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Toshiba H3 manuale d’uso - BKManuals

Toshiba H3 manuale d’uso

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Un buon manuale d’uso

Le regole impongono al rivenditore l'obbligo di fornire all'acquirente, insieme alle merci, il manuale d’uso Toshiba H3. La mancanza del manuale d’uso o le informazioni errate fornite al consumatore sono la base di una denuncia in caso di inosservanza del dispositivo con il contratto. Secondo la legge, l’inclusione del manuale d’uso in una forma diversa da quella cartacea è permessa, che viene spesso utilizzato recentemente, includendo una forma grafica o elettronica Toshiba H3 o video didattici per gli utenti. La condizione è il suo carattere leggibile e comprensibile.

Che cosa è il manuale d’uso?

La parola deriva dal latino "instructio", cioè organizzare. Così, il manuale d’uso Toshiba H3 descrive le fasi del procedimento. Lo scopo del manuale d’uso è istruire, facilitare lo avviamento, l'uso di attrezzature o l’esecuzione di determinate azioni. Il manuale è una raccolta di informazioni sull'oggetto/servizio, un suggerimento.

Purtroppo, pochi utenti prendono il tempo di leggere il manuale d’uso, e un buono manuale non solo permette di conoscere una serie di funzionalità aggiuntive del dispositivo acquistato, ma anche evitare la maggioranza dei guasti.

Quindi cosa dovrebbe contenere il manuale perfetto?

Innanzitutto, il manuale d’uso Toshiba H3 dovrebbe contenere:
- informazioni sui dati tecnici del dispositivo Toshiba H3
- nome del fabbricante e anno di fabbricazione Toshiba H3
- istruzioni per l'uso, la regolazione e la manutenzione delle attrezzature Toshiba H3
- segnaletica di sicurezza e certificati che confermano la conformità con le norme pertinenti

Perché non leggiamo i manuali d’uso?

Generalmente questo è dovuto alla mancanza di tempo e certezza per quanto riguarda la funzionalità specifica delle attrezzature acquistate. Purtroppo, la connessione e l’avvio Toshiba H3 non sono sufficienti. Questo manuale contiene una serie di linee guida per funzionalità specifiche, la sicurezza, metodi di manutenzione (anche i mezzi che dovrebbero essere usati), eventuali difetti Toshiba H3 e modi per risolvere i problemi più comuni durante l'uso. Infine, il manuale contiene le coordinate del servizio Toshiba in assenza dell'efficacia delle soluzioni proposte. Attualmente, i manuali d’uso sotto forma di animazioni interessanti e video didattici che sono migliori che la brochure suscitano un interesse considerevole. Questo tipo di manuale permette all'utente di visualizzare tutto il video didattico senza saltare le specifiche e complicate descrizioni tecniche Toshiba H3, come nel caso della versione cartacea.

Perché leggere il manuale d’uso?

Prima di tutto, contiene la risposta sulla struttura, le possibilità del dispositivo Toshiba H3, l'uso di vari accessori ed una serie di informazioni per sfruttare totalmente tutte le caratteristiche e servizi.

Dopo l'acquisto di successo di attrezzature/dispositivo, prendere un momento per familiarizzare con tutte le parti del manuale d'uso Toshiba H3. Attualmente, sono preparati con cura e tradotti per essere comprensibili non solo per gli utenti, ma per svolgere la loro funzione di base di informazioni e di aiuto.

Sommario del manuale d’uso

  • Pagina 1

    M arch, 2008 Part #46687-00 4[...]

  • Pagina 2

    [...]

  • Pagina 3

    TOSHIBA i 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 c[...]

  • Pagina 4

    TOSHIBA ii 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[...]

  • Pagina 5

    TOSHIBA iii 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". The Danger warning symbol is used to indicate situations, locations, and condition[...]

  • Pagina 6

    TOSHIBA iv CONTENTS PAGE Disclaimer ............................................................................................... i Introduction .............................................................................................. ii General Safety Instructions ..................................................................... iii Con[...]

  • Pagina 7

    TOSHIBA v CONTENTS (cont'd) PAGE Section 5 Jumper and Terminal Connections Terminal Strip Board .................................................................................. 5-1 Control Board ............................................................................................ 5-2 Terminal Connections and Functions ................[...]

  • Pagina 8

    TOSHIBA vi 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 ...................................................................[...]

  • Pagina 9

    TOSHIBA 1 - 1 SECTION 1: Inspection/Storage/Disposal 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. 2) Check to see that the rated capacity and the model number specified on the nameplat[...]

  • Pagina 10

    TOSHIBA 2 - 1 SECTION 2: Installation and Operation Installation Safety Precautions 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 [...]

  • Pagina 11

    TOSHIBA 2 - 2 Installation Safety Precautions (cont'd) 14) 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 inverte[...]

  • Pagina 12

    TOSHIBA 2 - 3 Operating Safety Precautions (cont'd) 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[...]

  • Pagina 13

    TOSHIBA 2 - 4 Start-Up and Test Prior to releasing an electrical drive system for regular operation after installation, the system should be given a start-up test by qualified personnel. This assures correct operation of the equipment for reasons of reliable and safe performance. It is important to make arrangements for such a check and that time i[...]

