20100169017 | APPARATUS AND METHOD FOR MEASURING PRECIPITATION - A precipitation gauge for measuring liquid and frozen precipitation is provided according to the present invention that includes a support structure having at least one light sensor, or pair of electrodes, and at least one light source disposed thereon so that the light sensor may receive light that is emitted from the light source. The light sensor or light sensors and the light source or light sources generally extend a substantial height of the support structure. The light sensor or light sensors generate an output signal in response to the amount of light received from the light source. A microprocessor receives the output signal or output signals from the light sensor or light sensors and determines whether precipitation is present between the light sensor or light sensors and the light source or light sources. Based on the output signal or output signals, the microprocessor determines and displays the level of precipitation. The microprocessor may also determine the density of frozen precipitation. A heating element is disposed on the support structure to melt frozen precipitation. The microprocessor determines the density of the frozen precipitation from the amount of frozen precipitation and the amount of liquid that results from melting the frozen precipitation. Alternatively, the microprocessor determines the density of frozen precipitation from the amount of frozen precipitation and the weight of the frozen precipitation. A temperature sensor, a moisture sensor, and/or a humidity sensor are located at or near the support structure and are connected to the microprocessor. A method for measuring the amount of precipitation and the density of frozen precipitation is also disclosed. | 07-01-2010 |