Title :
InP HBT Integrated Circuit Technology for Terahertz Frequencies
Author :
Urteaga, M. ; Seo, M. ; Hacker, J. ; Griffith, Z. ; Young, A. ; Pierson, R. ; Rowell, P. ; Skalare, A. ; Rodwell, M.J.W.
Author_Institution :
Teledyne Sci. Co., Thousand Oaks, CA, USA
Abstract :
We report on the development of a 0.25 μm InP HBT technology suitable for integrated circuit demonstrations at the lower end of the THz frequency band (0.3-3THz). Transistors demonstrate an extrapolated fmax of >800 GHz while maintaining a common-emitter breakdown voltage (BVCEO) >4 V. The transistors have been integrated in a full IC process that includes three-levels of interconnects, backside wafer thinning to 50 μm with a through-wafer via process, and a backside etch singulation process that allows for the formation of free-standing integrated waveguide probes. The technology has been utilized to demonstrate amplifiers, fixed-frequency and voltage controlled oscillators and dynamic frequency dividers all operating at >300 GHz.
Keywords :
heterojunction bipolar transistors; microwave integrated circuits; IC process; InP; InP HBT integrated circuit technology; THz frequency band; amplifiers; backside etch singulation process; backside wafer thinning; dynamic frequency dividers; fixed-frequency oscillators; free-standing integrated waveguide probes; interconnects; terahertz frequencies; through-wafer via process; voltage controlled oscillators; Current measurement; Frequency conversion; Heterojunction bipolar transistors; Indium phosphide; Integrated circuits; Oscillators;
Conference_Titel :
Compound Semiconductor Integrated Circuit Symposium (CSICS), 2010 IEEE
Conference_Location :
Monterey, CA
Print_ISBN :
978-1-4244-7437-0
Electronic_ISBN :
1550-8781
DOI :
10.1109/CSICS.2010.5619675
