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Mitsubishi FR - S500 Instruction Manual

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  • Page 2
    Thank you for choosing this Mitsubishi Transistorized inverter. This instruction manual (detailed) provides instructions for advanced use of the FR-S500 series inverters. Incorrect handling might cause an unexpected fault. Before using the inverter, always read this instruction manual and the instruction manual (basic) [IB-0600026] packed with the product carefully to use the equipment to its optimum.
  • Page 3
    2. Fire Prevention Mount the inverter to incombustible material. Mounting it to or near combustible material can cause a fire. If the inverter has become faulty, switch off the inverter power. A continuous flow of large current could cause a fire. Do not connect a resistor directly to the DC terminals P( ), N( ).
  • Page 4
    (2) Wiring Do not fit capacitive equipment such as power factor correction capacitor, radio noise filter or surge suppressor to the output of the inverter. The connection orientation of the output cables U, V, W to the motor will affect the direction of rotation of the motor.
  • Page 5
    (6) Maintenance, inspection and parts replacement Do not carry out a megger (insulation resistance) test on the control circuit of the inverter. (7) Disposing of the inverter Treat as industrial waste. (8) General instructions Many of the diagrams and drawings in this instruction manual show the inverter without a cover, or partially open.
  • Page 6: Table Of Contents

    1. WIRING 1.1 Japanese Version…2 1.1.1 Terminal connection diagram … 2 1.1.2 Layout and wiring of main circuit terminals… 3 1.2 North America Version …4 1.2.1 Terminal connection diagram … 4 1.2.2 Layout and wiring of main circuit terminals… 5 1.3 European Version…7 1.3.1 Terminal connection diagram …

  • Page 7
    1.8.3 Current input selection «AU signal»: Setting «4»… 38 1.8.4 Start self-holding selection (STOP signal): Setting «5»… 38 1.8.5 Output shut-off (MRS signal): Setting «6»… 39 1.8.6 External thermal relay input: Setting «7»… 39 1.8.7 Jog operation (JOG signal): Setting «9» … 40 1.8.8 Reset signal: Setting «10»…
  • Page 8
    2.6.2 Setting dial function selection 2.6.3 Monitoring reference 2.7 Restart Operation Parameters …84 2.7.1 Restart setting 2.8 Additional Function Parameters …86 2.8.1 Remote setting function selection 2.9 Terminal Function Selection Parameters …88 2.9.1 Input terminal function selection 2.9.2 Output terminal function selection 2.10 Operation Selection Function Parameters …91 2.10.1 Retry function 2.10.2 PWM carrier frequency…
  • Page 9
    3. PROTECTIVE FUNCTIONS 3.1 Errors (Alarms) …137 3.1.1 Error (alarm) definitions… 137 3.1.2 To know the operating status at the occurrence of alarm (Only when FR-PU04 is used)… 145 3.1.3 Correspondence between digital and actual characters… 145 3.1.4 Resetting the inverter … 145 3.2 Troubleshooting…146 3.2.1 Motor remains stopped …
  • Page 10: Wiring

    (Assigned Terminals RL, RM, RH, STR) …38 1.9 Handling of the RS-485 Connector (Type with RS-485 Communication Function) …41 1.10 Design Information…44 <Abbreviations> Control panel and parameter unit (FR-PU04) Inverter Mitsubishi transistorized inverter FR-S FR-S500 Mitsubishi transistorized inverter FR-S Parameter number series series Chapter 1…

  • Page 11: Japanese Version

    .1.1 Terminal connection diagram FR-S520-0.1K to 3.7K (-R) (-C) FR-S540-0.4K to 3.7K (-R) 3-phase AC power supply External transistor common 24VDC power supply Contact input common (source) Be careful not to short terminals PC-SD. Forward rotation start Reverse rotation start…

  • Page 12: Layout And Wiring Of Main Circuit Terminals

    Motor CAUTION The power supply cables must be connected to R, S, T. If they are connected to U, V, W, the inverter will be damaged. (Phase sequence need not be matched.) For use with a single-phase power supply, the power supply cables must be connected to R and S.

  • Page 13: North America Version

    .2.1 Terminal connection diagram FR-S520-0.1K to 3.7K-NA FR-S540-0.4K to 3.7K-NA (R) 3-phase AC power supply External transistor common 24VDC power supply Contact input common (source) Take care not to short terminals PC-SD. Forward rotation start Reverse rotation start Multi-speed selection…

  • Page 14: Layout And Wiring Of Main Circuit Terminals

    Motor supply CAUTION The power supply cables must be connected to R, S, T. If they are connected to U, V, W, the inverter will be damaged. (Phase sequence need not be matched.) Connect the motor to U, V, W.

  • Page 15
    Reduce the output current. FR-S520- K-NA inverter Rated output current (A) Power supply capacity (kVA) AC input current (A) Set m9 (Pr. 637) «current detection filter». Setting «801» in the manufacturer setting parameter C8 enables you to set the m9 parameter.
  • Page 16: European Version

    Control input signals (No voltage input allowed) Contact input common Forward rotation start Reverse rotation start Multi-speed selection External transistor common 24VDC power supply Contact input common (sink) Take care not to short terminals PC-SD. Frequency setting signals (Analog) Frequency setting…

  • Page 17: Layout And Wiring Of Main Circuit Terminals

    Turning on the forward rotation switch (signal) at this time rotates the motor counterclockwise when viewed from the load shaft. For power input wiring, connect L the terminal block. Do not connect the power supply to U, V and W. Motor FR-S520S-1.5K-EC (R) Jumper…

  • Page 18: Description Of I/O Terminal Specifications

    Isolated from terminals 5 and SE. When connecting the transistor output (open collector output), such as a programmable controller (PLC), connect the positive external power supply for transistor output to this terminal to prevent a malfunction caused by undesirable current.

  • Page 19
    Symbol Terminal Name Frequency setting input common Alarm output Inverter running Open collector output common For meter Analog signal output RS-485 connector (*3) *1. Do not connect terminals SD and PC each other or to the earth. For sink logic, terminal SD acts as the common terminal of contact input. For source logic, terminal PC acts as the common terminal of contact input.
  • Page 20: How To Use The Main Circuit Terminals

    .5 How to Use the Main Circuit Terminals .5.1 Cables, wiring lengths, crimping terminals, etc. The following selection example assumes the wiring length of 20m (65.62feet). 1) FR-S520-0.1K to 3.7K (-R) (-C) FR-S520-0.1K to 3.7K-NA Applicable Terminal Tightening Inverter Screw Torque Model Size…

  • Page 21: Wiring Instructions

    This will cause the inverter to trip or the capacitor and surge suppressor to be damaged. If any of the above devices are connected, remove them. (When using the FR-BIF radio noise filter with a single-phase power supply, connect it to the input side of the inverter after isolating the T <L 8) Before starting rewiring or other work after performing operation once, check the voltage with a meter etc.

  • Page 22: Peripheral Devices

    .5.3 Peripheral devices (1) Selection of peripheral devices Check the capacity of the motor applicable to the inverter you purchased. Appropriate peripheral devices must be selected according to the capacity. Refer to the following list and prepare appropriate peripheral devices: 1) FR-S520-0.1K to 3.7K (-R) (-C) FR-S520-0.1K to 3.7K-NA Rated current of…

  • Page 23
    3) FR-S520S-0.1K to 1.5K (-R) FR-S520S-0.2K to 1.5K-EC (R) Rated current of Motor Circuit Breaker Output Inverter (Refer to Model page 15) (HP)) FR-S520S- 30AF/5A (1/8) 0.1K FR-S520S- 30AF/10A (1/4) 0.2K FR-S520S- 30AF/10A (1/2) 0.4K 0.75 FR-S520S- 30AF/15A 0.75K FR-S520S- 30AF/20A 1.5K 4) FR-S510W-0.1K to 0.75K (-R)
  • Page 24: Leakage Current And Installation Of Earth Leakage Circuit Breaker

    (Factory setting) By using earth leakage circuit breakers designed for harmonic and surge suppression (e.g. Mitsubishi’s Progressive Super Series) in the inverter’s own line and other line, operation can be performed with the carrier frequency kept high (with low noise).

  • Page 25
    CS, SS produced prior to ’91) Rated sensitivity current: {lg1+lgn+3 lg1, lg2 : Leakage currents of cable path during commercial power supply operation lgn* : Leakage current of noise filter on inverter input side : Leakage current of motor during commercial power supply operation <Example>…
  • Page 26: Power-Off And Magnetic Contactor (Mc)

    .5.5 Power-off and magnetic contactor (MC) CAUTION Do not use the inverter power supply side magnetic contactor to start or stop the inverter. As shown on the right, always use the start signal (ON or OFF across terminals STF or STR-SD) to make a start or stop.

  • Page 27: Regarding The Installation Of The Power Factor Improving Reactor

    10m (32.81feet) or less) or the power capacitor is to be switched, an excessive peak current will flow in the power supply input circuit, damaging the converter circuit. In such a case, always install the power factor improving reactor (FR-BEL or FR-BAL).

  • Page 28: Grounding Precautions

    Noise reduction examples FR-BLF Install filter FR-BSF01 on inverter’s input side. Inverter power supply Install filter FR-BIF on inverter’s input side. Separate inverter and power line more than 30cm (3.94inches) (at least 10cm (11.81inches)) from sensor circuit. Control power supply Do not earth control box directly.

  • Page 29: Regarding Power Harmonics

    Specified in standard per immunity equipment Suppression example Provide reactor. Suppression technique Harmonic currents produced on the power supply side by the inverter change with such conditions as whether there are wiring impedances and a power factor improving reactor and the magnitudes of output frequency and output current on the load side.

  • Page 30
    2) «Harmonic suppression guideline for specific consumers» This guideline sets forth the maximum values of harmonic currents outgoing from a high-voltage or specially high-voltage consumer who will install, add or renew harmonic generating equipment. If any of the maximum values is exceeded, this guideline requires that consumer to take certain suppression measures.
  • Page 31
    Table 5. It should be noted that the rated capacity used here is used to calculate a generated harmonic amount and is different from the power supply capacity required for actual inverter drive. received power voltage) content Conversion Factor (Ki)
  • Page 32
    Table 5 Rated Capacities and Outgoing Harmonic Currents for Inverter Drive Rated 6.6kV Applied Current Equivalent of Motor Fundamental (kW) Wave Current 400V (mA) 0.81 0.75 1.37 2.75 3.96 6.50 3) Harmonic suppression technique requirement If the outgoing harmonic current is higher than; maximum value per 1kW (contract power) contract power, a harmonic suppression technique is required.
  • Page 33: How To Use The Control Circuit Terminals

    .6 How to Use the Control Circuit Terminals .6.1 Terminal block layout In the control circuit of the inverter, the terminals are arranged as shown below: Terminal screw REMARKS For the cable size, wiring length, etc., refer to the instruction manual (basic). .6.2 Wiring instructions 1) Terminals SD, SE and 5 are common to the I/O signals.

  • Page 34: Changing The Control Logic

    .6.3 Changing the control logic The input signals are set to sink logic for the Japanese and NA version, and to source logic for the EC version. To change the control logic, the connector under the setting dial must be moved to the other position.

  • Page 35
    (Do not connect terminal SD of the inverter with terminal 0V of the external power supply. When using terminals PC-SD as a 24VDC power supply, do not install an external power supply in parallel with the inverter. Doing so may cause a malfunction in the inverter due to a undesirable current.)
  • Page 36
    In this logic, a signal switches on when a current flows into the corresponding signal input terminal. Terminal PC is common to the contact input signals. For the open collector output signals, terminal SE is a positive external power supply terminal. Current Connecting the 0V terminal of the…
  • Page 37: Input Terminals

    .7 Input Terminals .7.1 Run (start) and stop (STF, STR, STOP) To start and stop the motor, first switch on the input power supply of the inverter (switch on the magnetic contactor, if any, in the input circuit during preparation for operation), then start the motor with the forward or reverse rotation start signal.

  • Page 38
    (2) Three-wire type connection (STF, STR, STOP) A three-wire type connection is shown on the right. Assign the start self-holding signal (STOP) to any of the input terminals. To make a reverse rotation start, set Pr. 63 to «- — -» (factory setting). 1) Short the signal STOP-SD to enable the start self-holding function.
  • Page 39
    DC injection brake enabled Starting frequency Pr.13 (*1) 0.5Hz Start signal terminal Across STF-SD Across STR-SD Start/Stop Timing Chart (for two-wire type) Starting frequency Pr.13 (*1) Forward 0.5Hz rotation Start signal terminal Across STF-SD Across STR-SD Forward-Reverse Rotation Switch-Over Timing Chart REMARKS *1 The «starting frequency»…
  • Page 40: Connection Of Frequency Setting Potentiometer And Output Frequency Meter (10, 2, 5, 4, Au)

    2-5. The maximum output frequency is reached when 5V (10V) is input across terminals 2-5. The power supply used may either be the inverter’s built-in power supply or an external power supply. For the built-in power supply, terminals 10-5 provide 5VDC output.

  • Page 41: External Frequency Selection (Rex, Rh, Rm, Rl)

    (2) Current input (4, 5, AU) To automatically perform operation under constant pressure or temperature control using a fan, pump etc., enter the controller output signal of 4 to 20mADC across terminals 4-5. Terminals AU-SD must be shorted to use the 4 to 20mADC signal for operation. (Assign the signal AU using any of Pr.

  • Page 42
    Speed 15 ON External OFF OFF OFF OFF setting *When using the REX signal, a reverse rotation start cannot be made by the external command. Power supply Forward rotation Multi-speed selection Multi-Speed Operation Connection Example REMARKS *1: When the frequency setting potentiometer is connected, the input signal of the frequency setting potentiometer is ignored if the multi-speed select signal is switched on.
  • Page 43: Indicator Connection And Adjustment

    .7.4 Indicator connection and adjustment (1) Japanese version (FM) The output frequency, etc. of the inverter can be indicated by a DC ammeter of 1mA full-scale deflection and maximum 300 available digital indicator which is connected across terminals FM-SD. The indicator can be calibrated from the operation panel or parameter unit. Note that the reading varies according to the wiring distance if the indicator is placed away from the inverter.

  • Page 44
    Output waveform of terminal FM The output signal of terminal FM has a pulse waveform as shown in the table below and the number of its pulses is proportional to the inverter output frequency. The output voltage (average voltage) is also proportional to the output frequency. Terminal FM Output Voltage Specifications Calibration parameter C1 (Pr.
  • Page 45
    Digital indicator Since the digital indicator counts and displays the number of pulses, adjust it from the operation panel or parameter unit. The inverter output, at which the reference pulses of 1440 pulses/s are output, can be set in Pr. 55 when frequency monitoring is used as reference, or in Pr. 56 when current monitoring is used as reference.
  • Page 46: Control Circuit Common Terminals (Sd, 5, Se)

    STF, STR, RH, RM, REMARKS 1. When using an external transistor connected with the external power supply, use terminal PC to prevent a malfunction from occurring due to a leakage current. (Refer to page 25.) 2.

  • Page 47: How To Use The Input Signals (Assigned Terminals Rl, Rm, Rh, Str)

    .8 How to Use the Input Signals (Assigned Terminals RL, RM, RH, STR) These terminals can be changed in function by setting Pr. 60 to Pr. 63. .8.1 Multi-speed setting (RL, RM, RH, REX signals): Setting «0, 1, 2, 8» Remote setting (RL, RM, RH signals): Setting «0, 1, 2″…

  • Page 48: Output Shut-Off (Mrs Signal): Setting «6

    .8.5 Output shut-off (MRS signal): Setting «6» Short the output stop terminal MRS-SD during inverter output to cause the inverter to immediately stop the output. Open terminals MRS-SD to resume operation in about 10ms. Terminal MRS may be used as described below: (1) To stop the motor by mechanical brake (e.g.

  • Page 49: Jog Operation (Jog Signal): Setting «9

    .8.7 Jog operation (JOG signal): Setting «9» (1) Jog operation using external signals Jog operation can be started/stopped by shorting the jog mode select terminal JOG- SD and shorting/opening the start signal terminal STF or STR-SD. The jog frequency and jog acceleration/deceleration time are set in Pr.

  • Page 50: Pid Control Valid Terminal: Setting «14

    2. Pins 2 and 8 (P5S) are provided for the parameter unit power supply. Do not use them for any other purpose or when making parallel connection by RS-485 communication.

  • Page 51
    Example: 5-554720-3, Tyco Electronics Corporation *2. Cable :Cable conforming to EIA568 (such as 10BASE-T cable) Example: SGLPEV 0.5mm Mitsubishi Cable Industries, Ltd. (Do not use pins No. 2 and 8 (P5S)). 2) When a computer having a RS-232C interface is used with inverters Computer…
  • Page 52
    (Do not use pins No. 2 and 8 (P5S)). *3. Commercially available converter examples Model: FA-T-RS40 Converter (One with connector and cable is also available) Mitsubishi Electric Engineering Co., Ltd. <Wiring methods> 1) Wiring of one RS-485 computer and one inverter…
  • Page 53: Design Information

    When there is a commercial power supply-inverter switch-over circuit as shown below, the inverter will be damaged by leakage current from the power supply due to arcs generated at the time of switch-over or chattering caused by a sequence error.

  • Page 54: Functions

    2. FUNCTIONS This chapter explains the «functions» for use of this product. For simple variable-speed operation of the inverter, the factory settings of the parameters may be used as they are. Set the necessary parameters to meet the load and operational specifications. Refer to the instruction manual (basic) for the operation procedures.

