手机版
X1G005291013200具有低抖动和低功耗以及耐高温高压等特点
随着现在各种精密的电子仪器上开始应用可编程晶振,可编程晶振实为有源晶振,石英可编程(Q MEMS)具有高稳定、高精度等优越性能的石英材料[QUARTZ]和[MEMS]组合而成的造词,以石英为原料进行精微加工(光刻)并可以提供的小型化、高性能的晶体元器件被称为[Q MEMS]
日本进口爱普生晶振SG-9101系列,是一款可编程晶体振荡器,支持CMOS电平输出,频率范围0.67MHz至170MHz,电源电压1.62V至3.63V,提供以下常见封装尺寸:2.5x2.0mm,3.2x2.5mm、5.0x3.2mm和7.0x5.0mm,四脚贴片晶振,有源晶振,具有小体积轻薄型,低抖动、低功耗、耐高温、高压、高湿、抗震性能好,被广泛用于钟表电子、数码产品、车载数码、智能手机、对讲机、数码相机、MID平板电脑、光电技术及各种变频调速设备等通讯设备。
X1G005291013200具有低抖动和低功耗以及耐高温高压等特点,可编程晶振
             产品编码
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  频率
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  石英晶振
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  尺寸(长宽高)
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  输出波
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  电源电压
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  工作温度
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| X1G005291001100 | 27.000000 MHz | SG-9101CG | 2.50x2.00x0.80mm | CMOS | 1.620 to 3.630 V | -40 to 105 °C |
| X1G005291001200 | 42.539760 MHz | SG-9101CG | 2.50x2.00x0.80mm | CMOS | 1.620 to 3.630 V | -40 to 85 °C |
| X1G005291001300 | 33.333300 MHz | SG-9101CG | 2.50x2.00x0.80mm | CMOS | 1.620 to 3.630 V | -40 to 85 °C |
| X1G005291001400 | 46.495960 MHz | SG-9101CG | 2.50x2.00x0.80mm | CMOS | 1.620 to 3.630 V | -40 to 85 °C |
| X1G005291001500 | 59.700000 MHz | SG-9101CG | 2.50x2.00x0.80mm | CMOS | 1.620 to 3.630 V | -40 to 85 °C |
| X1G005291001600 | 20.000000 MHz | SG-9101CG | 2.50x2.00x0.80mm | CMOS | 1.620 to 3.630 V | -40 to 85 °C |
| X1G005291001700 | 33.333330 MHz | SG-9101CG | 2.50x2.00x0.80mm | CMOS | 1.620 to 3.630 V | -40 to 85 °C |
| X1G005291001800 | 70.000000 MHz | SG-9101CG | 2.50x2.00x0.80mm | CMOS | 1.620 to 3.630 V | -40 to 85 °C |
| X1G005291001900 | 33.333300 MHz | SG-9101CG | 2.50x2.00x0.80mm | CMOS | 1.620 to 3.630 V | -40 to 85 °C |
| X1G005291002000 | 16.000000 MHz | SG-9101CG | 2.50x2.00x0.80mm | CMOS | 1.620 to 3.630 V | -40 to 85 °C |
| X1G005291002100 | 48.000000 MHz | SG-9101CG | 2.50x2.00x0.80mm | CMOS | 1.620 to 3.630 V | -40 to 85 °C |
| X1G005291002200 | 27.000000 MHz | SG-9101CG | 2.50x2.00x0.80mm | CMOS | 1.620 to 3.630 V | -40 to 105 °C |
| X1G005291002300 | 27.000000 MHz | SG-9101CG | 2.50x2.00x0.80mm | CMOS | 1.620 to 3.630 V | -40 to 105 °C |
| X1G005291002400 | 25.000000 MHz | SG-9101CG | 2.50x2.00x0.80mm | CMOS | 1.620 to 3.630 V | -40 to 85 °C |
| X1G005291002500 | 49.152000 MHz | SG-9101CG | 2.50x2.00x0.80mm | CMOS | 1.620 to 3.630 V | -40 to 105 °C |
| X1G005291002600 | 37.125000 MHz | SG-9101CG | 2.50x2.00x0.80mm | CMOS | 1.620 to 3.630 V | -40 to 105 °C |
| X1G005291012700 | 19.660000 MHz | SG-9101CG | 2.50x2.00x0.80mm | CMOS | 1.620 to 3.630 V | -40 to 105 °C |
| X1G005291012800 | 32.768000 MHz | SG-9101CG | 2.50x2.00x0.80mm | CMOS | 1.620 to 3.630 V | -40 to 105 °C |
| X1G005291012900 | 66.666666 MHz | SG-9101CG | 2.50x2.00x0.80mm | CMOS | 1.620 to 3.630 V | -40 to 105 °C |
| X1G005291013000 | 33.333333 MHz | SG-9101CG | 2.50x2.00x0.80mm | CMOS | 1.620 to 3.630 V | -40 to 105 °C |
| X1G005291013100 | 66.600000 MHz | SG-9101CG | 2.50x2.00x0.80mm | CMOS | 1.620 to 3.630 V | -40 to 85 °C |
| X1G005291013200 | 26.666670 MHz | SG-9101CG | 2.50x2.00x0.80mm | CMOS | 1.620 to 3.630 V | -40 to 85 °C |
| X1G005291013300 | 9.059600 MHz | SG-9101CG | 2.50x2.00x0.80mm | CMOS | 1.620 to 3.630 V | -40 to 105 °C |
| X1G005291013400 | 62.500000 MHz | SG-9101CG | 2.50x2.00x0.80mm | CMOS | 1.620 to 3.630 V | -40 to 85 °C |
| X1G005291013500 | 10.000000 MHz | SG-9101CG | 2.50x2.00x0.80mm | CMOS | 1.620 to 3.630 V | -40 to 85 °C |
| X1G005291013600 | 66.660000 MHz | SG-9101CG | 2.50x2.00x0.80mm | CMOS | 1.620 to 3.630 V | -40 to 85 °C |
| X1G005291013700 | 6.333000 MHz | SG-9101CG | 2.50x2.00x0.80mm | CMOS | 1.620 to 3.630 V | -40 to 85 °C |
| X1G005291013800 | 9.500000 MHz | SG-9101CG | 2.50x2.00x0.80mm | CMOS | 1.620 to 3.630 V | -40 to 85 °C |
| X1G005291013900 | 15.000000 MHz | SG-9101CG | 2.50x2.00x0.80mm | CMOS | 1.620 to 3.630 V | -40 to 85 °C |
| X1G005291014000 | 10.000000 MHz | SG-9101CG | 2.50x2.00x0.80mm | CMOS | 1.620 to 3.630 V | -40 to 85 °C |
| X1G005291014100 | 62.500000 MHz | SG-9101CG | 2.50x2.00x0.80mm | CMOS | 1.620 to 3.630 V | -40 to 85 °C |
| X1G005291014200 | 62.600000 MHz | SG-9101CG | 2.50x2.00x0.80mm | CMOS | 1.620 to 3.630 V | -40 to 85 °C |
在购买和选择具体品牌的可编程晶振之前自然应该了解下其特性,其中不可忽视的就是很多晶振都要面对的气密性问题,因为可编程晶振是采用全自动化的半导体工艺打造的,所以完全不存在气密性问题,而且还具备永不停振的优势。很多人容易把可编程晶振和温补晶振弄混淆,其实就是因为可编程晶振本身也具备温度自动补偿功能,除此之外低抖动和低功耗以及耐高温高压等特点让其成为手机对讲机以及数码相机等各种精密设备中不可缺少的器件。