  • Pagina 14

    TOSHIBA 3 - 1 NOTES: 1) NEMA Type1 UL/CUL listing H3 STANDARD RATINGS RATED MOTOR OUTPUT OUTPUT OVERLOAD MAIN CIRCUIT INPUT KVA HP(KW) CURRENT VOLTAGE CURRENT INPUT POWER CONTROL (AMPS) 3-PHASE POWER 2035 (1) 3.5 3/2.2 10.6 200-230V 120% FOR 200V/50Hz or NO EXTERNAL 2055 (1) 5.5 5/3.7 17 3-PHASE 60 SEC. 200-230V/60Hz CONTROL 2080 (1) 8 7.5/5.5 24.3[...]

  • Pagina 15

    TOSHIBA Principal Control System Sinusoidal PWM control Control Output voltage regulation Same as power line. Specifications Output frequency 0.01 to 400 Hz (0.1 to 80Hz default setting)*. 800 Hz operation possible. Frequency setting 0.1Hz from operating panel input (60Hz base), 0.01Hz from analog input (60Hz base, 12-bit/0 to 10Vdc), 0.01Hz from c[...]

  • Pagina 16

    TOSHIBA 3 - 3 ITEM STANDARD SPECIFICATIONS Standard Specifications (cont'd) 2 Display Interface 2-line backlit display LCD 20 characters per line Fault display Overcurrent, overvoltage, heatsink overheat, load-side short-circuit, load-side ground fault, inverter overload, stator overcurrent during start-up, load-side overcurrent during start-u[...]

  • Pagina 17

    TOSHIBA SECTION 4: Wiring Standard Connection Diagrams 4 - 1 TOSVERT-130H3 STANDARD CONNECTION MODEL 2035 TO 2330 MODEL 4055 TO 4330 DBR PROGRAMMABLE OUTPUT CONTACTS 250V, 2A MAX PROGRAMMABLE OUTPUT CONTACTS 250V, 2A MAX PROGRAMMABLE SIGNAL INPUT PROGRAMMABLE ANALOG INPUT DIGITAL OPERATION PANEL L3(T) F RES R ST S1 S2 L2(S) (see note 3 below) S4 FL[...]

  • Pagina 18

    TOSHIBA Standard Connection Diagrams (cont'd) 4 - 2 L1(R) L2 (S) L3 (T) PROGRAMMABLE SIGNAL INPUT PROGRAMMABLE ANALOG INPUT R/CH-C FLC FLA + + S1 PP RR AUTO REF. AUTO REF. - - T3 (W) T1(U) T2 (V) PROGRAMMABLE OUTPUT CONTACTS 250V, 2A MAX PROGRAMMABLE OUTPUT CONTACTS 250V, 2A MAX AM FM PROGRAMMABLE SIGNAL OUTPUT 0-1mA or 4-20mA M M R41/46 R40/4[...]

  • Pagina 19

    TOSHIBA 4 - 3 Selection of Main Circuit Wiring Equipment and Standard Cable Sizes 3-core shield cable #18 (speed reference) 2-core shield cable #20 Specifications Precautions Wiring Jumpers Panel Keypad Parameters Programming Service Dimensions Index Inspection * Molded case Ampacity Drive circuit breaker (FLA x 1.25) ** Typical cable size (AWG) (M[...]

  • Pagina 20

    TOSHIBA 4 - 4 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). [...]

  • Pagina 21

    TOSHIBA 4 - 5 Specifications Precautions Wiring Jumpers Panel Keypad Parameters Programming Service Dimensions Index Inspection CAUTION Conduit is not a suitable ground for the inverter. 1 230 V 460 V 575 V 460 V 575 V AC Motor Voltage PWM Carrier Frequency 2 NEMA MG-1-1998 Section IV Part 31 Compliant Motors 1000 ft. 600 ft. 300 ft. 200 ft. 100 ft[...]

  • Pagina 22

    TOSHIBA 4 - 6 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 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&quo[...]

  • Pagina 23

    TOSHIBA 4 - 7 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 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 scenar[...]

  • Pagina 24

    TOSHIBA 4 - 8 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 dry contact (stop/start) Terminal Block < > (5) (4) (3) (2) (1) (9) (8) (7) (6) 6 5 4 3 2 1 ( facing front of G3 ) Pinout for DB-9 on computer Pinout for G3 RJ11 RS232 port ( looking head-on at male connector that plugs into computer ) Conn[...]

  • Pagina 25

    TOSHIBA 4 - 9 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 To run from a 0-10 V reference, the H3 must have: 1) Drive enable ("ST"-"CC" made) 2) Direction command ("F" or "R" to "CC" made) 3) Frequency reference ( 0-10 V signal applied to &[...]

  • Pagina 26

    TOSHIBA 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. 5 - 1 Charge 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 use[...]

  • Pagina 27

    TOSHIBA Control Board The control printed wiring board is shown in the detail below. This control board is used in all drive sizes. 5 - 2 RS-232 Communication connector Dip Switch SW1 (see detail 1 this page) I5 10 V Option ROM socket Operation panel connector Option board connector (40-pin) Ribbon cable connector Ribbon cable connector (back side)[...]

  • Pagina 28

    TOSHIBA 5 - 3 Terminal block or bus bar Terminal Connections and Functions Terminal Terminal functions Terminal name location L1, L2, L3 Line input supply terminals for models H3-2035 to H3-2330: (R, S, T) 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 3?[...]

