HITACHI INVERTER J300 SERIES INSTRUCTION MANUAL Three phase input 200/400V class J300 U : USA version After reading this manual, keep it at hand for future reference. Hitachi, Ltd.
SAFETY For the Best Results with J300 Series inverter, read this manual and all of the warning sign attached to the inverter carefully before installing and operating it, and follow the instructions exactly. Keep this manual handy for your quick reference. Definitions and Symbols A safety instruction (message) is given with a hazard alert symbol and a signal word; WARNING or CAUTION. Each signal word has the following meaning throughout this manual. This symbol means hazardous high voltage.
PRECAUTIONS WARNING: This equipment should be installed, adjusted and serviced by qualified electrical maintenance personal familiar with the construction and operation of the equipment and the hazards involved. Failure to observe this precaution could result in bodily injury. WARNING : The user is responsible for ensuring that all driven machinery, drive train mechanism not supplied by Hitachi, Ltd.
NOTE : POLLUTION DEGREE 2 The inverter must be used in environment of the degree 2. Typical constructions that reduce the possibility of conductive pollution are; 1) The use of an un-ventilated enclosure 2) The use of a filtered ventilated enclosure when the ventilation is fan forced that is, ventilation is accomplished by one or more blowers within the enclosure that provide a positive intake and exhaust.
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TABLE OF CONTENTS Page 1. SAFETY PRECAUTIONS .......................................................................................... 1-1 2. INSPECTION UPON UNPACKING ........................................................................ 2-1 3. APPEARANCE AND NAMES OF PARTS ............................................................. 3-1 4. INSTALLATION .......................................................................................................... 4-1 5. WIRING ................
1. SAFETY PRECAUTIONS 1. Installation CAUTION * * * * * * * * 2. Be sure to install the unit on flame resistant material such as metal. ............ Otherwise, there is a danger of fire. Be sure not to place anything inflammable in the vicinity. ........... Otherwise, there is a danger of fire. Be sure not to let the foreign matter enter such as cut wire refuse, spatter ........... from welding, iron refuse, wire, dust, etc. Otherwise, there is a danger of fire.
CAUTION * * * Make sure that the input voltage is: Three phase 200 to 220 V/50 Hz, 200 to 230 V/60 Hz Three phase 380 to 415 V/50 Hz, 400 to 460 V/60 Hz Be sure not to input a single phase to a 3 phase type. Otherwise, there is a danger of fire. Be sure not to connect AC power supply to the output terminals [U (T1), V (T2), W (T3)]. Otherwise, there is a danger of injury and/or fire. INPUT OUTPUT (L1) (L2) (L3) R S T (T1) (T2) (T3) U V W ............ p. 5-2 ............ p. 5-2 ............ p.
CAUTION External or remote over load protection required, if multiple motors to be connected. ............ p. 5-4 For models J300-450LFU and -550LFU only , connect to branch circuit protected at maximum 300% of output current rating. Suitable for use on a circuit capable of delivering not more than 10,000 rms symmetrical amperes,*** volts maximum, (where *** = input voltage) Alarm connection may contain harzordous live voltage even when inverter is disconnected.
3. Control and operation WARNING * * * * * * * * * Be sure to turn on the input power supply after mounting the surface cover. While being energized, be sure not to remove the cover. Otherwise, there is a danger of electric shock. Be sure not to operate the switches with wet hands. Otherwise, there is a danger of electric shock. While the inverter is energized, be sure not to touch the inverter terminals even during stoppage. Otherwise, there is a danger of electric shock.
CAUTION * * * * 4. Radiating fin and discharging resistor will have high temperature. Be sure not to touch them. Otherwise, there is a danger of getting burned. Low to high speed operation of the inverter can be easily set. Be sure to operate it after checking the tolerance of the motor and machine. Otherwise, there is a danger of injury.
CAUTION * 5. ........... p. 10-1 When removing connectors, never pull the wires. (Wires for cooling fan and thermal relay) Otherwise, there is a danger of fire due to wire breakage and/or injury. Appendix WARNING * * ........... p. A-15 When the inverter stops due to a trip with retry mode selected, the motor restarts suddenly. Stand clear of the machine. Otherwise, you may be injured. (Design the machine in such a way that persons are protected against a restart of the machine.
Others WARNING * Never modify the unit. Otherwise, there is a danger of electric shock and/or injury. CAUTION * Withstand voltage tests and insulation resistance tests (megger tests) are executed before the units are shipped, so that there is no need to conduct these tests before operation. When conducting megger tests as a part of daily inspection, be sure that these tests are only executed between the main circuit and the ground. Do not execute megger tests on the control circuit.
CAUTION * Do not insert leading power factor capacitors or surge absorbers between the output terminals of the inverter and the motor. Earth leakage breaker Power supply Surge absorber (L1) (L2) (L3) R, S, T, INV (T1) (T2) (T3) U, V, W, Motor Leading power factor capacitor * * Be sure to ground the grounding terminal, . When inspecting the unit, after turning the power supply off be sure to wait unitl the CHARGE lamp beside the control terminal is off before opening the cover.
CAUTION Inverter L1(L1) U (T1) U L2(L2) V (T2) V L3(L3) W (T3) W Power source Motor Terminal for grounding EMI filter Noise Motor ➤ R2 S2 T2 Inverter ➤ Power source R1 S1 T1 Ground the frame. ➤ Remote operator EMI filter Noise Piping (to be grounded) or shielded wire Completely ground the shield made of metal screen, enclosed panel, etc. with as short a wire as possible.
2. INSPECTION UPON UNPACKING Before installation and wiring, be sure to check the following: • Make sure that there was no damage during transportation the unit. • After unpacking the unit, make sure that the package contains one inverter and one operation manual • Make sure that the product is the one you ordered by checking the specifications label on the front of the cover.
3. APPEARANCE AND NAMES OF PARTS 3.
4. INSTALLATION CAUTION * * * * * * * Be sure to install the unit on flame resistant material such as metal. Otherwise, there is a danger of fire. Be sure not to place anything inflammable in the vicinity. Otherwise, there is a danger of fire. Be sure not to let the foreign matter enter such as cut wire refuse, spatter from welding, iron refuse, wire, dust, etc. Otherwise, there is a danger of fire.
➤ For cooling purposes, be sure that the inverter is installed vertically. In addition, be sure that it is separated from other components and walls. If foreign matter is introduced into the interior of the inverter, this may cause malfunctions, so make sure that no foreign matter can enter it. Flow of air ➤ ➤ 10 cm or more (30cm or more) 5 cm 5 cm ➤ or ➤ ➤ or Wall ➤ ➤ more ➤ ➤ more 10 cm or more (30cm or more) (a) (b) NOTE: Install the inverter vertically.
