Difference between revisions of "Diodes"

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(Moved from Transistors, Diodes, etc.)
 
(Added information on how they work, cleaned things up a bit)
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Diodes are two terminal devices that conduct very differently in one direction verses another.  The basic use takes advantage of this property, but the are other characteristics that are also useful and special diodes that take advantage of these properties.
 
Diodes are two terminal devices that conduct very differently in one direction verses another.  The basic use takes advantage of this property, but the are other characteristics that are also useful and special diodes that take advantage of these properties.
  
===General===
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== How They Work ==
A diode lets current through in one direction but not another. It acts somewhat an infinite resistance in one direction, and a 0 resistance in the other direction. A more accurate description ( but not complete ) says that in the low resistance direction there must be a .6 v drop before much current flows.
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At the most basic level, diodes allow current to flow in one direction and prevent current from flowing in the opposite direction. If we take a look at their construction, we can see why this occurs.
  
Other Reading
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Diodes consist of two dissimilar materials that come together at a joint. One material has an abundance of electrons and therefore is negatively charged, while the other lacks electrons and is positively charged. At the junction between the two materials, electrons in the first material are attracted to the electron-less second material, forming a neutral atoms at the center of the junction which act as an insulator.
*[http://en.wikipedia.org/wiki/Diode Diode From Wikipedia, the free encyclopedia]
 
  
*[http://en.wikibooks.org/wiki/Electronics/Diodes  Electronics/Diodes From Wikibooks, the open-content textbooks collection]
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When current is applied backwards, that is, to the electron-lacking side, electrons in the wire are attracted to the material, pulling it away from the junction. There is a similar effect on the other side, as electrons in the other material are attracted to the electron-lacking atoms in the wire.
  
*[http://en.wikibooks.org/wiki/Practical_Electronics/Diodes  Practical Electronics/Diodes From Wikibooks, the open-content textbooks collection]
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If current is applied to the side with an abundance of electrons, the electrons in the wire repel the electrons in the material, pushing the insulating atoms away from the junction. As the atoms are pushed further and further, the diode will get to a state where it begins conducting current.
  
*[http://www.allaboutcircuits.com/vol_3/chpt_3/12.htmlSpecial-purpose diodes]
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== Special Types ==
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* Schottky
 +
* Zener
 +
* Avalanche
 +
* Tunnel
  
==== Use: Rectifier ====
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== Uses ==
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Diodes can do many different things. They can detect, rectify, suppress, emit light, change capacitance, emit microwaves, etc.
 +
 
 +
=== As a Rectifier ===
 
Changing alternating current to direct current.  A standard in almost all plug in power supplies and most electronic circuits run on DC.  [http://www.vishay.com/docs/88867/anfundam.pdf Application Note Vishay General Semiconductor]
 
Changing alternating current to direct current.  A standard in almost all plug in power supplies and most electronic circuits run on DC.  [http://www.vishay.com/docs/88867/anfundam.pdf Application Note Vishay General Semiconductor]
  
==== Use: Detector ====
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=== As a Detector ===
 
As in an amplitude modulated radio ( AM ) where the radio signal is changed to an audio signal.
 
As in an amplitude modulated radio ( AM ) where the radio signal is changed to an audio signal.
  
 
[[File:diodesnubber.png | frame | right | [[Basic Circuits and Circuit Building Blocks#Relay with Diode Snubber]]  ]]
 
[[File:diodesnubber.png | frame | right | [[Basic Circuits and Circuit Building Blocks#Relay with Diode Snubber]]  ]]
==== Use: Snubber ====
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=== As a Snubber ===
 
Some circuits, typically those with inductance like inductors, [[motor driver | motors]], [[relays]] and solenoids, generate a large back or reverse voltage when they turn off.  Often a diode will be inserted to "short circuit" this voltage/current.  This can prevent damage to other circuit components.
 
Some circuits, typically those with inductance like inductors, [[motor driver | motors]], [[relays]] and solenoids, generate a large back or reverse voltage when they turn off.  Often a diode will be inserted to "short circuit" this voltage/current.  This can prevent damage to other circuit components.
  
