On the design and manufacturing of miniaturized microstripline power splitters for driving multicoil transmit arrays with arbitrary ratios at 7 T

Abstract: The purpose of the current study was to implement unequal microstrip power splitters for parallel transmission at 7 T that are optimized for size and loss and that can be configured for a wide range of power ratios. The splitters will enable the use of more transmit coils without a corresponding increase in the number of transmit channels or amplifiers to control specific absorption rate, shorten RF pulses, and shim inhomogeneous RF fields. Wilkinson unequal power splitters based on a novel microstrip network … Show more

“…The attenuation is determined by the phase difference of the transmission lines. Several recent designs by the same group [65][66][67], including the ratio-adjustable power splitter (RAPS), achieves the amplitude weight adjusting through a specially designed power splitter alone, avoiding a dedicated attenuator and the associated power loss.…”

A Review of Current Control and Decoupling Methods for MRI Transmit Arrays

“…The attenuation is determined by the phase difference of the transmission lines. Several recent designs by the same group [65][66][67], including the ratio-adjustable power splitter (RAPS), achieves the amplitude weight adjusting through a specially designed power splitter alone, avoiding a dedicated attenuator and the associated power loss.…”

A Review of Current Control and Decoupling Methods for MRI Transmit Arrays