CANopen Motor Controllers for Electric Mobility and Vehicular Applications May 19, 2016
Posted by Servo2Go.com in New Product Press Releases.Tags: Advanced Motion Controls, AMC, CANopen, DVC, electric mobility controller, Motor Control, Motor Controller, Servo Amplifier, Servo Drive, Servo2Go
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The DVC series motor controllers from Advanced Motion Controls are digital four-quadrant servo drives purpose-designed and built to operate today’s modern mobile electric vehicular platforms. Providing high power from battery supplies, the DVC series features a compact design, IP65 construction and multiple operating modes for controlling either permanent magnet brushed or brushless motors. Whether for traction / propulsion, steering, lifting or any other electrically driven actuation, the DVC series is the newest member in a long line of successful motor controlling solutions from Advanced Motion Controls.
The ability to maximize battery life and extend vehicle operations, essentially running ‘lean and mean’, is the key to keeping a vehicle operating at peak performance. With unmatched power density, high efficiency, low weight, cool thermal operation and regen all built in, selecting the DVC series is the obvious choice.
The DVC Series motor controllers operate in torque, velocity, or position mode and provide high power from battery supplies with multiple operating modes for either 3Φ (servo, closed loop vector, or closed loop stepper) or 1Φ motors. The DVC Series communicate over CANopen and are configured with AMC’s DriveWare® 7 configuration software.
Specific applications include: mobile robots, AGV’s, UGV’s, material handling and transport vehicles in both industrial and military environments.
More information on the DVC series motor controllers available from Servo2Go.com can be viewed at: https://www.servo2go.com/search.php?search=DVC2&D=PROD
For more information, please contact:
EDITORIAL CONTACT:
Warren Osak
warren@servo2go.com
Toll Free Phone: 877-378-0240
Toll Free Fax: 877-378-0249
www.servo2go.com
Tags: AMC, Advanced Motion Controls, DVC, electric mobility controller, motor controller, motor control, servo drive, servo amplifier, Servo2Go, CANopen
ADVANCED Motion Controls announces increased output capabilities from M/V™ Series motor controllers November 10, 2013
Posted by Servo2Go.com in New Product Press Releases.Tags: Advanced Motion Controls, Automation, Electric Vehicle Controller, Mobile Robot, Motor Control, Motor Controller, motor controllers, Servo, Servo Amplifier, Servo Drive, Servo2Go, Servo2Go.com
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Models AB200A100 and AVB200A100 output 125A continuous and 200A peak for up to 10 seconds at voltages from 20-80VDC, a nearly 50% increase in operating voltage from previous models. Models AB100C200 and AVB100C200 output 100A continuous at voltages from 40-175VDC, a 25% increase in output current from previous models. The new additions maintain the same dimensions as their predecessors and bring to a total of 8 different models to choose from allowing engineers to use the additional output with no additional size constraints.
Electric Vehicle Controller
The M/V™ series motor controllers are fully functional, four-quadrant servo drives purpose designed and built to operate today’s modern mobile electric vehicular platforms. Specific applications include: mobile robots, AGV’s, UGV’s, material handling and transport vehicles in both industrial and military environments. Providing high power from battery supplies with multiple operating modes, IP65 rating and compact design for either permanent magnet brushed or brushless motors, propels this motor controlling series ahead. Whether for traction / propulsion, steering, lifting or any other electrically driven actuation such as compressors, wenches and hoists, the M/V™ series is the newest member in a long line of successful motor controlling solutions from ADVANCED Motion Controls.
Click on the link below for additional information-
M/V™ series servo amplifiers from Advanced Motion Controls
For more information, please contact:
EDITORIAL CONTACT:
Warren Osak
sales@servo2go.com
Toll Free Phone: 877-378-0240
Toll Free Fax: 877-378-0249
www.servo2go.com
Tags: Servo2Go, Servo2Go.com, Advanced Motion Controls, Servo Drive, Servo Amplifier, Electric Vehicle Controller, Mobile Robot, Motor Controller, Motor Control, Automation, Servo
Digital Brushless Servo Drive…Made Simple August 26, 2013
Posted by Servo2Go.com in New Product Press Releases.Tags: Brushless Servo Drive, dc servo amplifier, ElectroCraft, Motion Control, Motor Control, Motor Controller, Servo Amplifier, servo amplifiers, Servo Drive, servo drives, Servo Systems, Servo2Go, Servo2Go.com
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When you simply need a servo drive, the ElectroCraft CompletePower EA4709 servo drive keeps your innovation moving. The EA4709 combines the performance and flexibility you’d expect from a digital drive with the ease-of-use and simple set-up of an analog drive, bridging the gap between performance and simplicity.
