1 control consisting of a mechanical or electrical or electronic device for making or breaking or changing the connections in a circuit [syn: electric switch, electrical switch]
2 an event in which one thing is substituted for another; "the replacement of lost blood by a transfusion of donor blood" [syn: substitution, permutation, transposition, replacement]
3 hairpiece consisting of a tress of false hair; used by women to give shape to a coiffure
4 railroad track having two movable rails and necessary connections; used to turn a train from one track to another or to store rolling stock
5 a flexible implement used as an instrument of punishment
6 a basketball maneuver; two defensive players shift assignments so that each guards the player usually guarded by the other
7 the act of changing one thing or position for another; "his switch on abortion cost him the election" [syn: switching, shift]
3 lay aside, abandon, or leave for another; "switch to a different brand of beer"; "She switched psychiatrists"; "The car changed lanes" [syn: shift, change]
5 cause to go on or to be engaged or set in operation; "switch on the light"; "throw the lever" [syn: throw, flip]
6 flog with or as if with a flexible rod
7 reverse (a direction, attitude, or course of action) [syn: interchange, tack, alternate, flip, flip-flop]
- , /swɪtʃ/, /swItS/
- Rhymes with: -ɪtʃ
- A device to turn electric current on and off or direct its flow.
- In the context of "railroading|US": A movable section of railroad track which allows the train to be directed down one of two destination tracks; point.
- A thin rod used as a whip.
- A command line notation allowing specification of optional behavior.
- (Telephony) A system of specialized relays, computer hardware, or other equipment which allows the interconnection of a calling party's telephone line with any called party's line.
device to turn electric current on and off or direct its flow
- Czech: vypínač
- Dutch: schakelaar
- Finnish: kytkin, katkaisija
- German: Schalter
- Interlingua: commutator
- Italian: interruttore
- Japanese: スイッチ (suitchi)
- Latvian: slēdzis
- Polish: wyłącznik
- Portuguese: interruptor, chave
- Russian: выключатель (vykl'učát'el') on/off, переключатель (p'er'ekl'učát'el')
- Slovene: stikalo
- Spanish: interruptor
- Swedish: strömbrytare , brytare
- Telugu: స్విచ్చి (svicci)
movable section of railroad track
thin rod used as a whip
command line notation
- Czech: přepínač
- Finnish: lippu
- Swedish: växel
system which allows the interconnection of a calling party's telephone line with any called party's line
Translations to be checked
- ttbc French: commutateur , interrupteur
- ttbc Interlingua: interruptor
- ttbc Malayalam: വൈദ്യുതഗമനാഗമനനിയന്ത്രണയന്ത്രം vaidyutagamanāgamananiyantraṇayantram
- To exchange.
- I want to switch this red dress for a green one.
- To change (something) to the specified state using a switch.
- Switch the light on.
- To hit with a switch (rod).
- To change places, tasks, etc.
- I want to switch to a different seat.
- To get angry suddenly; to quickly or unreasonably become enraged.
- Finnish: vaihtaa
- French: échanger
- German: tauschen, austauschen
- Portuguese: trocar
- Swedish: byta, ändra
To change (something) to the specified state using a switch
To hit with a switch (rod)
To change places / tasks
- Finnish: vaihtaa
- French: changer
- German: wechseln
- Interlingua: cambiar
- Portuguese: trocar, mudar
- Swedish: byta
Translations to be checked
- ttbc Catalan: canviar, desviar
- ttbc French: (2: see switch off, switch on)
- ttbc Interlingua: flagellar (3 ?)
- ttbc Italian: (2: see switch off, switch on)
A switch is a mechanical device used to connect and disconnect a circuit at will. Switches cover a wide range of types, from subminiature up to industrial plant switching megawatts of power on high voltage distribution lines.
In applications where multiple switching options are required (e.g., a telephone service), mechanical switches have long been replaced by electronic switching devices which can be automated and intelligently controlled.
The prototypical model is perhaps a mechanical device (for example a railroad switch) which can be disconnected from one course and connected to another.
The switch is referred to as a "gate" when abstracted to mathematical form. In the philosophy of logic, operational arguments are represented as logic gates. The use of electronic gates to function as a system of logical gates is the fundamental basis for the computer—i.e. a computer is a system of electronic switches which function as logical gates.
ContactsIn the simplest case, a switch has two pieces of metal called contacts that touch to make a circuit, and separate to break the circuit. The contact material is chosen for its resistance to corrosion, because most metals form insulating oxides that would prevent the switch from working. Contact materials are also chosen on the basis of electrical conductivity, hardness (resistance to abrasive wear), mechanical strength, low cost and low toxicity.