  • Page 55: Function (Parameter) List

    .1 Function (Parameter) List Indica- Parameter tion Torque boost Maximum frequency Minimum frequency Base frequency Multi-speed setting (high speed) Multi-speed setting (middle speed) Multi-speed setting (low speed) Acceleration time Deceleration time Electronic thermal O/L relay Extended function 30 * display selection Operation mode selection Note 1: The factory setting varies with the inverter capacity: 5% for FR-S540-1.5K and…

  • Page 56
    Func- Indica- rame- Name tion tion Jog frequency 0 to 120Hz acceleration/ deceleration time RUN key rotation direction selection Base frequency voltage Acceleration/ deceleration reference frequency Stall prevention function selection Stall 22 * prevention operation level Stall prevention operation level compensation factor at double speed…
  • Page 57
    Func- Indica- rame- Name tion tion Acceleration/ deceleration pattern Frequency jump 1A Frequency jump 1B Frequency jump 2A Frequency jump 2B Frequency jump 3A Frequency jump 3B Speed display 0, 0.1 to 999 Frequency setting voltage gain frequency Frequency setting current gain frequency Start-time ground fault…
  • Page 58
    Func- Indica- rame- Name tion tion Output current detection level Output current detection signal delay time Zero current detection level Zero current detection time Control panel 52 * display data selection Frequency setting 53 * operation selection FM (AM) terminal 54 * function selection…
  • Page 59
    0: Cumulative count erase 0: Soft-PWM invalid, 1: Soft-PWM valid 0: Thermal characteristic for standard motor 1: Thermal characteristic for Mitsubishi constant-torque motor 0 to 15 0: For 0 to 5VDC input 1: For 0 to 10VDC input Cus- Factory…
  • Page 60
    Func- Indica- rame- Name tion tion Input filter time constant Reset 75 * selection/PU stop selection Cooling fan operation selection Parameter 77 * write disable selection Reverse rotation prevention selection Multi-speed 80 * setting (speed Multi-speed 81 * setting (speed Multi-speed 82 * setting (speed…
  • Page 61
    Func- Indica- rame- Name tion tion Multi-speed 84 * setting (speed Multi-speed 85 * setting (speed Multi-speed 86 * setting (speed Multi-speed 87 * setting (speed PID action selection 89 * proportional band PID integral 90 * time PID upper limit 0 to 100%, — — — PID lower limit 0 to 100%, — — — PID action set 93 *…
  • Page 62
    Calibra- Func- tion Indica- tion parame- tion ters <Japa- FM terminal nese> calibration <NA, AM terminal EC> calibration Frequency setting C2 (902) voltage bias frequency Frequency setting C3 (902) voltage bias Frequency setting C4 (903) voltage gain Frequency setting C5 (904) current bias frequency Frequency setting…
  • Page 63
    Com- muni- Func- Indica- cation tion tion Parame- Number of n5 (335) communication retries Communication n6 (336) check time interval n7 (337) Wait time setting 0 to 150ms, — — — Operation n8 (338) command write Speed command n9 (339) write Link start mode (340)
  • Page 64
    Com- muni- Func- Indica- cation tion tion Parame- PU main display screen data (992) * selection disconnection (993) detection/PU setting lock For details of the program, refer to page 118 onwards. REMARKS 1. The parameter numbers within parentheses are those for use of the parameter unit (FR-PU04).
  • Page 65: List Of Parameters Classified By Purpose Of Use

    .2 List of Parameters Classified by Purpose of Use Set the parameters according to the operating conditions. The following list indicates purpose of use and corresponding parameters. Purpose of Use Use of extended function parameters Operation mode selection Acceleration/deceleration time/pattern adjustment Selection of output characteristics optimum for load characteristics Output frequency restriction (limit)

  • Page 66
    Purpose of Use Frequency meter calibration Display of monitor on control panel or parameter unit (FR-PU04) Display of speed, etc Function write prevention Reverse rotation prevention Current detection Motor stall prevention Input terminal function assignment Output terminal function assignment Increased cooling fan life Motor protection from overheat Automatic restart operation at alarm stop…
  • Page 67: Explanation Of Functions (Parameters)

    .3 Explanation of Functions (Parameters) .3.1 Torque boost Increase this value for use when the inverter-to-motor distance is long or motor torque is insufficient in the low speed range (stall prevention is activated). Motor torque in the low-frequency range can be adjusted to the load to increase the starting motor torque.

  • Page 68: Maximum And Minimum Frequency

    .3.2 Maximum and minimum frequency You can clamp the upper and lower limits of the output frequency. Parameter Name Maximum frequency Minimum frequency <Setting> Use Pr. 1 to set the upper limit of the output frequency. If the frequency of the frequency command entered is higher than the setting, the output frequency is clamped at the maximum frequency.

  • Page 69
    Set the base voltage (e.g. rated voltage of motor) in Pr. 19. CAUTION 1. Set 60Hz in Pr. 3 «base frequency» when using a Mitsubishi constant-torque motor. 2. When automatic torque boost is selected, Pr. 47 is invalid. When automatic torque boost is selected, setting «- — -«…
  • Page 70: Multi-Speed Operation To To

    .3.4 Multi-speed operation Used to switch between the predetermined running speeds. Any speed can be selected by merely switching on/off the corresponding contact signals (RH, RM, RL, REX signals). By using these functions with Pr. 1 «maximum frequency» and Pr. 2 «minimum frequency», up to 17 speeds can be set.

  • Page 71: Acceleration/Deceleration Time

    CAUTION 1. The multi-speed settings override the main speeds (across terminals 2-5, 4-5, setting dial). When the multi-speed settings and setting dial are used in the combined operation mode (Pr. 79=3), the multi-speed settings have precedence. 2. The multi-speeds can also be set in the PU or external operation mode. 3.

  • Page 72
    <Setting> Use Pr. 7 and Pr. 44 to set the acceleration time required to reach the frequency set in Pr. 20 from 0Hz. Use Pr. 8 and Pr. 45 to set the deceleration time required to reach 0Hz from the frequency set in Pr.
  • Page 73: Electronic Overcurrent Protection

    Setting «0» in Pr. 9 disables electronic thermal O/L relay (motor protective function). (The protective function of the inverter is activated.) When using a Mitsubishi constant-torque motor, first set «1» in Pr. 71 «applied motor» to choose the 100% continuous torque characteristic in the low-speed range. Then, set the rated motor current in Pr.

  • Page 74: Starting Frequency

    Use Pr. 10 to set the frequency at which the DC injection brake operation is started. Use Pr. 11 to set the period during when the brake is operated. Use Pr. 12 to set the percentage of the power supply voltage. Change the Pr. 12. setting to 4% when using the inverter-dedicated (constant-torque motor).

  • Page 75: Load Pattern Selection

    .3.9 Load pattern selection You can select the optimum output characteristic (V/F characteristic) for the application and load characteristics. Pr.14=0 For constant-torque For variable-torque loads loads (e.g. conveyor, cart) (Fan, pump) 100% 100% Base frequency Output frequency (Hz) Output frequency (Hz) Parameter Name Load pattern…

  • Page 76: Jog Frequency

    .3.10 Jog frequency To perform jog operation in the external operation mode, choose the jog operation function in input terminal function selection, turn on the jog signal, and use the start signal (STF, STR) to make a start or stop. For the type having the RS-485 communication function, you can choose the jog operation mode…

  • Page 77: Stall Prevention Function And Current Limit Function

    .3.12 Stall prevention function and current limit function You can make settings to disable stall prevention caused by overcurrent and to disable the fast-response current limit (which limits the current to prevent the inverter from resulting in an overcurrent trip if an excessive current occurs due to sudden load variation or ON-OFF, etc.

  • Page 78: Stall Prevention

    CAUTION * When «Operation not continued for OL signal output» is selected, the «OLT» alarm code (stopped by stall prevention) is displayed and operation stopped. (Alarm stop display » If the load is heavy, the lift is predetermined, or the acceleration/deceleration time is short, the stall prevention may be activated and the motor not stopped in the preset acceleration/deceleration time.

  • Page 79
    Pr.22 Pr.23 When 120Hz Pr.28 <Setting> Generally, set 150% (factory setting) in Pr. 22 «stall prevention operation level». Setting «0» in Pr. 22 disables stall prevention operation. To reduce the stall prevention operation level in the high frequency range, set the reduction starting frequency in Pr.
  • Page 80: Acceleration/Deceleration Pattern

    .3.14 Acceleration/deceleration pattern Set the acceleration/deceleration pattern. Set value 0 [Linear acceleration/deceleration] Time Parameter Name Acceleration/ deceleration pattern <Setting> Pr. 29 Function Setting Linear acceleration/ deceleration S-shaped acceleration/ deceleration A (*) S-shaped acceleration/ deceleration B CAUTION * As the acceleration/deceleration time, set the time taken to reach the Pr. 3 «base frequency»…

  • Page 81: Extended Function Display Selection

    .3.15 Extended function display selection Used to display the extended function parameters. Refer to page 46 for the extended function parameter list. Refer to the instruction manual (basic) for the parameter setting method. Parameter Name Extended function display selection .3.16 Frequency jump When it is desired to avoid resonance attributable to the…

  • Page 82: Speed Display

    .3.17 Speed display You can change the output frequency indication of the operation panel and parameter unit (FR-PU04) to the motor speed or machine speed. Parameter Name Speed display <Setting> To display the machine speed, set in Pr. 37 the machine speed for 60Hz operation. CAUTION The motor speed is converted from the output frequency and does not match the actual speed.

  • Page 83: Biases And Gains Of The Frequency Setting Voltage (Current)

    .3.18 Biases and gains of the frequency setting voltage (current) You can set the magnitude (slope) of the output frequency as desired in relation to the external frequency setting signal (0 to 5V, 0 to 10V or 4 to 20mA DC). The «bias»…

  • Page 84
    <Setting> (1) How to change the highest frequency (2) Adjusting the deviation of the highest frequency from the Pr. 38 (Pr. 39) setting. (2)-1) Make adjustment with a voltage applied directly across terminals 2-5 (with a current flowing across terminals 4-5) (2)-2) Make adjustment at any point without a voltage applied across terminals 2-5 (without a current flowing across terminals 4-5) Changing example When you want to use the 0 to 5VDC input frequency setting…
  • Page 85
    Changing example Changing the calibration parameter C4 «frequency setting voltage gain» value POINT The calibration parameter C4 is an extended function parameter. Pr. 30 must be set to «1». (2) Adjusting a deviation of the highest frequency from the Pr. 38 (Pr.
  • Page 86
    (2)-2) Making adjustment at any point with a voltage not applied across terminals 2-5 (with a current not flowing across terminals 4-5) Operation Confirm the RUN indication and operation mode indication. The inverter must be at a stop. The inverter must be in the PU operation mode. (Press the key) Press the…
  • Page 87: Start-Time Ground Fault Detection Selection

    .3.19 Start-time ground fault detection selection You can choose whether to make ground fault detection valid or invalid at a start. Ground fault detection is executed only right after the start signal is input to the inverter. Parameter Name Start-time ground fault detection selection CAUTION…

  • Page 88: Output Frequency Detection

    .4.2 Output frequency detection The output frequency detection signal (FU) is output when the output frequency reaches or exceeds the setting. This function can be used for electromagnetic brake operation, open signal, etc. You can also set the detection of the frequency used exclusively for reverse rotation.

  • Page 89: Current Detection Function Parameters

    .5 Current Detection Function Parameters .5.1 Output current detection functions If the output remains higher than the Pr. 48 setting during inverter operation for longer than the time set in Pr. 49, the output current detection signal (Y12) is output from the inverter’s open collector output terminal.

  • Page 90: Zero Current Detection

    .5.2 Zero current detection When the inverter’s output current falls to «0», torque will not be generated. This may cause a gravity drop when the inverter is used in vertical lift application. To prevent this, the output current «zero» signal can be output from the inverter to close the mechanical brake when the output current has fallen to «zero».

  • Page 91: Display Function Parameters

    .6 Display Function Parameters .6.1 Monitor display You can choose the display of the operation panel «monitor/frequency setting screen». For the Pr. 54 function, the Japanese version has the FM terminal feature, and the NA and EC versions have the AM terminal feature. Parameter Name Operation panel…

  • Page 92: Setting Dial Function Selection

    .6.2 Setting dial function selection You can use the dial like a potentiometer to perform operation. Parameter Name Frequency setting operation selection Using the setting dial like a potentiometer to perform operation POINT Set «1» (extended function parameter valid) in Pr. 30 «extended function display selection».

  • Page 93: Monitoring Reference

    .6.3 Monitoring reference Set the frequency or current which is referenced when the output frequency or output current is selected for the FM (AM) terminal. The Japanese version has the FM terminal feature, and the NA and EC versions have the AM terminal feature.

  • Page 94
    0Hz. rise time The SU and FU signals are not output during a restart. They are Pr. 58 setting output after the restart cushion time has elapsed. CAUTION Generally, this setting will pose no problems. series Mitsubishi…
  • Page 95: Additional Function Parameters

    If the operator panel is located away from the control box, you can use contact signals to perform continuous variable-speed operation, without using analog signals. Acceleration(RH) Deceleration(RM) Clear(RL) Forward rotation (STF) Power supply * External operation frequency or PU operation frequency other than at multiple speeds Parameter Name Remote setting function selection…

  • Page 96
    1 minute is the output frequency given after the clear signal (RL) is turned off (multi-speed frequency). Acceleration (RH) Clear (RL) Forward rotation (STF) Power supply (*1) External operation frequency or PU operation frequency except multi-speed (*2) Multi-speed frequency Operation (*2) 1 minute or less…
  • Page 97: Terminal Function Selection Parameters

    CAUTION The frequency can be varied by RH (acceleration) and RM (deceleration) between 0 and the maximum frequency (Pr. 1 setting). When the acceleration or deceleration signal switches on, the set frequency varies according to the slope set in Pr. 44 «second acceleration/deceleration time» or Pr.

  • Page 98
    <Setting> Refer to the following table and set the parameters: Signal Setting Name Pr. 59 = «0» Pr. 59 = «1», «2» (*1) Pr. 59 = «0» Pr. 59 = «1», «2» (*1) Pr. 59 = «0» Pr. 59 = «1», «2» (*1) Second function selection Current input selection STOP…
  • Page 99: Output Terminal Function Selection

    .9.2 Output terminal function selection You can change the functions of the open collector and contact output terminals. Parameter Name RUN terminal function selection A, B, C terminal function selection <Setting> Signal Setting Function Name RUN Inverter running Up to frequency Overload alarm Output frequency detection…

  • Page 100: Operation Selection Function Parameters

    .10 Operation Selection Function Parameters .10.1 Retry function When any protective function (major fault) is activated and the inverter stops its output, the inverter itself resets automatically and performs retries. You can select whether retry is made or not, alarms reset for retry, number of retries made, and waiting time.

  • Page 101: Pwm Carrier Frequency

    CAUTION The cumulative number in Pr. 69 is incremented by «1» when retry operation is regarded as successful, i.e. when normal operation is continued without the protective function (major fault) activated during a period four times longer than the time set in Pr. 68. If the protective function (major fault) is activated consecutively within a period four times longer than the above waiting time, the control panel may show data different from the most recent data or the parameter unit (FR-PU04) may show data different…

  • Page 102: Applied Motor

    Applied motor Set the motor used. POINT When using the Mitsubishi constant-torque motor, set «1» in Pr. 71 for either V/F control or automatic torque boost control. The electronic overcurrent protection is set to the thermal characteristic of the constant-torque motor.

  • Page 103: Input Filter Time Constant

    .10.5 Input filter time constant You can set the input section’s built-in filter constant for an external voltage or current frequency setting signal. Effective for eliminating noise in the frequency setting circuit. Parameter Name Input filter time constant REMARKS Increase the filter time constant if steady operation cannot be performed due to noise.

  • Page 104
    (1) How to make a restart after a stop by the operation panel (Restarting method with 1) After completion of deceleration to a stop, switch off the STF or STR signal. 2) Press the key to show ..( canceled) 3) Press the key to return to…
  • Page 105: Cooling Fan Operation Selection

    Do not reset the inverter with the start signal on. Otherwise, the motor will start instantly after resetting, leading to potentially hazardous conditions. .10.7 Cooling fan operation selection You can control the operation of the cooling fan built in the inverter (whether there is a cooling fan or not depends on the model.).

  • Page 106: Parameter Write Inhibit Selection

    .10.8 Parameter write inhibit selection You can select between write-enable and disable for parameters. This function is used to prevent parameter values from being rewritten by incorrect operation. Factory Parameter Name Parameter write disable selection <Setting> Pr. 77 Setting Parameter values may only be written during a stop in the PU operation mode.

  • Page 107: Reverse Rotation Prevention Selection

    .10.9 Reverse rotation prevention selection This function can prevent any reverse rotation fault resulting from the incorrect input of the start signal. POINT Used for a machine which runs only in one direction, e.g. fan, pump. (The setting of this function is valid for the combined, PU, external and communication operations.) Parameter Name…

  • Page 108
    <Setting> In the following table, operation using the control panel or parameter unit is abbreviated to PU operation. Pr. 79 Function Setting At power-on, the inverter is put in the external operation mode. The operation mode can be changed between the PU and external operation modes from the operation panel ( parameter unit ( refer to the columns of settings 1 and 2.
  • Page 109
    (1) PU operation interlock PU operation interlock forces the operation mode to be changed to the external operation mode when the MRS signal switches off. This function prevents the inverter from being inoperative by the external command if the mode is accidentally left unswitched from the PU operation mode.
  • Page 110: Pid Control To

    REMARKS If the MRS signal is on, the operation mode cannot be switched to the PU operation mode when the start signal (STF, STR) is on. *1. The operation mode switches to the external operation mode independently of whether the start signal (STF, STR) is on or off. Therefore, the motor is run in the external operation mode when the MRS signal is switched off with either of STF and STR on.

