Specifying and Configuring and Aircraft Electrical System ========================================================= Written by Curtis L. Olson Started February 3, 2003 Introduction ============ The FlightGear electrical system model is an approximation. We don't model down to the level of individual electrons, but we do try to model a rich enough subset of components so that a realistic (from the pilot's perspective) electrical system may be implemented. We try to model enough of the general flow so that typical electrical system failures can be implimented and so that the pilot can practice realistic troubleshooting techniques and learn the basic structure and relationships of the real aircraft electrical system. An electrical system can be built from 4 major components: suppliers, buses, outputs, and connectors. Suppliers are things like batteries and generators. Buses collect input from multiple suppliers and feed multiple outputs. Outputs are not strictly necessary, but are included so we can name generic output types and provide a consistent naming scheme to other FlightGear subsystems. Finally connectors connect a supplier to a bus, or a bus to an output, and optionally can specify a switch property (either a physical switch or a circuit breaker.) At run time, the structure specified in the electrical system config file is parsed and a directional graph (in the computer science sense) is built. Each frame, the current is propagated through the system, starting at the suppliers, flowing through the buses, and finally to the outputs. The system follows the path of connectors laid out in the config file and honors the state of any connector switch. Suppliers ========= A supplier entry could look like the following: Battery 1 /systems/electrical/suppliers/battery[0] battery 24 60 can be anything you choose to call this entry. is the name of a property that will be updated with the state of this supplier. can be "battery", "alternator", or "external". specifies the volts of the source specifies the amps of the source Currently and are not really modeled in detail. This is more of a place holder for the future. Buses ===== A bus entry could look like the following: Essential/Cross Feed Bus /systems/electrical/outputs/bus-essential /systems/electrical/outputs/annunciators /systems/electrical/outputs/master-switch is whatever you choose to call this bus You can have an arbitrary number of entries. Each entry is the name of a property that will be updated with the value of the current at that bus. This allows you to wire devices directly to the bus but does not allow you to insert a switch or circuit breaker in between. See "Outputs" and "Connectors" if you want to do that. Outputs ======= An output entry could look like the following: Starter 1 Power /systems/electrical/outputs/starter[0] An output isn't entirely unlike a bus, but it's nice conceptually to have a separate entity type. This enables us to specify a common set of output property names so that other subsystems can automatically work with any electrical system that follows the same conventions. An output lives on the other side of a switch, so this is how you can wire in cockpit switches to model things like fuel pump power, avionics master switch, or any other switch on the panel. is whatever you choose to call this bus You can have an arbitrary number of entries. Each entry is the name of a property that will be updated with the value of the current at that bus. This allows you to wire devices directly to the bus but does not allow you to insert a switch or circuit breaker in between. See "Outputs" and "Connectors" if you want to do that. Other FlightGear subsystems can monitor the property name associated with the various outputs to decide how to render an instrument, whether to run the fuel pump, whether to spin a gyro, or any other subsystem that cares about electrical power. Connectors ========== An connector entry could look like the following: Alternator 1 Virtual Bus 1 /controls/switches/master-alt A connector specifies and input, and output, and any number of switches that are wired in series. In other words, all switches need to be true/on in order for current to get from the input to the output of the connector. specifies the of the input. Typically you would specify a "supplier" or a "bus". specifies the of the output. Typically you would specify a bus or an output. You can have an arbitrary number of entries. The switches are wired in series so all of them need to be on (i.e. true) in order for current to pass to the output. Summary ======= The electrical system has a lot of power and flexibility to model a variety of electrical systems. However, it is not yet perfect or finished. One major weakness is that it doesn't yet model degraded battery or generator power, and it doesn't model the "charge" of the batteries in case of a generator failure.