Mitsubishi Electric FR-F806-E Hardware Instruction Manual

Inverter for fans and pumps, ip55/ul type 12

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INVERTER

FR-F800-E

FR-F806-E (IP55/UL Type 12 SPECIFICATIONS)

INSTRUCTION MANUAL (HARDWARE)

Inverter for fans and pumps

FR-F846-00023(0.75K) to 03610(160K)-E-L2

INTRODUCTION

INSTALLATION AND WIRING

PRECAUTIONS FOR USE OF

THE INVERTER

PROTECTIVE FUNCTIONS

PRECAUTIONS FOR

MAINTENANCE AND

INSPECTION

SPECIFICATIONS

Table of Contents

Chapters

Table of Contents

Summary of Contents for Mitsubishi Electric FR-F806-E

Page 1 INVERTER FR-F800-E FR-F806-E (IP55/UL Type 12 SPECIFICATIONS) INSTRUCTION MANUAL (HARDWARE) Inverter for fans and pumps FR-F846-00023(0.75K) to 03610(160K)-E-L2 INTRODUCTION INSTALLATION AND WIRING PRECAUTIONS FOR USE OF THE INVERTER PROTECTIVE FUNCTIONS PRECAUTIONS FOR MAINTENANCE AND INSPECTION SPECIFICATIONS...
Page 2 Thank you for choosing this Mitsubishi Electric inverter. This Instruction Manual describes handling and cautions about the hardware, such as installation and wiring, for the FR-F806 (IP55/ UL Type12 specification product) that are different from the FR-F800. Information about the software, such as basic operations and parameters, is described in the FR-F800 Instruction Manual (Detailed) in the CD-ROM enclosed with the product.
Page 3  Additional Instructions The following instructions must be also followed. If the product Warning is handled incorrectly, it may cause unexpected fault, an injury, Usage or an electric shock.  Everyone must stay away from the equipment when the retry function is set as it will restart suddenly after a trip. Caution ...
Page 4 Caution Caution Usage Waterproof and dustproof performances  The electronic thermal relay function does not guarantee  The inverter is rated with an IPX5 waterproof rating and an  protection of the motor from overheating. It is IP5X dustproof rating when the operation panel (FR-DU08- ...
Page 5 CONTENTS 1 INTRODUCTION Product checking and accessories Component names About the related manuals 2 INSTALLATION AND WIRING Peripheral devices 2.1.1 Inverter and peripheral devices ........................12 2.1.2 Peripheral devices............................14 Removal and reinstallation of the front cover Installation of the inverter 2.3.1 Inverter installation environment ........................
Page 6 2.10 Installing a communication option 3 PRECAUTIONS FOR USE OF THE INVERTER Electro-magnetic interference (EMI) and leakage currents 3.1.1 Leakage currents and countermeasures ......................60 3.1.2 Countermeasures against inverter-generated EMI..................62 3.1.3 Built-in EMC filter ............................64 Power supply harmonics 3.2.1 Power supply harmonics..........................65 3.2.2 Harmonic suppression guidelines in Japan ....................66 Installation of a reactor...
Page 7: Table Of Contents
5.2.5 Measurement of inverter input power factor....................107 5.2.6 Measurement of converter output voltage (across terminals P and N) ............107 5.2.7 Measurement of inverter output frequency....................108 5.2.8 Insulation resistance test using megger ....................... 108 5.2.9 Pressure test ..............................108 6 SPECIFICATIONS Inverter rating Common specifications...
Page 8 Operation panel: LCD operation panel (FR-LU08-01) Parameter unit: Parameter unit (FR-PU07) PU: LCD operation panel (FR-LU08-01) and parameter unit (FR-PU07) Inverter: Mitsubishi Electric inverter FR-F800-E series (IP55 compatible model) Ethernet board: Ethernet communication board (FR-A8ETH) Pr.: Parameter number (Number assigned to function)
Page 9 Product checking and accessories Product checking and accessories Unpack the product and check the rating plate and the capacity plate of the inverter to ensure that the model agrees with the order and the product is intact.  Inverter model ∗1 Structure, Symbol Type...
Page 10 Component names Component names Component names are shown below. (Example: FR-F846-00250(11K)) Front cover for control circuit inspection Front cover for main circuit inspection Front cover of the FR-F846-01800(75K) or higher Refer to Symbol Name Description page Connects the operation panel or the parameter unit. This connector also enables PU connector the RS-485 communication.
Page 11 About the related manuals About the related manuals The manuals related to FR-F806-E-L2 are shown below. Manual name Manual number FR-F800 Instruction Manual (Detailed) IB-0600547ENG Ethernet Function Manual IB-0600628ENG FR Configurator 2 Instruction Manual IB-0600516ENG PLC function programming manual IB-0600492ENG...
Page 12 INSTALLATION AND WIRING This chapter explains the "INSTALLATION" and the "WIRING" of this product. Always read the instructions before using the equipment. 2.1 Peripheral devices ..............12 2.2 Removal and reinstallation of the front cover......15 2.3 Installation of the inverter ............18 2.4 Terminal connection diagrams ..........21 2.5 Main circuit terminals...
Page 13: Peripheral Devices
Peripheral devices Peripheral devices 2.1.1 Inverter and peripheral devices (a) Inverter (b) Three-phase AC power supply ∗1 (k) USB connector USB host (A connector) Communication status indicator (c) Moulded case circuit breaker (LED)(USB host) (MCCB) or earth leakage current breaker (ELB), fuse USB device (Mini B connector) Personal computer...
Page 14 Peripheral devices Refer Symbol Name Overview to page The life of the inverter is influenced by the ambient temperature. The ambient temperature should be as low as possible within the permissible range. Incorrect wiring may lead to damage of the inverter. The control signal Inverter (FR-F806) lines must be kept fully away from the main circuit lines to protect them from noise.
Page 15 Peripheral devices 2.1.2 Peripheral devices Check the model of the inverter you purchased. Appropriate peripheral devices must be selected according to the capacity. Refer to the table below to prepare appropriate peripheral devices. Molded case circuit breaker (MCCB)  Motor output Input-side magnetic Applicable inverter model or earth leakage circuit breaker (ELB)
Page 16: Removal And Reinstallation Of The Front
Removal and reinstallation of the front cover Removal and reinstallation of the front cover Removal of the front cover • Remove the front cover installation screws to remove the front cover. (For the FR-F846-00620(30K) to 01160(55K), remove the operation panel before removing the front cover.) Inverter Screw type Screw size...
Page 17 Removal and reinstallation of the front cover Removal of the front cover for control circuit inspection and the front cover for main circuit inspection (FR-F846-01800(75K) or higher) • Remove the installation screws to remove the front cover for control circuit inspection and/or the front cover for main circuit inspection.