  • Pagina 29

    TOSHIBA 5 - 4 Terminal Connections and Functions (cont'd) Terminal Terminal functions Terminal name location CC This is the common return for all of the input and output terminals. (2-terminals) Do not connect this terminal to ground. Do not connect to GND(E). RR Programmable analog input. Default setting allows user to input a 0 - 10VDC signa[...]

  • Pagina 30

    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 illustr[...]

  • Pagina 31

    TOSHIBA LOCAL REMOTE 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 [...]

  • Pagina 32

    TOSHIBA 7 - 1 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/rem[...]

  • Pagina 33

    TOSHIBA 7 - 2 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. LOCAL MODE: COAST STOP In LOCAL mode, the drive's stop method can be changed to let the motor coast with the[...]

  • Pagina 34

    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: The monitor has no effect on what is happening to the motor and contains information useful for start-ups and troubleshooting. If the down/up arrow key is pressed continuously, ever[...]

  • Pagina 35

    TOSHIBA 7 - 4 MONITORING "RR" INPUT SPECIAL FUNCTION The "RR" terminal can be used to adjust the following drive parameters on the fly: Maximum Output Frequency, accel/decel times, voltage boost, and stall level. When Item 289, 290, 291, or 292 are programmed to "14", one of the drive's monitor windows will displa[...]

  • Pagina 36

    TOSHIBA 8 - 1 *Item 9 is available only when Item 8 Adjustment Range option 1 or 2 is selected. GROUP:FUNDAMENTAL PARAMETERS #1 PARAMETER DESCRIPTION LIQUID CRYSTAL DISPLAY ADJUSTMENT RANGE ITEM NO. PAGE NO. DISPLAY RESOLUTION FACTORY SETTING MAXIMUM OUTPUT 1 Maximum frequency 30 - 400 Hz 0.01/0.1 Hz 80 Hz 9-3 FREQUENCY BASE FREQUENCY #1 2 Base fre[...]

  • Pagina 37

    TOSHIBA BASE FREQUENCY #2 15 Base frequency #2 25 - 400 Hz 0.01/0.1 Hz 60.0 9-5 MAXIMUM OUTPUT 16 Maximum voltage #2 for 230V 0 - 255V 1V 230V 9-5 VOLTAGE #2 Maximum voltage #2 for 460V 0 - 510V 1V 460V 9-5 VOLTAGE BOOST #2 17 * 30 HP and less 0 - 30% 0.1% 3% 9-5 40 HP and greater 1% ELECTRONIC THERMAL 18 Electronic thermal protection 10-100% or am[...]

  • Pagina 38

    TOSHIBA DIRECTION SELECTION 25 Forward/reverse 0 : Reverse - 1 9-5 (FORWARD/REV) 1: Forward STOP PATTERN 26 Stop pattern selection 0: Decelerated stop - 0 9-5 SELECTION 1: Coast stop FUNDAMENTAL PARAM 27 Fundamental parameter #1 or #2 1: Fundamental - 1 9-5 SWITCHING selection parameter #1 2: Fundamental parameter #2 ACCEL/DECEL #1/#2 28 Acc/dec #1[...]

  • Pagina 39

    TOSHIBA 8 - 4 GROUP:SPECIAL CONTROL PARAMETERS PARAMETER DESCRIPTION LIQUID CRYSTAL DISPLAY ADJUSTMENT RANGE ITEM NO. PAGE NO. DISPLAY RESOLUTION FACTORY SETTING 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[...]

  • Pagina 40

    TOSHIBA INPUT TERMINAL 43 Input terminal selection 0: Standard terminal - 0 9-7 SELECTION functions 1: custom terminal functions * "R" INPUT TERMINAL 44* assign function to "R" terminal 0 - 54 - 0 9-7 FUNCTION (default function is reverse run) 5-1 "S1" INPUT TERMINAL 45* assign function to"S1" terminal 0 - 54[...]

  • Pagina 41

    TOSHIBA "LOW" CONTACTS 63 assign function to "LOW" 0 - 63 1 4 9-10 FUNCTION contact 5-1 "LOW" CONTACTS 64 "LOW" output contact 1 - 100 1 1 9-10 DELAY TIME delay time 5-1 "LOW" CONTACTS 65 "LOW" output contact 1 - 100 1 1 9-10 HOLD TIME hold time 5-1 "FL" CONTACTS 66 asssign funct[...]

  • Pagina 42

    TOSHIBA 8 - 7 GROUP:TERMINAL SELECTION PARAMETERS (cont'd) PARAMETER DESCRIPTION LIQUID CRYSTAL DISPLAY ADJUSTMENT RANGE ITEM NO. PAGE NO. FACTORY SETTING "FP" OUTPUT TERMINAL 78 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[...]

  • Pagina 43

    TOSHIBA 8 - 8 GROUP:FREQUENCY SETTING PARAMETERS PARAMETER DESCRIPTION LIQUID CRYSTAL DISPLAY ADJUSTMENT RANGE ITEM NO. PAGE NO. DISPLAY RESOLUTION FACTORY SETTING Table continued on next page * Items 84 - 87 are available only when Item 83 Adjustment Range option 1 is selected. **Items 89 - 92 are available only when Item 88 Adjustment Range optio[...]

