- Vehicle bus
A vehicle bus is an electronic
communications networkthat interconnects components inside an automobile, bus, industrial or agricultural vehicle, ship, or aircraft. Due to the specialised requirements of each type of deployment (including environmental constraints, cost, reliability and realtime characteristics), conventional computer networking technologies (such as ethernetand TCP/IP) are rarely used. Typical Vehicle electronic components that communicate with each other on the vehicle bus are Engine Control Modules (ECM), Transmission Control Modules (TCM), Anti-lock Brake System Modules (ABS) etc.
All cars sold in the United States since 1996 are required to have a
On-Board Diagnosticsconnector, for easy access to the car's Controller Area Network(CAN) bus.
The main driving forces for the development of vehicle network technology have been the advances made in the electronics industry in general and government regulations imposed, especially in the
United States, in order to make the automobiles environmentally friendly.
With stringent limitations placed on the emission gases for the automobiles, it became impossible to attain this level of control without the help of on-board computing devices. On-board electronic devices have also contributed substantially to vehicle performance, occupant comfort, ease of manufacture and cost effectiveness.
At one time, a radio was likely the only electronic device in an automobile, but now almost every component of the vehicle has some electronic feature. As mentioned above some of the typical electronic modules on today's vehicles are the Engine Control Module (ECM), the Transmission Control Module (TCM), the Anti-lock Braking System (ABS) and body control modules (BCM).
An electronic control module typically gets its input from sensors (speed, temperature, pressure, etc) that it uses in its computation. Various
actuatorsare used to enforce the actions determined by the module (turn the cooling fan on, change gear, etc). The modules need to exchange data among themselves during the normal operation of the vehicle. For example, the engine needs to tell the transmission what the engine speed is, and the transmission needs to tell other modules when a gear shift occurs. This need to exchange data quickly and reliably led to the development of the vehicle network. The vehicle network is the medium of data exchange.
The automotive industry quickly realized the complexity of wiring each module to every other module. See the illustration below for an example of how this wiring scheme would look.
This wiring design would not only be complex, it would have to be altered depending on which modules were included in the specific vehicle. For example, a car without the anti-lock brake module would have to be wired differently than one that included anti-lock brakes.
The industry's answer to this problem was to create a central network in the vehicle. Modules could be 'plugged' into the network and would be able to communicate with any other module that was installed on the network.
This design was easier to manufacture, easier to maintain and provided the flexibility to add and remove options without affecting the entire vehicle's wiring architecture.
Each module, a node on the vehicle network, controls specific components related to its function and communicates with the other modules as necessary, using a standard protocol, over the vehicle network.
The illustration below provides an overview of this design.
Networks were not new, but their application to the vehicle was. The networks for the vehicles called for:
*Immunity from external noise
*Ability to operate in harsh environments
*Overall robustness and reliability
Although the vehicle network did not place too much emphasis on the data
throughput, the demand for more on-board computing is continuing to drive changes to these networks to provide higher-speed communication between modules.
There are several network types and protocols used in vehicles by various manufactures. Many companies are encouraging a standard communication protocol, but one has not been settled on.
Some examples of transmission media use in vehicle networks:
* Single wire
* Twisted Pair
* Fibre optic
* Power-line communication [http://www.yamar.com]
Common vehicle buses include:
Local Interconnect Network(LIN) - a very low cost in-vehicle sub-network
Controller Area Network(CAN) - an inexpensive low-speed serial bus for interconnecting automotive components
J1939and ISO11783- an adaptation of CAN for agricultural and commercial vehicles
FlexRay- a general purpose high-speed protocol with safety-critical features
Media Oriented Systems Transport(MOST) - a high-speed multimedia interface
Keyword Protocol 2000(KWP2000) - a protocol for automotive diagnostic devices (runs either on a serial line or over CAN)
Vehicle Area Network(VAN)
*DC-BUS [http://www.yamar.com/benefits.html] - Automotive power-line communication multiplexed network
Additionally, many major car manufacturers use their own
proprietaryvehicle bus standards, or overlay proprietary messages over open protocols such as CAN.
Early History of Buses on GM Vehicles
The earliest known GM data communication link from one electronic module to another was introduced in the 1980 model year
Cadillacs. The link was one wire point to point linking the engine control module to the fuel data panel [Ronald W. Cox, Local Area Network Technology Applied to Automotive Electronics Communications, IEEE Transactions on Industrial Electronics, VOL. IE-32, No. 4, November 1985, Page 327-333] . In Model Year 1981 all GM Passenger Cars for the US market used a similar data link to a test connector for assembly line diagnostics. The value of this data in diagnosing emission systems after customer delivery was quickly identified and scanner tools were made to view and interpret the data stream. The data line was the same line that turned on the "Check Engine" lamp in the instrument panel. Data was sent at 80 bits per sec. 9 bits per frame, 21 bytes (frames), 2.4 sec./transmission.
In 1981 model year Cadillacs, two 80 bit point to point links were present, with the second link going from the engine control module to the climate control module.
In the 1982 model year,
fuel injectionengine control modules had the data port moved to a dedicated full time connection ( Corvetteand 2.5 L engines).
In the 1983 model year, the data rate on the fuel injection engine control modules was doubled to 160 bit/s.
In the 1984 model year, Corvette Instrument panel used data from the fuel injection engine control module's data link.
In the 1985 model year, Cadillac FWD "C" vehicle had a electronic system that had point to point data links between 5 electronic modules and a dedicated assembly line diagnostic connector.
On the 1988 and 1989 model year
Buick Reattaand 1986-1989 model year Buick Rivieratouchscreen CRT equipped vehicles, an 8,192 bit/s data buss was implemented between the body computer module and the assembly line connector, climate control module, and CRT controller. This was GM's first multi-drop data bus. All GM vehicles adopted this bus as new engine control modules were developed. This bus remained the standard GM vehicle bus until 1996 when the CAN-busreplaced it.
* http://www.interfacebus.com/Design_Connector_Automotive.htmlDC-BUS Power-line communication vehicle multiplex bus [http://www.yamar.com]
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