Page 18 • Before installing the front cover, check the waterproof gasket to make sure that it is not damaged. If it is damaged, contact the nearest Mitsubishi Electric FA center. • Securely install the front cover to fit the waterproof gasket closely. Do not let the waterproof gasket get stuck between the front cover edge and the inverter.
Page 19: Installation Of The Inverter
Installation of the inverter Installation of the inverter An inverter unit uses many semiconductor devices. To ensure higher reliability and long period of operation, operate the inverter in the ambient environment that completely satisfies the equipment specifications. 2.3.1 Inverter installation environment The following table lists the standard specifications of the inverter installation environment.
Page 20 Installation of the inverter Humidity Operate the inverter within the ambient air humidity of usually 45 to 90%. Too high humidity will pose problems of reduced insulation and metal corrosion. On the other hand, too low humidity may cause a spatial electrical breakdown. The insulation distance defined in JEM1103 "Control Equipment Insulator"...
Page 21 Installation of the inverter 2.3.2 Inverter installation Inverter placement • Install the inverter on a strong flat surface securely with screws. Fix six positions for the FR-F846-01800(75K) or higher. • Leave enough clearances and take cooling measures. • Avoid places where the inverter is subjected to direct sunlight, high temperature and high humidity. •...
Page 22: Terminal Connection Diagrams
Terminal connection diagrams Terminal connection diagrams FM type Sink logic Brake unit (Option) Main circuit terminal Control circuit terminal Jumper Reactor MCCB Motor R/L1 Inrush current Three-phase S/L2 limit circuit AC power T/L3 supply EMC filter Earth (Ground) ON/OFF ∗9 connecter Main circuit Earth...
Page 23 Terminal connection diagrams  The function of these terminals can be changed with the input terminal assignment (Pr.178 to Pr.189). (Refer to the FR-F800 Instruction Manual (Detailed).)  Terminal JOG is also used as a pulse train input terminal. Use Pr.291 to choose JOG or pulse. ...
Page 24 Terminal connection diagrams CA type Source logic Brake unit (Option) Main circuit terminal Control circuit terminal Jumper Reactor MCCB Motor R/L1 Inrush current Three-phase S/L2 limit circuit AC power T/L3 supply EMC filter Earth (Ground) ON/OFF ∗7 connecter Main circuit Earth (Ground) Control circuit...
Page 25 Terminal connection diagrams  The function of these terminals can be changed with the input terminal assignment (Pr.178 to Pr.189). (Refer to the FR-F800 Instruction Manual (Detailed).)  Terminal JOG is also used as a pulse train input terminal. Use Pr.291 to choose JOG or pulse. ...
Page 26: Main Circuit Terminals
Main circuit terminals Main circuit terminals 2.5.1 Details on the main circuit terminals Terminal Refer to Terminal name Terminal function description symbol page R/L1, Connect these terminals to the commercial power supply. S/L2, AC power input Do not connect anything to these terminals when using the high power factor —...
Page 27 Main circuit terminals NOTE • Make sure the power cables are connected to the R/L1, S/L2, and T/L3. (Phase need not be matched.) Never connect the power cable to the U, V, and W of the inverter. Doing so will damage the inverter. •...
Page 28 Main circuit terminals (4) Fix the cables using a cable gland and a nut, according to the diameter of the holes. For the details such as hole diameters and recommended cable glands, refer to the following table. FR-F846-00023(0.75K) to 00170(7.5K) FR-F846-00250(11K) to 00470(22K) FR-F846-00620(30K) to 01160(55K) FR-F846-01800(75K) to 03610(160K)
Page 29 Main circuit terminals Hole Recommended nut Inverter Recommended Recommended cable gland Symbol diameter (Manufactured by capacity layout example (Manufactured by LAPP KABEL) (mm) LAPP KABEL) Control circuit SKINTOP MS-SC-M20 53112630  20.3 SKINDICHT SM-M20 52103020 wiring SKINTOP MS-M20 53112020  AC power input FR-F846- wiring...
Page 30 Main circuit terminals 2.5.4 Applicable cables and the wiring length Select a recommended cable size to ensure that the voltage drop will be 2% or less. If the wiring distance is long between the inverter and motor, the voltage drop in the main circuit wires will cause the motor torque to decrease especially at a low speed.
Page 31 Main circuit terminals Total wiring length  With induction motor Connect one or more general-purpose motors within the total wiring length shown in the following table. Pr.72 setting FR-F846-00023(0.75K) FR-F846-00038(1.5K) FR-F846-00052(2.2K) or higher (carrier frequency) 2 (2 kHz) or lower 300 m 500 m 500 m...
Page 32 Main circuit terminals 2.5.5 Earthing (grounding) precautions Always earth (ground) the motor and inverter. Purpose of earthing (grounding) Generally, an electrical apparatus has an earth (ground) terminal, which must be connected to the ground before use. An electrical circuit is usually insulated by an insulating material and encased. However, it is impossible to manufacture an insulating material that can shut off a leakage current completely, and actually, a slight current flows into the case.
Page 33: Control Circuit
Control circuit Control circuit 2.6.1 Details on the control circuit terminals Input signal function of the terminals in can be selected by setting Pr.178 to Pr.196 (I/O terminal function selection). For the details of the control circuit terminal function selection, refer to the FR-F800 Instruction Manual (Detailed). Input signal Terminal Terminal name...
Page 34 Control circuit Terminal Terminal name Terminal function description Rated specification symbol 10 VDC 0.4 V Permissible load current When connecting the frequency setting potentiometer at an initial 10 mA Frequency setting status, connect it to terminal 10. power supply Change the input specifications of terminal 2 using Pr.73 when 5 VDC 0.5 V connecting it to terminal 10E.
Page 35 Control circuit Output signal Terminal Terminal name Terminal function description Rated specification symbol 1 changeover contact output that indicates that an inverter's protective function has been activated and the outputs are Relay output 1 (fault stopped. Contact capacity 230 output) Fault: discontinuity across B and C (continuity across A and C), VAC 0.3 A (power factor Normal: continuity across Band C (discontinuity across A and C)
Page 36 Control circuit Communication Terminal Terminal name Terminal function description symbol Communication can be made via Ethernet. Category: 100BASE-TX/10BASE-T Data transmission speed: 100 Mbps (100BASE-TX) / 10 Mbps (10BASE-T) Transmission method: Baseband Ethernet — Maximum segment length: 100 m between the hub and the inverter connector Number of cascade connection stages: Up to 2 (100BASE-TX) / up to 4 (10BASE-T) Interface: RJ-45...
