Jesse Bowman scite author profile

IEEE Trans. Electromagn. Compat.

2013

In mixed-signal systems, noise coupling between different domains, such as digital and RF, can be a critical problem. Especially, the power/ground planes in packages or boards can be a major factor for noise coupling. Simultaneously switching drivers causes supply voltage fluctuations which can propagate both horizontally and vertically between the power/ground planes. The sensitive RF/analog signals have to be isolated from this digital switching noise, which gets coupled through the shared power distribution system. Hence, accurate estimation and improvement of the performance of power/ground planes is critical in a mixedsignal system. This paper introduces a new methodology to minimize the transfer impedance of the power distribution system. This will be achieved by a new design methodology, called the virtual ground fence. At its basic level, the virtual ground fence consists of quarter-wave transmission line stubs that act as short circuits between power and ground planes at their design frequency. An array of such stubs can then be considered as a ground fence. Power filtering is currently achieved mainly by using discrete decoupling capacitors at low frequencies. The virtual ground fence design is the distributed analog of this methodology at the gigahertz frequency regime.

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Virtual ground fence: A methodology for GHz power filtering on printed circuit boards

2012

Power distribution network design and characterization using virtual ground fence

2012

Virtual Ground Fence: A Simple Method for Protection against High Frequency Simultaneous Switching Noise

2012

When integrating sensitive RF analog devices with complex VLSI digital components, simultaneously switching drivers cause supply voltage fluctuations which can propagate both horizontally and vertically between the power/ground planes. The same voltage source on a printed circuit board can be shared to increase power efficiency and reduce space used. In order to accomplish this, on board filtering is needed to isolate the noise between these two types of devices for proper operation. Hence, accurate estimation and improvement of the performance of power/ground planes is critical in a mixed-signal system. We present a new method to minimize the noise transfer at high frequencies to the power distribution system, called the Virtual Ground Fence. At its basic level, the Virtual Ground Fence consists of quarter-wave transmission-line stubs that act as short circuits between power and ground planes at their design frequency. We will present various configurations of Virtual Ground Fence for different coupling scenarios.

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Virtual ground fence options for shielding power plane noise

2014