Basler aca gm. Camera Specification. Measurement protocol using the EMVA Standard 1288 Document Number: BD Version: 01
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1 Basler aca5-14gm Camera Specification Measurement protocol using the EMVA Standard 188 Document Number: BD563 Version: 1
2 For customers in the U.S.A. This equipment has been tested and found to comply with the limits for a Class A digital device, pursuant to Part 15 of the FCC Rules. These limits are designed to provide reasonable protection against harmful interference when the equipment is operated in a commercial environment. This equipment generates, uses, and can radiate radio frequency energy and, if not installed and used in accordance with the instruction manual, may cause harmful interference to radio communications. Operation of this equipment in a residential area is likely to cause harmful interference in which case the user will be required to correct the interference at his own expense. You are cautioned that any changes or modifications not expressly approved in this manual could void your authority to operate this equipment. The shielded interface cable recommended in this manual must be used with this equipment in order to comply with the limits for a computing device pursuant to Subpart J of Part 15 of FCC Rules. For customers in Canada This apparatus complies with the Class A limits for radio noise emissions set out in Radio Interference Regulations. Pour utilisateurs au Canada Cet appareil est conforme aux normes Classe A pour bruits radioélectriques, spécifiées dans le Règlement sur le brouillage radioélectrique. Life Support Applications These products are not designed for use in life support appliances, devices, or systems where malfunction of these products can reasonably be expected to result in personal injury. Basler customers using or selling these products for use in such applications do so at their own risk and agree to fully indemnify Basler for any damages resulting from such improper use or sale. Warranty Note Do not open the housing of the camera. The warranty becomes void if the housing is opened. All material in this publication is subject to change without notice and is copyright Basler Vision Technologies.
3 Contacting Basler Support Worldwide Europe: Basler AG An der Strusbek Ahrensburg Germany Tel.: Fax.: Americas: Basler, Inc. 855 Springdale Drive, Suite 16 Exton, PA U.S.A. Tel.: Fax.: Asia: Basler Asia Pte. Ltd 8 Boon Lay Way # 3-3 Tradehub 1 Singapore Tel.: Fax.: bc.support.asia@baslerweb.com
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5 CONTENTS Contents 1 Overview 7 Introduction 8 3 Basic Information Illumination Illumination Setup for the Basler Camera Test Tool Measurement of the Irradiance Characterizing Temporal Noise and Sensitivity Basic Parameters Total Quantum Efficiency Temporal Dark Noise Dark Current Doubling Temperature Inverse of Overall System Gain Inverse Photon Transfer Saturation Capacity Spectrogram Non-Whiteness Coefficient Derived Data Absolute Sensitivity Threshold Signal-to-noise Ratio Dynamic Range Raw Measurement Data Mean Gray Value Variance of the Temporal Distribution of Gray Values Mean of the Gray Values Dark Signal Variance of the Gray Value Temporal Distribution in Darkness Light Induced Variance of the Temporal Distribution of Gray Values Light Induced Mean Gray Value Dark Current Versus Housing Temperature Characterizing Total and Spatial Noise Basic Parameters Spatial Offset Noise Spatial Gain Noise Spectrogram Spatial Noise Spatial Non-whiteness Coefficient Raw Measurement Data Standard Deviation of the Spatial Dark Noise Light Induced Standard Deviation of the Spatial Noise Basler aca5-14gm 5
6 CONTENTS Bibliography 41 6 Basler aca5-14gm
7 1 Overview 1 Overview Basler aca5-14gm Item Symbol Typ. 1 Unit Remarks Temporal Noise Parameters Total Quantum Efficiency (QE) η 57 % λ = 545 nm Inverse of Overall System Gain 1 K 1.7 e DN Temporal Dark Noise σ d 6 e Saturation Capacity µ e.sat 67 e Derived Parameters Absolute Sensitivity Threshold µ p.min 11 p λ = 545 nm Dynamic Range DYN out.bit 1. bit Maximum SNR SNR y.max.bit 6.4 bit Spatial Noise Parameters SNR y.max.db 38.3 db Item Symbol Typ. Unit Remarks Spatial Offset Noise, DSNU 188 σ o.4 e Spatial Gain Noise, PRNU 188 S g.1 % Table 1: Most Important Specification Data Operating Point Item Symbol Remarks Video output format 1 bits/pixel Gain Register raw Offset Register raw 3 Exposure time T exp 35. µs to 71.5 ms Table : Operating Point for the Camera Used 1 The unit e is used in this document as a statistically measured quantity. Basler aca5-14gm 7
8 Introduction Introduction This measurement protocol describes the specification of Basler aca5-14gm cameras. The measurement methods conform to the 188 EMVA Standard, the Standard for Characterization and Presentation of Specification Data for Image Sensors and Cameras (Release A1.3) of the European Machine Vision Association (EMVA) [1]. The most important specification data for Basler aca5-14gm cameras is summarized in table 1. 8 Basler aca5-14gm
