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当前位置首页 » 新闻资讯 » ECS发布具有里程碑意义的高性能SMD振荡器ECS-3953M-120-BN-TR

ECS发布具有里程碑意义的高性能SMD振荡器ECS-3953M-120-BN-TR

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扫一扫!ECS发布具有里程碑意义的高性能SMD振荡器ECS-3953M-120-BN-TR扫一扫!
浏览:- 发布日期:2022-10-22 16:49:36【

ECS发布具有里程碑意义的高性能SMD振荡器ECS-3953M-120-BN-TR,美国ECS晶振公司一路成长可谓是十分精彩,同时也说明其对于自身的目标感极度清晰,拥有极强的执行能力,能够通过自身的实力在晶体行业占据领先的位置,针对市场现状开发这款时钟晶振编码ECS-3953M-120-BN-TR,ECS-3951M-BN (5V)和ECS-3953M-BN (3.3V)工业级(-40 ~ 85°C)微型SMD振荡器。适合今天的适用于高温范围。

ECX-32 23ECS发布具有里程碑意义的高性能SMD振荡器ECS-3953M-120-BN-TR今天的许多技术都要求有源晶振晶体器件产生稳定的时钟参考信号以获得最佳性能。在这些设计中,需要对晶体进行补偿,以尽量减少宽的温度波动对晶体频率的影响。当与适当的芯片组结合时,热敏电阻晶体精确温度补偿可以提供非常紧密的频率稳定。这使它们成为精密应用的理想选择,并作为tcxo的合适替代品。

Manufacturer Part Number原厂代码 振荡器 Series型号 Frequency 频率 Operating Temperature     工作温度
ECS-1633-060-BN-TR ECS晶振 ECS-1633 6MHz -40°C ~ 85°C
ECS-1633-060-BN-TR ECS晶振 ECS-1633 6MHz -40°C ~ 85°C
ECS-1633-060-BN-TR ECS晶振 ECS-1633 6MHz -40°C ~ 85°C
ECS-327KE-TR ECS晶振 ECS-327KE 32.768kHz -40°C ~ 85°C
ECS-327KE-TR ECS晶振 ECS-327KE 32.768kHz -40°C ~ 85°C
ECS-327KE-TR ECS晶振 ECS-327KE 32.768kHz -40°C ~ 85°C
ECS-3953M-120-BN-TR ECS晶振 ECS-3953M-BN 12MHz -40°C ~ 85°C
ECS-3953M-120-BN-TR ECS晶振 ECS-3953M-BN 12MHz -40°C ~ 85°C
ECS-3953M-120-BN-TR ECS晶振 ECS-3953M-BN 12MHz -40°C ~ 85°C
ECS-3953M-400-BN-TR ECS晶振 ECS-3953M-BN 40MHz -40°C ~ 85°C
ECS-3953M-400-BN-TR ECS晶振 ECS-3953M-BN 40MHz -40°C ~ 85°C
ECS-3953M-400-BN-TR ECS晶振 ECS-3953M-BN 40MHz -40°C ~ 85°C
ECS-3953M-080-BN-TR ECS晶振 ECS-3953M-BN 8MHz -40°C ~ 85°C
ECS-3953M-080-BN-TR ECS晶振 ECS-3953M-BN 8MHz -40°C ~ 85°C
ECS-3953M-080-BN-TR ECS晶振 ECS-3953M-BN 8MHz -40°C ~ 85°C
ECS-3953M-036-BN-TR ECS晶振 ECS-3953M-BN 3.6864MHz -40°C ~ 85°C
ECS-3953M-036-BN-TR ECS晶振 ECS-3953M-BN 3.6864MHz -40°C ~ 85°C
ECS-3953M-036-BN-TR ECS晶振 ECS-3953M-BN 3.6864MHz -40°C ~ 85°C
ECS晶振通过将晶体和热敏电阻集成在同一个密封封装中,与传统的分离晶体和温度传感器相比,您获得了几个优点。首先,接近给出实时晶体温度反馈。它还可以减少零件数量,节省电路板空间,简化电路设计。这些具有集成热敏电阻的晶体提供了明显更好的温度稳定性性能。

The ECS-3951M-BN (5V) and ECS-3953M-BN (3.3V) Industrial Grade (-40 ~ 85°C) miniature SMD oscillators. Ideal for today’s high temperature range applications.
Many of today’s technologies require crystal devices to produce a stable clock reference signal for optimum performance. In these designs, a need to compensate the crystal to minimize the effect that wide temperature swings have on the crystal frequency. When combined with an appropriate chipset, a thermistor crystals precision temperature compensation can offer very tight frequency stabilities. This makes them ideal for precision applications and as suitable replacements for TCXOs.

By combining the crystal and thermistor integrally in the same hermetically sealed package you get several advantages over traditional separate crystal and temp sensor. First proximity gives real time crystal temperature feedback. It also minimizes part count, saving board space and simplifying circuit design. These crystals with integral thermistors offer significantly better stability over temperature performance.