Mitsubishi Electric 800 Series Installation Manualline
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INVERTER
FR-E800
INSTALLATION GUIDELINE
FR-E820-0008(0.1K) to 0900(22K)
FR-E840-0016(0.4K) to 0440(22K)
FR-E820S-0008(0.1K) to 0110(2.2K)
FR-E820-0008(0.1K)E to 0900(22K)E
FR-E840-0016(0.4K)E to 0440(22K)E
FR-E820S-0008(0.1K)E to 0110(2.2K)E
FR-E820-0008(0.1K)SCE to 0900(22K)SCE
FR-E840-0016(0.4K)SCE to 0440(22K)SCE
FR-E820S-0008(0.1K)SCE to 0110(2.2K)SCE
Thank you for choosing this Mitsubishi Electric Inverter.
This Installation guideline and the enclosed CD-ROM give handling information and precautions for use
of this product.
Do not use this product until you have a full knowledge of the equipment, the safety information and the
instructions.
Please forward this Installation guideline to the end user.
INSTALLATION AND INSTRUCTIONS..................................................................... 1
1
WIRING ...................................................................................................................... 5
2
FAILSAFE OF THE SYSTEM WHICH USES THE INVERTER............................... 31
3
PRECAUTIONS FOR USE OF THE INVERTER ..................................................... 29
4
BASIC OPERATION ................................................................................................ 35
5
PARAMETER LIST .................................................................................................. 41
6
INVERTER FAULT AND ALARM INDICATIONS.................................................... 55
7
8
SPECIFICATIONS ................................................................................................... 59
Art. no.: 574333
25082021
Version B
Version check
CONTENTS
800
Chapters
Table of Contents
Related Manuals for Mitsubishi Electric 800 Series
Summary of Contents for Mitsubishi Electric 800 Series
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Page 1: Table Of Contents
FR-E820-0008(0.1K)SCE to 0900(22K)SCE FR-E840-0016(0.4K)SCE to 0440(22K)SCE FR-E820S-0008(0.1K)SCE to 0110(2.2K)SCE Thank you for choosing this Mitsubishi Electric Inverter. This Installation guideline and the enclosed CD-ROM give handling information and precautions for use of this product. Do not use this product until you have a full knowledge of the equipment, the safety information and the instructions. - Page 2 Parameter setting values For Maximum Safety l Mitsubishi Electric transistorized inverters are not designed or manufactured to be used in equipment or systems in situations that can affect or endanger human life. l When considering this product for operation in special applications such as machinery or systems used in passenger transportation, medical, aerospace, atomic power, electric power, or submarine repeating applications, please contact your nearest Mitsubishi Electric sales representative.
- Page 3 A person who took a proper engineering training. Please note if you can take a proper engineering training at your local Mitsubishi Electric office. Such training may be available at your local Mitsubishi Electric office. Contact your local sales office for schedules and locations.
- Page 4 For the installation at an altitude above 1000 m, consider a 3% reduction in the rated current per 500 m increase in altitude. l If halogen-based materials (fluorine, chlorine, bromine, iodine, etc.) infiltrate into a Mitsubishi Electric product, the product will be damaged.
- Page 5 Operation WARNING l When you have chosen the retry function, stay away from the equipment as it will restart suddenly after an alarm stop. l Since pressing the key may not stop output depending on the function setting status, provide a circuit and switch separately to make an emergency stop (power off, mechanical brake operation for emergency stop, etc).
- Page 6 Maintenance, inspection and parts replacement CAUTION l Do not carry out a megger (insulation resistance) test on the control circuit of the inverter. It will cause a failure. Disposing of the inverter CAUTION l Treat as industrial waste. General instructions Many of the diagrams and drawings in instruction manuals show the inverter without a cover, or partially open.
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Page 7: Installation And Instructions
INSTALLATION AND INSTRUCTIONS 1 INSTALLATION AND INSTRUCTIONS 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. 1.1 Inverter Type FR-E8 0 - Rating plate MODEL :FR-E820-0008-1 Inverter model... - Page 8 INSTALLATION AND INSTRUCTIONS l E: The output specification for monitoring and the rated frequency are shown for the standard model and the communication protocol group is shown for the Ethernet model and the safety communication model. The control logic is fixed to the source logic for the safety communication model. Control logic Rated frequency Symbol...
