Optical encoder with alignable relative positions between elements and position alignment method thereof

What is claimed is: 1. An optical encoder, comprising: an optical sensor configured to receive modulated light from an encoding medium, and comprising: a detection photodiode array arranged opposite to the encoding medium; and a first photodiode and a second photodiode respectively arranged at two sides of the detection photodiode array, and each of the first photodiode and the second photodiode having a trapezoid sensing surface, wherein a long side of two parallel sides of the trapezoid sensing surface of each of the first photodiode and the second photodiode faces the detection photodiode array. 2. The optical encoder as claimed in claim 1 , wherein the detection photodiode array is arranged at a same track with the first photodiode and the second photodiode. 3. The optical encoder as claimed in claim 1 , wherein the encoding medium has codes thereon configured to modulate incident light, the codes on the encoding medium comprise reflective parts and non-reflective parts, and a width of a sensing surface of every photodiode of the detection photodiode array is a half of a width of the reflective parts and the non-reflective parts. 4. The optical encoder as claimed in claim 1 , wherein a first distance from the first photodiode to a first side of the detection photodiode array is identical to a second distance from the second photodiode to a second side of the detection photodiode array. 5. The optical encoder as claimed in claim 1 , wherein a first distance from the first photodiode to a first side of the detection photodiode array is different from a second distance from the second photodiode to a second side of the detection photodiode array. 6. The optical encoder as claimed in claim 1 , wherein the encoding medium has codes thereon configured to modulate incident light, the codes on the encoding medium comprise reflective parts and non-reflective parts, and the first photodiode is opposite to one of the reflective parts and the second photodiode is opposite to one of the non-reflective parts. 7. The optical encoder as claimed in claim 1 , wherein the encoding medium has codes thereon configured to modulate incident light, the codes on the encoding medium comprise reflective parts and non-reflective parts, and a width of the first photodiode and the second photodiode is identical to a width of the reflective parts and the non-reflective parts. 8. The optical encoder as claimed in claim 1 , wherein the encoding medium has codes thereon configured to modulate incident light, the codes on the encoding medium comprise reflective parts and non-reflective parts, and a width of the first photodiode and the second photodiode is a half of a width of the reflective parts and the non-reflective parts. 9. The optical encoder as claimed in claim 1 , wherein a tilted side of the trapezoid sensing surface of each of the first photodiode and the second photodiode directs to a same direction. 10. The optical encoder as claimed in claim 1 , wherein a tilted side of the trapezoid sensing surface of each of the first photodiode and the second photodiode directs to a different direction. 11. The optical encoder as claimed in claim 1 , further comprising a memory configured to previously record a reference pattern associated with reference output signals of the first photodiode and the second photodiode when the encoding medium and the optical sensor are at predetermined relative positions. 12. The optical encoder as claimed in claim 1 , further comprising a memory configured to previously record multiple alignment patterns associated with reference output signals of the first photodiode and the second photodiode when the encoding medium and the optical sensor are at different relative positions. 13. A position alignment method of the optical encoder of claim 1 , the alignment method comprising: previously determining a reference pattern according to reference output signals of the first photodiode and the second photodiode; determining a current pattern according to current output signals of the first photodiode and the second photodiode; and adjusting relative positions between the encoding medium and the optical sensor to cause the current pattern to be identical to the reference pattern. 14. The position alignment method as claimed in claim 13 , wherein the reference output signals and the current output signals are normalized voltage signals. 15. The position alignment method as claimed in claim 13 , wherein the relative positions comprise a tangential direction position, a radius direction position and a height direction position. 16. A position alignment method of the optical encoder of claim 1 , the alignment method comprising: previously determining multiple alignment patterns according to reference output signals of the first photodiode and the second photodiode, wherein one of the multiple alignment patterns is a reference pattern when the encoding medium and the optical sensor are at predetermined relative positions, and other alignment patterns are sub-reference patterns when the encoding medium and the optical sensor are at different relative positions; Step A: determining a current pattern according to current output signals of the first photodiode and the second photodiode; Step B: comparing the current pattern with the multiple sub-reference patterns to determine a deviation direction between the encoding medium and the optical sensor; and Step C: moving at least one of the encoding medium and the optical sensor toward an opposite direction of the deviation direction, and then repeating the Step A to the Step C till the current pattern is identical to the reference pattern. 17. The position alignment method as claimed in claim 16 , wherein the deviation direction comprises a tangential direction, a radius direction and a height direction. 18. The position alignment method as claimed in claim 16 , wherein the reference output signals and the current output signals are normalized voltage signals. 19. An optical encoder, comprising: an optical sensor configured to receive modulated light from an encoding medium, and comprising: a detection photodiode array arranged opposite to the encoding medium; and a first photodiode and a second photodiode respectively arranged at two sides of the detection photodiode array, and each of the first photodiode and the second photodiode having a trapezoid sensing surface, wherein a long side of two parallel sides of the trapezoid sensing surface of the first photodiode faces the detection photodiode array; and a short side of two parallel sides of the trapezoid sensing surface of the second photodiode faces the detection photodiode array.