Precaution for installation and wiring ➤ When executing the wiring work or another work, attach a cover on the vent hole (slit) on the top of the inverter to prevent wire chips, weld spatters, iron scraps, or dust from falling into the inverter.
5. WIRING WARNING * Be sure to ground the unit. Otherwise, there is a danger of electric shock and/or fire. * Wiring work shall be carried out by electrical experts. Otherwise, there is a danger of electric shock and/or fire. * Implement wiring after checking that the power supply is off. It might incur electric shock and/or fire. * After installing the main body, carry out wiring. Otherwise, there is a danger of electric shock and/or injury.
CAUTION * Make sure that the input voltage is: Three phase 200 to 220 V/50 Hz, 200 to 230 V/60 Hz Three phase 380 to 415 V/50 Hz, 400 to 460 V/60 Hz * Be sure not to input a single phase to a 3 phase type. Otherwise, there is a danger of fire. * Be sure not to connect AC power supply to the output terminals [U (T1), V (T2), W (T3)]. Otherwise, there is a danger of injury and/or fire.
The terminal board will be exposed when the front cover or terminal cover (450L/HF, 550L/HF) is removed. Wire the inverter in this state. 5.1 Wiring the Power Supply and Motor G (PE) R (L1) S (L2) T (L3) RB (RB) P (+) N (-) U (T1) V (T2) W G (T3) (PE) MOTOR Dynamic braking resistor Braking Units ELB Power supply • The inverter will be damaged if the power supply is connected to the motor terminals U(T1), V(T2) and W(T3), so be sure not to make any mistakes.
NOTE 3: Be sure that the specified grounding is carried out. Be sure to separate the unit’s grounding pole from those of other heavy electric machinery, and avoid using common grounding poles. If multiple inverters are used, make sure that the grounding connections do not create a loop. Improper grounding Proper grounding Inverter Inverter Inverter Inverter Inverter Inverter Grounding bolt (at the site) CAUTION External or remote over load protection required, if multiple motors to be connected.
5.
Insulate ➤ ➤ ➤ No grounding necessary Connect FG (frame ground) of the inverter. ➤ NOTE 3: When the frequency setting signal is turned on and off with a contact, use a relay which will not cause contact malfunctions, even with the extremely weak currents and voltages, such as crossbar twin contacts, etc. NOTE 4: Use relays which do not have contact defects at 24 V DC, 3 mA for the other terminals. NOTE 5: Separate the main circuit wiring from the relay control circuit wiring.
5.3 Connection to the Programmable Controller (1) When the internal interface power source is used ① This is an example when the sink type transistor output (open collector output) module of the sequencer is connected Note: Make sure of the short-circuit bar or wire between the terminals PLC and P24.
5.4 Wiring Equipment, Options (EMI filter, etc.) Standard equipment (200V class) Applicable equipment Wiring (AWG or Kcmil) Constant torqe Inverter model Power supply Variable torqe Motor Power Motor Power output lines output lines (kW) R,S,T,U,V (kW) R,S,T,U,V RB1,2,3, W,P,N ➤ ➤ ELB Magnetic contactor ➤ Power Signal Signal Earth leakage Electrolines lines lines breaker (ELB) magnetic External FM,CM1,PCL P24,AL0,AL1 contactor resistor FW,8,7,6,5,4,3 AL2 J300-055LF 5.5 J300-075LF 7.
Part description ➤ ➤ ➤ R S T (L1) (L2) (L3) (+) P Function AC reactor for improving the power factor (ALIL) (ALIH) This part is used when the unbalance voltage ratio is 3% or more and power supply is 500 kVA or more, and there is a rapid change in the power supply. It also improves the power factor. Radio noise filter (Zero phase reactor) (ZCL-A) Using the inverter may cause noise on the peripheral equipment through the power lines. This part reduces noise.
Terminal ➤ 5.5 ➤ Width (1) Main circuit terminal Terminal layout R G (PE) (L1) S (L2) RB T (L3) (RB) P (+) N (Ð) U (T1) V (T1) W (T1) R G (PE) (L1) S (L2) T (L3) N (Ð) U (T1) V (T1) W (T1) G (PE) G (PE) G (PE) R (L1) R (L1) S (L2) T (L3) S (L2) T (L3) P (+) ,,,, ,,,, PD (+1) P (+) ,,,, ,,,, PD (+1) P (+) Screw Width diameter (mm) Type G (PE) M5 13 M6 17.5 M8 M10 23 35 220 to 370HF M6 17.
Control circuit Terminal symbol Input monitor signal Frequency command input Output signal Standard setting of intelligent terminal Terminal description and function FM Frequency monitor CM1 Common for monitor PLC Common terminal for the external power source of the sequencer (PLC) Remarks Dry contact Close: ON (run) Open: OFF (stop) Min.
5.6 Control Circuit Terminals Terminal symbol FM Terminal name Monitor terminal CM1 PLC P24 Common terminal 1 Internalinterfacecommon Inputsignalpowersource FW Forwardrun/stopterminal REV 1 to 8 CF3 (NOTE 1) JG DB STN SET CH1 FRS EXT USP Forward Reverse Reverse run/stop CF1 CF2 Description Analog: Output frequency, current, torque Digital: Output frequency x frequency converted value (Set in the remote operator monitor mode), max. pulse: 3.
Terminal symbol Terminal name H Frequency command power terminal O Frequency command terminal (voltage command) Frequency command terminal (current command) Frequency command common terminal OI L Description • Initialization of a voltage signal by an external command is between 0 and 10 VDC. (Switching from 0 to 5V is executed by A48.) When inputting 4 - 20 mA, turn the input terminal at ON.
5.7 Terminal Connection Diagram Mg Power supply AX BSS EF AX BSS Mg Inverter ELB Mg Three phase power supply R (L1) (T1) U S (L2) (T2) V (T3) W T (L3) Motor 24 VDC P24 PLC FW (+) P ➤ P AL1 RB AL1 8 RB 7 ➤ .. .. . P24 AL0 AL1 1 FM AL2 ➤ CM1 10 VDC ➤ Current input ➤ 4 to 2\0 mA ➤ 2 ➤ Frequency setter 500Ω to 2 kΩ Fault alarm signal (Normal: AL0-AL1 ON) 11 RY 12 RY ➤ H 3 Dynamic braking resistor 055, 075LF: RB1,RB2 or RB3 055, 075HF: RB2, two each in series.
6. OPERATION 6.1 Before Starting Operation Prior to the test run, check the following. WARNING * * * * * * * * Be sure to turn on the input power supply after mounting the surface cover. While being energized, be sure not to remove the cover. Otherwise, there is a danger of electric shock. Be sure not to operate the switches with wet hands. Otherwise, there is a danger of electric shock. While the inverter is energized, be sure not to touch the inverter terminals even during stoppage.