ElectroCraft EA4709
This four-quadrant brushless DC servo amplifier is fully enclosed in a rugged aluminum case which can be DIN-rail mounted of panel mounted for easy integration. The drive can be configured in a variety of torque and speed control modes with the mode of operation being set by simple DIP switches. Both the 9A and 18A versions of this drive have an adjustable current limit and can be powered by the same 9 – 70 VDC range of supply voltage. The drive is protected against over-current and over-temperature and motor short-circuit and incorporates state of the art MOSFET technology for maximum efficiency. Connectivity is tool-free with RJ45-CAT5 connectors for control/feedback inputs and push-type terminals for supply power and motor connections.
More information on the ElectroCraft EA4709 from Servo2Go can be found at the link below-
http://www.servo2go.com/product.php?ID=105435&cat=
For more information, please contact:
EDITORIAL CONTACT:
Warren Osak
sales@servo2go.com
Toll Free Phone: 877-378-0240
Toll Free Fax: 877-378-0249
www.servo2go.com
ADVANCED Motion Controls® analog Z-Drives now output nearly 5kW of peak power in a footprint smaller than a smartphone June 26, 2013
Posted by Servo2Go.com in New Product Press Releases.Tags: Advanced Motion Controls, Automation, Brushless Servo Drive, Motor Control, Motor Controller, PWM Servo Amplifier, Servo Amplifier, Servo Drive, servo drives, Servo2Go, technology
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Available immediately are 6 new analog Z-Drive models with increased current output of 60A peak and 30A continuous designed with the same footprint and pin functionality as the previous 40A versions. These new servo drives provide 50% more power in the same space, making upgrades in power output a simple drop-in replacement. Included are models compatible with brushed and brushless permanent magnet servo motors, with current and velocity mode operation and options for +/-10V or PWM & Direction commands.
Advanced Motion Controls Z-Drive
New Models: AZ60A8, AZB60A8, AZ60A8DDC, AZBDC60A8, AZBH60A8, AZBE60A8
Z-Drives are plug-in style servo drives from ADVANCED Motion Controls that mount directly to the PCB enabling fully integrated designs while simplifying wiring and installation. With a total of 72 models now available, Z-Drives come with a long list of options to meet every need including:
- Digital and analog architectures
- CANopen, RS232/485 and EtherCAT networks
- Commands over the network or with I/O
- Feedback including: TTL Encoders, 1Vp-p Encoders, Absolute Encoders and Hall sensors
- 6-60A peak and 3-30A continuous
- 40-175 VDC
- Extended Environment options
More information on the Z Drives from Advanced Motion Controls can be found at the link below-
http://www.servo2go.com/search.php?search=smartphone&D=PROD
A copy of this Press Release can be viewed at-
http://www.servo2go.com/news.php?id=111
For more information, please contact:
EDITORIAL CONTACT:
Warren Osak
sales@servo2go.com
Toll Free Phone: 877-378-0240
Toll Free Fax: 877-378-0249
www.servo2go.com
Tags: AMC, Advanced Motion Controls, Servo Amplifier, Brushless Amplifier, PCB Amplifier, Servo2Go, BLDC Amplifier
Trapezoidal vs Sinusoidal Brushless Servo Amplifiers May 23, 2013
Posted by Servo2Go.com in New Product Press Releases, Technical Support Information.Tags: general motion control, Motion Control, motion control applications, Motion Controller, Motor Control, Motor Controller, Servo Amplifier, servo amplifiers, Servo Systems, Servo2Go, Sinusoidal Amplifier, Sinusoidal Servo Amplifier, Trapezoidal Amplifier, Trapezoidal Servo Amplifier
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Originally posted on June 30th, 2011 by John Hayes at Galil Motion Control
Galil AMP-43540 Sinusoidal Servo Amplifier
The new Galil Sine drive amplifiers are a welcome addition to the existing DMC-40×0 and DMC-41×3 line-up of servo and stepper amplifiers – yet the addition of the new amplifiers also brings up a question – “When should I use a sinusoidal drive instead of a trapezoidal drive?”. This article will go over the Galil brushless servo drive architecture and highlight what you should know when making an amplifier selection.
