Fuji Electric FRENIC-MEGA G2 Series Manual
  1. Manuals
  2. Brands
  3. Fuji Electric Manuals
  4. Inverter
  5. FRENIC-MEGA G2 Series
  6. Manual
Fuji Electric FRENIC-MEGA G2 Series Manual

Fuji Electric FRENIC-MEGA G2 Series Manual

High performance multifunctional inverters
Hide thumbs
Table of Contents

Advertisement

Quick Links

Download this manual
High Performance Multifunctional Inverters
(G2)
New Standard
With the flexibility and functionality to support a wide range of
applications on all types of mechanical equipment, the FRENIC-MEGA
takes core capability, responsiveness, environmental awareness, and
easy maintenance to the next level.
24A1-E-0166b

Advertisement

Table of Contents
loading
Need help?

Need help?

Do you have a question about the FRENIC-MEGA G2 Series and is the answer not in the manual?

Questions and answers

Related Manuals for Fuji Electric FRENIC-MEGA G2 Series

Summary of Contents for Fuji Electric FRENIC-MEGA G2 Series

  • Page 1 High Performance Multifunctional Inverters (G2) New Standard With the flexibility and functionality to support a wide range of applications on all types of mechanical equipment, the FRENIC-MEGA takes core capability, responsiveness, environmental awareness, and easy maintenance to the next level. 24A1-E-0166b...
  • Page 2 The Industry’s Best Just Got Better Inherits the excellent performance specifications and functionality of the G1 Series while providing a more stylish design. Unrelenting pursuit of performance and functionality to further enhance adaptability. It is time to experience the fullness of the MEGA Series world. High basic Various performance...

  • Page 3: Table Of Contents

    CONTENTS Features Standard specifications Common specifications Keypad functions High basic performance [Basic type] Terminal features Function codes Various applications Three-phase 200V series Basic wiring diagram Options Easy maintenance Three-phase 400V series External dimensions Product warranty Environmentally resistant [EMC filter Built-in type] [Basic type &...

  • Page 4: Features

    Features High basic performance Supports vector control, sensorless vector control, dynamic torque vector control, and V/f control. Faster operating speeds Expanded range Increases the maximum output frequency of all control systems to 599 Hz and supports HIGH BASIC PERFORMANCE applications that require high-speed rotation and minimal speed and torque fluctuations. 599Hz Frequency [Hz] V/f control...
  • Page 5 Maximum Engineering for Global Advantage Advanced dynamic torque Strengthens ability to vector control handle impact loads HIGH BASIC HIGH BASIC PERFORMANCE PERFORMANCE Enhances our proprietary dynamic torque vector control with new motor constant tuning (that takes into account ness to sudden load changes. the voltage of the main circuit) and newly designed Minimizes fluctuations in motor rotational speed and magnetic flux observer.

  • Page 6: Various Applications

    Features Various applications Various applications Comes with feature-rich functionality and enhances compatibility with system networks. Positioning Contributes to shortening machine tact time through high-precision positioning control for pulse string input and feedback output VARIOUS APPLICATIONS instructions. Main features - Eight positioning data - Overtravel detection points function...
  • Page 7 Maximum Engineering for Global Advantage Load limiter Load adaptive control Improves system reliability by stopping when excessive When the actual load level is lower than the configured VARIOUS VARIOUS APPLICATIONS APPLICATIONS torque is detected and by allowing operation only in the load level, the system can be operated at a ratio-multi- direction opposite to that in which the excessive load plied frequency, resulting in significantly better...
  • Page 8 Cascade operation Function to control multiple pumps with one inverter. Control by combining inverter-driven and commercial power-driven operation. The VARIOUS APPLICATIONS flow and pressure sensor signals are controlled by the PID controller built-in the inverter, and each pump is driven by commercial power or the inverter using switching signals from the inverter.
  • Page 9 Maximum Engineering for Global Advantage Clogged Air Filter Fire Mode Remediation MEGA G2 detects filter clogging due to dust, etc., based VARIOUS VARIOUS APPLICATIONS on output current and pressure sensor values, and APPLICATIONS protective function (output shutoff) is partially ignored and operation is continued.

