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NZ2520SHB-32.768KHZ-MAA5046B晶振连接车载设备的“心跳引擎”
  • 文章出处:https://www.smdxtal.com/
  • 责任编辑:加科电子
  • 人气:23
  • 发表时间:2025-08-28

在智能硬件的毫米级战场中,一款名为NZ2520SHB的32.768KHz有源晶振正以2.5×2.0×0.9mm的微型身躯重新定义着电子设备的时间基准,这款由NDK晶振公司(日本电波工业)研发的频率元器件不仅承载着技术迭代的野心,更成为物联网,汽车电子与智能穿戴领域的关键基石,NDK晶振公司旗下的NZ2520SHB系列晶振采用2520的超薄封装,频率稳定度±50ppm(-40°C至125°C)的突破,其低相位抖动特性仅为90飞秒配合1ms的快速启动时间可为汽车电子系统提供毫秒级的时间基准,确保毫米波雷达,自动驾驶图像处理等模块的同步精度,作为汽车电子系统的核心时钟源,该NZ2520SHB晶振凭借超小型化,高可靠性及低功耗特性,成为自动驾驶,智能座舱,电池管理等领域的“隐形冠军”。

料号频率型号工作温度电压频率稳定性供应商
NR3225SA-32.768kHz-NSA3646A32.768KHzNR3225SA


加科电子
NZ1612SHB-32.768KHZ-NSC5102A32.768KHzNZ1612SHB-40°C ~ 105°C1.8V50ppm加科电子
NZ1612SHB-32.768KHZ-NSC5102B32.768KHzNZ1612SHB-40°C ~ 105°C1.8V50ppm加科电子
NZ1612SHB-32.768KHZ-NSC5102C32.768KHzNZ1612SHB-40°C ~ 105°C1.8V50ppm加科电子
NZ1612SHB-32.768KHZ-NSC5102D32.768KHzNZ1612SHB-40°C ~ 105°C1.8V50ppm加科电子
NZ1612SHB-32.768KHZ-NSC5153A32.768KHzNZ1612SHB-40°C ~ 105°C1.8V50ppm加科电子
NZ1612SHB-32.768KHZ-NSC5153B32.768KHzNZ1612SHB-40°C ~ 105°C2.5V50ppm加科电子
NZ1612SHB-32.768KHZ-NSC5153C32.768KHzNZ1612SHB-40°C ~ 105°C2.5V50ppm加科电子
NZ1612SHB-32.768KHZ-NSC5153D32.768KHzNZ1612SHB-40°C ~ 105°C2.5V50ppm加科电子
NZ1612SHB-32.768KHZ-NSC5154A32.768KHzNZ1612SHB-40°C ~ 105°C2.5V50ppm加科电子
NZ1612SHB-32.768KHZ-NSC5154B32.768KHzNZ1612SHB-40°C ~ 105°C2.5V50ppm加科电子
NZ1612SHB-32.768KHZ-NSC5154C32.768KHzNZ1612SHB-40°C ~ 105°C3V50ppm加科电子
NZ1612SHB-32.768KHZ-NSC5154D32.768KHzNZ1612SHB-40°C ~ 105°C3V50ppm加科电子
NZ2016SH-32.768K-NSC5026D32.768KHzNZ2016SH-40°C ~ 125°C3.3V100ppm加科电子
NZ2016SH-32.768K-NSC5028D32.768KHzNZ2016SH-40°C ~ 105°C3.3V50ppm加科电子
NZ2016SH-32.768K-NSC5031A32.768KHzNZ2016SH-40°C ~ 85°C1.8V30ppm加科电子
NZ2016SH-32.768K-NSC5031D32.768KHzNZ2016SH-40°C ~ 85°C3.3V30ppm加科电子
NZ2016SHA-32.768KHZ-NSC5297A32.768KHzNZ2016SHA-40°C ~ 105°C3V50ppm加科电子
NZ2016SHA-32.768KHZ-NSC5297B32.768KHzNZ2016SHA-40°C ~ 105°C3V50ppm加科电子
NZ2016SHA-32.768KHZ-NSC5297C32.768KHzNZ2016SHA-40°C ~ 105°C3V50ppm加科电子
