CMOS输出可编程晶振X1G005301003100应用于车载数码设备
爱普生晶振公司1942年成立以来一直活跃在晶振领域,注重自主品牌的建设,掌握自主研制,定制,实现全套的晶振工艺技术流程,拥有可编程晶振技术的自主技术专利和产品线,能够为客户提供全国产化晶振解决方案.
爱普生晶振SG-9101系列是具有CMOS输出的可编程晶振系列。虽然这一系列提供了与早期类似的频率和其它参数的同样容易的可编程性Epson产品,它们还具有更宽的工作温度范围,上限为105℃。此外 这款振荡器采用2.5x2.0mm封装,有助于电子制造商节省电路板空间,同时还提供以下常见封装尺寸:3.2x2.5mm、5.0x3.2mm和7.0x5.0mm石英晶振。 用户可以使用Epson SG-Writer II(单独销售)将产品编程为所需的输出频率以及所需的扩频设置。 这也将大大有助于提高性能、降低功耗要求、缩短开发周期和实现小批量生产。该产品被广泛应用于钟表、数码产品、车载数码设备、手机、对讲机、数码相机、MID平板电脑,光电技术等通讯设备及各种频率控制设备
特征:
扩频晶体振荡器(可编程)
输出频率:0.67MHz至170MHz (1x10-6步进)
输出:CMOS
电源电压:1.62V至3.63V
可配置的扩频设置:2种摊铺类型,6种摊铺宽度,4种调制频率,3种扩频模式
CMOS输出可编程晶振X1G005301003100应用于车载数码设备
产品编码 | 贴片晶振 | 型号 | 尺寸(长宽高) | 输出波 | 电源电压 | 工作温度 |
X1G005301001100 | 66.666000MHz | SG-9101CA | 7.00x5.00x1.40mm | CMOS | 1.620 to 3.630V | -40 to 85°C |
X1G005301001200 | 40.000000MHz | SG-9101CA | 7.00x5.00x1.40mm | CMOS | 1.620 to 3.630V | -40 to 85°C |
X1G005301001300 | 40.000000MHz | SG-9101CA | 7.00x5.00x1.40mm | CMOS | 1.620 to 3.630V | -40 to 85°C |
X1G005301001400 | 16.000000MHz | SG-9101CA | 7.00x5.00x1.40mm | CMOS | 1.620 to 3.630V | -40 to 85°C |
X1G005301001500 | 20.000000MHz | SG-9101CA | 7.00x5.00x1.40mm | CMOS | 1.620 to 3.630V | -40 to 85°C |
X1G005301001600 | 48.000000MHz | SG-9101CA | 7.00x5.00x1.40mm | CMOS | 1.620 to 3.630V | -40 to 105°C |
X1G005301001700 | 64.100000MHz | SG-9101CA | 7.00x5.00x1.40mm | CMOS | 1.620 to 3.630V | -40 to 105°C |
X1G005301001800 | 16.000000MHz | SG-9101CA | 7.00x5.00x1.40mm | CMOS | 1.620 to 3.630V | -40 to 85°C |
X1G005301001900 | 82.000000MHz | SG-9101CA | 7.00x5.00x1.40mm | CMOS | 1.620 to 3.630V | -40 to 105°C |
X1G005301002000 | 50.000000MHz | SG-9101CA | 7.00x5.00x1.40mm | CMOS | 1.620 to 3.630V | -40 to 85°C |
X1G005301002100 | 30.000000MHz | SG-9101CA | 7.00x5.00x1.40mm | CMOS | 1.620 to 3.630V | -40 to 85°C |
X1G005301002200 | 66.000000MHz | SG-9101CA | 7.00x5.00x1.40mm | CMOS | 1.620 to 3.630V | -40 to 85°C |
X1G005301002300 | 50.000000MHz | SG-9101CA | 7.00x5.00x1.40mm | CMOS | 1.620 to 3.630V | -40 to 85°C |
X1G005301002400 | 66.660000MHz | SG-9101CA | 7.00x5.00x1.40mm | CMOS | 1.620 to 3.630V | -40 to 85°C |
X1G005301002500 | 40.000000MHz | SG-9101CA | 7.00x5.00x1.40mm | CMOS | 1.620 to 3.630V | -40 to 85°C |
X1G005301002600 | 33.333300MHz | SG-9101CA | 7.00x5.00x1.40mm | CMOS | 1.620 to 3.630V | -40 to 85°C |
X1G005301002700 | 66.000000MHz | SG-9101CA | 7.00x5.00x1.40mm | CMOS | 1.620 to 3.630V | -40 to 85°C |
X1G005301002800 | 32.768000MHz | SG-9101CA | 7.00x5.00x1.40mm | CMOS | 1.620 to 3.630V | -40 to 105°C |
X1G005301002900 | 66.666700MHz | SG-9101CA | 7.00x5.00x1.40mm | CMOS | 1.620 to 3.630V | -40 to 85°C |
