An analog circuit 20 includes an amplifier 30 with a positive input node, a negative input node, a positive output node and a negative output node. A first capacitor 32 is coupled between the negative input node and an analog signal node. A second capacitor 34 is coupled between the positive input node and a reference voltage node. In addition, a third capacitor 36 is coupled between the positive input node and the negative output node and a fourth capacitor 38 is coupled between the negative input node and the positive output node. A first switch 40 is coupled between the third capacitor 36 and the negative output node and a second switch 42 is coupled between the fourth capacitor 38 and the positive output node. An inverter coupled to the analog signal node drives common mode capacitors coupled between the output of the inverter and the respective negative and positive input nodes.
An offset correction circuit which enables a designer to control the correction range irrespective of the amplification sought to be achieved to the image component of the input signal. The offset correction further enables the designer to perform offset correction to a low resolution. Both range and resolution can potentially be attained using only two stages thereby minimizing power consumption and also minimizing introduction of any undesirable components.
A system and method of processing signals generated at a detector of a mass spectrometer prior to signal conversion in which a pre-ADC offset is applied to the signals that is adjustable in polarity and magnitude in accordance with a user-selected mode. According to a first mode, a positive offset is applied to the signals to improve quantitation accuracy and in a second mode, a negative offset is applied to the signals to improve resolution and mass assignment.
An integrated circuit for sampling outputs representing a pixel value comprises two first variable capacitors each having a variable range of capacitance and each for receiving the voltage representing the pixel value; two first transistors respectively connected electrically to each of the first variable capacitors for transferring the voltage to each of the variable capacitors; and a second transistor connected electrically to each of the first variable capacitors for transferring the voltage from each of the first variable capacitors.
6783073 - Image input system - Owned by Renesas Technology Corp. (Tokyo,JP) Hitachi Tohbu Semiconductor, Ltd. (Gunma,JP)
An image input system includes a solid state image pickup device and a preprocessor for performing correlated double sampling amplification on an output of the image pickup device and outputting a video signal. The preprocessor has a correlated double sampling amplifier for outputting signal information corresponding to a difference voltage between the black level in a feedthrough period of the image pickup device and a signal level in a charge signal output period; and an offset cancelling circuit for cancelling an offset voltage corresponding to the difference voltage in a state where the image pickup device is optically interrupted to the input terminal of the correlated double sampling amplifier. The correlated double sampling amplifier cancels out the offset voltage and the offset cancelling voltage as signal components of polarities opposite to each other, so that circuits following the correlated double sampling amplifier are not influenced by the offset voltage.