  • Page 10: Easy Maintenance

    Load adaptive control When the actual load level is lower than the configured Features VARIOUS APPLICATIONS load level, the system can be operated at a ratio-multi- plied frequency, resulting in significantly better Easy maintenance efficiency. Enhances work efficiency through simplified wiring and configuration and ensures safety and security through standard features such as preventive and predictive maintenance functions.
  • Page 11 Maximum Engineering for Global Advantage Designed with new operation keypad Multifunction LCD MAINTAINABILITY enhances maintainability via improved key button operability and cursor digit control. Multi-function Multi-function Standard Additional features Additional fea Character display ・ Equipped with a highly visible LCD. ・...
  • Page 12 Enhanced PC loader functions MAINTAINABILITY Usage examples At offices PC loader Can operate with inverters via At production Remote keypad sites online connection Capable of writing information to the keypad memory Life expectancy diagnosis and maintenance functions Enhancement MAINTAINABILITY helping to reduce production equipment maintenance time and downtime. Cooling capacity drop IGBT life expectancy Main circuit...

  • Page 13: Environmentally Resistant

    Maximum Engineering for Global Advantage Features Environmentally resistant Globally compliant lineup compatible with adverse atmospheres and various safety standards. Improves environmental resistance Enhancement n ckel ENVIRONMENTAL IP55 (2) Ambient operating temperature up to +55°C the main cooling unit (3) Further strengthens PCB coating * Products also available with enhanced salt-resistance and made-to-order specifications.
  • Page 14 Expansion of Mega Series app Main application examples Fans and pumps Blowers, turbo chillers, etc. Others PID control Auto tuning function Ensures smooth equipment startup and optimal operation adjustment through automatic PID parameter adjustment. Automatic energy-saving operation mode Minimizes inverter and motor loss through automatic operation, helping to achieve equipment energy savings.
  • Page 15 Maximum Engineering for Global Advantage lications Supports a wide variety of applications and is useful in various situations. Press machines Forging press machines, hoisting and transporting, etc. Others High-speed responsiveness Speed and current response Vector control Stabilizes quality by ensuring a constant rotational speed during load fluctuations through improved speed and current responsiveness.

  • Page 16: Main Application Examples

    Main application examples Stacker cranes Elevators, escalators, etc. Others Position control function Enables high-precision positioning control and tact time reduction through use of pulse train instructions and operations, origin return, and position preset overtravel detection. Brake release signals Outputs braking signals based on inverter operating conditions to prevent cargo bed rollback and overrunning.
  • Page 17 Maximum Engineering for Global Advantage Crushing machines Dynamic torque vector control Enables powerful operation even during sudden load changes and low-speed rotation. Life expectancy forecasting Monitors inverter current and temperature rise to predict and detect inverter tripping and failure. Prevents equipment stoppages and reduces downtime. Customizable logic functions Enables creation of customized programs (such as a program for recovering from stoppages due to jamming) by combining a wide variety of digital and...

  • Page 18: Model Variations

    Model Variations Model list Basic type Standard applied 3-phase 460 V series 3-phase 230 V series motor [kW (HP)] HND spec HHD spec HND spec HHD spec 2/5(1/2) FRN0002G2S-4GU FRN0002G2S-4GU FRN0003G2S-2GU FRN0003G2S-2GU 1(1) FRN0003G2S-4GU FRN0003G2S-4GU FRN0005G2S-2GU FRN0005G2S-2GU 2(2) FRN0004G2S-4GU FRN0004G2S-4GU FRN0008G2S-2GU FRN0008G2S-2GU 2(3)
  • Page 19 Maximum Engineering for Global Advantage How to interpret the inverter model number FRN 0000 G 2 S - 4 GU Code Series name Code Destination FRENIC series Global Code Applicable motor rating Code Input power source Output current (A) 3-phase 400V 3-phase 200V Code Enclosure...

  • Page 20: Standard Specifications

    (214) (*1) Standard applicable motor indicates Fuji Electric 4-pole standard motors. Select a motor not only based on inverter output (kW), but also so that the output rated current is greater than the motor rated current. (*2) The rated capacity indicates 220 V for the 200 V series, and 440 V for the 400 V series.

  • Page 21: Three-Phase 400V Series

    Time [s] (*1) Standard applicable motor indicates Fuji Electric 4-pole standard motors. Select a motor not only based on inverter output (kW), but also so that the output rated current is greater than the motor rated current. (*2) The rated capacity indicates 220 V for the 200 V series, and 440 V for the 400 V series.