Two Loop Architecture
In order to gain a better understanding of servo amplifiers and specifically how the Galil servo amplifiers work, the first thing to do is to understand the Controller/Amplifier architecture. Unlike most single axis drives on the market, Galil uses a split sample rate. The first and highest speed sample rate occurs on the amplifier and is used on the current loop. The D3540 Sinusoidal amplifier runs its current loop at 33 kHz and the D3040 Trapezoidal amplifier runs at 66 kHz (which can be increased to 120 kHz for low inductance applications). The benefits of a high speed current loop are:
- Fast response to desired current/velocity command signal
- Less destabilizing phase shift on the position loop
- Tighter more accurate control – 16bit resolution
- High Closed Loop Frequency (3-4 kHz)
The second loop in the system is the position loop. Because of the limitations of real world mechanics, a position loop generally has a closed loop frequency in the range of 20 to 200 Hz. The sample rate required to achieve this is only from 1 kHz to 4 kHz. Note that the DMC-4000 can have a sample rate of up to 16 kHz and can control up to 8 axes allowing all axes to be tightly coupled. General motion control applications run optimally at a 1 kHz position loop update. High performance and high resolution applications can be run at higher rates depending on the required performance.
Separate processors for the Amplifier and Controller allow for this two loop Architecture which allows Galil to be extremely responsive and highly accurate and also perform whatever functions are required in a user’s application.
Trapezoidal vs. Sinusoidal Commutation
Trapezoidal commutation is the most cost effective way of controlling a brushless servo motor. It is perfect for higher speed applications and applications where the motor and mechanics will eliminate the torque ripple that occurs during switching current from one phase to the next. Hall sensors are required for Trapezoidal commutation.
Sinusoidal commutation is great for lower speed, direct drive or linear motor applications where the torque ripple of the motor phases needs to be minimized. Since the current to the motor phases are weighted as sine waves, the torque going through the motor is smooth and has minimal ripple. It also allows the mechanics to be simplified because Hall sensors can be eliminated.
Sinusoidal amplifiers rely on an initialization sequence at power-up to provide the correct commutation. This can be done in one of 3 ways on the Galil. The first and most common method is the BX command that uses an algorithm that energizes the phases and determines the brushless angle. Only a small amount of motion (if any) is shown with this method. The second method is to use the BC command that requires Hall sensors to be hooked up. It will move the motor and use the first hall transition as the basis for the commutation. This method is necessary if there is an external force on the motor such as a gravity load. The third method uses the BZ command to drive the motor to the zero degree commutation point which can result in a jump to the closest zero phase.
More info on Galil Sinusoidal Amplifiers
The new AMP-43540 drives four brushless motors operating at up to 8 Amps continuous, 15 Amps peak, 20-80 VDC. The gain settings of the amplifier are user-programmable at 0.4, 0.8, and 1.6 Amp/Volt. The amplifier offers protection for over-voltage, under-voltage, over-current, short-circuit and over temperature. A shunt regulator option is available. For more information, please see: DMC-40×0 Product Page .
For additional information on the DMC-40×0 Accelera Series and new AMP-43540 option, see
http://www.servo2go.com/product.php?ID=101658&cat=
For more information, please contact:
Editorial Contact:
Warren Osak
sales@servo2go.com
Toll Free Phone: 877-378-0240
Toll Free Fax: 877-378-0249
www.servo2go.com
Sin/Cos Encoders and Sinusoidal Drives help Galil Controllers Achieve Ultra-Precise Motion May 18, 2013
Posted by Servo2Go.com in Technical Support Information.Tags: Galil, galil motion, Galil Motion Control, interpolation algorithm, Motion Control, Motion Controller, Motor Control, Motor Controller, Servo Systems, Servo2Go, Servo2Go.com, torque ripple
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Introduction
The use of linear motors for precision motion applications has increased as technology has improved.
Galil DMC-31012 Motion Controller
A linear motor typically uses a servo drive with sinusoidal commutation to minimize torque ripple and provide quiet smooth motion. It is also becoming more common for linear motor manufacturers to provide position feedback in the form of an analog sin/cos encoder as this method uses the signals from the motor magnets and is more cost-effective. Galil motion controllers now provide options for sinusoidal drives and interpolation of sin/cos analog feedback for smooth control of ultra-high performance applications.