Page 37 Control circuit 2.6.2 Control logic (sink/source) change Change the control logic of input signals as necessary. To change the control logic, change the jumper connector position on the control circuit board. Connect the jumper connector to the connector pin of the desired control logic. The control logic of input signals is initially set to the sink logic (SINK) for the FM type.
Page 38 Control circuit Sink logic and source logic • In the sink logic, a signal switches ON when a current flows from the corresponding signal input terminal. Terminal SD is common to the contact input signals. Terminal SE is common to the open collector output signals. •...
Page 39 Control circuit 2.6.3 Wiring of control circuit Control circuit terminal layout • Recommended cable gauge: 0.3 to 0.75 mm ∗1 1 F/C +24 SD So SOC S1 S2 PC 5 10E 10 SE SE IPF OL FU PC RL RM RH RT AU STP MRS RES SD SD STF STR JOG...
Page 40 Control circuit NICHIFU Co., Ltd. Cable gauge Blade terminal Insulation cap Crimping tool product number product number product number 0.3 to 0.75 BT 0.75-11 VC 0.75 NH 69 (3) Insert the wires into a socket. When using a single wire or stranded wires without a blade terminal, push the open/close button all the way down with a flathead screwdriver, and insert the wire.
Page 41 Control circuit Common terminals of the control circuit (SD, PC, 5, SE) • Terminals SD (sink logic), PC (source logic), 5, and SE are common terminals (0V) for I/O signals. (All common terminals are isolated from each other.) Do not earth (ground) these terminals. Avoid connecting terminal SD (sink logic) with 5, terminal PC (source logic) with 5, and terminal SE with 5.
Page 42 Control circuit 2.6.5 When supplying 24 V external power to the control circuit Connect a 24 V external power supply across terminals +24 and SD. Connecting a 24 V external power supply enables I/O terminal ON/OFF operation, operation panel displays, control functions, and communication during communication operation even at power-OFF of inverter's main circuit power supply.
Page 43 Control circuit Operation while the 24 V external power is supplied • Faults history and parameters can be read and parameters can be written (when the parameter write from the operation panel is enabled) using the operation panel keys. • The safety stop function is invalid during the 24 V external power supply operation. •...
Page 44 Control circuit Connection diagram To prevent automatic restart after a fault occurrence, connect the reset button of a safety relay module or a safety programmable controller across terminals So (SO) and SOC. The reset button acts as the feedback input for the safety relay module or the safety programmable controller.
Page 45: Operation Panel (Fr-Lu08-01)
Operation panel (FR-LU08-01) Operation panel (FR-LU08-01) 2.7.1 Components of the operation panel The operation panel (FR-LU08-01) is an IP55 compatible model that can only be installed on the FR-F806-L2 series. (It cannot be installed on the standard model or the separated converter type of the FR-F800 series.) Rear view Front view (j) (k) (l)
Page 46 Operation panel (FR-LU08-01) 2.7.2 Outline of the Main monitor indicator Output frequency 1 2 : 3 4 ▲ T U N E U S B - A P . R U N 0. 00 ▼ STOP HAND PREV NEXT Symbol Name Description Displays the output frequency, output current, output voltage, faults history, and others.
Page 47 Operation panel (FR-LU08-01) 2.7.3 Basic operation of the operation panel For the details of operating procedures for the operation panel, refer to the Instruction Manual of the FR-LU08(-01). AUTO (External) operation mode At power-ON) HANDJOG (PUJOG) operation mode HAND (PU) operation mode Output frequency Output frequency Output frequency...
Page 48: Communication Connectors And Terminals
Communication connectors and terminals Communication connectors and terminals 2.8.1 PU connector Mounting the operation panel or parameter unit • With a connection cable, the operation panel or the parameter unit can be connected to the inverter. (A connection connector is also required for connecting the operation panel.) Use the option FR-CB2[] cable (and FR-ADP connector), or a cable and connector available on the market.
Page 49 Communication connectors and terminals Removal and reinstallation of the operation panel • Loosen the four fixing screws on the operation panel and pull out the operation panel. (These screws cannot be removed.) • To reinstall the operation panel, align its connector on the back with the PU connector of the inverter, and insert the operation panel.
Page 50 Communication connectors and terminals 2.8.3 USB connector Connection to the USB connectors (1) Before removing a front cover, check to make sure that the indication of the inverter operation panel is OFF, wait for at least 10 minutes after the power supply has been switched OFF, and check that there is no residual voltage using a tester or the like.
Page 51 Communication connectors and terminals • The operating status of the USB host can be checked on the operation panel. Refer to page 45 for details. • The operating status of the USB host can be checked on the LED display of the inverter. LED display status Operating status No USB connection.
Page 52: Connection Of Stand-Alone Option Units
Connection of stand-alone option units Connection of stand-alone option units The inverter accepts a variety of stand-alone option units as required. Incorrect connection will cause inverter damage or accident. Connect and operate the option unit carefully in accordance with the corresponding option unit manual. 2.9.1 Connection of the brake unit (FR-BU2) Connect the brake unit (FR-BU2(H)) as shown below to improve the braking capability during deceleration.
Page 53 Connection of stand-alone option units Connection example with the FR-BR-(H) resistor unit ∗2 FR-BR MCCB Motor R/L1 ∗4 Three phase AC S/L2 power supply T/L3 ∗3 FR-BU2 Inverter ∗1 ∗3 10 m or less  When wiring, make sure to match the terminal symbol (P/+, N/-) at the inverter side and at the brake unit (FR-BU2) side.
Page 54 Connection of stand-alone option units 2.9.2 Connection of the brake unit (FR-BU) Connect the brake unit (FR-BU(H)) as shown below to improve the braking capability during deceleration. The FR-BU is compatible with the FR-F846-01160(55K) or lower. ∗2 FR-BR MCCB Motor R/L1 Three-phase AC S/L2...
Page 55 Connection of stand-alone option units 2.9.3 Connection of the brake unit (BU type) Connect the brake unit (BU type) correctly as shown below. Incorrect connection will damage the inverter. Remove the jumpers across terminals HB and PC and terminals TB and HC of the brake unit and fit one across terminals PC and TB. The BU type is compatible with the FR-F846-01160(55K) or lower.
