SESSION 35 Implantable and Wearable Biomedical Devices.pdf

1、ISSCC 2025SESSION 35 Implantable and Wearable Biomedical Devices35.1:A Single-Inductor-Based High-Voltage Transmit Beamformer for Wearable Ultrasound Devices Achieving 88%fCV2Power Reduction 2025 IEEE International Solid-State Circuits Conference1 of 44A Single-Inductor-Based High-Voltage Transmit B

2、eamformer for Wearable Ultrasound Devices Achieving 88%fCV2Power Reduction Peng Guo,Zu-Yao Chang,Michiel A.P.Pertijs,Tiago L.Costa 35.1:A Single-Inductor-Based High-Voltage Transmit Beamformer for Wearable Ultrasound Devices Achieving 88%fCV2Power Reduction 2025 IEEE International Solid-State Circui

3、ts Conference2 of 44OutlineIntroductionArchitectureCircuit ImplementationMeasurement ResultsConclusion35.1:A Single-Inductor-Based High-Voltage Transmit Beamformer for Wearable Ultrasound Devices Achieving 88%fCV2Power Reduction 2025 IEEE International Solid-State Circuits Conference3 of 44Introduct

4、ion35.1:A Single-Inductor-Based High-Voltage Transmit Beamformer for Wearable Ultrasound Devices Achieving 88%fCV2Power Reduction 2025 IEEE International Solid-State Circuits Conference4 of 44Ultrasonic Vagus Nerve Stimulation35.1:A Single-Inductor-Based High-Voltage Transmit Beamformer for Wearable

5、 Ultrasound Devices Achieving 88%fCV2Power Reduction 2025 IEEE International Solid-State Circuits Conference5 of 44TX Beamforming35.1:A Single-Inductor-Based High-Voltage Transmit Beamformer for Wearable Ultrasound Devices Achieving 88%fCV2Power Reduction 2025 IEEE International Solid-State Circuits

6、 Conference6 of 44Focused Ultrasound35.1:A Single-Inductor-Based High-Voltage Transmit Beamformer for Wearable Ultrasound Devices Achieving 88%fCV2Power Reduction 2025 IEEE International Solid-State Circuits Conference7 of 44Optical Fresnel Lens35.1:A Single-Inductor-Based High-Voltage Transmit Beam