日本进口爱普生晶振SG3225EEN,小体积晶振尺寸3.2x2.5mm有源晶振,是一款小体积六脚贴片晶振,频率范围可提供25M~200MHZ任一频点,2.5V,3.3V具有低电源电压,满足产品低消耗电流的特点,LV-PECL晶振,具有低电平,低抖动,低功耗等特性.差分晶振作为目前行业中高要求,高技术石英晶体振荡器,具有相位低,损耗低的特点,该产品中能够很容易地识别小信号,能够从容精确地处理双级信号,对外部电磁干扰(EMI)是高度免疫的,差分石英晶振满足市场需求,实现高频高精度等要求,更加保障了各种系统参考时钟的可靠性。
SG3225EEN晶振编码X1G005221000200差分晶振具有低消耗电流的特点
Product Number
Model
EPSON晶振
LxWxH
Output Wave
Supply Voltage
X1G005221000100
SG3225EEN
100.000000 MHz
3.20 x 2.50 x 1.20 mm
LV-PECL
3.135 to 3.465 V
X1G005221000200
SG3225EEN
125.000000 MHz
3.20 x 2.50 x 1.20 mm
LV-PECL
3.135 to 3.465 V
X1G005221000300
SG3225EEN
125.003125 MHz
3.20 x 2.50 x 1.20 mm
LV-PECL
3.135 to 3.465 V
X1G005221000400
SG3225EEN
155.520000 MHz
3.20 x 2.50 x 1.20 mm
LV-PECL
3.135 to 3.465 V
X1G005221000500
SG3225EEN
156.250000 MHz
3.20 x 2.50 x 1.20 mm
LV-PECL
3.135 to 3.465 V
X1G005221000700
SG3225EEN
156.253906 MHz
3.20 x 2.50 x 1.20 mm
LV-PECL
3.135 to 3.465 V
X1G005221000800
SG3225EEN
156.250000 MHz
3.20 x 2.50 x 1.20 mm
LV-PECL
3.135 to 3.465 V
X1G005221001300
SG3225EEN
100.000000 MHz
3.20 x 2.50 x 1.20 mm
LV-PECL
3.135 to 3.465 V
X1G005221001400
SG3225EEN
200.000000 MHz
3.20 x 2.50 x 1.20 mm
LV-PECL
3.135 to 3.465 V
X1G005221001800
SG3225EEN
100.000000 MHz
3.20 x 2.50 x 1.20 mm
LV-PECL
3.135 to 3.465 V
X1G005221001900
SG3225EEN
50.000000 MHz
3.20 x 2.50 x 1.20 mm
LV-PECL
3.135 to 3.465 V
X1G005221002100
SG3225EEN
125.000000 MHz
3.20 x 2.50 x 1.20 mm
LV-PECL
3.135 to 3.465 V
X1G005221002300
SG3225EEN
25.000000 MHz
3.20 x 2.50 x 1.20 mm
LV-PECL
3.135 to 3.465 V
X1G005221002400
SG3225EEN
166.015625 MHz
3.20 x 2.50 x 1.20 mm
LV-PECL
3.135 to 3.465 V
X1G005221002800
SG3225EEN
156.250000 MHz
3.20 x 2.50 x 1.20 mm
LV-PECL
3.135 to 3.465 V
X1G005221003000
SG3225EEN
25.000000 MHz
3.20 x 2.50 x 1.20 mm
LV-PECL
3.135 to 3.465 V
X1G005221003100
SG3225EEN
50.000000 MHz
3.20 x 2.50 x 1.20 mm
LV-PECL
3.135 to 3.465 V
X1G005221003200
SG3225EEN
160.000000 MHz
3.20 x 2.50 x 1.20 mm
LV-PECL
3.135 to 3.465 V
X1G005221003300
SG3225EEN
200.000000 MHz
3.20 x 2.50 x 1.20 mm
LV-PECL
3.135 to 3.465 V
X1G005221003400
SG3225EEN
