SMC Networks Glentek Amplifier User's Manual
Contents
1. Cv Mode _Remember Return S ov 0 coses 00 00 00 Spindle Speed G Codes M Codes 0 000 Histo Clear Mach3Mill 10 Glentek Inc 208 Standard Street El Segundo California 90245 U S A 310 322 3026 Advantages of using Glentek Microstepping Servo Amplifiers Glentek Omega series digital PWM servo amplifiers offer the latest in high performance DSP control of both brushless and brush type motors With extensive utilization of surface mount technology and spe cial heat transfer techniques the Omega series offers one of the world s most powerful products for a given form factor Following are some of key features of Glentek high performance servo amplifiers Digitally tuned All parameters set digitally No potentiometers to adjust DSP control for the ulti mate in system performance Silent operation 24KHz PWM standard Smooth operation The Glentek digital amplifier generates using a Taylor expansion a sinewave output to the brushless servo motors matching the back EMF waveform of the motor exactly This eliminates cogging and ripple torque and provides for extremely smooth operation Wide operating voltage 20 370VDC for amplifier modules 110 130VAC or 208 240VAC for Stand Alone Direct AC operation No transformer required for stand alone unit or multi axis chassis The power supply section includes DC power supply cooling fan s soft start circuitry and a regenerativ2. appropriate windings to produce maximum torque The effect is analogous to a string of sequencing Christmas lights the lights seem to chase each other around the string In this case the magnets on rotor chase the magnetic fields of the windings as the fields move around the stator MAGNETS STATOR WINDINGS X WINDINGS BRUSHES MAGNETS ARMATURE COMMUTATOR BEAR ING MOTOR WIRES MOTOR W BRUSH TYPE MOTOR BRUSHLESS TYPE M The brushless motors are more reliable as Brush maintenance is eliminated and no brush dust is gen erated The brushless motor can be driven to much higher RPM limits and typically have lower inertia The brushless motor also dissipates heat more efficiently since the stator windings are thermally con nected to the outside of the motor case It is also safer for explosive atmospheres and quieter and less electrical noise generated as there is no brush arcing in a brushless motor 12 Glentek Inc 208 Standard Street El Segundo California 90245 U S A 310 322 3026 Omega Series Digital PWM Brushless Servo Amplifiers e PWM Pulse Width Modulated Brushless servo amplifiers to 20KW Analog Brush Type Servo Amplifiers e Linear Brush type servo amplifiers to 2 6KW e PWM Pulse Width Modulated Brush type servo amplifiers to 28KW Analog Brushless Servo Amplifiers e Linear Brushless servo amplifiers to 3 5KW e PWM Pulse Width Modulated Brushless servo amplifi
3. 2 GMBN42 424 2p 7 9 Amps NEMA 42 5 848 GMBN4260 215 8 Amps in Ib in oz x 0 0625 N m in oz x 0 007 Glentek Inc 208 Standard Street El Segundo California 90245 U S A 310 322 3026 7 Application Guide 8 How to Choose the Correct Amplifier Glentek produces a wide range of amplifiers Some amplifiers have built in DC power supplies referred to as Stand Alone while others are referred to as a module that requires customers to furnish DC power supply Glentek also offers 2 and 4 axis packages with power supply for multi axis systems If the applications requires a NEMA 23 34 or 42 motor Glentek recommends using the SMB SMC 9715 or SMB SMC 9808 amplifiers The SMB SMC 9715 is a DC module amplifier primarily used for multi axis systems If it becomes necessary the digital servo amplifiers can be configured to run either brushless or brush type motors However Glentek does not recommend using a brush type motor if it is possible For more information on Glentek amplifiers refer to installation and operation manual 24AUG07 at the Glentek website The SMB amplifier has buss derived logic power which means that you only need to provide buss power to the amplifier to operate the digital logic board However in case of buss power removal or failure the digital logic board would not be able to keep track of the position of the motor shaft and any fault data would be lost For this reason the SMC am
4. 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 GLENTEK 03 Nov 2008 TABLE OF CONTENTS Table of Contents Overview Servo Motor Versus Stepper Motor Selecting a Glentek Servo Motor to Replace a Stepper Motor How to Choose the Correct Amplifier Sound Logic Breakout Board Artsoft Controls Software Advantages of Using Glentek Microstepping Servo Amplifiers Brushless Versus Brush type Comparison Glentek Inc 208 Standard Street El Segundo California 90245 U S A 310 322 3026 3 Application Guide 4 GLENTEK 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 resolu tion 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 mo tor The guide describes how to set up the Glentek Position Loop Stepper servo amplifier and connec
