2006 - matsua relay sp4 Abstract: nais relay SP4-DC12V nais relay DC24V Text: direction - i.e. With the direction of the NAIS mark on top of the relay case matching the direction of the NAIS mark on the terminal block. (The; direction of the terminal block is the upward direction of, mounting direction - i.e. With the direction of the NAIS mark on top of the relay case matching the direction of the NAIS mark on the terminal block.
(The; direction of the terminal block is the upward Original nais relay Abstract: nais relays hp Nais latching relays SP2-DC24V SP2-L2-DC24V SP4-L2-DC24V 202C10 hjr1-2c RELAY DC24V TIP 126 Text: with the proper mounting direction - i.e. With the direction of the NAIS mark on top of the SP2, the NAIS mark on the terminal block.
(The g direction of the terminal block is the upward direction, package. (2) Mount the relay with the proper mounting direction - i.e. With the direction of the NAIS mark on top of the relay case matching the direction of the NAIS mark on the terminal block. (The g Original nais relay Abstract: relay nais nais relays hp nais latching relay nais relay S2 nais relays SP2-L2-DC12V nais relays S2 Nais latching relays Text: with the proper mounting direction - i.e. With the direc tion of the NAIS mark on top of the relay case matching the direction of the NAIS mark on the terminal block. (The U direction of the terminal, ) Mount the relay with the proper mounting direction - i.e. With the direc tion of the NAIS mark on top of the relay case matching the direction of the NAIS mark on the terminal block.
Toshiba Ac Drive Vf-a7 Manual >>>CLICK HEREVF-6E VF6E BFV60072E Inverter 220V.
(The 1 direction of OCR Scan nais relays Abstract: relay catalog nais nais relay SP4-DC24V SP4-DC48V nais latching relay SP2-L2-DC48V SP2-L2-DC24V SP2-L2-DC12V SP2-DC24V Text: of the NAIS mark on top of the relay case match- ing the direction of the NAIS mark on the, the proper mounting direction - i.e. With the direction of the NAIS mark on top of the relay case matching the direction of the NAIS mark on the terminal block. (The; direction of the terminal block is Original nais relay Abstract: nais relays nais relay S2 SP4-DC48V SP4-DC24V rc-5001 relay SP2-L2-DC24V SP2-L2-DC12V SP2-DC48V SP2-DC12V Text: of the NAIS mark on top of the relay case match- ing the direction of the NAIS mark on the, the relay with the proper mounting direction - i.e. With the direction of the NAIS mark on top of the relay case matching the direction of the NAIS mark on the terminal block. (The; direction of the Original NAIS 210 Abstract: uPD780822 NAIS DELAY uPD78F0822 ICC7800 ASSP3 uPD780821 TCN32-4 ID78K0-QB QB-780822 Text:.
36 2.5.2 NAIS based adapter line., 's Manual 9 Appendix C Package Drawings NAIS Line., refer to tables 1-4 to 1-10 for the correct order codes for each line (TET, NAIS connector vendor). Original AQW610S Abstract: AQW610SX AQW610SZ Text: Matsushita Electric Works, Ltd. 77 NAiS Original 2000 - IC 8085 pin diagram Abstract: IC 8085 8085 IC 8085 DATA SHEET 8085 application notes ssr schematic circuit AQW214SZ AQW210S AQW210SX AQW210SZ Text:, © Copyright Matsushita Electric Works, Ltd. Go To Online Catalog NAiS Original 2004 - Not Available Abstract: No abstract text available Text: Matsushita Electric Works, Ltd.
NAiS Original 2004 - AQS221 Abstract: AQS221N2S Text: 107 Applied voltage, V Frequency, Hz 3 NAiS Original AQS225S Abstract: AQS225SX AQS225SZ Text: Matsushita Electric Works, Ltd. NAiS Original.
. E6581381 Safety precautions II II Introduction Contents Industrial Inverter Read first For 3-phase induction motors Connection Operations Instruction Manual Basic VF-FS1 operations Basic parameters TOSVERT Extended parameters Applied operation Monitoring the operation status Measures to satisfy the standards 10 10 3-phase 200V class 0.4 30kW Peripheral.
E6581381 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 to prevent damage to property in the area. E6581381 General Operation Warning See item. Never disassemble, modify or repair.
