Abstract: A push-pull dynamic amplifier is operable in reset and amplification phases. The amplifier includes first NMOS and PMOS input transistors that are electrically coupled to a first input terminal and a first output terminal. Second NMOS and PMOS input transistors are electrically coupled to a second input terminal and a second output terminal. First and second reset switches are electrically coupled to the first and second output terminals, respectively. A power supply switch is electrically coupled to the first and the second PMOS transistors, and a ground switch is electrically coupled to the first and the second NMOS transistors. During the reset phase, the reset switches are closed and the power supply switch and the ground switch are opened. During the amplification phase, the reset switches are opened and the power supply switch and the ground switch are closed.

Abstract: A push-pull dynamic amplifier is operable in reset and amplification phases. The amplifier includes first NMOS and PMOS input transistors that are electrically coupled to a first input terminal and a first output terminal. Second NMOS and PMOS input transistors are electrically coupled to a second input terminal and a second output terminal. First and second reset switches are electrically coupled to the first and second output terminals, respectively. A power supply switch is electrically coupled to the first and the second PMOS transistors, and a ground switch is electrically coupled to the first and the second NMOS transistors. During the reset phase, the reset switches are closed and the power supply switch and the ground switch are opened. During the amplification phase, the reset switches are opened and the power supply switch and the ground switch are closed.

Abstract: Integrator circuits comprising switched capacitors, non-switched capacitors, and an op amp. One embodiment is directed to an integrator circuit comprising an op amp having an inverting input, a non-inverting input, an inverting output and a non-inverting output, a first sampling capacitor and a first feedback capacitor, and a first non-switched capacitor. The first feedback capacitor is coupled between the inverting input and the non-inverting output of the op amp, and the first non-switched capacitor is coupled between the negative integrator input and the inverting input of the op amp. During a sampling phase, a positive integrator input is coupled to the first sampling capacitor, and during an integration phase, a charge sampled across the first sampling capacitor during the sampling phase is transferred to the first integration capacitor.

Abstract: Integrator circuits comprising switched capacitors, non-switched capacitors, and an op amp. One embodiment is directed to an integrator circuit comprising an op amp having an inverting input, a non-inverting input, an inverting output and a non-inverting output, a first sampling capacitor and a first feedback capacitor, and a first non-switched capacitor. The first feedback capacitor is coupled between the inverting input and the non-inverting output of the op amp, and the first non-switched capacitor is coupled between the negative integrator input and the inverting input of the op amp. During a sampling phase, a positive integrator input is coupled to the first sampling capacitor, and during an integration phase, a charge sampled across the first sampling capacitor during the sampling phase is transferred to the first integration capacitor.