NZ2016SHA-32.768KHZ-NSC5297D32.768KHzNZ2016SHA-40°C ~ 105°C3.3V50ppm加科电子
NZ2016SHA-32.768KHZ-NSC5298A32.768KHzNZ2016SHA-40°C ~ 105°C3.3V50ppm加科电子
NZ2016SHA-32.768KHZ-NSC5298B32.768KHzNZ2016SHA-40°C ~ 105°C3.3V50ppm加科电子
NZ2016SHA-32.768KHZ-NSC5298C32.768KHzNZ2016SHA-40°C ~ 105°C3.3V50ppm加科电子
NZ2016SHA-32.768KHZ-NSC5298D32.768KHzNZ2016SHA-40°C ~ 105°C3.3V50ppm加科电子
NZ2016SHA-32.768KHZ-NSC5299A32.768KHzNZ2016SHA-40°C ~ 125°C1.8V100ppm加科电子
NZ2016SHA-32.768KHZ-NSC5299B32.768KHzNZ2016SHA-40°C ~ 125°C1.8V100ppm加科电子
NZ2016SHA-32.768KHZ-NSC5299C32.768KHzNZ2016SHA-40°C ~ 125°C1.8V100ppm加科电子
NZ2016SHA-32.768KHZ-NSC5299D32.768KHzNZ2016SHA-40°C ~ 125°C1.8V100ppm加科电子
NZ2016SHB-32.768KHZ-NSC5132A32.768KHzNZ2016SHB-40°C ~ 125°C1.8V100ppm加科电子
NZ2016SHB-32.768KHZ-NSC5132B32.768KHzNZ2016SHB-40°C ~ 125°C2.5V100ppm加科电子
NZ2016SHB-32.768KHZ-NSC5132C32.768KHzNZ2016SHB-40°C ~ 125°C2.5V100ppm加科电子
NZ2016SHB-32.768KHZ-NSC5132D32.768KHzNZ2016SHB-40°C ~ 125°C2.5V100ppm加科电子
NZ2016SHB-32.768KHZ-NSC5133A32.768KHzNZ2016SHB-40°C ~ 125°C2.5V100ppm加科电子
NZ2016SHB-32.768KHZ-NSC5133B32.768KHzNZ2016SHB-40°C ~ 125°C2.5V100ppm加科电子
NZ2016SHB-32.768KHZ-NSC5133C32.768KHzNZ2016SHB-40°C ~ 125°C3V100ppm加科电子
NZ2016SHB-32.768KHZ-NSC5133D32.768KHzNZ2016SHB-40°C ~ 125°C3V100ppm加科电子
NZ2016SHB-32.768KHZ-NSC5134A32.768KHzNZ2016SHB-40°C ~ 125°C3V100ppm加科电子
NZ2016SHB-32.768KHZ-NSC5134B32.768KHzNZ2016SHB-40°C ~ 125°C3V100ppm加科电子
NZ2016SHB-32.768KHZ-NSC5134C32.768KHzNZ2016SHB-40°C ~ 125°C3V100ppm加科电子
NZ2016SHB-32.768KHZ-NSC5134D32.768KHzNZ2016SHB-40°C ~ 125°C3.3V100ppm加科电子
NZ2520SH-32.768K-NSC5013D32.768KHzNZ2520SH-40°C ~ 125°C3.3V100ppm加科电子
NZ2520SH-32.768K-NSC5015A32.768KHzNZ2520SH-40°C ~ 105°C1.8V50ppm加科电子
NZ2520SH-32.768K-NSC5015D32.768KHzNZ2520SH-40°C ~ 105°C3.3V50ppm加科电子
NZ2520SH-32.768K-NSC5018A32.768KHzNZ2520SH-40°C ~ 85°C1.8V30ppm加科电子
NZ2520SH-32.768K-NSC5018D32.768KHzNZ2520SH-40°C ~ 85°C3.3V30ppm加科电子
NZ2520SHA-32.768K-NSC5222D32.768KHzNZ2520SH-40°C ~ 125°C3.3V100ppm加科电子
NZ2520SHB-32.768KHZ-ENE5510A32.768KHzNZ2520SH