- Page 9 INSTALLATION AND INSTRUCTIONS 1.4 Installation of the inverter Inverter placement FR-E820-0175(3.7K) or lower FR-E820-0240(5.5K) or higher FR-E840-0016(0.4K) to 0170(7.5K) FR-E840-0230(11K) or higher FR-E820S-0008(0.1K) to 0110(2.2K) Front cover Front cover (lower side) Comb-shaped wiring cover Comb-shaped wiring cover l Remove the front cover (or the lower front cover) and wiring cover to fix the inverter. l Install the inverter on a strong surface securely with screws.
- Page 10 INSTALLATION AND INSTRUCTIONS...
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Page 11: Wiring
2 WIRING 2.1 Terminal connection diagrams 2.1.1 Standard model (sink logic) Main circuit terminal Control circuit terminal Single-phase power input DC reactor Brake unit (option) (FR-HEL) MCCB Single-phase R/L1 AC power Earth S/L2 supply (Ground) Jumper PR N/- MCCB Motor R/L1 Three-phase S/L2... - Page 12 WIRING Remove the jumper between P1 and P/+ to connect the DC reactor. The function of these terminals can be changed using the Input terminal function selection (Pr.178 to Pr.184). (Refer to the FR-E800 Instruction Manual (Function).) The initial setting varies depending on the specification. Terminal input specifications can be changed by analog input specification switchover (Pr.73, Pr.267).
- Page 13 WIRING 2.1.2 Standard model (source logic) Main circuit terminal Control circuit terminal Single-phase power input DC reactor Brake unit (FR-HEL) (option) MCCB Single-phase R/L1 AC power Earth S/L2 supply (Ground) PR N/- MCCB Motor R/L1 Three-phase S/L2 AC power supply T/L3 Earth (Ground) Earth...
- Page 14 WIRING Remove the jumper between P1 and P/+ to connect the DC reactor. The function of these terminals can be changed using the Input terminal function selection (Pr.178 to Pr.184). (Refer to the FR-E800 Instruction Manual (Function).) The initial setting varies depending on the specification. Terminal input specifications can be changed by analog input specification switchover (Pr.73, Pr.267).
- Page 15 WIRING 2.1.3 Ethernet mode (sink logic) Main circuit terminal Control circuit terminal Single-phase power input DC reactor Brake unit (option) (FR-HEL) MCCB Single-phase R/L1 AC power Earth S/L2 supply (Ground) Jumper PR N/- MCCB Motor R/L1 Three-phase S/L2 AC power supply T/L3 Earth (Ground)
- Page 16 WIRING Remove the jumper between P1 and P/+ to connect the DC reactor. The function of these terminals can be changed using the Input terminal function selection (Pr.178 to Pr.179). (Refer to the FR-E800 Instruction Manual (Function).) The initial setting varies depending on the specification. Terminal input specifications can be changed by analog input specification switchover (Pr.73, Pr.267).
- Page 17 WIRING 2.1.4 Ethernet mode (source logic) Main circuit terminal Control circuit terminal Single-phase power input DC reactor Brake unit (FR-HEL) (option) MCCB Single-phase R/L1 AC power Earth S/L2 supply (Ground) Jumper PR N/- MCCB Motor R/L1 Three-phase S/L2 AC power supply T/L3 Earth (Ground)
- Page 18 WIRING Remove the jumper between P1 and P/+ to connect the DC reactor. The function of these terminals can be changed using the Input terminal function selection (Pr.178 to Pr.179). (Refer to the FR-E800 Instruction Manual (Function).) The initial setting varies depending on the specification. Terminal input specifications can be changed by analog input specification switchover (Pr.73, Pr.267).
