====== Kondensator ======
Ein Kondensator ist ein passives Bauelement, das elektrische Ladung speichern kann. Er besteht aus zwei leitfähigen Flächen, die durch ein isolierenden Dielektrikum getrennt sind.
Je nach Material des Dielektrikums unterscheidet man verschiedene Typen:
  * Keramikkondensatoren
  * Folienkondensatoren
  * Elektrolytkondensatoren (Elkos)
  * Tantalkondensatoren




===== Links =====
==== Allgemein ====
  * [[http://www.iequalscdvdt.com/index.html|CapSite - Introduction to Capacitors]]
  * [[http://www.radio-electronics.com/info/data/capacitor/capacitor_types.php|Capacitor types and their uses]]
  * [[https://web.archive.org/web/20140408081711/http://my.execpc.com/~endlr/index.html|Introduction To Capacitors (via Wayback Machine)]]
  * [[https://www.edn.com/wp-content/uploads/2016/11/1982-10-13_EDN_Pease-capacitor-soakage.pdf|Understand Capacitor Soakage to Optimize Analog Systems (Bob Pease)]]
  * [[http://electronicdesign.com/power/passive-components-aren-t-really-so-passive-part-1-capacitors|Passive Components Aren’t Really So Passive (Part 1): Capacitors]]
  * [[http://cds.linear.com/docs/en/application-note/an88f.pdf|Ceramic Input Capacitors Can Cause Overvoltage Transients (Appnote AN88 Linear)]] auch Vergleich mit anderen Kondensatortypen
  * [[https://www.analog.com/media/en/training-seminars/design-handbooks/Basic-Linear-Design/Chapter10.pdf|Linear Circuit Design Handbook (Chapter 10)]]
  * [[https://www.yumpu.com/en/document/read/43350979/why-47-uf-capacitor-drops-to-37-uf-30-uf-and-lower-eca-digital-|Why that 47 uF capacitor drops to 37 uF, 30 uF, or lower (Kemet)]]

==== Elkos ====
  * [[http://www.cde.com/catalogs/AEappGUIDE.pdf|Appnote zu Elkos]] oder [[http://web.archive.org/web/20131110001709/http://electrochem.cwru.edu/encycl/misc/c04-appguide.pdf|Mirror (via Wayback Machine, mit anderem Layout)]]
  * [[http://jianghai-america.com/uploads/technology/JIANGHAI_Elcap_Lifetime_-_Estimation_AAL.pdf|Electrolytic Capacitor Lifetime Estimation]]
  * [[https://de.wikipedia.org/wiki/Capacitor_Plague|Capacitor Plague]] Kondensatorpest oder Bad Caps

==== Folienkondensatoren ====
  * [[http://www.mikrocontroller.net/topic/264347#2748845|Unterschiede zwischen verschiedenen Folientypen]]
  * [[https://www.wima.de/wp-content/uploads/media/WIMA-Application-Guide.pdf|Application Guide (WIMA)]]

==== Tantalkondensator ====
  * [[http://www.efo-power.ru/BROSHURES_CATALOGS/Kemet/F3100_TaLdPerChar.pdf|Application Note for Tantalum Capacitors]]
  * [[https://www.kyocera-avx.com/docs/techinfo/VoltageDeratingRulesforSolidTantalumandNiobiumCapacitors.pdf|Voltage derating rules for solid tantalum and niobium capacitors]]

==== Keramikkondensatoren ====
  * [[http://www.edn.com/design/analog/4402049/1/Temperature-and-voltage-variation-of-ceramic-capacitors--or-why-your-4-7--F-capacitor-becomes-a-0-33--F-capacitor|Temp and voltage variation of ceramic caps, or why your 4.7-uF part becomes 0.33 uF]]
  * [[http://www.murata.com/~/media/webrenewal/support/library/catalog/products/capacitor/mlcc/c02e.ashx|Hinweise zu Rating und Befestigung]] ab Seite 159

==== Entkopplungskondensatoren ====
  * [[info/EMV#Entkopplungskondensatoren|Entkopplungskondensatoren]]