CAUTION Radiating fin and discharging resistor will have high temperature. Be sure not to touch them. Otherwise, there is a danger of getting burned. Low to high speed operation of the inverter can be easily set. Be sure to operate it after checking the tolerance of the motor and machine. Otherwise, there is a danger of injury.
6.2 Test Run CAUTION Check the following before and during the test run. Otherwise, there is a danger of machine breakage. • • • • Was the direction of the motor correct? Was the inverter tripped during acceleration or deceleration? Were the SPEED (rpm) and frequency meter correct? Were there any abnormal motor vibrations or noise? When overcurrent tripping or overvoltage tripping occurs during the test run, increase the acceleration time or deceleration time.
Operating with digital operator: Runnign from external command: Procedure (1) Turn on ELB to supply power to the inverter. Make sure that the POWER LED on the digital operator turns ON. (2) Press the (3) Press 2 FUNC key once to display . of the digital operator four times to display (4) Press the FUNC key and then press the 2 (4) Press the key to set . Press the FUNC key to establish the data. (5) Press the 1 key four times to display .
• The failure alarm signal is generated from the terminal AL0 and AL1 when a failure happens. At this time the contents of the failure are displayed on the digital operator. • Whether the alarm terminal output is to be turned on or off during normal run can be . selected by the extension function The alarm output terminals at initial setting are as follows (1).
Resetting (Any one of A, B and C is possible) CM1 PLC P24 A) Turn control terminal 1 on. (In the initialization at factory before shipment, intelligent input terminal 1 is allocated to the reset RS terminal.) 1 B) Press When the internal interface power source P24-CM1 is used (Source type wiring) CM1 PLC P24 STOP/RESET on the digital operator. (This is effective only when an alarm occurs.
7. OPERATION OF THE DIGITAL OPERATOR The standard type digital operator is modified so as to be used easily by minimizing key operations. Data can be set simply. 7.1 Names of Parts POWER Lamp Monitor (LED display) Power lamp of control circuit This display shows frequency, motor current, motor revolution speed, and Trip history FUNC. FUNC (Function) key Up key, Down key This key is used for changing commands. When pressing key after setting data and parameter, they are automatically memorized.
7.3 Key Description 2 1 Data display The key are used to select the code and change the data. When Code display the UP/DOWN key first and then 1 key is pressed once, the monitor mode , , , •••• are one by one. If the key is pressed once again when returned to . FUNC 1 is displayed, the display is If an optional code is selected when FUNC is displayed is displayed and the key is pressed, the extension function mode can be selected. [Function key] . . .
Explanation of Screen Display • When the inverter is turned on, the latest display appears. However, when the display unit for data of the commands F2 to F14 is turned off, the commands (F2 to F14) are displayed. (d10 and d11 excluded) • Data during running in any function mode or extension function mode can be displayed. Even if data cannot be changed during running, data can be monitored. • In each of the function modes , , , , and , data can be changed even during running.
7.
7.6 Digital Operator Initialization List (1) Monitor mode, function mode • The standard set value of each code number is displayed. • The extension functions shown on page 7-6 can be set by the function setting function. extension Screen display Display order Function name 1 Output frequency monitor 2 Type Initial value Settable Set for 2nd function value Code display Settable during running Monitor/set value Monitor d0 — 0.00-9.99/10.0-99.
(2) Extension function mode • Each function name and settable range to the extension function mode are shown below. • Set the extension function code to be changed by .
7.7 Explanation of Modes (1) Monitor mode contents Monitor mode contents Contents and display The frequency outputted by the inverter is monitored. The display is as shown below. Display when stopped . Output frequency monitor (1) to . A frequency between 0.01 Hz and 9.99 Hz is displayed in units of 0.01 Hz. . FUNC ➤ (2) . to A frequency between 10.0 Hz 99.9 Hz is displayed in units of 0.1 Hz. . ➤ FUNC (3) A frequency between 100 Hz and 400 Hz is displayed in units of 1 Hz.
Monitor mode contents Contents and display The product of the value of frequency converted value setting (A47) and that of output frequency (d0) is displayed on the monitor. FUNC (1) to . ➤ 0.0 to 9.99 . ➤ Frequency converted value monitor (2) to . FUNC (3) . 10.00 to 99.99 . to . 100.00 to 999.99 (4) to 1000.00 to 9999.99 (5) to 10000.00 to 39960.00 When a trip occurs, the cause of the trip is displayed in this code.
(2) Function mode Monitor mode contents Contents and display Methods for setting the output frequency are as follows: 1. Digital operator Refer to this setting. 2. Control circuit terminal Refer to this setting. (multistage speed command) 3. External analog input Refer to page 6-2. Output (0 to 10 V, 0 to 5 V, 4 to 20 mA) frequency 4. Remote operator Refer to the explanation of each remote operator. setting (new type, general purpose) 5. Optional PCB Refer to each optional PCB operation.
Monitor mode contents Contents and display Set the motor direction. Set the motor direction when running by pressing the RUN key. NOTE: The setting during run is impossible. FUNC Initial set value ➤ ➤ Running direction Forward run FUNC Reverse run 7-10 Switching can be done by pressing the 1 2 key.
Monitor mode contents Contents and display These commands set and display Acc. time ( ) and Dec. time ( ). ➤ Acceleration time 1 and 2 Deceleration time 1 and 2 1 ➤ 1 FUNC Initial value ➤ Setting range FUNC 0.01 to 9.99s 10.0 to 99.9s 100 to 999s ➤ . ➤ Period Every 0.01s Every 0.1s Every 1s 2 ➤ 2 . • Acceleration time 2 and deceleration time 2 are set when CH1 is connected with P24.
Monitor mode contents Contents and display Switching the run command and frequency command setting modes Set the run command and frequency command sending destinations. The standard specification selection range is from 00 to 03.
Monitor mode contents Adjust the analog meter connected to the frequency monitor terminal. (Initial setting of the [FM] terminal: Analog frequency monitor) When operation starts, t/T output between FM and CM1 terminals is proportional to the output data. Adjust the meter so that it indicates the maximum point when the output is at the maximum.
Returning to the initialization (State set at factory before shipment) When returning the equipment to the initial state set at factory before shipment for some reason, follow the following procedure. 1) Allocate STN (set value ) to one of the input intelligent terminals. (Use in the extension function mode to set the intelligent terminals.) (However, to cannot be used since resetting RS is initially set.) 2) Short-circuit the STN terminal and P24 (CM1*), then turn power off and on.
(3) Extension function mode contents Extension function code Contents and display Set the control method. Select one of the following control codes. FUNC V V/f control (VC) Constant torque characteristics ➤ ➤ Control method setting Initial value ➤ FUNC 2 1 ➤ 1 V/f control (VP2) Reduced torque characteristics, 1.7 power NOTE : set torque boost in 70 to 90 1 V/f control (VP3) Reduced torque characteristics, 2.
