Complete Ethernet Motion Control Range Heralds Radical Machine Simplification For OEMs


* motion machinery can now be all Ethernet, all electronic - signalling changes in direction and greater freedom for machine designers

Fort Smith, AR, March 1, 2007 --- The new availability of a comprehensive range of motion control components compatible with the real-time Ethernet Powerlink protocol is presenting significant design opportunities for machinery OEMs. With the launch of Ethernet Powerlink three-phase AC drives, Baldor Electric Company (NYSE:BEZ) now offers all the major motion control functions including single-phase drives, a motion and machine controller, and development tools. Together, this range provides machine builders with an exceptionally versatile control platform that can improve performance substantially, while simultaneously simplifying the control architecture and reducing costs.

"The technical benefits of a high speed machine network have been well publicized, but it's the simple factors of product availability and system cost savings that are being overlooked," says David Greensmith of Baldor. "Machine builders are definitely sold on the system building benefits of the architecture. For each drive node, I calculate that a single Ethernet CAT5e cable eliminates somewhere in the region of 40 to 50 cable stripping, soldering and assembly tasks, for example. Ethernet now accounts for the majority of our sales enquiries, and the completion of the product range with three-phase drives opens the technology to most machinery OEMs."

From its first 18 months' experience with Ethernet motion, Baldor has proved the technology to be very attractive in small to medium multi-axis systems arena. The savings come mainly in the area of simpler engineering, and reduced control hardware, cabling and assembly. Even though the actual cost of the Ethernet elements is a few percent higher than traditional motion equipment, the overall savings can be significant.

The introduction of 3-phase AC drives means that users can build all-Ethernet systems with the optimum choice of motor technology for each axis, from small to large loads. Rotary and linear versions of brushless servo, and AC vector motors are all software selectable.

Many machine builders are trying to move to all-electronic architectures, to provide software-centric, highly-reconfigurable equipment. Baldor's Ethernet technology is particularly beneficial for this, as its single controller can manage up to 200 different machine control components such as I/O, absolute encoders, Ethernet PowerLink DS402 positioning drives, stepper motors, as well as up to 16 interpolated axes. As one example of the potential of this control, machine builders could replace pneumatic actuators with stepper or servo motors for instance with no increase in controller hardware - eliminating the costs and issues associated with maintaining a secondary supply of clean compressed air.

Unlike traditional motion networks, the Ethernet network does not force a machine builder to adopt any particular control architecture. Systems can still have the traditional central controller if preferred - coordinating all drives in profiled torque, speed or position modes. However, these axes can also be self-controlled positioning devices (DS402 compatible positioning drives) which respond on command - and consume little central processing overhead. In addition intelligent (programmable) drives can be employed in a system to implement more complex standalone axes, or to implement the complete motion system. Powerlink lends itself perfectly to all these scenarios, with the same network manager controlling any type of architecture, or mix.

The sheer bandwidth of the 100 Mbits/second Ethernet network also simplifies machine building, because it merges the functionality of a fieldbus and a motion bus into one system. Functionality normally reserved for the device service port - such as firmware updates, configuration and diagnostics - can all be communicated via that common network. This powerful new capability is typically dubbed 'total network visibility'.

Applications can be implemented using two flavors of Ethernet. The Ethernet Powerlink protocol provides a deterministic real-time performance that makes its suitable for handling the most demanding motion, as well as a means to link seamlessly with standard Ethernet networks. An alternative is the use of standard TCP/IP protocols, which can be suitable if the automation in question does not have any demanding time synchronization or multi-axis coordination considerations.

Free ActiveX tools provided as part of Baldor's development environment make it very easy for developers to create Windows-based PC applications that can communicate with the motion hardware via Ethernet.

If TCP/IP is suitable for the application, Baldor's ActiveX development tool provides a simple programmer's API interface to every function of the Mint(TM) motion and machine control language built into the hardware, allowing users to issue commands to the motion hardware without needing to understand Ethernet protocols. This is suitable for automation that performs simple movements and motion profiles without time critical operation.

If the application requires synchronization or interpolation of multiple motion axes, then the deterministic facilities of Ethernet Powerlink can be brought into play. A simple 'gateway' device can be added into a PC or machine network to allow any PC controller with its standard Ethernet interface to communicate with the real-time motion control hardware.

In either case, the use of Ethernet allows organizations to access the machine remotely, to view status, perform diagnostics etc. This approach uses standard routing network technologies and integrates firewall security features such as NAT, MAC address filtering and port blocking etc.

"Using Ethernet at the machine and real time control level is a major trend," adds Greensmith. "The Ethernet Powerlink protocol has now matured and represents a very significant opportunity for machine designers. The availability of all the major motion control components means that the benefits of a very high speed machine network can be realized, here and now."

Baldor Electric Company, PO Box 2400, Fort Smith, AR 72901, USA
t: 479 646 4711; f: 479 648 5792; e: sales.us@baldor.com; www.baldor.com

Mint and NextMove are a registered trademarks of Baldor. Any other trade marks used are recognized and are the property of their respective owners.

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