Page 56 Connection of stand-alone option units 2.9.4 Connection of the high power factor converter (FR-HC2) When connecting the high power factor converter (FR-HC2) to suppress power harmonics, perform wiring securely as shown below. Incorrect connection will damage the high power factor converter and the inverter. After making sure that the wiring is correct, set "rated motor voltage"...
Page 57 Connection of stand-alone option units 2.9.5 Connection of the power regeneration common converter (FR-CV) When connecting the power regeneration common converter (FR-CV), connect the inverter terminals (P/+, N/-) and the power regeneration common converter (FR-CV) terminals as shown below so that their symbols match with each other. The FR-CV is applicable to FR-F846-01160(55K) or lower.
Page 58 Connection of stand-alone option units 2.9.6 Connection of the power regeneration converter (MT-RC) When connecting the power regeneration converter (MT-RC), perform wiring securely as shown below. Incorrect connection will damage the power regeneration converter and the inverter. The MT-RC is applicable to FR-F846-01800(75K) or higher. After making sure that the wiring is correct, set "1"...
Page 59: Installing A Communication
Installing a communication option 2.10 Installing a communication option • To use a communication option, the enclosed earthing (grounding) cable needs to be installed. Install the cable according to the following procedure. Installation procedure Insert spacers into the mounting holes that will not be tightened with the option mounting screws. Fit the connector of the communication option to the guide of the connector of the inverter, and insert the option as far as it goes.
Page 60 PRECAUTIONS FOR USE OF THE INVERTER This chapter explains the precautions for use of this product. Always read the instructions before using the equipment. 3.1 Electro-magnetic interference (EMI) and leakage currents ..60 3.2 Power supply harmonics ............65 3.3 Installation of a reactor ............68 3.4 Power-OFF and magnetic contactor (MC) ......69...
Page 61: Electro-Magnetic Interference (Emi) And Leakage Currents
Electro-magnetic interference (EMI) and leakage currents Electro-magnetic interference (EMI) and leakage currents 3.1.1 Leakage currents and countermeasures Capacitances exist between the inverter I/O cables, other cables and earth and in the motor, through which a leakage current flows. Since its value depends on the static capacitances, carrier frequency, etc., low acoustic noise operation at the increased carrier frequency of the inverter will increase the leakage current.
Page 62 Electro-magnetic interference (EMI) and leakage currents Installation and selection of the molded case circuit breaker Install a molded case circuit breaker (MCCB) on the power receiving side to protect the wiring at the inverter input side. Select an MCCB according to the inverter input side power factor, which depends on the power supply voltage, output frequency and load.
Page 63 Electro-magnetic interference (EMI) and leakage currents NOTE • Install the earth leakage circuit breaker (ELB) on the input side of the inverter. • In the connection earthed-neutral system, the sensitivity current is blunt against a ground fault in the inverter output side. Earthing (Grounding) must conform to the requirements of national and local safety regulations and electrical codes.
Page 64 Electro-magnetic interference (EMI) and leakage currents Noise propagation Countermeasure path When devices that handle low-level signals and are liable to malfunction due to electromagnetic noises, e.g. instruments, receivers and sensors, are near the inverter or when the signal cables are run near the inverter, the devices may malfunction due to by air-propagated electromagnetic noises.
Page 65 Electro-magnetic interference (EMI) and leakage currents 3.1.3 Built-in EMC filter This inverter is equipped with a built-in EMC filter (capacitive filter) and a common mode choke. These filters are effective in reducing air-propagated noise on the input side of the inverter. To enable the EMC filter, fit the EMC filter ON/OFF connector to the ON position.The EMC filter is initially set to the "enabled"...
Page 66: Power Supply Harmonics
Power supply harmonics Power supply harmonics 3.2.1 Power supply harmonics The inverter may generate power supply harmonics from its converter circuit to affect the power generator, power factor correction capacitor etc. Power supply harmonics are different from noise and leakage currents in source, frequency band and transmission path.
Page 67 Power supply harmonics 3.2.2 Harmonic suppression guidelines in Japan Inverters have a converter section (rectifier circuit) and generate a harmonic current. Harmonic currents flow from the inverter to a power receiving point via a power transformer. The Harmonic Suppression Guidelines was established to protect other consumers from these outgoing harmonic currents. The three-phase 200 V input specifications 3.7 kW or lower were previously covered by "the Harmonic Suppression Guidelines for Household Appliances and General-purpose Products"...
Page 68 Power supply harmonics • Harmonic content (Values of the fundamental current is 100%) Reactor 11th 13th 17th 19th 23rd 25th Used (DC side) Used (AC, DC sides) • Calculation of equivalent capacity P0 of harmonic generating equipment "Equivalent capacity" is the capacity of a 6-pulse converter converted from the capacity of consumer's harmonic generating equipment and is calculated by the following equation: If the sum of equivalent capacities is higher than the limit (Refer to page 66), harmonics must be calculated with the following procedure:...
Page 69: Installation Of A Reactor
Installation of a reactor • Determining if a countermeasure is required A countermeasure for harmonics is required if the following condition is satisfied: outgoing harmonic current > maximum value per 1 kW contract power  contract power • Harmonic suppression techniques Item Description Because a DC reactor is built in on the DC side of this product, outgoing harmonic current can be...
Page 70: Power-Off And Magnetic Contactor (Mc)
Power-OFF and magnetic contactor (MC) Power-OFF and magnetic contactor (MC) Inverter input side magnetic contactor (MC) On the inverter input side, it is recommended to provide an MC for the following purposes: (Refer to page 14 for selection.) • To disconnect the inverter from the power supply at activation of a protective function or at malfunctioning of the driving system (emergency stop, etc.).
Page 71: Countermeasures Against Deterioration Of The 400 V Class Motor Insulation
Countermeasures against deterioration of the 400 V class motor insulation Countermeasures against deterioration of the 400 V class motor insulation In the PWM type inverter, a surge voltage attributable to wiring constants is generated at the motor terminals. Especially in a 400 V class motor, the surge voltage may deteriorate the insulation.
Page 72: Checklist Before Starting Operation
