selectable: 1: Post-compensation output frequency may be higher than frequency command (drive overspeeds to compensate for slip in vector control). 2: Frequency command.
Item 305, PATTERN RUN CONTROL PARAMS BLIND - This parameter must be set to "1" before any of the parameters on pages 8-16 through 8-21 can be read or changed. Putting a "1" here adds GROUP:PATTERN RUN CONTROL PARAMETERS to the visible group list (accessed via the PRG button). Item 306, FEEDBACK CONTROL PARAMS BLIND - This parameter must be set to "1" before any of the parameters on pages 8-22 through 8-23 can be read or changed.
TOSHIBA Parameter Explanations (cont'd) Item 312, INDUSTRIAL APPL: TEXTILES BLIND - Putting a "1" here adds GROUP:INDUSTRIAL APPL - TEXTILES to the visible group list (accessed via the PRG button). This group contains parameters from other groups which may be useful when programming the drive for a textile application. The settings of these parameters are still set at factory default.
Group UTILITY PARAMETERS UTILITY PARAMETERS UTILITY PARAMETERS FEEDBACK PARAMETERS FREQUENCY SETTING PARAMETERS FREQUENCY SETTING PARAMETERS FREQUENCY SETTING PARAMETERS FREQUENCY SETTING PARAMETERS FREQUENCY SETTING PARAMETERS Parameter BLIND FUNCTION SELECTION FEEDBACK CONTROL PARAMETERS BLIND FREQUENCY SETTING PARAMETERS BLIND OVERRIDE CONTROL SELECTION RX TERMINAL STANDARD OR ADJUSTABLE RX REFERENCE SETTING POINT #1 RX REFERENCE POINT #1 FREQUENCY RX REFERENCE SETTING POINT #2 RX REFERENCE POINT #2 FRE
TOSHIBA Programming Examples (cont'd) True Torque Control Programming The drive can be programmed to utilize True Torque Control (TTC), the benefits of which are slip compensation and high torque at low speed. In volts per hertz control (or across the line ), a typical AC induction motor will lose 3-5% of its RPM as it goes from no load to full load; when operated in TTC mode, a motor will slow a maximum of 0.5% of base RPM as it is loaded.
Problem Information Sheet Item Phenomenon State of motor when problem was found Frequency of problem Trouble indicator Temporary diagnosis and corrective action: Date defective product shipped: Deadline for repairs: Jumpers Panel Service Detailed description of problem: Keypad Power source Parameters Ambient condition Programming Status of Use Poles, Hp, V, Hz.
TOSHIBA Parts Service Life In order to obtain the best performance and to get the maximum service life from the drive it is necessary to perform timely maintenance repairs on some parts of the system even though the equipment may still be functioning with no apparent 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.
How to clear a fault 1. Cycling power 2. Pressing the STOP/CLEAR button twice 3. Closing "RES"-"CC" on the terminal strip (with default drive programming). If Item 172, FAULT TRIP EEPROM SAVE ENABLE is set to "1", the drive will power up with the fault display, but the fault monitor and any fault contacts will be reset. On OVERLOAD trips, reset can occur only after a cooling time; see explanation for Item 161, OVERLOAD SELECTION. No cooling time for reset is required when power is cycled.
TOSHIBA Drive Fault Displays and Explanations (cont'd) U-PHASE SHORT-CIRCUIT or V PHASE SHORT-CIRCUIT or W PHASE SHORT-CIRCUIT Cause: Drive detected short-circuit in transistor. Comments: Replace transistor. Contact your Toshiba distributor for authorized repair. LOAD-END OVERCURRENT Cause: Drive detected short-circuit on output. Comments: Check for phase-phase short. Meg motor/leads with leads disconnected from drive. Remove any power factor correction caps on motor.
EEPROM WRITE FAILURE or EEPROM READ FAILURE Cause: EEPROM was unable to read/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 number 45996). 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.).
TOSHIBA Drive Fault Displays and Explanations (cont'd) OPTION PCB ERROR Comments: If drive is energized with an option board installed and is later energized without the board installed, this fault will appear. Check connectors between control board and option board. Check settings of Item 80, FREQUENCY PRIORITY SELECTION #1, Item 81, FREQUENCY PRIORITY SELECTION #2, and Item 264, COMMUNICATION SELECTION. Use stand-offs to secure board.
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 means that the drive's DC bus has exceeded 360 VDC (230 volt drive), or 720 VDC (460 volt drive). OVERHEAT A flashing overheat display means that the drive's heat sink temperature has exceeded 84oC. Display dissappears when heatsink temperature reaches 80oC.
TOSHIBA SECTION 11: Dimensions/Weights F F H3 DE A H3 B 2-"H" DIA. 2-"H" DIA. .27 2-SLOT "G" DIA. D E A C B .25 2-SLOT "G" DIA. FIGURE 1 C FIGURE 2 DIMENSIONS in inches(millimeters) MODEL VT130H3U2035 VT130H3U2055 VT130H3U2080 VT130H3U2110 VT130H3U2160 VT130H3U2220 VT130H3U2270 VT130H3U2330 VT130H3U4055 VT130H3U4080 VT130H3U4110 VT130H3U4160 VT130H3U4220 VT130H3U4270 VT130H3U4330 VT130H3U4400 VT130H3U4500 VT130H3U4600 FIG A B C D E F G H 1 1 1 2 2 2 2 2 1 1 1 2 2 2 2 2 2 2 12.