  • Page 111
    Parameter Name PID action selection PID proportional band PID integral time PID upper limit PID lower limit PID action set point for PU operation PID differential time <Setting> (1) Basic PID control configuration Pr. 93 or Treminal 2 Set point Terminal 4 Feedback signal (Process value) Kp: Proportion constant…
  • Page 112
    2) PD action A combination of proportional control action (P) and differential control action (D) for providing a manipulated variable in response to deviation speed to improve the transient characteristic. REMARKS PD action is the sum of P and D actions. 3) PID action The PI action and PD action are combined to utilize the advantages of…
  • Page 113
    (Set point setting) 200/220V 50/60Hz CAUTION *1. The power supply must be selected in accordance with the power specifications of the detector used. *2. The output signal terminals used depends on the Pr. 64, Pr. 65 settings. *3. The input signal terminal used depends on the setting of Pr. 60 to Pr. 63.
  • Page 114
    (4) I/O signals Signal Terminal Used Depending on Pr. 60 to Pr. 63 Input Depending on Output Pr. 64, Pr. 65 Enter the set point across inverter terminals 2-5 or in Pr. 93 and enter the process value signal across inverter terminals 4-5. To exercise PID control, turn on the X14 signal.
  • Page 115
    Parameter Name Number 0.1 to 999s PID integral time 0 to 100% PID upper limit PID lower 0 to 100% limit PID action set point for 0 to 100% PU operation 0.01 to 10s differential time (6) Adjustment procedure Parameter setting Adjust the PID control parameters, Pr.
  • Page 116
    (7) Calibration example (A detector of 4mA at 0°C (32°F) and 20mA at 50°C (122°F) is used to adjust the room temperature to 25°C (77°F) under PID control. The set point is given to across inverter terminals 2-5 (0-5V).) START Convert the set point into %.
  • Page 117
    <Set point input calibration> 1. Apply the input voltage of 0% set point setting (e.g. 0V) across terminals 2-5. 2. Make calibration using the calibration parameters C2, C3. At this time, enter in C2 the frequency which should be output by the inverter at the deviation of 0% (e.g. 0Hz).
  • Page 118: Auxiliary Function Parameters

    .11 Auxiliary Function Parameters .11.1 Slip compensation The inverter output current may be used to assume motor slip to keep the motor speed constant. Parameter Name Rated motor slip Slip compensation time constant Constant-output region slip compensation selection <Setting> Synchronous speed at base frequency — rated speed Rated slip = Synchronous speed at base frequency Parameter…

  • Page 119: Operating Conditions

    <Operating conditions> The number of motor poles should be any of 2, 4 and 6 poles. Single-motor operation (One motor for one inverter) The wiring length from inverter to motor should be within 30m (98.42feet). <Setting> Parameter Setting — — — 0.1 to 3.7kW * The setting range changes with the inverter: 0.2kW to 3.7kW, — — — for the 400V class.

  • Page 120: Motor Primary Resistance

    .11.3 Motor primary resistance Generally this parameter need not be set. At the factory setting of «- — -«, the standard motor constant of the motor capacity set in Pr. 98 (including that of the constant-torque motor) is used. Parameter Name Motor primary resistance…

  • Page 121
    Changing example Deflecting the meter (analog indicator) to full-scale (1mA) at the preset frequency of 60Hz (for frequency setting, refer to the instruction manual (basic).) POINT The calibration parameters «C1» can be made to be ready by setting «1» (extended function parameter valid) in Pr.
  • Page 122: Meter (Frequency Meter) Calibration (Na And Ec Version)

    REMARKS Depending on the set value, it may take some for the needle to move. If «1» is set in Pr. 30 «extended function display selection», the calibration parameter C1 «FM terminal calibration» can also be set in the external operation mode. C1 is factory-set to 1mA full-scale or 1440 pulses/s FM output frequency at 60Hz.

  • Page 123
    Changing example Deflecting the meter (analog indicator) to full-scale (5V) at the preset frequency of 60Hz (for frequency setting, refer to the instruction manual (basic).) POINT The calibration parameters «C1» can be made to be ready by setting «1» (extended function parameter valid) in Pr.
  • Page 124: Clear Parameters

    POINT By setting the Pr. 54 «AM terminal function selection» value, preset Pr. 55 «frequency monitoring reference» or Pr. 56 «current monitoring reference» to the running frequency or current value at which the output signal is 5V. At 5V, the meter generally deflects to full-scale. Related parameters Choosing signal to be output to FM (AM) terminal Reference values of frequency and current values…

  • Page 125: Communication Parameters (Only For The Type Having The Rs-485 Communication Function)

    .14 Communication Parameters (Only for the type having the RS-485 communication function) You can perform communication operation from the RS-485 connector of the inverter through RS-485. (1) Operational functions 1) Operation mode switching [Operation mode switching method] Switching by computer program Computer link…

  • Page 126
    2) Operation mode-based functions Operation Item Location Operation panel Run command or FR-PU04 (start) Running frequency setting Monitoring Parameter write Parameter read Inverter reset Stop command On-computer Run command user program by Running frequency RS-485 setting (*) communication Monitoring Parameter write Parameter read Inverter reset Stop command…
  • Page 127: Communication Settings To

    .14.1 Communication settings Communication-related parameters Parameter Name Communication n1 (331) station number Communication n2 (332) speed n3 (333) Stop bit length Parity check n4 (334) presence/ absence Number of n5 (335) communication retries Communication n6 (336) check time interval (*1) Wait time n7 (337) setting…

  • Page 128
    REMARKS For computer link operation, set 65520 (HFFF0) as the value «888» and 65535 (HFFFF) as the value «- — -«. Refer to page 41 for handling the RS-485 connector. Refer to the «parameter data code list» (page 177) for the data codes of the parameters.
  • Page 129
    <Computer programming> (1) Communication protocol Data communication between the computer and inverter is performed using the following procedure: Computer (Data flow) Inverter Inverter (Data flow) Computer REMARKS *1. If a data error is detected and a retry must be made, execute retry operation with the user program.
  • Page 130
    REMARKS * 1. Setting any of «0.1» to «999» in Pr. 37 «speed display» and «1» in data code «HFF» sets the data format to A» or E» (6-digit data). Also, the output frequency turns to a speed display, which is valid in 0.01r/min increments.
  • Page 131
    4) Send data from computer to inverter during data read [No data error detected] (May be omitted) Inverter Format G station number REMARKS The inverter station numbers may be set between H00 and H1F (stations 0 and 31) in hexadecimal. *3 indicates the control code.
  • Page 132
    5) Waiting time Specify the waiting time between the receipt of data at the inverter from the computer and the transmission of reply data. Set the waiting time in accordance with the response time of the computer between 0 and 150ms in 10ms increments (e.g.
  • Page 133
    7) Sum check code The sum check code is 2-digit ASCII (hexadecimal) representing the lower 1 byte (8 bits) of the sum (binary) derived from the checked ASCII data. (Example 1) Computer Inverter ASCII code (Example 2) Inverter Computer ASCII code 8) Error code If any error is found in the data received by the inverter, its definition is sent back to the computer together with the NAK code.
  • Page 134
    When the inverter’s permissible communication time interval is not set, interlocks are provided to disable operation to prevent hazardous conditions. Always set the communication check time interval before starting operation. Data communication is not started automatically but is made only once when the computer provides a communication request.
  • Page 135: Setting Items And Set Data

    <Setting items and set data> After completion of parameter settings, set the instruction codes and data then start communication from the computer to allow various types of operation control and monitoring. Instruction Item Code Read Operation mode Write Output frequency [speed] Output current…

  • Page 136
    Instruction Item Code Inverter status monitor Set frequency read (E PROM) Set frequency read (RAM) Set frequency write (RAM and PROM) Set frequency write (RAM only) 6 Inverter reset Alarm definition batch clear All parameter clear H80 to 9 Parameter write H00 to 10 Parameter read Description…
  • Page 137: Error Code List

    Instruction Item Code Read Link parameter expansion setting Write Read Second parameter changing (Code HFF = 1) Write REMARKS For the instruction codes HFF, HEC, their set values are held once they are written, but changed to 0 when the inverter is reset or all clear is performed. <Error Code List>…

  • Page 138
    (5) Operation at alarm occurrence Fault Location Inverter operation Inverter fault Communication Communication error Inverter operation (Communication from Communication RS-485 connector) *3: Can be selected using the corresponding parameter (factory-set to stop). (6) Communication error Fault Location Communication error (Communication from RS-485 connector) (7) Program example To change the operation mode to computer link operation Program…
  • Page 139: Operation And Speed Command Write

    .14.2 Operation and speed command write Used to make valid the operation and speed commands from the computer or external terminals. Parameter Name Operation n8 (338) command write Speed command n9 (339) write The parameter numbers within parentheses are those for use of the parameter unit (FR-PU04).

  • Page 140: Link Start Mode Selection

    n8 (Pr. 338) «operation Operation command write» location n9 (Pr. 339) «speed selection command write» RH, RM, Remote setting RL, REX (RH, RM, RL) selection 15-speed selection (REX) function PU operation interlock selection (MRS) function [Explanation of table] External : Operation is valid only from external terminal signal. Computer : Operation is valid only from sequence program.

  • Page 141: E 2 Prom Write Selection

    <Setting> Operation Mode Setting Pr. 79 PU or external operation Placed in the external operation mode. PU operation External operation External/PU combined operation mode External/PU combined operation mode (Factory setting) External operation mode External/PU combined operation mode Computer link operation PU operation only Computer link operation External/PU combined…

  • Page 142: Parameter Unit (Fr-Pu04) Setting

    .15 Parameter Unit (FR-PU04) Setting When the optional parameter unit (FR-PU04) is connected to the RS-485 connector of the inverter, you can make the environment setting of the parameter unit. CAUTION When the parameter unit (FR-PU04) is used, operation from the operation panel is not accepted.

  • Page 143: Pu Contrast Adjustment

    .15.3 PU contrast adjustment By setting the communication parameter n15 «PU contrast adjustment», you can adjust the LCD contact of the parameter unit (FR-PU04). When using the FR- PU04, adjust the numerical value to any brightness with the define that brightness with the Parameter Name n15 (991) PU contrast adjustment…

  • Page 144: Pu Disconnection Detection/Pu Setting Lock

    .15.5 PU disconnection detection/PU setting lock You can choose the connector disconnection detection function of the parameter unit (FR-PU04) and the operation write of the parameter unit (FR-PU04). PU disconnection detection : This function detects that the parameter unit PU operation Parameter Name PU disconnection…

  • Page 145: Protective Functions

    PROTECTIVE FUNCTIONS This chapter explains the «protective functions» of this product. Always read the instructions before using the equipment. 3.1 Errors (Alarms) … 137 3.2 Troubleshooting … 146 3.3 Precautions for Maintenance and Inspection… 149 Chapter 1 Chapter 2 Chapter 3 Chapter 4…

  • Page 146: Errors (Alarms)

    Name Description Check point Corrective action the power supply side of the inverter is opened at the activation of the protective function, the inverter’s control power will be lost and the alarm output will not be held. operation panel display automatically switches to the above indication.

  • Page 147
    Description constant speed, the protective circuit is activated to stop the inverter output. The circuit may also be activated by a surge voltage produced in the power supply system. Check point Check for sudden load change. Corrective action Decrease the acceleration time.
  • Page 148
    The circuit may also be activated by a surge voltage produced in the power supply system. Check for sudden speed reduction. Increase the deceleration time. (Set the deceleration time which matches the inertia moment of the load) Decrease the braking duty.
  • Page 149
    Operation Panel Indication Name Start-time output side ground fault overcurrent protection This function stops the inverter output if a ground fault overcurrent flows due to a ground fault which occurred in the inverter’s output Description (load) side. Made valid when Pr. 40 «start-time ground fault detection selection»…
  • Page 150
    Operation Panel Indication Name Description Check point Corrective action *3. For only the type having the RS-485 communication function. Operation Panel Indication Name Description Check point Corrective action Operation Panel Indication Name Description Check point Corrective action (2) Minor failures When the protective function is activated, the output is not shut off.
  • Page 151
    (3) Warnings Operation Panel Indication Name Description Check point Corrective action *4. The stall prevention operation current can be set as desired. It is factory-set to 150%. Operation Panel Indication Name Description Check point Corrective action Stall prevention (overcurrent) If a current of more than 150% (* 4) of the rated inverter current flows in the motor, this function stops the increase in frequency until the overload During…
  • Page 152
    Refer to page 94. Undervoltage If the power supply voltage of the inverter reduces, the control circuit will not operate properly and will result in decreased motor torque or increased heat generation. To prevent this, if the power…
  • Page 153
    Operation Panel Indication Name Write-while-running error/mode designation error Description Corrective action Operation Panel Indication Name Calibration error Description Analog input bias and gain calibration values are too close. Check the settings of C3, C4, C6 and C7 (calibration functions). Corrective action (Refer to page 74) Write was performed during operation.
  • Page 154: To Know The Operating Status At The Occurrence Of Alarm (Only When Fr-Pu04 Is Used)

    .1.2 To know the operating status at the occurrence of alarm (Only when FR-PU04 is used) When any alarm has occurred, the display automatically switches to the indication of the corresponding protective function (error). By pressing the without resetting the inverter, the display shows the output frequency. In this way, it is possible to know the running frequency at the occurrence of the alarm.

  • Page 155: Troubleshooting

    .2.1 Motor remains stopped 1) Check the main circuit Check that a proper power supply voltage is applied (operation panel display is provided). Check that the motor is connected properly. Check that the connector across P1-P<+> is connected.

  • Page 156: Run Key Rotation Direction Selection

    .2.2 Motor rotates in opposite direction Check that the phase sequence of output terminals U, V and W is correct. Check that the start signals (forward rotation, reverse rotation) are connected properly. Check the setting of Pr. 17 «RUN key rotation direction selection». .2.3 Speed greatly differs from the setting Check that the frequency setting signal is correct.

  • Page 157: Operation Mode Is Not Changed Properly

    .2.8 Operation mode is not changed properly If the operation mode does not change correctly, check the following: 1. External input signal 2. Parameter setting .2.9 Operation panel display is not operating Make sure that terminals PC-SD are not shorted. Make sure that the connector is fitted securely across terminals P<+>-P1.

  • Page 158: Precautions For Maintenance And Inspection

    .3 Precautions for Maintenance and Inspection The inverter is a static unit mainly consisting of semiconductor devices. Daily inspection must be performed to prevent any fault from occurring due to adverse influence of the operating environment, such as temperature, humidity, dust, dirt and vibration, changes in the parts with time, service life, and other factors.

  • Page 159: Insulation Resistance Test Using Megger

    3) For the inverter, conduct the insulation resistance test on the main circuit only as shown below and do not perform the test on the control circuit. (Use a 500VDC megger.) Power supply 500VDC megger .3.5 Pressure test Do not conduct a pressure test.

  • Page 160
    Inspection Description Item (1) Check with megger (across main circuit terminals and ground terminal). General (2) Check for loose screws and bolts. (3) Check for overheat on each part. (4) Clean. (1) Check conductors Conductors, for distortion. cables (2) Check cable sheaths for breakage.
  • Page 161
    Insulation (across resistance terminals and ground terminal). Note: The value for the 400V class is indicated in the parentheses. * For periodic inspection, contact you nearest Mitsubishi sales representative. Interval Periodic* Method (1) Measure (1) Phase-to- voltage across inverter…
  • Page 162: Checking The Inverter And Converter Modules

    Checking the inverter and converter modules <Preparation> (1) Disconnect the external power supply cables (R, S, T) and motor cables (U, V, W). (2) Prepare a meter. (Use 100 <Checking method> Change the polarity of the meter alternately at the inverter terminals R, S, T, U, V, W, P and N, and check for continuity.

  • Page 163: Replacement Of Parts

    Smoothing capacitor on control board Relays CAUTION For parts replacement, consult the nearest Mitsubishi FA Center. (1) Cooling fan The cooling fan used to cool heat-generating parts such as the main circuit semiconductors has a bearing whose life is said to be 10,000 to 35,000 hours. Hence, the cooling fan must be changed every 2 to 3 years if the inverter is run continuously.

  • Page 164
    Removal 1) Remove the front cover and wiring cover. (Refer to the instruction manual (basic).) 2) Unplug the fan connector. The cooling fan is connected with the cooling fan connector on the side of the inverter terminal block. Unplug the connector to disconnect the inverter and cooling fan.
  • Page 165
    (2) Smoothing capacitors A large-capacity aluminum electrolytic capacitor is used for smoothing the DC in the main circuit, and an aluminum electrolytic capacitor is also used for stabilizing the control power in the control circuit. Their characteristics are adversely affected by ripple current, etc. When the inverter is operated in an ordinary, air-conditioned environment, change the capacitors about every 5 years.
  • Page 166: Measurement Of Main Circuit Voltages, Currents And Powers

    .3.8 Measurement of main circuit voltages, currents and powers Measurement of voltages and currents Since the voltages and currents on the inverter power supply and output sides include harmonics, accurate measurement depends on the instruments used and circuits measured. When instruments for commercial frequency are used for measurement, measure the following circuits using the instruments given on the next page.

  • Page 167
    Power supply side At R, S and T, and power across R-S, S-T (P1) and T-R Calculate after measuring power supply voltage, power supply side current and power supply side power. Power supply side power factor [For three-phase power supply] (Pf1)
  • Page 168
    Item Measuring Point Frequency setting Across 10 (+)-5 power supply Across FM (+)-SD Frequency meter signal Across AM (+)-5 Across STF, STR, Start signal RH, RM, RL, MRS, Select signal RES-SD Across A-C Alarm signal Across B-C CAUTION 1. Use FFT to measure the output voltage accurately. It can not be measured accurately with a meter or general instrumentation.
  • Page 169: Specifications

    4. SPECIFI- CATIONS This chapter provides the «specifications» of this product. Always read the instructions before using the equipment 4.1 Specification List … 161 4.2 Outline drawings … 167 Chapter 1 Chapter 2 Chapter 3 Chapter 4…

  • Page 170: Specification List

    However, the PWM pulse voltage value of the inverter output side voltage remains unchanged at about *5. The power supply capacity changes with the values of the power supply side inverter impedances (including those of the input reactor and cables).

