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Designed for unparalleled energy saving, optimised speed control, simple start-up, and versatility, Mitsubishi Electric has developed a new generation of drive technology: the remarkable FR‑F800. The FR‑F800 is mainly designed to be used with pumps, fans and compressors and HVAC applications. It features many innovative functions that allow for the best compromise between efficiency and accurate control.
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Model range
FR-F800 versatile series (3 phase 200-240 V)
Model | Capacity, kW |
Current, A |
Deceleration time, sec | Dimensions (W x H x D), mm |
Price | |
---|---|---|---|---|---|---|
FR-F820-00046-1 | 0,75 | 4.6 | 0-3600 | 110x260x110 | reduced! | |
FR-F820-00077-1 | 1,5 | 7.7 | 0-3600 | 110x260x125 | reduced! | |
FR-F820-00105-1 | 2,2 | 10.5 | 0-3600 | 150x260x140 | reduced! | |
FR-F820-00167-1 | 3,7 | 16.7 | 0-3600 | 150x260x140 | reduced! | |
FR-F820-00250-1 | 5,5 | 25 | 0-3600 | 150x260x140 | reduced! | |
FR-F820-00340-1 | 7,5 | 34 | 0-3600 | 220x260x170 | reduced! | |
FR-F820-00490-1 | 11 | 49 | 0-3600 | 220x260x170 | reduced! | |
FR-F820-00630-1 | 15 | 63 | 0-3600 | 220x300x190 | reduced! | |
FR-F820-00770-1 | 18,5 | 77 | 0-3600 | 250x400x190 | reduced! | |
FR-F820-00930-1 | 22 | 93 | 0-3600 | 250x400x190 | reduced! | |
FR-F820-01250-1 | 30 | 125 | 0-3600 | 250x400x190 | reduced! | |
FR-F820-01540-1 | 37 | 154 | 0-3600 | 325x550x195 | reduced! | |
FR-F820-01870-1 | 45 | 187 | 0-3600 | 435x550x250 | reduced! | |
FR-F820-02330-1 | 55 | 233 | 0-3600 | 435x550x250 | reduced! | |
FR-F820-03160-1 | 75 | 316 | 0-3600 | 465x700x250 | reduced! | |
FR-F820-03800-1 | 90 | 380 | 0-3600 | 465x740x360 | reduced! | |
FR-F820-04750-1 | 132 | 475 | 0-3600 | 465x740x360 | reduced! |
FR-F800 versatile series (3 phase 380-480 V)
Model | Capacity, kW |
Current, A |
Deceleration time, sec | Dimensions (W x H x D), mm |
Price | |
---|---|---|---|---|---|---|
FR-F840-00023-E2-60 | 0.75 | 2.3 | 0-3600 | 150x260x140 | 525,00 € | |
FR-F840-00038-E2-60 | 1.5 | 3.8 | 0-3600 | 150x260x140 | 541,00 € | |
FR-F840-00052-E2-60 | 2.2 | 5.2 | 0-3600 | 150x260x140 | 593,00 € | |
FR-F840-00083-E2-60 | 3.7 | 8.3 | 0-3600 | 150x260x140 | 645,00 € | |
FR-F840-00126-E2-60 | 5.5 | 12.6 | 0-3600 | 150x260x140 | 776,00 € | |
FR-F840-00170-E2-60 | 7.5 | 17 | 0-3600 | 220x260x170 | 907,00 € | |
FR-F840-00250-E2-60 | 11 | 25 | 0-3600 | 220x260x170 | 1 187,00 € | |
FR-F840-00310-E2-60 | 15 | 31 | 0-3600 | 220x300x190 | 1 550,00 € | |
FR-F840-00380-E2-60 | 18.5 | 38 | 0-3600 | 220x300x190 | 2 038,00 € | |
FR-F840-00470-E2-60 | 22 | 47 | 0-3600 | 250x400x190 | 2 683,00 € | |
FR-F840-00620-E2-60 | 30 | 62 | 0-3600 | 250x400x190 | 3 014,00 € | |
FR-F840-00770-1 | 37 | 77 | 0-3600 | 325x550x195 | reduced! | |
FR-F840-00930-1 | 45 | 93 | 0-3600 | 435x550x250 | reduced! | |
FR-F840-01160-1 | 55 | 116 | 0-3600 | 435x550x250 | reduced! | |
FR-F840-01800-1 | 75 | 180 | 0-3600 | 435x550x250 | reduced! | |
FR-F840-02160-1 | 110 | 216 | 0-3600 | 465x620x300 | reduced! | |
FR-F840-02600-1 | 132 | 260 | 0-3600 | 465x620x300 | reduced! | |
FR-F840-03250-1 | 160 | 325 | 0-3600 | 465x740x360 | reduced! | |
FR-F840-03610-1 | 185 | 361 | 0-3600 | 465x740x360 | reduced! | |
FR-F840-04320-1 | 220 | 432 | 0-3600 | 498x1010x380 | reduced! | |
FR-F840-04810-1 | 250 | 481 | 0-3600 | 498x1010x380 | reduced! | |
FR-F840-05470-1 | 280 | 547 | 0-3600 | 680x1010x380 | reduced! | |
FR-F840-06100-1 | 315 | 610 | 0-3600 | 680x1010x380 | reduced! | |
FR-F840-06830-1 | 355 | 683 | 0-3600 | 680x1010x380 | reduced! |
Energy Saving with Mitsubishi frequency inverter FR-F800 series.
