好吊视的一区二区三区现频-fc2成年免费共享视频-丝袜高跟内射丝袜高跟-日韩性感美女视频二区-亚洲国产精品久久久久婷婷9-在线成人日韩国产人妻-一区二区三区四区不卡久久-亚洲第一男人网站视频-污污一区二区在线观看

全球首家上百萬進(jìn)口晶振代理商

深圳市康華爾電子有限公司

國際進(jìn)口晶振品牌首選康華爾

首頁 行業(yè)資訊

高精度的SMD振蕩器深受智能家居應(yīng)用的追棒ECS-8FMX-080-T

2022-10-20 11:46:54 

高精度的SMD振蕩器深受智能家居應(yīng)用的追棒ECS-8FMX-080-T,在比較石英和 MEMS 的頻率與溫度穩(wěn)定性時。您會看到基于石英貼片晶振的振蕩器遵循 AT 晶體的連續(xù)三次曲線,并在 -40°C ~ +85°C 范圍內(nèi)達(dá)到 ±25 ppm,這對于大多數(shù)應(yīng)用來說已經(jīng)足夠了。

查看 MEMS 圖,它似乎具有更好的頻率與溫度特性,但如果仔細(xì)觀察,您會發(fā)現(xiàn)該圖顯示了在調(diào)整 PLL 分頻比以補(bǔ)償溫度變化時引起的頻率跳躍。這會導(dǎo)致顯著的頻率跳躍,以補(bǔ)償 MEMS 諧振器的顯著頻率漂移(30 ppm/°C 或 3750 ppm -40°C ~ +85°C)

Manufacturer Part Number原廠代碼 Manufacturer品牌 Series型號 Frequency 頻率 Operating Temperature 工作溫度
ECS-8FM-024-TR ECS晶振 ECS-8F 2.4576MHz -40°C ~ 85°C
ECS-8FM-143-TR ECS晶振 ECS-8F 14.31818MHz -40°C ~ 85°C
ECS-8FM-143-TR ECS晶振 ECS-8F 14.31818MHz -40°C ~ 85°C
ECS-8FM-143-TR ECS晶振 ECS-8F 14.31818MHz -40°C ~ 85°C
ECS-8FMX-080-TR ECS晶振 ECS-8FX 8MHz -40°C ~ 85°C
ECS-8FMX-080-TR ECScrystal晶振
 ECS-8FX 8MHz -40°C ~ 85°C
ECS-8FMX-080-TR ECS晶振 ECS-8FX 8MHz -40°C ~ 85°C
ECS-8FA3X-245.7-TR ECS晶振 ECS-8FX 24.576MHz -40°C ~ 85°C
ECS-8FA3X-245.7-TR ECS晶振 ECS-8FX 24.576MHz -40°C ~ 85°C
ECS-8FA3X-245.7-TR ECS晶振 ECS-8FX 24.576MHz -40°C ~ 85°C
ECS-8FM-040-TR ECS晶振 ECS-8F 4MHz -40°C ~ 85°C
ECS-8FM-040-TR ECS晶振 ECS-8F 4MHz -40°C ~ 85°C
ECS-8FM-040-TR ECS晶振 ECS-8F 4MHz -40°C ~ 85°C
ECS-8FMX-040-TR ECS晶振 ECS-8FX 4MHz -40°C ~ 85°C
ECS-8FMX-040-TR ECS晶振 ECS-8FX 4MHz -40°C ~ 85°C
ECS-8FMX-040-TR ECS晶振 ECS-8FX 4MHz -40°C ~ 85°C
高精度的SMD振蕩器深受智能家居應(yīng)用的追棒ECS-8FMX-080-TECS利用自身優(yōu)勢開發(fā)這款有源晶振ECS-8FMX-080-TR,ECS-8FMX (5V)和ECS-8FA3X (3.3V)是CMOS兼容的j引線SMD振蕩器。8F系列采用了低功耗CMOS集成電路的成本效益包適合回流焊接。

石英在溫度范圍內(nèi)比 MEMS 更穩(wěn)定,并提供高“Q”性能?;谑⒌恼袷幤鞑恍枰捎脺囟妊a(bǔ)償來在所需溫度范圍內(nèi)保持低至 ±10 ppm 的穩(wěn)定性。如果需要更好的穩(wěn)定性,您可以向石英晶體振蕩器添加溫度補(bǔ)償,并在整個溫度范圍內(nèi)獲得低至 0.5 ppm 的穩(wěn)定性。

ECS-8FMX-500-TR 17When comparing the Frequency vs. Temperature stability of quartz and MEMS. You see that the quartz-based oscillator follows the continuous cubic curve of an AT crystal and achieves ±25 ppm from -40°C ~ +85°C, which is good enough for most applications.

Looking at the MEMS plot it appears to have better frequency vs. temperature characteristics, but if you look closely you can see that the plot shows frequency jumps caused when the PLL division ratio is adjusted to compensate for changes in temperature. This causes significant Frequency jumps in order to compensate for the considerable frequency drift of the MEMS resonator (30 ppm/°C or 3750 ppm -40°C ~ +85°C)

Quartz is much more stable over temperature than MEMS and offers high “Q” performance. The quartz-based oscillator does not need to employ temperature compensation to maintain stabilities as low as ±10 ppm over the required temperature range. If better stabilities are required, you can add temperature compensation to a quartz oscillator and get stabilities as low as 0.5 ppm over temperature.

網(wǎng)友點評