  • Pagina 44

    TOSHIBA 8 - 9 GROUP:FREQUENCY SETTING PARAMETERS (cont'd) PARAMETER DESCRIPTION LIQUID CRYSTAL DISPLAY ADJUSTMENT RANGE ITEM NO. PAGE NO. DISPLAY RESOLUTION FACTORY SETTING Table continued on next page *Items 99 - 102 are available only when Item 98 Adjustment Range option 1 is selected. **Items 104 - 107 are available only when Item 103 Adjus[...]

  • Pagina 45

    TOSHIBA PRESET SPEED 110 Selects number of preset speeds 0 : Disabled - 0 9-15 SELECTION to be unblinded 1: 1st speed only * 2: speeds 1 thru 2 * 3: speeds 1 thru 3* 4: speeds 1 thru 4* 5: speeds 1 thru 5* 6: speeds 1 thru 6* 7: speeds 1 thru 7* 8: speeds 1 thru 8* 9: speeds 1 thru 9* 10:speeds 1 thru 10* 11:speeds 1 thru 11* 12:speeds 1 thru 12* 1[...]

  • Pagina 46

    TOSHIBA PRESET SPEED #4 118* 4th speed Lower limit frequency 0.1/0.01 Hz 0.0 9-15 FREQUENCY to upper limit frequency PRESET SPEED #4 119* 4th speed run mode Same options as - 0 9-15 OPERATING MODE Item 113 PRESET SPEED #5 120* 5th speed Lower limit frequency 0.1/0.01 Hz 0.0 9-15 FREQUENCY to upper limit frequency PRESET SPEED #5 121* 5th speed run [...]

  • Pagina 47

    TOSHIBA PRESET SPEED #12 134* 12th speed Lower limit frequency 0.1/0.01 Hz 0.0 9-15 FREQUENCY to upper limit frequency PRESET SPEED #12 135* 12th speed run mode Same options as - 0 9-15 OPERATING MODE Item 113 PRESET SPEED #13 136* 13th speed Lower limit frequency 0.1/0.01 Hz 0.0 9-15 FREQUENCY to upper limit frequency PRESET SPEED #13 137* 13th sp[...]

  • Pagina 48

    TOSHIBA DYNAMIC BRAKING 142 Dynamic braking selection 0: No DBR used - 0 9-15 SELECTION 1: DBR used. Drive's DBR OL protect off. 2: DBR used. Drive's DBR OL protect on. BRAKING RESISTOR 143* DBR resistor value 1.0 - 1000 0.1 ohm ***** 9-15 VALUE BRAKING RESISTOR 144* DBR capacity 0.01 - 600 0.01 kW ***** 9-15 POWER RATING OVERVOLTAGE STAL[...]

  • Pagina 49

    TOSHIBA REGENERATION POWER 155 allows drive to use regen 0: Off - 0 9-17 RIDE-THROUGH for control power 1 : On * REGENERATION RIDE - 156* maximum allowable 0.0 - 25 0.1 sec 2.0 9-17 THROUGH TIME ride-through time AUTO-RESTART (MOTOR 157 "catch" a spinning motor 0: Off - 0 9-17 SPEED SEARCH) (forward or reverse) 1: After momentary power fa[...]

  • Pagina 50

    TOSHIBA OVERTORQUE TRIP 170 Overtorque detection can cause 0: Trip disabled - 0 9-19 SELECTION a warning or a trip 1: Trip enabled OVERTORQUE TRIP 171 Overtorque trip level 10-200% or amps 1%/A 150 9-19 LEVEL FAULT TRIP EEPROM 172 Fault trip saving 0: Fault - 0 9-19 SAVE ENABLE cleared when power cycled 1: Fault display retained when power cycled* [...]

  • Pagina 51

    TOSHIBA PATTERN RUN 175 Pattern run on/off 0: O ff - 0 9-19 SELECTION 1: On * PATTERN RUN CONTINUE 176* Pattern run mode 0: Pattern is reset - 0 9-19 MODE when inverter is stopped 1: Pattern resumes with speed of interruption and with time left at interruption PATTERN GROUP #1 177* 1st Pattern Group 0: Skip - 1 9-20 SPEED #0 1st speed selection 1: [...]

  • Pagina 52

    TOSHIBA PATTERN GROUP #1 185* number of repeats for 1 - 254, 255=infinity - 1 9-20 NUMBER OF CYCLES entire pattern group PATTERN GROUP #2 186* 2nd Pattern Group Same options as - 9 9-20 SPEED #0 1st speed selection Item 177 PATTERN GROUP #2 187* 2nd Pattern Group Same options as - 10 9-20 SPEED #1 2nd speed selection Item 177 PATTERN GROUP #2 188* [...]

  • Pagina 53

    TOSHIBA PATTERN GROUP #3 199* 3rd Pattern Group Same options as - 5 9-20 SPEED #4 5th speed selection Item 177 PATTERN GROUP #3 200* 3rd Pattern Group Same options as - 6 9-20 SPEED #5 6th speed selection Item 177 PATTERN GROUP #3 201* 3rd Pattern Group Same options as - 7 9-20 SPEED #6 7th speed selection Item 177 PATTERN GROUP #3 202* 3rd Pattern[...]

