6G物联网应用晶振TL602-024.576M温补晶振模型符合ITU-T G.8262

ConnorWinfieldCrystal Announces New TCXO model for compliance to ITU-T G.8262

Aurora, IL – The TL602 and ML602 are temperature compensated crystal oscillator (TCXO) models designed specifically to be used in conjunction with a 0.1 Hz (and higher ) filter bandwidths for compliance with T1-based hierarchy specifications such as ITU-T G.8262 Option 1 and 2 ECC and ITU-T G.813 Option 1 and 2 SEC, Stratum 3 for Sonet, IEEE1588 and Synchronous Ethernet. CW’s TCXO line utilizes analog temperature compensation for excellent short term stability characteristics. The TL602 and ML602 TCXOs maintain 280ppb pk-pk frequency stability over the industrial temperature range of -40 to +85C. They are also excellent frequency reference choices for small cell, wireless and instrumentation applications.

6G物联网应用晶振TL602-024.576M温补晶振模型符合ITU-T G.8262

Features:
• Available Frequencies are 10MHz, 12.8MHz, 19.2 MHz, 19.44MHz, 20 MHz and 24.576MHz.
• LVCMOS or Clipped sine
• Fixed output or Voltage control
• Meets MTIE and TDEV masks measured at .1Hz bandwidth
• Short term stability 1x10-10 performance
• 280 ppb peak to peak temperature stability over full industrial temp range.
• Sub-300ps jitter performance over 12kHz-20MHz band
• Life time accuracy of +/- 4.6 ppm
• Full ROHS and REACH compliance
• 7x5mm (TL602) or 5x3.2mm (ML602) packaging options

Connor-Winfield晶振宣布新的TCXO模型符合ITU-T G.8262

伊利诺伊州奥罗拉–TL 602和ML602是温度补偿晶体振荡器(TCXO)型号，专门设计用于0.1 Hz (及更高)滤波器带宽，符合基于T1的层次规范例如ITU-T G.8262选项1和2 ECC以及ITU-T G.813选项1和2 SEC， Sonet、IEEE1588和同步以太网的第三层。CW的TCXO线利用模拟温度补偿提供出色的短期稳定特性。 TL602和ML602 TCXO温补晶振在整个范围内保持280ppb峰峰值频率稳定性工业温度范围为-40℃至+85℃。它们也是小型蜂窝、无线和仪器仪表应用。

6G物联网应用晶振TL602-024.576M温补晶振模型符合ITU-T G.8262

特点：
•可用频率为10MHz、12.8MHz、19.2 MHz、19.44MHz、20 MHz和24.576MHz。
•LVCMOS或削波正弦
•固定输出或电压控制有源晶体
•满足在.1Hz带宽下测量的MTIE和TDEV屏蔽
•短期稳定性1x10-10性能
•在整个工业温度范围内280 ppb的峰间温度稳定性。
•在12kHz-20MHz频带上具有低于300ps的抖动性能
•寿命精度为+/-4.6 ppm
•完全符合ROHS和REACH
•7x5mm（TL602）或5x3.2mm（ML602）封装选项

