Toshiba VF-S9 - Manuals
Toshiba VF-S9 – Manual in PDF format online.
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Manual Toshiba VF-S9
Summary
E6580757 i Contents I Safety precautions ......................................................................................................................................................... 1 II Introduction ....................................................................................
E6580757 iii 11. Table of parameters and data ........................................................................................................................................ K-1 11.1 User parameters ...............................................................................................
E6580757 1 I I. Safety precautions The items described in these instructions and on the inverter itself are very important so that you can use the inverter safely prevent injury to yourself and other people around you as well as prevent damage to property in the area. Thoroughly familiarize yourself...
E6580757 7 II II. Introduction Thank you for your purchase of the Toshiba "TOSVERT VF-S9" industrial inverter This is the Ver.101 CPU version inverter.Please be informed that this version will be frequently upgraded. ■ Features 1. Built-in noise filter 1) All models in both the 200V and 400V...
E6580757 A-1 1 1. Read first 1.1 Check product purchase Before using the product you have purchased, check to make sure that it is exactly what you ordered. Warning Mandatory Use an inverter that conforms to the specifications of power supply and three-phase induction motor be-ing used. If the inver...
E6580757 A-2 1 1.2 Contents of the product code Here is explained the type and form written on the label Warning: Always shut power off first then check the ratings label of inverter held in a cabinet. Model name TOSVERTVF-S9 Series Number of power phases S: single-phase None: three-phase Input volt...
E6580757 A-3 1 1.3 Names and functions 1.3.1 Outside view ECN lamp Lights whenenergy-savingmode is inoperation. RUN key lamp Lights when theRUN key isenabled. RUN key Pressing this keywhile the RUN keylamp is lightedstarts operations. RUN lamp Lights when the inverter isoperating. Blinks when theaut...
E6580757 A-6 1 1.3.2 Main circuit and control circuit terminal boards 1) Main circuit terminal board In case of the lug connector, cover the lug connector with insulated tube, or use the insulated lug con- nector. Screw size tightening torque M3 screw 0.8N y m M4 screw 1.2N y m M5 screw 2.8N y m M6 ...
E6580757 A-10 1 1.4 Notes on the application 1.4.1 Motors When the VF-S9 and the motor are used in conjunction, pay attention to the following items. Warning Mandatory Use an inverter that conforms to the specifications of the three-phase induction motor and power supply being used. If the inverter ...
E6580757 A-11 1 Extremely low loads and low inertia loads The motor may demonstrate instability such as abnormal vibrations or overcurrent trips at light loads of 50 percent or under of the load percentage, or when the load's inertia moment is extremely small. If that happens reduce the carrier freq...
E6580757 A-12 1 ured in some other way, the overcurrent trip may be activated because of the locked rotor current when the brake goes into operation. Circuit configuration 2 uses low-speed signal RY to turn on and off the brake. Turning the brake on and off with a low-speed signal may be better in s...
E6580757 A-13 1 Circuit interrupting when two or more inverters are used on the same power line. Breaking of selected inverter (circuit interupting fuse) MCCB1 MCCBn+1 MCCB3 MCCB2 INV1 INV2 INVn There is no fuse in the inverter's main circuit. Thus, as the diagram above shows, when more than one inv...
E6580757 A-14 1 Powersupply Leak current path across ground ELCB M M ELCB Inverter Inverter Remedies: 1.Reduce PW M carrier frequency. The setting of PW M carrier frequency is done with the parameter . 2.Use high frequency remedial products (Schneider Toshiba electric corporation: Esper Mighty Serie...
E6580757 A-18 1 ■ How to install Danger Prohibited • Do not install and operate the inverter if it is damaged or any component is missing.This can result in electric shock or fire. Please consult your local agency for repairs. Mandatory • Must be installed in nonflammables such as metals.The rear pa...
E6580757 A-19 1 Note: Do not install in any location where there is high humidity or high temperatures and where there are large amounts of dust, metallic fragments and oil mist. If you are going to install the equipment in any area that presents a potential problem, please consult with Toshiba befo...
E6580757 A-20 1 • Install surge suppressor on any magnetic contactor and relay coils used around the inverter. • Install noise filters if necessary. • Install EMC plate (attached as standard) and shielded wires fit with the EMC plate. EMC plate ■ Installing more than one unit in a cabinet If you are...