Extension function code Contents and display Set the response speed (ASR system gain) between the inverter and motor. When increasing or decreasing the current motor response speed, adjust the ASR system gain. When the set value is decreased, the response speed is increased. When the set value is increased, the response speed is decreased. 1 . ➤ ➤ A constant between 0.01 and 9.99 is set in units of 0.01. . 2 FUNC Initial value ➤ 1 . . ➤ ➤ Speed control response constant setting .
Extension function code Contents and display Set the limits of frequency setting within the start frequency adjustment range and maximum frequency setting range. When a value beyond the limits is inputted from the operator, it will not be stored. Even if a value beyond the limits is inputted as external analog input, the set value will not be changed. Maximum frequency limiter ,, ,, Setting example (When an upper limit of 45 Hz and a lower limit of 20 Hz are set) ➤ 2 1 ➤ FUNC ➤ .
Extension function code Contents and display Set the switching frequency of the power module. FUNC FUNC . ➤ initial value VT CT model type ➤ 055 to 150 L/HF 16 kHz 8 kHz 220 L/HF 12 kHz 6 kHz 300 to 370 L/HF 10 kHz 5 kHz 450 to 550 L/HF 6 kHz 3 kHz 750 to 1100HF 3 kHz 2 kHz 1320 to 2200HF 2 kHz 2 kHz ➤ Carrier frequency setting Carrier frequency initial value (NOTE 1) Initial value 2 ➤ 1 . NOTE 1: The initial value of carrier frequency varies with the inverter capacity.
Extension function code Contents and display Set the electronic thermal level. Set the thermal level in accordance with the rated current of the motor in units of 1 (%). Time(s) ➤ 2 100 20% 120% ➤ 1 Initial value FUNC ➤ ➤ Electronic thermal Setting method level adjustment FUNC Motor rated current Inverter rated current ➤ Adjustment level = ➤ Inverter rated current 20 ➤ 100 150 200 Inverter current (A) ➤ ➤ 2 1 ➤ 0 Select the electronic thermal characteristics.
Extension function code , ,, ,, , Contents and display . ➤ Setting method 2 External frequency setting start ➤ ➤ External Frequency setting end 1 ➤ FUNC (400) FUNC External frequency setting end Output frequency (Hz) Initial value External frequency setting start ➤ Set the frequency for starting output for an external frequency command (0 to 10 V, 0 to 5 V, 4 to 20 mA) and the frequency for ending output. When 0 Hz is set, this function will be canceled.
Extension function code Contents and display Set the usage ratio (%) for 100 seconds of BRD. When the BRD operation exceeds this setting, the operation will be stopped. NOTE 2: When 0 % is set, the BRD will not be operated. ➤ Setting method 2 1 NOTE 3: When T exceeds the set value, the BRD will be stopped. ➤ Dynamic braking usage ratio NOTE 1: The internal BRD circuit is not mounted in an inverter other than the types 055L/HF, and 075L/HF. FUNC Initial value FUNC .
Extension function code Contents and display Select the output monitors signal at the control circuit terminal FM from the table indicated below.
Extension function code Contents and display When selecting the frequency arrival signal at the output terminal, select the arrival signal output method. ➤ ➤ 0 Arrival signal Output frequency (Hz) ➤ ➤ ➤ ➤ ON 60 ms Time ➤ 1.5Hz ➤ ➤ ➤ setting ➤ 0.5Hz 0 ON ON ➤ ➤ Arrival signal 60 ms ➤ ➤ 2 1.5Hz ➤ and setting ➤ 1 0.5Hz ➤ Select an operation after a free run stop. ➤ Time 60 ms : Only optionally set frequency keys.
Extension function code Contents and display Adjust reduced voltage start. FUNC Initial value ➤ ➤ 2 : There is no reduced voltage. The rush current at the start of the inverter is increased but the motor reaction time is decreased. ¥ ¥ ¥ ¥ ➤ Reduced voltage soft start setting NOTE: How to set FUNC 1 ➤ : The effect of the reduced voltage is large. The rush current is reduced but the motor reaction time is increased. Select the running mode. Set the running mode to be used.
Extension function code Contents and display Set the base frequency and maximum frequency.
Extension function code Contents and display , , , , Possible to select a performance of a release timing of alarm signal when giving reset signal from [RS] terminal Set value FUNC ➤ ➤ ➤ 2 ➤ 1 These functions are used to set PID control operation gains.
Extension function code Contents and display This function is used to select a method to enter the target value for executing each PID function. Set value Setting method 0 The target value depends ➤ 2 FUNC on the 1 FUNC ➤ Target value setting method selection Performance ➤ 1 level set value. The target value is set using ➤ the Initial value frequency setting method. NOTE 1: Set "1" when a PID optional board (J-PI) is used.
Extension function code Contents and display Unusable Ro-Toption selection 7-28
Extension function code to Input terminal setting 1 to 8 Contents and display A terminal function is allocated to each of the input intelligent terminals 1 to 8. When using a function other than the standard set functions or changing the terminal order, set the function for each terminal. The minimum input signal acceptance time of the input intelligent terminals is about 20 ms.
Extension function code Contents and display A terminal function is allocated to each of the output intelligent terminals 11 and 12. When using a function other than the standard set functions or changing the terminal order, set the function for each terminal.
Extension function code Contents and display The input intelligent terminals 4 to 1 can be changed individually to the a contact or b contact specification. Select the set value by pressing the keys 1 and 2 by combining the contacts a and b with reference to the table indicated below. Example: When the set value is A: Input terminal a and b contact setting Contact a: Input terminals 3, 1 Contact b: Input terminals 4, 2 Setting method FUNC FUNC Press the 1 key 10 times.
8. PROTECTION FUNCTIONS The J300 series inverters are equipped with protection functions against overcurrent, overvoltage, and undervoltage which protect the inverter. If the protection functions are engaged, the output is shut down, motor runs free and holds that condition until it is reset. Description Over current protection Display Contents A currrent due to the alternating current CT between the power module and output terminal {U(T1), V(T2), W(T3)} is detected.
Description Display Contents Option 1 Optional connection error An error occurs in the optional connection (connector, etc.). Optional PCB error An error message outputted from the optional PCB Phase failure protection error When a phase failure is detected on the receiving side {R(L1), S(L2), T(L3)} of the inverter, the output is cut off. (NOTE 3) Power module protection The detector which is built in the power module operates.
9. TROUBLESHOOTING 9.1 Error Messages and Diagnosis When the inverter goes wrong, it operates as indicated below. Find the cause and take contermeasures. Error Messages and Diagnosis Symptom (OC. Drive) E02 (OC. Decel) E03 (OC.