Sometimes the contacts are plated with noble metals. They may be designed to wipe against each other to clean off any contamination. Nonmetallic conductors, such as conductive plastic, are sometimes used.
ActuatorThe moving part that applies the operating force to the contacts is called the actuator, and may be a toggle or dolly, a rocker, a push-button or any type of mechanical linkage (see photo).
A pair of contacts is said to be 'closed' when there is no space between them, allowing electricity to flow from one to the other. When the contacts are separated by a space, they are said to be 'open', and no electricity can flow.
Switches can be classified according to the arrangement of their contacts. Some contacts are normally open until closed by operation of the switch, while others are normally closed and opened by the switch action. A switch with both types of contact is called a changeover switch.
The terms pole and throw are used to describe switch contacts. A pole is a set of contacts that belong to a single circuit. A throw is one of two or more positions that the switch can adopt. These terms give rise to abbreviations for the types of switch which are used in the electronics industry. In mains wiring names generally involving the word way are used; however, these terms differ between British and American English and the terms two way and three way are used in both with different meanings.
Switches with larger numbers of poles or throws can be described by replacing the "S" or "D" with a number or in some cases the letter T (for triple). In the rest of this article the terms SPST SPDT and intermediate will be used to avoid the ambiguity in the use of the word "way".
Make-before-break, break-before-makeIn a multi-throw switch, there are two possible transient behaviors as you move from one position to another. In some switch designs, the new contact is made before the old contact is broken. This is known as make-before-break, and ensures that the moving contact never sees an open circuit (also referred to as a shorting switch). The alternative is break-before-make, where the old contact is broken before the new one is made. This ensures that the two fixed contacts are never shorted to each other. Both types of design are in common use, for different applications.
Biased switchesA biased switch is one containing a spring that returns the actuator to a certain position. The "on-off" notation can be modified by placing parentheses around all positions other than the resting position. For example, an (on)-off-(on) switch can be switched on by moving the actuator in either direction away from the centre, but returns to the central off position when the actuator is released.
The momentary push-button switch is a type of biased switch. The most common type is a push-to-make switch, which makes contact when the button is pressed and breaks when the button is released. A push-to-break switch, on the other hand, breaks contact when the button is pressed and makes contact when it is released. An example of a push-to-break switch is a button used to release a door held open by an electromagnet. Changeover push button switches do exist but are even less common.
Special typesSwitches can be designed to respond to any type of mechanical stimulus: for example, vibration (the trembler switch), tilt, air pressure, fluid level (the float switch), the turning of a key (key switch), linear or rotary movement (the limit switch or microswitch), or presence of a magnetic field (the reed switch).
Mercury tilt switchThe mercury switch consists of a drop of mercury inside a glass bulb with 2 contacts. The two contacts pass through the glass, and are connected by the mercury when the bulb is tilted to make the mercury roll on to them.
This type of switch performs much better than the ball tilt switch, as the liquid metal connection is unaffected by dirt, debris and oxidation, it wets the contacts ensuring a very low resistance bounce free connection, and movement and vibration do not produce a poor contact.
Knife switchKnife switches are a more or less obsolete type of power switch used in the 1800s. The live (hot) parts of the switch are uncovered and uninsulated, and they are unsuitable for use at shock-risk voltages. Knife switches have a relatively large contact spacing when open, so in the 1800s were often used to control power machinery running at high voltage, a use that can only be considered dangerous.
Knife switches are seen in horror films set in the 1800s, especially in underground laboratories, and have something of an association with Frankenstein et al.
Today knife switches are used in demonstrations, where the large size and simple mechanism make for easy and immediate understanding of operation. They are also sometimes encountered in heavy-duty industrial applications.
OthersOther types of switch include:
Intermediate switchA DPDT switch has six connections, but since polarity reversal is a very common usage of DPDT switches, some variations of the DPDT switch are internally wired specifically for polarity reversal. These crossover switches only have four terminals rather than six. Two of the terminals are inputs and two are outputs. When connected to a battery or other DC source, the 4-way switch selects from either normal or reversed polarity. Intermediate switches are also an important part of multiway switching systems with more than two switches (see next section).
Multiway switching is a method of connecting switches in groups so that any switch can be used to connect or disconnect the load. This is most commonly done with lighting.
Two locationsSwitching a load on or off from two locations (for instance, turning a light on or off from either end of a flight of stairs) requires two SPDT switches. There are two basic methods of wiring to achieve this, and another not recommended.