The consumed power of a variable-torque load, such as fans, pumps, and blowers, is proportional to the cube of its rotation speed. Adjusting the air volume by the inverter rotation speed control can lead to energy savings.
Optimum excitation control continuously adjusts the excitation current to an optimum level to provide the highest motor efficiency. With a small load torque, a substantial energy saving can be achieved. For example, at 4% motor load torque for a general-purpose motor, the motor efficiency under Optimum excitation control is about 30% higher than the motor efficiency under V/F control.
Improving starting torque and saving energy at the same time.
Advanced optimum excitation control, which has been newly developed, provides a large starting torque while maintaining the motor efficiency under the conventional Optimum excitation control. Without the need of troublesome adjustment of parameters (acceleration/deceleration time, torque boost, etc.), acceleration is done in a short time. Also, energy saving operation with the utmost improved motor efficiency is performed during constant-speed operation.
Mitsubishi drive FR-800 series is supporting operations of various motors.
The offline auto tuning function to measure circuit constants of the motor enables optimal operation of motors even when motor constants vary, when a motor of other manufacturers is used, or when the wiring distance is long. As well as Mitsubishi general-purpose motors, Mitsubishi PM motors (MM-EFS, MM-THE4), sensorless operation can be performed for other manufacturers' general-purpose motors*2 and other manufacturers' permanent magnet (PM) motors*2 . The tuning function enables the Advanced optimum excitation control of other manufacturers' general-purpose motors*2 , which increases the use in the energy saving applications.
*2: Depending on the motor characteristics, tuning may not be available.
Energy Saving Mitsubishi vfd FR-F800 series with High-Efficiency Motor.
In the international context of global warming prevention, many countries in the world have started to introduce laws and regulations to mandate manufacturing and sales of high-efficiency motors. With the use of high-efficiency motors, further energy saving is achieved.
Further energy saving with the premium high-efficiency IPM motor.
- The IPM motor, with permanent magnets embedded in the rotor, achieves even higher efficiency as compared to the general-purpose motor (SF-PR/SF-THE3).
- The IM driving setting can be switched to IPM driving setting by only one setting. ("12" (MM-EFS/MM-THE4) in the parameter [IPM]. Refer to page 116 for details.)
Why is an IPM motor more efficient?
No current flows to the rotor (secondary side), and no secondary copper loss is generated. ∙Magnetic flux is generated with permanent magnets, and less motor current is required. ∙Embedded magnets provide reluctance torque*, and the reluctance torque can be applied.
*Reluctance torque occurs due to magnetic imbalance on the rotor.
Optimum Inverter Capacity Selection.
The rating can be selected between the two types (LD (light duty) or SLD (superlight duty)) depending on the load of the fan/pump to be used. The optimum inverter capacity can be selected suitable for the motor to be used. For the 200 V class 90K or higher and the 400 V class 75K or higher, a motor with one-rank higher capacity can be combined.
Mitsubishi frequency inverter FR-F800 series Further Enhanced PID Control.
System cost reduction.
Two PID operation units are available in the inverter. The inverter can perform PID control of the motor operation and control the external equipment at the same time. The system cost can be reduced because no external PID controller is required for controlling the external equipment.
Direct setting of the PID set point.
The PID set point can be set directly from the operation panel. The setting can be easily changed at hand.
Visibility improvement.
With the optional LCD operation panel (FR-LU08), the unit can be changed from "%" to other easy-to-see units. Maintenance and adjustment is facilitated by using a familiar unit of air volume, temperature, etc. for indication.
Avoidance of rapid acceleration/deceleration using PID action.
Before PID action, the water flow to the pipe is controlled by operating the motor at a constant speed until the measured value (pressure, etc.) reaches the set level. This function is used to avoid rapid acceleration/deceleration caused by starting the PID action while the pipe is empty, and prevent a water hammer action, etc.
