Created
October 29, 2017 17:09
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Lens focal length calculator
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| % required dimensions | |
| standoff = 500; % distance from camera, in [mm] | |
| fovWidth = 320; % width of field of view, in [mm] | |
| fovHeight = 10; % height of FOV, in [mm] | |
| % sensor resolution | |
| sensorXRes = 4096; % widht | |
| sensorYRes = 3072; % height | |
| % pixel physical size | |
| pixelWidth = 5.5 / 1000; % 5.5 [um] but everything has to be in [mm], so /1000 | |
| pixelHeight = 5.5 / 1000; | |
| % sensor physical size | |
| sensorWidth = sensorXRes * pixelWidth; | |
| sensorHeight = sensorYRes * pixelHeight; | |
| % diagonal size | |
| sensorDiagSize = sqrt(sensorWidth ^ 2 + sensorHeight ^ 2); | |
| sensorDiagSizeInch = sensorDiagSize / 25.4; | |
| fprintf('Sensor diagonal size: %gmm, %g"\n', ... | |
| sensorDiagSize, ... | |
| sensorDiagSizeInch); | |
| % aspect ratios | |
| sensorAspectRatio = sensorWidth / sensorHeight; | |
| fovAspectRatio = fovWidth / fovHeight; | |
| if fovAspectRatio > sensorAspectRatio, | |
| % limited by width | |
| halfAngle = 180/pi * atan2( (fovWidth/2), standoff); | |
| maxFocalDistance = (sensorWidth / 2) / tand(halfAngle); | |
| else | |
| % limited by height | |
| halfAngle = 180/pi * atan2( (fovHeight/2), standoff); | |
| maxFocalDistance = (sensorHeight / 2) / tand(halfAngle); | |
| end | |
| fprintf('The maximum focal distance to cover the fov is %gmm\nFan angle approx %g∞\n', ... | |
| maxFocalDistance, ... | |
| 2*halfAngle) | |
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