Major Experimental Facilities for Development of Accelerator-Driven Subcritical System

Verma, Vinod Kumar; Katovsky, Karel

doi:10.1007/978-981-10-7503-2_6

Cited by 1 publication

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“…Similarly, 650 MHz is used for later cavities, and is also called the frequency jump [8]. The frequency jump structure is widely adopted for obtaining high intensity proton beams in the design of the ADS [9,10].…”

Section: Introductionmentioning

confidence: 99%

Multi-frequency point supported LLRF front-end for CiADS wide-bandwidth application

et al. 2020

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The China initiative Accelerator Driven System, CiADS, physics design adopts 162.5 MHz, 325 MHz, and 650 MHz cavities, which are driven by the corresponding radio frequency (RF) power system, requiring frequency translation front-end for the RF station. For that application, a general-purpose design front-end prototype has been developed to evaluate the multi-frequency point supported design feasibility. The difficult parts to achieve the requirements of the general-purpose design are reasonable device selection and balanced design. With a carefully selected low-noise wide-band RF mixer and amplifier to balance the performance of multifrequency supported down-conversion, specially designed local oscillator (LO) distribution net to increase isolation between adjacent channels, and external band-pass filter to realize expected up-conversion frequencies, high maintenance and modular front-end general-purpose design has been implemented. Results of standard parameters show an R 2 value of at least 99.991% in the range of −60 ∼ 10 dBm for linearity, up to 18 dBm for P1dB, and up to 89 dBc for crosstalk between adjacent channels. The phase noise spectrum is lower than 80 dBc in the range of 0 ∼ 1 MHz, and cumulative phase noise is 0.006 • ; amplitude and phase stability are 0.022% and 0.034 • , respectively.

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Section: Introductionmentioning

confidence: 99%