Water volume control with multiple pumps.
By controlling the pumps connected in parallel (up to four pumps) by the PID control by one inverter, water volume, etc. can be adjusted. One of the connected pumps is driven by the inverter. Other pumps are driven by commercial power supply. The number of pumps to be driven by commercial power supply is automatically adjusted according to the water volume.
Pump water volume control.
In order to prevent air intake and cavitation inside the pump, the pump inlet pressure can be controlled so that there is no water shortage.
Mitsubishi drive FR-F800 series Operating Status Monitoring.
Detection of mechanical faults.
The speed/torque relationship is stored while no fault occurs. By comparing the present load status with the stored load characteristics, out-of-range warnings can be output if applicable. Mechanical faults such as clogging of the filter or breakage of the belt can be easily detected, and maintenance is facilitated.
Cleaning of fans and pumps.
Foreign matter on the impellers or fans of pumps can be removed by repeating forward/reverse rotation and stopping of the motor. (Use this function when a back flush does not pose a problem.) This function can be also automatically started when the result of load characteristics measurement is out of range (overload).
PLC Control with a Mitsubishi vfd FR-F800 series.
- Parameters and setting frequency can be changed at the program. Control programs can be created in sequence ladders using the inverter setup software (FR Configurator2).
- Inverter control such as inverter operations triggered by input signals, signal output based on inverter operation status, and monitor output can be freely customized based on the machine specifications.
- All machines can be controlled by the inverter alone, and control can also be dispersed.
Compatibility with Various Systems.
Compatibility with various networks.
It supports BACnet® MS/TP as standard, as well as Mitsubishi inverter protocol and MODBUS®RTU (binary) protocol. Communication options are also available for the major network protocols such as CC-Link, CC-Link IE Field, LONWORKS® (to be supported soon), FL-net remote I/O (to be supported soon), PROFIBUS-DPV0, and DeviceNet™.
Simplified external equipment.
The CA-type inverters are available. For the CA type, the monitor output terminal FM/CA operates as terminal CA (analog current output 0 to 20 mA), not as terminal FM (pulse train output). An external converter is not required. (The factory setting is different for the CA type and the FM type.
Improved System Safety with Mitsubishi frequency inverter FR-F800 series.
Controls with safety functions can be easily performed. PLd and SIL2 are supported as standard. (STO)
- EN ISO 13849-1 PLd / Cat.3
- EN 61508, EN61800-5-2 SIL2
Standard 24 VDC power supply for the control circuit.
In addition to the existing power supply input terminals (R1 and S1) of the control circuit, 24 VDC input is equipped as standard. The 24 VDC power supplied from outside can be fed to the control circuit locally. The parameter setting and communication operation can be done without turning ON the main power.
Prevention of trouble with temperature monitoring.
The inverter is equipped with an internal temperature sensor, which outputs a signal when the internal temperature is high. This facilitates the detection of rises in temperature inside the inverter following cooling fan malfunction, or rises in the surrounding air temperature due to inverter operating conditions.
Mitsubishi drive FR-F800 series is easy to operate.
Parameter copy with a USB memory device.
A USB host connecter (A type), which allows external device connections, has been added. Parameters can be copied to commercial USB memory devices.
Easy setup with FR Configurator2.
- With the sense of unity with other Mitsubishi FA products with common MELSOFT design and operability, the software is easy to use.
- Easy plug-and-play connection is available to the USB terminal equipped as standard.
- A free trial version, which contains start-up functions, is available. It can be downloaded at Mitsubishi Electric FA Global Website.
Easy wiring to the control circuit.
Spring clamp terminals have been adopted for control circuit terminals. Wires can be protected against loosening under vibrations during transportation of the inverter. Ten additional terminals are used as compared to the FR-F700(P) series. Round crimping terminals can also be used by employing a control terminal option (FR-A8TR).
Easy operation with GOT.
- Automatic communication is possible without specifying any parameter settings simply by connecting to the GOT2000 series.
- The PLC function device monitor can be displayed at the GOT2000 series. Batch control of multiple inverter device monitors is possible with a single GOT unit.
- The sample screen data for the FR-F800 can be found in the screen design software of the GOT2000 series. For the latest version of the screen design software, please contact your local sales office.
Easy-to-follow parameter configuration.
With the parameter setting mode selection of the operation panel, the group parameter mode can be selected to provide intuitive and simple parameter settings. (The conventional parameter setting mode is selected by default.)
Easy-to-read operation panel.
A 5-digit, 12-segment display has been adopted for the operation panel (FR-DU08) for a more natural character display. Furthermore, an optional operation panel (FR-LU08) adopting an LCD panel capable of displaying text and menus is also available.