Symptom E06 (OL. BRD) E07 (Over. V) How to reset (THRY) (display on the LCD of the remote operator) Failure alarm relay Thermal relay (MCB) Electromagnetic contactor (Mg) Circuit breaker Display on the digital operator Cause Check Countermeasure A Check the braking resistor use ratio set in A 38 . • Set a longer deceleration time. • Set a larger operation duty cycle. • Set A 38 to 0.0 . A Check whether the speed was decreased rapidly. Set a longer deceleration time.
Symptom E14 (GND. Flt) E15 (OV. SRC) E16 (Inst. P-F) How to reset (THRY) (display on the LCD of the remote operator) Failure alarm relay Thermal relay (MCB) Electromagnetic contactor (Mg) Circuit breaker Display on the digital operator Cause Check Countermeasure (explanation of message) ● Ground fault on the A Check the wiring between the Correct the portions having inverter and motor and also a ground fault. check the motor for a ground fault. (Use a megger.
Symptom E33 (PM. Accel) E34 (PM. ERR) E60 (OP1 0) to How to reset (THRY) (display on the LCD of the remote operator) Failure alarm relay Thermal relay (MCB) Electromagnetic contactor (Mg) Circuit breaker Display on the digital operator Cause Check Countermeasure (explanation of message) ● (NOTE 1) A Failure detected by a detector in the power module during motor acceleration, or excessive temperature rise in the inverter ● (NOTE 1) Check whether a load was changed rapidly.
Symptom — — ● — — — — How to reset (THRY) ● (display on the LCD of the remote operator) Failure alarm relay Thermal relay (MCB) Electromagnetic contactor (Mg) Circuit breaker ● Display on the digital operator Cause Check Countermeasure (explanation of message) — C — B Power outage B 9-5 Check for an overload. Lower the load ratio. Check whether the thermal relay is set to an appropriate value. Set the thermal relay to an appropriate value.
9.2 Trouble shooting Symptom The motor will not run. Probable cause Countermeasure The inverter • Is power being supplied to terminals • Check terminals R(L1), S(L2), T(L3), U(T1), outputs R(L1), S(L2) and T(L3)? V(T2), and W(T3). U(T1), V(T2) If it is, the POWER lamp should be on. • Turn on the power supply. and W(T3) are not • Press 2 1 and check the content. • Is the display E * * ? supplying Then press the reset key. voltage.
Symptom The rpm of the motor will not increase. Probable cause Countermeasure After checking the wiring of the frequency setter, the rpm still does not increase when the setter is turned. Replace the frequency setter. Are terminals 7 and CM1, terminal 6 and CM1 ON (Sink type)? Turn off terminal 7 and 6. (When the frequency and multistage speed are fixed at a given frequency, the speed potentiometer will be invalid.) Is the load too great? Decrease the load.
Symptom Probable cause Countermeasure Overload (Electronic thermal trip) (Low frequency zone) Is the torque boost too high ? Do the electronic thermal characteristics match the set characteristics of the motor ? Decrease the torque boost. Reset the electronic thermal characteristics and level. The input voltage trips. Is the input voltage high ? Is the equipment stopped with the inverter DC voltage increased after sudden deceleration ? Lower the input voltage.
10. MAINTENANCE AND INSPECTION 10.1 Maintenance and Inspection Precautions WARNING * Be sure to turn off the power supply during maintenance and inspection. * After the power supply has been turned off, you must always wait 10 minutes so that DC bus capacitors can discharge then start maintenance and inspection after the CHARGE lamp on the printed-circuit board has gone out. (Immediately after the lamp has gone out, there will be a residual voltage of about 50 V DC in the DC bus intermediate circuit.
Conduct these tests by short-circuiting the terminals as shown below, and by following the conditions described. • In regard to insulation resistance tests, measure the terminals below and the grounding at 500 VDC, and make sure that 5 Megohms or greater is indicated. • Do not perform the withstand voltage test.
Daily Inspection and Periodic Inspection (1/3) Inspection location Overall Inspection cycle Inspection item Inspection content Inspection method Criteria Daily Periodic Ambient environment Check ambient temperature, humidity, dust, corrosive gases, oil mist, etc. Ambient temperature between -10 to +50˚C; no icing. Standard replacement period __ Instruments Thermometer Ambient humidity 20 to 90%; no dew condensation. Check for abnormal vibrations and noise. Visual and aural inspection.
Daily Inspection and Periodic Inspection (2/3) Inspection location Main circuit Inspection cycle Inspection item Inspection content Inspection method Criteria Regularly Periodic Standard replacement period Instruments ___ ___ Visual inspection of No abnormalities in (1) and (1) and (2). (2). 5 years (Note 1) ___ Terminal board No damage. Visual inspection Smoothing capacitor (1) Check for leaking No abnormalities.
Daily Inspection and Periodic Inspection (3/3) Inspection location Control circuit 10-5 Display Inspection item Inspection content Inspection cycle Standard replacement period Instruments __ ___ ___ ___ Inspection method Criteria (1) Check the balance of the output voltage of individual phases when operating the inverter independently. (1) Measure the voltage between the phases of inverter output terminals U, V, and W. (1) Within 2% voltage difference between phases.
10.3 Measurement Method for I/O Voltage, Current, and Power General measuring instruments for I/O voltage, current, and power are indicated below. The voltage to be measured is the fundamental wave effective voltage and the power to be measured is the total effective value.
Measurement method for output voltage (L1) (L2) (L3) R S T U V W (T1) (T2) (T3) Motor ➤ Diode 600 V 0.1 A min. (200 V class) 1000 V 0.1 A min. (400 V class) 220 kΩ 2W Fundamental wave effective value: VAC=1.
11. STANDARD SPECIFICATIONS 11.
Item Input voltage Model Name (Type) Description 400 V class 200 V class 055 075 110 150 220 300 370 450 550 LF LF LF LF LF LF LF LF LF 055 075 110 150 220 300 370 450 550 750 900 1100 1320 1600 2200 HF HF HF HF HF HF HF HF HF HF HF HF HF HF HF Fault alarm contact (AL0-AL1) OFF when an inverter alarm occurs Other characteristics AVR function, data batch setting, V/F characteristic switching, curve acceleration and deceleration, upper and lower limiters, 8-stage speed, start frequency fine adjustment,
11.2 Individual Specification (USA version (J300- LFU, HFU)) Item Description Input voltage 200 V class 400 V class Model Name (Type) 055 075 110 150 220 300 370 450 550 LF LF LF LF LF LF LF LF LF Applicable motor rating (4P, max. kW/HP) (NOTE 1) Constant torque 5.5/ 7.5/ 11/ 15/ 22/ 7.5 10 15 20 30 Variable torque (NOTE 2) 7.5/ 11/ 15/ 10 15 20 055 075 110 150 220 300 370 450 550 750 900 1100 1320 1600 2200 HF HF HF HF HF HF HF HF HF HF HF HF HF HF HF 55/ 5.5/ 7.
