Tehnička dokumentacija
Tehnički podaci
Brand
KEMETTechnology
Polymer
Capacitance
1mF
Voltage
2.5V dc
Dielectric Material Family
Aluminium
Mounting Type
Through Hole
Equivalent Series Resistance
12mΩ
Lead Pitch
3.5mm
Tolerance
±20%
Depth
8mm
Maximum Operating Temperature
+105°C
Height
8mm
Dimensions
8 (Dia) x 8mm
Series
A750
Electrolyte Type
Solid
Ripple Current
5.7A
Minimum Operating Temperature
-55°C
Dissipation Factor
12%
Diameter
8mm
Polarised
Polar
Leakage Current
500 μA
Lifetime
2000h
Zemlja podrijetla
China
Detalji o proizvodu
KEMET A750 Series
The KEMET A750 Series Surface Mount Conductive Polymer Aluminium Solid Electrolytic capacitors are designed for greater stability and longer life across a wide range of temperatures. The polymer capacitors are highly conductive generating less heat internally during operation. It includes low ESR properties, high ripple capability and open failure mode.
Informacije o stanju skladišta trenutno nisu dostupne.
Provjerite ponovno kasnije.
€ 0,21
Each (In a Pack of 10) (bez PDV-a)
€ 0,246
Each (In a Pack of 10) (s PDV-om)
10
€ 0,21
Each (In a Pack of 10) (bez PDV-a)
€ 0,246
Each (In a Pack of 10) (s PDV-om)
10
Tehnička dokumentacija
Tehnički podaci
Brand
KEMETTechnology
Polymer
Capacitance
1mF
Voltage
2.5V dc
Dielectric Material Family
Aluminium
Mounting Type
Through Hole
Equivalent Series Resistance
12mΩ
Lead Pitch
3.5mm
Tolerance
±20%
Depth
8mm
Maximum Operating Temperature
+105°C
Height
8mm
Dimensions
8 (Dia) x 8mm
Series
A750
Electrolyte Type
Solid
Ripple Current
5.7A
Minimum Operating Temperature
-55°C
Dissipation Factor
12%
Diameter
8mm
Polarised
Polar
Leakage Current
500 μA
Lifetime
2000h
Zemlja podrijetla
China
Detalji o proizvodu
KEMET A750 Series
The KEMET A750 Series Surface Mount Conductive Polymer Aluminium Solid Electrolytic capacitors are designed for greater stability and longer life across a wide range of temperatures. The polymer capacitors are highly conductive generating less heat internally during operation. It includes low ESR properties, high ripple capability and open failure mode.