Switches are an important part of most electronic circuits. In the simplest case, most circuits contain an on/off switch. In addition to the on/off switch, many circuits contain switches that control how the circuit works or activate different features of the circuit.
Switches are mechanical
devices with two or more leads (or terminals) that are
internally connected to metal contacts which can be opened or closed
by the person operating the switch.
When the switch is in the On
position, the contacts are brought together to complete the circuit
so that current can flow. When the contacts are together, the switch
is closed. When the contacts are apart, the switch is open and
current cannot flow.
One way to categorize
switches is by the movement a person uses to open or close the
contacts. There are many different switch designs. The most common
are
Slide Switch:
-
Normally open (NO): In a normally open switch, the default state of the contacts is open. When you push the button, the contacts are closed. When you release the button, the contacts open again. Thus, current flows only when you press and hold the button.
-
Normally closed (NC): In a normally closed switch, the default state of the contacts is closed. Thus, current flows until you press the button. When you press the button, the contacts are opened and current does not flow. When you release the button, the contacts close again and current resumes.
A slide switch has a
knob that you can slide back and forth to open or close the
contacts.
Toggle Switch
A toggle switch has a
lever that you flip up or down to open or close the contacts. Common
household light switches are examples of toggle switches.
Rotary switch:
A rotary switch has a
knob that you turn to open and close the contacts. The switch in the
base of many tabletop lamps is an example of a rotary switch.
Rocker switch:
A rocker switch has a
seesaw action. You press one side of the switch down to close the
contacts, and press the other side down to open the contacts.
Knife switch:
A knife switch is the
kind of switch Igor throws in a Frankenstein movie to reanimate the
creature. In a knife switch, the contacts are exposed for everyone
to see.
Pushbutton switch:
A pushbutton switch is
a switch that has a knob that you push to open or close the
contacts. In some pushbutton switches, you push the switch once to
open the contacts and then push again to close the contacts. In
other words, each time you push the switch, the contacts alternate
between opened and closed.
Other pushbutton switches
are momentary contact switches, where contacts change from
their default state only when the button is pressed and held down.
The two types of momentary contact switches are
Potentiometer switch:
A
potentiometer, informally a pot, is a three-terminal resistor with a
sliding or rotating contact that forms an adjustable voltage divider.
If only two terminals are used, one end and the wiper, it acts
as a variable resistor or rheostat.
Maam Ehm, Which of those switches is the most commonly used in selecting the voltage in power supply? :)
ReplyDeleteHi Maam Rics, so based on my experience when we make a power supply, we have different values of voltages such as 3V, 6V,9V and 12V. Since we have different values of voltages, the switch we used was the Rotary Switch so we can choose whether what amount of voltage is needed for the specific component we will be supplying. Sometimes, Potentiometer isalso used because as you observe, most of the types of switch has only single throw and single pole or SPST :)
DeleteThanks Maam Ehm :)
DeleteWhy? the two areas meet the electrons fill the holes and there are no free holes or electrons. what thus this means?
ReplyDeleteHello Darryl! You may leave your comment/question under the topic that suits your question because this part of the Blog is about Switches. By the way, you mean on the diagram? why it does not have electrons shown? It is because I used the picture that shows the division of the P and N Junctions as well as the Depletion Layer.
DeleteWhy? the two areas meet the electrons fill the holes and there are no free holes or electrons. what thus this means?
ReplyDeleteHello Darryl! You may leave your comment/question under the topic that suits your question because this part of the Blog is about Switches. By the way, you mean on the diagram? why it does not have electrons shown? It is because I used the picture that shows the division of the P and N Junctions as well as the Depletion Layer.
DeleteHow do we connect a rotary switch in a circuit? It has too many legs.
ReplyDeleteHi Romel! Yes, since the Rotary Switch has many legs or what we called an array of terminals, arranged in a circle around the rotor, each of which serves as a contact for the "spoke" through which any one of a number of different electrical circuits can be connected to the rotor.
DeleteThis IC 555 TIMER, was this normally inserted to a watch?
ReplyDeleteHi Romel! You may leave your comment/question under the topic that suits your question because this part of the Blog is about Switches. By the way, the Crystal Oscillator is used and inserted to watches as well as the CMOS IC and not the IC 555 timer.
DeleteAccording to sir Fernando placement of LM317, why can't we place it in the middle?
ReplyDeleteHi Romel! You may leave your comment/question under the topic that suits your question because this part of the Blog is about Switches. By the way, are you asking for the placement of the IC LM317 in the copper clad? maybe it depends upon the design wanted by your Teacher.
