Abstract : This paper presents design and characterization
of single-chip 110–170 GHz (D-band) direct conversion inphase/quadrature-phase (I/Q) transmitter and receiver monolithic
microwave integrated circuits (MMICs), realized in a 130 nm SiGe
BiCMOS process with ft/fmax of 250 GHz/370 GHz. The chipset is
suitable for low power wideband communication and can be used
in both homodyne and heterodyne architectures. The Transmitter chip consists of a six-stage power amplifier, an I/Q modulator,
and a LO multiplier chain. The LO multiplier chain consists of
frequency sixtupler followed by a two-stage amplifier. It exhibits
a single sideband conversion gain of 23 dB and saturated output
power of 0 dBm. The 3 dB RF bandwidth is 31 GHz from 114 to
145 GHz. The receiver includes a low noise amplifier, I/Q demodu�lator and x6 multiplier chain at the LO port. The receiver provides
a conversion gain of 27 dB and has a noise figure of 10 dB. It has 3
dB RF bandwidth of 28 GHz from 112-140 GHz. The transmitter
and receiver have dc power consumption of 240 mW and 280 mW,
respectively. The chip area of each transmitter and receiver circuit
is 1.4 mm × 1.1 mm.
Index terms : Demodulator, direct conversion, I/Q transceiver, low noise amplifier, measurement, millimeter wave integrated circuits, mixer, modulator, multiplier, MMICs, power amplifier, wireless communication.