Silicon Chip42V electrical systems in cars - July 2000 SILICON CHIP
  1. Outer Front Cover
  2. Contents
  3. Publisher's Letter: 42V electrical systems in cars
  4. Feature: Say Bye-Bye To Your 12V Car Battery by Julian Edgar
  5. Project: A Home Satellite TV System by Garry Cratt & Ross Tester
  6. Project: A Moving Message Display by Atilla Aknar & Ross Tester
  7. Project: Compact Fluorescent Lamp Driver by John Clarke
  8. Project: El-Cheapo Musicians' Lead Tester by John Clarke
  9. Order Form
  10. Project: Li'l Powerhouse Switchmode Power Supply; Pt.2 by Peter Smith & Leo Simpson
  11. Review: Motech MT-4080A LCR Meter by Leo Simpson
  12. Product Showcase
  13. Review: ADEM Compac II Security System by Ross Tester
  14. Vintage Radio: The AWA P1 portable 11-inch B/W TV set by Rodney Champness
  15. Book Store
  16. Back Issues
  17. Notes & Errata
  18. Product Showcase
  19. Market Centre
  20. Outer Back Cover

This is only a preview of the July 2000 issue of Silicon Chip.

You can view 37 of the 96 pages in the full issue, including the advertisments.

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Items relevant to "A Moving Message Display":
  • DOS software for the Moving Message Display (Free)
Items relevant to "Compact Fluorescent Lamp Driver":
  • 12V CFL Driver PCB pattern (PDF download) [11107001] (Free)
  • 12V CFL Driver panel artwork (PDF download) (Free)
Items relevant to "El-Cheapo Musicians' Lead Tester":
  • El-Cheap Musicians' Lead Tester panel artwork (PDF download) (Free)
Items relevant to "Li'l Powerhouse Switchmode Power Supply; Pt.2":
  • Li'l PowerHouse Power Supply PCB pattern (PDF download) [04106001] (Free)
  • Li'l PowerHouse Power Supply panel artwork (PDF download) (Free)
Articles in this series:
  • Li'l Powerhouse Switchmode Power Supply; Pt.1 (June 2000)
  • Li'l Powerhouse Switchmode Power Supply; Pt.1 (June 2000)
  • Li'l Powerhouse Switchmode Power Supply; Pt.2 (July 2000)
  • Li'l Powerhouse Switchmode Power Supply; Pt.2 (July 2000)

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PUBLISHER’S LETTER www.siliconchip.com.au Publisher & Editor-in-Chief Leo Simpson, B.Bus., FAICD Production Manager Greg Swain, B.Sc.(Hons.) Technical Staff John Clarke, B.E.(Elec.) Peter Smith Ross Tester Rick Walters Reader Services Ann Jenkinson Advertising Enquiries Rick Winkler Phone (02) 9979 5644 Fax (02) 9979 6503 Mobile: 0414 34 6669 Regular Contributors Brendan Akhurst Louis Challis Rodney Champness Garry Cratt, VK2YBX Julian Edgar, Dip.T.(Sec.), B.Ed Mike Sheriff, B.Sc, VK2YFK Philip Watson, MIREE, VK2ZPW Bob Young SILICON CHIP is published 12 times a year by Silicon Chip Publications Pty Ltd. ACN 003 205 490. ABN 49 003 205 490 All material copyright ©. No part of this publication may be reproduced without the written consent of the publisher. Printing: Hannanprint, Dubbo, NSW. Distribution: Network Distribution Company. Subscription rates: $69.50 per year in Australia. For overseas rates, see the subscription page in this issue. Editorial & advertising offices: Unit 8, 101 Darley St, Mona Vale, NSW 2103. Postal address: PO Box 139, Collaroy Beach, NSW 2097. Phone (02) 9979 5644. Fax (02) 9979 6503. E-mail: silchip<at>siliconchip.com.au ISSN 1030-2662 * Recommended and maximum price only. 2  Silicon Chip 42V electrical systems in cars Most people would agree that there have been radical chang­es in the design of automobiles in the last 15 years or so. Not only do computer chips now control the entire operation of car engines these days, they also control the automatic transmission, brakes (ABS), the air-bags, cruise control, traction control, air-conditioning (climate control) and even suspension. But as radical as those changes are, they are just for openers. We’re going to see a lot more changes in the next few years as designers work out how to make cars perform a lot better while using less fuel and providing more safety. A fundamental part of this next raft of changes will be the electrical system itself. The old faithful 12V system will be superseded by 42V sys­tems, based on a 36V battery but acknowledging the fact that the actual DC voltage will be maintained at around 42V. This is equivalent to 14V from an existing 12V battery system. The pro­posed 42V system is described this month in an article starting on page 4. The main reason for going to the higher voltage is that the electrical load in cars is getting higher all the time. Increasing the voltage by a factor of three reduces the current by the same factor and this greatly reduces voltage losses as well as ena­bling the wiring harness to be reduced in weight. However, some of the changes envisaged for cars involve such things as electric power steering, electric blower super-charging and even solenoid-operated valve trains. These really do involve quite high peak powers but they are better done electri­cally rather than driven by the engine. They would not be really feasible at 12V but they become a whole lot easier at 42V. The most exciting concept has to be computer-controlled valve trains. These could bring about quite startling increases to engine power and responsiveness, as well as completely elimi­nating all the drawbacks of existing camshaft and valve lifter systems. In fact, this would make existing variable valve timing schemes such as Honda’s VTEC and Toyota’s VVT seem crude in the extreme. Instead of bringing a more aggressive cam profile above a certain engine speed like these mechanical systems, a computer-controlled valve train could apply infinitely variable valve timing, from cylinder to cylinder if necessary. So if you suddenly wanted heaps of power, not only would the fuel charge increase but the inlet valves could be wide open to accept that charge, instantaneously. Possibly the system might end up being so effective that it would make super-charging or turbo-charging obsolete. You could have car engines that were completely docile and very economical most of the time, only to change to fire-breathing monsters in the blink of an eye. Now maybe we could have roads where we could use all this extra performance. Energy crisis? What energy crisis? Leo Simpson