System and method for generating corrected sensor data

What is claimed is: 1. A method for capacitive sensing comprising: acquiring first capacitive sensor data from a plurality of sensor electrodes by operating the plurality of sensor electrodes for trans capacitive sensing signals during one or more trans capacitive sensing blocks; acquiring second capacitive sensor data from the plurality of sensor electrodes by operating the sensor electrodes for absolute capacitive sensing during a first one or more absolute capacitive sensing blocks, wherein acquiring the second capacitive sensor data by operating the sensor electrodes for absolute capacitive sensing during the first one or more absolute capacitive sensing blocks comprises: acquiring first absolute capacitive sensor data from first sensor electrodes of the plurality of sensor electrodes during a first absolute capacitive sensing block, wherein the first absolute capacitive sensing block occurs before the one or more transcapacitive sensing blocks; and acquiring second absolute capacitive sensor data from second sensor electrodes of the plurality of sensor electrodes during a second absolute capacitive sensing block, and wherein the second absolute capacitive sensing block occurs after the one or more transcapacitive sensing blocks; and determining positional information for one or more input objects based on the first capacitive sensor data and the second capacitive sensor data. 2. The method of claim 1 , wherein determining the positional information for the one or more input objects comprises: comparing the first absolute capacitive sensor data with the second absolute capacitive sensor data; and adjusting the first capacitive sensor data based on a difference between first absolute capacitive sensor data and the second absolute capacitive sensor data. 3. A method for capacitive sensing comprising: acquiring first capacitive sensor data from a plurality of sensor electrodes by operating the plurality of sensor electrodes for trans capacitive sensing signals during one or more trans capacitive sensing blocks; acquiring second capacitive sensor data from the plurality of sensor electrodes by operating the sensor electrodes for absolute capacitive sensing during a first one or more absolute capacitive sensing blocks; acquiring third capacitive sensor data from the plurality of sensor electrodes by operating the plurality of sensor electrodes for absolute capacitive sensing during a second one or more absolute capacitive sensing blocks, wherein the first one or more absolute capacitive sensing blocks occur before the one or more transcapacitive sensing blocks and the second one or more absolute capacitive sensing blocks occur after the one or more transcapacitive sensing blocks; comparing the second capacitive sensor data with the third capacitive sensor data; and determining positional information for one or more input objects based on the first capacitive sensor data and the second capacitive sensor data, wherein determining the positional information for the one or more input objects is further based on the comparison of the second capacitive sensor data with the third capacitive sensor data. 4. The method of claim 3 , wherein: acquiring the second capacitive sensor data comprises: acquiring first absolute capacitive sensor data from first sensor electrodes of the plurality of sensor electrodes during a first absolute capacitive sensing block; and acquiring second absolute capacitive sensor data from second sensor electrodes of the plurality of sensor electrodes during a second absolute capacitive sensing block, wherein the first and second absolute capacitive sensing blocks occur before the one or more transcapacitive sensing blocks; acquiring the third capacitive sensor data comprises: acquiring third absolute capacitive sensor data from the first sensor electrodes during a third absolute capacitive sensing block; acquiring fourth absolute capacitive sensor data from the second sensor electrodes during a fourth absolute capacitive sensing block, and wherein the third and fourth absolute capacitive sensing blocks occur after the one or more transcapacitive sensing blocks; and comparing the second capacitive sensor data with the third capacitive sensor data comprises: comparing the first absolute capacitive sensor data with the third absolute capacitive sensor data; and comparing the second absolute capacitive sensor data with the fourth absolute capacitive sensor data to generate updated absolute capacitive sensor data. 5. A processing system comprising: a sensor module comprising sensor circuitry, the sensor module coupled to a plurality of sensor electrodes and configured to: acquire first capacitive sensor data from the plurality of sensor electrodes by operating the plurality of sensor electrodes for trans capacitive sensing signals during one or more transcapacitive sensing blocks; and acquire second capacitive sensor data from the plurality of sensor electrodes by operating the sensor electrodes for absolute capacitive sensing during a first one or more absolute capacitive sensing blocks, wherein acquiring the second capacitive sensor data comprises: acquiring first absolute capacitive sensor data from first sensor electrodes of the plurality of sensor electrodes during a first absolute capacitive sensing block, wherein the first absolute capacitive sensing block occurs before the one or more transcapacitive sensing blocks; and acquiring second absolute capacitive sensor data from second sensor electrodes of the plurality of sensor electrodes during a second absolute capacitive sensing block, and wherein the second absolute capacitive sensing block occurs after the one or more transcapacitive sensing blocks; and a determination module configured to determine positional information for one or more input objects based on the first capacitive sensor data and the second capacitive sensor data. 6. The processing system of claim 5 , wherein determining the positional information for the one or more input objects comprises: comparing the first absolute capacitive sensor data with the second absolute capacitive sensor data; and adjusting the first capacitive sensor data based on a difference between first absolute capacitive sensor data and the second absolute capacitive sensor data. 7. A processing system comprising: a sensor module comprising sensor circuitry, the sensor module coupled to a plurality of sensor electrodes and configured to: acquire first capacitive sensor data from the plurality of sensor electrodes by operating the plurality of sensor electrodes for trans capacitive sensing signals during one or more trans capacitive sensing blocks; and acquire second capacitive sensor data from the plurality of sensor electrodes by operating the sensor electrodes for absolute capacitive sensing during a first one or more absolute capacitive sensing blocks; and acquire third capacitive sensor data from the plurality of sensor electrodes by operating the plurality of sensor electrodes for absolute capacitive sensing during a second one or more absolute capacitive sensing blocks, wherein the first one or more absolute capacitive sensing blocks occur before the one or more transcapacitive sensing blocks and the second one or more absolute capacitive sensing blocks occur after the one or more transcapacitive sensing blocks; a determination module configured to determine positional information for one or more input objects based on the first capacitive sensor data and the second capacitive sensor data, compare the second capacitive sensor data with the third capacitive sensor data, and wherein determining the positional information for the one or more input objects is further based on the comparison of the second capacitive sensor data with the third capa