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TDK FG18C0G1H010CNT06 radial multilayer ceramic capacitor MLCC with 1pF capacitance, 50V rated voltage and ±0.25pF tolerance. With C0G/NP0 dielectric, THT/radial mounting and 2.5mm lead spacing, it is suitable for RF circuits, oscillators, filters, tuning and high-stability applications.
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The FG18C0G1H010CNT06 is a radial leaded multilayer ceramic capacitor MLCC from the TDK FG series, suitable for electronic applications where very low, stable capacitance and tight tolerance are required.
With a value of 1pF, 50VDC rated voltage, C0G/NP0 dielectric and ±0.25pF tolerance, this component is suitable for radio frequency circuits, oscillators, filters, resonant circuits, tuning, instrumentation, maintenance and electronic equipment repair.
C0G/NP0 ceramic technology is widely used in applications requiring good thermal stability, low losses and reliable behaviour at high frequencies. The radial package makes it easy to mount on printed circuit boards, prototyping boards and during electronic equipment repairs.
Main features
Multilayer ceramic capacitor MLCC
Manufacturer / brand: TDK
Family / series: FG
Part number: FG18C0G1H010CNT06
Capacitance: 1pF
Rated voltage: 50VDC
Tolerance: ±0.25pF
Dielectric: C0G / NP0
Class: Class 1
Mounting: radial / THT
Case style: dipped
Lead style: radial / inside bend
Lead spacing: 2.5mm
Approximate body dimensions: 5.5 x 4.0 x 2.5mm
Approximate lead diameter: 0.5mm
Minimum operating temperature: -55°C
Maximum operating temperature: +125°C
Packaging: Pack
RoHS: Yes
Non-polarized component
Status: NRND / not recommended for new designs
Suitable for precision, RF and stability applications
Recommended applications
RF circuits
Oscillators
Radio frequency filters
Resonant circuits
Tuning circuits
Low-capacitance coupling and decoupling
Capacitance compensation
Instrumentation
Communication equipment
Radio and electronic equipment repair
Electronic projects requiring a stable 1pF capacitor
Important note
Before use, always confirm the capacitance value, rated voltage, tolerance, dielectric, lead spacing and physical dimensions. The final selection must match the real circuit conditions, including voltage, frequency, temperature and available board space.