  • Pagina 54

    TOSHIBA SPEED #1 CONTINUE 213 determines how speed time 0: Count in seconds 0 9-20 MODE is measured 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. from time set speed is reached * 4: Non-stop (continue until STOP command) 5: Continue until next step c[...]

  • Pagina 55

    TOSHIBA SPEED #6 CONTINUE 223 Speed #6 drive continuation mode Same options as - 0 9-20 MODE Item 213 SPEED #6 DRIVE TIME 224* Speed #6 drive time 0 - 8000 1 sec./min. 0 9-21 SPEED #7 CONTINUE 225 Speed #7 drive continuation mode Same options as - 0 9-20 MODE Item 213 SPEED #7 DRIVE TIME 226** Speed #7 drive time 0 - 8000 1 sec./min. 0 9-21 SPEED #[...]

  • Pagina 56

    TOSHIBA SPEED #11 CONTINUE 233 Speed #11 drive continuation mode Same options as - 0 9-20 MODE Item 213 SPEED #11 DRIVE TIME 234* Speed #11 drive time 0 - 8000 1 sec./min. 0 9-21 SPEED #12 CONTINUE 235 Speed #12 drive continuation mode Same options as - 0 9-20 MODE Item 213 SPEED #12 DRIVE TIME 236** Speed #12 drive time 0 - 8000 1 sec./min. 0 9-21[...]

  • Pagina 57

    TOSHIBA 8 - 22 LIQUID CRYSTAL DISPLAY PARAMETER DESCRIPTION ADJUSTMENT RANGE ITEM NO. PAGE NO. DISPLAY RESOLUTION FACTORY SETTING FEEDBACK CONTROL 243 select type of feedback control 0: No feedback - 0 9-21 SELECTION control 1: PID setpoint control * 2: Speed feedback control * FEEDBACK INPUT 244* Feedback input signal selection 1: "RR" t[...]

  • Pagina 58

    TOSHIBA 8 - 23 GROUP:FEEDBACK PARAMETERS (cont'd) PARAMETER DESCRIPTION LIQUID CRYSTAL DISPLAY ADJUSTMENT RANGE ITEM NO. PAGE NO. DISPLAY RESOLUTION FACTORY SETTING OVERRIDE CONTROL 257 trim source 0: Off - 0 9-22 SELECTION 1: "RR" terminal 2: "IV" terminal 3: "RX" terminal 4: PG option board 5: Keypad 6: All othe[...]

  • Pagina 59

    TOSHIBA 8 - 24 LIQUID CRYSTAL DISPLAY ADJUSTMENT RANGE ITEM NO. PAGE NO. DISPLAY RESOLUTION FACTORY SETTING PARAMETER DESCRIPTION GROUP:COMMUNICATION SETTING PARAMETERS Cycle power after changing any parameter in GROUP: COMMUNICATION SETTING PARAMETERS . Table continued on next page *Items 265 - 266 are available only when Item 264 Adjustment Range[...]

  • Pagina 60

    TOSHIBA TOSLINE-F10/S20 268* TOSLINE-F10/TOSLINE-S20 0: Off - 0 9-23 MONITOR OUTPUT monitor output 1: Output frequency 2: Status 3: Output frequency, status 4: Output current 5: Output frequency, output current 6: Status, output current 7: Output frequency, status, output current 8: Output voltage 9: Output frequency, output voltage 10:Output volta[...]

  • Pagina 61

    TOSHIBA 8 - 26 GROUP: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) These groups contain the parameters [...]

  • Pagina 62

    TOSHIBA 8 - 27 GROUP:AM/FM TERMINAL ADJUSTMENT PARAMETERS PARAMETER DESCRIPTION LIQUID CRYSTAL DISPLAY ADJUSTMENT RANGE ITEM NO. PAGE NO. FACTORY SETTING FM TERMINAL FUNCTION 275 "FM" terminal signal selection 0: Pre-compensation 0 9-23 SELECTION ref frequency 1: Post-compensation output frequency 2: Frequency referencee 3: Output current[...]

  • Pagina 63

    TOSHIBA INDUSTRIAL 279 selects application-specific 0 : Does nothing 0 9-25 APPLICATIONS programming (macros) 1: Pump application 2: Fan application 3: Conveyor application 4: Hoist application 5: Textiles application 6: Machine tool application STANDARD SETTING 280 defaults drive parameters 0: Does nothing 0 9-25 MODE SELECTION 1: 50 Hz setting 2:[...]

  • Pagina 64

    TOSHIBA 8 - 29 GROUP:UTILITY PARAMETERS (cont'd) PARAMETER DESCRIPTION LIQUID CRYSTAL DISPLAY ITEM NO. PAGE NO. FACTORY SETTING ADJUSTMENT RANGE (cont'd from p.8-28) * NOTE: Recycle power after changing ITEM 283, PANEL OPERATION MODE SELECTION . PANEL OPERATION MODE * 283 Panel operation mode selection 15:Perform run/stop operations, 63 9[...]

  • Pagina 65

    TOSHIBA PASS NUMBER 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 [...]

