Technical documents
Specifications
Brand
KYOCERA AVXCapacitance
220pF
Voltage
500V dc
Package/Case
1206 (3216M)
Mounting Type
Surface Mount
Dielectric
C0G
Tolerance
±5%
Dimensions
3.2 x 1.6 x 1.27mm
Length
3.2mm
Depth
1.6mm
Height
1.27mm
Series
Standard
Minimum Operating Temperature
-55°C
Terminal Type
Surface Mount
Maximum Operating Temperature
+125°C
Product details
AVX 1206 MLCC Series
X7R formulations are called temperature stable ceramics and fall into EIA Class II materials, and COG (NPO) is the most popular temperature-compensating EIA Class I ceramic materials
Multilayer Ceramic Capacitors whose temperature variation is within ±15% from -55°C to +125°C
The capacitance change is non-linear
AVX high voltage chips have advantages of high value, low leakage and small size, thus applications include as snubbers in high frequency power converters, resonators in SMPS and high voltage coupling/DC blocking
These high voltage chip designs exhibit low ESRs at high frequencies
1206 Range
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£ 0.10
Each (On a Reel of 3000) (ex VAT)
3000
£ 0.10
Each (On a Reel of 3000) (ex VAT)
3000
Technical documents
Specifications
Brand
KYOCERA AVXCapacitance
220pF
Voltage
500V dc
Package/Case
1206 (3216M)
Mounting Type
Surface Mount
Dielectric
C0G
Tolerance
±5%
Dimensions
3.2 x 1.6 x 1.27mm
Length
3.2mm
Depth
1.6mm
Height
1.27mm
Series
Standard
Minimum Operating Temperature
-55°C
Terminal Type
Surface Mount
Maximum Operating Temperature
+125°C
Product details
AVX 1206 MLCC Series
X7R formulations are called temperature stable ceramics and fall into EIA Class II materials, and COG (NPO) is the most popular temperature-compensating EIA Class I ceramic materials
Multilayer Ceramic Capacitors whose temperature variation is within ±15% from -55°C to +125°C
The capacitance change is non-linear
AVX high voltage chips have advantages of high value, low leakage and small size, thus applications include as snubbers in high frequency power converters, resonators in SMPS and high voltage coupling/DC blocking
These high voltage chip designs exhibit low ESRs at high frequencies