  • Page 171
    However, the PWM pulse voltage value of the inverter output side voltage remains unchanged at about *5. The power supply capacity changes with the values of the power supply side inverter impedances (including those of the input reactor and cables).
  • Page 172
    However, the PWM pulse voltage value of the inverter output side voltage remains unchanged at about *5. The power supply capacity changes with the values of the power supply side inverter impedances (including those of the input reactor and cables).
  • Page 173
    *4. For single-phase 100V power input, the output voltage provided cannot be twice or more than the power supply voltage. *5. The power supply capacity changes with the values of the power supply side inverter impedances (including those of the input reactor and cables).
  • Page 174: Common Specifications

    .1.2 Common specifications Control method Output frequency range Frequency setting resolution Frequency accuracy Starting torque Acceleration/deceleration time setting Regenerative Braking torque (*2) DC braking Frequency Analog input setting Digital input signal Start STF, STR signal Alarm reset Multi-speed selection Second function selection Output stop Current input selection External thermal relay…

  • Page 175
    Operation functions Running status Japanese For meter NA, EC Protective/alarm functions Ambient temperature Ambient humidity Storage temperature Ambience Altitude, vibration *1. When undervoltage or instantaneous power failure occurs, no alarm output is provided but the output is shut off. After power restoration, the inverter may be run as it is.
  • Page 176: Outline Drawings

    FR-S520-0.1K, 0.2K, 0.4K, 0.75K(-NA) FR-S520S-0.1K FR-S520S-0.2K, 0.4K, 0.75K(-EC) FR-S510W-0.1K, 0.2K, 0.4K(-NA) 5 hole 5 (0.20) 6 (0.24) 6 (0.24) 56 (2.20) 68 (2.68) 3-phase 200V power supply Capacity 0.1K, 0.2K 0.4K 0.75K Single-phase 200V power supply Capacity 0.1K, 0.2K 0.4K 0.75K…

  • Page 177
    FR-S520-1.5K, 2.2K, 3.7K(-NA) FR-S540-0.4K, 0.75K, 1.5K, 2.2K, 3.7K(-NA)(-EC) FR-S520S-1.5K(-EC) FR-S510W-0.75K(-NA) 5 hole Cooling fan×1 5 (0.20) 6 (0.24) 3-phase 200V power supply Capacity 1.5K, 2.2K 108 (4.25) 96 (3.78) 170 (6.69) 158 (6.22) 3.7K 3-phase 400V power supply Capacity 0.4K, 0.75K 108 (4.25)
  • Page 178: Parameter Unit (Fr-Pu)

    Parameter unit (FR-PU04) <Outline drawing> 10.5 72 (2.83) (0.59) (0.41) Choose the mounting screws whose length will not exceed the effective depth of the mounting threads. <Panel cut dimension drawing> (0.97) (0.51) 48 (1.89) 5-M3 hole Effective depth 4.5 40 (1.57) 16.5 (0.65) 23.75 (0.93)

  • Page 179: Instructions

    INSTRUCTIONS 5.1 Selecting Instructions… 171 5.2 Peripheral Selecting Instructions… 171 5.3 Operating Instructions… 173 5.4 Inverter-driven 400V class motor … 175…

  • Page 180: Selecting Instructions

    The starting and acceleration characteristics of an inverter-driven motor are restricted by the overload capacity of the inverter used. The torque characteristic is generally smaller than at a start made by the commercial power supply. When large starting torque is necessary, choose automatic torque boost control (set the motor capacity in Pr.

  • Page 181
    If it is switched on during inverter operation, a large inrush current may flow, stopping the inverter due to overcurrent shut-off. When an MC is provided for switching to the commercial power supply, for example, switch it on/off after the inverter and motor have stopped.
  • Page 182: Operating Instructions

    Terminals P<+> and P1 are designed to connect a dedicated option. Do not connect any equipment other than the dedicated option. In addition, do not short the frequency setting power supply terminal 10 and common terminal 5, and terminals PC-SD.

  • Page 183
    10m (32.81feet) or less) or the power capacitor is to be switched, an excessive peak current will flow in the power supply input circuit, damaging the inverter. In such a case, always install the FR-BEL or FR- BAL power factor improving reactor.
  • Page 184: Inverter-Driven 400V Class Motor

    .4 Inverter-driven 400V class motor In the PWM type inverter, a surge voltage attributable to wiring constants is generated at the motor terminals. Especially for a 400V class motor, the surge voltage may deteriorate the insulation. When the 400V class motor is driven by the inverter, consider the following measures: # Measures It is recommended to take either of the following measures:…

  • Page 185: Appendix

    APPENDIX APPENDIX 1 PARAMETER DATA CODE LIST … 177…

  • Page 186: Appendix 1 Parameter Data Code List

    APPENDIX 1 PARAMETER DATA CODE LIST Func- Parameter tion Number Torque boost Maximum frequency Minimum frequency Base frequency Multi-speed setting (high speed) Multi-speed setting (middle speed) Multi-speed setting (low speed) Acceleration time Deceleration time Electronic thermal O/L relay Extended function display selection Operation mode selection The extended function parameters are made valid by setting «1»…

  • Page 187
    Func- Parameter tion Number Stall prevention operation level compensation factor at double speed Multi-speed setting (speed 4) Multi-speed setting (speed 5) Multi-speed setting (speed 6) Multi-speed setting (speed 7) Stall prevention operation reduction starting frequency Acceleration/deceleration pattern Frequency jump 1A Frequency jump 1B Frequency jump 2A Frequency jump 2B…
  • Page 188
    Func- Parameter tion Number Output current detection level Output current detection signal delay time Zero current detection level Zero current detection time Control panel display data selection Frequency setting operation selection FM (AM) terminal function selection Frequency monitoring reference Current monitoring reference Restart coasting time Restart cushion time…
  • Page 189
    Func- Parameter tion Number PWM frequency selection 0-5V/0-10V selection Input filter time constant Reset selection/PU stop selection Cooling fan operation selection Parameter write disable selection Reverse rotation prevention selection Multi-speed setting (speed 8) Multi-speed setting (speed 9) Multi-speed setting (speed 10) Multi-speed setting (speed 11) Multi-speed setting…
  • Page 190
    Func- Parameter tion Number C1 (900 FM (AM) terminal (901)) calibration Frequency setting C2 (902) voltage bias frequency Frequency setting C3 (902) voltage bias Frequency setting C4 (903) voltage gain Frequency setting current C5 (904) bias frequency Frequency setting current C6 (904) bias Frequency setting current…
  • Page 191
    REVISIONS *The manual number is given on the bottom left of the back cover. Print Date *Manual Number Mar, 2000 IB(NA)-0600027-A First edition Jun., 2000 IB(NA)-0600027-B Addition Mar., 2001 IB(NA)-0600027-C Addition Revision Single-phase 100V power input specifications 3-phase 400V power input specifications…

  • Mitsubishi FR — S500 — page 1

    FR — S 500 T RANS I S T O RI Z E D I NV E RT E R IN S T R U C T IO N M A N U A L (D e ta i l e d ) Ch a p t e r 3 Ch a p t e r 2 Ch a p t e r 4 F UNCT I O NS Ch a p t e r 1 W I RI NG F UNCT I O NS SPEC I F I C AT I O N S PR O T EC TI VE HE A D O F F I CE: M I T SUB I S HI D ENK I B L DG M A RUNO UCHI T O K Y O 1 0 0 — 8 3 1 0 P r i nt ed i n J apan …

  • Mitsubishi FR — S500 — page 2

    A-1 Thank you for choosing this Mitsubishi Transistorized inverter. This instruction manual (detailed) provides instructions for advanced use of the FR-S500 series inverters. Incorrect handling might cause an unexpected fault. Before using the inverter, always read this instruction manual and the instruction manual (basic) [IB-0600026] packed with …

  • Mitsubishi FR — S500 — page 3

    A-2 2. Fire Prevention CA UTION Mount the inverter to incombustible material. M ounting it to or near co mbustible material can cause a fire. If the inverter has become faulty, switch off the inverter power. A continuous flow of large current could cause a fire. Do not connect a resis tor directly to the DC terminals P( + ), N( − ). This could ca …

  • Mitsubishi FR — S500 — page 4

    A-3 (2) W iring CA UTION Do not fit capacitive equipment such as power factor correction capacitor, radio noise filter or surge suppressor to the output of the inverter. The connection orientation of the output cable s U, V, W to the m otor will affect the direction of rotation of the motor. (3) Trial run CA UTION Check all parameters, and ensur e …

  • Mitsubishi FR — S500 — page 5

    A-4 (6) Maintenance, inspection and parts replacement CA UTION Do not carry out a megger (insulation resist ance) test on the c ontrol circuit of the inverter. (7) Disposing of the inverter CA UTION Treat as industrial waste. (8) General i nstructions Many of the diagrams and drawings in this instruction manual show the inverter without a cover, or …

  • Mitsubishi FR — S500 — page 6

    I CONTENTS 1. WIRING 1 1.1 Japanese Version …………………………………………………………………………. 2 1.1.1 Term inal c onn ection diagram ………………………………………………………….. 2 1.1.2 Layou t and wir ing of m ain circu it term inals ……………………………………….. 3 1.2 N …

  • Mitsubishi FR — S500 — page 7

    II 1.8.3 Curr ent i nput s elec tion «AU si gnal «: Set ting «4» ……………………………….. 38 1.8.4 Start self -hol ding s electi on (ST OP s ignal) : S etting «5»……………………… 38 1.8.5 Out put sh ut-of f (MR S signa l): Sett ing «6» ………………………………………… …

  • Mitsubishi FR — S500 — page 8

    III 2.6.2 Set ting dial function selectio n ………………………………………………… 83 2.6. 3 Mo nitor ing r efere nce …………………………………………………….. 84 2.7 Restart Opera tion Param eters ……………………………………………………… 84 2.7. 1 Res tart s etti ng ………………. …

  • Mitsubishi FR — S500 — page 9

    IV 3. PROTECTIVE FUNCTIONS 136 3.1 Errors (Alarms) ………………………………………………………………………….137 3.1.1 Error ( alarm ) defi nitio ns ……………………………………………………………….. 13 7 3.1.2 To know the ope rating st atu s at the oc curren ce of alarm (Onl y when FR-P U04 is use …

  • Mitsubishi FR — S500 — page 10

    1 1 This chap ter explains th e basic «w iring» for use o f this product. Al ways read the instructions be f ore use . For description of «installation», refer to the instruction manual (basic ). 1.1 Japanese Ve rsion ………………………………………………2 1.2 No rth A merica V ersion ……………………… …

  • Mitsubishi FR — S500 — page 11

    2 1 .1 Japanese Ver sion 1 .1.1 Ter minal connection diagram FR-S520-0.1K to 3.7K (-R) (-C) FR-S540-0.4K to 3.7K (-R) Power f actor impr oving DC reactor (FR- BEL: Opt ion) PC Extern al transistor comm on 24VDC pow er supply Contac t input c ommon ( source) STF STR RH RM RL SD Forward rotation s ta rt Reverse rotation sta rt Middle High Low Frequen …

  • Mitsubishi FR — S500 — page 12

    3 1 CAU TION To prevent a malfunct ion due t o noise, k eep the si gnal cables more than 10c m (3.94inc hes) away from t he po wer cabl es. FR-S520S-0.1K to 1.5K (-R) (-C) FR-S510W -0.1K to 0.75K (-R) Powe r su pply NFB R S Motor IM Earth ( Ground ) U V W MC REMARKS • To ensure safety, connect the po wer input to the inverter v ia a ma gnetic con …

  • Mitsubishi FR — S500 — page 13

    4 1 .2 North America Ver sion 1 .2.1 Ter minal connection diagram FR-S520-0.1K to 3.7K-NA FR-S540-0.4K to 3.7K-NA (R) Powe r factor im proving DC reactor (FR-BEL: Optio n) 3- ph ase AC power sup ply NFB R S T PC External transistor common 24VDC p ower su pply Conta ct inpu t comm on (source ) STF SD Forward rota tion start Reverse rotati on start M …

  • Mitsubishi FR — S500 — page 14

    5 1 NOTE To prevent a malfunction due to noise, keep the signal cables more than 10cm (3.94inches) away from the power cables. FR-S510W -0.1K to 0.75K-NA Power supp l y NFB R S Motor IM Earth ( Ground ) U V W MC REMARKS • To ensure safety, connect the power input to the inverter via a magnetic contactor and earth leakage circuit break er or no-fu …

  • Mitsubishi FR — S500 — page 15

    6 <When single-p hase power input is pro vided for three-phase p ower input inverter (NA version o nly)> Reduce the output current. FR-S520- K-NA inverter 0.1 0.2 0 .4 0.75 1.5 2.2 3 .7 Rated output current (A) 0.4 0.8 1. 5 2.5 4.0 5.0 7. 0 Power supply capacit y (kVA) 0.4 0.8 1. 5 2.5 4.5 5.5 9. 0 AC input current (A ) 1.1 2.4 4. 5 6.4 11.2 …

  • Mitsubishi FR — S500 — page 16

    7 1 1 .3 European Version 1 .3.1 Ter minal connection diagram FR-S540-0.4K to 3.7K-EC(R) Power factor improving DC reactor (FR-BEL: Option) Frequency setting signals (Analog) 10 ( +5V ) 2 2 3 1 4 to 20mADC (+) 4 (4 to 20 m A DC ) Frequency setting pote nti omet er 1/2W 1k (*3) SE Runn ing Jum per : R emove this jumper when FR-BEL is connected. Moto …

  • Mitsubishi FR — S500 — page 17

    8 FR-S520S-0.2K to 1.5K-EC (R) Power supply NFB L 1 N Motor IM Eart h (Ground) U V W MC REMARKS • To ensure safety, connect the power input to the inverter via a magnetic contactor and earth leakage ci rcuit breaker or no-fuse break er, and use the magnetic contactor to switch power on-off . • The output is three-phase 200V. NOTE • To prevent …

  • Mitsubishi FR — S500 — page 18

    9 1 1 .4 De scr i pti o n of I/ O T e r min a l Spec ifi c ati ons 1 .4.1 Main circuit Symbol Termi nal Name Descript i on R, S, T * <L 1 , L 2 , L 3 > AC power input Connect t o the commer ci al power s uppl y. U, V, W Invert er output Connect a three- phas e squir rel-c age motor. N<-> DC voltage common DC volta g e common t erminal. …

  • Mitsubishi FR — S500 — page 19

    10 Symbol Terminal Name Descript i on Input si gnal s 5 Frequenc y setti ng i nput common Common termi nal for t he frequenc y settin g si g nals (ter mi nals 2, 4) and i ndicat or connect ion (ter minal AM). Isol at ed from t er minals SD and SE. Do not earth. A B C Alarm output Change-o ver cont act out put indic at ing that t he out put has be e …

  • Mitsubishi FR — S500 — page 20

    11 1 1 .5 How to Use the Main Circuit Te rminals 1 .5.1 Cabl es, wiring lengths, crimping ter minals, etc. The following selection example assumes the wiring length of 20m (65.62feet). 1) FR-S520-0.1K to 3.7K (-R) (-C) FR-S520-0.1K to 3.7K-NA Cables PVC Insu lated Cables Crimpi ng Termin als mm 2 AWG mm 2 Applic able Invert er Model Termin al Screw …

  • Mitsubishi FR — S500 — page 21

    12 W ir ing length 100m (328.08feet) maximum. (50m (164.04f eet) maximum for the FR-S540-0.4K.) CAU TION • W hen the wiring length of the 0.1K or 0.2K is 30m (98.43feet) or more, use the carrier frequency to 1kHz. • Use the carrier frequency of 1kHz when the wiring length of the FR-S540-0.4K, 0.75K is 30m (98.43feet) or more. • The wiring len …

  • Mitsubishi FR — S500 — page 22

    13 1 1 .5.3 P eripheral dev ices (1) Selection of peripheral devices Check the capacity of the motor applicable to the inverter you purchased. Appropriate peripheral devices must be selected according to the capacity. Refer to the following list and prepare appropriate peripheral devices: 1) FR-S520-0.1K to 3.7K (-R) (-C) FR-S520-0.1K to 3.7K-NA Ca …

  • Mitsubishi FR — S500 — page 23

    14 3) FR-S520S-0.1K to 1.5K (-R) FR-S520S-0.2K to 1.5K-EC (R) Cables (mm 2 ) (*2) Motor Output (kW (HP)) Invert er Model Rated curr ent of Circuit Breaker (Refer to page 15) (*1) Magnetic Contactor (MC) (Refer to page 17) Power Factor Improvi ng AC Reactor (Refer to page 18) (*3) Power Factor Improvi ng DC Reactor (Refer to page 18) (*3) R, S <L …

  • Mitsubishi FR — S500 — page 24

    15 1 1 .5.4 Leakag e cur rent and i nstal lati on of eart h leakag e ci r cui t br eaker Due to static capacitances existing in the inverter I/O wiring and motor, leakage currents fl ow through them. Since their values depend on the static capacitances, carrier frequency, etc., take the following counter measures. (1) To-ground leakage currents Lea …

  • Mitsubishi FR — S500 — page 25

    16 (3) Selecting the rated sensitivity current f or the earth leakage circuit breaker W hen u sing the earth leak age circuit breaker with the inverter circuit, select its rated sensitivity current as follows, independently of the PWM carrier frequency: Progressive Super Series (Type SP, CF, SF, CP) Rated sensitivity current: I ∆ n ≥ 10 × (lg1 …

  • Mitsubishi FR — S500 — page 26

    17 1 1 .5.5 Pow er-off and magn etic contactor (M C) CAU TION Do not use the inverter power supply side magnetic contactor to s tart or stop the inverter. As shown on the right, always use the start signal (ON or OFF ac ross terminals STF or STR-SD) to make a start or stop. (Refer to page 28) Powe r supply NFB F OFF ON MC MC RA R<L 1 > S< …

  • Mitsubishi FR — S500 — page 27

    18 1. 5.6 Regardi ng the i nstall ati on of the power factor impr ov i ng reactor W hen the inverter is installed near a large-capac ity power transformer (500kVA or more at the wiring length of 10m (32.81feet) or less ) or the power capacitor is to be switched, an excessive peak cur rent will flow in the power supply input cir c uit, damaging the …

  • Mitsubishi FR — S500 — page 28

    19 1 Noise reduction examples Inverter FR- BIF Sens or Use 4-c ore cabl e for m oto r power cable and use one cable as e art h cable. Power supply for sensor Use twisted pair shielded cable. Inverter powe r su ppl y Control powe r su ppl y Do not earth shield but connect it to signal common cable. Sepa rat e in v ert e r an d po we r line more than …

  • Mitsubishi FR — S500 — page 29

    20 1 .5.9 Reg ardi ng pow er har moni cs The inverter may generate power har monics from its converter circuit to affect the power generator, power capacitor etc. Power har monics are different from noise and leakage currents in sourc e, frequency band and transmission path. Take the following counter measure suppression tec hniques. The following …

  • Mitsubishi FR — S500 — page 30

    21 1 2) «Harmonic suppression guideline for specific consumers» This guideline sets forth the maximum values of harmonic currents outgoing from a high-voltage or specially high-voltage consumer who will insta ll, add or renew harmonic generating equipment. If any of the maximum values is exceeded, this guideline requires that consumer to …

