H-Band Power Amplifier Integrated Circuits Using 250-nm InP HBT Technology

In this paper, H-band (220-325 GHz) power amplifier (PA) integrated circuits (ICs) are presented using 250-nm InP HBT technology, where a cascode topology was adopted to achieve high gain and high output power. Three PAs were designed: PA1 was implemented with two-stage cascode HBTs, PA2 combined two PA1s, and PA3 combined four PA1s, by using Wilkinson couplers without isolation resistors. Electromagnetic simulations were carried out for the accurate design of passive circuits such as a microstrip line, a capacitor, and RF pads. The measured insertion loss of the RF pad and Wilkinson coupler was as low as 0.24 dB and 0.70 dB, respectively, at 300 GHz. The three PAs exhibited a measured gain higher than 15 dB with good return losses at 300 GHz. The output powers scaled well with total emitter area of the PAs. PA3 exhibited a maximum output power of 13.5 dBm at 301 GHz. To the best of the authors' knowledge, this corresponds to the highest output power among the previously reported solid-state PAs in this frequency range.

[1]  V. Radisic,et al.  Power Amplification at 0.65 THz Using InP HEMTs , 2012, IEEE Transactions on Microwave Theory and Techniques.

[2]  Po-Hsin Liu,et al.  A 10-mW Submillimeter-Wave Solid-State Power-Amplifier Module , 2010, IEEE Transactions on Microwave Theory and Techniques.

[3]  Munkyo Seo,et al.  InP HBT IC Technology for Terahertz Frequencies: Fundamental Oscillators Up to 0.57 THz , 2011, IEEE Journal of Solid-State Circuits.

[4]  Zach Griffith,et al.  A 227.5GHz InP HBT SSPA MMIC with 101mW Pout at 14.0dB Compressed Gain and 4.04% PAE , 2013, 2013 IEEE Compound Semiconductor Integrated Circuit Symposium (CSICS).

[5]  L. Samoska An Overview of Solid-State Integrated Circuit Amplifiers in the Submillimeter-Wave and THz Regime , 2011, IEEE Transactions on Terahertz Science and Technology.

[6]  P. Tran,et al.  Demonstration of a G-Band Transceiver for Future Space Crosslinks , 2013, IEEE Transactions on Terahertz Science and Technology.

[7]  Herbert Zirath,et al.  Design and Characterization of $H$-Band (220–325 $~$GHz) Amplifiers in a 250-nm InP DHBT Technology , 2014, IEEE Transactions on Terahertz Science and Technology.

[8]  Zach Griffith,et al.  A 180mW InP HBT Power Amplifier MMIC at 214 GHz , 2013, 2013 IEEE Compound Semiconductor Integrated Circuit Symposium (CSICS).

[9]  Sanggeun Jeon,et al.  300 GHz InP HBT amplifier with 10 mW output power , 2014 .

[10]  Richard Lai,et al.  220-GHz Solid-State Power Amplifier Modules , 2012, IEEE Journal of Solid-State Circuits.

[11]  Nuria Llombart,et al.  THz Imaging Radar for Standoff Personnel Screening , 2011, IEEE Transactions on Terahertz Science and Technology.

[12]  Zach Griffith,et al.  A 50–80mW SSPA from 190.8–244GHz at 0.5mW Pin , 2014, 2014 IEEE MTT-S International Microwave Symposium (IMS2014).