  • Pagina 66

    TOSHIBA 8 - 31 GROUP:UTILITY PARAMETERS (cont'd) PARAMETER DESCRIPTION LIQUID CRYSTAL DISPLAY PAGE NO. FACTORY SETTING ADJUSTMENT RANGE ITEM NO. *Items 299 - 315 are available only when Item 298 Adjustment Range option 1 is selected. **Contact Toshiba for details on Traverse Parameter Item 313A BLIND FUNCTION 298 Blind function selection 0: It[...]

  • Pagina 67

    TOSHIBA NUMBER OF MOTOR 316 Number of motor poles 2, 4, 6, 8, 10, 12, 14, 2 4 9-29 POLES 16 MOTOR RATED CAPACITY 317 Motor rated capacity 0.1 - 999.9 0.1kW * 9-29 MOTOR TYPE 318 Motor type 0: High efficiency - 0 9-29 motor 1: Standard motor 2: Other** MOTOR RATED VOLTAGE 319** Rated voltage for 400V inverter 90 - 600 5V 400 9-29 Rated voltage for 2[...]

  • Pagina 68

    TOSHIBA 8 - 33 Parameter Tree Fundamental Parameters #1 Fundamen t a l Parameters #2 Panel Control Parameters Special Control Parameters Terminal Selection Parameters Terminal Selection Parameters (continued) Frequency Setting Parameters Frequency Setting Parameters (continued) 1 1 52 53 14 36 28 0 1 0 0 Maximum Output Frequency Base Frequency #2 D[...]

  • Pagina 69

    TOSHIBA 8 - 34 Parameter Tree (cont'd) Protect ion Paramet ers Pro tecti on Parameters (Conti nued) Patt er n R u n C ontr ol Para me ters Feedb ack Parameters Communicat ion Setti ng Parameter s AM/FM Terminal Adjustment Parameters Utility P a ra me te rs U tility P aram e ters (Contin ued) Mo to r P a ra m ete rs 142 160 17 5 243 260 275 2 7[...]

  • Pagina 70

    TOSHIBA 9 - 1 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 av[...]

  • Pagina 71

    TOSHIBA 9 - 2 Blinding To make the H3's many parameters more manageable, Toshiba employs "blinded" parameters and "blinded" groups. BLINDED PARAMETERS Item 9, VOLTAGE BOOST #1 , is an example of a "blinded" parameter. A blinded parameter is identified in the parameter charts (which start on page 8-1) by its gray s[...]

  • Pagina 72

    TOSHIBA 9 - 3 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/[...]

  • Pagina 73

    TOSHIBA 9 - 4 TIME commanded frequency MAXIMUM OUTPUT FREQUENCY BASE FREQUENCY #1 **** **** Actual accel time OUTPUT HZ MAXIMUM OUTPUT FREQUENCY commanded frequency TIME OUTPUT HZ * ** *** AT#1 AT#1 * S pattern accel time contributed by Item 13, ACCEL/DECEL PATTERN ADJUST LOW ** S pattern accel time contributed by Item 14, ACCEL/DECEL PATTERN ADJUS[...]

  • Pagina 74

    TOSHIBA 9 - 5 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 o[...]

  • Pagina 75

    TOSHIBA 9 - 6 Parameter Explanations (cont'd) Item 28, ACC/DEC #1 OR #2 SELECTION - If the keypad is being used for the RUN/STOP command, then change this parameter to choose which times and pattern are currently utilized. If the drive is getting a run/stop command via the terminal strip (i.e. "F"-"CC" made or "R"[...]

  • Pagina 76

    TOSHIBA 9 - 7 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[...]

  • Pagina 77

    TOSHIBA 9 - 8 Parameter Explanations (cont'd) Item 50, "RES" INPUT TERMINAL FUNCTION - sets the function realized when the "RES" terminal is shorted to "CC". Default setting resets a fault. See page 9-9 for codes for other available functions. Item 51, "ST" INPUT TERMINAL FUNCTION - sets the function rea[...]

  • Pagina 78

    TOSHIBA 9 - 9 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-s[...]

  • Pagina 79

    TOSHIBA 9 - 10 Parameter Explanations (cont'd) Item 56, R,S1-S7 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 57, "F" INPUT TERMINAL RESPONSE TIME - [...]

  • Pagina 80

    TOSHIBA 9 - 11 Parameter Explanations (cont'd) Output Contacts' Functions Value Comments 0 Contact will close when drive is at or above Item 7, LOWER LIMIT FREQUENCY 1 Contact will close when drive is not at or above LOWER LIMIT FREQUENCY 2 Contacts will close when drive is at Item 6, UPPER LIMIT FREQUENCY 3 Contacts will close when drive[...]

  • Pagina 81

    TOSHIBA Parameter Explanations (cont'd) OUTPUT CONTACTS' FUNCTIONS (con't) Value Comments 30 Contact closes when dynamic braking resistor is half way or more into its overload as calculated by the drive based upon the setting in Item 143, BRAKING RESISTOR VALUE and Item 144, BRAKING RESISTOR POWER RATING ( GROUP:PROTECTION PARAMETERS[...]

  • Pagina 82

    TOSHIBA 9 - 13 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&q[...]

  • Pagina 83

    TOSHIBA 9 - 14 Parameter Explanations (cont'd) Item 82, ANALOG INPUT FILTER - Use this parameter to set the amount of filtering applied to the drive's current/voltage frequency reference to dampen noise or resonance problems. "0" is no filtering and "3" is maximum filtering. Item 83, RR INPUT SELECTION - Use this param[...]

