|
Open-loop
Vector Control
High
Starting Torque and High-precision Speed Control during Open-loop Vector
Control
Select V/ f control without PG, V/ f control with PG, or open-loop vector control for the Inverter.
Speed control precision of 0.2% has been achieved for open-loop vector control, ensuring precise control even for variations from light loads to heavy loads. High starting torque has also been achieved, up to 150% at 0.5 Hz.
|
|
Select
Constant or Variable Torque
Select
Overload Detection According to Application
Match the overload detection conditions to the application by selecting constant torque (CT) for loads such as conveyors or cranes, or variable torque (VT) for loads such as fans or
pumps. (The setting range for Inverter parameters, such as the carrier frequency, overload resistance, and maximum output frequency, will vary.) The torque characteristic can
also be effectively selected for V/ f control or open-loop vector control.
|
|
Complete
Autotuning Functions
Autotuning
with a Stationary Motor
Autotuning
can be used to set motor constants for open-loop vector control and motor
line resistance for long motor cables.
Autotuning motor constants for open-loop vector control can even be
performed without turning the motor, making autotuning easier than ever.
The following types of autotuning are supported.
• Rotational autotuning for open- loop vector control
• Stationary autotuning for open- loop vector control
• Line resistance autotuning using stationary autotuning for V/ f
control or open-
loop vector control
|
|
DeviceNet
Communications
DeviceNet
Communications Card Supported by All Models (Same as FV Series)
A
3G3FV-PDRT1-SINV1 DeviceNet Communications Card can be mounted to provide
a DeviceNet interface for the Inverter.
• Remote I/ O Communications: A PLC connected via
DeviceNet can send speed references and operation commands or it can
monitor Inverter status. Standard settings provide two output words from
the PLC to the Inverter and two input words from the Inverter to the PLC.
Using advanced remote I/ O functions, parameters specified by number in
the Inverter can be written from the PLC.
•
Message Communications: Explicit messages can be sent from the PLC
to achieve many control and monitoring functions for the Inverter,
including specifying speed references, specifying forward/ reverse
commands, reading errors, and more.
|
|
Multi-function
Inputs and Outputs
Freely
Allocated Analog Inputs/Outputs, Contact Inputs/Outputs, and Pulse Outputs
Two analog outputs and one pulse train output enable monitoring of system
status, including output frequency and output voltage.
Likewise, two analog inputs accommodate functions such as output voltage bias and acceleration/ deceleration time gain, while five contact inputs accept multi-step speed references, emergency stops, etc. Two contact outputs allow frequency coincidence, excessive torque detection, and other functions. The ability to freely allocate functions to all of these inputs and outputs allows the user to customize system functions.
Versatile
Frequency Reference Inputs
Frequency references can be input via an analog input (voltage or current), Digital Operator, pulse train signal, or DeviceNet communications.
|
|
Built-in
Braking Transistor
Complete
Braking Functions
All models of 18.5 kW or less are equipped with a built-in braking transistor that allows powerful braking by simply connecting a braking resistor.
|
|
Protective
Functions
Protective
Functions Ensure Safety
A
high-speed, high-precision current limiting function suppresses tripping
from excessive current, and a stall prevention function for
acceleration/deceleration, power loss compensation function, and fault
retry function combine to improve continuous operation.
A
PTC thermistor built into the motor protects the motor from overheating.
|
|
Digital
Operator (LED: Standard, LCD: Optional)
Faster Setup and
Maintenance for Easier Operation
Complete support is provided for the Digital Operator's Quick Program Mode for operation with a minimum of parameter settings, Verify Mode for batch confirmation of changed parameters, and a copy function for uploading/ downloading parameters if replacement should be required. A Japanese/ English- language LCD Digital Operator is also available as an option.
|
|
Maintenance
Easy Maintenance and
Inspection
-
A detachable control circuit terminal makes it
possible to replace the unit without
disconnecting the wiring.
-
Screw terminals are used for the main circuit
terminals and control circuit terminals to
simplify wiring and enhance reliability.
-
Independent wire covers enable easier wiring.
-
ON/ OFF control for the cooling fan lengthens
the service life of the fan, and enhances
reliability. Fan replacement is also quick and
easy due to the detachable fan design.
-
The accumulated running time and cooling fan
operation time can be recorded and/ or displayed.
|
|
Energy-saving
Control Functions
Energy-saving
Operation for Maximum Motor Efficiency
The voltage reference (during V/ f control) or slip frequency control (during vector control) constantly maximizes motor efficiency in response to load and turning speed. This enables a superb energy- saving effect for fans, pumps and other machinery.
|
|
Maximum
Applicable Motor Capacity
Applicable
to Motors with 0.4- to 110-kW or 0.4- to 160-kW Capacity
The RV Series accommodates a wide range of
motors, with low to high capacity.
|
|
Power
Supply
Operates
from a Variety of Power Supplies
Two
power supply voltage series enable versatile use.
-
3-phase, 200-V series (200 to 240 V)
-
3-phase, 400-V series (380 to 480 V)
-
Standard models can also be connected to
DC power supply devices and other converters.
|
|
Standards
Complies
with Major International Standards
Standard models comply with UL/cUL standards
for the U.S. and Canada, and CE standards for Europe.
|
Sitemap