  • Page 22: Three-Phase 400V Series

    (62) (*1) Standard applicable motor indicates Fuji Electric 4-pole standard motors. Select a motor not only based on inverter output (kW), but also so that the output rated current is greater than the motor rated current. (*2) The rated capacity indicates 220 V for the 200 V series, and 440 V for the 400 V series.
  • Page 23 Maximum Engineering for Global Advantage Basic type ■Three-phase 400V series Item Type (FRN □□□□ G2S-4G) 0179 0217 0261 0290 0376 0431 0547 0610 0739 0840 1039 1169 1385 1480 1200 100VA (84) (487) (487) (992) (992) Maximum Engineering for Global Advantage...

  • Page 24: Common Specifications

    Common Specifications Item Explanation Remarks Maximum output frequency 5 to 599 Hz variable setting Base frequency 5 to 599 Hz variable setting (in conjunction with maximum output frequency) Number of motor poles setting 2 to 128 poles Starting frequency 0.1 to 60.0 Hz variable setting (0.0 Hz when performing speed sensorless vector control/vector control with speed sensor) •...
  • Page 25 Maximum Engineering for Global Advantage Item Explanation Remarks UP/DOWN operation: Frequency can be increased or decreased while the digital input signal is ON. The frequency recorded with digital input “STZ” can be cleared. Multistep frequency selection: Selectable from 16 different frequencies (step 0 to 15) Pattern operation: The inverter runs automatically according to the previously specified run time, rotation direction, acceleration/deceleration time and reference frequency.
  • Page 26 Common Specifications Item Explanation Remarks The motor speed is estimated before startup, and the motor is started without ever stopping the motor while it is idling. Auto search (Motor constants must be tuned. Auto tuning (offline)) • If the intermediate DC voltage/torque calculation value reach or exceed the anti regenerative control level when the motor is decelerating, the deceleration time is automatically extended to avoid an overvoltage trip.
  • Page 27 Maximum Engineering for Global Advantage Item Explanation Remarks Simulated operation mode Sequence check is possible without inverter output. To ensure safety, the presence or absence of an operation command is checked at power-on, at alarm reset, and when switching Start check function operation command methods.
  • Page 28 Common Specifications Item Explanation Remarks RS485 communication Stops the inverter and displays an error if a communication error is detected when communicating via RS-485 COM port 2. error (COM port 2) Data saving error during Stops the inverter and displays an error if unable to successfully save data when undervoltage protection is triggered. undervoltage Stops the inverter and displays an error if the positioning deviation is excessive when the servo lock is applied, or when performing Position control error...
  • Page 29 Maximum Engineering for Global Advantage Item Explanation Remarks HHD, HND: -10 to +55°C [14 to 131°F] (current derating necessary in +50 to +55°C [122 to 131°F] range) Ambient temperature HD, ND : -10 to +55°C [14 to 131°F] (current derating necessary in +40 to +55°C [104 to 131°F] range) Ambient humidity 5 to 95% RH (avoid condensation) Altitude...

  • Page 30: Terminal Specifications

    Terminal Specifications Class Symbol Terminal name Explanation L1/R, L2/S, L3/T Main power supply input terminals Connect a three-phase power supply. 3-phase motor connection U, V, W Inverter output P (+) , P1 For DC reactor Connect a DC reactor (DCR) (option) for power-factor improvement. connection P (+)...
  • Page 31 Maximum Engineering for Global Advantage Class Symbol Terminal name Explanation 【X1】 Digital input 1 (1) Various signals (coast to stop command, external alarms, multistep frequency selection, etc.) can be set for terminals [X1] to [X9], [FWD], and [REV]. 【X2】 (2) The input mode and SINK/SOURCE can be switched using SW1. Digital input 2 (3) The operating mode between each digital input terminal and terminal [CM] can be switched to "ON when shorted (active ON)"...
  • Page 32 Terminal Specifications Class Symbol Terminal name Explanation This function outputs pulse signals. The content of the signal can be selected in the same way as the FM1/2 function by setting the function code F35. * Pulse duty: About 50%; Pulse rate: 25 to 6000 p/s (at full scale) Pulse output waveform FMP output circuit +24V...

