KYOCERA AVX 100nF MLCC, 600 V dc, 630 V dc V, ±10% , SMD

RS kataloški broj:: 135-0201robna marka: KYOCERA AVXProizvođački broj:: 1812CC104KAZ2A
brand-logo

Tehnička dokumentacija

Tehnički podaci

Capacitance

100nF

Voltage

600 V dc, 630 V dc

Package/Case

1812 (4532M)

Mounting Type

Surface Mount

Dielectric

X7R

Tolerance

±10%

Dimensions

4.5 x 3.2 x 2.8mm

Length

4.5mm

Depth

3.2mm

Height

2.8mm

Maximum Operating Temperature

+125°C

Minimum Operating Temperature

-55°C

Terminal Type

Surface Mount

Detalji o proizvodu

AVX 1812 Series X7R Dielectric Capacitors

AVX X7R dielectric series capacitors are temperature stable capacitors and fall into the EIA Class II materials. Temperature variation of capacitance is within ±15% from -55°C to +125°C. This
Capacitance change is non-linear. X7R dielectric chip usage covers the broad spectrum of industrial applications where known changes in capacitance due to applied voltages are acceptable.

Informacije o stanju skladišta trenutno nisu dostupne.

Provjerite ponovno kasnije.

Informacije o stanju skladišta trenutno nisu dostupne.

P.O.A.

KYOCERA AVX 100nF MLCC, 600 V dc, 630 V dc V, ±10% , SMD

P.O.A.

KYOCERA AVX 100nF MLCC, 600 V dc, 630 V dc V, ±10% , SMD
Informacije o stanju skladišta trenutno nisu dostupne.

Tehnička dokumentacija

Tehnički podaci

Capacitance

100nF

Voltage

600 V dc, 630 V dc

Package/Case

1812 (4532M)

Mounting Type

Surface Mount

Dielectric

X7R

Tolerance

±10%

Dimensions

4.5 x 3.2 x 2.8mm

Length

4.5mm

Depth

3.2mm

Height

2.8mm

Maximum Operating Temperature

+125°C

Minimum Operating Temperature

-55°C

Terminal Type

Surface Mount

Detalji o proizvodu

AVX 1812 Series X7R Dielectric Capacitors

AVX X7R dielectric series capacitors are temperature stable capacitors and fall into the EIA Class II materials. Temperature variation of capacitance is within ±15% from -55°C to +125°C. This
Capacitance change is non-linear. X7R dielectric chip usage covers the broad spectrum of industrial applications where known changes in capacitance due to applied voltages are acceptable.