SMC Networks Glentek Amplifier User Manual

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Application Guide

for Pulse and Direction Stepper Systems

Including the integration of Glentek digital pulse-stepper servos with Sound Logic Breakout boards and Artsoft Mach series software

Applications Guide

Revision Date:

03 Nov 2008

TABLE OF CONTENTS

 

Table of Contents..................................................................................................

3

Overview ...............................................................................................................

4

Servo Motor Versus Stepper Motor.......................................................................

5

Selecting a Glentek Servo Motor to Replace a Stepper Motor .............................

7

How to Choose the Correct Amplifier....................................................................

8

Sound Logic Breakout Board ................................................................................

9

Artsoft Controls Software ....................................................................................

10

Advantages of Using Glentek Microstepping Servo Amplifiers ..........................

11

Brushless Versus Brush-type Comparison ........................................................

12

Glentek Inc. 208 Standard Street, El Segundo, California 90245, U.S.A. (310) 322-3026

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SMC Networks Glentek Amplifier User Manual

Application Guide

Overview

This guide is designed to assist the customer with the integration of Glentek’s Amplifiers and Motors to their systems, utilizing high response micro stepping servos instead of low resolution stepper motors. The difference between stepper motors and servo motors with high resolution encoders will be pointed out and examples will be given. Also an overview of

Glentek servo motors and amplifiers will be provided. This guide will answer many questions that are asked when trying to retrofit an older machine with Position Loop stepper servos. The guide also explains how to choose the correct servo motor replacement for a stepper motor.

The guide describes how to set up the Glentek Position Loop Stepper servo amplifier and connect it to the Sound Logic breakout board. Also, we have included a brushless vs. brush type comparison for those of you that are currently using brush type motor in your servo system.

For additional information such as tuning the Glentek servo amplifier in pulse follower mode, go to the Glentek website at www.Glentek.com, and open the installation and operation manual (24Aug07) for Omega series amplifiers under “Support > Manual”. To connect to Sound Logic Breakout board, see input schematic for pulse and direction position mode, page 15. Also, the tuning section for pulse and direction begins on page 41 of the manual.

4 Glentek Inc. 208 Standard Street, El Segundo, California 90245, U.S.A. (310) 322-3026

Servo Motor Versus Stepper Motor

Stepper motor versus servo motor is a question that has been asked by many people with projects where they could incorporate either motor. There are many benefits that the servo system has over the stepper system. Servo motors and servo amplifiers are designed to maximize efficiency between the motor and amplifier. This is done by commanding current only when the motor has to provide torque for the system. This is different than some stepper motors where they are commanding current continuously. This leads to poor efficiency as the usable energy that is commanded to the motor when it is not moving is dissipated into heat. Also, steppers have very poor torque characteristics at higher speeds.

When a stepper system utilizes microstepping up to 25,000 micro steps per revolution, it is important to note that since the stepper motor is open loop, it does not usually achieve the desired location, especially under load. Particularly poor positional accuracy will result when using microstepping, which is primarily utilized for smoothness of motion, not accuracy.

The servo motor has an encoder which keeps track of the movement of the shaft. The encoder is connected to an amplifier where the encoder information is used to determine degrees of rotation of the motor shaft. This number is then compared with the number that it was commanded to move. The difference then becomes an error signal to a high gain, high bandwidth digital servo loop within the servo amplifier. The error is always nulled to zero in steady state conditions. For this reason, you see the digital step servo never loses steps or position as a step motor can if it is inadvertently stalled and misses a step, thus losing position and requiring a re-homing cycle. A typical encoder is around 2500 lines of resolution. This allows for very precise movement. The number of lines on the encoder can be increased for better accuracy.

The typical stepper motor has a step size of 1.8 degrees. This is equivalent to having a 50 line encoder which is a very low resolution encoder. Encoders range from 1000 to 5000 lines per revolution. As an example, a 1000 line encoder would have 20 times better resolution than a 1.8 degree stepper.

1000 line encoder = 4000 counts/revolution

1.8° = 200 counts/revolution

The typical stepper servo system will have added efficiency as well as performing the job in a smooth quiet manner. The stepper servo system is a upgrade for the customer who is serious about having their system move in the most precise manner possible. If the precision needs to be greater it is possible to install a higher line encoder. Glentek typically installs 2500 line encoders on their Nema 23 size servo motors. A 2500 line encoder allows you to command a step of 1/10000th of a revolution. This provide excellent smoothness and accuracy and is very helpful for milling as well as precise movements.

Glentek Inc. 208 Standard Street, El Segundo, California 90245, U.S.A. (310) 322-3026

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