用于紧凑射频系统设计的3D打印基板

M. I. Mohd Ghazali, Saikat Mondal, Saranraj Karuppuswami, P. Chahal
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引用次数: 1

摘要

在本文中,使用3D打印的增材制造(AM)已被证明是实现射频封装应用定制紧凑型解决方案的潜在候选者。具有定制基板和气隙的具有成本效益的基于3D打印的封装解决方案可以更轻松地集成多个射频组件,同时降低基板损耗。利用类似大马士革的导体图像化工艺和类似乐高的组装工艺,在单个集成封装中演示了与空气基板贴片天线耦合的放大器。天线覆盖在放大器电路上,设计紧凑。所提出的基板定制和3D打印策略可以扩展到针对5G等应用定制的SOP/SIP封装的多系统级堆叠。
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3D Printed Substrates for the Design of Compact RF Systems
In this paper, Additive Manufacturing (AM) using 3D printing has been shown as a potential candidate for realizing customized compact solutions for RF packaging applications. Cost effective 3D printing based packaging solutions with customized substrates and air gaps allow easier integration of multiple RF components with lower substrate losses. Using a damascene-like conductor patterning process and a LEGO-like assembly process, an amplifier coupled to an air-substrate based patch antenna is demonstrated in a single integrated package. The antenna overlays the amplifier circuit leading to a compact design. The proposed customization of substrates and 3D printing strategies can be extended to multiple-system level stacking for SOP/SIP packaging customized for applications such as 5G.
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