This can result in electric shock, fire and injury. For repairs, call your sales distributor. Disassembly prohibited. Never remove the front cover when power is on or open door if enclosed in a cabinet. The unit contains many high voltage parts and contact with them will result in electric shock. Operation cannot be stopped immediately by the inverter alone, thus risking an accident or injury. All options used must be those specified by Toshiba.
1.4.4 The use of any other option may result in an accident. E6581381 Warning See item. Electrical installation work must be done by a qualified expert. Connection of input power by someone who does not have that expert knowledge may result in fire or electric shock.
Connect output terminals (motor side) correctly. If the phase sequence is incorrect, the motor will operate in reverse and that may result in injury.
E6581381 Caution See item. Observe all permissible operating ranges of motors and mechanical equipment. (Refer to the motor's instruction manual.) Not observing these ranges may result in injury. Prohibited When sequence for restart after a momentary failure is selected (inverter) Caution See item. E6581381 Disposal Caution See item.
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 noxious gases, resulting in injury. (.) Persons who specialize in the processing of waste and known as 'industrial waste product collectors and transporters'. Superior basic performance Automatic energy-saving Smooth operation: Reduced rotation ripple through the use of Toshiba's unique waveform formation. Built-in current surge suppression circuit: Can be safely connected even if power load is low. Maximum 200Hz high frequency output: Optimum for use with high speed motors such as those in lumber machinery and milling machines. E6581381 Contents Safety precautions.1 Introduction.7 1.
Read first.A-1 Check product purchase.A-1 Contents of the product.A-2 Names and functions.A-3 Notes on the application.A-13 2. Connection.B-1 Cautions on wiring.B-1 Standard connections.B-2 Description of terminals.B-5 3. E6581381 Terminal function selection.F-6 Basic parameters 2.F-15 Frequency priority selection.F-16 Operation frequency.F-24 DC braking. F-25 Auto-stop in case of lower-limit frequency continuous operation.F-26 Jump frequency-jumping resonant frequencies.F-28 6.10 Bumpless operation.F-29 6.11 PWM carrier frequency. E6581381 12. Specifications.L-1 12.1 Models and their standard specifications.L-1 12.2 Outside dimensions and mass.L-4 13.
Before making a service call - Trip information and remedies.M-1 13.1 Trip causes/warnings and remedies.M-1 13.2 Restoring the inverter from a trip.M-5 13.3 If the motor does not run while no trip message is displayed.M-6 13.4. E6581381 1. Read first Check product purchase Before using the product you have purchased, check to make sure that it is exactly what you ordered.
Caution Use an inverter that conforms to the specifications of power supply and three-phase induction motor being used. E6581381 Contents of the product Explanation of the name plate label. Type Form V F F S 1 - 4 0 0 7 P L E - W N - A 2 2 Applicable motor Default interface Special specification code Model name Input (AC) voltage Additional functions I. E6581381 Names and functions 1.3.1 Outside view Operation panel.
E6581381 Unlock position mark The front panel is unlocked when the dot on the locking screw is on Charge lamp this (upper) side. Indicates that high voltage is still present within the inverter. Do not Front panel locking screw open the terminal board cover The inverter came with this while this is lit. E6581381 ・Monitor display The LEDs on the operation panel display the following symbols indicate operations and parameters.
LED(number) LED(alphabet) Example of the label 1.3.2 Power circuit and control circuit terminal boards In case of the lug connector, cover the lug connector with insulated tube, or use the insulated lug connector. 1) Power circuit terminal board In case of the lug connector, cover the lug connector with insulated tube, or use the insulated lug connector.
E6581381 VFFS1-2004 ∼ 2037PM VFFS1-4004 ∼ 4055PL Note: EMC plate is supplied as standard only WP model. E6581381 VFFS1-2055, 2075PM -4075, 4110PL VFFS1-2110 ∼ 2185PM -4150 ∼ 4185PL Note: EMC plate is supplied as standard only WP model.
E6581381 VFFS1-2220PM -4220, 4300, 4370, 4450PL ( ⇒ See page A-10) Grounding capacitor disconnecting switch (4220, 4300PL only) ( ⇒ See page A-10) VFFS1-2300PM -4550, 4750PL Grounding capacitor disconnecting switch (400V only) ( ⇒ See page A-10) Each main circuit terminal has the structure shown in the figure below. E6581381 2) Grounding capacitor disconnecting switch and taps Caution The grounding capacitor disconnecting tap is provided with a protection cover. To avoid shock hazards, always attach the cover after connecting or disconnecting the capacitor to or from the tap. Mandatory Every three-phase 400V model has a built-in high-attenuation noise filter, which is grounded through a capacitor. E6581381 22kW or more: Switch To change the capacitance from Small to Large, push this switch.