  • Pagina 84

    TOSHIBA 9 - 15 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 s[...]

  • Pagina 85

    TOSHIBA 9 - 16 Parameter Explanations (cont'd) DYNAMIC BRAKING (Feature not available in H3 drives above 30 horsepower) When a motor is mechanically forced to spin faster than the output frequency of the drive, the motor acts as a generator. This regenerated energy forces current to flow into the drive's DC bus. The bus capacitors will ab[...]

  • Pagina 86

    TOSHIBA 9 - 17 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 [...]

  • Pagina 87

    TOSHIBA 9 - 18 Parameter Explanations (cont'd) DRIVE AND MOTOR OVERLOADS The H3 features separate overload curves for itself and the motor. All H3s can output 110% of their rated current continuously; current levels above 110% are considered overload . The drive overload is fixed: 100 HP and smaller H3's overload is 150% of their rated cu[...]

  • Pagina 88

    TOSHIBA 9 - 19 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 s[...]

  • Pagina 89

    TOSHIBA 9 - 20 Parameter Explanations (cont'd) Items 177, 186, 195, and 204, PATTERN GROUP # < 1 , 2 , 3 , or 4 > SPEED #0 - This parameter determines which preset speed (preset speeds 1 through 15 programmed in Items 110-141) is the first speed in the pattern group. Unlike the other speeds #1 - #7, speed #0 is not repeated when PATTERN [...]

  • Pagina 90

    TOSHIBA 9 - 21 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 prece[...]

  • Pagina 91

    TOSHIBA 9 - 22 Parameter Explanations (cont'd) Item 254, PG INPUT: NUMBER OF PHASES - Use this parameter to select either one or two phase encoder feedback. See the Extended Terminal Block Option Manual for more information. Item 255, DROOPING CONTROL ENABLE - Use this parameter to enable the H3's load share function, which continuously s[...]

  • Pagina 92

    TOSHIBA 9 - 23 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). Co[...]

  • Pagina 93

    TOSHIBA 9 - 24 Parameter Explanations (cont'd) Item 275, FM TERMINAL FUNCTION SELECTION (con't) - Choices for "FM" terminal's signal's function: 0: ( default for "FM"). Pre-compensation reference frequency . This is the drive's internal frequency command and is affected by acc/dec and PID and droop (same[...]

  • Pagina 94

    TOSHIBA 9 - 25 Item 281, COMMAND MODE SELECTION - Changes to this parameter go into effect only when the drive is at 0.0 Hz. This parameter determines where the drive looks for a stop/start command: 0: RS232 port 1: H3 terminal strip only (remote mode) 2: H3 keypad stop/start buttons only (local mode) 3: RS485 input on option boards INV3-COM-A, INV[...]

  • Pagina 95

    TOSHIBA 9 - 26 Parameter Explanations (cont'd) Item 283, PANEL OPERATION MODE SELECTION - Cycle power after changing this parameter. This parameter limits what can be done via the keypad. Panel ESTOP in remote mode is ALWAYS valid. The values entered here that are zero or are a power of two have one function assigned to them: 0: Keypad does no[...]

  • Pagina 96

    TOSHIBA 9 - 27 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 m[...]

  • Pagina 97

    TOSHIBA Parameter Explanations (cont'd) Item 300, PANEL CONTROL PARAMS BLIND - This parameter must be set to "1" before any of the parameters on page 8-3 can be read or changed. Putting a "1" here adds GROUP:PANEL CONTROL PARAMETERS to the visible group list (accessed via the PRG button). Item 301, TERMINAL SELECTION PARAMS[...]

  • Pagina 98

    TOSHIBA 9 - 29 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 set[...]

  • Pagina 99

    TOSHIBA 9 - 30 Programming Examples Preset Speed Example The following example uses "S1" and "S2" terminals to access three preset speeds of 11.0 Hz (close "S1"-"CC"), 55.0 Hz (close "S2"-"CC"), and 33.7 Hz (close "S1" and "S2" to "CC"). "F"-"CC[...]

  • Pagina 100

    TOSHIBA 9 - 31 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[...]

  • Pagina 101

    TOSHIBA 10 - 1 SECTION 10: Service Requesting Service When requesting service, report the contents of the following problem information sheet. Problem Information Sheet Item Customer's name Refer to Person in charge Address Telephone No. Drive Model No. spec. Serial No. Test No. Delivery date Time in service Date when problem arose Use Motor r[...]

  • Pagina 102

    TOSHIBA 10 - 2 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 pe[...]

  • Pagina 103

    TOSHIBA 10 - 3 Troubleshooting If the drive faults, the following questions may help to pinpoint the reason for the trip: 1. Does the drive trip when accelerating, running, decelerating, or when not running ? 2. Can the drive make it to commanded frequency ? 3. Does the drive trip without the motor attached ? 4. Does drive trip with an unloaded mot[...]

  • Pagina 104

    TOSHIBA 10 - 4 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. Commen[...]

  • Pagina 105

    TOSHIBA 10 - 5 Drive Fault Displays and Explanations (cont'd) DBR OVERCURRENT Cause: IGBT7 (dynamic braking transistor) is damaged Comments: Check ohm value connected to "PA" and "PB" terminals (see page 9-16 for minimum ohm values). If using multiple resistors, make sure parallel-series combination is wired correctly. Chec[...]