5. Glentek Inc 208 Standard Street El Segundo California 90245 U S A 310 322 3026 11 Application Guide Brushless versus Brush type Comparison There are two basic types of motor design that are used for high performance motion control systems Brush Type PM permanent magnet and Brushless Type PM As you can see in the figure a brush type motor has windings on the rotor shaft and magnets in the stator frame In a brushless type mo tor the magnets are on the rotor and the windings are in the stator To produce optimal torque in a motor it is necessary to direct the flow of current to the appropriate windings with respect to the magnetic fields of the permanent magnets In a Brush Type motor this is accomplished by using a commutator and brushes The brushes which are mounted in the stator are connected to the motor wires and the commutator contacts which are mounted on the rotor are con nected to the windings As the rotor turns the brushes switch the current flow to the windings which are optimally oriented with respect to the magnetic field which in turn produces maximum torque In a brushless motor there is no commutator to direct the current flow through the windings Instead an encoder hall sensors or a resolver on the motor shaft senses the rotor position and thus the mag net orientation The position data is fed to the amplifier which in turn commutates the motor electroni cally by directing the current through the
6. e volt age clamp with dumping shunt resistor RS232 high speed 115 2K baud serial communication interface for set up and tuning Software configurable Glentek s Windows based MotionMaestro software provides ease of set up and tuning with no previous programming experience required Dedicated digital inputs Fault limits motor over temperature and reset Fault protection Amplifier RMS over current amplifier under over voltage amplifier over tempera ture motor over temperature and amplifier output short circuit See installation and operation man ual 24Aug07 page 24 Faults Current Monitoring View axis current while axis is moving at a fixed command rate This is very useful in machine maintenance As an example if something is binding the axis the running cur rent will go up This torque monitoring is not available in stepper systems See installation and op eration manual 24Aug07 page 23 Setup Oscilloscope Select trace attributes source for Current Measured Low Speed settable electronic circuit breaker with foldback current settings See installation and operation manual 24Aug07 page 20 Motor Safety Conclusion In general summary comparing a stepper motor system with a servo motor system utilizing a Glentek high bandwidth digital servo amplifier in the microstepping mode is like comparing a Model T Ford with a Porsche or Ferrari sports car in performance capabilities
7. ed to equivalent servo motors This should help in clearing up some of the confusion involved in choosing a servo motor to replace a stepper Both Servo and Stepper motors have peak and continuous torque ratings You will notice that the peak and continuous torque ratings are generally the same with the stepper motor Whereas in a servo motor the peak torque rating is generally two or three times higher than the continuous torque rating To select a servo motor the peak torque must be equal to or greater than the peak torque rating of the step motor Since the horse power to weight ratio of a stepper motor is similar to that of a servo motor you should start out by selecting a servo motor approximately the same weight as the stepper motor As a final system test after selecting the Glentek servo motor replacement for your stepper motor Glentek strongly recommends you to install the servo motor and exercise your machine at maximum axis duty cycle to make sure that the servo motor runs without over heating and the following error re mains within desired specification Stepper Motor Glentek Servo Motor Frame Size Model Peak Torque Cont Torque Weight Overall Number in oz in oZ lbs Length inches NEMA 23 72 GMBN2310 22 7 Amps NEMA 23 168 GMBN2320 24 7 Amps NEMA 34 99 GMBN3405 1 8 Amps NEMA 34 198 GMBN3410 a4 ape NEMA 34 298 GMBN3420 75 Amps NEMA 34 396 GMBN3430 6 0 Amps NEMA 4
8. ers to 51KW Permanent Magnet DC Brush Type Servo Motors e Continuous Torques to 335 in Ib e Peak Torques to 2100 in Ib Permanent Magnet DC Brushless Servo Motors e Continuous Torques to 1100 in Ib e Peak Torques to 2200 in Ib Applications Guide G L E N T E K Revision Date Solutions for Motion Control 03 Nov 2008 208 Standard Street El Segundo California 90245 USA Telephone 310 322 3026 Fax 310 322 7709 www glentek com e mail sales glentek com
9. n 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 possi ble 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 move ments Glentek Inc 208 Standard Street El Segundo California 90245 U S A 310 322 3026 5 Application Guide 6 The Glentek Nema 34 and Nema 42 servo motors are supplied with 5000 line encoders This high resolution 20 0000 counts per revolution provides a smoother higher bandwidth velocity loop for fine machining finishes To take full advantage of this high step resolution capability the pulse data required from the Artsoft software would have to be as shown in the following example A milling machine with a 5 pitch ball screw traveling at 400 inches per minute would require the follow ing calculated data rate 400 in 20 000 pulses X X 666 7 KHz min 1 rev In this example 1 pulse would equal 0 00001 inches of axis t
