Tri-M Systems HE104 technical manual Appendix 2 Advantages of Using AC Termination

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23 June 2005

HE104MAN-V8 Manual

APPENDIX 2: ADVANTAGES OF USING AC TERMINATION:

One of the requirements of embedded electronics is low power consumption. One method of reducing power is to reduce the drive current available to power the expansion bus. With over 80 signal lines, any reduction in current load would have a large impact on overall requirements. The PC/104 Consortium Guidelines for the expansion bus specify drive current can be as low as 4mA. Compared with the 24mA for the standard desktop computer, this is an 84 percent reduction in the drive current available.

This disadvantage to reducing drive current is the increasing possibility for noise to infiltrate the bus. The symptoms of noise-induced problems are often flaky or unreliable operation. Systems suffering from noisy busses are often difficult to diagnose and solve. Programmers blame the hardware engineers and the hardware engineers blame the software programmers.

With reduced drive currents, more attention must be paid to reducing the noise levels on the PC/104 bus. One frequently used method is bus terminators. Testing has proven the best way to terminate the PC/104 bus is to use AC terminators instead of resistive terminators. This is the recommended termination method for Ampro CPU products. The IEEE P996 PC Bus Standard recommends the AC bus terminating technique.

The use of AC terminators had several advantages over DC terminators:

-Reduced power consumption: DC terminators are typically in the 330 ohm to 1K ohm range and draw heavy currents. This is significant when terminating the over 80 signals on the PC/104 bus. AC terminators draw current only during the few nanoseconds when the bus signal is changing state, resulting in negligible current drain.

-Improved bus reliability: DC terminators invariably increase the voltage level of the logic zero state. This decreases noise immunity, making it more likely that a zero will be seen as a one. AC terminators do not cause this shift, resulting in a more reliable bus.

-Reduced crosstalk: AC terminators roll off the signal transitions on the bus. The result is a quieter bus, which has fewer high frequency effects such as crosstalk to other bus lines.

-Reduced EMI: Busses with AC termination tend to generate less EMI than resistively terminated buses due to the reduction in high frequency components of signal transitions.

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Contents HE104 TRI-MTechnical Manual TRI-M Engineering PC/104 Vehicle Power SupplyHE104MAN-V8 Manual Preface General Description IntroductionHE104 Dimensions 1000mil=1in FeaturesModel HE104 SpecificationsIntroduction Configuration and InstallationHE104 Connectors Power ConsiderationsOutput Power Connector Jumper Selection Installation Onto PC104 ModulesBus Termination Optional 2 +5VDC Low Q/ Noise Q=quiescent PC/104 Bus Interrupts Optional Connector CN5 Pinout Connector CN6 PinoutInterrupt IRQ Selection Power Management Controller PM104 optionalPM104 Pin Number and I/O Functions Low Input Alarm10 HE104 Efficiency and Heat Dissipation Calculation Theory of Operation Input power protectionSwitching Regulator, +5VDC Charge Pumps Switching regulator, +12VDCVp -p L1 ∙ frequency Filter CapacitorsRC1 RC2 RC3 RC4 RC5 ExampleAppendix 1 HE104, +5V Regulator Block Diagram HE104MAN-V8 Manual Appendix 2 Advantages of Using AC Termination Appendix 3 Installation Hints for the HE104 Power Supply Description AppendixConnections Programming Cable Sample Battery Charging Program Listing BattChrgTerm ‘Get battery charging voltageInit ‘Return to programBattChrg NoPower ‘debug nopwr pauseBattTrickle ‘debug trickle gosub ChkPwr let D1 = ChkPwrDistributed By