微型SMD晶体控制振荡器非常适合用于可视智能家居ECS-3963-120-AU-TR
微型SMD晶体控制振荡器非常适合用于可视智能家居ECS-3963-120-AU-TR,在选择的过程之中,大多数企业的走向都决定了公司未来的发展,ECS公司选择了一条少有人走的路,不断克服自身的问题点,针对性给出完美的解决方案,使得其在晶体行业拥有更多机会,发布这款ECS-3963-120-AU-TR,是一款贴片有源晶振,ECS-3961 (5V)和ECS-3963 (3.3V)微型SMD晶体控制振荡器。包装用金属盖焊缝焊接。
Manufacturer Part Number原厂代码 | 欧美晶振 | Series型号 | Frequency 频率 | Operating Temperature 工作温度 |
ECS-3963-400-AU-TR | ECS晶振 | ECS-3963 | 40MHz | -55°C ~ 125°C |
ECS-3963-400-AU-TR | ECS晶振 | ECS-3963 | 40MHz | -55°C ~ 125°C |
ECS-2033-160-AU | ECS晶振 | ECS-2033 | 16MHz | -55°C ~ 125°C |
ECS-2033-160-AU | ECS晶振 | ECS-2033 | 16MHz | -55°C ~ 125°C |
ECS-2033-160-AU | ECS晶振 | ECS-2033 | 16MHz | -55°C ~ 125°C |
ECS-3963-120-AU-TR | ECS晶振 | ECS-3963 | 12MHz | -55°C ~ 125°C |
ECS-3963-120-AU-TR | ECS晶振 | ECS-3963 | 12MHz | -55°C ~ 125°C |
ECS-3963-120-AU-TR | ECS晶振 | ECS-3963 | 12MHz | -55°C ~ 125°C |
ECS-3961-250-AU-TR | ECS晶振 | ECS-3961 | 25MHz | -55°C ~ 125°C |
ECS-3961-250-AU-TR | ECS晶振 | ECS-3961 | 25MHz | -55°C ~ 125°C |
ECS-3961-250-AU-TR | ECS晶振 | ECS-3961 | 25MHz | -55°C ~ 125°C |
ECS-3963-040-AU-TR | ECS晶振 | ECS-3963 | 4MHz | -55°C ~ 125°C |
ECS-3963-040-AU-TR | ECS晶振 | ECS-3963 | 4MHz | -55°C ~ 125°C |
ECS-3963-040-AU-TR | ECS晶振 | ECS-3963 | 4MHz | -55°C ~ 125°C |
ECS-2033-100-AU | ECS晶振 | ECS-2033 | 10MHz | -55°C ~ 125°C |
ECS-2033-100-AU | ECS晶振 | ECS-2033 | 10MHz | -55°C ~ 125°C |
ECS-2033-100-AU | ECS晶振 | ECS-2033 | 10MHz | -55°C ~ 125°C |
ECS-3961-018-AU-TR | ECS晶振 | ECS-3961 | 1.8432MHz | -55°C ~ 125°C |
ECS-3961-018-AU-TR | ECS晶振 | ECS-3961 | 1.8432MHz | -55°C ~ 125°C |
通过将晶体和热敏电阻集成在同一个密封封装中,与传统的单独晶体和温度传感器相比,您可以获得多项优势。首先,热敏电阻接近提供实时晶体温度反馈。它还最大限度地减少了零件数量,节省了电路板空间并简化了电路设计。与标准非补偿晶体相比,这些带有集成热敏电阻的晶体提供了明显更好的温度稳定性。简而言之,与标准晶体或有源晶体振荡器相比,热敏电阻晶体可用于将温度稳定性提高 20 倍以上。
ECS-3961 (5V) and ECS-3963 (3.3V) miniature SMD crystal controlled oscillators. Package is seam welded with a metal lid
Many of today's technologies require crystal devices to generate a stable clock reference signal for optimal performance. In these systems, crystals need to be compensated to minimize the effect of temperature variations on crystal frequencies. When used in combination with the appropriate chipset, thermistor crystal precision temperature compensation can provide very strict frequency stability. This makes them ideal for precision applications and a viable alternative to TCXO.
By integrating crystals and thermistors in the same sealed package, you gain several advantages over traditional separate crystals and temperature sensors. First, the thermistor approach provides real-time crystal temperature feedback. It also minimizes the number of parts, saves board space and simplifies circuit design. These crystals with integrated thermistors provide significantly better temperature stability than standard uncompensated crystals. In short, thermistor crystals can be used to increase temperature stability by more than 20 times compared to standard crystals or oscillators.
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