A process- and temperature-independent inverter-comparator for pulse width modulation applications
This paper presents a self-tuning inverter-comparator for a pulse width modulator (PWM) for Class D amplifiers. The inherent threshold voltage of the inverter-comparator, V sub(THC), is independent of process- and temperature-variations by means of a self-tuning mechanism. The measured duty cycle er...
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| Veröffentlicht in: | Analog integrated circuits and signal processing 2001-04, Vol.27 (1-2), p.95-107 |
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| container_title | Analog integrated circuits and signal processing |
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| creator | Tan, M T Chang, J S Tong, Y C |
| description | This paper presents a self-tuning inverter-comparator for a pulse width modulator (PWM) for Class D amplifiers. The inherent threshold voltage of the inverter-comparator, V sub(THC), is independent of process- and temperature-variations by means of a self-tuning mechanism. The measured duty cycle error of the PWM at zero-input is typically 0.5%; an error less than or equal to 2% is typically specified in practical realisations. This is achieved without any post-fabrication trimming or calibration. The PWM is realised by a very simple circuit and can be readily fabricated in a low-cost CMOS process. The PWM prototype ICs met all design specifications and the proposed inverter-comparator is suitable for micropower low-voltage applications including hearing instruments. |
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| title | A process- and temperature-independent inverter-comparator for pulse width modulation applications |
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