(Factory default position) To change the capacitance from Large to Small, pull up this switch. 3) Control circuit terminal board The control circuit terminal board is common to all equipment.
M3 screw 0.5N.m 4.4 lb・in. E6581381 1.3.3 How to open the front (terminal board) cover-18.5kW or less To wire the terminal board, remove the front lower cover in line with the steps given below.
Turn the locking screw on the right side of the front panel 90° counterclockwise to align the dot on the screw with the unlock Pull the front panel toward you position mark (upper side). E6581381 1.3.4 How to open the front (terminal board) cover-22kW or more To wire the main circuit terminal board for models 22kW or more, remomve the front cover. Remove the screw Maincircuit terminal board Control circuit terminal board Open the control circuit terminal board cover. To open the cover, lift it with your finger placed at the part on the right side of the cover.
E6581381 Notes on the application 1.4.1 Motors When the VF-FS1 and the motor are used in conjunction, pay attention to the following items. Caution Use an inverter that conforms to the specifications of power supply and three-phase induction motor being used. If the inverter being used does not conform to those specifications, not only will the three- phase induction motor not rotate correctly, but it may cause serious accidents through overheating and Mandatory fire. E6581381 Low loads and low inertia loads The motor may demonstrate instability such as abnormal vibrations or overcurrent trips at light loads of 5% or under of the load percentage, or when the load's inertia moment is extremely small. If that happens reduce the carrier frequency. E6581381 Braking motor When using a braking motor, if the braking circuit is directly connected to the inverters's output terminals, the brake cannot be released because of the lowered starting voltage.
Therefore, when using a braking motor, connect the braking circuit to the inverter's power supply side, as shown in the figure below. E6581381 Power factor correction capacitor Power factor correction capacitors cannot be installed on the output side of the inverter. When a motor is run that has a power factor correction capacitor attached to it, remove the capacitors. This can cause inverter malfunction trips and capacitor destruction. E6581381 Disposal If an inverter is no longer usable, dispose of it as industrial waste. 1.4.3 What to do about the leak current Caution Current may leak through the inverter's input/output wires because of insufficient electrostatic capacity on the motor with bad effects on peripheral equipment.
E6581381 (2) Affects of leakage current across lines Thermal relays Inverter Power supply Leakage current path across wires Thermal relays The high frequency component of current leaking into electrostatic capacity between inverter out- put wires will increase the effective current values and make externally connected thermal relays operate improperly. E6581381 CT and ammeter If a CT and ammeter are connected externally to detect inverter output current, the leak current's high frequency component may destroy the ammeter. If the wires are more than 50 meters long, it will be easy for the high frequency component to pass through the externally connected CT and be superimposed on and burn the ammeter with models having motors of low rated current (several A(ampere) or less), especially the 400V class low capacity (5.5kW or less) models, because the leak current will increase in proportion to the motor's rated current. If the VF-FS1 Inverter is installed in a location that is subject to vibration, anti-vibration measures are required. Please consult with Toshiba about these measures. If the VF-FS1 Inverter is installed near any of the equipment listed below, provide measures to insure against errors in operation.
Operation cannot be stopped immediately by the inverter alone, thus risking an accident or injury. All options used must be those specified by Toshiba. The use of any other option may result in an accident. E6581381 Calorific values of the inverter and the required ventilation About 5% of the rated power of the inverter will be lost as a result of conversion from AC to DC or from DC to AC.
In order to suppress the rise in temperature inside the cabinet when this loss becomes heat loss, the interior of the cabinet must be ventilated and cooled. E6581381. Separate the input (power) and output (motor) wires of the main circuit. Do not place them in the same conduit, do not run them parallel, and do not bundle them. Ground the inverter ground terminals (. Install surge suppressor on any magnetic contactor and relay coils used around the inverter. E6581381 2.
Connection Warning. Never disassemble, modify or repair. This can result in electric shock, fire and injury. For repairs, call your sales agency.
Disassembly prohibited. Don't stick your fingers into openings such as cable wiring hole and cooling fan covers. This can result in electric shock or other injury. E6581381 Warning. Ground must be connected securely.