10. plifiers have an external Keep Alive logic power source This source can either be 5VDC 24VDC or 110VAC depending on the model Again having the Keep Alive power source allows the amplifier to keep track of all the digital data Since the data is not lost the customers would not have to restart the machine at the home position i e if a machine happened to lose buss power in the middle of a job once buss power was restored it would allow the amplifier to continue and finish the job For detail model numbering please refer to our installation and operation manual 24Aug07 pages 69 85 Glentek Inc 208 Standard Street El Segundo California 90245 U S A 310 322 3026 Sound Logic Breakout Board The Sound Logic breakout board can be used with a Glentek motor and drive combination The Sound Logic board enables a customer to use their computer to send pulses to this board This board then sends these pulse and direction signals to the amplifier The board connects directly to the parallel printer port on a standard computer In the future the breakout board will be able to be controlled by the standard USB port as well as the parallel printer port The USB port will allow higher frequency bandwidth pulse and direction signals to be ported out to the microstepping servo drives The board that was tested at Glentek is the Sound Logic PC 2 Route Rev 1 9 For more information please refer to Bob Campbell with Campbell Design
11. r 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 espe cially 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 con nected 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 dif ference 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 en coder 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 tha
12. ravel If you decide to have one pulse equal to 0 0001 inches of travel in the above example the maximum data pulse rate would be 66 7 KHz It is our understanding that the Sound Logic Breakout board is currently being updated to operate with the USB port of a standard computer and this will allow higher data transfer rates Glentek servo motors and servo amplifiers provide the highest quality and reliability as well as being reasonably priced Note When operating in the pulse and direction stepper mode make sure to disable inhibit the am plifier before powering down and powering up your command control logic We have noticed that when removing power from some break out boards false pulses are output to the amplifier as the power fades and causes unwanted motion This unwanted motion will continue until the BUS voltage of the amplifier is completely faded to zero It should be noted that whenever you remove the inhibit the input pulse accumulating buffer is always reset to zero For additional information refer to Glentek s Installation and Operation Manual for Omega se ries pages 14 15 and 46 Click here for the manual Please call Glentek s application engineers if you need assistance Glentek Inc 208 Standard Street El Segundo California 90245 U S A 310 322 3026 Selecting a Glentek Servo Motor to Replace a Stepper Motor This section provides the specifications of various stepper motors so they can be compar
13. s http www campbelldesigns com Glentek Inc 208 Standard Street El Segundo California 90245 U S A 310 322 3026 9 Application Guide Artsoft Controls Software Artsoft Controls software enables a computer to turn a manual milling machine into a computer con trolled machine This software was used in conjunction with the Sound Logic breakout board to effec tively evaluate the needs of the CNC community This software is complex for the novice user How ever Artsoft has many forums where help can be found and Artsoft also offers phone technical service Artsoft also has the ability to use their Mach software as a basis and create a program that is used specifically for an application This software offers many command functions for the CNC machining process The software is able to control many characteristics for the pulses that are sent to the breakout board For more information refer to the Artsoft Controls website http www artsoftcontrols com Mach3 CNC Controller TER File Config Function Cfg s View Wizards Operator PlugIn Control Help Program Run Alt 4 MDI AH TooiPath atta Offsets ats Settings at Diagnostics At 7 Mil gt G15 G80 G17 G40 G20 G90 G94 G54 G49 G99 G64 G97 Edit G Code Rewind Ctrl W Recent File Single BLK Alt N la Close G Code Reverse Run ana 100 i Load G Code Block Delete 9 e Set Next Line M1 Optional Stop 7 Line 0 Flood Ctri F Auto Tool Zero RPM 0 Run From Here I
14. t 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 sys tem 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 man ual 24Aug07 for Omega series amplifiers under Support gt 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 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 steppe
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