- Page 19 WIRING 2.1.5 Safety communication model Sink logic Main circuit terminal Control circuit terminal Single-phase power input DC reactor Brake unit MCCB (option) (FR-HEL) Single-phase R/L1 AC power Earth S/L2 supply (Ground) PR N/- Jumper MCCB Motor R/L1 Three-phase S/L2 AC power supply T/L3 Earth (Ground)
- Page 20 WIRING Remove the jumper between P1 and P/+ to connect the DC reactor. Terminal input specifications can be changed by analog input specification switchover (Pr.73, Pr.267). To input voltage, set the voltage/current input selection switch to "V". To input current, set the switch to "I". The initial setting varies depending on the specification.
- Page 21 WIRING 2.2 Main circuit terminal 2.2.1 Terminal layout and wiring l Three-phase 200/400 V class FR-E820-0008(0.1K) to 0050(0.75K) FR-E820-0080(1.5K) to 0175(3.7K) FR-E840-0016(0.4K) to 0095(3.7K) Jumper N/- P/+ Jumper Jumper R/L1 S/L2 T/L3 R/L1 S/L2 T/L3 Earthing (grounding) Earthing (grounding) terminal terminal Power supply Motor...
- Page 22 WIRING l Single-phase 200 V class FR-E820S-0008(0.1K) to 0030(0.4K) FR-E820S-0050(0.75K) to 0110(2.2K) Jumper N/- P/+ Jumper Jumper R/L1 S/L2 R/L1 S/L2 Earthing (grounding) terminal Earthing (grounding) terminal Power supply Motor Motor Power supply CAUTION l The power supply cables must be connected to R/L1, S/L2, T/L3. Never connect the power cable to the U, V, W, of the inverter. Doing so will damage the inverter.
- Page 23 WIRING 2.3 Wiring fundamentals 2.3.1 Applicable cables and wiring length For the ND rating l Three-phase 200 V class (220 V input power supply, without a power factor improving AC or DC reactor) Cable sizes Crimping Terminal Terminal Tightening Applicable HIV, etc.
- Page 24 WIRING l Three-phase 400 V class (440 V input power supply, with a power factor improving AC or DC reactor) Cable sizes Crimping terminal Terminal Tightening HIV, etc. [mm²] AWG/MCM PVC, etc. [mm²] Applicable screw inverter type torque R/L1, R/L1, Earth R/L1, R/L1,...
- Page 25 WIRING For the LD rating l Three-phase 200 V class (220 V input power supply, without a power factor improving AC or DC reactor) Cable sizes Crimping terminal Terminal Tightening HIV, etc. [mm²] AWG/MCM PVC, etc. [mm²] Applicable screw inverter type torque R/L1, R/L1,...
- Page 26 WIRING l Three-phase 400 V class (440 V input power supply, with a power factor improving AC or DC reactor) Cable Sizes Crimping terminal Terminal Tightening HIV, etc. [mm²] AWG/MCM PVC, etc. [mm²] Applicable screw inverter Type torque R/L1, R/L1, Earth R/L1, R/L1,...
- Page 27 WIRING 2.3.2 Total wiring length l With induction motor Connect one or more general-purpose motors within the total wiring length shown in the following table. Pr.72 setting Voltage 3.7K or Cable type 0.1K 0.2K 0.4K 0.75K 1.5K 2.2K (carrier frequency) class higher 1 (1 kHz) or lower...
- Page 28 WIRING 2.3.3 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 29 WIRING 2.4 Control circuit terminals 2.4.1 Terminal layout Standard model (FM type inverter) l Recommended cable gauge: 0.3 to 0.75 mm S1 S2 PC RUN FU SE MRS RES SD STF RL RM RH SD SO SOC Standard model (AM type inverter) l Recommended cable gauge: 0.3 to 0.75 mm S1 S2 PC RUN FU SE MRS RES SD STF...
- Page 30 WIRING Ethernet model l Recommended cable gauge: 0.3 to 0.75 mm S1 S2 PC DI0 DI1 SD SO SOC Safety communication model l Recommended cable gauge: 0.3 to 0.75 mm SX1 SX2 PC SD 2.4.2 Wiring method l Power supply connection For the control circuit wiring, strip off the sheath of a cable, and use it with a blade terminal.