晶振料号	品牌	型号	频率	工作温度	包装/封装
T602-025.0M	ConnorWinfield晶振	T6	25MHz	-40°C ~ 85°C	10-SMD, No Lead
T602-020.0M	ConnorWinfield晶振	T6	20MHz	-40°C ~ 85°C	10-SMD, No Lead
T602-010.0M	ConnorWinfield晶振	T6	10MHz	-40°C ~ 85°C	10-SMD, No Lead
T604-020.0M	ConnorWinfield晶振	T6	20MHz	-40°C ~ 85°C	10-SMD, No Lead
T604-030.72M	ConnorWinfield晶振	T6	30.72MHz	-40°C ~ 85°C	10-SMD, No Lead
TB522-100.0M	ConnorWinfield晶振	TB	100MHz	0°C ~ 70°C	10-SMD, No Lead
T604-012.8M	ConnorWinfield晶振	T6	12.8MHz	-40°C ~ 85°C	10-SMD, No Lead
T605-030.72M	ConnorWinfield晶振	T6	30.72MHz	-40°C ~ 85°C	10-SMD, No Lead
T604-010.0M	ConnorWinfield晶振	T6	10MHz	-40°C ~ 85°C	10-SMD, No Lead
T602-030.72M	ConnorWinfield晶振	T6	30.72MHz	-40°C ~ 85°C	10-SMD, No Lead
T602-019.44M	ConnorWinfield晶振	T6	19.44MHz	-40°C ~ 85°C	10-SMD, No Lead
T602-038.88M	ConnorWinfield晶振	T6	38.88MHz	-40°C ~ 85°C	10-SMD, No Lead
T602-019.2M	ConnorWinfield晶振	T6	19.2MHz	-40°C ~ 85°C	10-SMD, No Lead
T100F-010.0M	ConnorWinfield晶振	T100/200	10MHz	0°C ~ 70°C	10-SMD, No Lead
T100F-020.0M	ConnorWinfield晶振	T100/200	20MHz	0°C ~ 70°C	10-SMD, No Lead
T200F-040.0M	ConnorWinfield晶振	T200	40MHz	-40°C ~ 85°C	10-SMD, No Lead
TB602-038.88M	ConnorWinfield晶振	TB	38.88MHz	-40°C ~ 85°C	10-SMD, No Lead
TB512-052.0M	ConnorWinfield晶振	TB	52MHz	0°C ~ 70°C	10-SMD, No Lead
TB522-080.0M	ConnorWinfield晶振	TB	80MHz	0°C ~ 70°C	10-SMD, No Lead
TB524-100.0M	康纳温菲尔德晶振	TB	100MHz	0°C ~ 70°C	10-SMD, No Lead
TB512-050.0M	ConnorWinfield晶振	TB	50MHz	0°C ~ 70°C	10-SMD, No Lead
TL602-024.576M	ConnorWinfield晶振	TL602	24.576MHz	-40°C ~ 85°C	10-SMD, No Lead
TB602-049.152M	ConnorWinfield晶振	TB	49.152MHz	-40°C ~ 85°C	10-SMD, No Lead
T200F-020.0M	ConnorWinfield晶振	T200	20MHz	-40°C ~ 85°C	10-SMD, No Lead
T604-040.0M	ConnorWinfield晶振	T6	40MHz	-40°C ~ 85°C	10-SMD, No Lead
T100V-012.8M	ConnorWinfield晶振	T100/200	12.8MHz	0°C ~ 70°C	10-SMD, No Lead
T100V-020.0M	ConnorWinfield晶振	T100/200	20MHz	0°C ~ 70°C	10-SMD, No Lead
T200F-024.576M	ConnorWinfield晶振	T200	24.576MHz	-40°C ~ 85°C	10-SMD, No Lead
T200F-010.0M	ConnorWinfield晶振	T200	10MHz	-40°C ~ 85°C	10-SMD, No Lead
TL602-020.0M	ConnorWinfield晶振	TL602	20MHz	-40°C ~ 85°C	10-SMD, No Lead
TB514-052.0M	ConnorWinfield晶振	TB	52MHz	0°C ~ 70°C	10-SMD, No Lead
TB514-054.0M	ConnorWinfield晶振	TB	54MHz	0°C ~ 70°C	10-SMD, No Lead