E6580757 B-1 2 2. Connection equipment Danger Disassembly prohibited • Never disassemble, modify or repair. This can result in electric shock, fire and injury. For repairs, callyour sales agency. Prohibited • Don’t stick your fingers into openings such as cable wiring hole and cooling fan covers. Th...
E6580757 B-2 2 Danger Be Grounded • Ground must be connected securely.If the ground is not securely connected, it could lead to electric shock or fire when a malfunction or cur-rent leak occurs. Warning Prohibited • Do not attach devices with built-in capacitors (such as noise filters or surge absor...
E6580757 B-3 2 2.2 Standard connections Danger Prohibited • Do not connect input power to the output (motor side) terminals (U/T1, V/T2, W/T3). Connecting inputpower to the output could destroy the inverter or cause a fire. • Do not connect resistors to DC terminals (across PA-PC or across PO-PC).It...
E6580757 B-4 2 2.2.1 Standard connection diagram 1 - sink (common: CC) This diagram shows a standard wiring of the main circuit. MCCB R/L1S/L2 *1 U/T1V/T2 W/T3 FLC FLB FLA RY RC F R RST S1 S2 S3 CC I I P24 OUT FM CC VIA VIB PP + + + - - P0 PA PB PC Ry VF-S9 MCCB(2P) R/L1 S/L2 JP301 JP301A JP302 DC r...
E6580757 B-6 2 2.3 Description of terminals 2.3.1 Main circuit terminals This diagram shows an example of wiring of the main circuit. Use options if necessary. ■ Power supply and motor connections VF-S9 E R/L1 Power supply Circuit Note) Model of 3-phase 200V-0.2, 0.4, 0.75kW don't have grounding ter...
E6580757 B-7 2 ■ Main circuit Terminal symbol Terminal function Grounding terminal for connecting inverter case. R/L1,S/L2,T/L3 200V class: single-phase 200~240V-50/60Hz three-phase 200~230V-50/60Hz 400V class: three-phase 380~500V-50/60Hz* Single – phase series don’t have T/L3 terminal. U/T1,V/T2,W...
E6580757 B-8 2 Terminal symbol Input/output Function Electrical specifications Inverter internal circuits CC Common toInput/output Control circuit's common terminal PP Output Analog input setting power output 10Vdc (permissibleload current:10mAdc) PP +24V I I * Input Multifunction programmable analo...
E6580757 B-10 2 ■ Sink logic (negative common)/source logic (positive common) logic switching of input output terminals Current flowing out turns control input terminals on. These are called sink logic terminals (The end of Type - form : AN / W N). The general used method in Europe is source logic i...
E6580757 C-2 3 3.1 How to operate the VF-S9 Overview of how to operate the inverter with simple examples. Example 1 Setting the operation frequency using built-in potentiometer and run-ning and stopping using the operation panel. (1) Wiring IM R/L1 S/L2 T/L3 U/T1 V/T2 W/T3 PO PC PB PA G MCCB Main ci...
E6580757 C-3 3 Example 2 Setting the operation frequency using the operation panel and run-ning and stopping using the operation panel. (1) Wiring IM R/L1 S/L2 T/L3 U/T1 V/T2 W/T3 PO PC PB PA G MCCB Main circuit Control circuit Motor (2) Setting parameters Title Function Programmed value Command mod...
E6580757 C-4 3 Example 3 Setting the operation frequency using built-in potentiometer and run-ning and stopping using external signals. (1) Wiring Main circuit C ontr ol circuit R everse rotation sig nal C ommon Motor Forward rotation signal IM G F R/L1 S/L2 T/L3 U/T1 V/T2 W/T3 R CC PO P C PB PA MCC...
E6580757 C-5 3 Example 4 Operation frequency setting, running and stopping using externalsignals. (1) Wiring IM F R/L1 S/L2 T/L3 U/T1V/T2 W /T3 R PO PC PB PA MCCB CC II G CC VIB VIA PP Main circuit Control circuit Rev erse rotation signal Common Motor Forward rotation signal Current signal: 4 ∼ 20mA...
E6580757 C-6 3 3.2 Simplified Operation of the VF-S9 The procedures for setting operation frequency and the methods of operation can be selected from the following. Run / stop : (1) Run and stop using external signals to the terminal board (2) Run and stop from the operation panel Frequency setting ...
