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(Created page with "{{WikipediaInfo|URL=https://en.wikipedia.org/wiki/Capacitor|Article Name=Capacitor}} Capacitors are, in their most basic essence, a short term energy storage device. The ways they are designed and be can be used vary wildly though for such a simple premise. When it comes to repairs understanding how capacitors function in a circuit can help with diagnosing issues and finding replacements. == Types == {{MoreInfo|Page Name=Capacitor Types}} Capacitors come in many differ...")
 
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{{WikipediaInfo|URL=https://en.wikipedia.org/wiki/Capacitor|Article Name=Capacitor}}
{{WikipediaInfoAlt|Capacitor}}
 
[[File:Capacitors (7189597135).jpg|thumb|Capacitors in their various forms]]
Capacitors are, in their most basic essence, a short term energy storage device. The ways they are designed and be can be used vary wildly though for such a simple premise. When it comes to repairs understanding how capacitors function in a circuit can help with diagnosing issues and finding replacements.
A '''capacitor''' is, in its most basic essence, a short term energy storage device. The ways capacitors are designed and can be used vary wildly though for such a simple premise. When it comes to repairs, understanding how capacitors function in a circuit can help with diagnosing issues and finding replacements.


== Types ==
== Types ==
{{MoreInfo|Page Name=Capacitor Types}}
{{MoreInfo|Page Name=Capacitor Types}}
Capacitors come in many different shapes, sizes, chemical make ups, brands, and utilities and knowing the differences between them is one of the first things you should focus on when learning about them. The ones you need to worry about the most are [[Capacitor Types#Electrolytic/Aluminum/Wet|Electrolytic/Aluminum/Wet]] which will dry or leak over time, these are usually attached to the circuit board as either a [[Part Footprints#Through Hole|Through Hole]] or [[Part Footprints#SMD|SMD]] package shaped like cylinders sticking out of the PCB. [[Capacitor Types#Tantalum|Tantalum]] capacitors can have some issues and especially older Through Hole examples that are dipped in a blue or yellow coating. Newer ones are made as a [[Part Footprints#Rectangular SMD|Rectangular SMD]] part and are more reliable. [[Capacitor Types#Polymer|Polymer]] capacitors are a hybrid part that can come in pretty much any shape. They can fail and in some cases have shorter life spans but are more reliable and predictable than pure electrolytic. [[Capacitor Types#Ceramic|Ceramic]] capacitors are another very common type that used to be shaped like discs on legs as [[Part Footprints#Through Hole|Through Hole]] but quickly became a [[Part Footprints#Rectangular SMD|Rectangular SMD]] part that is a tan little block soldered down on each end. These rarely fail and are very unlikely to be a cause of issues.
Capacitors come in many different shapes, sizes, chemical make-ups, brands, and utilities and knowing the differences between them is one of the first things you should focus on when learning about them. The ones you need to worry about the most are [[Capacitor Types#Electrolytic/Aluminum/Wet|Electrolytic/Aluminum/Wet]] which will dry or leak over time. These are usually attached to the circuit board as either a [[Part Footprints#Through Hole|Through Hole]] or [[Part Footprints#SMD|SMD]] package shaped like cylinders sticking out of the PCB. [[Capacitor Types#Tantalum|Tantalum]] capacitors can have some issues, especially older Through Hole examples that are dipped in a blue or yellow coating. Newer ones are made as a [[Part Footprints#Rectangular SMD|Rectangular SMD]] part and are more reliable. [[Capacitor Types#Polymer|Polymer]] capacitors are a hybrid part that can come in pretty much any shape. They can fail and in some cases have shorter life spans but are more reliable and predictable than pure electrolytic. [[Capacitor Types#Ceramic|Ceramic]] capacitors are another very common type that used to be shaped like discs on legs as [[Part Footprints#Through Hole|Through Hole]] but quickly became a [[Part Footprints#Rectangular SMD|Rectangular SMD]] part that is a tan little block soldered down on each end. These rarely fail and are very unlikely to be a cause of issues.