  • Page 33: Basic Wiring Diagram

    Maximum Engineering for Global Advantage Basic Wiring Diagram Wiring of main circuit terminal and grounding terminal Braking resistor *6 (CM) Basic type P P(+)R DB (THR) P(+) N(-) Braking resistor (DBR) Bra king un it (BU) P(+) N(−) (CM) DC reactor (THR) (DCR) Main circuit...

  • Page 34: External Dimensions

    External Dimensions Basic type EMC Filter Built-in Type Type FRN0003G2□-2G, FRN0002G2□-4G Type FRN0005G2□-2G, FRN0003G2□-4G [Unit: mm (inch)] [Unit: mm (inch)] 110 (4.33) 110 (4.33) (0.28)) 96 (3.78) 7 (0.28) 145 (5.71) (0.28)) 132 (5.19) 96 (3.78) 7 (0.28) 32 (1.26) 19 (0.74) (0.59) 80 (3.15)
  • Page 35 Maximum Engineering for Global Advantage Basic type FRN0146G2□-2G, FRN0085G2□-4G, FRN0105G2□-4G FRN0180G2□-2G, FRN0139G2□-4G Type Type [Unit: mm (inch)] [Unit: mm (inch)] MAX326.2 (12.84) MAX259.1 (10.20) MAX361.2 (14.22) MAX274.1 (10.79) 320 (12.60) 255 (10.04) (4.1(0.16)) 355 (13.98) 270 (10.60) (40(1.57)) (4.1(0.16)) 115 (4.53) 140 (5.51) 40 (1.57) 240 (9.45)
  • Page 36 External Dimensions Basic type Type FRN0346G2□-2G Type FRN0432G2□-2G [Unit: mm (inch)] [Unit: mm (inch)] MAX686.4 (27.01) MAX363.9 (14.33) 680 (26.77) 360 (14.17) MAX535.8 (21.09) MAX289.1 (11.38) (50(1.96)) (3.9(0.15)) (1.96) 290 (11.42) 290 (11.42) 180 (7.08) 180 (7.08) 530 (20.87) 285 (11.22) 3×Ø15 100 (3.93) (3.15)
  • Page 37 Maximum Engineering for Global Advantage FRN0547G2□-4G, FRN0610G2□-4G FRN0739G2□-4G, FRN0840G2□-4G Type Type [Unit: mm (inch)] [Unit: mm (inch)] MAX686.4 (27.01) MAX444.1 (17.48) MAX686.4 (27.01) 4.1(0.16) (60(2.36)) 680 (26.77) 60 (2.36) 440 (17.32) 680 (26.77) MAX363.9 (14.33) 3×Ø15 (50(1.96)) 290 (11.42) 290 (11.42) 260 (10.24) 180 (7.08) (1.96)

  • Page 38: Keypad

    External Dimensions Keypad (USB connector model) Type : TP-E2 Option [Unit: mm] (80) 4×M3 Panel cutout 2×Ø4 (9.5) (9.5) Dimensions of panel cutting (viewed from "A") (17) 11.7 (53.8) 15.2 Multi-functional (USB connector model) Standard Type : TP-A2SW [Unit: mm] (80) 4×M3 Panel cutout 2×Ø4...

  • Page 39: Keypad Functions

    Maximum Engineering for Global Advantage Keypad Functions Use the keypad to start and stop the inverter, display various data, set function code data, check I/O, and display maintenance and alarm information. Maximum Engineering for Global Advantage...
  • Page 40 Keypad Functions Maximum Engineering for Global Advantage...