==== Use: Steering ====
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=== As an Exponential/Logarithmic Converter ===
Sending a voltage/current in a particular direction in a circuit
 
 
 
==== Use: Exponential/Logarithmic Converter ====
 
 
The current in the forward direction is an exponential function of the voltage.  Together with an op amp this can be used to convert voltages to via an exponential or logarithmic function.  These in turn can be used for multiplication, division, powers and roots.  See [[OpAmp Links]]
 
The current in the forward direction is an exponential function of the voltage.  Together with an op amp this can be used to convert voltages to via an exponential or logarithmic function.  These in turn can be used for multiplication, division, powers and roots.  See [[OpAmp Links]]
  
==== Use: Clipping, Bias Voltage ( Temperature Sensing ) ====
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=== Clipping, Bias Voltage ( Temperature Sensing ) ===
  
 
In the forward direction a junction has about .6 volts when conducting ( as does the base emitter junction of a bipolar transistor ).  This voltage is useful as a small well defined voltage for bias in a transistor circuit.  Often 2 or more will be used in series for a higher voltage.  If the input is a varying voltage the output is equal to the input and then begins to clip ( stop rising ) at about .6 volts.  Feeding in a triangle wave at the right amplitude you get out a triangle wave with the points rounded off, an approximate sine wave.
 
In the forward direction a junction has about .6 volts when conducting ( as does the base emitter junction of a bipolar transistor ).  This voltage is useful as a small well defined voltage for bias in a transistor circuit.  Often 2 or more will be used in series for a higher voltage.  If the input is a varying voltage the output is equal to the input and then begins to clip ( stop rising ) at about .6 volts.  Feeding in a triangle wave at the right amplitude you get out a triangle wave with the points rounded off, an approximate sine wave.
 
The bias voltage is somewhat temperature sensitive, you can used this in an electronic thermometer circuit.  
 
The bias voltage is somewhat temperature sensitive, you can used this in an electronic thermometer circuit.  
  
==== Use: Over Voltage Protection ====
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=== Over Voltage Protection ===
 
Many circuits cannot tolerate voltage over a certain limit ( often the power supply voltage ).  Connecting a diode from the circuit input to the power supply can "short out" the over voltage.  Make sure the diode is connected in the proper direction.
 
Many circuits cannot tolerate voltage over a certain limit ( often the power supply voltage ).  Connecting a diode from the circuit input to the power supply can "short out" the over voltage.  Make sure the diode is connected in the proper direction.
  
==== Use: Bridge ====
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=== Bridge ===
 
This is an arrangement that is used for full wave rectification and some other circuits that are a bit tricky.  Not explained here and now but Google will help you out
 
This is an arrangement that is used for full wave rectification and some other circuits that are a bit tricky.  Not explained here and now but Google will help you out
  
==== Use: Reverse Protection ====
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=== Reverse Protection ===
 
Many circuits destroy themselves when connected backwards to a voltage source.  Connecting a diode in series with the circuit blocks the reverse voltage.
 
Many circuits destroy themselves when connected backwards to a voltage source.  Connecting a diode in series with the circuit blocks the reverse voltage.
 
See [[Reverse Protection Diodes]].
 
See [[Reverse Protection Diodes]].
  
==== Use: Voltage Doubler ====
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=== Voltage Doubler ===
 
Diodes and resistors can be used to produce high voltages from AC without transformers.
 
Diodes and resistors can be used to produce high voltages from AC without transformers.
 
See [http://www.vishay.com/docs/88842/anusingr.pdf Using Rectifiers in Voltage Multiplier Circuits Application Note Vishay General Semiconductor].  We should have a voltage doubler in our basic circuits section, do we?
 
See [http://www.vishay.com/docs/88842/anusingr.pdf Using Rectifiers in Voltage Multiplier Circuits Application Note Vishay General Semiconductor].  We should have a voltage doubler in our basic circuits section, do we?
  
==== Use: Isolation ====
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== See Also ==
 
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* [[LEDs]]
=== Light Emitting Diode ===
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* [[Reverse Protection Diodes]]
The LED see [[LED]]
 
 
 
=== Tunnel Variable Capacitor Trans Diode ===
 
 
 
=== Other Special Types ===
 
 
 
Shockley Junction, Tunnel, variable capacitance.....
 