Galil controllers use an intelligent interpolation algorithm allowing inexpensive sin/cos signals to be used successfully in high-precision applications. The AF command is used to set the analog feedback resolution at 2n counts/period. Galil drives perform sinusoidal commutation and are easily programmed using a choice of three different commutation methods. An example showing how to configure Galil controllers and sine drives for use with linear motors with sin/cos encoders is below.
An example of a Galil Controller used with a Copley ServoTube Linear Motor
Galil’s DMC-31012 motion controller with an internal 800W sinusoidal drive and sin/cos feedback interpolation option was used in an application with a Copley ServoTube linear motor with sin/cos encoder. The goal was to move a stage and maintain a position accuracy of .04mm. The stage manufacturer specified a 25.6 mm/sin feedback period for the encoder signals which is equivalent to the motor’s magnetic cycle.
The AF command was used to interpolate the analog feedback at 2n counts/period. N= 10 was used for this application. AF 10 provided an interpolation of 1024 counts/period. The system position resolution can be calculated using the equation below:
Resolution = 25.6mm /1024 counts = .025mm/count
.025mm/count resolution is within our target accuracy of .04mm.
It’s important to note that sin/cos feedback sensors are analog and more prone to noise compared to a digital signal. The DMC-31012 allows an AF of 12 but AF 10 was chosen because it met the accuracy specifications while minimizing the affect of noise.
There are three methods to initialize sinusoidal commutation with Galil sinusoidal drives, BI, BZ and BX. For this application, the BZ command method was selected because it was better for high static friction. The BI command, which uses halls to initially commutate, is ideal in most cases but the Copley motor did not provide Hall sensors.
Another parameter used for commutation was the BM command. BM is the brushless modulus of the system or the length for which one magnetic cycle completes. For the Copley ServoTube, the motor’s sin/cos period is the same length as the motors magnetic cycle. For AF 10, the setting for BM is 1024.
Once AF, BZ and BM were configured during initialization, the controller system was tuned for optimum performance using the GalilSuite tuning software.
Galil controllers with the sin/cos feedback option and sinusoidal drives provide a good solution for controlling linear motors with a high degree of accuracy and extremely smooth commutation. Sinusoidal drives and sin/cos feedback options are available on Galil’s DMC40x0 multi-axis controller and the DMC-31012 single-axis controller.
For more detailed information, see application note #5523 “Connecting to a Linear Motor with Sinusoidal Commutation and Sin/Cos Feedback.” http://www.galilmc.com/support/appnotes/miscellaneous/note5523.pdf
For additional information on the DMC-31012 from Galil can be found at-
http://www.servo2go.com/product.php?ID=105334&cat=
For more information, please contact:
Editorial Contact:
Warren Osak
sales@servo2go.com
Toll Free Phone: 877-378-0240
Toll Free Fax: 877-378-0249
www.servo2go.com
Galil DMC-40×0 Accelera Series Now Available with 2 Ethernet Ports May 2, 2013
Posted by Servo2Go.com in New Product Press Releases.Tags: Automation, DMC Programming, DMC-4000, EtherNet, Galil, Galil Motion Control, Motion Control, Motion Controller, Motor Control, Motor Controller, Servo Systems, Servo2Go, Stepper Systems, technology
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Galil has just released the latest model in the DMC-40×0 Accelera Motion Controller Series. There is now a -C022 option that provides two Ethernet ports for easy-daisy chaining of multiple controllers. The -C022 option is available for 1- through 8-axis versions of the DMC-40×0 motion controller. For example, DMC-4060-C022 specifies a 6-axis model with dual Ethernet ports.
The DMC-40×0 is part of Galil’s latest generation Accelera series. Based on a powerful RISC processor Accelera controllers provide ultra high-speed with 40 microsecond command processing, up to 32kHz servo update rates, and acceptance of encoder inputs up to 22MHz. Other features include optically isolated inputs and outputs, high power outputs for driving brakes and relays, uncommitted analog inputs, dual encoder inputs for each axis, and plenty of program memory for storing application programs.
The DMC-40×0 provides precise control of a variety of motors including brush servos, brushless servos, steppers and piezo ceramic motors. It can be easily connected to external drives of any size or to internal multi-axis drives contained within the DMC-40×0 controller. The DMC-40×0 controllers with internal drives reduce space, cost and wiring. Table 1 shows the multi-axis drive options available for the DMC-40×0 series.