Checklist before starting operation Checklist before starting operation The FR-F800 series inverter is a highly reliable product, but incorrect peripheral circuit making or operation/handling method may shorten the product life or damage the product. Before starting operation, always recheck the following points. Refer Check Checkpoint...
Page 73 Checklist before starting operation Refer Check Checkpoint Countermeasure to page by user If the machine must not be restarted when power is restored after a power A countermeasure is provided for failure, provide an MC in the inverter's input side and also make up a power restoration after a power sequence which will not switch ON the start signal.
Page 74: Failsafe System Which Uses The Inverter
Failsafe system which uses the inverter Failsafe system which uses the inverter When a fault is detected by the protective function, the protective function activates and outputs a fault signal. However, a fault signal may not be output at an inverter's fault occurrence when the detection circuit or output circuit fails, etc. Although Mitsubishi assures the best quality products, provide an interlock which uses inverter status output signals to prevent accidents such as damage to the machine when the inverter fails for some reason.
Page 75 Failsafe system which uses the inverter (d) Checking the motor operating status by the start signal input to the inverter and inverter output current detection signal The Output current detection (Y12) signal is output when the inverter operates and currents flows into the motor. Check if the Y12 signal is being output while inputting a start signal to the inverter.
Page 76 PROTECTIVE FUNCTIONS This chapter explains the "PROTECTIVE FUNCTIONS" that operates in this product. Always read the instructions before using the equipment. 4.1 Inverter fault and alarm indications ........76 4.2 Reset method for the protective functions......76 4.3 Faults history and the list of fault displays ......77 4.4 Causes and corrective actions ..........78...
Page 77: Inverter Fault And Alarm Indications
Inverter fault and alarm indications Inverter fault and alarm indications • When the inverter detects a fault, depending on the nature of the fault, the operation panel displays an error message or warning, or a protective function activates to trip the inverter. •...
Page 78: Faults History And The List Of Fault Displays
Faults history and the list of fault displays Faults history and the list of fault displays For details, refer to the FR-F800 Instruction Manual (Detailed). Operation Operation panel Name panel Name indication indication E.USB USB communication fault LOCD Password locked E.13 Internal circuit fault Er1 to Er4...
Page 79: Causes And Corrective Actions
Causes and corrective actions Causes and corrective actions Alarm Operation panel indication Name Internal-circulation fan alarm FN2 appears on the operation panel when the internal air circulation fan stops due to a fault or low rotation Description speed. Check point Check the internal air circulation fan for a failure.
Page 80 PRECAUTIONS FOR MAINTENANCE AND INSPECTION This chapter explains the "PRECAUTIONS FOR MAINTENANCE AND INSPECTION" for this product. Always read the instructions before using the equipment. 5.1 Inspection item................80 Measurement of main circuit voltages, currents, and powers .104 PRECAUTIONS FOR MAINTENANCE AND INSPECTION...
Page 81 Inspection item The inverter is a static unit mainly consisting of semiconductor devices. Daily inspection must be performed to prevent any fault from occurring due to the adverse effects of the operating environment, such as temperature, humidity, dust, dirt and vibration, changes in the parts with time, service life, and other factors.
Page 82 Inspection item 5.1.3 Daily and periodic inspection Inspection Corrective action Check Area of Inspection interval Description at fault by the inspection item Periodic Daily occurrence user  Surrounding Check the ambient temperature, humidity, dirt, Improve the  environment corrosive gas, oil mist, etc. environment.
Page 83 Inspection item Inspection Corrective action Check Area of Inspection interval Description at fault by the inspection item Periodic occurrence user Daily  Contact the (1) Check that display is normal.  manufacturer. Indication (2) Check for stain. Clean.  Display Stop the equipment Meter Check that reading is normal.
Page 84 Inspection item 5.1.4 Checking the inverter and converter modules Preparation • Disconnect the external power supply cables (R/L1, S/L2, T/L3) and motor cables (U, V, W). • Prepare a tester. (For the resistance measurement, use the 100 Ω range.) Checking method Change the polarity of the tester alternately at the inverter terminals R/L1, S/L2, T/L3, U, V, W, P/+, and N/- and check the electric continuity.
Page 85 Inspection item 5.1.6 Replacement of parts The inverter consists of many electronic parts such as semiconductor devices. The following parts may deteriorate with age because of their structures or physical characteristics, leading to reduced performance or fault of the inverter. For preventive maintenance, the parts must be replaced periodically. Use the life check function as a guidance of parts replacement.
Page 86 • Changing the terminal assignment using Pr.190 to Pr.196 (Output terminal function selection) may affect the other functions. Set parameters after confirming the function of each terminal. • For replacement of each part, contact the nearest Mitsubishi Electric FA center. Replacement procedure of the fan The replacement interval of the cooling fan used for cooling the parts generating heat such as the main circuit semiconductor is greatly affected by the ambient temperature.
Page 87 Inspection item  Removal of the cooling fan (FR-F846-00620(30K) to 01160(55K)) (1) Remove the installation screws, and then remove the fan cover. Fan cover Installation screw (2) Disconnect the fan connectors. Fan connector (3) Remove the installation screws, and then remove the fan. Installation screw PRECAUTIONS FOR MAINTENANCE AND INSPECTION...
Page 88 Inspection item  Removal of the cooling fan (FR-F846-01800(75K) to 03610(160K)) (1) Remove the installation screws, and then remove the fan cover. Fan cover Installation screw (2) Disconnect the fan connectors. Fan connector (3) Remove the installation screws, and then remove the fan. Installation screw PRECAUTIONS FOR MAINTENANCE AND INSPECTION...
Page 89 Inspection item  Reinstallation of the cooling fan (FR-F846-00250(11K) to 00470(22K)) (1) After confirming the orientation of the fan, reinstall the fan so that the "AIR FLOW" faces up. Then, fix the fan with the installation screws. (tightening torque 1.4 to 1.9 N•m) AIR FLOW <Fan side>...