== Specifications ==
== Specifications ==
{{MoreInfo|Page Name=Capacitor Specifications}}
{{MoreInfo|Page Name=Capacitor Specifications}}
When looking at replacing a capacitor you need to determine the unique properties of it and try to get a replacement that is either as close as possible or better in some ways. The actual capacitance of the capacitor is the most important thing that you should look at first. You should try to get an exact match for that which should be possible most of the time, if not, err for a higher value than original. You usually won't have much of an issue with a slightly different capacitance because it has a tolerance rating that is frequently as high as +/- 20%. This means a capacitor rated at 100uF could be as low as 80uF or as high as 120uF. The tolerance isn't typically printed on the part, so going lower is usually the safer bet. There will be higher cost for this which is more related to the tolerance being a binning process rather than quality. The application of the part may also require a higher precision which you can read more about in the [[Capacitor Specifications#Capacitance Tolerance|full section on tolerance]]. The voltage is a maximum rating that it can be used with, it is only acceptable to use a higher voltage part if an exact match cannot be found. But it is not preferable to get higher values as it effects the dielectric properties of the capacitor which can cause other changes over time. The ESR value can be thought of as a heat generation rating which matters mostly for AC voltage applications or rapidly changing DC voltages. The lower the ESR the less heat will be generated when the voltage level of the capacitor changes, so generally less is better. The only way to know what the ESR is for a given capacitor is to identify it's series and look up the data sheet or use a dedicated tool to [[Measuring Capacitance and ESR|measure]] it.  
When looking at replacing a capacitor you need to determine the unique properties of it and try to get a replacement that is either as close as possible or better in some ways. The actual capacitance of the capacitor is the most important thing that you should look at first. You should try to get an exact match for that, which should be possible most of the time. If not, err for a higher value than the original. You usually won't have much of an issue with a slightly different capacitance because it has a tolerance rating that is frequently as high as +/- 20%. This means a capacitor rated at 100uF could be as low as 80uF or as high as 120uF. The tolerance isn't typically printed on the part, so going lower is usually the safer bet. There will be higher cost for this which is more related to the tolerance being a binning process rather than quality. The application of the part may also require a higher precision which you can read more about in the [[Capacitor Specifications#Capacitance Tolerance|full section on tolerance]]. The voltage is a maximum rating that it can be used with. It is only acceptable to use a higher voltage part if an exact match cannot be found, but it is not preferable to get higher values as it affects the dielectric properties of the capacitor which can cause other changes over time. The ESR value can be thought of as a heat generation rating which matters mostly for AC voltage applications or rapidly changing DC voltages. The lower the ESR, the less heat will be generated when the voltage level of the capacitor changes, so generally less is better. The only way to know what the ESR is for a given capacitor is to identify its series and look up the data sheet or use a dedicated tool to [[Measuring Capacitance and ESR|measure]] it.  
{{MoreInfo|Page Name=Part Footprints}}
{{MoreInfo|Page Name=Part Footprints}}
The shape and method of being attached to the PCB are part of the footprint of the capacitor. These have dimensions that will need to be measured, typically in millimeters, to find similarly sized parts.


== Measuring ==
== Measuring ==
{{MoreInfo|Page Name=Measuring Capacitance and ESR}}
{{MoreInfo|Page Name=Measuring Capacitance and ESR}}
Measuring the properties of a capacitor are not very straight forward and dedicated tools exist for this task. The principals behind the measurements are not complicated or proprietary and cheaper tools can work well for hobbyists. Some multimeters may have the capability to measure capacitance but the accuracy of these, even in higher end models, is not always good.
Measuring the properties of a capacitor is not very straightforward and dedicated tools exist for this task. The principals behind the measurements are not complicated or proprietary and cheaper tools can work well for hobbyists. Some multimeters may have the capability to measure capacitance but the accuracy of these, even in higher end models, is not always good.


Measurements are made by charging and discharging a capacitor at different rates and timing how long it takes to reach a target voltage. The dedicated tools to do this automate the process at different frequencies which capacitor manufactures will rate the ESR of their capacitors at.
Measurements are made by charging and discharging a capacitor at different rates and timing how long it takes to reach a target voltage. The dedicated tools to do this automate the process at different frequencies at which capacitor manufacturers will rate the ESR of their capacitors.


== Reforming ==
== Reforming ==
{{MoreInfo|Page Name=Capacitor Reforming}}
{{MoreInfo|Page Name=Capacitor Reforming}}
Reforming capacitors is a process that is only needed on parts that have not been used in a long time. It is intended to rebuild the dielectric layer in electrolytic capacitors by slowly rising the voltage up to the rated maximum by limiting the current. This process cannot "repair" capacitors, but it can prevent them from being damaged by shorting when powered if they have sat and degraded over time.
Reforming capacitors is a process that is only needed on parts that have not been used in a long time. It is intended to rebuild the dielectric layer in electrolytic capacitors by slowly raising the voltage up to the rated maximum by limiting the current. This process cannot "repair" capacitors, but it can prevent them from being damaged by shorting when powered if they have sat and degraded over time.
 
