Session
2025 Session 6
Location
Brigham Young University Engineering Building, Provo, UT
Start Date
5-5-2025 11:10 AM
Description
This paper presents a complete system integration strategy for a proven Charge Detection Mass Spectrometry (CDMS) instrument designed to analyze charged dust particles on Mars. To enable deployment in a power-constrained rover environment, an ultra-low supply voltage (ULV) analog-to-digital converter (ADC) is required. ADC architectures operating below 0.21 V are compared to identify candidates that meet the system's stringent power and performance demands. A voltage-controlled oscillator (VCO)-based ADC is proposed and for ULV operation. Circuit-level implementations of VCO topologies are designed and evaluated in the TSMC 28 nm CMOS process using Cadence simulations. Based on simulation results, a VCO-CDAC topology is selected for future integration into the full ADC architecture.
Ultra-Low Power ADCs for Charge Detection Mass Spectrometry of Martian Dust
Brigham Young University Engineering Building, Provo, UT
This paper presents a complete system integration strategy for a proven Charge Detection Mass Spectrometry (CDMS) instrument designed to analyze charged dust particles on Mars. To enable deployment in a power-constrained rover environment, an ultra-low supply voltage (ULV) analog-to-digital converter (ADC) is required. ADC architectures operating below 0.21 V are compared to identify candidates that meet the system's stringent power and performance demands. A voltage-controlled oscillator (VCO)-based ADC is proposed and for ULV operation. Circuit-level implementations of VCO topologies are designed and evaluated in the TSMC 28 nm CMOS process using Cadence simulations. Based on simulation results, a VCO-CDAC topology is selected for future integration into the full ADC architecture.