- Page 31 WIRING (2) Insert wires into a blade terminal, then crimp the terminal. Insert wires to a blade terminal, and check that the wires come out for about 0 to 0.5 mm from a sleeve. Check the condition of the blade terminal after crimping. Do not use a blade terminal of which the crimping is inappropriate, or the face is damaged.
- Page 32 WIRING 2.4.3 Wiring precautions l It is recommended to use the cables of 0.3 to 0.75mm² gauge for connection to the control circuit terminals. l The wiring length should be 30m (200m for the terminal FM) maximum. l Use two or more parallel micro-signal contacts or twin contacts to prevent a contact faults when using contact inputs since the control circuit input signals are micro- currents.
- Page 33 WIRING 2.5 Safety stop function 2.5.1 Function description The terminals related to the safety stop function are shown below. Terminal symbol Terminal function description Status of both the circuit between terminals S1 and PC Input terminal as the safety stop channel 1. and the circuit between terminals S2 and PC Open: Safety stop is activated.
- Page 34 WIRING 2.5.3 Safety stop function operation Internal Output *1, *2 *8, *9, *10 Operation panel indication Input terminal Output signal safety terminal Inverter operation Input power circuit enable signal SAFE SAFE2 E.SAF status Output shutoff — — — Not displayed Not displayed (Safe state) Normal...
- Page 35 This function is not available for the standard model and the Ethernet model. l Outline Mitsubishi Electric FR-E800-SCE general-purpose inverters have safety functions to stop the output to motors. By connecting the inverter with a programmable controller with an Ethernet cable, signal input via communication is enabled.
- Page 36 WIRING l Operation of the SAFE and SAFE2 signals STO function status *5, *6, *7 Output signal E.SAF Status of safety when the STO or SS1 Inverter operating status SA indication related parts indication SAFE SAFE2 command is input STO disabled Operation enabled Not displayed Normal...
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Page 37: Failsafe Of The System Which Uses The Inverter
3 FAILSAFE OF THE SYSTEM WHICH USES THE INVERTER When a fault is detected by the protective function, the protective function activates and outputs the Fault signal. However, the 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 38 FAILSAFE OF THE SYSTEM WHICH USES THE INVERTER Checking the inverter operating status by using the start signal input to the inverter and the Inverter running signal output from the inverter ... (c) The Inverter running (RUN2) signal is output when the inverter is running. Check if the RUN2 signal is output while a start signal (the STF/STR signal for forward/reverse rotation command) is input to the inverter.
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Page 39: Precautions For Use Of The Inverter
4 PRECAUTIONS FOR USE OF THE INVERTER The FR-E800 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. - Page 40 PRECAUTIONS FOR USE OF THE INVERTER Checkpoint Countermeasure On the inverter's input side, connect an MC for the following purposes: To disconnect the inverter from the power supply at activation of a protective function or at malfunctioning of the driving system (emergency stop, etc.). A magnetic contactor (MC) is To prevent any accident due to an automatic restart at power restoration after an inverter stop made installed on the inverter's input...
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Page 41: Basic Operation
ON when the PLC function of the inverter is valid. indicator The setting dial of the Mitsubishi Electric inverters. Turn the setting dial to change the setting of frequency or parameter, etc. Press the setting dial to perform the following operations: Setting dial lTo display a set frequency on the LED display in the monitor mode. - Page 42 BASIC OPERATION Component Name Description Confirms each selection. Initial setting in the monitor mode When this key is pressed during inverter operation, the monitor item changes. Output Output Output SET key frequency current voltage (The monitor item on each screen can be changed according to the settings of Pr.52, Pr.774 to Pr.776.).
- Page 43 BASIC OPERATION Component Name Description Switches the operation panel to a different mode. The easy setting of the inverter operation mode is enabled by pressing this key simultaneously with the PU/EXT key. MODE key Every key on the operation panel becomes inoperable by holding this key for 2 seconds.
- Page 44 BASIC OPERATION 5.1.2 Basic operation of the operation panel Basic operation (standard model) Operation mode switchover/frequency setting External operation mode (displayed at power-ON) PU operation mode *1 PU JOG operation mode Blinking Change the setting. Frequency setting written and completed! Third screen Second screen First screen (Output frequency monitoring) *2...
