Details, datasheet, quote on part number: MA7120
PartMA7120
CategoryDiscrete => Diodes & Rectifiers => Zener Diodes
DescriptionV<SUB>Z</SUB>(V) = 4.80 to 5.40 ;; Package = DO-41-A1
CompanyPanasonic Industrial Company/Electronic Components
DatasheetDownload MA7120 datasheet
Cross ref.Similar parts: MAZ7120
  

 

Features, Applications

Large power dissipation Ptot (800 mW) Allowing to supply with the radial taping
Parameter Repetitive peak forward current Total power dissipation
Non-repetitive reverse surge power dissipation *2 Junction temperature Storage temperature
Note) *1: Ptot 800 mW achieved with a printed circuit board = 100 s, = 150C

Parameter Forward voltage Zener voltage*2 Symbol IZ VR Specified value Specified value Specified value Specified value Specified value Refer to the list of the electrical characteristics within part numbers Conditions Min Typ Max 1.0 Unit V A mV/C pF

Zener operating resistance Reverse current Temperature coefficient of zener voltage*3 Terminal capacitance

Note) 1. Rated input/output frequency: 5 MHz *1 : The VZ value is for the temperature 25C. In other cases, carry out the temperature compensation. *2 : Guaranteed 20 ms after power application. to 150C

Note) The part number in the parenthesis shows conventional part number.





s Electrical characteristics within part numbers (continued) = 25C

Zener voltage Part number Min MAZ7560 VZ (V) Max IZ (mA) 10 Reverse current IR (A) VR Max (V) 5 15 Zener operating resistance RZ IZ Max (mA) 20 10 Temperature Terminal coefficient of capacitance zener voltage SZ (mV/C) IZ Typ (mA) 18.6 10


Orange Blue Orange White Yellow Orange Yellow Purple Green Brown Green Blue

 

Related products with the same datasheet
MA7056
MA7062
MA7068
MA7075
MA7082
MA7091
MA7100
MA7110
MA7130
MA7150
MA7160
Some Part number from the same manufacture Panasonic Industrial Company/Electronic Components
MA713 VRM(V) = 30 ;; IF(mA) = 30 ;; VFmax.(V) = 0.4 ;; IR(µA) = 1 ;; Package = Mini4-G1
MA7130 VZ(V) = 4.80 to 5.40 ;; Package = DO-41-A1
MA714 VRM(V) = 30 ;; IF(mA) = 30 ;; VFmax.(V) = 0.4 ;; IR(µA) = 1 ;; Package = Mini4-G1
MA715 VRM(V) = 30 ;; IF(mA) = 30 ;; VFmax.(V) = 0.3 ;; IR(µA) = 1 ;; Package = Mini3-G1
MA7150 VZ(V) = 4.80 to 5.40 ;; Package = DO-41-A1
MA716 VRM(V) = 30 ;; IF(mA) = 30 ;; VFmax.(V) = 0.4 ;; IR(µA) = 1 ;; Package = Mini3-G1
MA7160 VZ(V) = 4.80 to 5.40 ;; Package = DO-41-A1
MA717 VRM(V) = 30 ;; IF(mA) = 30 ;; VFmax.(V) = 0.3 ;; IR(µA) = 30 ;; Package = Mini3-G1
MA717WA
MA718 VRM(V) = 30 ;; IF(mA) = 30 ;; VFmax.(V) = 0.4 ;; IR(µA) = 1 ;; Package = Mini6-G1
MA7180 VZ(V) = 4.80 to 5.40 ;; Package = DO-41-A1
MA719 VRM(V) = 40 ;; IF(mA) = 500 ;; VFmax.(V) = 0.55 ;; IR(µA) = 100 ;; Package = DO-34-A1
MA720
MA7200 VZ(V) = 4.80 to 5.40 ;; Package = DO-41-A1
MA721 VRM(V) = 30 ;; IF(mA) = 200 ;; VFmax.(V) = 0.55 ;; IR(µA) = 50 ;; Package = Mini3-G1
MA721WA
MA7220 VZ(V) = 4.80 to 5.40 ;; Package = DO-41-A1
MA723 VRM(V) = 30 ;; IF(mA) = 200 ;; VFmax.(V) = 0.55 ;; IR(µA) = 15 ;; Package = DO-34-A1
MA724
MA7240 VZ(V) = 4.80 to 5.40 ;; Package = DO-41-A1
MA726 VRM(V) = 30 ;; IF(mA) = 200 ;; VFmax.(V) = 0.55 ;; IR(µA) = 50 ;; Package = Mini4-G1
 
0-C     D-L     M-R     S-Z