Westinghouse Rail Systems selects XJTAG boundary scan system to verify prototype integrity
- XJTAG will be used to debug/test highly-complex printed circuit boards (PCBs) used in safety critical automatic train control applications
- XJTAG has been selected due to ease-of-use, low cost of ownership, extensive library of functional tests, and ability to verify hardware ahead of software development
- XJTAG is used to test high pin-count JTAG-enabled devices, and, by using the XJIO expansion board, test non-JTAG devices and verify signals right through to the backplane connectors of the boards
CAMBRIDGE, UK, October 2, 2007 XJTAG, a leading supplier of IEEE Std. 1149.1 compliant boundary scan development tools, today announced that Westinghouse Rail Systems, a world leader in railway signalling and control technology, has selected the XJTAG boundary scan development system to verify the integrity of its prototype hardware designs, which are destined for use in safety critical automatic train control applications.
Matt Lee, European business development manager, XJTAG said: “We are delighted that Westinghouse, a major name in the industrial marketplace, has selected the XJTAG system to debug and test its range of prototype printed circuit boards (PCBs). The XJTAG system is designed by engineers for engineers and provides a comprehensive set of tools to test, debug and program complex printed circuits containing ball grid array (BGA) devices.”
Engineers at Westinghouse Rail Systems' headquarters at Chippenham, Wiltshire (England), are using the XJTAG Professional development system to debug and test highly-complex control PCBs. These boards contain multiple high pin-count BGA devices which are inaccessible to traditional test probes as they are directly mounted to the board via solder balls on the underside of the chip.
Jeff Smith, hardware engineer, R&D, Westinghouse Rail Systems, said: “Boundary scan is a ‘must-have' tool for any company developing high value, high complexity, BGA-populated boards. We selected XJTAG ahead of competitive products due to its ease-of-use, its extensive library of functional tests, and its low cost of ownership. It also has a powerful range of functions that allow us, for example, to control devices from the inside and regain visibility of all the hidden BGA interconnects in the JTAG chain. We can also read or write pins and busses with a single click using XJAnalyser.
“XJTAG also enables hardware verification to take place without the need to develop specific test software to run on the target board,” added Smith. “This is important as it has brought an end to the classic arguments between hardware and software engineers blaming each other when a new design does not work.”
Westinghouse Rail Systems, part of Invensys plc, leads the world in advanced integrated signalling and control systems for main line and mass transit railways. The company's products are at the heart of many of the world's major railway and metro networks, with current projects including both major refurbishment programmes, such as the London Underground Victoria Line upgrade, and complex new infrastructure schemes, including the Canada Line Rapid Transit Project in Vancouver.
“Westinghouse has a reputation for providing customers with safe, reliable solutions on time and to budget so it's important that we have the right tools to ensure that we continue to meet these exacting standards,” added Smith. “With XJTAG, we have a powerful boundary scan system that enables us to thoroughly check the integrity of our prototype designs both the JTAG and non-JTAG devices, and by using the XJIO expansion board we can verify signals right through to the backplane connectors of the boards.”
The XJTAG development system is a cost-effective ‘out-of-the-box' solution for debugging, testing and servicing electronic printed circuit boards and systems throughout the product lifecycle. The XJTAG system reduces the time and cost of board development and prototyping by allowing early test development, early design validation of CAD netlists, fast generation of functional tests and test re-use across circuits using the same devices.
XJTAG enables engineers to test a high proportion of the circuit (both boundary scan and cluster devices) including BGA and chip scale packages, such as SDRAMs, Ethernet controllers, video interfaces, Flash memories, FPGAs and microprocessors. XJTAG also enables In-System Programming of FPGAs, CPLDs and Flash memories.
For more information about the XJTAG system, please telephone +44 (0) 1954 213888, fax +44 (0) 1954 211565 or email email@example.com. Alternatively visit www.xjtag.com.
Photography to accompany this news release is available at:
About Westinghouse Rail Systems Limited (www.westinghouserail.co.uk)
Westinghouse has been signalling railways for over 140 years and today leads the world in advanced integrated signalling and control systems for main line and mass transit railways. The company employs 1,400 people throughout the UK 850 of which are based at its Chippenham headquarters. In addition to its Chippenham headquarters, the company has offices in London, Birmingham, York, Glasgow, Crawley, Croydon, Swanley, China, Singapore and Germany. Westinghouse Rail Systems Limited is a wholly owned subsidiary of Invensys Rail Group, a global supplier of sophisticated automation, train control and protection systems. For more information, visit www.westinghouserail.co.uk
About XJTAG (www.xjtag.com)
XJTAG is a leading supplier of IEEE Std. 1149.1 compliant boundary scan development tools. Its JTAG (Joint Test Action Group) development system offers a highly competitive solution for designers and developers of electronic printed circuit boards and systems. Utilising XJTAG allows the circuit development and prototyping process to be shortened significantly by facilitating early test development, early design validation, fast development of functional tests and test re-use across circuits that use the same devices. XJTAG is based in Cambridge, UK, and is part of the Cambridge Technology Group.
What is JTAG?
Advances in silicon design, such as increasing device density and, more recently, ball grid array (BGA) and chip scale packaging, have made traditional electronic circuit testing methods hard to use. In order to overcome these problems and others; some of the world's leading silicon manufacturers combined to form the Joint Test Action Group (JTAG). The findings of this group were used as the basis for the Institute of Electrical and Electronic Engineers (IEEE) standard 1149.1: Standard Test Access Port and Boundary Scan Architecture.