  • Mitsubishi FR — S500 — page 31

    22 Table 2 Conversion Factors for FR-S500 Series Class Circuit Type Conversio n Factor (K i ) W ithout reac tor K31 = 3. 4 W ith reactor (AC si de) K32 = 1.8 W ith reactor (DC si de) K33 = 1.8 3 3-phase br idge (Capaci tor- smoot hed) Wit h reac tors ( A C, DC si des) K34 = 1.4 Table 3 Equivalent Ca pacity Limits Received Pow er Volt age Referenc e …

  • Mitsubishi FR — S500 — page 32

    23 1 Table 5 Rated Capacities an d Outgoing Harmoni c Currents for In ver ter Drive Rated Curre nt [A ] Fundamen tal Wave Cu rrent Con verted from 6 .6kV (No react or, 100 % oper at ion rati o) Applied Motor (kW) 4 00V 6.6kV Equi vale nt of Fundam ent al Wave Cur rent (mA) Rated Capac ity (kVA) 5 th 7th 11th 13th 17th 19th 23rd 25th 0.4 0 . 81 49 0 …

  • Mitsubishi FR — S500 — page 33

    24 1 .6 How to U se the Control Cir cuit Terminals 1 .6.1 Ter minal block lay out In the control circuit of the inverter, the terminals are arranged as shown below: Terminal screw size : M2 10 2 5 4 RL RM RH FM Terminal ar r angeme nt of control circuit <AM> Japanese version NA, EC v ersion Terminal sc rew size : M3 A RUN STR PC SE SD SD STF …

  • Mitsubishi FR — S500 — page 34

    25 1 1 .6.3 Cha nging the c ontrol logic The input signals are set to sink logic for the Japanese and NA version, and to source logic for the EC version. To change the control logic, the connector under the setting dial must be moved to the other position. Change the connector position using tweezers, a pair of long- nose pliers etc. Change the con …

  • Mitsubishi FR — S500 — page 35

    26 1) Sink logic type In this logic, a signal switches on when a current flows out of the corresponding signal input terminal. Terminal SD is common to the contact input signals. Terminal SE is com mon to the open collector output signals. AX40 SE RUN 24VDC STR STF SD R 1 9 R R R A curren t flows out of the corres pondi ng signal RUN Inverter Curre …

  • Mitsubishi FR — S500 — page 36

    27 1 2) Source logic type In this logic, a signal switches on when a current flows into the corresponding signal input terminal. Terminal PC is common to the contact input signals. For the open collector output signals, terminal SE is a positive external power supply terminal. STF STR PC AX80 24VDC RUN SE 1 9 R R R R A current flo ws out of the cor …

  • Mitsubishi FR — S500 — page 37

    28 1 .7 Input Terminals 1 .7.1 Run (sta rt ) and sto p (STF , ST R, ST OP) To start and stop the motor, f irst switch on the input power supply of the inverter (switch on the magnetic contactor, if any, in the input circuit during preparation for operation), then start the motor with the forward or reverse rotation start s i gnal. (1) Two-wire type …

  • Mitsubishi FR — S500 — page 38

    29 1 (2) Three-wire ty pe connect i on (STF, STR, STOP) A three-wire type connection is shown on the right. Assign the start self-holding signal (STOP) to any of the input terminals. To make a reverse rotation start, set Pr. 63 to «- — -» ( fact or y settin g) . 1) Short the signal S TOP-SD to enable the start self-holding f unction. In t …

  • Mitsubishi FR — S500 — page 39

    30 DC inje c tio n brake operation tim e P r. 11 Output f requency Start ing freq uency Pr.13 (*1) 0.5Hz ON DC injection brake operat ion freq uency Pr. 10 3Hz 0.5s DC injecti on brake o perati on time P r. 11 0.5Hz 0.5 s ON 0.5Hz ON 3Hz Coasted to a stop Tim e DC injection brake not o perated DC injectio n brake disabled DC injectio n b r ake enab …

  • Mitsubishi FR — S500 — page 40

    31 1 1 .7.2 Con nection of freq uency setting potentiometer and output frequency meter (10, 2, 5, 4, AU) The analog frequency setting input signals that may be entered are voltage and current signals. For the relationships between the frequency setting input voltages (currents) and output frequencies, refer to the following diagram. The frequency s …

  • Mitsubishi FR — S500 — page 41

    32 (2) Cu rrent inpu t (4, 5 , A U) To automatically perform operation under constant press ure or temperature control using a fan, pump etc., enter the controller output signal of 4 to 20mADC across terminals 4-5. Terminals AU-SD must be shorted to use the 4 to 20mADC signal for operation. (Assign the signal AU using any of Pr. 60 to Pr. 63.) W he …

  • Mitsubishi FR — S500 — page 42

    33 1 Multi-Speed Setti ng Termina l Input Speed RE X- SD* RH- SD RM- SD RL- SD Param eter Set Freq uenc y Range Re mark s Speed 1 (high speed) OF F ON OFF OFF Pr. 4 0 to 120Hz ——————— Speed 2 (middl e speed) OF F OFF ON OFF Pr. 5 0 to 120Hz ——————— Speed 3 (low speed) OF F OFF OFF ON Pr. 6 0 to 120Hz ——————? …

  • Mitsubishi FR — S500 — page 43

    34 1 .7.4 Indi cator connectio n and adjustm ent (1) Japanese version (FM) The output frequency, etc. of the inverter can be indicated by a DC a mmeter of 1mA full-scale deflection and maximum 300 Ω internal resistance or a commercially available digital indi c ator which is connected across terminals FM-SD. The indicator can be calibrated f rom …

  • Mitsubishi FR — S500 — page 44

    35 1 Outpu t wave form of te rminal F M The output signal of terminal FM has a pulse waveform as shown in the table below and the number of its pulses is proportional to the inverter output frequency. The output voltage (average voltage) is also proportional to the output f requency. Terminal FM Output Voltage Specifications Output wav ef or m Cali …

  • Mitsubishi FR — S500 — page 45

    36 Digital indicator Since the digital indicator counts and displays the num ber of pulses, adjust it from the operation panel or parameter unit. The inverter output, at which the referenc e pulses of 1440 pulse s /s are output, can be set in Pr. 55 when frequency monitoring is used as reference, or in Pr. 56 when current monitoring is used as refe …

  • Mitsubishi FR — S500 — page 46

    37 1 1 .7.5 Co ntrol circuit common te rminals (SD, 5, SE) Terminals SD, 5, and SE are all comm on te rminals (0V) for I/O signals and are isolated from each other. Terminal SD is a common terminal for the contact input terminals (STF, STR, RH, RM, RL) and frequency output signal (FM). Terminal 5 is a common terminal for the frequency setting analo …

  • Mitsubishi FR — S500 — page 47

    38 1 .8 How to U se the Input Signa ls (Assigned Terminals RL, RM, RH, STR) Pr. 60 «RL terminal functi on selection» Pr. 61 «RM terminal function selection» Pr. 62 «RH terminal function selecti on» These terminals can be changed in function by setting Pr. 60 to Pr. 63. Pr. 63 «STR terminal functio n selection» …

  • Mitsubishi FR — S500 — page 48

    39 1 1 .8.5 Outpu t shut-off (MR S signal): Setting «6» Short the output stop terminal MRS-SD during inverter output to cause the inverter to immediately stop the output. Open terminals M RS-SD to resume operation in about 10ms. Terminal MRS may be used as described below: (1) To stop the mot or by mechanical brake (e.g. electromagnet ic …

  • Mitsubishi FR — S500 — page 49

    40 1 .8.7 Jog o peration (JOG si gnal): Setting «9» (1) Jog operation using ex t ernal si gnals Jog operation can be started/stopped by shorting the jog mode select ter minal JOG- SD and shorting/opening the start signal te rminal STF or STR-SD. The jog frequenc y and jog acceleration/decelera tion time are set in Pr . 15 (factor y settin …

  • Mitsubishi FR — S500 — page 50

    41 1 1 .8.9 PID c ontrol vali d terminal: Se tting «14» To exercise PID c ontrol, turn on the X14 signal. W hen this signal is off, ordinary inverter operation is performed. For more information, refer to page 101. ♦ ♦ ♦ ♦ Related parameters ♦ ♦ ♦ ♦ Pr. 88 «PI D ac tion s election», Pr . 89 «PID pr opor tion …

  • Mitsubishi FR — S500 — page 51

    42 (2) RS-485 communication Use the RS-485 connector to perf orm communication operation f rom a personal computer etc. By connecting the RS-485 connector to a computer such as a personal c omputer, Factory Automation unit (HMI etc.) or other co mputer, by the communication cable, you can operate/monitor the inverter and read/write the parameter va …

  • Mitsubishi FR — S500 — page 52

    43 1 Use the connectors, c ables and converter which are available on the market. Introduced products (as of June, 2000) *1. Connector: RJ45 connector Example: 5-554720-3, Tyco Electronics Corporation *2. Cable : Cable conforming to EIA568 (such as 10BASE-T cable) Example: SGLPEV 0.5mm × 4P (Twisted pair c able, 4 pairs), Mitsubishi Cable Industri …

  • Mitsubishi FR — S500 — page 53

    44 1 .10 Design In formation 1) Provide electrical and mechanical interlocks for MC1 and MC2 which are used for commercial power supply-inverter switch-over. W hen there is a comm ercial power s upply-inverter switch-over circuit as shown below, the inverter will be dam aged by leakage current from the power supply due to arcs generated at the time …

  • Mitsubishi FR — S500 — page 54

    45 2 Chapt er 1 Chapt er 2 Chapt er 3 Chapt er 4 This chapter explains the «functions» for use of this product. For simple variable-speed operation of the inverter, the factory settings of the parameters may be used as they are. Set the neces sary parameters to meet the load and operational specifications. Refer to the instruction manual …

  • Mitsubishi FR — S500 — page 55

    46 2 .1 Function (Pa rameter) List Param eter I ndic a- tion Name Setti ng Range Minim um Setti ng Incr eme nts Fact ory Setti ng <EC version> Refer To: Cus- tomer Setti ng 0 Torque boos t 0 t o 15% 0.1% 6%/5%/ 4% (Note 1) 58 1 Maximum frequ ency 0 to 120H z 0.1Hz 60Hz <50Hz> 59 2 Minimum fr equency 0 to 120Hz 0. 1Hz 0Hz 59 3 Base fr eq …

  • Mitsubishi FR — S500 — page 56

    47 2 Func — tion Pa- rame- ter Indi ca- tion Name Setting Ra nge Mini mum Setti ng Incr eme nts Fact or y Setti n g <EC versi on> Refer To: Cus- tomer Setti n g 15 Jog freq uency 0 to 120 Hz 0 .1Hz 5Hz 67 16 Jog accele ration/ decel erat io n time 0 to 999s 0.1s 0.5 s 67 17 RUN ke y rotation direc ti on selection 0: For war d rot ati on, 1: R …

  • Mitsubishi FR — S500 — page 57

    48 Func — tion Pa- rame- ter Indi ca- tion Name Setting Ra nge Mini mum Setti ng Incr eme nts Fact ory Setti ng <EC versi on> Refer To: Cus- tomer Setti ng 29 Accelera ti on/ decel erat io n patt ern 0: Linear a cceleration/ decel erat io n, 1: S-patter n acceler ation/ decel eratio n A , 2: S-patter n acceler ation/ decel eratio n B 10 7 1 3 …

  • Mitsubishi FR — S500 — page 58

    49 2 Func — tion Pa- rame- ter Indi ca- tion Name Setting Ra nge Mini mum Setti ng Incr eme nts Fact or y Setti n g <EC versi on> Refer To: Cus- tomer Setti n g 48 Outp ut cur rent detec ti on le vel 0 to 200% 1% 150% 80 49 Outp ut cur rent detec ti on sign al del ay time 0 to 10 s 0.1s 0s 80 50 Zero c urr ent detec ti on le vel 0 to 200% 1% …

  • Mitsubishi FR — S500 — page 59

    50 Func — tion Pa- rame- ter Indi ca- tion Name Setting Ra nge Mini mum Setti ng Incr eme nts Fact ory Setti ng Ref er To: Cus- tomer Setti ng 60 RL ter min al funct io n selection 10 8 8 61 RM ter minal funct io n selection 11 8 8 62 RH ter minal funct io n selection 12 8 8 63 STR ter mi nal funct io n selection 0: RL, 1: RM, 2: RH, 3: RT, 4: AU, …

  • Mitsubishi FR — S500 — page 60

    51 2 Func — tion Pa- rame- ter Indi ca- tion Name Setting Ra nge Mini mum Setti ng Incr eme nts Fact or y Setti n g Refer To: Cus- tomer Setti n g 74 Input filter time const ant 0: 2-s te p movi ng aver age pr ocess ing 1 to 8: Exp onenti al av erag e valu e of 2n at t he setting o f n 11 9 4 75 * Reset selection/PU stop selection 0: Res et n orm a …

  • Mitsubishi FR — S500 — page 61

    52 Func — tion Pa- rame- ter Indi ca- tion Name Setting Ra nge Mini mum Setti ng Incr eme nts Fact ory Setti ng Ref er To: Cus- tomer Setti ng 84 * Multi-speed setting (speed 12) 0 to 120Hz , — — — 0.1Hz — — — 61 85 * Multi-speed setting (speed 13) 0 to 120Hz , — — — 0.1Hz — — — 61 86 * Multi-speed setting (speed 14) 0 to 120Hz , — — — 0.1Hz — — — …

  • Mitsubishi FR — S500 — page 62

    53 2 Func — tion Cali bra- tion param e- ters Indi ca- tion Name Setting Range Minim um Setti ng Incr e- ments Fact ory Settin g Refer To: Cus- tomer Settin g <Japa- nese> 900 FM t ermi nal calibration C1 <NA, EC> 901 AM t ermina l calibration    111 C2 (9 02) Frequency setting volt age bi as frequency 0 to 60H z 0.1H …

  • Mitsubishi FR — S500 — page 63

    54 Func — tion Com- muni- cati on Param e- ter Indi ca- tion Name Setting Range Minim um Setti ng Incr e- ments Fact ory Setting <NA, E C version> Refer To: Cus- tomer Setting n5 (3 35) Numb er of commun ication retries 0 to 10, — — — 1 1 118 n6 (3 36) Comm unic ati on check time interval 0 to 999s, — — — 0.1 s 0s <- — — > 118 n7 (3 37) …

  • Mitsubishi FR — S500 — page 64

    55 2 Func — tion Com- muni- cati on Param e- ter Indi ca- tion Name Setting Range Minim um Setti ng Incr e- ments Fact ory Setting Refer To: Cus- tomer Setting n16 (992) * PU ma in display screen dat a selectio n 0: Selec table between output frequenc y and output curr ent 100: (during stop): Set frequency, output current (during operation): Out pu …

  • Mitsubishi FR — S500 — page 65

    56 2 .2 List o f Parameters Classified by Purpose o f Use Set the parameters according to the operating conditions. The following list indicates purpose of use and corresponding parameters. Para meter Num bers Purpose of Us e Parameter number s which must be s et Use of exte nded func t ion paramet ers Pr. 30 Operati on mo de selec t ion Pr. 53 , P …

  • Mitsubishi FR — S500 — page 66

    57 2 Para meter Num bers Purpose of Us e Parameter number s which must be s et Frequenc y meter c al ibrati on Pr . 54, Pr . 55, Pr. 56, Calibrat ion paramet er C1 Displ ay of monitor on c ontrol panel or parameter uni t (FR- PU04) Pr. 52, Communic ation paramet er n16 Related to monitor ing Displ ay of speed, et c Pr. 37, Pr. 52 Functi on write pr …

  • Mitsubishi FR — S500 — page 67

    58 2 .3 Explanation of Functions (Parameter s) 2 .3.1 T orq ue boos t Increase this value for use when the inverter-to-motor distance is long or motor torque is insufficient in the low speed range (stall prevention is activated). Motor torque in the low-frequency range can be adjusted to the load to increase the starting motor torque. Pr. 0 Pr. 46 …

  • Mitsubishi FR — S500 — page 68

    59 2 2 .3.2 Max imum and minim um freq uency You can clamp the upper and lower limits of the output frequency. Outpu t f requency (Hz) Pr.1 Pr.2 Set frequen cy 5,10 V (20mA) 0 (4mA) Parameter Name Factor y Setting <EC version > Setting Range 1 Ma ximum f requenc y 60Hz <50Hz> 0 to 120H z 2 Mini mum frequenc y 0Hz 0 to 120Hz <Setting& …

  • Mitsubishi FR — S500 — page 69

    60 Param eter Na me Fa ctor y Setting <EC version> Setti ng Range Re mark s 3 Base fr equency 60Hz <50Hz> 0 to 120H z  19 Base fr equency voltage — — — <888> 0 to 500V, 888, — — -*1 888: 95% of p ower suppl y volt age* 2 — — — : Same as power supply voltage* 3 Setting i s enabled wh en Pr. 30 = «1». 47 Second V/F ( …

  • Mitsubishi FR — S500 — page 70

    61 2 2 .3.4 Mul ti -spe ed operation to to Used to switch between the predetermined running speeds. Any speed can be selected by merely switching on/off the corresponding contact signals (RH, RM, RL, REX signals ). By using these functions with Pr. 1 «maximum frequency» and Pr. 2 «minimum frequency», up to 17 speeds can be s et. …

  • Mitsubishi FR — S500 — page 71

    62 CAU TION 1. The mult i -speed s ettings overri de the main speeds (acr oss ter minals 2- 5, 4-5, set t ing dial) . W hen the multi-s peed s etti ngs and setti ng di al are us ed i n the combi ned o perati on mo de (Pr. 79=3), the mul ti-s peed s etti ngs have pr ecedenc e. 2. The mult i -speeds can als o be s et in the PU or ext ernal op eration …

  • Mitsubishi FR — S500 — page 72

    63 2 <Setting> Use Pr. 7 and Pr. 44 to set the acceleration time required to reach the frequency set in Pr. 20 from 0Hz. Use Pr. 8 and Pr. 45 to set the deceleration time required to reach 0Hz from the frequency set in Pr. 20. Pr. 44 and Pr. 45 are valid when the RT signal is on. (*) Set «- — -» in P r. 45 to mak e the d ecelera tio …