12. FUNCTIONS WHEN USING THE OPTIONAL REMOTE OPERATOR 12.1 Connecting the remote operator Be sure to turn the power supply off when connecting the connector. High performance remote operator (HOP) High performance copy unit (HRW) Digital operator Remote operator (DOP) Copy unit (DRW) (1) Insert the connector straight into the remote operator and inverter unit printed-circuit board. (2) Turn on the power supply. (3) Make sure that the liquid crystal display of the remote operator is lit.
NOTE: See the operation manual of the remote operator for instructions. In addition, see the following pages for details on its various functions. Set the dip-switches mounted on the backside of the remote operator and copy unit as below. ON When turned ON, read out is inhibited. OFF If pushing down READ key with ON, 1 2 3 4 BPS 1 2 3 4 "RD LOCK" is displayed. Invalid Set as below (When setting status do not match model, the correct function can not be attained.
12.2 Monitor mode Monitor mode list when the remote operator (DOP) and copy unit (DRW) are used • Monitor mode initial values and display contents Initial display contents, initialization, and change ranges are displayed in the table indicated below. Display sequence 1 Monitor name Frequency setting and output frequency Display content Jogging frequency setting 4 5 6 3 7 Remarks 0.0 Hz 1 0.0 2 0.0Hz 0.0 Hz (1) displays the setting. (2) displays the output.
Display sequence 11 12 13 14 15 Monitor name Manual torque boost frequency adjustment Output voltage gain adjustment Jogging frequency adjustment Analog meter adjustment Terminal input status monitor Display content 16 17 Monitor name Warning monitor 0 to 50.0 Y V-Gain 100% 100% 20 to 100 Y Jogging 1.00 Hz 1.0 Hz 0 to 9.99 Y 172 172 0 to 250 Y ADJ FW 7 5 3 1 8 6 4 2 Display content Trip cause, contents WARN # WARN F1w>Fs ERR1 # Trip monitor ERR1 OVER. V ERR1 31.
12.3 Function mode Function mode list when the remote operator is used • Function mode initial values and display contents Initial display contents, initialization, and change ranges are displayed in the table indicated below. (Function mode 1) Display Function Function sequence No.
(Function mode 1) Display Function Function sequence No.
(Function mode 1) Display Function Function sequence No. name 9 F-08 AcceleraAccelera- tion stop tion halt frequency setting Acceleration stop time setting 10 F-09 11 F-10 Running mode (Function mode 2) Initialization display contents Fsp F 0000.0 Hz Initialization Setting, change contents 0 Hz 0 to 400.0 • The frequency at which the acceleration operation is stopped temporarily is set. 0 to 60.
(Function mode 1) Display Function Function sequence No. name 13 F-20 DC braking DC selection injection braking DC braking type selection DC braking frequency selection DC braking force selection (at start) DC braking force selection (at stop) DC braking time selection (at start) DC braking time selection (at stop) DC braking output cutoff time (Function mode 2) Initialization display contents DCB SW OFF DCB KIND DCB F LVL 0000.
(Function mode 1) Display Function Function sequence No.
(Function mode 1) (Function mode 2) Display Function Function Initialization display sequence No. name contents 19 F-26 Frequency LIMIT L 0000.0 Hz Frequency lower limiter limiter setting Frequency LIMIT H 0000.0 Hz upper limiter setting 20 F-27 Jump JUMP F1 0000.
(Function mode 1) (Function mode 2) Display Function Function Initialization display sequence No.
(Function mode 1) Display Function Function sequence No.
(Function mode 1) Display Function Function sequence No.
(Function mode 1) Display Function Function sequence No.
(Function mode 1) Display Function Function sequence No.
12.4 Protection function display list when the remote operator is used There are protection functions for overcurrent, overvoltage, and undervoltage provided to protect the inverter. When one of the functions is performed, the output is cut off, and the motor is put into the free run state, and the status is kept until the inverter is forced to reset.
12.5 Warning Error List The following warning errors are displayed on the warning monitor in the monitor mode. Check the set value. When an attempt is made to set a value larger than the set range, the set value may be rewritten as shown below.
Dimensions Remote operator, copy unit Dimensional drawing (Unit: mm) 135 +0 -1 155 145 ➤ ➤ ➤ ➤ 10 2 - 45 ➤ 92 ➤ 135 145 145 135 ➤ ➤ ➤ ➤ ➤ ➤ ➤ ➤ ➤ ➤ ➤ 2 - M4 2 - M4 Mounting perforation diagram 11 ➤ ➤ ➤ ➤ ➤ ➤ ➤ 27 21 ➤ ➤ ➤ ➤ ➤ ➤➤ 82 16.5 J300 cable High performance remote operator (HOP-OJ) Copy unit (HRW-OJ) 9.6 14.
12.7 Copy Unit Function Operation example (Procedure to transfer the data of inverter A to B,C, and D inverters) Sequence 1 2 3 4 5 6 Operation Key Set data is read out from the inverter A (It is stored into the memory. Operation result READ Inverter A Turn off the power supply to inverter A and remove the cable. Connect the cable to inverter B and turn on the power. Copy data stored in the copy unit is written to inverter B. Cut off the power supply to inverter B.
12.8 Data to be copied by the copy unit Precautions for copying The copy units, DRW and HRW cannot copy some of parameters. For the details, see Appendix 7. Do not carry out data copy and transfer between different version (ex. J300-E1 J300-E4). Since settable range is different, data may not be transfered correctly or an error may be occurred.
13. SERVICE When inquiring about inverter trouble, please be ready to inform the distributor where you purchased your unit or the nearest service station the following . (1) Type (2) Purchased date (3) Production No. (MFG. No.) (4) Malfunction symptoms If the contents are unclear due to an old nameplate, give only the clear items. To reduce the nonoperation time, it is recommended to stock a spare inverter.
Appendix 1 Manual for New Functions 1. Autotuning [Outline of the function] This is a function for automatically setting the motor circuit constant necessary for the sensorless vector. When the autotuning function is performed by a motor which is designed according to JIS C 4210 and then the sensorless vector is controlled, even a motor (Hitachi general purpose motor) whose constant is unknown at an output frequency of 1 Hz can generate a torque of 150%.
Autotuning start [Setting method] (1) Digital operator FUNC A ➤ 97 ➤ FUNC 97 01 ➤ A 00 Display the A 9 7 software switch and set it to the data (01) for starting autotuning setting. When the equipment starts running after the data is set, the autotuning measurement is executed. (2) Remote operator F-05 AUX FUNC AUTO NOR ×2 ➤ AUX AUT AUTO STR MON ➤ FS0050.0 F-05 motor constant setting is displayed. Display the AUX AUTO screen and select AUT or NRT. ➤ Initial display AUX 0.
