Patent ID: 7230431
Filing Date: 2007-06-12
Classification: G01N,G01R

Abstract:
1. A reset circuit for an integrating amplifier, including: first comparator circuitry having a first input terminal, a second input terminal and a first output terminal; a first conductive path adapted to couple the first input terminal to a feedback loop of an integrating amplifier between an integrator output of the integrating amplifier and an integrating capacitor along the feedback loop, whereby a comparator input voltage at the first input terminal is changed in a predetermined first direction and in proportion to an amplitude of an incoming current during integration of the incoming current; a substantially stable first voltage source for biasing the second input terminal at a first threshold voltage level selected to determine one end of an operating range for integration, wherein the comparator input voltage, when in said range and when so changed during integration, approaches the first threshold voltage level; a second conductive path coupling the first output terminal to the feedback loop; power control circuitry having a fifth input terminal coupled to the first output terminal, a third output terminal, and a fourth conductive path adapted to couple the third output terminal to an input of the integrating amplifier to provide power to the integrating amplifier, wherein the power control circuitry is adapted to generate a substantially stable high voltage during integration, and to switch from the high voltage to a substantially stable low voltage in response to receiving the high voltage from the first comparator circuitry, thereby to shut off power to the integrating amplifier; wherein the first comparator circuitry is adapted, in response to detecting movement of the comparator input voltage out of the operating range beyond the first threshold voltage level, to generate a predetermined first comparator output voltage level at the first output terminal and to apply the first comparator output voltage level to the feedback loop via the second conductive path, thereby to drive the comparator input voltage in a second direction opposite said first direction to a point within the operating range for further integration of the incoming current; wherein the first comparator circuitry further is adapted to stop the application of the first comparator output voltage level to the feedback loop, responsive to detecting movement of the comparator input voltage, during said application, in the second direction beyond the first threshold voltage level and into the operating range; wherein the comparator input voltage, when in the operating range, is higher than the first threshold voltage level, and is reduced during integration of the incoming current; wherein the substantially stable first comparator output voltage level is a high voltage selected to rapidly charge the integrating capacitor; and wherein the first comparator circuitry is adapted to alternatively generate said high voltage and a substantially stable low voltage, wherein applying the first comparator output voltage to the feedback loop consists essentially of switching from the low voltage to the high voltage, and stopping the application to the feedback loop consists essentially of switching from the high voltage to the low voltage.