E6580757 D-2 4 4.1 How to set parameters Setting monitor mode The standard default parameters are programmed before the unit is shipped from the factory. Parameters can be divided into three major categories. Select the parameter to be changed or to be searched and retrieved. Basic parameters : The ...
E6580757 D-3 4 4.1.1 How to set the basic parameters Basic parameters All of the basic parameters can be set by the same step procedures. Switches to the setting monitor mode. * The inverters are shipped from thefactory with setparameters by default. * Select the parameter to be changed from "Ta...
E6580757 D-5 4 ■ Example of parameter setting The steps in setting are as follows. Example of changing the dynamic braking selection from 0 to 1. Key operated LED display Operation Displays the operation frequency (operation stopped). (When stan-dard monitor display selection is set to [operation fr...
E6580757 D-6 4 ■ How to search and reprogram parameters The operations of search and resetting of parameters are as follows. Key operated LED display Operation Displays the operation frequency (operation stopped). (When stan-dard monitor display selection is set to [operation fre-quency])Press the M...
E6580757 D-7 4 4.1.4 How to program setup parameters Setup parameters When the standard parameter is set to (standard default setting), the setup parameter is displayed. Setting the setup parameter enable to operate. The setup parameter selects either 50Hz or 60Hz for the base motor frequency. Set t...
E6580757 D-9 4 ■ Steps for returning all parameters to standard default setting Key operated LED display Operation Displays the operation frequency (perform during operation stopped). Press the MON key to display the first basic parameter (automatic acceleration/deceleration). Press the key or the k...
E6580757 E-1 5 5. Basic parameters Before you operate the inverter, the parameters that you must first program are the basic parameters. 5.1 Setting acceleration/deceleration time : Automatic acceleration/deceleration : Acceleration time 1 : Deceleration time 1 • Function 1) For acceleration time , ...
E6580757 E-3 5 ✩ If the programmed value is shorter than the optimum acceleration/deceleration time determined by load conditions, overcurrent stall or overvoltage stall function may make the acceleration/deceleration time longer than the programmed time. If an even shorter acceleration/deceleration...
E6580757 E-5 5 5.3 Setting environmental protection : Automatic environment setting • Function This automatically programs all parameters related to inverter environmental protection (auto-restart or ride-through control after momentary power failure, supply voltage correction, acceleration/decelera...
E6580757 E-7 5 minal, and DOWN (frequency down signal input from external contact) are assigred to the S2 and CLR (fre- quency up/down clear signal input from external contact) are assigned to the S3 terminals respectively. Frequencies can be changed by input to the S1 and S2 terminals. 4-20mA curre...
E6580757 E-8 5 [Setting values] : Terminal board Frequency setting commands are entered by external signals. (VIA/VIB termi- nals: 0-10Vdc or II terminal: 4-20mAdc) : Operationpanel Press the key or the key on either the operation panel or the ex- pansion panel (optional) to set frequency. : Interna...
E6580757 E-9 5 ■ Adjustment scale with meter adjustment parameter Connect meters as shown below. Meter: frequency meter (default setting) <Ammeter> The reading of thefrequency meterwill fluctuate duringscale adjustment. ✩ Make the maximum ammeter scale at least 150percent of the inverter's rat...
E6580757 E-10 5 [Example of how to adjustment the FM terminal frequency meter] * Use the meter's adjustment screw to pre-adjust zero-point. Key operated LED display Operation - Displays the operation frequency. (When standard monitor display selec-tion is set to [operation frequency] Press the MON k...
E6580757 E-11 5 ★ This function will be displayed as during reading on the right. This previous setting is displayed. Ex. ★ cannot be set during the inverter operating. Always stop the inverter first and then program. [Setting values] Default setting Setting to will return all parameters to the stan...
E6580757 E-12 5 Short across the R-CC terminals: reverse rotation * Reverse rotation is valid if short across the F-CC terminals and R-CC terminals at the same time. ★ This function is valid only when is set to 1 (operation panel). 5.9 Maximum frequency : Maximum frequency • Function 1) Programs the...
E6580757 E-13 5 Upper limit frequency Output frequency (Hz) Frequency setting signal Lower-limit frequency ★ The output frequencycannot be set at lessthan . ★ Frequencies that gohigher than willnot be output. Output frequency (Hz) Frequency setting signal ■ Parameter setting Title Function Adjustmen...
