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topic:engineering:cryogenics:electronics:passive-components

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topic:engineering:cryogenics:electronics:passive-components [2021/02/24 21:06] samueltopic:engineering:cryogenics:electronics:passive-components [2021/03/23 22:08] (current) – [Capacitor] samuel
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 ====== Passive components at cryogenic temperatures ====== ====== Passive components at cryogenic temperatures ======
  
-===== Inductor =====+===== Resistor ===== 
 +Metal Thin Film resistors are very temperature stable. \cite{Homulle:2019}
  
 +^ Susumu, RR1220P-104-D | 100kOhm | \cite{Cahall.Gauthier.ea:2018}, \cite{Lamb:2014} |
 +^ Susumu, RR1220P-101-D | 100 Ohm | \cite{Cahall.Gauthier.ea:2018}, \cite{Lamb:2014} |
 +^ Vishay, FC0603E50R0BST1 | 50 Ohm | \cite{Homulle:2019} |
 +^ Panasonic ERA-3AEB4990V | 499 Ohm | \cite{Homulle:2019} |
 +
 +Literature:
 +  * Table of characterized components: \cite{Lamb:2014}
 +
 +===== Inductor =====
 +^ Epcos, B82496C3221J000 | 220nH | \cite{Cahall.Gauthier.ea:2018} |
 +^ Taiyo Yuden chip inductor (0402) | 2.28uH (1.37uH, 1 Ohm @ 4K) | \cite{Buchanan.Benford.ea:2012} |
 ===== Capacitor ===== ===== Capacitor =====
 +Foil capacitors (e.g. ECPU, ECHU and PPS) reduced their capacitance significantly at cryogenic temperatures. NP0 capacitors show little change of capacitance during cooling. \cite{Pan:2005}
 +
 +Below 1uF NP0/C0G and Acrylic Film are the way to go, above tantalum polymer capactitors.\cite{Homulle:2019}
  
-^ Kemet C0805C473J3GACTU | 0.047uF, Ceramic capacitor, used as decoupling capacitor, cold they have $\approx 11pF$ | \cite{PaqueletWuetz.Bavdaz.ea:2020} | +^ KemetC0805C473J3GACTU | 0.047uF, Ceramic capacitor, used as decoupling capacitor, cold they have $\approx 11pF$ | \cite{PaqueletWuetz.Bavdaz.ea:2020} | 
-^ Kemet C0603C153J3GACTU | 0.015µF, Ceramic capacitor, used as decoupling capacitor, cold they have $\approx 2pF$ | \cite{PaqueletWuetz.Bavdaz.ea:2020} |+^ KemetC0603C153J3GACTU | 0.015µF, Ceramic capacitor, used as decoupling capacitor, cold they have $\approx 2pF$ | \cite{PaqueletWuetz.Bavdaz.ea:2020} | 
 +^ Kemet, C0402C101J5GACTU | 100pF, Ceramic capacitor | \cite{PaqueletWuetz.Bavdaz.ea:2020} | 
 +^ Vishay Vitramon, VJ0603A101KXBAC31 | 100pF | \cite{Cahall.Gauthier.ea:2018} |
  
 +Literature:
 +  * Table of characterized components: \cite[Table 2.1]{Homulle:2019} Table 2.1
 + 
topic/engineering/cryogenics/electronics/passive-components.1614200788.txt.gz · Last modified: by samuel

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