If the ground is not securely connected, it could lead to electric shock or fire when a malfunction or current leak occurs. Be Grounded Caution. Do not attach devices with built-in capacitors (such as noise filters or surge absorber) to the output (motor side) terminal. E6581381 2.2.1 Standard connection diagram 1 This diagram shows a standard wiring of the main circuit.
E6581381 2.2.2 Standard connection diagram 2. E6581381 Description of terminals 2.3.1 Power circuit terminals This diagram shows an example of wiring of the main circuit.
Use options if necessary. Power supply and motor connections Connections with peripheral equipment Molded-case noise reduction Surge suppression circuit Magnetic Input AC filter filter breaker. E6581381 Power circuit Terminal symbol Terminal function Grounding terminal for connecting inverter. There are 3 terminals in total. 2 terminals in (PE) the terminal board, 1 terminal in the cooling fin. 200V class: three-phase 200 to 240V-50/60Hz R/L1,S/L2,T/L3 400V class: three-phase 380 to 480V-50/60Hz Connect to a (three-phase induction) motor.
E6581381 Terminal Electrical Input/output Function Inverter internal circuits symbol specifications 10Vdc Output Analog power supply output (permissible load current: 10mA) Multifunction programmable analog input. Factory default setting: 010Vdc/060Hz (050Hz) frequency input. The function can be changed to 10Vdc 420mAdc (020mA) current input by (internal impedance: flipping the VIA (SW3) dip switch to the I position. E6581381 Terminal Electrical Input/output Function Inverter internal circuits symbol specifications Multifunction programmable relay contact 250Vac-1A output. (cosφ=1) Detects the operation of the inverter's: at resistance load Output protection function.
30Vdc-0.5A Contact across FLA-FLC is closed and FLB- 250Vac-0.5A FLC is opened during protection function (cosφ=0.4) operation. E6581381 SINK (Negative) logic/SOURCE (Positive) logic (When an external power supply is used) The PLC terminal is used to connect to an external power supply or to insulate a terminal from other input or output terminals. As for input terminals, turn the SW4 slide switch to the PLC position.
E6581381 The figure on the right shows an example of the connection of input terminals VIA when there is used as contact input terminals. This example illustrates the connection when the inverter is used in sink (Negative) logic mode. In case source (Positive) logic mode, connect the resistor between VIA and CC. E6581381 3.
Operations Warning. Do not touch inverter terminals when electrical power is going to the inverter even if the motor is stopped.
Touching the inverter terminals while power is connected to it may result in electric shock. Prohibited. E6581381 Simplified Operation of the VF-FS1 The procedures for setting operation frequency and the methods of operation can be selected from the following.: (1) Run and stop from the operation panel Start / Stop (2) Run and stop using external signals to the terminal board (3) Run and stop through RS485 communication: (1) Setting using the operation panel. E6581381 3.1.1 How to start and stop Example of a setting procedure Key operated LED display Operation Displays the operation frequency (operation stopped). (When standard monitor display selection = Operation frequency) Displays the first basic parameter Wizard function (). E6581381 3.1.2 How to set the frequency Example of a setting procedure Key operated LED display Operation Displays the operation frequency (operation stopped). (When standard monitor display selection = Operation frequency) Displays the first basic parameter Wizard function ().
E6581381 (2) Setting the frequency using the operation panel (= or ) Frequency setting Setting the frequency using external potentiometer Potentiometer Setting frequency using the potentiometer (1k-10kΩ, 1/4W) ⇒ For more detailed information on adjustments, see section 6.5.: Setting frequency using potentiometer 60Hz Frequency. E6581381 How to operate the VF-FS1 Overview of how to operate the inverter with simple examples. Remote mode selection, Ex.1 Setting the operation frequency using the operation panel and running and stopping using the operation panel. Wiring PA/+ PC/- Motor MCCB R/L1 U/T1. E6581381 Remote mode selection, Ex.2 Operation frequency setting, running and stopping using external signals. Wiring PA/+ PC/- Motor MCCB R/L1 U/T1 S/L2 V/T2 Noise Power circuit W/T3 T/L3 filter Run forward signal Control circuit Run backward signal Common Voltage signal: 0∼10V, Current signal: 4∼20mA External potentiometer (Otherwise, input voltage signal (010V) between the terminals VIA-CC.) Parameter setting.