Page 90 Inspection item  Reinstallation of the cooling fan (FR-F846-00620(30K) to 01160(55K)) (1) After confirming the orientation of the fan, reinstall the fan so that the "AIR FLOW" faces up. Then, fix the fan with the installation screws. (tightening torque 1.4 to 1.9 N•m) AIR FLOW <Fan side>...
Page 91 Inspection item  Reinstallation of the cooling fan (FR-F846-01800(75K) to 03610(160K)) (1) After confirming the orientation of the fan, reinstall the fan so that the "AIR FLOW" faces up. Then, fix the fan with the installation screws. (tightening torque 1.4 to 1.9 N•m) AIR FLOW <Fan side>...
Page 92 Inspection item  Removal of the internal fan (FR-F846-00170(7.5K) or lower) (1) Remove the inverter front cover. (Refer to page (2) Move the fan connector case, and then remove the fan connector. Fan connector Connector case (3) Remove the installation screws, and then remove the bracket. Bracket Installation screw (4) Remove the installation screws, and then remove the fan.
Page 93 Inspection item  Removal of the internal fan (FR-F846-00250(11K) to 00470(22K)) (1) Remove the inverter front cover. (Refer to page (2) Remove the installation screws, and then remove the protective cover. Protective cover Installation screw (3) Move the fan connector case, and then remove the fan connector. Fan connector Connector case (4) Remove the bracket.
Page 94 Inspection item  Removal of the internal fan (FR-F846-00620(30K) to 01160(55K)) (1) Remove the inverter front cover. (Refer to page (2) Move the fan connector case, and then remove the fan connector. Fan connector Connector case (3) Remove the installation screws and the bracket, and then remove the fan. Installation screw Bracket PRECAUTIONS FOR MAINTENANCE AND INSPECTION...
Page 95 Inspection item  Removal of the internal fan (upper) (FR-F846-01800(75K) to 02600(110K)) (1) Remove the inverter front cover. (Refer to page (2) Move the fan connector case, and then remove the fan connector. Fan connector Connector case (3) Remove the installation screws, and then remove the fan. Installation screw ...
Page 96 Inspection item  Removal of the internal fan (upper) (FR-F846-03250(132K) or higher) (1) Remove the inverter front cover. (Refer to page (2) Move the fan connector case, and then remove the fan connector. Connector case Fan connector (3) Remove the installation screws, and then remove the bracket. Installation screw Bracket (4) Remove the installation screws, and then remove the fan.
Page 97 Inspection item  Reinstallation of the internal fan (FR-F846-00170(7.5K) or lower) (1) After confirming the orientation of the fan, fix the fan to the bracket with the installation screws so that the "AIR FLOW" arrow on the fan side faces up when the fan is installed to the inverter. (tightening torque 1.4 to 1.9 N•m) Bracket AIR FLOW <Fan side>...
Page 98 Inspection item  Reinstallation of the internal fan (FR-F846-00250(11K) to 00470(22K)) (1) After confirming the orientation of the fan, fix the fan to the bracket with the installation screws so that the "AIR FLOW" arrow on the fan side faces up when the fan is installed to the inverter. (tightening torque 1.4 to 1.9 N•m) Bracket AIR FLOW <Fan side>...
Page 99 Inspection item  Reinstallation of the internal fan (FR-F846-00620(30K) to 01160(55K)) (1) Fix the fan to the inverter with the bracket and the installation screws. (tightening torque 1.4 to 1.9 N•m) After confirming the orientation of the fan, reinstall the fan so that air flows as shown below. (The "AIR FLOW"...
Page 100 Inspection item  Reinstallation of the internal fan (upper) (FR-F846-01800(75K) to 02600(110K)) (1) Fix the fan to the inverter with the installation screws. (tightening torque 1.4 to 1.9 N•m) After confirming the orientation of the fan, reinstall the fan so that air flows as shown below. (The "AIR FLOW"...
Page 101 Inspection item  Reinstallation of the internal fan (lower) (FR-F846-01800(75K) to 02600(110K)) (1) Fix the fan to the bracket with the installation screws. (tightening torque 1.4 to 1.9 N•m) After confirming the orientation of the fan, reinstall the fan so that air flows as shown below. (The "AIR FLOW"...
Page 102 Inspection item  Reinstallation of the internal fan (upper) (FR-F846-03250(132K) or higher) (1) Fix the fan to the bracket with the installation screws. (tightening torque 1.4 to 1.9 N•m) After confirming the orientation of the fan, reinstall the fan so that air flows as shown below. (The "AIR FLOW"...
Page 103 Inspection item  Reinstallation of the internal fan (lower) (FR-F846-03250(132K) or higher) (1) Fix the fan to the bracket with the installation screws. (tightening torque 1.4 to 1.9 N•m) After confirming the orientation of the fan, reinstall the fan so that air flows as shown below. (The "AIR FLOW"...
Page 104 Inspection item Relay output terminals • To prevent a contact fault, etc., relays must be replaced according to the cumulative number of switching times (switching life). • The control terminal block must be replaced in case of failure of either relay between the relay output terminals C1 and B1 or A1, or terminals C2 and B2 or A2.
Page 105 Measurement of main circuit voltages, currents, and powers Measurement of main circuit voltages, currents, and powers Since the voltages and currents on the inverter power supply and output sides include harmonics, measurement data depends on the instruments used and circuits measured. When instruments for commercial frequency are used for measurement, measure the following circuits with the instruments given on the next page.
Page 106 Measurement of main circuit voltages, currents, and powers Measuring points and instruments Item Measuring point Measuring instrument Remarks (reference measured value) Across R/L1 and S/L2, Commercial power supply Power supply voltage S/L2 and T/L3, Moving-iron type AC voltmeter Within permissible AC voltage fluctuation ...
Page 107 Measurement of main circuit voltages, currents, and powers 5.2.1 Measurement of powers Use digital power meters (for inverter) for the both of inverter input and output side. Alternatively, measure using electrodynamic type single-phase wattmeters for the both of inverter input and output side in two-wattmeter or three- wattmeter method.
Page 108: Measurement Of Inverter Input Power Factor
Measurement of main circuit voltages, currents, and powers 5.2.3 Measurement of currents Use moving-iron type meters on both the input and output sides of the inverter. However, if the carrier frequency exceeds 5 kHz, do not use that meter since an overcurrent losses produced in the internal metal parts of the meter will increase and the meter may burn out.
Page 109: Measurement Of Inverter Output Frequency
Measurement of main circuit voltages, currents, and powers 5.2.7 Measurement of inverter output frequency In the initial setting of the FM-type inverter, a pulse train proportional to the output frequency is output across the pulse train output terminals FM and SD of the inverter. This pulse train output can be counted by a frequency counter, or a meter (moving-coil type voltmeter) can be used to read the mean value of the pulse train output voltage.
