A CRYO-CMOS RF-DAC Based Super-Heterodyne Transmitter for Superconducting Qubit Control

Yuan, Fengen; Su, Hao; Zou, Yating; Peng, Yatao; Yin, Jun; Yan, Fei; Charbon, Edoardo; Martins, Rui P.; Mak, Pui In

doi:10.23919/VLSITechnologyandCir65189.2025.11074957

conference paper

A CRYO-CMOS RF-DAC Based Super-Heterodyne Transmitter for Superconducting Qubit Control

Yuan, Fengen

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Su, Hao

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Zou, Yating

2025

2025 Symposium on VLSI Technology and Circuits [Digest of Technical Papers]

2025 IEEE Symposium on VLSI Technology and Circuits: “Cultivating the VLSI Garden: From Seeds of Innovation to Thriving Growth“

Multiple Qubits should be manipulated to perform practical quantum computing, which requires a broad frequency range for the qubit control chip. We present a 4 K cryo-CMOS quantum control chip featuring a Mixing (MIX)/ Non-return-to-zero (NRZ) mode radio frequency digital to analog converter (RF-DAC) and an up-conversion mixer. By opting for Mixing Mode RF-DAC and a mixer for two-stage frequency up-conversion instead of direct-conversion or other methods, our controller can achieve a wider modulated frequency range and lower power consumption.