Analysis and Experimental Study of the Package Stresses in a QFN Plastic-Encapsulated Package

Luan, Jiyuan; Blackie, Campbell

doi:10.1109/tcpmt.2014.2330856

Cited by 5 publications

(2 citation statements)

References 8 publications

(11 reference statements)

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“…Plastic encapsulated packaging features versatile footprints, a small profile, and low cost, making it popular among integrated circuit (IC) products. It is estimated that more than 95% of IC products worldwide are packaged in this manner [31]. QFN technology is a type of surfacemount technology that connects ICs to PCB surfaces without through-vias.…”

Section: Ipd Bpf Fabrication and Packagingmentioning

confidence: 99%

QFN-Packaged Bandpass Filter With Intertwined Circular Spiral Inductor and Integrated Center-Located Capacitors Using Integrated Passive Device Technology

et al. 2019

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This paper describes the implementation of a miniaturized quad flat no-lead (QFN)-packaged bandpass filter (BPF) with a combination of an intertwined circular spiral inductor and two types of integrated center-located capacitors using gallium-arsenide-based integrated passive device (IPD) fabrication technology. Air-bridge structures were introduced into the outer circular spiral inductor to save space and to provide the filter with a compact chip area of 1192.5 × 1012.7 µm 2 . An equivalent circuit was modeled, the current density and variable dimensional parameters were simulated, and the fabrication process was introduced to achieve a better understanding of the IPD BPF. The proposed device was packaged using the QFN-packaging technology and was measured to possess a single passband with a central frequency of 1.91 GHz (return loss: 28.8 dB) and a fractional bandwidth of 72.69% (insertion loss: 0.62 dB). One transmission zero was obtained on the right side of the passband at 4.78 GHz with an amplitude of 35.95 dB. The fabricated BPF can be used in various L-band applications, such as mobile service, satellite navigation, telecommunications, and aircraft surveillance, due to its miniaturized chip size and high-performance characteristics.INDEX TERMS Air-bridge structure, bandpass filter, capacitor, gallium arsenide, inductor, integrated passive device, QFN package.

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Section: Ipd Bpf Fabrication and Packagingmentioning

confidence: 99%

QFN-Packaged Bandpass Filter With Intertwined Circular Spiral Inductor and Integrated Center-Located Capacitors Using Integrated Passive Device Technology

et al. 2019

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“…Therefore, for the QFN, the conductive path between the internal pins and the bottom pads is short, and the selfinductance coefficient and the wiring resistance in the package are low. These characteristics give the QFN package outstanding electrical performance [18][19][20][21][22][23]. In addition, it also provides excellent thermal performance through exposed lead frame pads, which are direct thermal channels for dissipating heat within the package.…”

Section: Introductionmentioning

confidence: 99%

A Ku-Band Miniaturized System-in-Package Using HTCC for Radar Transceiver Module Application

Yang

Zhang²,

Song³

2022

Micromachines

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This paper introduces a miniaturized system in package (SIP) for a Ku-band four-channel RF transceiver front-end. The SIP adopts the packaging scheme of an inner heat-dissipation gasket and multi-layer substrate in the high temperature co-fired ceramics (HTCC) shell with a metal heat sink at the bottom. The gasket effectively solves the heat-dissipation problem of high-power transceiver chips, and the multi-layer substrate achieves the interconnection between multiple chips. Within the limited size of 14.0 × 14.0 × 2.5 mm3, the SIP integrates five bidirectional amplifier chips, an amplitude-phase control multi-function chip, and two power modulation chips to realize the Ku-band four-channel RF transceiver front-end. Transmitting power over 0.5 W (27dBm) and receiving noise figure of 3.4 dB are achieved in the Ku-band. The efficient heat dissipation, high air tightness, and excellent integration are simultaneously realized in this SIP. The measurement results show that the performance is stable in the receiving and transmitting states, and the SIP based on HTCC technology has specific prospects for radar transceiver application.

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Design and development of tiny package for high voltage integrated circuit device (HVIC) in QFN package

Azizan

2014

36th International Electronics Manufacturing Technology Conference

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Analysis and Experimental Study of the Package Stresses in a QFN Plastic-Encapsulated Package

Cited by 5 publications

References 8 publications

QFN-Packaged Bandpass Filter With Intertwined Circular Spiral Inductor and Integrated Center-Located Capacitors Using Integrated Passive Device Technology

QFN-Packaged Bandpass Filter With Intertwined Circular Spiral Inductor and Integrated Center-Located Capacitors Using Integrated Passive Device Technology

A Ku-Band Miniaturized System-in-Package Using HTCC for Radar Transceiver Module Application

Design and development of tiny package for high voltage integrated circuit device (HVIC) in QFN package

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