  • Page 41: Function Codes

    Maximum Engineering for Global Advantage Function Codes : Fundamental functions F codes Change Function Data when Name Control method and Data setting range code copying running Data protection PGV/f PM SLV PM PGV No data protection, no digital setting protection With data protection, no digital setting protection No data protection, with digital setting protection With data protection, with digital setting protection...
  • Page 42 Function Codes : Fundamental functions F codes Change Function Data when Name Control method and Data setting range code copying running Starting frequency 1 PGV/f PM SLV PM PGV 0.0 to 60.0 Hz If F42 = 5 or 15, 1.0 Hz is automatically set. (Holding time) PGV/f PM SLV...
  • Page 43 Maximum Engineering for Global Advantage Change Function Data when Name Control method and Data setting range code copying running (Operation selection) Terminal [FM2] Same as F29 (Pulse rate) Terminal [FMP] PGV/f PM SLV PM PGV 25 to 6000 p/s (number of pulse at 100%) (Output gain) PGV/f PM SLV...
  • Page 44 Function Codes : Extension Terminal Functions (terminal functions) E codes Change Function Data when Name Control method and Data setting range code copying running Terminal [X1] (Function selection) Table 1 Refer to E01 to E09 in the control input terminal setting table. Terminal [X2] Terminal [X3] Terminal [X4]...
  • Page 45 Maximum Engineering for Global Advantage Function code and Name E01 to E09 E98,E99 o101 to o116 Control method and Data setting range Terminal Terminal Keypad Terminal [I1] to [I16] [X1] to [X9] M/shift key [FWD][REV] (for OPC-DI) PGV/f PM SLV PM PGV 『PID-RST』...
  • Page 46 Function Codes : Extension Terminal Functions (terminal functions) E codes Control input terminal setting table Table 1 Function code and Name E01 to E09 E98,E99 o101 to o116 Control method and Data setting range Terminal Terminal Keypad Terminal [I1] to [I16] [X1] to [X9] M/shift key [FWD][REV] (for OPC-DI)
  • Page 47 Maximum Engineering for Global Advantage Function code and Name E01 to E09 E98,E99 o101 to o116 Control method and Data setting range Terminal Terminal Keypad Terminal [I1] to [I16] [X1] to [X9] M/shift key [FWD][REV] (for OPC-DI) PGV/f PM SLV PM PGV 154 (...
  • Page 48 Function Codes : Extension Terminal Functions (terminal functions) E codes Control input terminal setting table Table 1 Change Function Data when Name Control method and Data setting range code copying running Acceleration time 2 PGV/f PM SLV PM PGV 0.00 to 6000 s Deceleration time 2 * 0.00 is for acceleration and deceleration time cancel (when performing soft-start and stop externally) Acceleration time 3 Deceleration time 3...
  • Page 49 Maximum Engineering for Global Advantage Function code and Name E20 to E24, o01 to o07 o23 to o26 o121 to o128 *101 Control method and Data setting range Terminal Terminal Terminal Keypad Terminal [Y1] to [Y4], [Y6A/C] to [Y1A/B/C] to M-LED [01] to [08] [Y5A/C],...
  • Page 50 Function Codes : Extension Terminal Functions (terminal functions) E codes Control input terminal setting table Table 2 Function code and Name E20 to E24, o01 to o07 o23 to o26 o121 to o128 *101 Control method and Data setting range Terminal Terminal Terminal Keypad Terminal [Y1] to [Y4], [Y6A/C] to...
  • Page 51 Maximum Engineering for Global Advantage Function code and Name E20 to E24, o01 to o07 o23 to o26 o121 to o128 *101 Control method and Data setting range Terminal Terminal Terminal Keypad Terminal [Y1] to [Y4], [Y6A/C] to [Y1A/B/C] to M-LED [01] to [08] [Y5A/C],...
  • Page 52 Function Codes : Extension Terminal Functions (terminal functions) E codes Change Function Data Name Control method and Data setting range when code copying running Frequency arrival delay timer PGV/f PM SLV PM PGV (FAR2) 0.01 to 10.00s Frequency arrival detection width PGV/f PM SLV PM PGV...
  • Page 53 Maximum Engineering for Global Advantage Change Function Data when Name Control method and Data setting range code copying running LED monitor details PGV/f PM SLV PM PGV (Speed monitor selection) Motor speed Feed speed Line speed Constant feeding rate time Speed (%) Reference line speed Line speed output value...
  • Page 54 Function Codes : Extension Terminal Functions (terminal functions) E codes Change Function Data when Name Control method and Data setting range code copying running Reference loss detection PGV/f PM SLV PM PGV Stop deceleration 20 to 120%, 999: Cancel (Continuous running frequency) Terminal [C1] (V3 function) Same as E61 (Extension function selection)
  • Page 55 Maximum Engineering for Global Advantage : Control Functions of Frequency (Control function) C codes Change Function Data when Name Control method and Data setting range code copying running Jump frequency PGV/f PM SLV PM PGV 0.0 to 599.0Hz 0.0 to 30.0Hz (Skip width) Multistep frequency PGV/f PM SLV PM PGV...
  • Page 56 Function Codes Function Codes : Control Functions of Frequency (Control function) C codes Change Function Data when Name Control method and Data setting range code copying running Analog input adjustment PGV/f PM SLV PM PGV -200.0 to 0.00 to 200.00% (Terminal [12]) (Bias) 0.00 to 100.00% (Bias base point) 1 to 92 (Display unit)
  • Page 57 Maximum Engineering for Global Advantage Change Function Data when Name Control method and Data setting range code copying running Analog input adjustment PGV/f PM SLV PM PGV (Terminal [12]) -999.0 to 0.00 to 9990.0 (maximum scale) (minimum scale) -999.0 to 0.00 to 9990.0 Analog input adjustment PGV/f PM SLV...