- Page 45 BASIC OPERATION Basic operation (Ethernet model and safety communication model) Operation mode switchover/frequency setting PU operation mode *1 Network operation mode (at power-ON) PU JOG operation mode Blinking Frequency setting written and completed! Change the setting. Third screen Second screen First screen (Output frequency monitoring)*2 (Output current monitoring)*2 (Output voltage monitoring)*2...
- Page 46 BASIC OPERATION...
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Page 47: Parameter List
6 PARAMETER LIST For simple variable-speed operation of the inverter, the initial values of the parameters may be used as they are. Set the necessary parameters to meet the load and operational specifications. Parameter's setting, change and check can be made on the operation panel. - Page 48 PARAMETER LIST Initial Initial Para- Para- Name Setting Range Name Setting Range meter meter Value Value Acceleration/ [E800][E800- (SC)EPB] deceleration time 0, 1 0, 5 to 14, 17 to increments 20, 23 to 33, 35, Stall prevention 38, 40 to 42, 44, 45, 50 to 57, 61, operation level 150%...
- Page 49 PARAMETER LIST Initial Initial Para- Para- Name Setting Range Name Setting Range meter meter Value Value Input filter time PU communication 0 to 8 constant stop bit length / data 0, 1, 10, 11 length [E800] [E800(-E)] Reset selection/ [E800(-E)] 0 to 3, 14 to 17 PU communication disconnected PU...
- Page 50 PARAMETER LIST Initial Initial Para- Para- Name Setting Range Name Setting Range meter meter Value Value OL signal output NET X1 input 0 to 25 s, 9999 timer selection 1 to 3, 5 to 14, NET X2 input 0 to 4, 8, 13 to AM terminal function 17, 18, 21, 24, selection...
- Page 51 PARAMETER LIST Initial Initial Para- Para- Name Setting Range Name Setting Range meter meter Value Value Terminal 4 input 0, 1, 3, 4, 7, 8, 0 to 2 selection 11 to 16, 20, 24 NET Y1 output 9999 to 26, 30 to 36, Monitor decimal selection 38 to 41, 44 to...
- Page 52 PARAMETER LIST Parameter 300 to 399 Parameter 400 to 499 Initial Initial Para- Para- Name Setting Range Name Setting Range meter meter Value Value 0, 1, 3, 4, 7, 8, PLC function 0 to 2, 11, 12 DO0 output selection 9999 11 to 16, 20, 24 operation selection...
- Page 53 PARAMETER LIST Parameter 500 to 599 Initial Para- Name Setting Range meter Value Initial Para- [200 V class] Name Setting Range meter Value 200 V Rated second motor [400 V class] Stop mode selection 0 to 1000 V voltage 400 V at communication 0 to 2, 6 [575 V class]...
- Page 54 PARAMETER LIST Initial Initial Para- Para- Name Setting Range Name Setting Range meter meter Value Value Multiple rating Speed smoothing 1, 2 0% to 200% setting [3-phase] control Holding time at a Speed smoothing 9999 20 Hz 0 to 10 s, 9999 0 to 120 Hz start cutoff frequency...
- Page 55 PARAMETER LIST Parameter 800 to 999 Initial Para- Name Setting Range meter Value Initial Para- Starting magnetic Name Setting Range meter Value pole position 0 to 6000 μs, 9999 detection pulse 9999 Control method 0 to 5, 9, 10 to width selection 12, 19, 20, 40...
- Page 56 PARAMETER LIST Initial Initial Para- Para- Name Setting Range Name Setting Range meter meter Value Value Torque control P Regeneration 0% to 500%, gain 2 (current loop avoidance operation 9999 0 to 2 9999 proportional gain) selection Torque control [200 V class] 400 V integral time 2 0 to 500 ms,...
- Page 57 PARAMETER LIST Parameter 1100 to 1399 Initial Para- Name Setting Range meter Value Initial Para- Jan. 1 to Name Setting Range 1007 Clock (month, day) meter Value Dec. 31 1008 Deceleration time at Clock (hour, minute) 0:00 to 23:59 1103 0 to 3600 s emergency stop Integral stop...