Page 110: Specifications
SPECIFICATIONS This chapter explains the "SPECIFICATIONS" of this product. Always read the instructions before using the equipment. 6.1 Inverter rating................110 6.2 Common specifications ............111 6.3 Inverter outline dimension drawings ........113 SPECIFICATIONS...
Page 111: Inverter Rating
147 150 153 189 193 Approx. mass (kg)  The applicable motor capacity indicated is the maximum capacity applicable for use of the Mitsubishi Electric 4-pole standard motor.  The rated output capacity indicated assumes that the output voltage is 440 V.
Page 112: Common Specifications
Common specifications Common specifications Soft-PWM control, high carrier frequency PWM control (selectable among V/F control (Optimum excitation control), Control method Advanced magnetic flux vector control (Advanced optimum excitation control) and PM motor control) Output frequency range 0.2 to 590 Hz (The upper-limit frequency is 400 Hz under Advanced magnetic flux vector control, and PM motor control.) 0.015 Hz/60 Hz (terminal 2, 4: 0 to 10 V/12 bits) Frequency Analog input...
Page 113 Common specifications Surrounding air -10°C to +40°C (non-freezing) temperature With circuit board coating (conforming to IEC60721-3-3 3C2/3S2): 95% RH or less (non-condensing) Surrounding air humidity Without circuit board coating: 90% RH or less (non-condensing) Storage temperature  -20°C to +65°C Atmosphere Indoors (without corrosive gas, flammable gas, oil mist, dust and dirt, etc.) Maximum 2500 m (for the installation at an altitude above 1,000 m, derate the rated current 3% per 500 m.), 5.9 m/s...
Page 114: Inverter Outline Dimension Drawings
Inverter outline dimension drawings Inverter outline dimension drawings FR-F846-00023(0.75K) to 00170(7.5K) 2-8 hole (18.5) 18.5 (Unit: mm) FR-F846-00250(11K) to 00470(22K) 2-φ10 hole 4-φ20 hole 18.5 (18.5) (Unit: mm) SPECIFICATIONS...
Page 115 Inverter outline dimension drawings FR-F846-00620(30K) to 01160(55K) 4-φ25 hole 2-φ12 hole 22.5 (22.5) (Unit: mm) FR-F846-01800(75K) to 03610(160K) 4-φ25 hole 3-φ15 hole (35) 456.6 Inverter Model FR-F846-01800(75K) to 02600(110K) 1360 1334 1314 FR-F846-03250(132K), 03610(160K) 1510 1482 1464 (Unit: mm) SPECIFICATIONS...
Page 116 Inverter outline dimension drawings Operation panel (FR-LU08-01) 80±0.5 68±0.5 -0.5 5±0.3 (Unit: mm) NOTE • The FR-LU08-01 cannot be installed on enclosure surfaces. • For the outline dimensions of the dedicated motors, refer to the FR-F800 Instruction Manual (Detailed). SPECIFICATIONS...
Page 117 MEMO...
Page 118: Appendix
APPENDIX APPENDIX provides the reference information for use of this product. Refer to APPENDIX as required. Appendix 1 Differences and compatibility with the FR-F840..118 Appendix 2 Instructions for compliance with the EU Directives..119 Appendix 3 Instructions for UL and cUL ........122 Appendix 4 Instructions for EAC.............124...
Page 119: Appendix 1 Differences And Compatibility With The Fr-F840
Appendix 1 Differences and compatibility with the FR-F840 Item FR-F840 FR-F846-L2 Enclose type (IP20): FR-F840-00620(30K) or Protective structure lower Dust- and water-proof type (IP55): all capacities Open type (IP00): FR-F840-00770(37K) or higher Multiple rating SLD, LD (initial setting) rating Not applicable(LD rating equivalent) (Pr.570 Multiple rating (Setting range “0, 1”) (None (setting unavailable))
Page 120: Appendix 2 Instructions For Compliance With The Eu Directives
CE marking. • The authorized representative in the EU The authorized representative in the EU is shown below. Name: Mitsubishi Electric Europe B.V. Address: Mitsubishi-Electric-Platz 1, 40882 Ratingen, Germany EMC Directive We declare that this inverter conforms with the EMC Directive and affix the CE marking on the inverter.
Page 121  Note Set the EMC filter valid and install the inverter and perform wiring according to the following instructions. • This inverter is equipped with an EMC filter. Enable the EMC filter. (For details, refer to page 64.) • Connect the inverter to an earthed power supply. •...
Page 122 Low Voltage Directive We have self-confirmed our inverters as products compliant to the Low Voltage Directive (Conforming standard EN 61800-5- 1) and affix the CE marking on the inverters.  Outline of instructions • Do not use an earth leakage current breaker as an electric shock protector without connecting the equipment to the earth.
Page 123: Appendix 3 Instructions For Ul And Cul
Appendix 3 Instructions for UL and cUL (Standard to comply with: UL 508C, CSA C22.2 No.274-13) General precaution CAUTION - Risk of Electric Shock - The bus capacitor discharge time is 10 minutes. Before starting wiring or inspection, switch power off, wait for more than 10 minutes.
Page 124 Pr.9 = 50% setting Pr.9 = 100% setting of inverter rating of inverter rating ∗1, 2 ∗2 • When using the Mitsubishi Electric constant- 30Hz or more ∗3 torque motor 30Hz or more 20Hz ∗3...
Page 125: Appendix 4 Instructions For Eac
• Authorized sales representative (importer) in the CU area The authorized sales representative (importer) in the CU area is shown below. Name: Mitsubishi Electric (Russia) LLC Address: 52, bld 1 Kosmodamianskaya Nab 115054, Moscow, Russia Phone: +7 (495) 721-2070...
Page 126: Appendix 5 Restricted Use Of Hazardous Substances In Electronic And Electrical Products
Appendix 5 Restricted Use of Hazardous Substances in Electronic and Electrical Products The mark of restricted use of hazardous substances in electronic and electrical products is applied to the product as follows based on the “Management Methods for the Restriction of the Use of Hazardous Substances in Electrical and Electronic Products”...
Page 127 WARRANTY When using this product, make sure to understand the warranty described below. 1. Warranty period and coverage We will repair any failure or defect (hereinafter referred to as "failure") in our FA equipment (hereinafter referred to as the "Product") arisen during warranty period at no charge due to causes for which we are responsible through the distributor from which you purchased the Product or our service provider.
Page 128 • The copyright and other rights of the enclosed CD-ROM all belong to Mitsubishi Electric Corporation. • No part of the enclosed CD-ROM may be copied or reproduced without the permission of Mitsubishi Electric Corporation. • Specifications of the enclosed CD-ROM are subject to change for modification without notice.
Page 129 REVISIONS *The manual number is given on the bottom left of the back cover. Print Date *Manual Number Revision Aug. 2017 IB(NA)-0600767ENG-A First edition Nov. 2017 IB(NA)-0600767ENG-B Addition  Safety stop function IB(NA)-0600767ENG-B...
