請用此 Handle URI 來引用此文件:
http://tdr.lib.ntu.edu.tw/jspui/handle/123456789/17019
標題: | 一個20Gb/s利用電容耦合傳輸資料之無電感介面電路 An Inductor-less 20 Gb/s AC Coupled Chip-to-Chip Interconnect |
作者: | Ying-Han Lee 李盈翰 |
指導教授: | 陳中平(Chung-Ping Chen) |
關鍵字: | 電容耦合接收器,晶片與晶片間傳輸,低擺幅脈衝接收器,互補式傳輸線,低降壓穩壓器, AC coupled interconnect receiver,low swing pulse receiver,high speed, |
出版年 : | 2013 |
學位: | 碩士 |
摘要: | 因為製程的演進,晶片內部的時脈也越來越快,但是晶片與晶片間的傳輸速度卻相對的進步緩慢。因此,設計出一個高速的傳送接收器變成一個重要的課題。
本論文提出了一個高速且低功率耗損應用於晶片間傳輸的電容耦合式接收器,在第一顆晶片裡包含了一個耦合電容(75fF)、一個低擺幅脈衝接收器,以及一個限制放大器。在此種電路架構裡面,信號是以脈衝波形在傳輸線中做傳送,透過電容值的選取,可以有效的控制脈衝波的振幅和長度,以降低ISI,此晶片可運作在12Gb/s速度。脈衝波形經由傳輸線傳遞後再由低擺幅脈衝接收器作訊號回復至NRZ訊號,同時此脈衝接收器也具有低頻補償的功用。在第二顆晶片裡改進了第一顆,使用了線性補償,包含了一個限制放大器、一個低擺幅脈衝接收器、一個線性放大器和一個加法器已達到20Gb/s的操作速度。在第三顆晶片,是做了一個低靜態電流、無輸出電容的低降壓穩壓器,目的是為了能夠提供穩定的電壓源給傳輸晶片系統使用。 第一顆晶片是用TSMC 90nm RF CMOS 製成再做驗證並製作出來,晶片面積為0.135mmX0.056mm。第二顆晶片是用TSMC 90nm UTM CMOS製成再做驗證並製作出來,晶片面積為0.071mmX0.214mm。由模擬結果可以看出第二顆晶片改進了第一顆晶片。 最後,我們也設計了一顆低降壓穩壓器在TSMC 0.35um CMOS製成,做驗證並製作出來,晶片面積為0.477mmx0.742mm。低降壓穩壓器最大負載電流170mA,輸入電壓源(2~6V)皆能穩壓在設定的電壓值,模擬驗證結果在附錄中。 Today, the scaling of MOS transistor dimensions is a key factor in the improvement of performance of CMOS technology. High speed links with small AC coupling capacitances are increasing in importance. As a result, the receiver receives a stream of positive and negative pulses corresponding to the rising and falling edges of transmitted data. Receivers which are capable of recovering NRZ signals from these narrow pulses are referred to in this work as AC coupled receivers, and are not to be confused with receivers for links with a relatively large DC blocking capacitor where the received waveforms still look like an NRZ signal with some baseline wander. This thesis introduces a high-speed 12 Gb/s AC coupled receiver architecture for high density interconnects and a modified design for the 1st design which can operate at the 20Gb/s. The proposed architecture combines a novel hysteresis circuit path and a linear broadband amplifier path to recover a NRZ signal from a 75fF capacitor coupled channel. Due to the small coupling capacitances, the transmitted NRZ data at high frequency transitions can be detected at the receiver. The main challenge of the receiver front end is to recover NRZ data from the low swing pulses. In conclusion, 2 chips are designed and fabricated in TSMC 90nm CMOS technology. The 1st proposed chip is using a novel hysteresis circuit path without any compensation technique. The 2nd proposed chip improve the 1st chip integrated with time domain compensation. In addition, we also designed a Low dropout, low quiescent current, output capacitor-less regulator showed in appendix. |
URI: | http://tdr.lib.ntu.edu.tw/jspui/handle/123456789/17019 |
全文授權: | 未授權 |
顯示於系所單位: | 電子工程學研究所 |
文件中的檔案:
檔案 | 大小 | 格式 | |
---|---|---|---|
ntu-102-1.pdf 目前未授權公開取用 | 4.08 MB | Adobe PDF |
系統中的文件,除了特別指名其著作權條款之外,均受到著作權保護,並且保留所有的權利。