- Page 58 PARAMETER LIST Parameter 1400 to 1499 Initial Para- Name Setting Range meter Value Initial Para- Seventh positioning Name Setting Range 1249 meter 0, 10, 100, 110 Value subfunction Motor induced voltage Home position return 2, 3, 4, 6, 103, 1282 1412 constant (phi f) 9999...
- Page 59 PARAMETER LIST Initial Initial Para- Para- Name Setting Range Name Setting Range meter meter Value Value IP filter address 4 Upper limit warning 0% to 400%, 1488 1445 (Ethernet) detection width 9999 0 to 255 [E800-(SC)E] Lower limit warning 0% to 400%, 1489 IP filter address 2 detection width...
- Page 60 PARAMETER LIST Initial Para- Name Setting Range meter Value PID display gain 0 to 500, 9999 9999 coefficient (935) PID display gain 100% 0% to 300% analog value (935) PR.CL Parameter clear (0), 1 ALLC All parameter clear (0), 1 ER.CL Fault history clear (0), 1...
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Page 61: Inverter Fault And Alarm Indications
7 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 is activated to shut off the inverter output. When any fault occurs, take an appropriate corrective action, then reset the inverter, and resume the operation. - Page 62 INVERTER FAULT AND ALARM INDICATIONS 7.1 Reset method of protective function The inverter can be reset by performing any of the following operations. Note that the internal thermal integrated value of the electronic thermal relay function and the number of retries are cleared (erased) by resetting the inverter. Inverter recovers about 1s after reset is cancelled.
- Page 63 INVERTER FAULT AND ALARM INDICATIONS Data Data Operation panel indication Name Operation panel indication Name code code Parameter storage device E.PE2 Fan alarm — fault (main circuit board) (HB3) Overcurrent trip during E.CPU CPU fault E.OC1 (HC0) acceleration (H10) Abnormal output current Overcurrent trip during E.CDO E.OC2...
- Page 64 INVERTER FAULT AND ALARM INDICATIONS...
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Page 65: Specifications
The applicable motor capacity indicated is the maximum capacity applicable for use of the Mitsubishi Electric 4-pole standard efficiency motor. To drive a Mitsubishi Electric high-performance energy-saving motor, use the 0.75K inverter for a 1.1 kW motor, or 2.2K inverter for a 3 kW motor. - Page 66 Weight [kg] 11.0 11.0 The applicable motor capacity indicated is the maximum capacity applicable for use of the Mitsubishi Electric 4-pole standard efficiency motor. To drive a Mitsubishi Electric high-performance energy-saving motor, use the 2.2K inverter for a 3 kW motor.
- Page 67 Natural Forced air cooling Weight [kg] The applicable motor capacity indicated is the maximum capacity applicable for use of the Mitsubishi Electric 4-pole standard efficiency motor. The rated output capacity is the value with respect to 230 V output voltage.
- Page 68 SPECIFICATIONS 8.2 Outline dimensions Ethernet model / Standard model Safety communication model (Unit: mm) Inverter Type FR-E820S-0008(0.1K) FR-E820S-0008(0.1K)E FR-E820S-0008(0.1K)SCE 80.5 FR-E820S-0015(0.2K) FR-E820S-0015(0.2K)E FR-E820S-0015(0.2K)SCE FR-E820S-0030(0.4K) FR-E820S-0030(0.4K)E 142.5 FR-E820S-0030(0.4K)SCE FR-E820S-0050(0.75K) FR-E820S-0050(0.75K)E FR-E820S-0050(0.75K)SCE FR-E820S-0080(1.5K) FR-E820S-0080(1.5K)E FR-E820S-0080(1.5K)SCE FR-E820S-0110(2.2K) FR-E820S-0110(2.2K)E 142.5 FR-E820S-0110(2.2K)SCE...