Inspection TOSHIBA F 2-"H" DIA. 2-"H" DIA. D E Specifications F Precautions SECTION 11: Dimensions/Weights A D H3 E A Wiring H3 .25 B Jumpers C .27 2-SLOT "G" DIA. C 2-SLOT "G" DIA. FIGURE 3 FIGURE 4 Panel B B C D E F G H 36.50(927) 36.50(927) 57.00(1448) 57.00(1448) 57.00(1448) 57.00(1448) 59.94(1522) 19.25(489) 19.25(489) 19.25(489) 19.25(489) 19.25(489) 19.25(489) 25.88(657) 13.56(344) 13.56(344) 13.16(334) 13.16(334) 13.16(334) 13.16(334) 14.47(368) 33.88(861) 33.
TOSHIBA Shipping Weights H3 Model 2035 2055 2080 2110 2160 2220 2270 2330 Shipping Weight Pounds Kg 17 7.7 19 8.6 31 14.1 51 23.2 53 24.1 54 24.5 54 24.5 98 44.5 H3 Model 4055 4080 4110 4160 4220 4270 4330 4400 4500 4600 4750 410K 412K 415K 420K 425K 430K 11 - 3 Shipping Weigh Pounds Kg 23 10.5 24 10.9 32 14.5 55 25 55 25 56 25.5 58 26.4 103 46.8 106 48.2 110 50 210 95.5 215 975 305 138.3 315 142.9 336 152.4 415 188.2 440 199.
G3-ACI RS485 Communication Board (38.4 Kbaud) (19.2 Kbaud) INV3-COM-C INV3-COM-A Extended Terminal Option Board (Offers speed feedback control, 3 additional programmable inputs, 1 additional programmable Form C relay, pulse input capability) INV3-COM-D RS485 Extended Terminal Option Board (Offers same capabilities as INV3-COM-D plus 19.
TOSHIBA H3 Options (con't) TOSHIBA P/N Product Option ROM: Traverse Control (for 230/460 volt drives) INV3-ROM-6200 Keypad extender cables SX-CABLE-1M SX-CABLE-3M SX-CABLE-5M INV3-MKIT INV3-BKPANEL Kit to secure extender cable to keypad Kit to secure extender cable to G3 3 foot length 9 foot length 15 foot length Dynamic Braking Resitors PBR- _ _ _ _ - _ _ Input Fuses Contact Toshiba distributor DC Link Reactor INV3-DCL- _ _ _ _ Remote Stations (custom stop/start, metering, etc.
Bandwidth Acc/Dec detection ........................................................................................................ 8-6 Bandwidth of jump frequency #1 thru #3 ........................................................................................ 8-4 Base frequency #1 ................................................................................................................ 8-1 Base frequency #2 ..........................................................................................
TOSHIBA INDEX (cont'd) C (con't) Clearances ................................................................................................................ 2-1 Coast stop ................................................................................................................ 7-2 Codes (regulatory) ................................................................................................................ 2-1 Color (cabinet) .......................................................................
G Inspection Specifications Precautions Wiring Jumpers ................................................................................................................ 9-1 ................................................................................................................ 4-7 H Index Hoist application parameters ........................................................................................................ 8-26 Hold time FL output ..................................................
TOSHIBA INDEX (cont'd) H (cont'd) Hold time RCH output ............................................................................................................ 8-5, 5-2 Humidity (relative) ................................................................................................................ 3-5 Hysteresis of run frequency ........................................................................................................... 8-4 I Incoming power switching frequency ........................
O Inspection Specifications Precautions Wiring Jumpers Panel Index 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 ........................
TOSHIBA INDEX (cont'd) P Panel control parameters............................................................................................................... 8-3 Panel feedback control ................................................................................................................ 8-3 Panel keys ................................................................................................................ 6-2 Panel layout ..................................................................
Inspection Specifications Precautions Wiring Jumpers Panel Keypad Index S1 terminal ................................................................................................................ 8-5 S2 terminal ................................................................................................................ 8-5 S3 terminal ................................................................................................................ 8-5 S4 terminal .......................................
TOSHIBA INDEX (cont'd) S (con't) Speed reach frequency ................................................................................................................ 8-6 Speeds 1 thru 15 preset frequency ......................................................................................... 8-10 to 8-12 ST terminal function ................................................................................................................ 8-5 Stall protection ................................................
U Unusual service conditions ............................................................................................................ 4-5 Upper limit frequency ................................................................................................................ 8-1 Utility parameters .........................................................................................................
TOSHIBA INTERNATIONAL CORPORATION INDUSTRIAL DIVISION 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.