1 overview, 1 features – Yaskawa Varispeed 626M5 User Manual

Introduction

1.1.1 Features

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1.1 Overview

The VS-625M5 Inverter and VS-656MR5 Converter form a highly reliable, high-performance AC drive system

in which an AC spindle motor is controlled by the Inverter using vector control with a regenerative function.

The system ensures stable drive control of machine tools, such as machining centers and lathes, and industrial

machines, such as transfer machines and testing machines, while providing high speed and the ability to handle

tough environmental conditions.

1.1.1 Features

The system has the following features.

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Multi-axis Driving

The Inverter and Converter are separate units of highly reliable, compact book-type construction. The

Converter incorporates a power regeneration function and multi-axis driving configuration, providing

power to the spindle drive and servo drive with easy control through the control panel.

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Compact

The Inverter and Converter are more compact and ensure higher precision than conventional models. This

was enabled by the development of a compact, high-precision detector, improvement in output voltage

under optimal vector control, and the selection of an optimum cooling construction as a result of thermal

analysis.

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Compatible with Yaskawa’s YENET1200 Standard Network

The Inverter and Converter are available in models that are compatible with Yaskawa’s YENET1200 stan-

dard high-speed serial network, making it possible to reduce the number of wires for CNC connections.

The Inverter and Converter are also available in models that are compatible with analog I/O interfaces as

well so that the Inverter and Converter can be used with the VS-626 Series for conventional spindle driv-

ing. Sequence I/O can be connected to 0- and 24-V common terminals.

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Compact, Lightweight Spindle Motor

The downsizing of the spindle motor was enabled by the optimum electromagnetic design of the system

ensuring ideal heat distribution, improvements in the core and cooling construction of the system, and

changes in the circuit design of the encoder. The system ensures higher reliability under tough environ-

mental conditions than any conventional system.

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High-precision, High Servo Performance

The system employs a high-speed IGBT (insulated gate bipolar transistor) power element for high−preci-

sion, high-frequency PWM control at high speeds, suppressing current distortion that may cause torque

ripples and reducing rotational fluctuations. The system employs a DSP (digital signal processor) as well

to improve the servo performance of the system.

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Improved Orientation Function

The system performs orientation control to a fixed position using the motor encoder. This function is used

when the motor shaft is connected to the load shaft at a ratio of one to one. For orientation control with

a magnetic sensor, the detected signal of the motor encoder will be used for orientation control to desired

position.

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Expanded Fixed Output Range via Winding Selection

If a winding selection motor is used, a dedicated electromagnetic contactor will select the winding, making

it possible to expand the fixed output range without an increase in the capacity of the Inverter. This will

eliminate the speed change mechanism of the machinery to enable downsizing.

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Continuous Regenerative Operation

The Converter and Inverter employ an IGBT so that the Converter will respond to frequent accelerations

and decelerations, suppress temperature rises, and save energy consumption, improving the rate of power

supply regeneration and enabling regenerative control at high speeds.

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Construction

Inverter and Converter models with external heatsink cooling are available and panel-mounting construc-

tion with an integral cooling fan are provided for ease of panel mounting and maintenance.

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