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Page 69: W W1 H H1 Dc
SPECIFICATIONS Inverter Type FR-E820-0008(0.1K) FR-E820-0008(0.1K)E FR-E820-0008(0.1K)SCE 80.5 FR-E820-0015(0.2K) FR-E820-0015(0.2K)E FR-E820-0015(0.2K)SCE FR-E820-0030(0.4K) FR-E820-0030(0.4K)E 112.5 FR-E820-0030(0.4K)SCE FR-E820-0050(0.75K) FR-E820-0050(0.75K)E 132.5 FR-E820-0050(0.75K)SCE FR-E820-0080(1.5K) FR-E820-0080(1.5K)E FR-E820-0080(1.5K)SCE 135.5 FR-E820-0110(2.2K) FR-E820-0110(2.2K)E FR-E820-0110(2.2K)SCE FR-E820-0175(3.7K) FR-E820-0175(3.7K)E 142.5 FR-E820-0175(3.7K)SCE FR-E820-0240(5.5K) FR-E820-0240(5.5K)E FR-E820-0240(5.5K)SCE FR-E820-0330(7.5K) FR-E820-0330(7.5K)E FR-E820-0330(7.5K)SCE FR-E820-0470(11K) FR-E820-0470(11K)E FR-E820-0470(11K)SCE FR-E820-0600(15K) FR-E820-0600(15K)E FR-E820-0600(15K)SCE FR-E820-0760(18.5K) FR-E820-0760(18.5K)E... - Page 70 SPECIFICATIONS...
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Page 71: Aappendix
CE marking. l 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 A.1.1 EMC Directive We declare that this inverter conforms with the EMC Directive and affix the CE marking on the inverter. - Page 72 APPENDIX A.1.2 Low Voltage Directive We have self-confirmed our inverters as products compliant to the Low Voltage Directive 2014/35/EU (conforming stand- ard EN 61800-5-1) and place the CE mark on the inverters. Outline of instructions l Do not use an earth leakage current breaker as an electric shock protector without connecting the equipment to the earth.
- Page 73 Instruction Manual (Connection) intended for use with this product. Please forward relevant manuals to the end user. The manuals can also be downloaded in PDF form from the Mitsubishi Electric FA Global Website. To order manuals, please contact your sales representative.
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Page 74: E820S-0015(0.2K)
APPENDIX l Fuse selection For installation in the United States, the semiconductor fuses shown in the following table must be provided, in accordance with the National Electrical Code and any applicable local codes. For installation in Canada, the semiconductor fuses shown in the following table must be provided, in accordance with the Canadian Electrical Code and any applicable local codes. -
Page 75: E820S-0015(0.2K
APPENDIX Safety communication model Inverter model Cat. No Manufacturer Rating Inverter model Cat. No Manufacturer Rating 170M1408, FR-E820-0008(0.1K), 170M1308 or Bussmann 700 V, 10 A FR-E840-0060(2.2K) 170M1312 Bussmann 700 V, 32 A 0015(0.2K) 170M1358 170M1409, FR-E820-0030(0.4K) 170M1309 or Bussmann 700 V, 16 A FR-E840-0095(3.7K) 170M1413 Bussmann... - Page 76 APPENDIX A.2.5 Wiring of the power supply and motor Refer to the National Electrical Code (Article 310) regarding the allowable current of the cable. Select the cable size for 125% of the rated current according to the National Electrical Code (Article 430). For wiring the input (R/L1, S/L2, T/L3) and output (U, V, W) terminals of the inverter, use the UL listed copper, stranded wires (rated at 75°C) and round crimp ter- minals.
- Page 77 It is not the percentage to the motor rated current. When the electronic thermal relay function dedicated to the Region for Mitsubishi Electric constant-torque motor is set, this transistor protection characteristic curve applies to operation at 6 Hz or higher.
- Page 78 Vernon Hills, IL 60061 Phone: +1 (847) 478-2100 Fax: +1 (847) 478-0328 Mitsubishi Electric Europe B.V. / FA - European Business Group / Mitsubishi-Electric-Platz 1 / D-40882 Ratingen / Germany / Tel.: +49(0)2102-486-2048 / Fax: +49(0)2102-4861120 / [email protected] / https://eu3a.mitsubishielectric.com...