E6580757 E-14 5 5.12 Selecting control mode : V/F control mode selection • Function With VF-S9, the V/F controls shown below can be selected { V/F constant { Variable torque { Automatic torque boost { Sensorless vector control *1 { Automatic energy-saving (*1) "Automatic torque boost " param...
E6580757 E-15 5 1) Constant torque characteristics (general method of use) Setting of V/F control mode selection to (V/F constant) This is applied to loads with equipment like conveyors and cranes that require the same torque at low speeds as at rated speeds. Base frequency voltage Base frequency Ou...
E6580757 E-16 5 3) Increasing starting torque Setting V/F control selection to (automatic torque boost) Detects load current in all speed ranges and automatically adjusts voltage output (torque boost) from inverter. This gives steady torque for stable runs. Base frequency voltage Base frequency Outp...
E6580757 E-18 5 5.13 Manual torque boost - increasing torque at lowspeeds : Torque boost 1 • Function If torque is inadequate at low speeds, increase torque by raising the torque boost rate with this parame- ter. Base frequency voltage Base frequency Output frequency (Hz) O u tput v o lt age [ V ]/ ...
E6580757 E-20 5 ■ Setting of electronic thermal protection characteristics selection Setting value Overload protection Overload stall { × { { × × × { { : valid, × : invalid ■ Setting of motor electronic thermal protection level 1 If the capacity of the motor is smaller than the capacity of the inver...
E6580757 E-21 5 [Using a VF motor (motor for use with inverter)] ■ Setting selection of electronic thermal protection characteristics Setting value Overload protection Overload stall { × { { × × × { { : valid, × : invalid A VF motor (a motor for use with an inverter) can be used in lower frequency r...
E6580757 E-22 5 2) Inverter over load characteristics Set to protect the inverter unit. Cannot be changed or turned off by parameter setting. If the inverter overload trip function ( ) is activated frequently, this can be improved by adjusting the stall operation level downward or increasing the acc...
E6580757 F-1 6 6. Extended parameters Extended parameters are provided for sophisticated operation, fine adjustment and other special purposes. Modify pa- rameter settings as required. See Section 11, Table of extended parameters. 6.1 Input/output parameters 6.1.1 Low-speed signal : Low-speed signal...
E6580757 F-2 6 [Connection diagram for sink logic] [Incase of relay] P24 OUT Ry Ry RC RY • Output terminal setting Output of the low-speed signal (ON signal) between the RY and RC terminals is the factory default set- ting of the output terminal selection parameter. This setting must be changed to i...
E6580757 F-3 6 ONOFF ONOFF 0 Output frequency [Hz] Designated frequency attainment signal P24-OUT (Def ault setting)RY-RC FLA-FLC-FLB Speed attainment set frequency: Inverted Designated frequency Designated frequency + Designated frequency − Time [s] 6.1.3 Output of set frequency speed reach signal ...
E6580757 F-4 6 1) If the detection band value + the set frequency is less than the designated fre- quency Set frequency speed reach detection signal RY-RC P24-OUT FLA/FLC/FLB Set frequency speed reach signal: Inverted Output frequency [Hz] Time [sec] 6.2 Input signal selection 6.2.1 Changing the sta...
E6580757 F-5 6 1) Standby on when ST is on F-CC Motor speed Coast stop Use this setting if an ST (standby)terminal is required. * The ST terminal is not assigned as standard default setting.Assign the ST function to anidle input terminal by the inputterminal selection. ST-CC 2) Standby always on (De...
E6580757 F-6 6 ■ Parameter setting Title Function Adjustment range Default setting RST signal selection 0: Standard setting (reset on when RST-CC on to off) 1: Activated by turning RST off (reset on when RST-CC off to on) 0 6.3 Terminal function selection 6.3.1 Keeping an input terminal function alw...
E6580757 F-7 6 ■ Setting of contact input terminal function Terminal symbol Title Function Adjustment range Default setting - Always-active function selection 0 (Without assignedfunction) F Input terminal selection 1 (F) 2 (Forward run) R Input terminal selection 2 (R) 3 (Reverse run) RST Input term...
E6580757 F-9 6 6.3.3 Modifying output terminal functions : Output terminal selection 1 (RY-RC) : Output terminal selection 2 (OUT) : Output terminal selection 3 (FLA/B/C) Use the above parameters to send various signals from the inverter to external equipment. Up to 30 functions can be used by setti...
