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MIL-STD-1553 has served the needs of military system integrators for over 30 years, particularly in the area of command and control applications. Nevertheless, contemporary applications such as high-speed digitized sensors, file transfers, processor clusters, and displays require much higher data rates than 1553's 1 Mb/s. For some environments, particularly for legacy aircraft, the optimal solution is to transmit faster data rates over existing 1553 buses. However, there are other applications that can accommodate and benefit by the deployment of gigabit or multi-gigabit copper or optical switched fabric networks. In addition to MIL-STD-1553, this paper presents and comments about several avionics networking technologies including High-Speed 1553, Fibre Channel, Gigabit Ethernet, and ARINC 664, a form of profiled Ethernet.

Time Triggered networking technologies such as TTP (Time Triggered Protocol) are beginning to be used in critical aerospace applications such as flight controls. While TTP provides stringent specifications for determinism and fault tolerance, it does not define a physical layer. TTP's “de facto” physical layer, RS-485, includes shortcomings in a number of areas. These include a relatively low minimum transmitter voltage, low receiver threshold, along with a lack of specificity in a number of areas. The latter include bus signal levels, transmitter zero-crossing distortion and receiver zero-crossing tolerance, isolation method, terminal output noise, common mode and noise rejection, and input impedance. MIL-STD-1553, which has been deployed in flight and mission critical military applications for decades, defines a highly proven and robust physical layer. This paper presents MIL-STD-1553's physical layer as a candidate for use with TTP.

This paper describes the background and development of a new, low cost and more effective system for controlling the vehicle roll on leaf spring suspended vehicles. The new anti-roll concept is most effective and efficient when applied to the higher technology, parabolic tapered, leaf springs. The highest gains are available when these are used on medium and heavy duty trucks and buses.

In addition to supporting the full repertoire of bus controller functions required for the protocol portion of the R.T. Production Test Plan, the latest generation of low cost 1553 protocol testers provides versatile capabilities for remote terminal simulation and real-time monitoring. When used in conjunction with a very low cost “Noise” (Word Error Rate) tester, such a protocol tester is capable of performing the “Bus Switching” test for dual redundancy. This class of noise tester provides all the necessary hardware and firmware required to perform the Word Error Rate Test of the R.T. Validation (SEAFAC) test, including the noise source. Both instruments are fully controllable by means of the IEEE-488 (GPIB) interface, including DMA capability for the protocol tester.