CFW110107T6ON1YZ , Weg, VFD, 100 Hp, 575V, 3 Phases, 107 Amps, Nema 1,
CFW110107T6ON1YZ ,WEG, 11994578, 100 Hp, CFW110,
Product features
Power supply | 500-690V |
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Input phases | Three-phase |
Configuration | With options |
Rated current (ND) | 107 A 100 Hp |
Rated current (HD) | 90 A |
RFI filter | With filter (C3 category) |
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Enclosure | NEMA1 |
Dynamic braking | Standard with braking |
Safety Stop | Yes |
Electronic supply | Internal |
Control method - induction motor | V/f, VVW, Vector and PM motor |
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R ated efficiency |
≥ 98% |
Link Inductor | Yes |
Conformal Coating | 3C2 (IEC 60721-3-3:2002) |
SoftPLC | Yes, incorporated |
Temperature | -10 °C a 45 °C |
USB port |
Standard in the product |
---|---|
Memory card | Included in the product |
I/O standard | 6 x DI; 3 relés NA/NF x DO; 2 x AI; 2 x AO. |
Safety Stop | Yes |
Display | Graphic LCD |
With high technology for control of three-phase induction motors and permanent magnet synchronous motors - Magnet, the CFW11 Series achieves the performance increase for the most complex drive systems. Design exclusive for industrial or professional use, the CFW11 presents many innovations adding significant benefits to customers, a lot for its simplicity of installation and operation, based in the Plug-and-Play philosophy also allowing simple and quick installation of its accessories.
Vectrue Technology®
- Linear and adjustable V/F, VVW (Voltage Vector WEG) and vector control are available on CFW11
- Two types of vector control: sensorless and closed-loop vector control (encoder Interface required)
- Sensorless vector control permits high torque and quick response in open loop, even at low speeds
- The self-tuning function sets the vector control or VVW with the motor and to application load used
- By the adjustable V/F control, it is possible, for example, to adjust a quadratic V/F curve, providing energy savings for quadratic torque loads (e.g.: centrifugal pumps and fans)
SoftPLC Function
It is a resource that provides PLC features to the CFW11 without the addition of any accessories. It provides flexibility to the product, allowing the user to create his/her own applicative software (user’s program).
The SoftPLC main features are:
- Ladder language programming using WLP software
- Access to all VSD parameters and I/Os
- Configurable PLC, mathematical and control blocks
- Applicative software download, upload and online monitoring via USB connection
- Storage of user application in the CFW11 flash memory module (see below)
- Memory capacity of 15 kB for user application storage
The CFW11 is a system drive designed for the control of squirel cage induction motors. It can be used in a wide range of applications, since it is designed for running on either Normal or Heavy Duty loads. Its performance is excellent, providing increased productivity and an improvement in the quality of the process in which it is used.
The CFW11 is a system drive designed for the control of squirel cage induction motors. It can be used in a wide range of applications, since it is designed for running on either Normal or Heavy Duty loads. Its performance is excellent, providing increased productivity and an improvement in the quality of the process in which it is used.
The CFW11 is a system drive designed for the control of squirel cage induction motors. It can be used in a wide range of applications, since it is designed for running on either Normal or Heavy Duty loads. Its performance is excellent, providing increased productivity and an improvement in the quality of the process in which it is used.
Optimal Braking® In applications involving high inertia loads and short deceleration times is required, a large amount of energy is returned from the motor to the VSD. To handle this energy, traditional VSDs have to dissipate it as heat in power resistors. Such resistors are usually large and some installation criteria must be considered due to their heat dissipation. As an alternative to the use of braking resistors, CFW-11 features a special braking method in vector control mode known as Optimal Braking®. This innovation delivers a high performance braking torque without requiring a braking resistor. The following graph shows the advantages of using Optimal Braking® compared to other methods, thus ensuring an optimized and low cost solution for braking applications. Wmagnet Drive System® Frequency Inverter controlling permanent magnet motors. The WMagnet System ( WMagnet motor + CFW11) has the hightest efficiency levels in the market. It is a perfect match for applications where speed variation, low noise level and reduced size are required. In Sersorless mode the Wmagnet System is able to perform torque control at zero speed without the need for forced ventilation. Main characteristics of the set CFW11 + WMagnet motor g g g g g g Voltage Range: 380V to 480Vca Power Rating: 11 to 160kW (15 to 220HP) Methods of control: Sensorless Vector and closed loop control (vector with encoder) WMagnet control Algorithm included on the CFW11 standard version Variety of communication protocols (Fieldus) is available when running WMagnet control also CFW11 communication modules are utilized. Fieldbus modules available: Modbus RTU,Modbus TCP, Profibus DP-V1, DeviceNet, CANopen and Ethernet / IP.
Optimal Flux ® g TECHNOLOGY FOR MOTORS DRIVEN BY VSDs IN APPLICATIONS WITH CONSTANT TORQUE LOADS Rated torque at low speeds eliminating the need for independent ventilation or motor oversizing. g g Space saving and cost reduction of the application. Improved performance of the package VSD and motor (an exclusive WEG solution). The Optimal flux function works when the set High Efficiency WEG motor + CFW11/09 is used.
Optimal Flux ® g TECHNOLOGY FOR MOTORS DRIVEN BY VSDs IN APPLICATIONS WITH CONSTANT TORQUE LOADS Rated torque at low speeds eliminating the need for independent ventilation or motor oversizing. g g Space saving and cost reduction of the application. Improved performance of the package VSD and motor (an exclusive WEG solution). The Optimal flux function works when the set High Efficiency WEG motor + CFW11/09 is used.
Optimal Flux ® g TECHNOLOGY FOR MOTORS DRIVEN BY VSDs IN APPLICATIONS WITH CONSTANT TORQUE LOADS Rated torque at low speeds eliminating the need for independent ventilation or motor oversizing. g g Space saving and cost reduction of the application. Improved performance of the package VSD and motor (an exclusive WEG solution). The Optimal flux function works when the set High Efficiency WEG motor + CFW11/09 is used.
Optimal Flux ® g TECHNOLOGY FOR MOTORS DRIVEN BY VSDs IN APPLICATIONS WITH CONSTANT TORQUE LOADS Rated torque at low speeds eliminating the need for independent ventilation or motor oversizing. g g Space saving and cost reduction of the application. Improved performance of the package VSD and motor (an exclusive WEG solution). The Optimal flux function works when the set High Efficiency WEG motor + CFW11/09 is used.
Optimal Flux ® g TECHNOLOGY FOR MOTORS DRIVEN BY VSDs IN APPLICATIONS WITH CONSTANT TORQUE LOADS Rated torque at low speeds eliminating the need for independent ventilation or motor oversizing. g g Space saving and cost reduction of the application. Improved performance of the package VSD and motor (an exclusive WEG solution). The Optimal flux function works when the set High Efficiency WEG motor + CFW11/09 is used.
Optimal Flux ® g TECHNOLOGY FOR MOTORS DRIVEN BY VSDs IN APPLICATIONS WITH CONSTANT TORQUE LOADS Rated torque at low speeds eliminating the need for independent ventilation or motor oversizing. g g Space saving and cost reduction of the application. Improved performance of the package VSD and motor (an exclusive WEG solution). The Optimal flux function works when the set High Efficiency WEG motor + CFW11/09 is used.