25–29 May 2026
La Biodola - Isola d'Elba (Italy)
Europe/Rome timezone
Deadline for submission of Conference Records and TNS manuscripts extended to July 6, 2026.

132 Millimeter-Wave-Based Wireless Transmission System for CEPC Detector

25 May 2026, 11:55
2m
Maria Luisa Room (Hotel Hermitage)

Maria Luisa Room

Hotel Hermitage

Mini Oral Front-End Electronics, Fast Digitizers, Fast Transfer Links & Networks Mini Orals

Speaker

Dr Jun Hu (Institute of High Energy Physics, Chinese Academy of Sciences)

Description

To meet the Circular Electron-Positron Collider (CEPC) Detector’s demand for low-material-budget and high-reliability data transmission, this study proposes a 60 GHz millimeter-wave (mm-wave) transmission system. The core transceiver chips were verified radiation-tolerant: they maintained stable communication under 7 Mrad X-ray irradiation (5.5 h) and 1.2×1012 neq/cm² neutron irradiation (21 h), satisfying CEPC’s harsh radiation requirements. Optimized with low-noise amplifiers and patch antennas (replacing horn antennas), the system achieved a maximum transmission rate of 6.25 Gbps at 67.5 cm, with negligible crosstalk with the Taichu3 Vertex Pixel prototype chip. A multi-channel system integrated via flexible PCBs realized error-free transmission (BER < 1e-14) at up to 18.75 Gbps over 30 cm, offering a scalable, low-cable solution for CEPC and other high-energy physics experiments.

Minioral Yes
IEEE Member No
Are you a student? No

Authors

Dr Jun Hu (Institute of High Energy Physics, Chinese Academy of Sciences) Mr Song Chongyao (Institute of High Energy Physics, Chinese Academy of Sciences)

Presentation materials