The EMC1183 is a high accuracy, low cost, I2C/SMBus triple channel temperature sensor. Advanced features such as Resistance Error Correction (REC), Beta Compensation (to support CPU diodes requiring the BJT/transistor model) and automatic diode type detection combine to provide a robust solution for complex environmental monitoring applications.
The EMC1183 monitors three temperature channels (two external and one internal). It provides ±1°C accuracy for both external and internal diode temperatures. Frequency hopping and analog filtering ensure remote diode traces can be as far as 8 inches without degrading the signal.
Compatible with 1.8V logic
Support for diodes requiring the BJT/transistor model
supports 65nm and lower geometry CPU thermal diodes
Automatically determines external diode type and optimal settings
Resistance Error Correction
Frequency hops the remote sample frequency to rejectDC converter and other coherent noise sources
Two External Temperature Monitors
±0.25 typ, ±1°C max accuracy (20°C < TDIODE < 110°C)
0.125°C resolution
Supports up to 2.2nF diode filter capacitor
Internal Temperature Monitor
±0.25 typ, ±1°C max accuracy
0.125°C resolution
Programmable temperature limits for ALERT# and THERM#
Programmable and fixed address options
3.3V supply voltage
Available in small 8-pin 2mm x 3mm TDFN lead-free RoHS compliant package
Available in small 8-pin 3mm x 3mm DFN lead-free RoHS compliant package
Applications
Notebook Computers
Tablets
Smartphone
Embedded applications
EMC1183 封装图
型号 | 制造商 | 描述 | 购买 |
---|---|---|---|
EMC1183-A-AIA-TR | Epson | 有源晶振 60MHz 3.3V SMD-4 | 立即购买 |
在电源模块应用中,EMC设计往往是重中之重,因为关乎整个用户产品的EMC性能。
今天就给大家分享下典型EMC三问,希望对各位小伙伴有所帮助,如您有遇到EMC问题,也可以在公众号对话框给我们留言哦,我们会针对典型的EMC问题进行回复。
虹科Raditeq 系列产品使您能够执行快速准确的 EMC/RF 测试。测试使用 RadiMation 测试软件轻松执行传导和辐射 EMC 和 RF 测试或测量。
VGA接口EMC设计标准电路,USB3.0接口EMC设计标准电路,USB2.0接口EMC设计标准电路
エンジニアコラム第19篇 EMC计算方法和EMC仿真(4)传导抗扰度(CI)的试行计算方法什么是IEC 62132-4 DPI法?大家好!我是ROHM的稻垣。
EMC问题越早考虑、越早解决,费用越小、效果越好。在新产品研发阶段就进行EMC设计,比等到产品EMC测试不合格才进行改进,费用可以大大节省,效率可以大大提高;反之,效率就会大大降低,费用就会大大增加。
本文以手机为例,介绍EMC、静电浪涌的基本原理以及常见解决措施,有助于指导工程师PCB layout以及解决实际EMC问题。
相信诸位研发工程师对EMC这个词并不陌生,但是怎么做到让EMC风险最小,却是十分头疼的问题。对于了解EMC是什么,知道怎么处理EMC的工程师来说,PCB板的EMC风险评估并没有想象中的那么困难。可以简单的分为三大步来看。
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