(3) New remote operator First hierarchy Select “3 Function” in the first hierarchy. 1 Command ×2 2 Initial SEL 3 Function 4 Option 1 ➤ Second hierarchy Select “1 Control” in the second hierarchy. Control 2 Acc/Dec SEL 3 Run 4 Braking ➤ Third hierarchy Select “2 Motor” in the third hierarchy. 1 V/f 2 Motor SEL 3 Carrier ➤ Fourth hierarchy 1 AUTO 0:NOR (0-2) 2 DATA 0:NOR (0-2) 1 STOR ➤ 1 AUTO 1:AUT (0-2) MON 2 DATA FS ➤ Monitor display 0:NOR (0-2) 50.00Hz 0.00Hz AC1 10.
Display when the autotuning terminates [Display in the normal state] • When the autotuning terminates normally, the following is displayed. When one of the keys is pressed, the original screen is displayed.
Running method by autotuning data When running the inverter using the autotuning data: 1. A-0 : The control method is set at SLV (sensorless vector control). 2. A-98 : The motor data is set on the autotuning side by the software switch. Make the above two settings. NOTE: When no torque is outputted during the sensorless vector run after the above settings are made, make the following settings. Increase the set value of R1 of each remote operator (motor constant) before starting running. [Setting method] 1.
(3) New remote operator First hierarchy Select “3 Function” in the first hierarchy. 1 Command ×2 2 Initial SEL 3 Function 4 Option ➤ Second hierarchy Select “1 Control” in the second hierarchy. 1 Control 2 Acc/Dec SEL 3 Run 4 Braking ➤ Third hierarchy Select “1 V/f” in the third hierarchy. 1 V/f 2 Motor SEL 3 Carrier ➤ Fourth hierarchy 5 A-Dec 1:ON (0-1) 6 MODE 4 STOR Change the content of “6 Mode” from 0:VC to 4:SLV in the fourth hierarchy. When the data is changed, press the STOR key.
[NOTES] *1: If the desired characteristic cannot be obtained in a sensorless vector control operation with auto tuning measured data, adjust the motor constant according to the detected symptom shown below. (DOP, DRW, HOP, and HRW functions of the remote operator are needed for this adjustment.
2. Energy conservation running [Outline of the function] This is a function for automatically setting the output voltage corresponding to the load during the V/F control running and suppressing useless power. The function is effective for a load of reduced torque characteristics such as a fan and pump. I Large load When the load of an induction motor is constant as shown in the drawing on the right, there is a voltage at which the current is minimized.
[Setting method] (1) Digital operator FUNC A ➤ 59 ➤ 59 0: Normal running 1: Energy conservation running 2: Fuzzy most suitable acceleration and deceleration running ➤ FUNC A 0 Select 1 by A 5 9 running mode selection. Running mode selection 1 When the running starts after the data is set, the energy conservation running is performed. (2) Remote operator F-10 RUN FUNC NOR MODE OEN RUN F-10 running mode selection is displayed. Display the RUN MODE screen and select “OEN”.
(3) New remote operator First hierarchy Select “3 Function” in the first hierarchy. 1 Command ×2 2 Initial SEL 3 Function 4 Option ➤ Second hierarchy Select “3 Run” in the second hierarchy. 1 Control ×2 2 Acc/Dec SEL 3 Run 4 Braking ➤ Third hierarchy Select “2 Pattern” in the third hierarchy. 1 Freg. 2 Pattern SEL 3 SPD ➤ Fourth hierarchy 1 MODE 0:NOR (0-2) 1 STR ➤ 1 MODE 2:OEN (0-2) MON FS ➤ Monitor display 50.00Hz 0.00Hz AC1 10.00s DC1 10.
3. Fuzzy most suitable acceleration and deceleration [Outline of the function] The fuzzy most suitable acceleration and deceleration function realizes acceleration and deceleration characteristics using the inverter capability at its maximum under fuzzy control to eliminate troublesome setting of the acceleration and deceleration time. The acceleration time is a time for acceleration at the current specified by the overload restriction constant.
[Principle] The acceleration and deceleration ratio or acceleration and deceleration are set in accordance with the fuzzy rule from the distance to the overload restriction level and the start slopes of current and voltage. ➤ Setting process ➤ Distance Restriction angle ➤ Current Overload restriction level The current grows.
[Setting method] (1) Digital operator FUNC A ➤ 59 ➤ 59 2 When the running starts after the data is set, the most suitable acceleration and deceleration running is performed. (2) Remote operator F-10 RUN RUN NOR MODE OEN GOD RUN F-10 running mode selection is displayed. Display the RUN MODE screen and select “GOD”.
(3) New remote operator First hierarchy Select “3 Function” in the first hierarchy. 1 Command ×2 2 Initial SEL 3 Function 4 Option ➤ Second hierarchy Select “3 Run” in the second hierarchy. 1 Control ×2 2 Acc/Dec SEL 3 Run 4 Braking ➤ Third hierarchy Select “2 Pattern” in the third hierarchy. 1 Freq. 2 Pattern SEL 3 SPD ➤ Fourth hierarchy 1 MODE 0:NOR (0-2) 2 STR ➤ 1 MODE 2:GOD (0-2) MON FS ➤ Monitor display 0.00Hz 0.00Hz AC1 10.00s DC1 10.
Appendix 2 Instantaneous Power Failure Restart and Commercial Power Source Switching 1. Instantaneous power failure restart [Function Outline] This function allows an inverter operation to be selected according to the subject system as follows when an instantaneous power failure occurs.
WARNING l If the retry mode is selected, do not approach the inverter unnecessarily. It will be restarted suddenly after it trips/stops. (Design the inverter so that the safety can be assured even in such a restart.) Otherwise, bodily injury will result. NOTE: Since the retry mode is selected, the equipment restarts for trips of overcurrent, overvoltage, or undervoltage. For undervoltage, 16 retries (17th trip) are executed. For overcurrent or overvoltage, 3 retries (fourth trip) are executed.
2. Commercial power source switching Remote operator (DOP) or copy unit (DRW) Digital operator Data set for commercial power source switching Set value Function code F 9 Extension function code C 3 Run command to Frequency command to 03 Terminal Terminal Function name Terminal rating plate Set value Input terminal setting 3 3 14 Set the terminal mode. Select the CS terminal.
Mg1 ELBC THRY Mg ELB R(L1) S(L2) T(L3) (T1)U (T2)V (T3)W IM Mg2 H O L FW RV CS CM1 ➤ FWY RVY CSY AL1 AL2 AL0 NOTE 1: When the ELB trips due to a ground-fault, the commercial power source circuit will not operate. Therefore, when a backup is necessary, take a commercial power source circuit from the ELBC. NOTE 2: Use weak current relays for FWY, RVY, and CSY. Separate AC relays from DC relays. The above sequence is a reference drawing for timing.