In the first method, mains is fed into the common terminal of one of the switches; the switches are then connected through the L1 and L2 terminals (swapping the L1 and L2 terminals will just make the switches work the other way round), and finally a feed to the light is taken from the common of the second switch. A connects to B or C, D connects to B or C; the light is on if A connects to D, i.e. if A and D both connect to B or both connect to C.
The second method is to join the three terminals of one switch to the corresponding terminals on the other switch and take the incoming supply and the wire out to the light to the L1 and L2 terminals. Through one switch A connects to B or C, through the other also to B or C; the light is on if B connects to C, i.e. if A connects to B with one switch and to C with the other.
Wiring needed in addition to the mains network (not including protective earths):
- double wire between both switches
- single wire from one switch to the mains
- single wire from the other switch to the load
- single wire from the load to the mains
- triple wire between both switches
- single wire from any position between the two switches, to the mains
- single wire from any position between the two switches, to the load
- single wire from the load to the mains
If the mains and the load are connected to the system of switches at one of them, then in both methods we need three wires between the two switches. In the first method one of the three wires just has to pass through the switch, which tends to be less convenient than being connected. When multiple wires come to a terminal they can often all be put directly in the terminal. When wires need to be joined without going to a terminal a crimped joint, piece of terminal block, wirenut or similar device must be used and the bulk of this may require use of a deeper backbox.
Using the first method, there are four possible combinations of switch positions: two with the light on and two with the light off.
An unrecommended methodIf there is a hot (a unique phase) and a neutral wire in both switches and just one wire between them where the light is connected (as in the picture), you can then solve the two way switch problem easily: just plug the hot in the top from switch, the neutral in the bottom from switch and the wire that goes to the light in the middle from the switch. This in both switches. Now you have a fully functional two way switch.
This works like the first method above: there are four possibilities and just in two of them there is a hot and a neutral connected in the poles of the light. In the other ones, both poles are neutral or hot and then no current flows because the potential difference is zero.
The advantage of this method is that it uses just one wire to the light, having a hot and neutral in both switches.
The reason why this is not recommended is that the light socket pins may still be hot even with the light off, which poses a risk when changing a bulb. Another problem with this method is that in both switches there will be hot and neutral wires entering a single switch, which can lead to a short circuit in the event of switch failure, unlike the other methods.
This method is in defiance of the NEC and the CEC. In nearly any and all applications, neutral conductors should never be switched. Not only is this a shock hazard due to mistakenly believing that a hot conductor is switched off; it is also a fire hazard and can destroy sensitive equipment due to excessive and unbalanced current flowing on hot conductors that would outherwise flow back to ground on the neutral conductor.
More than two locationsFor more than two locations, the two cores connecting the L1 and L2 of the switches must be passed through an intermediate switch (as explained above) wired to swap them over. Any number of intermediate switches can be inserted, allowing for any number of locations.
Wiring needed in addition to the mains network (not including protective earths):
- double wire along the sequence of switches
- single wire from the first switch to mains
- single wire from the last switch to the load
- single wire (neutral) from load to mains
- double wire along the sequence of switches
- single wire from first switch to last switch
- single wire from anywhere between two of the switches to the mains
- single wire from anywhere between the same two switches to the load
- single wire (neutral) from load to mains
Using the first method, there are eight possible combinations of switch positions: four with the light on and four with the light off.
As mentioned above, the above circuit can be extended by using multiple 4-way switches between the 3-way switches to extend switching ability to any number of locations.
Power switchingWhen a switch is designed to switch significant power, the transitional state of the switch as well as the ability to stand continuous operating currents must be considered. When a switch is on its resistance is near zero and very little power is dropped in the contacts; when a switch is in the off state its resistance is extremely high and even less power is dropped in the contacts. However when the switch is flicked the resistance must pass through a state where briefly a quarter (or worse if the load is not purely resistive) of the load's rated power is dropped in the switch.
For this reason, most power switches (most light switches and almost all larger switches) have spring mechanisms in them to make sure the transition between on and off is as short as possible regardless of the speed at which the user moves the rocker.
Power switches usually come in two types. A momentary on-off switch (such as on a laser pointer) usually takes the form of a button and only closes the circuit when the button is depressed. A regular on-off switch (such as on a flashlight) has a constant on-off feature. Dual-action switches incorporate both of these features.
Up or downDomestic light switches are generally moved up to switch on in the US, yet down in most of Europe.
The reason for the difference remains a bit of a mystery. A few hypotheses are often put forward, but none have been validated. Since there is no significant technical reason for either preference, the standards likely developed due to chance and some degree of cultural isolation.
