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ã€æ‘˜è¦ã€‘ VML(ç”µåŽ‹æ¨¡å¼é€»è¾‘)æ˜¯ä¸€ç§é«˜é€Ÿå·®åˆ†æŽ¥å£æŠ€æœ¯,å®ƒå…·æœ‰é«˜é€Ÿã€ä½Žå™ªå£°ã€ä½ŽåŠŸè€—ã€ä½Žæˆæœ¬ç‰ä¼˜ç‚¹,åœ¨åƒå…†ä½ä¸²è¡Œå™¨è§£ä¸²å™¨(Serdes)èŠ¯ç‰‡ä¸èŽ·å¾—äº†å¹¿æ³›çš„åº”ç”¨ã€‚æœ¬æ–‡é¦–å…ˆè¯¦ç»†ä»‹ç»äº†å‡ ç§å¸¸ç”¨çš„é«˜é€Ÿå·®åˆ†æŽ¥å£æŠ€æœ¯LVDSã€CMLã€LVPECL,ç„¶åŽå°†VMLæŠ€æœ¯ä¸Žå®ƒä»¬è¿›è¡Œæ¯”è¾ƒ,æœ€ç»ˆç¡®å®šäº†ä»¥VMLæŠ€æœ¯è®¾è®¡ä¸€æ¬¾ç”¨äºŽSerdesçš„æ”¶å‘å™¨ç”µè·¯ã€‚ç”µè·¯é‡‡ç”¨TSMC 0.13um CMOS 1P7Må·¥è‰ºå®žçŽ°,å¯ä¼ è¾“é€ŸçŽ‡æœ€é«˜è¾¾2.7Gbpsçš„ä¸²è¡Œæ•°æ®ã€‚å‘é€å™¨VMLä¸»ä½“é©±åŠ¨ç”µè·¯é‡‡ç”¨è‡ªåç½®å·®åˆ†æ”¾å¤§å™¨åŠè´Ÿåé¦ˆæŠ€æœ¯å®žçŽ°ã€‚ç”±äºŽä¿¡å·åœ¨ä¿¡é“ä¸ä¼ è¾“æ—¶ä¸å¯é¿å…ä¼šæœ‰é«˜é¢‘è¡°å‡,å¯¹è¾“å‡ºå·®åˆ†ä¿¡å·è¿›è¡Œäº†å¼ºåº¦å¯è°ƒçš„é¢„åŠ é‡ã€‚é’ˆå¯¹SerdesèŠ¯ç‰‡å†…æ ¸ç”µå¹³ä¸ŽI/OæŽ¥å£ç”µå¹³ä¸åŒ,è®¾è®¡äº†ç”µå¹³è½¬æ¢ç”µè·¯,ä»¿çœŸç»“æžœè¡¨æ˜Ž,å·¥ä½œé¢‘çŽ‡ä¸º1.5GHzæ—¶è¾“å‡ºä¿¡å·å ç©ºæ¯”ä¸º50.7%ã€‚æŽ¥æ”¶å™¨VMLé«˜é€Ÿé‡‡æ ·æŽ¥æ”¶ç”µè·¯é€‰ç”¨äº†å…±æ¨¡å’Œå·®æ¨¡è¾“å…¥èŒƒå›´æ¯”è¾ƒå¤§çš„åŸºäºŽæ•æ„Ÿæ”¾å¤§å™¨çš„è§¦å‘å™¨å®žçŽ°,ä»¿çœŸç»“æžœè¡¨æ˜Ž,å…¶ä¼ è¾“å»¶æ—¶Tcqåªæœ‰147pSã€‚ä¸ºäº†ä¿æŒä¿¡é“é˜»æŠ—çš„ä¸€è‡´æ€§,åŠ å…¥äº†ç‰‡å†…é˜»æŠ—åŒ¹é…ç”µè·¯ã€‚æœ€åŽ,é’ˆå¯¹æ”¶å‘å™¨ç³»ç»Ÿä¸å¯èƒ½ä¼šå‡ºçŽ°å„ç§é”™è¯¯çŠ¶æ€,åœ¨æŽ¥æ”¶å™¨åŠ å…¥äº†ä¿¡å·ä¸¢å¤±æ£€æµ‹ç”µè·¯ã€‚è®ºæ–‡æœ€åŽç»™å‡ºäº†æœ€ç»ˆå®žçŽ°çš„æ”¶å‘å™¨ç‰ˆå›¾,å¹¶åŸºäºŽæ•´ä¸ªSerdesèŠ¯ç‰‡ä½¿ç”¨å®‰æ·ä¼¦Infiniium 91304Aç¤ºæ³¢å™¨å¯¹æ”¶å‘å™¨è¿›è¡Œäº†æµ‹è¯•,ç»“æžœè¡¨æ˜Ž,æœ¬èŠ¯ç‰‡åœ¨ä¼ è¾“é€ŸçŽ‡ä¸º1.5Gbpsæ—¶æ”¶å‘å™¨åŸºæœ¬åŠŸèƒ½æ£ç¡®ã€‚æ›´å¤š è¿˜åŽŸ

ã€Abstractã€‘ VML(Voltage Mode Logic)high speed differential interface technology has several advantages, such as high speed, low noise, low power and low cost etc. So it is widely used in Gigabit Serdes.Based on the solid understanding of the difference of the common high-speed differential interface technology LVDS, CML, LVPECL, VML, a 2.7Gbps Transceiver has been designed and implemented in TSMC 0.13um 1P7M CMOS technology,which is used in Serdes.The VML driver of the transmitter has adopted a self-biased differential amplifier and negative feedback technique. Because of the inevitable high-frequency components attenuation of signal transmitting in the channel, a pre-emphasis circuit has been designed. A level-shifting circuit has been designed to meet the different voltage level between the core of chip and I/O interface. Simulation results show that the duty cycle of the output signal is 50.7% when the operating frequency is 1.5GHz.The VML high speed sampling circuit of the receiver has been implemented using a SAFF (Sense-Amplifier-based Flip-Flop), which has a large common mode and differential mode input range. Simulation results show that the delay between output data and clock is 147pS. In order to maintain a consistent channel resistance, a on-chip impedance matching circuitry has been designed. Finally, a loss of signal detection circuit has been designed to meet various errors state in the transceiver systemAt last, the layout of the transceiver has been realized in Virtuoso of cadence and the transceiver has been tested with Agilent Infiniium 91304A oscilloscope based on Serdes. Test results show that the transceiver can function well when the serial interface speed is 1.5Gbps.æ›´å¤š è¿˜åŽŸ

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ã€Key wordsã€‘ Differential interface technologyï¼› VMLï¼› Pre-emphasisï¼› Loss of signal detectionï¼›

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