E6581381 4. Basic VF-FS1 operations The VF-FS1 has the following three monitor modes.: The standard inverter mode. This mode is enabled when Standard monitor mode inverter power goes on. This mode is for monitoring the output frequency and setting the frequency designated value. E6581381 Flow of status monitor mode Flow of monitor as following.
E6581381 How to set parameters The standard default parameters are programmed before the unit is shipped from the factory. Parameters can be divided into 5 major categories. Select the parameter to be changed or to be searched and retrieved.: The basic parameters that must be programmed Basic parameters before the first use. E6581381 4.2.1 How to set the basic parameters All of the basic parameters can be set by the same step procedures.
Steps in key entry for basic parameters. Parameters were factory-set by default Switches to the setting monitor mode. Before shipment. E6581381 4.2.2 How to set extended parameters The VF-FS1 has extended parameters to allow you to make full use of its functions. All extended parameters are expressed with and three digits. Basic parameters ∼ MODE Press the key or the key to Press the MODE key once and use the change the set value. E6581381 Example of parameter setting Steps in setting are as follows (Example of Auto-restart control selection from 0 to 1.) Key operated LED display Operation Displays the operation frequency (operation stopped).
(When standard monitor display selection = Operation . frequency) The first basic parameter “”. E6581381 Key operated LED display Operation Press key to select . Press the ENT key to enable the user parameter automatic edit function. Searches for parameters that are different in value from the standard default setting and displays those parameters. Press the ENT key or () key to change the parameter displayed. E6581381 Parameter setting Title Function Adjustment range Default setting The wizard function refers to the Wizard function special function of calling up ten frequently used parameters.
How to use the wizard function Key operated LED display Operation Displays the operation frequency (operation stopped). (When standard monitor display selection =. E6581381 4.2.5 Searching for a history of changes, using the history function () History function (): Automatically searches for 5 latest parameters that are programmed with values different from the standard default setting and displays them in the .
Parameter setting can also be changed within this group . E6581381 4.2.6 Parameters that cannot be changed while running For safety reasons, the following parameters have been set up so that they cannot be reprogrammed while the inverter is running. Stop operation (“” or “” is displayed) before changing parameter settings. Basic parameters: Automatic acceleration/deceleration . E6581381 4.2.7 Returning all parameters to standard default setting Setting the standard default setting parameter =, all parameters can be returned to the those factory default settings. ⇒ For more details on the standard default setting parameter , see section 5.5.
Notes on operation. E6581381 5.
Basic parameters Before you operate the inverter, the parameters that you must first program are the basic parameters. Setting acceleration/deceleration time :Automatic acceleration/deceleration :Acceleration time 1 :Deceleration time 1.
Function 1) For acceleration time 1 programs the time that it takes for the inverter output frequency to go from 0Hz to maximum frequency . E6581381 Parameter setting Title Function Adjustment range Default setting 0: Disabled (manual) Automatic acceleration/deceleration 1: Automatic 2: Automatic (only at acceleration) When automatically setting acceleration/deceleration time, always change the acceleration/deceleration time so that it conforms to the load. The acceleration/deceleration time changes constantly with load fluctuations. E6581381 Parameter setting Title Function Adjustment range Default setting According to model Acceleration time 1 0.0-3200 sec. (⇒ See page K-14) According to model Deceleration time 1 0.0-3200 sec. (⇒ See page K-14) Note: When the acceleration/deceleration time is set at 0.0 seconds, the inverter speed increases or reduces speed within 0.05 seconds. E6581381 Specifying an operation mode, using parameters : Parameter setting macro function.
Function Automatically programs all parameters (parameters described below) related to the functions by selecting the inverter's operating method. The major functions can be programmed simply. Parameter setting Title Function Adjustment range. E6581381 Coast stop (=) Setting for coast stopping. In sink logic mode, closing the circuit between the R and CC terminals places the inverter in standby mode and opening the circuit places it in coast stop mode, because ST (standby signal) is assigned to the R terminal.
E6581381 In the case of reverse operation, the 3 wires operation is also possible as well as forward operation by assigning 'R (reverse function)' to the 'RES' terminal. Output frequency Operation Forward run frequency Note 4: command When HD is OFF, any Operation attempt to turn on F or R is frequency. E6581381 Selection of operation mode Local mode and Remote mode Local mode: When Local mode selected by key, start and stop, and frequency setting are effective only by operation panel keys.