As a combined controller and drive unit, the DMC-40×0 is compact and measures 8.1” x 7.25” x 1.72” for the 4-axis model and 11.5” x 7.25” x 1.72” for the 8-axis model. The unit accepts power from a single DC supply between 20-80VDC.
For additional information on the DMC-40×0 Accelera Series and new -C022 dual Ethernet port option, see
http://www.servo2go.com/product.php?ID=101658&cat=
For more information, please contact:
Editorial Contact:
Warren Osak
sales@servo2go.com
Toll Free Phone: 877-378-0240
Toll Free Fax: 877-378-0249
www.servo2go.com
New Servo Indexing Capabilities in latest release of DriveWare®7 Software April 7, 2013
Posted by Servo2Go.com in New Product Press Releases.Tags: Advanced Motion Controls, computer, Motion Control, Motor Control, Motor Controller, Servo Amplifier, servo drives, Servo2Go, Software, technology
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DriveWare® 7 Release
DriveWare® 7 Software
Advanced Motion Control’s of Camarillo, CA are excited to announce the latest release of their configuration software, DriveWare®7 (DW7). This latest version introduces significant upgrades in layout and drive control features. With a cleaner user interface, information rich screens, new icons, customizable toolbars, tab groups, preset themes, Windows XP and 7 compatibility, users will find that configuring their drives is now easier and more precise than ever. DW7 is used to commission, troubleshoot, and integrate all ADVANCED Motion Controls’ Digiflex® Performance™ digital servo drives and is now available for download.
New with DW7
- New indexing capabilities to create up to 16 unique index tasks by defining position, velocity, and acceleration/deceleration values where indexes can be either Relative or Absolute motion profiles.
- Servo drives can now store two different configuration settings that include unique Loop Configuration, Gain Set, Command Source and Command Limiter settings simplifying machine design and maintenance for the engineer by allowing switching between each.
- On-the-fly Mode Switching to allow machine programmers for example to switch from velocity mode for a long constant speed move directly to position mode so the motor can be precisely positioned at the end of the move to a specific location.
- The new Drive Status Panel presents users with a simple sortable organization of drive status, critical event activity and event counters to quickly identify faults.
- Network communication settings have been made more configurable for EtherCAT®, CANopen and RS-485/232 allowing independent adjustment of those used to connect to DW7.
- Mappable PDOs to configure, edit, and map RPDOs and TPDOs and the ability to assign CANopen TPDOs to specific drive events.
Digiflex® Performance™ digital servo drives built in 2012 and later can take advantage of these new features, we highly recommend that you download DW7 and take it for a spin!
DriveWare® 7 software is used to commission, troubleshoot, and integrate all AMC Digiflex® Performance™ digital servo drives. All drive limits, control loops (current, velocity, and position), and event handling can be configured in DriveWare. Notable features include a fully functional multi-channel oscilloscope, function generator and user friendly layout and interface.
System Requirements:
Windows XP, Windows 7, .NET 4.0 Framework
Minimum 1 GHz, Minimum 2GB RAM
Technical documentation on DriveWare® 7 software can be found at the link below-
http://www.a-m-c.com/products/driveware.html
For more information on the Digiflex® Performance™ digital servo drives available from Servo2Go, click on the link below-
http://www.servo2go.com/supplier.php?id=1031080098
For more information, please contact:
Editorial Contact:
Warren Osak
sales@servo2go.com
Toll Free Phone: 877-378-0240
Toll Free Fax: 877-378-0249
www.servo2go.com
Extended Environment Servo Amplifiers December 8, 2012
Posted by Servo2Go.com in New Product Press Releases.Tags: Advanced Motion Controls, Automation, BLDC Drive, MIL-STD-810F, Motor Control, Motor Controller, Servo Amplifier, Servo Drive, Servo2Go, technology
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The DZX series of digital servo drives from Advanced Motion Controls are designed to drive brushed and brushless servomotors from a compact form factor ideal for embedded applications. These fully digital drives operate in torque, velocity, or position mode and employs Space Vector Modulation (SVM), which results in higher bus voltage utilization and reduced heat dissipation compared to traditional PWM. The command source can be generated internally or can be supplied externally. In addition to motor control, these drives feature dedicated and programmable digital and analog inputs and outputs to enhance interfacing with external controllers and devices.