Appendix 3 Capacitor Life Curve Ambient temperature (˚C) 50 12 hours Operation/day 40 30 20 10 0 -10 1 2 3 4 5 6 7 8 9 10 Capacitor life (year) * The ambient temperature herein means the temperature around the inverter body. If the inverter is housed in a panel, the ambient temperature corresponds to the temperature in the panel. * Even when the ambient temperature is within the rating, the capacitor life is shortened if ventilation is impeded due to bad installation conditions or dust.
Appendix 4 Acceleration/Deceleration Curve Constants This function can vary the curvature when the acceleration curve pattern (or deceleration curve pattern) is selected to S curve, U curve or RU (reverse U) curve in the function mode (F-06). If the acceleration curve pattern or deceleration curve pattern is selected, the selected pattern applies to both acceleration and deceleration. The larger number causes a greater curvature. Curve pattern Acceleration Set freq. Set freq.
Operation conditions Phenomena Improvements 1 Trial running of motor only The motor runs unsmoothly, and the revolution fails to increase. The motor current pulsates. 2 Light load, low inertia load 3 Acceleration and deceleration of light load or low inertia load NOTE: The setting methods shown below apply to DOP and DRW operations. 1. When V/f control or sensor-less vector control is selected Function mode F-36 CARRIER 16.0 kHz ➝ 8.0 kHz Decrease the initial value. ➤ ➤ ➤ 0.1 sec. ➤ 12.
No. 4 Operation conditions Quickly varying load Phenomena Improvements NOTE: The setting methods shown below apply to DOP and DRW operations. Display, etc. When sensor-less vector control is selected Function mode Load ➤ ➤ t Revolution ➤ • F-04 CONTROL SLV • F-05 AUX DATA NOR a. AUX J ➤ The motor revolution varies when the load varies. 001.22 kgm2 ➝ 003.22 kgm2 Increase the initial value. b. AUX Kp 002.00 ➝ 001.00 Decrease the initial value.
No. 5 Operation conditions Phenomena Parallel motor operation Operation cannot be started at high torque, since the inverter does not know the load sharing of the motors. Improvements NOTE: The setting methods shown below apply to DOP and DRW operations. Display, etc. 1. When sensor-less vector control is selected Function mode • F-04 CONTROL SLV ➝ VC Reset to V/f control. Select the motor capacity which is the most approximate to the total capacity of the motors used. (For example, 7.5 kW, 5.
Appendix 6 Supplementaly Explanation of the Function Mode • The explanation of the function mode is displayed on the DOP or DRW type of the remote operator. As for the operating methods with other remote operators, refer to the corresponding table of the operator display. • After data is changed, be sure to push down the STR key. No data is stored in the inverter body. • Change data when the inverter is stopped.
Appendix 7 List for display and data read/copy with each operators (1) Monitor mode Y: Possible N: Not possible Display with HOP, HRW Monitor name Frequency setting First setting Second setting Multistage speed setting FS FS 1S FunctionNo.withdigitaloperator Display with DOP, DRW Data read/copy Alterability No. Data 0.0 Hz 0.0 Hz 0.0 Hz Y Y Y F2 F2 F2 0.00 0.00 0.00 Y Y Y Y N N 0.0 Hz 0.0 Hz Y F2 0.00 N N 1.0 0.0 Hz Y F2 1.00 Y Y 0.0 0.0 Hz Y F2 0.00 Y N 0.0 0.
Trip cause factor 1 Trip frequency 1 Trip current 1 Trip time P-N voltage 1 Integrated count 1 of cause time running days Integrated error count Trip cause 2 Trip frequency 2 Trip current 2 Trip time P-N voltage 2 Integrated count of error time running days Trip cause 3 Trip frequency 3 Trip current 3 Trip time P-N voltage 3 Integrated count of error Alterability No. # 0.0 Hz 0.0 A 0.0 Vdc 0Y 0D Y N Y Y N d10 — d10 d10 — --— ----— N N N N N N N N N N ERR COUNT 0 ERR2 # ERR2 0.0 Hz ERR2 0.
Function mode Display with HOP, HRW Display with DOP, DRW FunctionNo.withdigitaloperator Data read/copy Layer Data display No. Data display Alterability No.
Function mode Decelerationtimesetting Firstsetting Display with HOP, HRW Display with DOP, DRW Layer 3-2-2 Secondsetting Data display 1 D1 30.00 s No. F-07 FunctionNo.withdigitaloperator Data display Alterability No. Data DEC 1 0030.00 s Y F7 30.0 Data read/copy HRW DRW Y Y 1 D1 30.00 s DEC 1 0030.00 s Y F7 30.0 Y N 2-stepdecelerationtimesetting 2 D2 15.00 s DEC 2 0015.00 s Y F7 15.
Function mode Electronicthermalcharacteristics freesetting(frequency2) Display with HOP, HRW Display with DOP, DRW Layer Data display Alterability No. Data E-THM F2 0000 Hz N — — Y N No. HRW DRW 0 Hz Electronicthermalcharacteristics freesetting(currentvalue3) 7 A3 24.0A E-THM A3 24.
Function mode Input terminal 1 setting Display with HOP, HRW Display with DOP, DRW Layer 3-6-3 Data display No. Alterability No. Data IN-TM 1 RS Y C0 18 Data display F-34 FunctionNo.
Function mode Transmissionspeedselection Display with HOP, HRW Display with DOP, DRW Layer 4-7 Data display 1BAUD No. 1:600 bps F-46 Data display set Data HRW DRW value FunctionNo.withdigitaloperator Alterability No.
Appendix 8 PID Function 1. Function The PID (Proportional, Integral, Differential) control functions can apply to controlling of the air (water) amount of a fan pump, etc., as well as controlling of pressure within a fixed value. Set the reference signal according to the frequency setting method or the internal level. Set the feed-back signal according to the analog voltage input (0 to 5V or 0 to 10V) or analog current input (4 to 20 mA). [Wiring Sketch] Load (Fan Pump, etc.
3. Data Setting Method (1) Digital operator Refer to A 9 0 A 9 1 A 9 2 A 9 4 mode contents (pages 7-26 and 7-27). (2) A 95 A 9 6 of the extended funciton Remote operator F 43 Setting item Setting range PID IN-SEL IN The PID LVL set value is assumed as the target value. OUT The target value depends on the frequency setting method. PID LVL 0 to 200% PID P 0 to 5.0 PID I 0 to 15.0 PID D 0 to 100.0 PID MODE MD0 Built-in PID control OFF MD1 An analog current input is used as the feed-back signal.