  • Mitsubishi FR — S500 — page 73

    64 2 .3.6 Elec tronic overcur rent protec tion Set the current of the electronic overcurrent protec tion to protect the motor from overheat. This feature provides the optimum protective characteristics, including reduced motor cooling capability , at low speed. Parameter Name Factory Setting Sett ing Range 9 Elec tronic thermal O/ L r elay R at ed …

  • Mitsubishi FR — S500 — page 74

    65 2 Param eter Na me Fa ctor y Setting S etting Range Re mark s 10 DC inject i on brake operati on f requenc y 3Hz 0 to 120Hz 11 DC inject i on brake operati on t ime 0.5s 0 to 10s 12 DC injecti on brake vol t age 6% 0 to 15% Setti ng i s enabled wh en Pr. 30 = «1». (W hen Pr . 11 is set to «0s» or Pr . 12 is set t o «0%&q …

  • Mitsubishi FR — S500 — page 75

    66 2 .3.9 Load pattern sel ection You can select the optimum output characteristic (V/F characterist ic) f or the application and load characteristics. Forward rotatio n Reverse rotatio n For co nstant-tor que loads (e.g. conveyor , cart) 100% Output voltage Base fr equency Outpu t frequenc y (Hz) Pr.14= 0 For varia ble-torque loads (Fan, pump ) 10 …

  • Mitsubishi FR — S500 — page 76

    67 2 2 .3.10 J og frequency To perform jog operation in the external operation mode, choose the jog operation function in input terminal function selection, turn on the jog signal, and use the start signal (STF, STR) to make a start or stop. For the type having the RS-485 communication function, you can choose the jog operation mode from the parame …

  • Mitsubishi FR — S500 — page 77

    68 2 .3.12 Stall preventi on function and c urrent limi t function You can make settings to disable stall prevention caused by overcurrent and to disable the fast-response current limit (which limits the current to prevent the inverter from resulting in an overcurrent trip if an ex c essive current occurs due to sudden load variation or ON-OFF, etc …

  • Mitsubishi FR — S500 — page 78

    69 2 CAU TION • * W hen «Operation not c ontinued for OL signal output» is s elected, the «OL T» alarm code (stopped b y stall prevention) is dis played and operation s topped. (Alarm stop display » «) • If the load is heavy, the lift is predetermined, or the acceleration/deceleration time is short, the stall preve …

  • Mitsubishi FR — S500 — page 79

    70 120Hz Pr.22 Pr.28 Pr.23 Stall prevention operation level (%) Outpu t frequency (Hz ) Reduction ratio compensation factor (%) =»- — -» Pr.23 When Setting exa m ple (Pr.22=150%, Pr.23=100% , Pr. 28=60Hz) 150 90 75 0 60 80100120 112.5 Stall p revention operatio n level (%) Output frequency (Hz ) <Setting> Generally, set 150% (factor …

  • Mitsubishi FR — S500 — page 80

    71 2 2 .3.14 Acceleration/decel er ation pattern Set the acceleration/deceleration pattern. Output frequenc y (Hz) fb Time [S-shape d acceler ati on/ decel er ati on A ] Set value 1 f1 f2 Output frequenc y (Hz) [S-shaped acceler ation/dec elerati on B] Set value 2 Time Set value 0 Time Output frequenc y (Hz) [Linear acceler ation/de celerat ion] Pa …

  • Mitsubishi FR — S500 — page 81

    72 2 .3.15 Extended functio n display sel ection Used to display the extended function parameters. Refer to page 46 for the ex tended function parameter list. Refer to the instruction manual (basic) f or the parameter setting method. Param eter Na me Fa ctor y Setting Setting Range Re mark s 30 Extended f uncti on displa y selection 00 , 1 0: W ith …

  • Mitsubishi FR — S500 — page 82

    73 2 2 .3.17 Speed display You can change the output frequency indication of the operation panel and parameter unit (FR-PU04) to the motor s peed or machine speed. Param eter Na me Fa ctor y Setting Setting Range Re mark s 37 Speed dis pl ay 0 0, 0. 1 t o 999 0: Output frequenc y Setting i s enabled when Pr. 30 = «1». <Setting> To d …

  • Mitsubishi FR — S500 — page 83

    74 2 .3.18 Biases and gains o f the freque ncy setting v oltage (current) to You can set the magnitude (slope) of the output frequency as desired in relation to the external frequency setting signal (0 to 5V, 0 to 10V or 4 to 20mA DC). The «bias» and «gain» functions are used to adjust the relationship between the input signal e …

  • Mitsubishi FR — S500 — page 84

    75 2 <Setting> (1) How to change the highest frequency (2) Adjusting the deviation of the highest frequency from the Pr. 38 (Pr. 39) setting. (2)-1) Make adjustment with a voltage applied directly across terminals 2-5 (with a current flowing across terminals 4-5) (2)-2) Make adjustment at any point without a voltage applied across terminals 2 …

  • Mitsubishi FR — S500 — page 85

    76 Changing example Changing the calibration parameter C4 «frequency setting voltage gain» value POINT The calibration parameter C4 is an extended function para meter. Pr. 30 must be set to «1 «. (2) Adjusting a deviation of the highest frequency from the Pr . 38 (Pr. 39) setting. (2)-1) Making adjustment with a voltage applied …

  • Mitsubishi FR — S500 — page 86

    77 2 (2)-2) Making adjustment at any point with a voltage not applied across terminals 2-5 ( w it h a current not flowing across terminals 4-5) Confirm the RUN indication and oper ation mode indication. The inverter must be at a stop. The inverter must be in the PU operation mode. (Press the key) SET SET MODE Curre nt operat ion Ana log vol tage an …

  • Mitsubishi FR — S500 — page 87

    78 2 .3.19 Start-time groun d fault detec tion selectio n You can choose whether to make ground fault detection valid or invalid at a start. Ground fault detection is executed only right after the start signal is input to the inverter. Param eter Na me Fact ory Setting <EC version> Setting Range Re mark s 40 Start — time ground fault det ecti …

  • Mitsubishi FR — S500 — page 88

    79 2 2 .4.2 Outpu t frequency detecti on The outp ut frequ ency det ection signal ( FU) is output when th e output fr equenc y reaches or exceeds the settin g. This fu nction can be us ed for el ectro magnetic brake o peration, o pen sign al, etc. You can also set t he detectio n of the freq uency used exclusi vely for reve rse r otation . Forw ard …

  • Mitsubishi FR — S500 — page 89

    80 2 .5 Curren t Detection Functio n Parameters 2 .5.1 Outpu t current detecti on functions If the output remains higher than the Pr. 48 setting during inverter operation for longer than the time set in Pr. 49, the output current detection signal (Y12) is output from the inverter’s open collector output terminal. Output c urrent Time Output c …

  • Mitsubishi FR — S500 — page 90

    81 2 2 .5.2 Zero c urrent detecti on W hen the inverter’s output current falls to «0», torque will not be generated. This may cause a gravity drop when the inverter is used in vertical lift application. ON Start sign al OF F Pr.50 Pr.51 detection time OFF OFF 100ms ON ON Pr.51 detection time Pr.50 «zero curre nt detection level& …

  • Mitsubishi FR — S500 — page 91

    82 2 .6 Disp lay Function Param eters 2 .6.1 Moni tor display You can choose t he display of the opera tion panel «monitor/f requency setting screen». For the Pr. 54 function, the Japanes e version has the FM terminal feature, and the NA and EC versions have the AM terminal feature. Parameter Name Factor y Settin g Settin g Range Remarks …

  • Mitsubishi FR — S500 — page 92

    83 2 2 .6.2 S etting dial functi on selection You can use the dial like a potentiometer to perform operation. Parameter Name Factory Settin g Setting Range Remarks 53 Frequenc y sett i ng operati on s elect ion 00 , 1 0: Sett i ng dial frequenc y sett i ng mode 1: Sett i ng dial potenti ometer mode Setting is enabled wh en Pr. 30 = «1» Us …

  • Mitsubishi FR — S500 — page 93

    84 2 .6.3 Moni toring r eference Set the f requency or current which is re fe re n ced w h en the output fr equenc y or output c urrent is selec ted for the FM (A M) terminal . • The Japanese version has the FM terminal feature, and the NA and EC versions have the AM terminal feature. 1440 p ulses/ s (termina l FM) Output freque ncy Pr.55 1440 pu …

  • Mitsubishi FR — S500 — page 94

    85 2 <Setting> Refer to the following table and set the parameters: Parameter Set ting Descript ion 0.1K to 1.5K Coast ing time of 0.5s 0 2.2K, 3.7K Coast ing time of 1.0s Generall y, this s etting wil l pose no pro blems. 0.1 to 5s W aiting time f or inverter -tr iggered res tart af ter power is rest ored from an i nstant aneous power f ailu …

  • Mitsubishi FR — S500 — page 95

    86 2 .8 Additional Function Parameter s 2 .8.1 Re mote setting f unction selectio n If the ope rator panel is loc ated awa y from th e cont rol box, you can use contact signals t o perf orm continuous variable -speed operation, without us ing anal og signals. Decelerat ion(RM) Clear( RL) Accelera tion(RH) Forw ard rotat i on (STF) Output frequ ency …

  • Mitsubishi FR — S500 — page 96

    87 2 <Setting> Oper ation Pr. 59 Set t ing Remote setting fu nction Frequen c y setting st orage functi on ( E 2 PROM) 0N o — — 1Y e s Y e s 2Y e s N o Use Pr. 59 to select whether the remote setting function is used or not and whether the frequency setting storage function* in the remote setting mode is used or not. W hen «rem ote s …

  • Mitsubishi FR — S500 — page 97

    88 CAU TION • The frequency can be varied by RH (acceleration) and RM (deceleration) between 0 and the maximum frequency (Pr. 1 setting). • W hen the acceleration or deceleration signal switches on, the set frequency varies according to the slope set in Pr. 44 «second acceleration/deceleration time» or Pr. 45 «second deceleration …

  • Mitsubishi FR — S500 — page 98

    89 2 <Setting> Refer to the following table and set the parameters: Settin g Si gnal Name Functions Related Parameter s Pr. 59 = «0» Low-s peed operat ion command Pr. 4 to Pr. 6, Pr. 24 to Pr. 27, Pr. 80 to Pr. 87 0R L Pr. 59 = «1», «2» (*1 ) Rem ote setting (set ting c lear) Pr. 59 Pr. 59 = «0» Mi ddle …

  • Mitsubishi FR — S500 — page 99

    90 2 .9.2 Outpu t terminal function selecti on You can change the functions of the open collector and c ontact output terminals. Param eter Na me Fa ctor y Setting S etting Range Re mark s 64 RUN terminal funct ion selectio n 0 65 A, B, C termi nal funct ion selectio n 99 0, 1, 3, 4, 11 to 16, 98, 99 Sett ing is enabl ed when Pr. 30 = «1» …

  • Mitsubishi FR — S500 — page 100

    91 2 2 .10 Operatio n Selection Function Parame ters 2 .10.1 Re try function W hen any protectiv e f unction (maj or f ault) is activated and the inverter stops its output, the inverter itself resets automatically and performs retries. You can select whether retry is made or not, alarms reset f or retry, number of retries made, and waiting time. Pa …

  • Mitsubishi FR — S500 — page 101

    92 CAU TION • The cumulative number in Pr. 69 is incremented by «1» when retry operation is regarded as successf ul, i.e. when norm al operation is c ontinued without the protective function (major fault) activated during a period four times longer than the time set in Pr. 68. • If the pr otective function (majo r fault) is activated …

  • Mitsubishi FR — S500 — page 102

    93 2 2 .10.3 Applied motor Set the motor used. POINT W hen u sing the Mitsubis hi constant-torque m oto r, set «1» in Pr. 71 for either V/F control or automatic torque boost control. The electronic overcurrent protection is set to the thermal characteris tic of the constant-torque motor. W hen y ou s elected the Mitsubishi constant-torque …

  • Mitsubishi FR — S500 — page 103

    94 2 .10.5 I np ut filter time constan t You can set the input section’s built-in filter constant for an external voltage or current frequency setting signal. Effective for eliminating noise in the frequency setting circuit. Parameter Name Fact or y Setting Set ting Range Remar ks 74 Input f i lter ti me const ant 1 0 to 8 Setti ng i s enabled …

  • Mitsubishi FR — S500 — page 104

    95 2 (1) Ho w to mak e a res tart afte r a stop by th e STOP RESET key input from the operation panel (Restarting method w ith shown) 1) After completion of deceleration to a stop, switch off the STF or STR signal. 2) Press the PU EXT key to show PU . …….. ( canc eled) 3) Press the PU EXT key to retu rn to EXT . 4) Switch on the STF or STR sign …

  • Mitsubishi FR — S500 — page 105

    96 CAUTION Do not reset the inverter with the start signal on. Otherwise, the m oto r will start instantly a fter resetting, leading to potentially hazardous conditions. 2 .10.7 Co oling fan op eration selecti on You can control the operation of the cooling fan built in the inverter (whether there is a cooling fan or not depends on the model.). Par …

  • Mitsubishi FR — S500 — page 106

    97 2 2 .10.8 Parameter w rite inhibit sel ection You can select between write-enable and disable for parameters. This func tion is used to prevent parameter values from being rewritten by incorrect operation. Param eter Na me Fact or y Setting S etting Range Re mark s 77 Parameter writ e di sable selectio n 0 0 , 1 , 2 Setting is enab led when Pr. …

  • Mitsubishi FR — S500 — page 107

    98 2 .10.9 Rev erse rotati on preventio n selection This function can prevent any reverse rotation fault res ulting f rom the incorrect input of the start signal. POINT Used for a machine which runs only in one direction, e.g. fan, pump. (The setting of this function is valid for the combined, PU, external and communication operations.) Parameter N …

  • Mitsubishi FR — S500 — page 108

    99 2 <Setting> In the following table, operation using the control panel or parameter unit is abbreviated to PU operation. LED In dicat ion * RUN PU EXT Pr. 7 9 Setting F unction RUN PU EXT 0 At power- on, the inver ter is put in t he exter nal operati on mo de. The op eration mod e can be changed bet ween the P U and ext er nal oper ation mo …

  • Mitsubishi FR — S500 — page 109

    100 (1) PU operation in t erl ock PU operation interlock forces the operation mode to be changed to the external operation mode when the MRS signal switches off. This function prevents the inverter from being inoperative by the external command if the mode is accidentally le ft unswitched from the PU operation mode. 1) Preparation Set «7» …

  • Mitsubishi FR — S500 — page 110

    101 2 REMARKS If the MRS signal is on, the operation mode cannot be switched to the PU operation mode when the start signal (STF, STR) is on. *1. The operation mode switches to the external operation mode independently of whether the start signal (STF, STR) is on or of f. Therefore, the motor is run in the external operation mode when the MRS signa …

  • Mitsubishi FR — S500 — page 111

    102 Param eter Na me Fact ory Setti ng Setti ng Range Re mark s 88 PID act i on selectio n 20 20, 21 89 PID propor t ional band 100% 0.1 t o 999 %, — — — 90 PID i nt egral ti me 1s 0. 1 to 999s, — — — 91 PID upper l imit — — — 0 to 100%, — — — 92 PID lower limit — — — 0 to 100% , — — — 93 PID act i on set point f or PU operati on 0% 0 to 100% 94 PI …

  • Mitsubishi FR — S500 — page 112

    103 2 2) PD action A combination of proportional control action (P) and differential control action (D) for providing a manipulated variable in response to deviation speed to improve the transient characteristic. REMARKS PD action is the sum of P and D actions. [Oper ation example for pro port ional chang es of pro cess value] Deviatio n Set point …

  • Mitsubishi FR — S500 — page 113

    104 5) Forward action Increases the manipulated variable (output frequency) if deviation X = (set point — process value) is negative, and decreases the manipulated variable if deviation is positive. Set point X>0 X<0 Feedback si gnal (Pro cess val ue) + — [Coolin g] Too co ld down Hot up Set poi nt Process va lue Deviation Relationships betwe …

  • Mitsubishi FR — S500 — page 114

    105 2 (4) I/O sign a ls Signa l Termina l Use d Function Descript ion X14 Dependi ng on Pr. 60 to Pr. 63 PID c ontrol selectio n Tur n on X1 4 to exer cise PI D control. 2 2 Set point input Enter t he s et point f or PID contr ol. Input 44 Proces s value input Enter t he 4 to 20mADC proc es s value signal f rom the det ec tor. FU P Upper limi t out …

  • Mitsubishi FR — S500 — page 115

    106 Param eter Numb er Name Setti ng De scripti on 0.1 to 999s Time required f or the i ntegral ( I) acti on to provide t he same manipul ated variabl e as that for t he proporti onal (P) ac tion. As the integr al time dec r eases, the s et poi nt is reac hed earlier but hunti n g occ ur s more eas ily. 90 PID integr al time — — — No integr al cont …

  • Mitsubishi FR — S500 — page 116

    107 2 (7) Ca libratio n example (A detector of 4mA at 0°C (32° F) and 20 mA at 50°C (122°F) is used to ad just the room temperature to 25°C (77°F) under PID control. The s et point is given t o across inve rter terminals 2-5 (0-5V ).) START Is the process value st eady? Adjust par amet ers. END Yes No Set the room t emperature t o 25 ° C (77 …

  • Mitsubishi FR — S500 — page 117

    108 <Set point input calibration> 1. Apply the input voltage of 0% set point setting (e.g. 0V) across terminals 2-5. 2. Make calibration using the calibration parameters C2, C3. At this time, enter in C2 the frequency which should be output by the inverter at the deviation of 0% (e.g. 0Hz). ( W hen using the FR-PU04, make calibration with Pr. …

  • Mitsubishi FR — S500 — page 118

    109 2 2 .11 Auxiliary Function Parameter s 2 .11.1 Slip compensat ion The inverter output current ma y be used to assume motor slip to keep the motor speed constant. Param eter Na me Fa ctor y Setting Setting Range Re mark s 95 Rated mo tor slip — — — 0 to 50%, — — — 96 Slip compens ation ti me const ant 0.5s 0.01 to 10s 97 Const ant- outp ut r egi …

