Tehnička dokumentacija
Tehnički podaci
Proizvođač
PanasonicCapacitance
1000µF
Voltage
10V dc
Mounting Type
Surface Mount
Technology
Aluminium Electrolytic
Dimensions
8 (Dia.) x 10.2mm
Depth
10.2mm
Minimum Operating Temperature
-55°C
Diameter
8mm
Maximum Operating Temperature
+105°C
Lead Pitch
3.1mm
Lifetime
5000h
Equivalent Series Resistance
0.08Ω
Ripple Current
850mArms
Automotive Standard
AEC-Q200
Series
FT SMD
Polarised
Polar
Leakage Current
≤0.01 CV μA
Tolerance
±20%
Dissipation Factor
0.19%
Zemlja podrijetla
Japan
Detalji o proizvodu
FT High Temperature Reflow Series
Panasonic FT Series Type V capacitors offer a miniaturised solution and low ESR. They are one size smaller than the Panasonic FK Series. These electrolytic capacitors feature excellent endurance of 2000 hours at +105°C. FT Type V surface mount capacitors can withstand high reflow temperatures for extended periods.
Informacije o stanju skladišta trenutno nisu dostupne.
Provjerite ponovno kasnije.
€ 0,57
komadno (u pakiranju od 5) (bez PDV-a)
€ 0,712
komadno (u pakiranju od 5) (s PDV-om)
Standard
5
€ 0,57
komadno (u pakiranju od 5) (bez PDV-a)
€ 0,712
komadno (u pakiranju od 5) (s PDV-om)
Standard
5
Tehnička dokumentacija
Tehnički podaci
Proizvođač
PanasonicCapacitance
1000µF
Voltage
10V dc
Mounting Type
Surface Mount
Technology
Aluminium Electrolytic
Dimensions
8 (Dia.) x 10.2mm
Depth
10.2mm
Minimum Operating Temperature
-55°C
Diameter
8mm
Maximum Operating Temperature
+105°C
Lead Pitch
3.1mm
Lifetime
5000h
Equivalent Series Resistance
0.08Ω
Ripple Current
850mArms
Automotive Standard
AEC-Q200
Series
FT SMD
Polarised
Polar
Leakage Current
≤0.01 CV μA
Tolerance
±20%
Dissipation Factor
0.19%
Zemlja podrijetla
Japan
Detalji o proizvodu
FT High Temperature Reflow Series
Panasonic FT Series Type V capacitors offer a miniaturised solution and low ESR. They are one size smaller than the Panasonic FK Series. These electrolytic capacitors feature excellent endurance of 2000 hours at +105°C. FT Type V surface mount capacitors can withstand high reflow temperatures for extended periods.