Proximity communication

Abstract

This paper reports results from wireless chip-to-chip communication experiments. Sixteen bit words pass from one chip to another in parallel without detectable error at 1.35 billion data items per second for a total data rate of 21.6 Gigabits per second. The experiment transmits pseudo random patterns between chips built in a 350-nm CMOS technology. Chips touch face-to-face to communicate. The same pseudorandom data pattern is loaded onto both chips so that the receiving chip can check the accuracy of every bit communicated. Each communication channel consumes a static power of 3.6 mW, and a dynamic power of 3.9 pJ per bit communicated. The channels lie on 50-/spl mu/m centers. Because the capacitive communication works through covering oxide, ESD protection is unnecessary. Vernier position measuring circuits built into the chips indicate the relative position of transmitting and receiving arrays to assist mechanical alignment. The test chip includes a Vernier measurement circuit that provides inter-chip position measurements with a resolution of 1.4 /spl mu/m.