  • Pagina 106

    TOSHIBA 10 - 6 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, [...]

  • Pagina 107

    TOSHIBA 10 - 7 Drive Warning Displays and Explanations DC BUS UNDERVOLTAGE Cause: The drive's DC bus voltage went below approximately 200 VDC (230 volt drive), or 395 VDC (460 volt drive), for at least the time entered in Item 165, UNDERVOLTAGE DETECT TIME . Comments: Item 164, UNDERVOLTAGE TRIP SELECTION turns the ability to undervoltage trip[...]

  • Pagina 108

    MODEL FIG A B C D E F G H VT130H3U2035 1 12.13(308) 8.66(220) 7.44(189) 11.38(289) 11.63(295) 7.69(195) .28(7) .28(7) VT130H3U2055 1 12.13(308) 8.66(220) 7.44(189) 11.38(289) 11.63(295) 7.69(195) .28(7) .28(7) VT130H3U2080 1 17.88(454) 8.66(220) 7.44(189) 17.13(435) 17.38(441) 7.69(195) .28(7) .28(7) VT130H3U2110 2 18.75(476) 14.25(362) 9.81(249) 1[...]

  • Pagina 109

    MODEL FIG A B C D E F G H VT130H3U4750 3 36.50(927) 19.25(489) 13.56(344) 33.88(861) 35.34(898) 12.63(321) .63(16) .63(16) VT130H3U410K 3 36.50(927) 19.25(489) 13.56(344) 33.88(861) 35.34(898) 12.63(321) .63(16) .63(16) VT130H3U412K 3 57.00(1448) 19.25(489) 13.16(334) 54.16(1376) 55.81(1418) 12.63(321) .69(18) .69(18) VT130H3U415K 3 57.00(1448) 19.[...]

  • Pagina 110

    TOSHIBA 11 - 3 Shipping Weights H3 Shipping Weight H3 Shipping Weigh Model Pounds Kg Model Pounds Kg 2035 17 7.7 4055 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 2[...]

  • Pagina 111

    TOSHIBA 11 - 4 H3 Options A number of option accessories are available for the H3 series of inverters and can be purchased from your authorized Toshiba distributor or representative. If you need assistance finding a source for Toshiba products in your area, consult Toshiba at 1-800-231-1412. Product TOSHIBA P/N RS232 programming software (free) con[...]

  • Pagina 112

    TOSHIBA 11 - 5 4.80" 4.25" 5.19" 5.50" > < < > > > > < > > > > 4.20" 5.38" H3 Options (con't) Product TOSHIBA P/N Holes are 1/4" diameter. Option ROM: Traverse Control (for 230/460 volt drives) INV3-ROM-6200 Keypad extender cables 3 foot length SX-CABLE-1M 9 foot length SX-[...]

  • Pagina 113

    TOSHIBA 12 - 1 INDEX A Acc/dec #1/#2 switch frequency ................................................................................................ 8 -2, 9-5 Acc/Dec complete detection bandwidth .................................................................................... 8-6, 9- 13 Acc/dec pattern #1 selection ...........................[...]

  • Pagina 114

    TOSHIBA 12 - 2 INDEX (cont'd) C (con't) Clearances ................................................................................................................ 2-1 Coast stop ................................................................................................................ 7-2 Codes (regulatory) .........................[...]

  • Pagina 115

    TOSHIBA 12 - 3 INDEX (cont'd) E (cont'd) Emergency stop selection ....................................................................................................... ..... 8-13 Enclosure ............................................................................................................... 11-1 End frequency ..................[...]

  • Pagina 116

    TOSHIBA 12 - 4 INDEX (cont'd) H (cont'd) Hold time RCH output ........................................................................................................... . 8-5, 5-2 Humidity (relative) ............................................................................................................ .... 3-5 Hysteresis of run fre[...]

  • Pagina 117

    TOSHIBA 12 - 5 INDEX (cont'd) M Machine tools application parameters .......................................................................................... 8 -26 Magnetic contactors (output) ................................................................................................... ...... 2-2 Maintenance ...........................[...]

  • Pagina 118

    TOSHIBA 12 - 6 INDEX (cont'd) P Panel control parameters ....................................................................................................... ........ 8-3 Panel feedback control ......................................................................................................... ....... 8-3 Panel keys ...................[...]

  • Pagina 119

    TOSHIBA 12 - 7 INDEX (cont'd) R (cont'd) Regeneration power ride-through ................................................................................................ . 8-14 Regulatory codes ............................................................................................................ 2-1 , 4-6 Requesting service ........[...]

  • Pagina 120

    TOSHIBA 12 - 8 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 ..[...]

  • Pagina 121

    TOSHIBA 12 - 9 INDEX (cont'd) U Unusual service conditions ..................................................................................................... ....... 4-5 Upper limit frequency .......................................................................................................... ...... 8-1 Utility parameters .............[...]

  • Pagina 122

    TOSHIBA INTERNATIONAL CORPORATION I NDUSTRIAL DIVISION 13131 West Little York Rd., Houston Texas 77041 Tel: [800] 231-1412 Fax: [713] 937 - 934 9 Telex: 762078 www.toshiba.com /ind Printed in U.S.A.[...]