TPS Storage and Booster Ring Cable Tray Installation Status and CIA Design Arrangement

Liu, Yung-Hui; Chen, June-Rong

doi:10.18429/jacow-ipac2014-thpme198

Cited by 1 publication

(1 citation statement)

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“…Installing the return cable is crucial in the TPS storage ring dipole system. The cable connections in the TPS storage ring are shown in figure 3, and installing the return cable effectively reduces parasitic inductance, achieving the expected function [15,16]. The unipolar power supply is specifically designed for the TPS storage ring dipole magnets.…”

Section: Storage Ring Dipole Magnet Power Supplymentioning

confidence: 99%

Optimization stability and performance of the TPS storage ring dipole magnet power supply

Wang,

Liu,

Liu

et al. 2024

J. Inst.

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This article focuses on the current status of the dipole magnet power supply (DMPS) and improvement in the Taiwan Photon Source (TPS) storage ring. The DMPS provides a stable and precise magnetic field for the storage ring operation. Appropriate wiring methods are employed to minimize magnetic field interference across the entire TPS area to meet the demands of high-energy output and overcome the challenges of operating at high currents. The target energy is set at 850 V and 750 A, utilizing a single-pole switching voltage regulator as a high-precision constant current source output structure. The system incorporates a closed control loop that uses the Direct Current Current Transducer (DCCT) to provide current signal feedback to the system. FPGA (Field-Programmable Gate Array) calculates PID (Proportional-Integral-Derivative) compensation values, generating a 2.1 kHz pulse width modulation (PWM) signal to regulate the output current. At the same time, insulated gate bipolar transistor (IGBT) modules are switching components. However, even after several years of practical operation, the stability and performance of the DMPS in the storage ring still require improvements. To enhance long-term output current stability and address peripheral issues, the current TPS utilizes the Beam Orbit Feedback (FOFB) system to suppress and fine-tune the magnetic field and compensate for the impact of temperature drift on the DMPS's output current. This improvement ensures a more stable circulation of the photon beam within the storage ring. By optimizing the temperature control circuit of the main control card, the long-term output current stability has been successfully enhanced to within ± 10 ppm. Simultaneously, the FOFB system reduces uncertainties in adjusting the X-axis beam position, improving beam stability and quality. Furthermore, relevant protective measures have been implemented to ensure robust system operation. Ultimately, these improvement measures have successfully met TPS's stringent requirements for the DMPS, enabling the synchrotron accelerator light source to operate at higher performance levels and fostering advanced scientific research. The results of these upgrades underscore the success of the power supply enhancements, making significant contributions to the overall improvement of the Taiwan Photon Source facility.

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Section: Storage Ring Dipole Magnet Power Supplymentioning

confidence: 99%