RFT50X-60DW0906-6G 贴片终端电阻(RFT50X-60DW0906-6G Surface Mount Terminations)
■标称阻值(Standard Resistance):50Ω
■基片材料(Substrate Material): BeO、AlN、Al₂O₃
■阻值公差(Resistance Tolerance): ±5%;±2%;
■额定功率(Power Rating): 5~500W
■频率(Frequency): DC~3、6、18GHz
■工作温度(Operating Temperature):-55~+150℃
■温度系数(Temperature Coefficient):<150ppm/°C
■定制特性(Customization Features ):Customizable
■符合RoHS(RoHS Compliant)
RFT50X-60DW0906-6G 、 RFT50-10DJ2550-4G 、 RFT50-10DW2550-4G 、 RFT50-10DJ0404-3G 、 RFT50A-10DW0404-4G 、 RFT50-10DW5025-XG 、 RFT50A-16DJ2550-4G 、 RFT50-20DJ2550-4G 、 RFT50-20DW2550-4G 、 RFT50-20DW5025-XG 、 RFT50-20DJ0404-XG 、 RFT50-20DW0404-XG 、 RFT50-30DJ2550 、 RFT50-30DW2550 、 RFT50-30DJ0404-XG 、 RFT50-30DW0404-XG 、 RFT50-30DJ0606 、 RFT50-60DW0606-XG 、 RFT50-60DJ0606-4G 、 RFT50-60DJ6363 、 RFT50-60DW6363 、 RFT50-100DJ6363 、 RFT50-100DW0906-4G 、 RFT50-150DW0906-4G 、 RFT50-150DW6395-4G 、 RFT50-150DW9595 、 RFT50-250DW1010 、 RFT50-250DW1210 、 RFT50-300DW1210 、 RFT50-400DW127127 、 RFT50-500DW127127 |
|
|
|
Datasheet |
|
|
|
Please see the document for details |
|
|
|
|
|
|
|
English Chinese Chinese and English Japanese |
|
2020/2/3 |
|
|
|
|
|
347 KB |
- +1 Like
- Add to Favorites
Recommend
- Nxp Licenses Advanced TMR Sensor Technology From Crocus Technology
- What is 5G Technology and Where Will 5G Technology be Applied
- Introduction to Through-hole Technology (THT) And Surface-mount Technology (SMT)
- KYOCERA‘s Ultra-Precise Plasma Processing Technology Wins Japan‘s 2021 Science and Technology Award
- Crocus Technology Acquired by Allegro MicroSystems to Accelerate Innovation in TMR Sensing Technology
- Based on Capacitive Coupling Technology, NOVOSENSE Capacitance Isolation Technology to Easily Solve Power Problems
- ROHM‘s Latest Technology Towards Achieving a Sustainable Society: Nano Energy™ Ultra-Low Current Consumption Technology
- The First Conference and Innovation Technology Forum of Hubei Province Vehicle Regulation Chip Industry Technology Innovation Consortium in 2023 was successfully held in Wuhan
All reproduced articles on this site are for the purpose of conveying more information and clearly indicate the source. If media or individuals who do not want to be reproduced can contact us, which will be deleted.