Tae‐Jong Baek scite author profile

In this study, we first fabricated a new GaAs-based dielectric-supported air-gap microstrip lines (DAMLs) by the surface microelectromechanical systems (MEMS) technology, and then fabricated the low-pass filter (LPF) for the Ka-band using those DAMLs. We elevated the signal lines from the surface in order to reduce the substrate dielectric loss and to obtain low losses at the millimeter-wave frequency band with a wide impedance range. We fabricated LPFs with DAMLs for Ka-bands, and we were able to reduce the insertion loss of LPFs by reducing the dielectric loss of the DAMLs. Miniaturization is essential for integrating LPFs with active devices, so we fabricated a LPF with the slot on the ground metal to reduce the size of the LPF. We compared the characteristics of the LPF with a slot and the LPF without the slot.

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50-nm T-Gate InAlAs/InGaAs Metamorphic HEMTs With Low Noise and High $f_{T}$ Characteristics

Lim

Lee

Baek

et al. 2007

IEEE Electron Device Lett.

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Design and characterisation of micromachined transmission line with dielectric post for millimetre-wave applications

et al. 2003

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New Tuning Method for 94 GHz Waveguide Voltage Controlled Oscillator

Lee

Baek

et al. 2011

IEEE Microw. Wireless Compon. Lett.

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We propose a simple, yet highly effective tuning method to increase the bandwidth of a waveguide voltage controlled oscillator (VCO) by applying controlled mechanical pressures to the packaged Gunn diode mounted in the waveguide cavity resonator. When we applied this method to a varactor-tuned, second-harmonic 94 GHz VCO, the bandwidth was doubled to 1 GHz with an output power over 14.8 dBm, which is suitable for frequency-modulated continuous-wave radar sensor applications.Index Terms-Bandwidth, cavity resonator, Gunn diode, tuning, voltage controlled oscillator (VCO), waveguide, 94 GHz.

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Tae‐Jong Baek

60‐GHz CPW‐fed dielectric‐resonator‐above‐patch (DRAP) antenna for broadband WLAN applications using micromachining technology

The Fabrication of the Low Loss Transmission Line and Low Pass Filter using Surface Microelectromechanical Systems Technology

50-nm T-Gate InAlAs/InGaAs Metamorphic HEMTs With Low Noise and High $f_{T}$ Characteristics

Design and characterisation of micromachined transmission line with dielectric post for millimetre-wave applications

New Tuning Method for 94 GHz Waveguide Voltage Controlled Oscillator

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