Parallel plate capacitor and acceleration sensor comprising same

What is claimed is: 1. A parallel plate capacitor, comprising a first polar plate, and a second polar plate disposed opposite to the first polar plate, wherein the parallel plate capacitor comprises: at least a pair of sensitive units disposed on a first substrate forming the first polar plate, wherein each sensitive unit comprises a sensitive element and an element connecting arm connecting the sensitive element to the first polar plate; anchoring bases disposed on a second substrate where the second polar plate is located, wherein each anchoring base is connected to a respective element connecting arm via a cantilever beam; wherein each element connecting arm is connected to at least two anchoring bases, which are symmetric with respect to the element connecting arm. 2. The parallel plate capacitor according to claim 1 , wherein the sensitive element is a mass, the element connecting arm and the cantilever beam are both made of silicon, and the element connecting arm is thicker than the cantilever beam. 3. A parallel plate capacitor, comprising a first polar plate, and a second polar plate disposed opposite to the first polar plate, wherein the parallel plate capacitor comprises: at least one sensitive unit disposed on a substrate forming the first polar plate, wherein the sensitive unit is surrounded by the first polar plate, and the sensitive unit comprises a sensitive element and an element connecting arm connecting the sensitive element to the first polar plate; anchoring bases disposed on a second substrate where the second polar plate is located, wherein each anchoring base is connected to a respective element connecting arm via a cantilever beam; wherein each element connecting arm is connected to at least two anchoring bases, which are symmetric with respect to the element connecting arm. 4. The parallel plate capacitor according to claim 3 , wherein the sensitive element is a mass, the element connecting arm and the cantilever beam are both made of silicon, and the element connecting arm is thicker than the cantilever beam. 5. An acceleration sensor, comprising a parallel plate capacitor, wherein the parallel plate capacitor comprises a first polar plate, and a second polar plate disposed opposite to the first polar plate, the parallel plate capacitor further comprises: at least a pair of sensitive units disposed on a substrate forming the first polar plate, wherein each sensitive unit comprises a sensitive element and an element connecting arm connecting the sensitive element to the first polar plate; anchoring bases disposed on a second substrate where the second polar plate is located, wherein each anchoring base is connected to a respective element connecting arm via a cantilever beam; wherein each element connecting arm is connected to at least two anchoring bases, which are symmetric with respect to the element connecting arm. 6. The acceleration sensor according to claim 5 , wherein the sensitive element is a mass, the element connecting arm and the cantilever beam are both made of silicon, and the element connecting arm is thicker than the cantilever beam. 7. An acceleration sensor, comprising a parallel plate capacitor, wherein the parallel plate capacitor comprises a first polar plate, and a second polar plate disposed opposite to the first polar plate, the parallel plate capacitor further comprises: at least one sensitive unit disposed on a first substrate forming the first polar plate, wherein the sensitive unit is surrounded by the first polar plate, and the sensitive unit comprises a sensitive element and an element connecting arm connecting the sensitive element to the first polar plate; anchoring bases disposed on a second substrate where the second polar plate is located, wherein each anchoring base is connected to a respective element connecting arm via a cantilever beam; wherein each element connecting arm is connected to at least two anchoring bases, which are symmetric with respect to the element connecting arm. 8. The acceleration sensor according to claim 7 , wherein the sensitive element is a mass, the element connecting arm and the cantilever beam are both made of silicon, and the element connecting arm is thicker than the cantilever beam.