E6580757 F-10 6 6.4 Basic parameters 2 6.4.1 Switching motor characteristics via terminal input : Base frequency 2 : Torque boost 2 : Motor electronic-thermal protection level 2 • Function Use the above parameters to switch the operation of two motors with a single inverter and to select motor V/F c...
E6580757 F-11 6 6.5 Frequency priority selection 6.5.1 Using a frequency command according to the particular situation : Frequency setting mode selection : Frequency priority selection • Function Use the above parameters to select the command to be used for frequency setting, and to assign priority ...
E6580757 F-12 6 2) Automatic frequency switching 2 Frequency priority selection parameter = 0: Terminal board is selected. First priority is assigned to analog input terminals VIB, and second priority to analog input terminals VIA/II. When the input to VIB with first priority becomes null, control w...
E6580757 F-13 6 6.5.2 Setting frequency command characteristics : VIA/II input point 1 setting : VIA/II input point 1 frequency : VIA/II input point 2 setting : VIA/II input point 2 frequency : VIB input point 1 setting (Frequency UP response time) : VIB input point 1 frequency (Frequency UP step wi...
E6580757 F-14 6 1) 0-10Vdc voltage input adjustment (VIA, VIB) • The output frequency withrespect to the voltage input isadjusted according to theselected reference point. • Gradient and bias can be seteasily. VIA, VIB terminals voltage signal 50 or 60 (Hz) 2) 4-20mAdc current input adjustment (II) ...
E6580757 F-16 6 <<Sample sequence diagram 2: Adjustment with pulse signals>> OH Z RUN command Incrementing (UP) signal Decrementing (DOWN)signal Set frequency clearing signal Upper limit frequency ■ Simultaneous input • If input clearing signal and decrementing signal at the same time, c...
E6580757 F-17 6 6.6 Operation frequency 6.6.1 Starting frequency : Starting frequency setting • Function The frequency set with the parameter is put out immediately on completion of frequency set- ting. Use the parameter when a delay in response of starting torque according to the accelera- tion/dec...
E6580757 F-18 6 6.6.2 Run/stop control with frequency setting signals : Operation starting frequency : Operation starting frequency hysterisis • Function The Run/stop of operation can be controlled simply with frequency setting signals. [Parameter setting] Title Function Adjustment range Default set...
E6580757 F-19 6 [Parameter setting] Title Function Adjustment range Default setting DC braking starting frequency 0.0 ∼ (Hz) 0.0 DC braking current 0.0 ∼ 100 (%) 30.0 DC braking time 0.0 ∼ 20.0 (sec) 1.0 DC braking starting frequency Output frequency [Hz] Set frequency Output current [A] DC braking ...
E6580757 F-21 6 6.9 Jump frequency - jumping resonant frequencies : Jump frequency 1 : Jumping width 1 : Jump frequency 2 : Jumping width 2 : Jump frequency 3 : Jumping width 3 • Function Resonance due to the natural frequency of the mechanical system can be avoided by jumping the reso- nant frequen...
E6580757 F-22 6 6.10 Preset-speed operation frequency 8 to 15 ∼ : Preset-speed operation frequency 8 to 15 See Section 5.15 for details. 6.11 PWM carrier frequency : PWM carrier frequency : Random mode • Function 1) The F300 parameter allows the tone of the magnetic noise from the motor to be change...
E6580757 F-23 6 [400V Class] 480V or less More than 480V Carrier frequency Carrier frequency VFS9- 4kHz or less 12kHz 15kHz 16.5kHz 4kHz or less 12kHz 15kHz 16.5kHz 4007PL 2.3A 2.1A 2.1A 2.1A 2.1A 1.9A 1.9A 1.9A 4015PL 4.1A 3.7A 3.3A 3.1A 3.8A 3.4A 3.1A 3.0A 4022PL 5.5A 5.0A 4.5A 4.3A 5.1A 4.6A 4.2A...
E6580757 F-24 6 Title Function Adjustment range Default setting Auto-restart controlselection 0: Disabled1: At auto-restart after momentary stop2: When turning ST-CC on or off3: At auto-restart or when turning ST-CC on or off4: Motion of DC braking at start-up (at auto- restart after momentary stop)...
E6580757 F-25 6 Application!! • A waiting time of 200 to 1,000msec is preset to allow the residual voltage in the motor to decrease to a certain level during restart. For this reason, the start-up takes more time than usual. • Use this function when operating a system with one motor connected to one...