加科电子
NZ2520SHA-32.768KHZ-NSC5271A32.768KHzNZ2520SHA-40°C ~ 125°C3.3V100ppm加科电子
NZ2520SHA-32.768KHZ-NSC5271B32.768KHzNZ2520SHA-40°C ~ 125°C3.3V100ppm加科电子
NZ2520SHA-32.768KHZ-NSC5271C32.768KHzNZ2520SHA-40°C ~ 125°C3.3V100ppm加科电子
NZ2520SHA-32.768KHZ-NSC5271D32.768KHzNZ2520SHA-40°C ~ 125°C3.3V100ppm加科电子
NZ2520SHA-32.768KHZ-NSC5272A32.768KHzNZ2520SHA-40°C ~ 85°C1.8V30ppm加科电子
NZ2520SHA-32.768KHZ-NSC5272B32.768KHzNZ2520SHA-40°C ~ 85°C1.8V30ppm加科电子
NZ2520SHA-32.768KHZ-NSC5272C32.768KHzNZ2520SHA-40°C ~ 85°C1.8V50ppm加科电子
NZ2520SHA-32.768KHZ-NSC5272D32.768KHzNZ2520SHA-40°C ~ 85°C1.8V30ppm加科电子
NZ2520SHA-32.768KHZ-NSC5273A32.768KHzNZ2520SHA-40°C ~ 85°C1.8V30ppm加科电子
NZ2520SHA-32.768KHZ-NSC5273B32.768KHzNZ2520SHA-40°C ~ 85°C1.8V30ppm加科电子
NZ2520SHA-32.768KHZ-NSC5273C32.768KHzNZ2520SHA-40°C ~ 85°C2.5V30ppm加科电子
NZ2520SHA-32.768KHZ-NSC5273D32.768KHzNZ2520SHA-40°C ~ 85°C2.5V30ppm加科电子
NZ2520SHB-32.768KHZ-NSC5135A32.768KHzNZ2520SHB-40°C ~ 85°C2.5V50ppm加科电子
NZ2520SHB-32.768KHZ-NSC5135B32.768KHzNZ2520SHB-40°C ~ 85°C2.5V30ppm加科电子
NZ2520SHB-32.768KHZ-NSC5135C32.768KHzNZ2520SHB-40°C ~ 85°C2.5V30ppm加科电子
NZ2520SHB-32.768KHZ-NSC5135D32.768KHzNZ2520SHB-40°C ~ 85°C2.5V30ppm加科电子
NZ2520SHB-32.768KHZ-NSC5136A32.768KHzNZ2520SHB-40°C ~ 85°C3V30ppm加科电子
NZ2520SHB-32.768KHZ-NSC5136B32.768KHzNZ2520SHB-40°C ~ 85°C3V30ppm加科电子
NZ2520SHB-32.768KHZ-NSC5136C32.768KHzNZ2520SHB-40°C ~ 85°C3V50ppm加科电子
NZ2520SHB-32.768KHZ-NSC5136D32.768KHzNZ2520SHB-40°C ~ 85°C3V30ppm加科电子
NZ2520SHB-32.768KHZ-NSC5137A32.768KHzNZ2520SHB-40°C ~ 85°C3V30ppm加科电子
NZ2520SHB-32.768KHZ-NSC5137B32.768KHzNZ2520SHB-40°C ~ 85°C3V30ppm加科电子
NZ2520SHB-32.768KHZ-NSC5137C32.768KHzNZ2520SHB-40°C ~ 85°C3.3V30ppm加科电子
NZ2520SHB-32.768KHZ-NSC5137D32.768KHzNZ2520SHB-40°C ~ 85°C3.3V30ppm加科电子
NZ2520SHB-32.768KHZ-NSC5308A32.768KHzNZ2520SHB-40°C ~ 85°C3.3V50ppm加科电子
NZ2520SHB-32.768KHZ-NSC5308B32.768KHzNZ2520SHB-40°C ~ 85°C3.3V30ppm加科电子
NZ2520SHB-32.768KHZ-NSC5308C32.768KHzNZ2520SHB-40°C ~ 85°C3.3V30ppm加科电子
NZ2520SHB-32.768KHZ-NSC5308D32.768KHzNZ2520SHB-40°C ~ 85°C3.3V30ppm加科电子
NZ2520SHB-32.768KHZ-MAA5046B32.768KHzNZ2520SHB


加科电子

在极端环境适应性方面该NDK晶振旗下的NZ2520SHB晶振通过AEC-Q200认证可在-40°C至125°C宽温范围内稳定运行,抗冲击能力达50000g,抗振动能力达70g,例如在新能源汽车的电池管理系统中NZ2520SHB晶振可精准控制充电电流,避免因温度波动导致的过充风险,延长电池寿命30%以上,NZ2520SHB晶振广泛应用于ABS(防抱死刹车系统)ESC(电子稳定控制系统)及安全气囊模块其低功耗特性(待机电流仅5μA)可延长车载ECU的续航时间,而±3ppm/年的超低老化率确保系统长期稳定性,例如在某品牌新能源汽车的碰撞测试中该晶振在-40°C低温环境下仍能精准触发安全气囊误差不超过0.001秒。

在自动驾驶领域NZ2520SHB进口晶振为激光雷达,高精度地图定位模块提供时钟同步,其支持的1.8V至3.3V宽电压设计,可适配车载计算平台的低功耗需求,某自动驾驶企业测试数据显示采用该晶振后多传感器融合的时间误差从50μs降至5μs,显著提升决策响应速度,针对电动汽车的电池均衡控制NZ2520SHB晶振通过CMOS输出直接驱动BMS(电池管理系统)芯片减少外部电路复杂度,其低驱动功率(0.1μW)可降低系统整体能耗,使续航里程提升5%-8%,NZ2520SHB晶振的每一次振动都在无声中推动着汽车电子技术的边界它证明在微观世界里0.1μW的功耗降低0.1mm的体积压缩都可能引发一场革命而这场革命的终点或许是一个万物互联智能无缝的出行时代。

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