  • Mitsubishi FR — S500 — page 119

    110 <Operating conditions> The number of motor poles should be any of 2, 4 and 6 poles . Single-motor operation (One motor for one inverter) The wiring length from inverter to motor should be within 30m (98.42feet). <Setting> Parameter Set ting Description — — — Or di nary V/F c ont rol and t or que boost (Pr. 0, Pr . 46) ar e val id. 9 …

  • Mitsubishi FR — S500 — page 120

    111 2 2 .11.3 Mo tor primary resistance Generally this parameter need not be set. At the factory setting of «- — -«, the standard motor constant of the motor capacity set in Pr. 98 (including that of the constant-torque motor) is us ed. Parameter Name Factor y Settin g Setting Range Remarks 99 Motor pr i mary resi stance — — — 0 to 50 Ω …

  • Mitsubishi FR — S500 — page 121

    112 Changing example Def lecting the meter (analog indicator ) to full-scale (1 mA) at the preset frequ ency of 60H z (for frequenc y setting, ref er to the instruction manual (b asic).) POINT The calibration parameters «C1» can be made to be ready by setting «1» (extended function parameter valid) in Pr. 30 «extended func …

  • Mitsubishi FR — S500 — page 122

    113 2 REMARKS • Depending on the set value, it may take so me for the needle t o move. • If «1» is set in Pr. 30 «extended function dis play selection», the calibra tion parameter C1 «FM ter minal calibration» can also be set in t he external oper ation mode. • C1 is factory-set to 1mA full-scale or 1440 pulses/s …

  • Mitsubishi FR — S500 — page 123

    114 Changing example Defl ecting the meter (analog indicator) to full-scale (5V) at the preset frequency of 60Hz (for frequency setting, refer to the instruction manual (basic).) POINT The calibration parameters «C1» can be made to be ready b y setting «1» (extended function parameter valid) in Pr. 30 «extended func tion di …

  • Mitsubishi FR — S500 — page 124

    115 2 POINT By se tti ng the Pr . 5 4 «AM termin al function selection» v alue, preset Pr. 5 5 «frequency monitoring ref erence» or Pr. 56 «current monitoring refere nce» to the running frequency or cu rrent value a t which the output s ignal is 5V. At 5V, the meter gen erally deflec ts to full-scale. ♦ ♦ ♦ ♦ R …

  • Mitsubishi FR — S500 — page 125

    116 2 .14 Communication Parameters (Only for the type having the RS-485 communication function) You can perform communication operation from the RS-485 connector of the inverter through RS-485. (1) O perational functions 1) Operation mode switching [Operation mode switching method] Computer link operati on Switchin g by com puter program External o …

  • Mitsubishi FR — S500 — page 126

    117 2 2) Operation mode-based func tions Operat ion Mode Operati on Location Item PU operat i on Ext ernal operation Computer link operation Run co mmand (start) Enab led Enabled (Com bin ed oper ati on mode) Dis abl ed Running frequency setting Enab led Enabled (Com bin ed oper ati on mode) Dis abl ed Monitoring Enab l ed E nabled Enabled Param et …

  • Mitsubishi FR — S500 — page 127

    118 2 .14.1 Co m muni cati on setti ngs to , Communication-related parameters Param eter Na me Fact ory Setting <NA, EC version> Setting Range Re mark s Refle ction Timing n1 (331) Co mmunic ati on stat ion n umber 0 0 to 31 A ft er r es et n2 (332) Co mmunic ati on speed 192 48, 96, 192 After rese t n3 (333) Stop b it leng th 1 0, 1, 10, 11 …

  • Mitsubishi FR — S500 — page 128

    119 2 REMARKS • For computer link operation, set 65520 (HFFF0) as the value «888» and 65 535 (HFFFF) as the value «- — -«. • Ref er to page 41 for handling the RS-485 connector. • Ref er to the «parameter data code list» (page 177) for the data c odes of the parameters. <Setting> To make communication betwe …

  • Mitsubishi FR — S500 — page 129

    120 <Computer program mi ng> (1) Communication protocol Data communication between the computer and inverter is performed using the following procedure: Data read Data writ e 1) 5) 4) 3) 2) *1 *2 Com puter (Dat a flow) Inver ter Com puter (Dat a flow) Inver ter Time REMARKS *1. If a data error is detected and a retry must be made, exec ute re …

  • Mitsubishi FR — S500 — page 130

    121 2 REMARKS * 1. Setting any of «0.1» to «999» in Pr. 37 «speed display» and «1» in data code «HFF» sets the data fo rmat to A» or E» (6-digit data). Also, the output frequency turns to a speed display, which is valid in 0.01r/min increments. (The third decimal place is invalid.) If the …

  • Mitsubishi FR — S500 — page 131

    122 4) Send data from computer to inverter during data read *3 ACK *4 Number of charact ers Inver ter stat ion number 1234 For m a t G Forma t H [No da ta er ror detect ed] [Data err or detecte d] Number of charact ers *3 NAK *4 Inver ter stat ion number 1234 (May be omitt ed) REMARKS • The inverter station numbers may be set between H00 and H1 F …

  • Mitsubishi FR — S500 — page 132

    123 2 5) W aiting time Specify the waiting time between the receipt of data at the inverter from the computer and the transmission of reply data. Set the waiting time in accordance with the response time of the computer between 0 and 150ms in 10ms increments (e.g. 1 = 10ms, 2 = 20ms). Computer Invert er Invert er Computer Invert er dat a processing …

  • Mitsubishi FR — S500 — page 133

    124 7) Sum check code The sum check code is 2-digit ASCII (hexadecimal) representing the lower 1 byte (8 bits) of the sum (binary) derived from the checked ASCII data. E N Q 1 0 1E1 0 7A D F 4 H05 H30 H31 H31 H45 H31 H30 H37 H41 H44 H46 H34 S T X 0 117 0 30 H02 H30 H31 H37 H31 H37 H30 H03 H33 H30 E T X 7 Sum check code Sum check code Binary code (E …

  • Mitsubishi FR — S500 — page 134

    125 2 CAUTION When the inverter’s permissible communication time interval is not set, interlocks are provided to disable operation to prevent hazardous conditions. Always set the communication check time interv al bef ore starting operation. Data communication is not started automatically but is m ade only once when the computer provides a com …

  • Mitsubishi FR — S500 — page 135

    126 <Setting items and set data> After c omple tion of par ameter s ettings , set the ins truc tion cod es and data then st art comm unicat ion from the comp uter to al low var ious types of operat ion cont rol and mo nitor ing. No. Item Inst ru ctio n Code Description Numb er of Dat a Digit s (Data code FF = 1) Read H7B H0000: Communi c atio …

  • Mitsubishi FR — S500 — page 136

    127 2 No. Item Inst ru ctio n Code Description Numb er of Dat a Digit s (Data code FF = 1) 4 Invert er st at us monitor H7A b7 000000 0 1 b0 [For example 1] [Example 1] H02 … Dur ing fo r wa rd r ot at i o n [Example 2] H80 … Stop due to a la r m b0: Inv ert er runni ng (RUN)* b1: Forward rota tion b2: Reverse ro tation b3: Up to fr equency (SU …

  • Mitsubishi FR — S500 — page 137

    128 No. Item Inst ru ctio n Code Description Number of Dat a Digit s Read H7F 11 Link parameter expa nsion setting Wr ite HF F H00 to H6C and H8 0 to HEC paramet er values are change d. H00: Pr. 0 t o Pr. 99 ar e acc essibl e. H01: Communi cati on parameter n13 ( Pr. 145 ) and cali bration par ameters C1 to C7 ( Pr. 900 t o Pr. 905) are acc ess ibl …

  • Mitsubishi FR — S500 — page 138

    129 2 (5) Operation at alarm occur r ence Operati on Mode Fault Locat i on Descrip t ion Communicat ion Operati on ( RS-485 connect or ) External O p erati on Invert er operati on Stop Stop Invert er fault Co mmunic ati on RS-48 5 connecto r Conti nued Conti nued Invert er operati on Stop/conti nue d (*3) Continu ed Communicat i on error (Communic …

  • Mitsubishi FR — S500 — page 139

    130 2 .14.2 O peration and speed comm and write Used to make valid the operation and speed commands from the computer or external terminals. Param eter Na me Fact or y Setting S etting Range Re mark s n8 (3 38) Op erat ion comma nd writ e 00 , 1 n9 (3 39) Speed command write 00 , 1 Setting is enab led when Pr. 30 = «1» The parameter numbe …

  • Mitsubishi FR — S500 — page 140

    131 2 n8 (Pr. 338 ) «opera tion comm and writ e» 0: Comp uter 0: Comp uter 1: Exter nal 1: Exter nal Operat io n location sele ctio n n9 (Pr . 33 9) » speed comm and writ e» 0: Comp uter 1: Exter nal 0: Comp uter 1: Exter nal Remar ks Remote setting (RH , RM, RL) Computer E xter nal Co mput er Exter nal RH, RM, RL, REX selection …

  • Mitsubishi FR — S500 — page 141

    132 <Setting> n10 Settin g Pr . 79 Operat i on Mode Mode at Power-On or at Power Restorat ion after I nstantaneous P ower Failur e 0 PU or e xternal op er ation Placed in t he extern al operation mo de. 1 PU operat ion Plac ed in the PU op er ation mode. 2 E xter nal oper at ion Pl aced in t he e xternal oper ation mo de. 3 Exte rnal/PU co mb …

  • Mitsubishi FR — S500 — page 142

    133 2 2 .15 Parameter Unit (FR-PU04) Setting W hen the optional parameter unit (FR-PU04) is connected to the RS-485 connec tor of the inverte r, you can make the environment s etting of the p arameter unit. CAU TION W hen the param eter unit (FR -PU04) is used, operation from the operation panel is not accepted. (The stop key ( STOP RESET key) is v …

  • Mitsubishi FR — S500 — page 143

    134 2 .15.3 PU contrast adjustment By setting the communication parameter n15 «PU contrast adjustment», you can adjust the LCD contact of the parameter unit (FR-PU04). W hen using the FR- PU04, adjust the numerical value to any brightness with the / keys and define that brightness with the WRITE key of the parameter unit. Parameter Name F …

  • Mitsubishi FR — S500 — page 144

    135 2 2 .15.5 PU disconnection detection/PU setti ng lock You can choose the connector disconnection detection function of the parameter unit (FR-PU04) and the operation write of the paramete r unit (FR-PU04). PU disconnection detection : This f unction detects that the param eter unit (FR-PU04) has been disc onnected from the inverter for longer t …

  • Mitsubishi FR — S500 — page 145

    136 3 This chapter explains the «protective functions» of this product. Always read the instructions before using the equipment. 3.1 Er rors (Alarms) …………………………………………… 13 7 3.2 Troubleshootin g ………………………………………….. 146 3.3 Precautions for Mai ntenance and Inspection……. 14 …

  • Mitsubishi FR — S500 — page 146

    137 3 .1 Errors (Alarm s) If any fault has occurred in the inverter, the corresponding protec tive f unction is activated to bring the inverter to an alarm stop and automatically give the corresponding error (alarm) indic ation on the PU display. If your fault does not correspond to any of the following errors or if you have any other problem, plea …

  • Mitsubishi FR — S500 — page 147

    138 3 Operat io n Panel I ndi catio n O C2 FR-PU04 Stedy Spd OC Name Over curr ent cut- off duri ng c onstant speed Descrip tion W hen the inverter output c ur rent r eaches or exceeds approxim ately 20 0% of the r ated inv er ter c urrent dur i ng const ant- speed oper ation, t he protec tive c i rcuit is acti vat ed to st op the invert er output. …

  • Mitsubishi FR — S500 — page 148

    139 Operat io n Panel I ndi catio n O V 3 FR-PU04 OV Dur ing Dec Name Rege nerati ve o vervol tage cut- off dur i ng deceler at ion or s top Descrip tion W hen the main ci rcuit DC voltage i n the inver ter r ises to or above the speci fied value due t o excess ive regener ative ener gy duri ng deceler ation or stop, t he protec tive c ircuit is ac …

  • Mitsubishi FR — S500 — page 149

    140 3 Operat io n Panel I ndi catio n G F FR-PU04 Ground Faul t Name St art- t ime output si de ground f aul t overc ur rent pr ot ecti on Descrip tion This f unction st ops the i nverter out put if a gr ound fault over curr ent flows due to a ground fa ult whi c h occ urr ed in the inver ter’ s output (load) s ide. Made val i d when Pr. 40 &q …

  • Mitsubishi FR — S500 — page 150

    141 Operat io n Panel I ndi catio n P UE FR-PU04 PU Leave Out Name PU di sconnec ted (*3) Descrip tion Stops t he inverter output if communic ation betwee n inver ter and PU is sus pende d, e. g. i f t he PU is dis c onnec ted wi th «1» s et i n the communic ation paramet er n17 «PU disconnec tion detecti on/PU setting lock». Ch …

  • Mitsubishi FR — S500 — page 151

    142 3 (3) Warn in g s Operat io n Panel I ndi catio n O L FR-PU04 OL Name St all prevent ion (over curr ent) During accele ration If a current of more than 150% ( * 4) of the rated invert er cur rent flows in the motor , this func tion stops the incr ease in fr equency unti l the overl oad curr ent reduc es to pr event the inver ter from resul ting …

  • Mitsubishi FR — S500 — page 152

    143 Operat io n Panel I ndi catio n PS FR-PU04 PS Name PU s top (Stopped wi th PU STOP key) Descrip tion Pr. 75 «r eset selec tion/PU st op selec tion» had been s et and a st op was made by pres sing t he STOP RESET key of the operati on panel or parameter unit (FR-PU04) during oper atio n in the exter nal operati on mo de. Check poi nt C …

  • Mitsubishi FR — S500 — page 153

    144 3 Operat io n Panel I ndi catio n E r 2 FR-PU04 In PU/EXT M ode OPER ATOR ERR Name W rite- while-runni ng error/ mode desi gnation err or Descrip tion Writ e was perfor med during oper ation. An attempt was made t o change th e Pr. 79 set ting to t he operati on mo de where t he operat ion comman d has been inp ut. Writ e was perfor m ed in the …

  • Mitsubishi FR — S500 — page 154

    145 3 .1.2 To k now the oper ating status at th e occurrence o f alarm (Only when FR -PU04 is used) W hen any alarm has occurred, the dis play automatically s witc hes to the indication o f the corresponding protective f unc tion (error). By pressing the MON key at this point without resetting the inverter, the display shows the output frequency. I …

  • Mitsubishi FR — S500 — page 155

    146 3 3 .2 Troubleshoo ting POINTS Check the corresponding areas. If the c ause is still unknown, it is rec omm ended to initialize the param ete rs (return to factory settings), re-s et the required parameter values, and check again. 3 .2.1 Mo tor remain s stoppe d 1) Check the main circuit Check that a proper power supply voltage is applied (oper …

  • Mitsubishi FR — S500 — page 156

    147 3 .2.2 Motor r otates in opposite direction Check that the phase sequenc e of output terminals U, V and W is correct. Check that the start si gnals (forward rotation, reverse rotation) are connected properly. Check the setting of Pr. 17 «RUN key rotation direction selection». 3 .2.3 Spee d greatly dif fers from the s etting Check that …

  • Mitsubishi FR — S500 — page 157

    148 3 3 .2.8 Oper ation mod e is not chang ed properly If the operation mode does not change correctly, check the following: 1. External input signal ……… Check that the STF or STR signal is off. W hen it is on, the operation mode cannot be changed. 2. Parameter setting …………. Chec k the Pr. 79 setting. W hen the Pr. 79 «operation …

  • Mitsubishi FR — S500 — page 158

    149 3 .3 Precaution s for Maintenan ce and Inspection The inverter is a static unit mainly consisting of semiconductor devices. Daily inspection must be performed to prevent any f ault from occurring due to adverse influence of the operating environment, such as temperature, humidity, dust, dirt and vibration, changes in the parts with time, servic …

  • Mitsubishi FR — S500 — page 159

    150 3 3 .3.4 Insulatio n resistance test using megger 1) Before performing the insulation resistance test using a megger on the external circuit, disconnect the cables from all terminals of the inverter so that the test voltage is not applied to the inverter. 2) For the continuity test of the control circ uit, use a meter (high resistance range) an …

  • Mitsubishi FR — S500 — page 160

    151 Inter val Periodic* Are a o f Inspecti on Inspecti on Item Descripti on Daily 1 year 2 years Method Criter ion Instr ument General General (1) Ch e ck w ith megger (across main cir cuit termi nals and gro und termina l). (2) Ch e ck fo r loose s crews and bol ts. (3) Ch e ck fo r overh eat on each part . (4) Cle an . (1) Di sc onnect all c able …

  • Mitsubishi FR — S500 — page 161

    152 3 Inter val Periodic* Are a o f Inspecti on Inspecti on Item Descripti on Daily 1 year 2 years Method Criter ion Instr ument Control circ ui t Protec tive cir cuit Operati on check (1) Ch eck balance of output voltages acros s phases wi th inve rter operate d indepe ndentl y . (2) Pe rform sequence protec tive operati on test to m ake sure t he …

  • Mitsubishi FR — S500 — page 162

    153 Checking the inverter and conv erter modules <Preparation> (1) Disconnect the external power s upply cables (R, S, T) and motor cables (U, V, W). (2) Prepare a meter. (Use 100 Ω range.) <Checking method> Change the polarity of the meter alternately at the inverter terminals R, S, T, U, V, W, P and N, and check for c ontinuity. CAU …

  • Mitsubishi FR — S500 — page 163

    154 3 3 .3.7 Repl acement of parts The inverter consists of many electronic parts such as semiconductor devices. The following parts may deteriorate with age because of their structural or physical characteristics, leading to reduced perf ormance and/or failure of the inverter. For preventive maintenance, the parts must be changed periodically. Par …

  • Mitsubishi FR — S500 — page 164

    155 Removal 1) Remove the front cover and wiring cover. (Refer to the instruction manual (basic).) 2) Unplug the fan connector. The cooling f an is connected with the cooling fan connector on the side of the inverter terminal block. Unplug the connector to disconnect the inverter and cooling fan. 3) Remove the cooling fan cover. Remove the cover by …

