CAP FEEDTHRU 1UF 20% 6.3V 0402
Feed Through Capacitor
CAP FEEDTHRU 1UF 20% 6.3V 0402
CAP FEEDTHRU Product overview: NFM15PC105R0J3D from Murata Electronics is a Capacitor for filtering, decoupling, timing, energy storage, power supply smoothing, and signal conditioning. It is useful for engineers and buyers comparing datasheets, replacement parts, BOM lines, package options, lifecycle status, and procurement availability. Key searchable attributes include key electrical ratings, package details, and application requirements. Search-friendly keywords include capacitor, decoupling, filtering, ceramic, electrolytic, Feed Through Capacitors. This listing supports clearer product discovery for industrial, commercial, repair, automation, power, sensing, and embedded system projects. Product number 845-NFM15PC105R0J3D can be used for catalog matching and distributor lookup.
Manufacturer: Murata Electronics North America
Win Source Part Number: 733065-NFM15PC105R0J
Manufacturer Homepage: www.murata.com
Reference case: SMD
Reference Date Code: 1612+Rohs
Popularity: Low
Fake Threat In the Open Market: 89 pct.
Supply and Demand Status: Balance
Feedthrough Capacitors 0402 1.0Mohms
| DigiKey | DigiKey | ERSAELECTRONICS PTE. LTD. | Win Source Electronics | VAST STOCK CO., LIMITED | |
|---|---|---|---|---|---|
| Product Category | Capacitors | Capacitors | Capacitors | Capacitors | Capacitors |
| Product Number | 490-NFM15PC105R0J3DDKR-ND | 490-NFM15PC105R0J3DTR-ND | 845-NFM15PC105R0J3D | 733065-NFM15PC105R0J3D | NFM15PC105R0J3D |
| Product Name | Feed Through, Pass Through Capacitors | Feed Through, Pass Through Capacitors | Capacitor | Feed Through Capacitors - NFM15PC105R0J3D | Feedthrough Capacitors |
| Configuration / Form Factor | Leaded Capacitor; Chip Capacitor | Leaded Capacitor; Chip Capacitor | Leaded Capacitor | ||
| Operating Temperature | -55 to 85 C (-67 to 185 F) | -55 to 85 C (-67 to 185 F) | -55 to 85 C (-67 to 185 F) | ||
| Capacitance Range | 1 microF | 1 microF | 1 microF | ||
| Capacitance Tolerance | 20 (+/- %) | 20 (+/- %) | |||
| WVDC | 6.3 volts | 6.3 volts | 6.3 volts |