E6580757 F-29 6 2) Setting the braking resistor operation rate Calculate the braking resistor operation rate as follows: Braking resistor operating time Operation rate: Tr/T * 100 (%ED) 1-cycle operation time T 3) Optional dynamic braking resistors (Optional braking resistors for higher frequen- cie...
E6580757 F-31 6 6.12.6 Output voltage adjustment/Supply voltage correction : Output voltage adjustment (Base frequency voltage) : Supply voltage correction • Function Output voltage adjustment (Base frequency voltage) The parameter adjusts the voltage corresponding to the base frequency 1 so that no...
E6580757 F-33 6 6.12.7 Conducting PI control : Proportional/integral control (PI control) : Proportional gain : Integral gain • Function These parameters provide various types of process control, such as maintaining constant air quan- tity, flow rates and pressures, by input of feedback signals from...
E6580757 F-35 6 (I-gain adjustment parameter) This parameter adjusts the integral gain level during PI control. Any deviations remaining unremoved during proportional action are cleared to zero (residual deviation offset function). A larger I-gain adjustment value reduces residual deviations. Too la...
E6580757 F-36 6 6.13 Setting motor constants : Auto-tuning : Slip frequency : Motor primary constant : Motor secondary constant : Motor excitation constant : Magnification of load inertial moment : Rated capacity ratio of motor to inverter To use vector control, automatic torque boost and automatic ...
E6580757 F-40 6 ■ Acceleration/deceleration patterns 1) Linear acceleration/deceleration A general acceleration/ deceleration pat- tern. This pattern can usually be used. 2) S-pattern acceleration/deceleration 1 Select this pattern to accelerate/decelerate the motor rapidly to a high-speed region wi...
E6580757 F-41 6 ■ Switching to acceleration/deceleration 1) Selection using parameters Output frequency [Hz] Time [sec] Acceleration/deceleration time 1 is initially set as the default. Acceleration/deceleration time 2 can be selected by changing the setting of the parameter. 2) Switching by frequen...
E6580757 F-42 6 3) Switching using external terminals - Switching the acceleration/deceleration time via external termi- nals Output frequency [Hz] Time [sec] (1) Acceleration at the gradient corresponding to accelerationtime (2) Acceleration at the gradient corresponding to accelerationtime (3) Dec...
E6580757 F-44 6 6.15.4 External input trip stop mode selection : External input trip stop mode selection : Emergency DC braking time • Function These parameters set the method of stopping the inverter in external trip stop mode. When the inverter is stopped, the trip detection function (" " ...
E6580757 F-49 6 6.15.9 Undervoltage trip : Undervoltage trip selection • Function This parameter is used for selecting the control mode when an undervoltage is detected. Trip infor- mation is displayed as “ “. (Disabled).......The inverter is stopped. However, it is not tripped (FL relay deactivated...
E6580757 F-50 6 ■ Examples of setting 6.16 Operation panel parameter 6.16.1 Prohibition of change of parameter settings : Prohibition of change of parameter settings • Function This parameter specifies whether parameter setting is changeable or not. ■ Setting methods : Permitted _____Modification of...
E6580757 F-52 6 1) Display in percentage terms 2) Display in amperes/volts Output current: Output current: Input (DC) voltage: Input (DC) voltage: (vale of changing to AC) ■ An example of setting for displaying the motor speed or load speed Set to either " " or " ". The value obtaine...
E6580757 F-53 6 * The converts the following parameter settings: • A display Current monitor display Motor electronic thermal protection level 1/2 ( ), DC braking current Stall prevention level Small current detection level • V display Voltage monitor display Torque boost 1/2 , • Free unit Frequency...
E6580757 F-56 6 ■ Example of connection for RS485-communication <Independent communication> Perform computer-inverter connection as follows to send operation frequency commands from the host computer to inverter No. 3: G iv e n aw ay Wiring Data (host → INV) Response data (INV → host) Host com...
E6580757 G-1 7 7. Applied operation 7.1 Setting the operation frequency Applied operation can be performed by selecting the inverter frequency setting, using the basic parameter (frequency setting mode selection) and the extended parameter (frequency priority selection). (1) Internal potentiometer s...
E6580757 G-5 7 7.2 Setting the operation mode Applied operation can be performed by selecting the operation mode. To set the operation mode, use the basic parameter (command mode selection) and the input terminal selection parameter. (1) Operation panel operation (2) Terminal board operation F R RST...