125.000000 MHz
3.20 x 2.50 x 1.20 mm
LV-PECL
3.135 to 3.465 V
X1G005221003600
SG3225EEN
54.000000 MHz
3.20 x 2.50 x 1.20 mm
LV-PECL
3.135 to 3.465 V
SG3225EEN晶振编码X1G005221000200差分晶振具有低消耗电流的特点
X1G005221003700
SG3225EEN
100.000000 MHz
3.20 x 2.50 x 1.20 mm
LV-PECL
3.135 to 3.465 V
X1G005221003800
SG3225EEN
25.000625 MHz
3.20 x 2.50 x 1.20 mm
LV-PECL
3.135 to 3.465 V
X1G005221003900
SG3225EEN
170.016000 MHz
3.20 x 2.50 x 1.20 mm
LV-PECL
3.135 to 3.465 V
X1G005221004200
SG3225EEN
163.387607 MHz
3.20 x 2.50 x 1.20 mm
LV-PECL
3.135 to 3.465 V
X1G005221004300
SG3225EEN
25.000000 MHz
3.20 x 2.50 x 1.20 mm
LV-PECL
3.135 to 3.465 V
X1G005221004400
SG3225EEN
100.000000 MHz
3.20 x 2.50 x 1.20 mm
LV-PECL
3.135 to 3.465 V
X1G005221004800
SG3225EEN
156.250000 MHz
3.20 x 2.50 x 1.20 mm
LV-PECL
3.135 to 3.465 V
X1G005221005100
SG3225EEN
100.000000 MHz
3.20 x 2.50 x 1.20 mm
LV-PECL
3.135 to 3.465 V
X1G005221005400
SG3225EEN
146.370000 MHz
3.20 x 2.50 x 1.20 mm
LV-PECL
3.135 to 3.465 V
X1G005221005500
SG3225EEN
150.000000 MHz
3.20 x 2.50 x 1.20 mm
LV-PECL
3.135 to 3.465 V
X1G005221005600
SG3225EEN
155.520000 MHz
3.20 x 2.50 x 1.20 mm
LV-PECL
3.135 to 3.465 V
X1G005221100100
SG3225EEN
100.000000 MHz
3.20 x 2.50 x 1.20 mm
LV-PECL
2.375 to 2.625 V
X1G005221100200
SG3225EEN
125.000000 MHz
3.20 x 2.50 x 1.20 mm
LV-PECL
2.375 to 2.625 V
X1G005221100300
SG3225EEN
156.250000 MHz
3.20 x 2.50 x 1.20 mm
LV-PECL
2.375 to 2.625 V
X1G005221100500
SG3225EEN
156.250000 MHz
3.20 x 2.50 x 1.20 mm
LV-PECL
2.375 to 2.625 V
X1G005221100700
SG3225EEN
156.250000 MHz
3.20 x 2.50 x 1.20 mm
LV-PECL
2.375 to 2.625 V
X1G005221100800
SG3225EEN
156.253906 MHz
3.20 x 2.50 x 1.20 mm
LV-PECL
2.375 to 2.625 V
X1G005221101000
SG3225EEN
50.000000 MHz
3.20 x 2.50 x 1.20 mm
LV-PECL
2.375 to 2.625 V
SG3225EEN晶振编码X1G005221000200差分晶振具有低消耗电流的特点
差分晶振具有低电平,低抖动,低功耗等特性.差分晶振作为目前行业中高要求、高技术石英晶体振荡器,具有相位低、损耗低的特点.差分贴片晶体振荡器使用于产品中能够很容易地识别小信号,能够从容精确地处理'双极'信号,对外部电磁干扰(EMI)是高度免疫的.
5G会成倍增加通信流量。5G通信网络需要高速和宽带,同时将噪声水平保持在最低水平。这可以通过用于通信设备的高频低抖动参考时钟来实现。使用上述XO,客户可以从基模晶体输入相位抖动和功率极低的高频参考(最高500 MHz ),以实现出色的相位噪声。