A 12-Bit Ratio-Independent Algorithmic A/D Converter for a Capacitive Sensor Interface

A 12-Bit Ratio-Independent Algorithmic A/D Converter for a Capacitive Sensor Interface

This paper describes a ratio-independent algorithmic analog-digital (A/D) converter architecture that is insensitive to capacitance ratio, amplifier offset voltage, amplifier input parasitics, and flicker noise. It requires only one differential amplifier, a dynamic latch, six capacitors, 36 switche...

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Veröffentlicht in:IEEE transactions on circuits and systems. I, Regular papers Regular papers, 2008-04, Vol.55 (3), p.730-740
Hauptverfasser: Jarvinen, J.A.M., Saukoski, M., Halonen, K.A.I.
Format: Artikel
Sprache:eng
Schlagworte:
1f noise
Accelerometer
algorithmic analog-digital (A/D) converter
Algorithms
Amplifiers
Analog-digital conversion
Capacitance
Capacitive sensors
Capacitors
CMOS logic circuits
Converters
Differential amplifiers
Dynamical systems
Dynamics
Logic
low power
Parasitic capacitance
Power dissipation
ratio independent
sensor
Switches
Voltage
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Beschreibung
Zusammenfassung:This paper describes a ratio-independent algorithmic analog-digital (A/D) converter architecture that is insensitive to capacitance ratio, amplifier offset voltage, amplifier input parasitics, and flicker noise. It requires only one differential amplifier, a dynamic latch, six capacitors, 36 switches, and some digital logic. The prototype 12-bit, 40-kS/s A/D converter (ADC) with an active die area of 0.041 mm 2 is implemented in a 0.13-mum CMOS. The power dissipation is minimized using a dynamically biased operational amplifier. With a 68.4-muW power dissipation, the ADC achieves 80.2-dB spurious-free dynamic range and 63.3-dB signal-to-noise and distortion ratio.
ISSN:1549-8328
1558-0806
DOI:10.1109/TCSI.2008.919749