1000pF ±10% 50V Ceramic Capacitor X7R 0805 (2012 Metric)
1000pF ±10% 50V Ceramic Capacitor X7R 0805 (2012 Metric)
1000pF ±10% 50V Ceramic Capacitor X7R 0805 (2012 Metric)
CAP CER 1000PF 50V X7R 0805 Product overview: GCM216R71H102KA37D 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 1000PF, 50V. Search-friendly keywords include capacitor, decoupling, filtering, ceramic, electrolytic, 1000PF, 50V, Ceramic Capacitors. This listing supports clearer product discovery for industrial, commercial, repair, automation, power, sensing, and embedded system projects. Product number 60-GCM216R71H102KA37
CAP CER 1000PF 50V X7R 0805
50V 1nF X7R ±10% 0805 Multilayer Ceramic Capacitors MLCC - SMD/SMT ROHS
| DigiKey | DigiKey | ERSAELECTRONICS PTE. LTD. | ODG (Origin Data Global) | LCSC Electronics Technology (HK) Limited | |
|---|---|---|---|---|---|
| Product Category | Capacitors | Capacitors | Capacitors | Capacitors | Capacitors |
| Product Number | 490-6057-2-ND | 490-6057-6-ND | 60-GCM216R71H102KA37D | GCM216R71H102KA37D | GCM216R71H102KA37D |
| Product Name | Ceramic Capacitors | Ceramic Capacitors | 1000PF 50V Capacitor | Ceramic Capacitors | Capacitors >> Multilayer Ceramic Capacitors MLCC - SMD/SMT |
| Configuration / Form Factor | Chip Capacitor | Chip Capacitor | Leaded Capacitor | Chip Capacitor; Surface Mount, MLCC | Chip Capacitor |
| Applications | Automotive | Automotive | Automotive | ||
| Operating Temperature | -55 to 125 C (-67 to 257 F) | -55 to 125 C (-67 to 257 F) | -55 to 125 C (-67 to 257 F) | -55 to 125 C (-67 to 257 F) | |
| Electrostatic Capacitors | Ceramic Composition | Ceramic Composition | Ceramic Composition | Ceramic Composition | Ceramic Composition |
| Capacitance Tolerance | 10 (+/- %) | 10 (+/- %) | 10 (+/- %) | 10 (+/- %) |