Page 130 GB/T 12668.502 GB 28526 GB 12668.3 電気安全： GB 12668.501 ： GB 12668.3 * セーフティストップ機能を搭載した製品のみ準拠します。 Mitsubishi Electric Inverter Instruction Manual Supplement Referenced Standard (Requirement of Chinese standardized law) This Product is designed and manufactured accordance with following Chinese standards. Machinery safety*: GB/T 16855.1 GB/T 12668.502 GB 28526 GB 12668.3...
Page 131: Directives
(The operation characteristic is shown on the Operational characteristic of the electronic thermal relay left.) function • When using the Mitsubishi Electric constant-torque motor Pr.9 = 50% setting Pr.9 = 100% setting of inverter rating ∗1, 2...
Page 132 Negative output selection for monitoring (Pr.290) Negative output is available for FR Configurator2 or the trace function. Connection port Pr.290 setting Terminal AM Operation panel Communication option Configurator2 etc. 0 (initial value) — — — — Enabled — — — —...
Page 133 CS signal command source selection The CS signal can be used via communication.  Extended setting range of automatic restart after instantaneous power failure selection • In the Network operation mode, the command source of the CS signal can be selected according to the setting in Pr.162 Automatic restart after instantaneous power failure selection.
Page 134  Command interface/source for start command and frequency command during communication operation The following table shows a command interface/source in the Network operation mode. A command via communication is enabled in addition to an external terminal to the CS signal (RS-485 terminals or communication option).
Page 135 Selecting the fast-response operation Setting Pr.800 = "109 or 110" selects the fast-response operation. Fast-response operation is available during PM motor control. Initial Setting Name Description value range PM motor test operation (Motor is not driven even if it is connected.) Normal operation (Motor can be driven.) Control method PM motor test operation (Motor is not driven even if it is connected.)
Page 136 • FR-A8NL Inverter output signal (network output SNVT_state nvoInvOutputSig) Signal name Description Pr.349 = "0 or 1" The value in the bit turns 1 when the inverter is ready for operation after power-ON. N240 = "0" READY signal Pr.349 = "100 or 101" The value in the bit turns 1 when the RY signal turns ON.
Page 137 FR-F800 Series Instruction Manual Supplement Cooling fan operation selection during the test operation The cooling fan can be stopped during PM motor test operation. Initial Setting Name Description value range Cooling fan ON/OFF control is disabled. (The cooling fan is always ON at power ON) The cooling fan operates at power ON.
Page 138 Inverter parts life display The degree of deterioration of the control circuit capacitor, main circuit capacitor, cooling fan, inrush current limit circuit, and relay contacts of terminals A, B, and C can be diagnosed on the monitor. When the life span of each part is near its end, the self-diagnostic warning is output to prevent a fault.
Page 139 • The Life alarm (Y90) signal turns ON when the life alarm output level is reached for either of the following: the control circuit capacitor life, main circuit capacitor life, cooling fan life, inrush current limit circuit life, internal air circulation fan life, estimated residual-life of the main circuit capacitor, ABC1 relay contact life, or ABC2 relay contact life.
Page 140  DriveControl writing restriction selection (P.N242) • The command source to change the DriveControl settings can be restricted to only the command source selected by Pr.550 NET mode operation command source selection. Setting value Description Communication reset Ready bit status selection selection Reset DriveControl...
Page 141 BACnet network port  Supported property of BACnet standard object type • The BACnet network port is added. R: Read only, W: Read/Write (Commandable values not supported), C: Read/Write (Commandable values supported) Object support condition Property Analog Analog Analog Binary Binary Binary Network...
Page 142  Details of the supported properties • The details of the properties supported by the network port are as follows. Details Property BACnet MS/TP BACnet/IP Shows the maximum number of frames that the inverter can transmit while it owns the A rejection code (0) is displayed when the Max Info Frames token.
Page 143 FR-F800 Series Instruction Manual Supplement Emergency drive Specifications have been changed as follows. Before setting the emergency drive function, make sure to understand the instructions in the Instruction Manual (Detailed) and this Instruction Manual Supplement. [Before change] • When the emergency drive is activated in the PID control mode, the operation is automatically switched from the PU operation mode or External/PU combined operation mode to the External operation mode.
Page 144  Emergency drive operation selection (Pr.523, Pr.524) • Use Pr.523 Emergency drive mode selection to select the emergency drive operation. Set a value in the hundreds place to select the operation when a valid protective function is activated (critical fault) during emergency drive.
Page 145  Operation of protective functions during emergency drive • Operation of protective functions during emergency drive is as follows. Protective Operation during Protective Operation during Protective Operation during function emergency drive function emergency drive function emergency drive E.OC1 Retry E.OHT Retry E.IOH Output shutoff...
Page 146 FR-F800 Series Instruction Manual Supplement Internal storage device fault (E.PE6) The operation of the storage device in the inverter can be checked. If a data fault occurs in the storage device in the inverter, the protective function (E.PE6) is activated. When the read value of Pr.890 is "7"...
Page 147 PID upper/lower limit pre-warning (Pr.1346, Pr.1370 to Pr.1373) Pr.1346 PID lower limit operation detection time is added. Detection time for PID upper/lower limit pre-warning can be set separately. Initial Setting Name Description value range Set the time from when the measured value reaches the lower 0 to 900 s limit pre-warning level (Pr.1371) until the set point change is 1346...
Page 148 Measured value Upper limit level Pr.131 (Pr.1143) Pr.1371 Upper limit pre-warning level Pr.1370 Pr.1370 Measured value Pr.1370 Pr.1370 Lower limit pre-warning level Pr.1371 Lower limit level Pr.132 (Pr.1144) Time Pr.1370 Pr.1370 Pr.1370 Pr.1346 Pr.1346 Pr.1346 Y219(Y220) Pr.1370 Pr.1370 Pr.1370 Pr.1370 Pr.1370 Pr.1370 Pr.1370...
Page 149 HEAD OFFICE: TOKYO BUILDING 2-7-3, MARUNOUCHI, CHIYODA-KU, TOKYO 100-8310, JAPAN IB(NA)-0600767ENG-B(1711)MEE Printed in Japan Specifications subject to change without notice.

Mitsubishi Electric FR-F806-E Hardware Instruction Manual

Table of Contents

2 Installation and Wiring

3 Precautions for Use of the Inverter

4 Protective Functions

Appendix

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