The local lamp is lit while Local mode selected. Remote mode: Start and stop, and frequency setting follow the selection of (Command mode),or (Frequency setting mode). E6581381 : Command mode selection : Frequency setting mode selection 1. Function Remote mode selection, these parameters are used to specify which input device (operation panel, terminal board, RS485 communication) takes priority in entering an operation stop command or a frequency setting command, VIA, VIB, operation panel, RS485 communication device, external contact up/down).
E6581381 Title Function Adjustment range Default setting 1: VIA 2: VIB Frequency setting mode selection 1 3: Operation panel 4: RS485 communication 5: UP/DOWN from external contact Programmed value A frequency command is set by means of a signal from an external input device : VIA input (VIA terminal: 0-10Vdc or 4-20mAdc). E6581381 Meter setting and adjustment : Meter selection : Meter adjustment. Function The signal output from the FM terminal is an analog voltage signal. For the meter, use either a full-scale 0-1mAdc ammeter or full-scale 0-7.5Vdc (or 10Vdc)-1mA voltmeter. Switching to 0-20mAdc (4-20mAdc) output current can be made by turning the FM (SW2) slide switch to the I position.
E6581381 Resolution All FM terminals have a maximum of 1/1000. Example of 4-20mA output adjustment ⇒ For details, see section 6.19.1. =1, =0 =1, =20 Output Output currrent currrent Internal calculated value Internal calculated value Note 1: When using the FM terminal for current output, be sure that the external load resistance is less than 750Ω. Note 2: Note that, if . E6581381 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 selection is set to Operation frequency) . E6581381 Standard default setting : Default setting. Function Allows setting of all parameters to the standard default setting, etc.
Note that , , , , , ∼ and will not be reset to their factory default settings. E6581381 Default setting ( = ) Setting to will return all parameters to the standard values that were programmed at the factory. ⇒ See section 4.2.7. When 3 is programmedRUN command Incrementing (UP) signal Decrementing (DOWN) signal Set frequency clearing signal Upper limit frequency Gradient / Gradient / Lower limit frequency Frequency 0 Hz The dotted line denotes the output frequency obtained by combining the slowdown speed and the panel frequency adjustment speed.
E6581381 If two signals are impressed simultaneously. If a clear single and an up or down signal are impressed simultaneously, priority will be given to the clear signal. If up and down signals are impressed simultaneously, The frequency will change at the specified up or down rate. E6581381 6.5.4 Fine adjustment of frequency setting signal : VIA input bias : VIA input gain : VIB input bias : VIB input gain. Function These parameters are used to fine adjust the relation between the frequency setting signal input through the analog input terminals VIA and VIB and the output frequency. E6581381 Operation frequency 6.6.1 Starting frequency : Starting frequency setting. Function The frequency set with is put out as soon as operation is started.
Use the parameter when a delay in response of starting torque according to the acceleration/deceleration time is probably affecting operation. E6581381 DC braking 6.7.1 DC braking : DC braking starting frequency : DC braking current : DC braking time. Function A large braking torque can be obtained by applying a direct current to the motor. These parameters set the direct current to be applied to the motor, the application time and the starting frequency. E6581381 Auto-stop in case of lower-limit frequency continuous operation 6.8.1 Auto-stop in case of lower-limit frequency continuous operation : Auto-stop in case of lower-limit frequency continuous operation : Hysteresis for LL stop operation : Restart deviation for LL stop operation .
E6581381 Output frequency Hz + f391 Time s Operation signal (F or R) Note: This function is enabled even at the start of operation and during switching between forward and reverse run. PID command value PID deflection Feedback value f392 = 0 is necessary. E6581381 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 resonant frequency during operation. E6581381 6.10 Bumpless operation : Bumpless operation selection. Function When switching from Remote mode to Local mode using key, the status of start and stop, and operating frequency at Remote mode are moved to Local mode.
By contraries, when switching from Local mode to Remote mode, they are not moved to Remote mode. E6581381 6.11 PWM carrier frequency : PWM carrier frequency : Random mode : Carrier frequency control mode selection. Function 1) The parameter allows the tone of the magnetic noise from the motor to be changed by switching the PWM carrier frequency. E6581381 Reduction of rated current.
Comments are closed.
|
Details
AuthorWrite something about yourself. No need to be fancy, just an overview. ArchivesCategories |