In recent years, with the demands for wireless communication systems increas rapidly, the operating frequency for the portable wireless is moving toward millimeter-waves. Millimeter-wave wireless communication systems require not only suitable functional IC components but also competent package with low cost and good interconnect performance. To meet the demands for commercial applications, package with low power consumption, low cost, small size, and light weight becomes indispensable. However, unlike low frequency applications, millimeter-wave frequencies introduce significant parasitics and therefore the interconnect between IC chips and packaging carriers must be carefully managed in order to maintain good electrical performance. Conven...
A discrete low noise In0.6Ga0.4As MHEMT device with 150 nm gate length was flip-chip assembled on th...
A flip-chip mounted W-band amplifier module with more than 15 dB gain between 82 and 105 GHz has bee...
For emerging mm-wave consumer applications such as high data-rate wireless communications at 60GHz a...
© 2016 IEEE. This paper presents a millimeter-wave (mm-wave) packaging design for E-band long-haul p...
This paper presents a flip-chip-on-board (FCOB) packaging technology using a Rogers RO3210 laminate ...
This study demonstrates a flip-chip interconnect with epoxy-based underfill (epsilon(r) = 3.5 and ta...
Power leakage into surface waves in monolithically integrated millimeter-wave circuits is to a great...
More and more chip packages need multi-GHz RF structures to meet their performance targets. The idea...
The demands for high frequency interconnect techniques for microwave integrated circuits (ICs) are g...
The performances of two different interconnection techniques for coplanar MMICs, wire bonding and fl...
A novel integration technique for flip-chip bonding a circuit in wafer scale pack-aging is presented...
This paper presents simulation results performed with a 3D FEM Software on flip chip and tape automa...
This paper presents an overview of recent state of the art technologies and future trends in millime...
In this work, we describe the impact of different mounting configurations for flip-chip assemblies o...
The flip chip is recognized as the most reliable chip interconnect method and renders an extremely h...
A discrete low noise In0.6Ga0.4As MHEMT device with 150 nm gate length was flip-chip assembled on th...
A flip-chip mounted W-band amplifier module with more than 15 dB gain between 82 and 105 GHz has bee...
For emerging mm-wave consumer applications such as high data-rate wireless communications at 60GHz a...
© 2016 IEEE. This paper presents a millimeter-wave (mm-wave) packaging design for E-band long-haul p...
This paper presents a flip-chip-on-board (FCOB) packaging technology using a Rogers RO3210 laminate ...
This study demonstrates a flip-chip interconnect with epoxy-based underfill (epsilon(r) = 3.5 and ta...
Power leakage into surface waves in monolithically integrated millimeter-wave circuits is to a great...
More and more chip packages need multi-GHz RF structures to meet their performance targets. The idea...
The demands for high frequency interconnect techniques for microwave integrated circuits (ICs) are g...
The performances of two different interconnection techniques for coplanar MMICs, wire bonding and fl...
A novel integration technique for flip-chip bonding a circuit in wafer scale pack-aging is presented...
This paper presents simulation results performed with a 3D FEM Software on flip chip and tape automa...
This paper presents an overview of recent state of the art technologies and future trends in millime...
In this work, we describe the impact of different mounting configurations for flip-chip assemblies o...
The flip chip is recognized as the most reliable chip interconnect method and renders an extremely h...
A discrete low noise In0.6Ga0.4As MHEMT device with 150 nm gate length was flip-chip assembled on th...
A flip-chip mounted W-band amplifier module with more than 15 dB gain between 82 and 105 GHz has bee...
For emerging mm-wave consumer applications such as high data-rate wireless communications at 60GHz a...