25.4 A 500Mb/s 200pJ/b die-to-die bidirectional link with 24kV surge isolation and 50kV/µs CMR using resonant inductive coupling in 0.18µm CMOS | IEEE Conference Publication | IEEE Xplore

25.4 A 500Mb/s 200pJ/b die-to-die bidirectional link with 24kV surge isolation and 50kV/µs CMR using resonant inductive coupling in 0.18µm CMOS


Abstract:

Chip based digital isolators are being developed for higher speed and higher isolation capabilities [1, 2]. These make use of various coupling mechanisms such as capaciti...Show More

Abstract:

Chip based digital isolators are being developed for higher speed and higher isolation capabilities [1, 2]. These make use of various coupling mechanisms such as capacitive coupling [3] and transformer coupling [4]. A limitation of these technologies is that they need to maintain a low separation (distance through insulation DTI<;30μm) through high quality insulators (oxides, polyamides) in order to achieve data rate and isolation performance [2]. These require expensive special process development and special packaging techniques to meet reinforced isolation recommended by IEC 60747-5-5 and VDE 0884-10. Other high-speed die-to-die communication techniques implemented using millimeter-wave and optical solutions are expensive and not designed for isolation. In this work, an isolation technique is proposed where two standard 180nm CMOS dies placed side by side with DTI of more than 500μm, and co-packaged using regular planar MCM flow with package mold compound being the isolation material, achieve asynchronous bidirectional link with >24kV surge isolation capability and greater than 500Mb/s at 175pJ/b. Channel gain is maximized using resonance. Gain is decoupled from channel bandwidth by resetting the channel state variables. This helps in enhancing data rate well beyond what is implied by the bandwidth.
Date of Conference: 05-09 February 2017
Date Added to IEEE Xplore: 06 March 2017
ISBN Information:
Electronic ISSN: 2376-8606
Conference Location: San Francisco, CA, USA

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