Contact bounceContact bounce (also called chatter) is a common problem with mechanical switches and relays. Switch and relay contacts are usually made of springy metals that are forced into contact by an actuator. When the contacts strike together, their momentum and elasticity act together to cause bounce. The result is a rapidly pulsed electrical current instead of a clean transition from zero to full current. The waveform is then further modified by the parasitic inductances and capacitances in the switch and wiring, resulting in a series of damped sinusoidal oscillations. This effect is usually unnoticeable in AC mains circuits, where the bounce happens too quickly to affect most equipment, but causes problems in some analogue and logic circuits that respond fast enough to misinterpret the on-off pulses as a data stream.
Sequential digital logic circuits are particularly vulnerable to contact bounce. The voltage waveform produced by switch bounce usually violates the amplitude and timing specifications of the logic circuit. The result is that the circuit may fail, due to problems such as metastability, race conditions, runt pulses and glitches.
There are a number of techniques for debouncing (mitigating the effects of switch bounce). They can be split into wet contacts, timing based techniques and Hysteresis based techniques.
Wet contactsMercury wetted switch contacts do not suffer from bounce, as once the connection is made the mercury keeps the contact conducting during mechanical bounce.
Mercury wetted switches are not a popular option today, primarily due to mercury's toxicity.
Timing basedTiming based techniques rely on adding sufficient delays that the extra transitions introduced by bounce are ignored. Their big advantage is they do not require any special design on the switch side and so are generally cheaper. However for good performance they must be designed to suit the switch (too much delay and the response will be needlessly sluggish, too little and bounce will not be eliminated).
Resistor/CapacitorIf an on/off switch is used with a pull up (or pull down) resistor and a single capacitor is placed over the switch (or across the resistor, but this can cause nasty spikes of current on the power supply lines) then when the switch is closed (generally pressed) the capacitor will almost instantly discharge through the switch. But when the switch is opened (generally released) the capacitor takes some time to recharge. Therefore contact bounce will have negligible effect on the output. The slow edges can be cleaned up with a Schmitt trigger if necessary. This method has the advantage of fast response to the initial press but the current surges through the switch may be undesirable. Other RC based systems are also possible with various responses and such systems are probably the easiest method when constructing with simple logic gates and discrete components.
State machines and softwareA finite state machine or software running on a CPU can be designed to wait a fixed number of clock cycles after any transition before registering another one. This provides a cheap option for debouncing when a microprocessor, microcontroller or gate array is already in use but is unlikely to be worthwhile if constructing with single logic gates CLPD's.
HysteresisAlternatively, it is possible to build in hysteresis by making the position where a press is detected separate from that where a release is detected. As long as the bounces are small enough not to take the switch between these positions, bounce problems will be eliminated. Hysteresis can be mechanical or electronic (e.g. a Schmitt trigger).
Changeover switchA changeover switch provides two distinct events, the making of one contact and the breaking of the other. These can be used to feed the inputs of a flip-flop. This way the press will only be detected when the pressed contact is made and the release will only be detected when the released contact is made. When the switch is bouncing around in the middle no change is detected. To get a single logic signal from such a setup a simple SR latch can be used.
Variable resistanceNormal switches are designed to give a hard on-off but it is also possible to design one that varies more gradually between the hard-on and hard-off states. This keeps the output changes caused by bouncing small. Then by feeding the output to a Schmitt trigger the effect of those bounce based changes can be eliminated.
- Walker, PMB, Chambers Science and Technology Dictionary, Edinburgh, 1988, ISBN 1852961503 (definition of contact bounce)
- Several Wiring Options (with diagrams)
- Troubleshooting Existing 2/3/4-way Switching (US/Canada, with diagrams)
- How to Install a Three-Way Switch Short Video (with step by step instructions)
- Tutorial about switch de-bouncing Analog and digital debouncing are discussed with schematics and example source codes
- videos of an arc fault when [http://220.127.116.11/frames/longarc.htm high voltage circuit breakers] fail to interrupt current, creating arcs up to 100ft in use
switch in Danish: Omskifter (elektrisk)
switch in German: Schalter (Elektrotechnik)
switch in Spanish: Interruptor eléctrico
switch in French: Interrupteur
switch in Hebrew: מפסק
switch in Indonesian: Saklar
switch in Italian: Interruttore
switch in Dutch: Schakelaar
switch in Japanese: 開閉器
switch in Russian: Ключ (электротехника)
switch in Slovak: Spínač
switch in Slovenian: Stikalo
switch in Finnish: Kytkin (elektroniikka)
switch in Swedish: Strömbrytare
switch in Ukrainian: Роз'єднувач
switch in Urdu: بدیل
switch in Persian: سوئیچ
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