Tehnička dokumentacija
Tehnički podaci
Brand
PanasonicTechnology
Polymer
Capacitance
100µF
Dielectric Material Family
Tantalum
Voltage
6.3V dc
Mounting Type
Surface Mount
Package/Case
B1G
Tolerance
±20%
Length
3.5mm
Depth
2.8mm
Height
1.1mm
Maximum Operating Temperature
+105°C
Dimensions
3.5 x 2.8 x 1.1mm
Series
POSCAP TPG
Electrolyte Type
Solid
Minimum Operating Temperature
-55°C
Leakage Current
63 μA
Zemlja podrijetla
Indonesia
Detalji o proizvodu
POSCAP TPG series
Panasonic TPG 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 up to 220 μF. High in electric conductivity, the conductive polymer utilised for the electrolyte enables low ESR. TPG tantalum capacitors have high heat resistance and reliability making them suitable for high frequency and digital devices.
Informacije o stanju skladišta trenutno nisu dostupne.
Proverite ponovno kasnije.
RSD 147,617
komad (u Reel od 2500) (bez PDV-a)
RSD 177,14
komad (u Reel od 2500) (s PDV-om)
2500
RSD 147,617
komad (u Reel od 2500) (bez PDV-a)
RSD 177,14
komad (u Reel od 2500) (s PDV-om)
2500
Tehnička dokumentacija
Tehnički podaci
Brand
PanasonicTechnology
Polymer
Capacitance
100µF
Dielectric Material Family
Tantalum
Voltage
6.3V dc
Mounting Type
Surface Mount
Package/Case
B1G
Tolerance
±20%
Length
3.5mm
Depth
2.8mm
Height
1.1mm
Maximum Operating Temperature
+105°C
Dimensions
3.5 x 2.8 x 1.1mm
Series
POSCAP TPG
Electrolyte Type
Solid
Minimum Operating Temperature
-55°C
Leakage Current
63 μA
Zemlja podrijetla
Indonesia
Detalji o proizvodu
POSCAP TPG series
Panasonic TPG 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 up to 220 μF. High in electric conductivity, the conductive polymer utilised for the electrolyte enables low ESR. TPG tantalum capacitors have high heat resistance and reliability making them suitable for high frequency and digital devices.