Tsinghua Zheng scite author profile

Tsinghua Zheng

2Publications

56Citation Statements Received

58Citation Statements Given

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Affiliations

Quality Electrodynamics (United States), General Electric (United States)

Publications

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RF Surface Receive Array Coils: The Art of an LC Circuit

Fujita

Zheng

Yang

et al. 2013

J. Magn. Reson. Imaging

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The radiofrequency (RF) receive array coil is a complicated device with many inductors and capacitors and serves as one of the most critical magnetic resonance imaging (MRI) electronic devices. It directly determines the achievable level of signal-to-noise ratio (SNR). Simply put, however, the RF coil is nothing but an LC circuit. The receive array coil was first proposed more than 20 years ago, evolving from a simple arrangement with a few electronic channels to a complicated system of 128 channels, enabling highly sophisticated parallel imaging, at different field strengths. This article summarizes the basic concepts pertaining to RF receive coil arrays and their associated SNR and reviews the theories behind the major components of such arrays. This includes discussions of the intrinsic SNR of a receive coil, the matching circuits, low-noise preamplifiers, coupling/decoupling amongst coils, the coupling between receive and transmit coils, decoupling via preamplifiers, and baluns. An 8-channel receive array coil on a cylindrical former serves as a useful example for demonstrating various points in the review.

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A method for preamplifier‐decoupling improvement in quadrature phased‐array coils

Guclu

Boskamp

Zheng

et al. 2004

Magnetic Resonance Imaging

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Purpose: To improve preamplifier decoupling in a quadrature phased-array coil using a new quadrature combiner configuration. Materials and Methods:A commercial six-element quadrature cervical-thoracic-lumbar (CTL) coil was used on a 1.5 T GE Signa Lx Scanner. The new combiner configuration is designed based on the fact that when one compares the amount of flux linkage of two loops with butterfly elements separated by the same distance, the loop elements have much higher coupling than the butterfly elements. Results:The results are demonstrated using an imagingbased element coupling measurement method. The new quadrature combiner configuration has introduced an approximately -8dB improvement in preamplifier decoupling. Conclusion:One-dimensional quadrature phased arrays can be built even if the preamplifier is not integrated in the coil. If the combiner is placed between the coil and the preamplifiers, the butterflies should be on the high impedance side of the quadrature combiner. The loops should see the low input impedance of the preamplifiers.

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Tsinghua Zheng

RF Surface Receive Array Coils: The Art of an LC Circuit

A method for preamplifier‐decoupling improvement in quadrature phased‐array coils

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