  • Page 58: Options

    Options ■Connection configuration For main power External operation, measurement, and communication Built-in option card input and inverter output ■Control option cards Remote keypad (touch panel) PC loader for Windows Inverter support software [TP-A2SW, TP-E2] • Relay output interface card Used to remotely control the This software is used to set the [OPC-RY] [OPC-RY2] Power...
  • Page 59 Maximum Engineering for Global Advantage Multifunctional Equipped with a highly visible LCD. keypad Supports a total of 19 languages, including Japanese hiragana, katakana and kanji. Parameter changes and mantenance can be perfpromed remotely using a mobile device [TP-A2SW] built-in bluetooth. Item Specification Remarks...
  • Page 60 Options External cooling attachment This attachment is used to move the inverter’s cooling fins to a [PB-F1-□□] position that is outside the board. ■ ■ (unit: mm) Panel mounting surface Panel mounting surface Applicable inverter type Applicable inverter type ■ ■ Panel cut part ■...
  • Page 61 Maximum Engineering for Global Advantage Built-in option card Item Type Specification Comes with a two-system pulse input circuit, enabling speed control, position control, and synchronous operation. PG interface card OPC-PG Comes with a single-system pulse input circuit, enabling speed control (vector control with sensor) with PG-based feedback signals. PG interface OPC-PG2 (5 V line driver) card...
  • Page 62 Options Dynamic Fig. A Fig. B Fig. C Fig. D Braking Resistor W  4- φ 10 [Standard specifications] [DB□□ -□] Fig. E 4-φ12 Dimensions [mm] Dimensions [mm] Approx. Approx. Voltage Type Voltage Type weight [kg] weight [kg] DB0.75-2C DB0.75-4C − −...
  • Page 63 Maximum Engineering for Global Advantage DC Reactor [DCR□-□□□] Fig. C 2-terminal holes (for screw J) 4-mounting holes (for screw G) 4-mounting holes (for screw G) 2-terminal (for screw J) Fig. D Fig. E Fig. F 2-terminal (for screw J) 2-terminal (for screw J) 4-mounting 4-mounting...
  • Page 64 Options Braking unit [BU□□-□E] 2− φC 4×M5 Mounting dimensions Dimensions [mm] Approx. Voltage Type weight [kg] 3-phase BU90-2E − − 200V BU90-4E − − 3-phase BU132-4E 400V − − BU220-4E Fan unit for The duty cycle [%ED] of the model with an external braking unit is increased from 10% ED braking unit to 30% ED byusing this option.

  • Page 65: Product Warranty

    1-2 Warranty range (1) In the event that breakdown occurs during the product's warranty period which is the responsibility of Fuji Electric, Fuji Electric will replace or repair the part of the product that has broken down free of charge at the place where the product was purchased or where it was delivered. However, if the following cases are applicable, the terms of this warranty may not apply.
  • Page 66 Do not mount power factor correcting capacitors in • Geared motors the inverter (primary) circuit. Use the DC If the power transmission mechanism uses an REACTOR to improve the inverter power factor. Do Fuji Electric Corp. of America 50 Northfield Ave. Edison, NJ 08837 (732) 560-9410 americas.fujielectric.com FECA-G2-1 Information in this catalog is subject to change without notice.

This manual is also suitable for:

Frenic-mega frn0003-g2s-2gFrenic-mega frn0005-g2s-2gFrenic-mega frn0008-g2s-2gFrenic-mega frn0011-g2s-2gFrenic-mega frn0018-g2s-2gFrenic-mega frn0032-g2s-2g ... Show all

Table of Contents