== Brands ==
{{MoreInfo|Page Name=Capacitor Brands}}
There are a large number of capacitor manufacturers and not all of them are as well regarded. Rifa is one brand that has maligned themselves with the vintage computer community as their [[Capacitor Types#Paper|paper]] line filter capacitors have a tendency to explode.
 
[[Category:Capacitors| ]]

Latest revision as of 07:20, 24 May 2024

For more information, see this article's corresponding Wikipedia page: Capacitor.
Capacitors in their various forms

A capacitor is, in its most basic essence, a short term energy storage device. The ways capacitors are designed and can be used vary wildly though for such a simple premise. When it comes to repairs, understanding how capacitors function in a circuit can help with diagnosing issues and finding replacements.

Types

For more information, see more on the full page: Capacitor Types

Capacitors come in many different shapes, sizes, chemical make-ups, brands, and utilities and knowing the differences between them is one of the first things you should focus on when learning about them. The ones you need to worry about the most are Electrolytic/Aluminum/Wet which will dry or leak over time. These are usually attached to the circuit board as either a Through Hole or SMD package shaped like cylinders sticking out of the PCB. Tantalum capacitors can have some issues, especially older Through Hole examples that are dipped in a blue or yellow coating. Newer ones are made as a Rectangular SMD part and are more reliable. Polymer capacitors are a hybrid part that can come in pretty much any shape. They can fail and in some cases have shorter life spans but are more reliable and predictable than pure electrolytic. Ceramic capacitors are another very common type that used to be shaped like discs on legs as Through Hole but quickly became a Rectangular SMD part that is a tan little block soldered down on each end. These rarely fail and are very unlikely to be a cause of issues.

Specifications

For more information, see more on the full page: Capacitor Specifications

When looking at replacing a capacitor you need to determine the unique properties of it and try to get a replacement that is either as close as possible or better in some ways. The actual capacitance of the capacitor is the most important thing that you should look at first. You should try to get an exact match for that, which should be possible most of the time. If not, err for a higher value than the original. You usually won't have much of an issue with a slightly different capacitance because it has a tolerance rating that is frequently as high as +/- 20%. This means a capacitor rated at 100uF could be as low as 80uF or as high as 120uF. The tolerance isn't typically printed on the part, so going lower is usually the safer bet. There will be higher cost for this which is more related to the tolerance being a binning process rather than quality. The application of the part may also require a higher precision which you can read more about in the full section on tolerance. The voltage is a maximum rating that it can be used with. It is only acceptable to use a higher voltage part if an exact match cannot be found, but it is not preferable to get higher values as it affects the dielectric properties of the capacitor which can cause other changes over time. The ESR value can be thought of as a heat generation rating which matters mostly for AC voltage applications or rapidly changing DC voltages. The lower the ESR, the less heat will be generated when the voltage level of the capacitor changes, so generally less is better. The only way to know what the ESR is for a given capacitor is to identify its series and look up the data sheet or use a dedicated tool to measure it.

For more information, see more on the full page: Part Footprints

The shape and method of being attached to the PCB are part of the footprint of the capacitor. These have dimensions that will need to be measured, typically in millimeters, to find similarly sized parts.

Measuring

For more information, see more on the full page: Measuring Capacitance and ESR

Measuring the properties of a capacitor is not very straightforward and dedicated tools exist for this task. The principals behind the measurements are not complicated or proprietary and cheaper tools can work well for hobbyists. Some multimeters may have the capability to measure capacitance but the accuracy of these, even in higher end models, is not always good.

Measurements are made by charging and discharging a capacitor at different rates and timing how long it takes to reach a target voltage. The dedicated tools to do this automate the process at different frequencies at which capacitor manufacturers will rate the ESR of their capacitors.

Reforming

For more information, see more on the full page: Capacitor Reforming

Reforming capacitors is a process that is only needed on parts that have not been used in a long time. It is intended to rebuild the dielectric layer in electrolytic capacitors by slowly raising the voltage up to the rated maximum by limiting the current. This process cannot "repair" capacitors, but it can prevent them from being damaged by shorting when powered if they have sat and degraded over time.

Brands

For more information, see more on the full page: Capacitor Brands

There are a large number of capacitor manufacturers and not all of them are as well regarded. Rifa is one brand that has maligned themselves with the vintage computer community as their paper line filter capacitors have a tendency to explode.