  • Mitsubishi FR — S500 — page 165

    156 3 (2) Smoothing capacitors A large-capacity aluminum electrolytic capacitor is used for smoothing the DC in the main circuit, and an aluminum electrolytic capacitor is also used for stabilizing the control power in the control circ uit. Their characteristics are adversely aff ected by ripple current, etc. W hen the inverter is operated in an or …

  • Mitsubishi FR — S500 — page 166

    157 3 .3.8 Meas urement of mai n circuit v oltages, currents a nd powers Measurement of voltages and currents Since the voltages and currents on the inverter power supply and output sides include harmonics, accurate measurement depends on the instruments used and circuits measured. W hen inst ruments f or commercial frequency are used for measureme …

  • Mitsubishi FR — S500 — page 167

    158 3 Measuring Points and Instru ments Item Measuri ng Point Measuring Instru ment Remarks (Refer ence Measure d Val ue) Power suppl y voltage (V1) Across R- S, S-T and T-R Moving-iron t ype AC vo ltmeter Is the c ommer cial power supply within per missibl e variati on of AC voltage (Refer to page 161) Power suppl y side curr ent (I1) R, S and T l …

  • Mitsubishi FR — S500 — page 168

    159 Item Measuri ng Point Measuring Instru ment Remarks (Refer ence Measure d Val ue) Frequenc y sett i ng power suppl y Across 1 0 (+)-5 5VD C «5» is common. Acros s FM (+)-SD Approxim ately 5VDC at maximum frequ ency (wit hout frequenc y meter) 8VD C T1 T2 Pulse wi dt h T1: Adjusted wi th C1 Pulse cycle T2: Set with Pr. 55 (Pr ,56) SD i …

  • Mitsubishi FR — S500 — page 169

    160 4 This chapter provides the «specifications» of this product. Always read the instructions before using the equipment 4.1 Sp ecifica tion Li st ………………………………………….. 161 4.2 Outl ine dra w ings ………………………………………….. 167 4. SPECIFI- CATIONS Chapt er 1 Chapt er 2 Chapt er 3 Chapt …

  • Mitsubishi FR — S500 — page 170

    161 4 .1 S pec if ic ati o n List 4 .1.1 Ratings (1) 3-phase 200V po w er supply Japanese version FR-S520-0.1K to 3.7K (-R) (-C) NA version FR-S520-0.1K to 3.7K-NA Type FR- S52 0- K(-R ) (-C) 0.1 0.2 0.4 0.75 1.5 2.2 3.7 kW 0.1 0.2 0.4 0.75 1.5 2.2 3.7 Applic abl e motor c apac ity (*1) HP 1/8 1/4 1/2 1 2 3 5 Rated capac ity ( k VA) (*2) 0.3 0. 5 1 …

  • Mitsubishi FR — S500 — page 171

    162 4 (2) 3-phase 400V po w er supply Japanese version FR-S540-0.4K to 3.7K (-R) NA version FR-S540-0.4K to 3.7K-NA (R) EC version FR-S540-0.4K to 3.7K-EC (R) Type FR- S54 0- K(-R) 0. 4 0.75 1.5 2. 2 3.7 kW 0.4 0.75 1.5 2.2 3.7 Applic abl e motor c apac ity (*1) H P 1 / 2 1235 Rated capac ity ( k VA) (*2) 0.9 1.6 2.7 3.7 5.9 Rated cur rent ( A) 1.1 …

  • Mitsubishi FR — S500 — page 172

    163 (3) Single-phase 200V po w er supply Japanese version FR-S520S-0.1K to 1.5K (-R) EC version FR-S520S-0.2K to 1.5K-EC (R) Type FR- S52 0S- K(-R) 0.1 0. 2 0.4 0.75 1.5 kW 0.1 0.2 0 .4 0.75 1.5 Applic abl e motor c apac ity (*1) HP 1/8 1/ 4 1/2 1 2 Rated capac ity ( k VA) (*2) 0.3 0.5 1.0 1.6 2.8 Rated cur rent ( A) 0.8 1.4 2.5 4.1 7.0 Overload c …

  • Mitsubishi FR — S500 — page 173

    164 4 (4) Single-phase 100V po w er supply Japanese version FR-S510W -0.1K to 0.75K (-R) NA version FR-S510W -0.1K to 0.75K-NA Type FR- S51 0W- K(-R) 0.1 0.2 0.4 0.75 kW 0.1 0. 2 0. 4 0. 75 Applic abl e motor c apac ity (*1) HP 1/8 1/4 1/ 2 1 Rated capac ity ( k VA) (*2) 0. 3 0.5 1. 0 1.6 Rated cur rent ( A) 0.8 1. 4 2. 5 4.1 Overload c apaci t y ( …

  • Mitsubishi FR — S500 — page 174

    165 4 .1.2 Co mmon speci f ica tions Control met hod Select able betw een S oft- PWM cont rol and high c arri er frequenc y PW M cont rol, V/F c ontrol or aut omatic t orque boost c ontrol s electabl e. Output f r equency r ange 0.5 t o 120H z (s t arting fr equency var iable bet w een 0 and 60Hz) Frequenc y sett ing resol ution 5VDC input: 1/ 500 …

  • Mitsubishi FR — S500 — page 175

    166 4 Operati on f uncti ons Maximum and mini mum freque nc y sett i ng, frequenc y jump operati on, exter nal thermal relay input selec t ion, automat ic rest art aft er instant aneo us power f ailur e, forwar d/revers e rotat i on prevent i on, sl i p compensat ion, operat ion mode selec tion, PI D control, computer li nk operat i on (RS-485) (*3 …

  • Mitsubishi FR — S500 — page 176

    167 4 .2 Outline Drawings (Remarks) For the dimensions of the type having RS-485 communication function and the totally enclosed structure type, refer to those of the standard type inverter of the same capacity. φ 5 hole 68 (2.68) 6 (0.24) 56 (2. 2 0) 6 (0.24) 5 (0.20) 128 (5.04) 5 (0.20) 118 (4. 65) -+ 5 (0.20) 18.5 (0.73) D1 4 (0.1 6 ) D2 D Capa …

  • Mitsubishi FR — S500 — page 177

    168 4 Capacity 1.5K, 2.2K 3.7K 170 (6.69) 108 (4.25) W 158 (6.22) 96 (3.78) W1 142.5 (5.61) 135.5 (5.33) D 72 (2.83) 65 (2.56) D1 52 (2.05) 52 (2.05) D2 5 (0.20) 8 (0.31) D3 18.5 (0.73) D D2 D1 D 3 5 (0 .20) 118 (4.65) 5 (0.20) W W1 128 (5.04) 5 (0.20) -+ 6 (0.24) 6 (0.24) Cooling fan×1 φ 5 hole FR-S510 W-0.75K(-NA) Capacity 1.5K 108 (4.25) W 96 …

  • Mitsubishi FR — S500 — page 178

    169 Parameter unit (FR -PU04) <Outline drawing> <Panel cut dimension drawing> 40 (1.57) 23.75 (0.93) 11.75 (0.4 6) 81.5 ( 3. 21) 1.25 (0 .05) 1.5 ( 0. 06) 17 (0 .67) 16.5 (0 .65) 1.5 (0.06) 125 ( 4.92) 72 (2.83) 15 (0 .59) 10.5 (0.4 1) 18.5 ( 0. 73) 40 (1.57) 80 (3 .15) 48 (1.89) 5-M3 hole 24 (0.9 7) 13 (0 .51) 20 (0 .79) 21.5 ( 0. 85) …

  • Mitsubishi FR — S500 — page 179

    170 5.1 Se lectin g Instru ctions ……………………………………. 171 5.2 Pe riphera l Sele cting In structi ons …………………….. 171 5.3 Ope ra ting Inst ructions …………………………………… 173 5.4 Inv erter-driven 400V cl ass motor ……………………. 175 5. INSTRUCTIONS …

  • Mitsubishi FR — S500 — page 180

    171 5 .1 Selec t ing Instruction s (1) Inverter capacity sel ect i on W hen a spec ial m otor is run or multiple motors are run in parallel by one inv ert er, choose the inverter capacity so that the sum of the rated motor currents (at 50Hz) will be not more than the rated output current of the inverter . (2) Mo tor star ting to rque The starting a …

  • Mitsubishi FR — S500 — page 181

    172 (2) Handling of primary side magnetic contactor When the external terminal is used (terminal STF or STR is used) f or operation, provide a primary side MC to prevent accidents due to an automatic restart at power restoration after a power f ailure, such as an instantaneous power failure, and to ensure safety in maintenance work. Do not use this …

  • Mitsubishi FR — S500 — page 182

    173 (8) Cable thickness and w iring distance If the inverter-to-motor wiring distance is long, the motor torque will decrease due to a voltage drop in the main circuit cables especially a t low frequency output. Use thick cables for wiring to make a voltage drop less than 2%. (A selection example for the wiring distance of 20m (65.62feet) is given …

  • Mitsubishi FR — S500 — page 183

    174 (3) Ins tallatio n Avoid hostile environment where oil m ist, f luff, dust etc. are floating, and install the inverter in a clean place or put it within an enclosed box where floating bodies will not enter. When placing the inverter inside a box, determine the cooling system and box dimensions so that the ambient tem perature of the inverter wi …

  • Mitsubishi FR — S500 — page 184

    175 5 .4 Inverter-driv en 400V clas s motor In the PW M type inv erter, a s urge voltage attributable to wiring constants is generated at the motor terminals. Especially for a 400V class motor, the surge voltage may deteriorate the insulation. When the 400V class motor is driven by the inverter, consider the following measures: # Measures It is rec …

  • Mitsubishi FR — S500 — page 185

    176 APPENDIX 1 PARAMETER DATA C O DE LIST ….. 177 APPENDIX …

  • Mitsubishi FR — S500 — page 186

    177 APPENDIX 1 PARAMETER DATA CODE LIST Data Code Func- tion Parameter Number Name Read Writ e Computer Link Data Settin g Increment s * Link Parameter Extensio n Settin g (Data Code 7F/FF) 0 Tor que boos t 00 80 0.1% 0 1 M a ximum frequ enc y 01 81 0.01Hz 0 2 M i nimum fr equenc y 02 82 0. 01Hz 0 3 Bas e frequenc y 03 83 0.01Hz 0 4 Multi — speed s …

  • Mitsubishi FR — S500 — page 187

    178 Data Code Func- tion Parameter Number Name Read Writ e Computer Link Data Settin g Increment s * Link Parameter Extensio n Settin g (Data Code 7F/FF) 23 Stall pr evention o per ation level c ompens ation f ac tor at double s peed 17 97 0.1% 0 24 Multi — speed set ting (speed 4) 18 98 0.01Hz 0 25 Multi — speed set ting (speed 5) 19 99 0.01Hz 0 2 …

  • Mitsubishi FR — S500 — page 188

    179 Data Code Func- tion Parameter Number Name Read Writ e Computer Link Data Settin g Increment s * Link Parameter Extensio n Settin g (Data Code 7F/FF) 48 Output c urrent det ecti on leve l 30 B0 0.1% 0 49 Output c urrent det ecti on signal del ay time 31 B1 0.1s 0 50 Zero cur rent det ec tion leve l 32 B2 0.1% 0 Current detecti on 51 Zero cur re …

  • Mitsubishi FR — S500 — page 189

    180 Data Code Func- tion Parameter Number Name Read Writ e Computer Link Data Settin g Increment s * Link Parameter Extensio n Settin g (Data Code 7F/FF) 72 P WM fr equency s electi on 48 C8 1 0 73 0-5V/0-10V s el ection 49 C9 1 0 74 Input fil ter time c onstant 4A CA 1 0 75 Rese t selection/P U stop selectio n 4B CB 1 0 76 Cooling f an o perati on …

  • Mitsubishi FR — S500 — page 190

    181 Data Code Func- tion Parameter Number Name Read Writ e Computer Link Data Settin g Increment s * Link Parameter Extensio n Settin g (Data Code 7F/FF) C1 (900 (901)) FM (AM) term inal calibra tion 5C DC  1 C2 (902) Freque ncy set t ing voltage bi as fr equenc y 5E DE 0. 01Hz 1 (6C/E C=0) C3 (902) Freque ncy set t ing voltage bi as 5E DE 0.1% …

  • Mitsubishi FR — S500 — page 191

    REVISIO NS *The manual number is given on the bottom left of the back cover. Print Dat e *Manual Number Revision Mar, 2000 IB( NA)-060002 7-A Fir s t edition Jun., 2000 I B(NA)- 0600027-B Addi tion Single- ph ase 100 V pow er input speci ficati ons Mar., 2001 IB(NA)-060002 7-C Addition 3-phase 40 0V power i nput spec i fic at ions …

Mitsubishi FR-S 500 Преобразователи частоты купить по лучшей цене

  pea.ru » Частотные преобразователи купить в Москве по самым низким ценам » Преобразователи частоты Mitsubishi Electric » Mitsubishi FR-S 500 Преобразователи частоты купить по лучшей цене

Широкий ассортимент современных приборов, которые представлены в виде частотных преобразователей Mitsubishi Electric, позволяет каждому клиенту подобрать необходимый тип оборудования, учитывая индивидуальные технические потребности. Модель частотного преобразователя Mitsubishi FR-S 500, которая является одной из наиболее востребованных на сегодняшний день, отличается высоким уровнем надежности и максимальной степенью дополнительной оснащенности. Оригинальный частотник Mitsubishi FR-S 500 рассчитан на подключение к однофазной и трехфазной сети с выходной мощностью от 0,2 до 1,5 кВт для однофазной сети и от 0,4 до 3,7 для трехфазного подключения.

Применение частотного преобразователя FR-S 500

Частотный преобразователь Mitsubishi FR-S 500, цена которого является наиболее низкой в нашей компании на сегодняшний день, широко используется в различных сферах жизнедеятельности современного человека. Их устанавливают на:

  • специальное оборудование для обработки металлов и древесины;
  • универсальное полиграфическое оборудование;
  • станки текстильного производства;
  • элементы управления сверлильными станками;
  • разнообразное насосное оборудование;
  • транспортеры, дробилки, мельницы, вентиляторы и прочее промышленное оборудование.

Оформление заказа

Для того чтобы частотный преобразователь Mitsubishi купить по наиболее выгодной цене необходимо обратиться к представителям нашей компании, которые всегда готовы предоставить максимально информативную консультацию в плане выбора и продажи оригинальной продукции.

Основные технические характеристики

Основные технические характеристики

Масса и габариты

Масса и габариты

Полный контроль одним нажатием: новый преобразователь частоты Mitsubishi Electric серии FR-S500

Фирма Mitsubishi Electric пополнила свою весьма удачную 500-ю серию преобразователей частоты новым, компактным FR-S520 и FR-S540. Представление преобразователя частоты FR-S520 и FR-S40 позволило закрыть 500-й серией всю линейку необходимых потребителям инверторов. До этого события Mitsubishi Electric уже было лидером в технологии производства преобразователей частоты, зачастую устанавливая стандарты для других производителей. Следуя этой успешной традиции, преобразователь частоты Mitsubishi Electric серии FR-S500 является мощным рывком в продолжающемся R&D и систематичном обновлении моделей. Физические размеры модели FR-S520 и FR-S540 были вновь уменьшены, и на сегодняшний день данная серия инверторов является самой компактной среди всех известных аналогов.

Поддержание концепции продукта

Mitsubishi Electric уже продемонстрировала преимущества концепции единообразия в таких сериях преобразователей частоты, как FR-E520, FR-E540, FR-A540, и их «большого брата» инвертора FR-A540L. И это начинание было продолжено во всей серии преобразователей частоты FR-S520 иFR-S540. Стандартизированные операции по настройке, также являются ключевым элементом для всей 500-й серии, то есть человек который сталкивался хотя бы с одним из преобразователей частоты Mitsubishi Electric 500-й серии, будет способен работать с любым из преобразователей частоты серии 500. Специально разработанное программное обеспечение поддерживается исключительно всеми преобразователями частоты всех серий. С помощью данного программного обеспечения даже неопытный пользователь сможет настроить преобразователь частоты для его нужд и запустить его в работу быстро и эффективно.

Настройка с помощью встроенного цифрового поворотного регулятора

Простота, быстрота настройки были приоритетными направлениями при разработке преобразователя частоты серии FR-S520 и FR-S540. Впечатляющим результатом данных усилий явился «Digital Dial» (цифровой регулятор), который напоминает джойстики для управления современными видеомагнитофонами и мобильными телефонами. Введение цифрового поворотного регулятора позволило заменить стандартные кнопки и теперь намного проще получить доступ к 12 наиболее важным параметрам настройки преобразователя частоты. Это нововведение весьма облегчило настройку преобразователя частоты новыми пользователями и практически исключает некорректную настройку преобразователя частоты — это абсолютно новое разработка.

Глобальный игрок

Наличие порта RS-485 (для преобразователя частоты серии FR-S500…ECR) позволяет инверторам FR-S500 обмениваться данными как с компьютером (используя программное обеспечение VFD-Setup), так и с программируемым логическим контроллером (ПЛК), соединяя в сеть до 32 преобразователей частоты. Если необходимо, то возможно использовать один из преобразователей частоты 500-й серии для внешнего контроля, например для копирования параметров настройки при использовании большого количества станков и на больших предприятиях, или для удаленного контроля на диспетчерском пульте. Преобразователь частоты действительно является «глобальным игроком», имея сертификат ГОСТ, CE, UL и cUL, а также позволяющий использовать как положительную, так и отрицательную логику при управлении.

И снова Mitsubishi Electric разработала для преобразователей частоты серии FR-S520 и FR-S540 новые элементы hardware для поддержания необходимых стандартов высокого качества и функциональности. Новый силовой транзисторный модуль снабжен системой автоматического поддержания момента, что является в некотором роде аналогом векторного управления — это позволяет развивать 150% номинального момента уже при 6 Гц. Преобразователи частоты FR-S520 и FR-S540 также имеют интегрированную систему мониторинга величины тока и электронный ограничитель нарастания тока для защиты выключателей и контакторов.

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