Tekninen dokumentti
Tekniset tiedot
Merkki
PanasonicTeknologia
Polymer
Capacitance
100µF
Voltage
6.3V dc
Mounting Type
Surface Mount
Package/Case
D2
Equivalent Series Resistance
45mΩ
Tolerance
±20%
Length
7.3mm
Depth
4.3mm
Height
1.9mm
Dimensions
7.3 x 4.3 x 1.9mm
Series
POSCAP TPC
Maximum Operating Temperature
+105°C
Electrolyte Type
Solid
Tolerance Plus
+20%
Minimum Operating Temperature
-55°C
Terminal Type
Surface Mount
Tolerance Minus
-20%
Leakage Current
63 μA
Tuotetiedot
POSCAP TPC series
Panasonic TPC series tantalum capacitors are part of the POSCAP range. Constructed from sintered tantalum as the anode material, the large surface area of the porous materials enables large capacitance. High in electric conductivity, the conductive polymer utilised for the electrolyte enables low ESR. TPC tantalum capacitors have high heat resistance and reliability making them suitable for high frequency and digital devices.
Varastotiedot eivät ole tilapäisesti saatavilla.
Tarkista myöhemmin uudelleen.
€ 0,33
1 kpl (5 kpl/pakkaus) (ilman ALV)
€ 0,409
1 kpl (5 kpl/pakkaus) (Sis ALV:n)
Standardi
5
€ 0,33
1 kpl (5 kpl/pakkaus) (ilman ALV)
€ 0,409
1 kpl (5 kpl/pakkaus) (Sis ALV:n)
Standardi
5
Tekninen dokumentti
Tekniset tiedot
Merkki
PanasonicTeknologia
Polymer
Capacitance
100µF
Voltage
6.3V dc
Mounting Type
Surface Mount
Package/Case
D2
Equivalent Series Resistance
45mΩ
Tolerance
±20%
Length
7.3mm
Depth
4.3mm
Height
1.9mm
Dimensions
7.3 x 4.3 x 1.9mm
Series
POSCAP TPC
Maximum Operating Temperature
+105°C
Electrolyte Type
Solid
Tolerance Plus
+20%
Minimum Operating Temperature
-55°C
Terminal Type
Surface Mount
Tolerance Minus
-20%
Leakage Current
63 μA
Tuotetiedot
POSCAP TPC series
Panasonic TPC series tantalum capacitors are part of the POSCAP range. Constructed from sintered tantalum as the anode material, the large surface area of the porous materials enables large capacitance. High in electric conductivity, the conductive polymer utilised for the electrolyte enables low ESR. TPC tantalum capacitors have high heat resistance and reliability making them suitable for high frequency and digital devices.