E6580757 H-1 8 8. Monitoring the operation status 8.1 Status monitor mode In this mode, you can monitor the operation status of the inverter. To display the operation status during normal operation: Press the key twice. Setting procedure (eg. operation at 60Hz) Item displayed Key operated LED displa...
E6580757 H-3 8 8.2 Display of trip information If the inverter trips, an error code is displayed to suggest the cause. In the status monitor mode, all trip records are retained. ■ Display of trip information Error code Communi- cation No. Description 1 Overcurrent during acceleration 2 Overcurrent d...
E6580757 H-4 8 Error code Communi- cation No. Description (*) 0 No error (Note) Past trip records (trip records retained or trips that occurred in the past) can be called up. (Refer to 8.1 "Status monitor mode" for the call-up procedure.) (*) Strictly speaking, this code is not an error code...
E6580757 I-1 9 9. Taking measures to satisfy the CE/UL directive 9.1 How to cope with the CE directive In Europe, the EMC directive and the low-voltage directive, which took effect in 1996 and 1997, respectively, make it obligatory to put the CE mark on every applicable product to prove that it comp...
E6580757 I-2 9 Table 1 EMC standards Category Subcategory General standard Test standard and level Radiation noise EN 55011, Group 1, Class A Emission Transmission noise EN50081-2 EN 55011, Group 1, Class A Static discharge EN 61000-4-2 Radioactive radio-frequency magneticcontactor field EN 61000-4-...
E6580757 J-1 10 10. Peripheral devices Danger Danger Mandatory • When using switchgear for the inverter, it must be installed in a cabinet.Failure to do so can lead to risk of electric shock and can result in death or serious injury. Be Grounded • Connect earth cables securely. Failure to do so can ...
E6580757 J-2 10 ■ Selection of wiring devices Non-fuse circuit breaker (MCCB) Magnetic contactor (MC) Overload relay (THR) Earth leakage breaker (ELCB) Voltage class Capacity of applicable motor (kW) Inv erter model Rated current (A) Type Note1) Rated current (A) Type Note1) Adjusted current (A) (Fo...
E6580757 J-3 10 10.2 Installation of a magnetic contactor If using the inverter without installing a magnetic contactor (MC) in the primary circuit, use an MCCB (with a power cutoff device) to open the primary circuit when the inverter protective circuit is activated. If using a braking resistor or ...
E6580757 J-4 10 10.3 Installation of an overload relay 1) The VF-S9 inverter has an electronic-thermal overload protective function. In the following cases, however, the activation level of the electronic thermal protection unit must be adjusted and an overload relay suitable for the motor installed...
E6580757 K-1 11 11. Table of parameters and data 11.1 User parameters Title Function Unit Minimum setting unit Adjustment range Default setting User setting Reference - Applicable motorbase frequency *3 Hz - 6050 *1 4.1 Operationfrequency ofoperation panel Hz 0.1 - 0.0 3.2 *3 : When the standard set...
E6580757 K-2 11 Title Communication No. Function Unit Minimum setting unit Adjustment range Default setting User setting Reference 0008 Forward/rev erserun selection(Operation panel) - - 0: Forward run1: Rev erse run 0 5.8 0009 Accelerationtime 1 s 0.1 0.1-3600 10.0 5.1 0010 Decelerationtime 1 s 0.1...
E6580757 K-3 11 Title Communication No. Function Unit Minimum setting unit Adjustment range Default setting User setting Reference 0110 Always-activ efunction selection - - 0-51 0 6.3.1 0111 Input terminalselection 1 (F) - - 0-51 (F) 2 6.3.2 0112 Input terminalselection 2 (R) - - 0-51 (R) 3 6.3.2 01...
E6580757 K-5 11 • Operation mode parameters Title Communication No. Function Unit Minimum setting unit Adjustment range Default setting User setting Reference 0300 PWM carrierfrequency kHz 0.1 2.0-16.5 12.0 6.11 0301 Auto-restartcontrol selection - - 0: Disabled1: At auto-restart after momentary sto...
E6580757 K-8 11 ■ Default settings by inverter rating Inverter model Torque boost Slip frequency Motor primary constant Motor secon- dary constant Motor excitation constant / VFS9S-2002PL 6.0% 3.0Hz 33 35 35 VFS9S-2004PL 6.0% 3.0Hz 36 39 39 VFS9S-2007PL 6.0% 3.0Hz 36 28 44 VFS9S-2015PL 6.0% 2.7Hz 26...