Advanced Motion Controls DZX Servo Amplifier
DZX amplifiers feature an RS-232 interface for drive configuration and setup as well as a RS-485 interface for drive networking. Drive commissioning is accomplished using DriveWare available at http://www.a-m-c.com.
All drive and motor parameters are stored in non-volatile memory.
The DZX amplifiers conform to the following specifications and are designed to the Environmental Engineering Considerations as defined in MIL-STD-810F.
>Extended Environment Temperature -40°C to +75°C (-40°F to +167°F)
> Storage Temperature -50°C to +100°C (-58°F to +212°F)
> Thermal Shock -40°C to +75°C (-40°F to +167°F) in 2 min.
> Relative Humidity 0 to 95% Non-Condensing
> Vibration 30 Grms for 5 min. in 3 axes
Z-Drives are a culmination of advances in manufacturing technology. By utilizing dual sided PCB boards, high efficiency power devices and creative design we are able to make the Z-Drives possible. These drives have been designed to be integrated into your PCB and come in multiple architechtures with features previously found only in larger drives. No wires and smaller size = less cost and easier installation – just plug’m in!
Features include:
- Four Quadrant Regenerative Operation
- Space Vector Modulation (SVM) Technology
- Fully Digital State-of-the-art Design
- Programmable Gain Settings
- Fully Configurable
- PIDF Velocity Loop
- PID + FF Position Loop
- Compact Size, High Power Density
- 16-bit Analog to Digital Hardware
For more information on the Extended Environment Servo Amplifiers from Advanced Motion Controls, click on the link below-
http://www.servo2go.com/search.php?search=Extended Environment&D=PROD
For more information, please contact:
Editorial Contact:
Warren Osak
sales@servo2go.com
Toll Free Phone: 877-378-0240
Toll Free Fax: 877-378-0249
www.servo2go.com
Galil Tech Talk: Master Slave Networking with multiple controllers December 7, 2012
Posted by Servo2Go.com in Technical Support Information.Tags: DMC Programming, Galil, I/O Control, I/O Controller, master controller, Master/Slave, Motion Control, Motion Controller, Motor Controller, Pocket PLC, RIO Controller, Servo2Go, slave system, slave units, Software
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For users that need to expand their IO across multiple devices, Galil Ethernet based controllers have a built-in Master/Slave capability. This means that if a system has an Ethernet based DMC motion controller yet needs to add one or more RIO units to expand the IO capability, the DMC controller can be set up to reference the RIO inputs and outputs automatically. Likewise, if a system needs to have multiple RIO Pocket PLC units – any one of those units can be set up as the “Master” controller such that it automatically references the i/o of all of the slave units. The only limits to this are the number of Ethernet handles that the master RIO or DMC unit has available. (Note: use the TH command to see how many handles a particular product has available).
Galil DMC-30000 with RIO PLC
Here are the steps to get a Master/Slave system working with 4 RIO units (1 master and 3 slaves):
Step 1) Connect to each RIO unit with Galil software and assign an IP address. A helpful nomenclature is to use the last 2 digits of the controller serial number as the last field of the IP address so its easy to remember what each units IP address is.
Step 2) Use the following code-generator and input the IP address of each of the slave units:
http://www.galilmc.com/support/downloads/dmc_code/master-with-multiple-slaves.php
click “Generate Code”. Then copy/paste the dmc program code that is generated into the Galil software Editor when connected to the “Master” controller. Download and Execute this code (XQ).
Step 3) In the response window, you should see the following text:
SLAVE(s) CONNECTED Set flag=x where x is 1-6
by looking at the code, you can see that the “flag” variable controls different types of i/o requests to the slave units. As a simple test, set flag=1 in the terminal and this will cause output 1 on each of the slave devices to start blinking every 1 second. Use the other included routines as a starting point for controlling the slave analog and digital i/o for your system.
More details on setting up a Modbus slave device can be found in this article:
http://www.galilmc.com/techtalk/io-control/setting-up-and-rio-as-extended-io-for-a-controller/
For more information on the RIO I/O Controller from Galil, click on the link below-
http://www.servo2go.com/product.php?ID=102190&cat=
For more information, please contact:
Editorial Contact:
Warren Osak
sales@servo2go.com
Toll Free Phone: 877-378-0240
Toll Free Fax: 877-378-0249
www.servo2go.com
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