 
 
==== Photo ====
 
 
 
see [[Sensors]] photo
 
  
[[Image:PG31-PowerSupply.jpg|69px]] [[Reverse Protection Diodes]] - PTH and SMD diodes to protect against reverse polarization.
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== Additional Resources ==
 +
* [http://en.wikipedia.org/wiki/Diode Diode on Wikipedia, the free encyclopedia]
 +
* [http://en.wikibooks.org/wiki/Electronics/Diodes  Electronics/Diodes From Wikibooks, the open-content textbooks collection]  
 +
* [http://en.wikibooks.org/wiki/Practical_Electronics/Diodes  Practical Electronics/Diodes From Wikibooks, the open-content textbooks collection]
 +
* [http://www.allaboutcircuits.com/vol_3/chpt_3/12.htmlSpecial-purpose diodes]

Revision as of 20:43, 11 November 2014

Diodes are two terminal devices that conduct very differently in one direction verses another. The basic use takes advantage of this property, but the are other characteristics that are also useful and special diodes that take advantage of these properties.

How They Work

At the most basic level, diodes allow current to flow in one direction and prevent current from flowing in the opposite direction. If we take a look at their construction, we can see why this occurs.

Diodes consist of two dissimilar materials that come together at a joint. One material has an abundance of electrons and therefore is negatively charged, while the other lacks electrons and is positively charged. At the junction between the two materials, electrons in the first material are attracted to the electron-less second material, forming a neutral atoms at the center of the junction which act as an insulator.

When current is applied backwards, that is, to the electron-lacking side, electrons in the wire are attracted to the material, pulling it away from the junction. There is a similar effect on the other side, as electrons in the other material are attracted to the electron-lacking atoms in the wire.

If current is applied to the side with an abundance of electrons, the electrons in the wire repel the electrons in the material, pushing the insulating atoms away from the junction. As the atoms are pushed further and further, the diode will get to a state where it begins conducting current.

Special Types

  • Schottky
  • Zener
  • Avalanche
  • Tunnel

Uses

Diodes can do many different things. They can detect, rectify, suppress, emit light, change capacitance, emit microwaves, etc.

As a Rectifier

Changing alternating current to direct current. A standard in almost all plug in power supplies and most electronic circuits run on DC. Application Note Vishay General Semiconductor

As a Detector

As in an amplitude modulated radio ( AM ) where the radio signal is changed to an audio signal.

As a Snubber

Some circuits, typically those with inductance like inductors, motors, relays and solenoids, generate a large back or reverse voltage when they turn off. Often a diode will be inserted to "short circuit" this voltage/current. This can prevent damage to other circuit components.

As an Exponential/Logarithmic Converter

The current in the forward direction is an exponential function of the voltage. Together with an op amp this can be used to convert voltages to via an exponential or logarithmic function. These in turn can be used for multiplication, division, powers and roots. See OpAmp Links

Clipping, Bias Voltage ( Temperature Sensing )

In the forward direction a junction has about .6 volts when conducting ( as does the base emitter junction of a bipolar transistor ). This voltage is useful as a small well defined voltage for bias in a transistor circuit. Often 2 or more will be used in series for a higher voltage. If the input is a varying voltage the output is equal to the input and then begins to clip ( stop rising ) at about .6 volts. Feeding in a triangle wave at the right amplitude you get out a triangle wave with the points rounded off, an approximate sine wave. The bias voltage is somewhat temperature sensitive, you can used this in an electronic thermometer circuit.

Over Voltage Protection

Many circuits cannot tolerate voltage over a certain limit ( often the power supply voltage ). Connecting a diode from the circuit input to the power supply can "short out" the over voltage. Make sure the diode is connected in the proper direction.

Bridge

This is an arrangement that is used for full wave rectification and some other circuits that are a bit tricky. Not explained here and now but Google will help you out

Reverse Protection

Many circuits destroy themselves when connected backwards to a voltage source. Connecting a diode in series with the circuit blocks the reverse voltage. See Reverse Protection Diodes.

Voltage Doubler

Diodes and resistors can be used to produce high voltages from AC without transformers. See Using Rectifiers in Voltage Multiplier Circuits Application Note Vishay General Semiconductor. We should have a voltage doubler in our basic circuits section, do we?

See Also

Additional Resources