Your search keyword '"Kim, Younghwan"' showing total 2 results

1. A 220–320-GHz Vector-Sum Phase Shifter Using Single Gilbert-Cell Structure With Lossy Output Matching.

Author

Kim, Younghwan, Kim, Sooyeon, Lee, Iljin, Urteaga, Miguel, and Jeon, Sanggeun

Subjects

*PHASE shifters, *INSERTION loss (Telecommunication), *ELECTRIC loss in electric power systems, *DIRECT currents, *BANDWIDTHS

Abstract

This paper presents a wideband vector-sum phase shifter (VSPS) that operates over the entire WR-3 band (220–320 GHz). Compared to conventional VSPSs with double Gilbert cells, the proposed phase shifter employs a single Gilbert-cell structure for vector modulation. This reduces the output current combining ratio from 8:2 to 4:2, and boosts the impedance at the combining node, thus facilitating wideband output matching at upper millimeter-wave and terahertz bands. The simplified structure leads to a reduction in dc power consumption and chip area without sacrificing the 360^\circ phase-shifting property. Lossy matching is applied at the Gilbert-cell output to further increase bandwidth and stability at the expense of relatively high loss. The phase shifter is implemented using a 250-nm InP DHBT technology that provides f T and f \max exceeding 370 and 650 GHz, respectively. The measurements exhibit a wideband phase shift with continuous 360^\circ coverage and average insertion loss ranging from 11.8 to 15.6 dB for the entire WR-3 band. The root mean square amplitude and phase error among different phase states are less than 1.2 dB and 10.2^\circ, respectively. The input-referred 1-dB compression is measured at \0.7 dBm on average. The dc power consumption is 21.8–42.0 mW at different phase states. [ABSTRACT FROM PUBLISHER]

Published

2015

2. K- and Ka-band miniature CMOS balun with a single spiral coupled structure.

Author

Suh, Bohee, Kim, Younghwan, Kim, Taejin, and Jeon, Sanggeun

Subjects

*COMPLEMENTARY metal oxide semiconductors, *BANDPASS filters, *BALUNS, *SPIRAL antennas, *COUPLED structural systems, *BANDWIDTHS

Abstract

This paper presents a CMOS wideband miniature balun operating over the full K- and Ka-bands. The balun is based on a single spiral coupled structure where two symmetric spiral lines are stacked vertically (i.e. broadside-coupled) in an antipodal manner. The proposed structure provides ultra-wideband balun performance while occupying a minimal chip area compared with conventional spiral baluns. In order to offset residual inductance of the spirals, a compensation capacitor is shunted at the end of an unbalanced input line, which further improves the bandwidth. The proposed balun is implemented in a bulk 0.13-μm CMOS process. The measured insertion loss is less than 6.5 dB from 14 to 40 GHz. The amplitude and phase imbalances are less than 1 dB and 10°, respectively, over the entire bandwidth. The balun occupies an area of only 0.0095 mm², which, to the authors' knowledge, is significantly smaller than any previously reported CMOS baluns at similar frequency bands. [ABSTRACT FROM AUTHOR]

Published

2013