E6580757 K-12 11 ■ Order of precedence of combined functions XX: Impossible combination, X: Invalid, +: Valid under some conditions, O: Valid, @: Priority Function No. / Function 2 3 4 5 6-9 10 11 12 13 14 15 46 48 41/ 42 43 49 38 50/ 51 2 Forward run command X O O O O X O X O O X O O O O O + 3 Rev ...
E6580757 L-1 12 12. Specifications 12.1 Models and their standard specifications Standard specifications Item Specification Input voltage 3-phase 200V Applicable motor (kW) 0.2 0.4 0.75 1.5 2.2 3.7 5.5 7.5 11 15 Type VFS9- Form 2002PM 2004PM 2007PM 2015PM 2022PM 2037PM 2055PL 2075PL 2110PM 2150PM Ca...
E6580757 L-3 12 12.2 Outside dimensions and mass ■ Outside dimensions and mass Dimensions (mm) Input voltage Applicable motor (kW) Type W H D W1 H1 H2 D2 Drawing Approx. weight (kg) 0.2 VFS9S-2002PL 1.9 0.4 VFS9S-2004PL 1.9 0.75 VFS9S-2007PL 105 130 140 93 118 1.9 1.5 VFS9S-2015PL 130 150 150 118 13...
E6580757 L-4 12 ■ Outline drawing * VFS9 2002PM and VFS9S 2002PL don’t have fan. Fig. A W H ¿5 R2.5 H2 W1 (Mounting dimension) H1 (Mounting dimension) D D2 62 M5 4 M4 102 EMC plate VF S9 Fig. B W1 (Mounting dimension) H1 (Mounting dimension) W R3 9 D2 91 R7 H R3 H2 D M5 4 M4 198 EMC plate VF S9 Fig....
E6580757 M-1 13 13. Before making a service call - Trip information and remedies 13.1 Trip causes/warnings and remedies When a problem arises, diagnose it in accordance with the following table. If it is found that replacement of parts is required or the problem cannot be solved by any remedy descri...
E6580757 M-5 13 13.2 Restoring the inverter from a trip Do not reset the inverter when tripped because of a failure or error before eliminating the cause. Resetting the tripped inverter before eliminating the problem causes it to trip again. The inverter can be restored from a trip by any of the fol...
E6580757 M-7 13 13.4 How to determine the causes of other problems The following table provides a listing of other problems, their possible causes and remedies. Problems Causes and remedies The motor runs in thewrong direction. • Invert the phases of the output terminals U, V and W. • Invert the for...
E6580757 N-1 14 14. Inspection and maintenance Danger Danger Mandatory • The equipment must be inspected every day.If the equipment is not inspected and maintained, errors and malfunctions may not be discoveredwhich could lead to accidents. • Before inspection, perform the following steps.(1) Shut o...
E6580757 N-2 14 ■ Check points 1. Something unusual in the installation environment 2. Something unusual in the cooling system 3. Unusual vibration or noise 4. Overheating or discoloration 5. Unusual odor 6. Unusual motor vibration, noise or overheating 14.2 Periodical inspection Make a periodical i...
E6580757 N-3 14 (Note) Before an insulation test, always disconnect all cables from the main circuit terminal board and test the inverter separately from other equipment. 500V insulation tester(megger) 7. Never test the inverter for pressure. A pressure test may cause damage to its components. 8. Vo...
E6580757 N-4 14 The operation time is helpful for roughly determining the time of replacement. For the replacement of parts, contact the service network or Toshiba branch office printed on the back cover of this instruction manual. ■ Standard replacement cycles of principal parts The table below pro...
E6580757 P-1 16 16. Disposal of the inverter Warning Mandatory • If you throw away the inverter, have it done by a specialist in industry waste disposal*.If you throw away the inverter by yourself, this can result in explosion of capacitor or produce noxiousgases, resulting in injury. (*) Persons wh...
For further information, please contact your nearest Toshiba Liaison Representative or International Operations - Producer Goods. The data given in this brochure are subject to change without notice. 2000-X Manufacturer: TOSHIBA INDUSTRIAL PRODUCTS MANUFACTURING CORPORATION INDUSTRIAL ELECTRONIC PRO...
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