DeleteMam Ehm if it is possible to use this ATX PSU to produce different voltage outputs other than the fixed voltage power supply of +5 or +12 volts.
ReplyDeleteHi Darryl! I think you are asking about ATX PSU, it seems like you are off topic because this blog talks about the LM317, Switches, Diodes and its Theory, and 555 timer. There is no topic about Advance Technology Extended Power Supply Unit but as far as I know, ATX PSU is mostly used on computers and not on the circuits you are doing in your Shop. The one that you are working on in your Shop is a Centered-Top Power Supply which produces voltages that also varies depending on the what voltage you will be needing.
DeleteAnother thing Darryl, you may check-out Ma'am Tine's Blog. @maamtine.blogspot.com :)
Deletecopy ma'am thanks for the info bout the topic
ReplyDeleteHope you learned something Lolit! :)
Deletehi . ma'am ehm... tanong ko lang po ano po ang pinagkaiba ng potentiometer sa rheostat?
ReplyDeleteHello Judy Ann! Well, Potentiometers control a circuit's signal level rather than its power level. Many electronic audio devices feature potentiometers, such as the volume control system on a television. They also serve as position transducers in joysticks and voltage divider circuits. Electricians employ rheostats, on the other hand, for handling much higher voltages and currents. They feature two terminals and a movable wiper that switches from zero to maximum resistance. :)
Deleteno questions po ma'am :)
ReplyDeleteOk Jerome! Thank you for visiting my blog :)
DeleteWhen I will use a Knife Switch? Because I'm not familiar with this kind of switch. Thankyou :)
ReplyDeleteHi Karen! Knife Switches are becoming more rare, that's the reason why you are not familiar with it. The knife switch is extremely simple in construction and use, but its exposed metal parts present a great risk of electric shock, and the switch is subject to arcing when opened at higher voltages, which poses a further risk of shock or burns to the operator and can cause fires or explosions under certain conditions.
DeleteOpen knife switches were supplanted by safety switches with current carrying contacts inside a metal enclosure which can only be opened by switching off the power.
In modern applications, automatic switches (such as contactors or relays), and manual switches such as circuit breakers are used. Knife Switch is also used in heavy-duty industrial applications and demonstration purposes on science projects. :)
Ma'am Ehm how can we test if the switch is still working? Can we test it using multimeter?
ReplyDeleteHi Ma'am Maureen! Yes, we can definitely use a multimeter in testing a Switch. Out-of-the-circuit switch testing requires the use of a continuity or multi-meter tester. You’ll need to test the switch out of the circuit, so you will need to turn the circuit off before proceeding with this test. Simply turn off the power, remove the switch carefully, test the wires with a voltage tester, multi-meter, or a non-contact tester to see if the power is indeed off before working on the switch. Next, remove the wire from the switch by loosening the wires and removing them. Now that the switch is removed, touch one of the two test leads to one switch terminal and the other test lead to the other terminal. On the continuity tester, nothing needs to be set, but on the multi-meter, you’ll need to set the dial to ohms read resistance or the continuity setting that will show if the switch is completing a circuit when switched. If the switch is flipped, the buzzer on the tester will produce sounds or the ohm value will change from nothing to something. :)
DeleteI am planning to create an amplifier for my project, What is the best switch that fits to my project concerning its volume?
ReplyDeleteHi Alfredo! The best switch you can use for your project amplifier is the Potentiometer Switch. Using Potentiometer switch, you may vary the volume of the amplifier. Hope this helps! :)
ReplyDeletehi maam ehm.. does those switches do have polarities?
ReplyDeleteHello Mam Tin! Yes, some switches could interchange their polarities depending on the type of switch you are going to use. Switches that has the many feet or terminals have different polarities. Some switches has the +DCV, -GROUND and Motor terminals.
Deletehi maam ehm.. does those switches do have polarities?
ReplyDeleteHello Mam Tin! Yes, some switches could interchange their polarities depending on the type of switch you are going to use. Switches that has the many feet or terminals have different polarities. Some switches has the +DCV, -GROUND and Motor terminals.
Deletedoes the potentiometer can also switch on and off?
ReplyDeleteOfcourse Lester! Switches are used in circuits to let the current pass through the wires when the switch is close. On the other hand, it prohibits the flow of current also when the switch is open. Potentiometers are commonly used to control electrical devices such as volume controls on audio equipment.
Deletehi ma'am I'm just curious, who invented the switch '?
ReplyDeleteHi Vin! Your question is very interesting. The first light switch employing "quick-break technology" was invented by John Henry Holmes in 1884 in the Shieldfield district of Newcastle upon Tyne.
Delete