Differential pressure sensor with dual output using a double-sided capacitive sensing element

What is claimed is: 1. A differential pressure sensor comprising: a first pressure transducer having a first deflection surface, said first pressure transducer integrated with a first substrate, the first deflection surface and the first substrate enclosing a first volume; a second pressure transducer having a second deflection surface, said second pressure transducer integrated with a second substrate, the second deflection surface and the second substrate enclosing a second volume independent from the first volume and wherein the second pressure transducer operates independently from the first pressure transducer forming a double-sided differential pressure transducer; and the first pressure transducer configured to be exposed to a first transient fluid and the second pressure transducer configured to be exposed to a second transient fluid, the first and second pressure transducers being arranged with respective deflection surfaces directed outwardly from each other and within a distance that, when the deflecting surfaces are observed together, the differential pressure sensor outputs a signal representative of a differential pressure of the first transient fluid and the second transient fluid without a representation of a common mode pressure of the first and second transient fluids. 2. The differential pressure sensor of claim 1 , wherein the first and second substrates are opposing volumes of a common substrate. 3. The differential pressure sensor of claim 1 , wherein the first and second pressure transducers are arranged with respective deflection surfaces directed outwardly from each other along a common perpendicular axis relative to the deflection surfaces. 4. The differential pressure sensor of claim 1 , wherein the first and second transient fluids are the same fluid at different locations within a flow path. 5. The differential pressure sensor of claim 1 , wherein said first and second deflection surfaces are surfaces of respective first and second diaphragms, said first and second diaphragms positioned offset from respective substrates with spacers configured to create a gap between internal surfaces of said first and second diaphragms and the respective substrates. 6. The differential pressure sensor of claim 5 , wherein the spacers are glass spacers. 7. The differential pressure sensor of claim 1 , wherein each of said first and second pressure transducers includes a diaphragm, first and second conductive plate electrodes arranged in parallel, and first and second electrode leads in electrical communication with the respective conductive plate electrodes, wherein: the first conductive plate electrodes are positioned on internal surfaces of said respective diaphragms and the second conductive plate electrodes are positioned on the respective substrates, said first and second conductive plate electrodes offset by a gap distance between the respective opposite conductive plate electrodes, said gap distance changing based on changes in the pressure applied to the respective diaphragm by the respective transient fluid. 8. The differential pressure sensor of claim 7 , wherein the diaphragm is a ceramic diaphragm. 9. An internal combustion engine comprising: first and second transient fluids; an engine controller configured to control an operational feature of the engine; a sensor with a pair of pressure transducers that share a common substrate and are in electrical communication with the engine controller, the sensor comprising an output, from an applicant specific integrated circuit, ASIC, to provide a differential pressure of the first and second transient fluids to the controller without a representation of a common mode of the first and second transient fluids, wherein the pair of pressure transducers operate independently as a double-sided capacitive pressure transducer. 10. The internal combustion engine of claim 9 , further including an exhaust gas recirculation valve having an intake pressure and an exhaust pressure, wherein the pair of pressure transducers are configured to measure transient fluid pressures of the intake pressure and the exhaust pressure and provide same absent a representation of a common mode of the intake an exhaust pressures to the controller. 11. The internal combustion engine of claim 10 , wherein the pair of pressure transducers are a first pair, and further including a diesel particulate filter having an inflow pressure and an outflow pressure, wherein a second pair of pressure transducers are configured to measure transient fluid pressures of the inflow pressure and the outflow pressure.