breaker pointengine part
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ignition systems ignition system
In older automobile ignition systems, the high-voltage pulses are produced by means of breaker points controlled by a revolving distributor cam. When the points are in contact they complete an electrical circuit through the primary winding of the ignition coil. When the points are separated by the cam, the primary circuit is broken, which creates a high-voltage surge in the secondary windings...
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ignition systems ignition system
...a high-voltage surge in the secondary windings of the induction coil. Breaker points have been largely replaced by electronic devices in newer automobiles. Most now use a magnetic device, called a reluctor, that is operated by the distributor shaft to produce timed electric signals, which are amplified and used to control the current to the induction coil. These newer ignition systems are more...
in a gasoline engine, means employed for producing an electric spark to ignite the fuel–air mixture; the burning of this mixture in the cylinders produces the motive force.
The basic components in the ignition system are a storage battery, an induction coil, a device to produce timed high-voltage discharges from the induction coil, a distributor, and a set of spark plugs. The storage battery provides an electric current of low voltage (usually 12 volts) that is converted by the system to high voltage (some 40,000 volts). The distributor routes the successive bursts of high-voltage current to each spark plug in the firing order.
In older automobile ignition systems, the high-voltage pulses are produced by means of breaker points controlled by a revolving distributor cam. When the points are in contact they complete an electrical circuit through the primary winding of the ignition coil. When the points are separated by the cam, the primary circuit is broken, which creates a high-voltage surge in the secondary windings of the induction coil. Breaker points have been largely replaced by electronic devices in newer automobiles. Most now use a magnetic device, called a reluctor, that is operated by the distributor shaft to produce timed electric signals, which are amplified and used to control the current to the induction coil. These newer ignition systems are more reliable than the old, permit better control of the engine, and produce higher-voltage output to the spark plugs.
During the evolution of solid-state ignition systems, there have been many modifications. Some ignition conversion systems, for example, extend breaker-point life by using transistors, devices in which a small current in the input (the breaker-point circuit) controls a much larger current in the output (the coil primary circuit).
Many automobile engines now use a distributor-less ignition system, or...
in electricity, electromagnetic device for remote or automatic control of current in one (relay) circuit, using the variation in current in another (energizing) circuit. For example, in a solenoid the core will move when energized to open or close a switch or circuit breaker. Many relays are protective in function. Probably the earliest was the old telegraph relay, in which the energizing current moved an armature carrying a contact point to close a sounder circuit. Relays were important in early computer designs before they were replaced by the faster vacuum tubes and, later, by transistors. They are also used in railway block signalling, the energized relay being de-energized by shorting through car axles. Currently in wide use are telephone relays. The illustration shows the essentials of a typical general-purpose relay.
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electromagnet electromagnet
A relay is a device in which the solenoid principle is applied to opening and closing light-current electrical circuits. The same device applied in heavy-current circuits is called a contactor, or circuit breaker.
- University of Guelph - Solid State Relais
- DNA Technology - Interfacing Relay to Microcontroller
- POWER-IO - Heat Sinks for Solid State relay, SCR, and IGBT applications
- The Electronics Club - Relays
- HowStuffWorks - How Relays Work
- Juniper Networks - How radius Relay Server Works
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characteristics of waves wave
...sharpen toward a point, a shape known as a conoidal wave. In deeper water the limiting height of a wave is one-seventh of its length. As it approaches this height the pointed crests break to form whitecaps. In shallow water the long-amplitude waves distort, because crests travel faster than troughs to form a profile with a steep rise and slow fall. As such waves travel into shallower water on...
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lake waves lake
As wave height increases, the sharpening of the wave crest may result in instability and a breaking off of the crest, a process hastened by the wind. This results in the familiar whitecaps. Waves that run ashore break up in surf. The wave height first decreases slightly, then increases, and the speed decreases, and eventually the wave form disappears as it crumbles into breakers. These can be...
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