SHOKRI, REZA
SHOKRI, REZA
100026 - Dipartimento di Ingegneria navale, elettrica, elettronica e delle telecomunicazioni
A Nonlinear, Low-Power, VCO-Based ADC for Neural Recording Applications
2023-01-01 Shokri, Reza; Koolivand, Yarallah; Shoaei, Omid; Aiello, Orazio; Caviglia, Daniele
A Reconfigurable, Nonlinear, Low-Power, VCO-Based ADC for Neural Recording Applications
2024-01-01 Shokri, Reza; Koolivand, Yarallah; Shoaei, Omid; Caviglia, Daniele D.; Aiello, Orazio
Highly Linear, Digital OTA With Modified Input Stage
2024-01-01 Shokri, Reza; Caviglia, Daniele D.; Aiello, Orazio
Multipolar Stimulator for DBS Application with Concurrent Imbalance Compensation
2023-01-01 Shokri, Reza; Koolivand, Yarallah; Shoaei, Omid; Aiello, Orazio; Caviglia, Daniele D.
Multipolar Stimulator for Deep Brain Stimulation With Suppression of Stimulation-Induced Common-Mode Artifacts
2025-01-01 Shokri, Reza; Koolivand, Yarallah; Shoaei, Omid; Caviglia, Daniele D.; Aiello, Orazio
Sub-10nW, 73dB Gain, Inverter-Based Digital OTA with C-Muller Input Stage and Novel CMFB for Enhanced Performance in IoT Applications
2025-01-01 Sala, Riccardo Della; Shokri, Reza; Aiello, Orazio; Caviglia, Daniele D.; Scotti, Giuseppe
| Titolo | Data di pubblicazione | Autore(i) | File |
|---|---|---|---|
| A Nonlinear, Low-Power, VCO-Based ADC for Neural Recording Applications | 1-gen-2023 | Shokri, Reza; Koolivand, Yarallah; Shoaei, Omid; Aiello, Orazio; Caviglia, Daniele | |
| A Reconfigurable, Nonlinear, Low-Power, VCO-Based ADC for Neural Recording Applications | 1-gen-2024 | Shokri, Reza; Koolivand, Yarallah; Shoaei, Omid; Caviglia, Daniele D.; Aiello, Orazio | |
| Highly Linear, Digital OTA With Modified Input Stage | 1-gen-2024 | Shokri, Reza; Caviglia, Daniele D.; Aiello, Orazio | |
| Multipolar Stimulator for DBS Application with Concurrent Imbalance Compensation | 1-gen-2023 | Shokri, Reza; Koolivand, Yarallah; Shoaei, Omid; Aiello, Orazio; Caviglia, Daniele D. | |
| Multipolar Stimulator for Deep Brain Stimulation With Suppression of Stimulation-Induced Common-Mode Artifacts | 1-gen-2025 | Shokri, Reza; Koolivand, Yarallah; Shoaei, Omid; Caviglia, Daniele D.; Aiello, Orazio | |
| Sub-10nW, 73dB Gain, Inverter-Based Digital OTA with C-Muller Input Stage and Novel CMFB for Enhanced Performance in IoT Applications | 1-gen-2025 | Sala, Riccardo Della; Shokri, Reza; Aiello, Orazio; Caviglia, Daniele D.; Scotti, Giuseppe |