X1G005301003000 | 32.000000MHz | SG-9101CA | 7.00x5.00x1.40mm | CMOS | 1.620 to 3.630V | -40 to 85°C |
X1G005301003100 | 25.000000MHz | SG-9101CA | 7.00x5.00x1.40mm | CMOS | 1.620 to 3.630V | -40 to 105°C |
X1G005301003200 | 40.000000MHz | SG-9101CA | 7.00x5.00x1.40mm | CMOS | 1.620 to 3.630V | -40 to 85°C |
X1G005301003300 | 75.000000MHz | SG-9101CA | 7.00x5.00x1.40mm | CMOS | 1.620 to 3.630V | -40 to 85°C |
X1G005301003400 | 50.000000MHz | SG-9101CA | 7.00x5.00x1.40mm | CMOS | 1.620 to 3.630V | -40 to 85°C |
X1G005301003500 | 25.000000MHz | SG-9101CA | 7.00x5.00x1.40mm | CMOS | 1.620 to 3.630V | -40 to 85°C |
X1G005301003600 | 13.500000MHz | SG-9101CA | 7.00x5.00x1.40mm | CMOS | 1.620 to 3.630V | -40 to 85°C |
X1G005301003700 | 14.745600MHz | SG-9101CA | 7.00x5.00x1.40mm | CMOS | 1.620 to 3.630V | -40 to 85°C |
X1G005301003800 | 44.000000MHz | SG-9101CA | 7.00x5.00x1.40mm | CMOS | 1.620 to 3.630V | -40 to 85°C |
X1G005301003900 | 48.000000MHz | SG-9101CA | 7.00x5.00x1.40mm | CMOS | 1.620 to 3.630V | -40 to 85°C |
X1G005301004000 | 20.000000MHz | SG-9101CA | 7.00x5.00x1.40mm | CMOS | 1.620 to 3.630V | -40 to 85°C |
X1G005301004100 | 40.000000MHz | SG-9101CA | 7.00x5.00x1.40mm | CMOS | 1.620 to 3.630V | -40 to 85°C |
X1G005301004200 | 13.560000MHz | SG-9101CA | 7.00x5.00x1.40mm | CMOS | 1.620 to 3.630V | -40 to 85°C |
X1G005301004300 | 156.250000MHz | SG-9101CA | 7.00x5.00x1.40mm | CMOS | 1.620 to 3.630V | -40 to 105°C |
X1G005301004400 | 66.666600MHz | SG-9101CA | 7.00x5.00x1.40mm | CMOS | 1.620 to 3.630V | -40 to 85°C |
X1G005301004500 | 29.491200MHz | SG-9101CA | 7.00x5.00x1.40mm | CMOS | 1.620 to 3.630V | -40 to 85°C |
X1G005301004600 | 19.660000MHz | SG-9101CA | 7.00x5.00x1.40mm | CMOS | 1.620 to 3.630V | -40 to 105°C |
X1G005301004700 | 12.000000MHz | SG-9101CA | 7.00x5.00x1.40mm | CMOS | 1.620 to 3.630V | -40 to 85°C |
X1G005301004800 | 50.000000MHz | SG-9101CA | 7.00x5.00x1.40mm | CMOS | 1.620 to 3.630V | -40 to 85°C |
X1G005301004900 | 60.000000MHz | SG-9101CA | 7.00x5.00x1.40mm | CMOS | 1.620 to 3.630V | -40 to 85°C |
X1G005301005000 | 2.000000MHz | SG-9101CA | 7.00x5.00x1.40mm | CMOS | 1.620 to 3.630V | -40 to 85°C |
X1G005301005100 | 160.000000MHz | SG-9101CA | 7.00x5.00x1.40mm | CMOS | 1.620 to 3.630V | -40 to 85°C |
X1G005301005200 | 29.461200MHz | SG-9101CA | 7.00x5.00x1.40mm | CMOS | 1.620 to 3.630V | -40 to 85°C |
可编程晶振,很多人依然陌生的一头雾水,其实在各种精密的电子仪器上,可编程晶振已得到广泛的应用了。在普及可编程晶振的时候,也有人对这款‘新型产品’有不少的知识盲区,例如可编程晶振无源和有源晶振都会烧录吗?可编程现在被普及且广泛使用的只有有源晶振,因为可编程晶振可定制所以支持封装标准也较多,从国际封装QFN封装到7050、5032、3225、2520甚至更小的2016,客户都可以按需选择,同理也支持1.8V、 2.5V、2.8V、3.0V、3.3V等多种工作电压匹配。还有客户会把可编程晶振和温补晶振混淆,其实可编程晶振内部集成了温度补偿电路,本身也具备温度自动补偿功能。
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