Optical image capturing system having four-piece optical lens

What is claimed is: 1. An optical image capturing system, from an object side to an image side, comprising: a first lens element with refractive power; a second lens element with refractive power; a third lens element with refractive power; a fourth lens element with refractive power; a first image plane, which is an image plane specifically for visible light and perpendicular to an optical axis; a through-focus modulation transfer rate (value of MTF) at a first spatial frequency having a maximum value at central field of view of the first image plane; and a second image plane, which is an image plane specifically for infrared light and perpendicular to the optical axis; the through-focus modulation transfer rate (value of MTF) at the first spatial frequency having a maximum value at central of field of view of the second image plane; wherein the optical image capturing system comprises four lens elements with refractive powers, at least one of the four lens elements has positive refractive power; focal lengths of the four lens elements are respectively f1, f2, f3 and f4; a focal length of the optical image capturing system is f, and an entrance pupil diameter of the optical image capturing system is HEP; a distance on the optical axis from an object-side surface of the first lens element to the first image plane is HOS, a distance on the optical axis from the object-side surface of the first lens element to an image-side surface of the fourth lens element is InTL, half of a maximum viewable angle of the optical image capturing system is denoted by HAF; the optical image capturing system has a maximum image height HOI on the first image plane perpendicular to the optical axis; a distance on the optical axis between the first image plane and the second image plane is denoted by FS; thicknesses of the first to fourth lens elements at height of ½ HEP paralleling the optical axis are respectively ETP1, ETP2, ETP3 and ETP4; a sum of ETP1 to ETP4 described above is SETP; central thicknesses of the first to fourth lens elements on the optical axis are respectively TP1, TP2, TP3 and TP4; a sum of TP1 to TP4 described above is STP; conditions as follows are satisfied: 1≤f/HEP≤10, 0 deg<HAF≤150 deg, 0.5≤SETP/STP<1, and |FS|≤30 μm. 2. The optical image capturing system of claim 1 , wherein a wavelength of the infrared light ranges from 700 nm to 1000 nm, and the first spatial frequency is denoted by SP1, which satisfies the following condition: SP1≤440 cycles/mm. 3. The optical image capturing system of claim 1 , wherein a horizontal distance paralleling the optical axis from a coordinate point on the object-side surface of the first lens element at height of ½ HEP to the first image plane is ETL; a horizontal distance paralleling the optical axis from the coordinate point on the object-side surface of the first lens element at height of ½ HEP to a coordinate point on the image-side surface of the fourth lens element at height of ½ HEP is EIN; conditions as follows are satisfied: 0.2≤EIN/ETL<1. 4. The optical image capturing system of claim 1 , wherein an image-side surface of the second lens element and an image-side surface of the third lens element on the optical axis are convex surfaces. 5. The optical image capturing system of claim 1 , wherein half of a vertical maximum viewable angle of the optical image capturing system is denoted by VHAF, and the following condition is satisfied: VHAF≥10 deg. 6. The optical image capturing system of claim 1 , wherein the optical image capturing system satisfies the following condition: HOS/HOI≥1.2. 7. The optical image capturing system of claim 1 , wherein a horizontal distance paralleling the optical axis from the coordinate point on the object-side surface of the first lens element at height of ½ HEP to a coordinate point on the image-side surface of the fourth lens element at height of ½ HEP is EIN; and condition as follow is satisfied: 0.3≤SETP/EIN≤1. 8. The optical image capturing system of claim 1 , wherein a horizontal distance paralleling the optical axis from a coordinate point on the image-side surface of the fourth lens element at height of ½ HEP to the first image plane is EBL, a horizontal distance paralleling the optical axis from an axial point on the image-side surface of the fourth lens element to the first image plane is BL, and conditions as follows are satisfied: 0.1≤EBL/BL≤1.5. 9. The optical image capturing system of claim 1 , further comprising an aperture stop; wherein a distance from the aperture stop to the first image plane on the optical axis is InS, which satisfies condition as follows: 0.2≤InS/HOS≤1.1. 10. An optical image capturing system, from an object side to an image side, comprising: a first lens element with positive refractive power; a second lens element with refractive power, an image-side surface thereof on the optical axis being a convex surface; a third lens element with refractive power, an image-side surface thereof on the optical axis being a convex surface; a fourth lens element with refractive power; a first image plane, which is an image plane specifically for visible light and perpendicular to an optical axis; a through-focus modulation transfer rate (value of MTF) at a first spatial frequency having a maximum value at central field of view of the first image plane, and the first spatial frequency being 220 cycles/mm; and a second image plane, which is an image plane specifically for infrared light and perpendicular to the optical axis; the through-focus modulation transfer rate (value of MTF) at the first spatial frequency having a maximum value at central of field of view of the second image plane, and the first spatial frequency being 220 cycles/mm; wherein the optical image capturing system comprises four lens elements with refractive powers; at least one of the second to fourth lens elements has positive refractive power; focal lengths of the four lens elements are respectively f1, f2, f3 and f4; a focal length of the optical image capturing system is f; an entrance pupil diameter of the optical image capturing system is HEP; a distance on an optical axis from an object-side surface of the first lens element to the first image plane is HOS, a distance on the optical axis from the object-side surface of the first lens element to an image-side surface of the fourth lens element is InTL, half of a maximum viewable angle of the optical image capturing system is denoted by HAF; the optical image capturing system has a maximum image height HOI on the first image plane perpendicular to the optical axis; a horizontal distance paralleling the optical axis from a coordinate point on the object-side surface of the first lens element at height of ½ HEP to the first image plane is ETL; a horizontal distance paralleling the optical axis from the coordinate point on the object-side surface of the first lens element at height of ½ HEP to a coordinate point on the image-side surface of the fourth lens element at height of ½ HEP is EIN; a distance on the optical axis between the first image plane and the second image plane is denoted by FS; conditions as follows are satisfied: 1≤f/HEP≤10, 0 deg<HAF≤150 deg, 0.2≤EIN/ETL<1, and |FS|≤30 μm. 11. The optical image capturing system of claim 10 , wherein modulation transfer rates of visible light at spatial frequency of 110 cycles/mm at positions of the optical axis, 0.3 HOI and 0.7 HOI on the first image plane are respectively denoted by MTFQ0, MTFQ3 and MTFQ7, and conditions as follows are satisfied: MTFQ0≥0.2, MTFQ3≥0.01, and MTFQ7≥0.01. 12. The optical image capturing system of claim 10 , wherein half of a vertical maximum viewable angle of the optical image captur