Abstract
A 157-GHz complementary antiparallel diode pair (CAPDP) frequency tripler using a combination of selfdynamic and static dc biasing to enhance output power and conversion efficiency is demonstrated in 130-nm complementary metal-oxide-semiconductor. The self-dynamic biasing expands the off-zone of CAPDP to reduce the output power roll-off at high input levels. A negative static dc bias tunes the off-zone to enhance the nonlinearity to increase the output power at low input levels. The frequency tripler generates -18.6 dBm maximum output power (POUT) at 157.5 GHz at the input power (PIN) of 13.4 dBm. At PIN of 11 dBm, POUT is 2.7-dB higher or conversion loss (CL) is 2.7-dB lower than the tripler with a cathode-Tied CAPDP. At PIN greater than 13.4 dBm, POUT should be more than 4.3-dB higher and CL is more than 4.3-dB lower.
| Original language | English |
|---|---|
| Pages (from-to) | 1110-1112 |
| Number of pages | 3 |
| Journal | IEEE Microwave and Wireless Components Letters |
| Volume | 27 |
| Issue number | 12 |
| DOIs | |
| State | Published - Dec 2017 |
Keywords
- Complementary metal-oxide-semiconductor (CMOS)
- Frequency tripler
- Schottky barrier diode
- Self-dynamic biasing
- Selfbiased complementary antiparallel diode pair (SB-CAPDP)
- Static dc biasing
- Subterahertz.