TB524-080.0M	ConnorWinfield晶振	TB	80MHz	0°C ~ 70°C	10-SMD, No Lead
TB512-054.0M	ConnorWinfield晶振	TB	54MHz	0°C ~ 70°C	10-SMD, No Lead
T604-019.44M	ConnorWinfield晶振	T6	19.44MHz	-40°C ~ 85°C	10-SMD, No Lead
T100F-019.2M	ConnorWinfield晶振	T100/200	19.2MHz	0°C ~ 70°C	10-SMD, No Lead
T100V-019.2M	ConnorWinfield晶振	T100/200	19.2MHz	0°C ~ 70°C	10-SMD, No Lead
T604-025.0M	ConnorWinfield晶振	T6	25MHz	-40°C ~ 85°C	10-SMD, No Lead
T604-038.88M	ConnorWinfield晶振	T6	38.88MHz	-40°C ~ 85°C	10-SMD, No Lead
TB514-050.0M	ConnorWinfield晶振	TB	50MHz	0°C ~ 70°C	10-SMD, No Lead
T100V-010.0M	ConnorWinfield晶振	T100/200	10MHz	0°C ~ 70°C	10-SMD, No Lead
T100F-012.8M	ConnorWinfield晶振	T100/200	12.8MHz	0°C ~ 70°C	10-SMD, No Lead
T602-040.0M	ConnorWinfield晶振	T6	40MHz	-40°C ~ 85°C	10-SMD, No Lead
TB602-050.0M	振荡器	TB	50MHz	-40°C ~ 85°C	10-SMD, No Lead
T604-019.2M	ConnorWinfield晶振	T6	19.2MHz	-40°C ~ 85°C	10-SMD, No Lead
T602-012.8M	ConnorWinfield晶振	T6	12.8MHz	-40°C ~ 85°C	10-SMD, No Lead
TB604-050.0M	ConnorWinfield晶振	TB	50MHz	-40°C ~ 85°C	10-SMD, No Lead
TB612-052.0M	ConnorWinfield晶振	TB	52MHz	-40°C ~ 85°C	10-SMD, No Lead
TB612-054.0M	ConnorWinfield晶振	TB	54MHz	-40°C ~ 85°C	10-SMD, No Lead
TB622-080.0M	ConnorWinfield晶振	TB	80MHz	-40°C ~ 85°C	10-SMD, No Lead
TB622-100.0M	ConnorWinfield晶振	TB	100MHz	-40°C ~ 85°C	10-SMD, No Lead
TB614-050.0M	ConnorWinfield晶振	TB	50MHz	-40°C ~ 85°C	10-SMD, No Lead
TB614-052.0M	ConnorWinfield晶振	TB	52MHz	-40°C ~ 85°C	10-SMD, No Lead
TB614-054.0M	ConnorWinfield晶振	TB	54MHz	-40°C ~ 85°C	10-SMD, No Lead
TB624-080.0M	ConnorWinfield晶振	TB	80MHz	-40°C ~ 85°C	10-SMD, No Lead
TB624-100.0M	ConnorWinfield晶振	TB	100MHz	-40°C ~ 85°C	10-SMD, No Lead
TB612-050.0M	ConnorWinfield晶振	TB	50MHz	-40°C ~ 85°C	10-SMD, No Lead
T622-040.M	ConnorWinfield晶振	T6	40MHz	-40°C ~ 85°C	10-SMD, No Lead
TVB602-050.0M	ConnorWinfield晶振	TVB	50MHz	-40°C ~ 85°C	4-SMD, No Lead

6G物联网应用晶振TL602-024.576M温补晶振模型符合ITU-T G.8262

温补晶振即温度补偿晶体振荡器（TCXO），本身具有温度补偿作用，是通过附加的温度补偿电路使由周围温度变化产生的振荡频率变化量削减的一种石英晶体振荡器，高低温度稳定性:频率精度0.5PPM~2.0PPM,常用频率:26M,33.6M,38.4M,40M.因产品性能稳定,精度高等优势,被广泛应用到一些比较高端的数码通讯产品领域,GPS全球定位系统,智能手机,WiMAX和无线通信等产品,符合RoHS/无铅.
小体积温补晶体振荡器TCXO设计非常适合功率可用性有限的小型设备。TCXO广泛用于电信应用，定位，导航iphone-6-苹果IOS-iphone-50603.jpeg和定时（PNT）系统等。多年来，这些类型的设计已经用于手机，平板电脑，便携式收音机和其他移动电子产品中。它们还常用于GPS设备，微波和卫星通信系统。随着“物联网”不断扩展和发展，许多这些新的连接设备也将使用TCXO设计.