9 3 Basic Information 3 Basic Information Basic Information Vendor Basler Model aca5-14gm Type of data presented Typical Number of samples 1 Sensor MT9P31 Sensor type CMOS Sensor diagonal Diagonal 7.13 mm, Optical Size 1/.5 inch Indication of lens category to be used C-Mount Resolution 59 x 1944 pixel Pixel width. µm Pixel height. µm Readout type - Transfer type - Shutter type Electronic rolling shutter Overlap capabilities - Maximum readout rate 14 frames/second General conventions - Interface type Gigabit Ethernet Table 3: Basic Information Basler aca5-14gm 9
10 3.1 Illumination 3.1 Illumination Illumination Setup for the Basler Camera Test Tool The illumination during the testing on each camera was fixed. The drift in the illumination over a long period of time and after the lamp is changed is measured by a reference Basler A6fc camera. The reference camera provides an intensity factor that was used to calculate the irradiance for each camera measurement. Light Source Item Symbol Typ. Unit Remarks Wavelength λ 545 nm Wavelength Variation λ 5 nm Distance sensor to light source d 8 mm Diameter of the light source D 35 mm f-number f # 8 f # = d D Table 4: Light Source 3.1. Measurement of the Irradiance The irradiance was measured using an IL17 Radiometer from International Light Inc. (Detector: SEL33 #685; Input optic: W #9461; Filter: F #1487; regular calibration). The accuracy of the Radiometer is specified as ±3.5%. The measured irradiance is plotted in figure 1. 4x1-3 'aca5-14gm' (1 cameras), Irradiance Irradiance [W/m^] Measurement Figure 1: Irradiance for Each Camera Measurement. The error for each calculated value using the amount of light falling on the sensor is dependent on the accuracy of the irradiance measurement. 1 Basler aca5-14gm
11 4 Characterizing Temporal Noise and Sensitivity 4 Characterizing Temporal Noise and Sensitivity 4.1 Basic Parameters Total Quantum Efficiency Total Quantum Efficiency for One Fixed Wavelength Total quantum efficiency η(λ) in [%] for monochrome light at λ = 545 nm with a wavelength variation of λ = 5 nm. 6 'aca5-14gm' (1 cameras), Quantum Efficiency Quantum Efficiency [%] Camera 5 'aca5-14gm' (1 cameras), Quantum Efficiency Histogram Number Quantum Efficiency [%] Figure : Total Quantum Efficiency (QE) Item Symbol Typ. Std. Dev. Unit Remarks Total Quantum Efficiency (QE) η 57 TBD % λ = 545 nm Table 5: Total Quantum Efficiency (QE) The main error in the total quantum efficiency η is related to the error in the measurement of the illumination as described in section 3.1. Basler aca5-14gm 11
12 4.1 Basic Parameters Total Quantum Efficiency Versus Wavelength of the Light Total quantum efficiency η(λ) in [%] for monochrome light versus wavelength of the light in [nm]. 'aca5-14gm', Quantum Efficiency 7 Quantum Efficiency [%] Wavelength [nm] Figure 3: Total Quantum Efficiency Versus Wavelength of the Light The curve of the total quantum efficiency versus the wavelength as shown in figure 3 was calculated from the single measured total quantum efficiency as presented in section For the shape of the curve, the data from the sensor data sheet was used. 1 Basler aca5-14gm
13 4.1 Basic Parameters 4.1. Temporal Dark Noise Standard deviation of the temporal dark noise σ d time zero in [ e ]. referenced to electrons for exposure Std. Dev. Temporal Dark Noise [e-] 'aca5-14gm' (1 cameras), Std. Dev. Temporal Dark Noise Camera 'aca5-14gm' (1 cameras), Std. Dev. Temporal Dark Noise Histogram Number Std. Dev. Temporal Dark Noise [e-] Figure 4: Temporal Dark Noise Item Symbol Typ. Std. Dev. Unit Remarks Temporal Dark Noise σ d 6.1 e Table 6: Temporal Dark Noise Basler aca5-14gm 13
14 4.1 Basic Parameters Dark Current Dark current N d3 for a housing temperature of 3 C in [e /s]. Not measured! Doubling Temperature Doubling temperature k d of the dark current in [ C]. Not measured! 14 Basler aca5-14gm
15 4.1 Basic Parameters Inverse of Overall System Gain Inverse of overall system gain 1 K in [ e DN ]. Inverse of Overall System Gain [e-/dn] 'aca5-14gm' (1 cameras), Inverse of Overall System gain Camera 'aca5-14gm' (1 cameras), Inverse of Overall System Gain Histogram 15 Number Inverse of Overall System Gain [e-/dn] Figure 5: Inverse of Overall System Gain Item Symbol Typ. Std. Dev. Unit Remarks Inverse of Overall System Gain 1 K e DN Table 7: Inverse of Overall System Gain Basler aca5-14gm 15
16 4.1 Basic Parameters Inverse Photon Transfer 1 Inverse photon transfer in [ ] p ηk DN. 'aca5-14gm' (1 cameras), Inverse Photon Transfer Inverse Photon Transfer [p~/dn] Camera 3 'aca5-14gm' (1 cameras), Inverse Photon Transfer Histogram 5 Number Inverse Photon Transfer [e-/dn] Figure 6: Inverse Photon Transfer Item Symbol Typ. Std. Dev. Unit Remarks Inverse Photon Transfer 1 ηk 3. TBD Table 8: Inverse Photon Transfer p DN λ = 545 nm 1 The main error in the inverse photon transfer is related to the error in the measurement of the illumination as described in section ηk Basler aca5-14gm
17 4.1 Basic Parameters Saturation Capacity Saturation capacity µ e.sat referenced to electrons in [ e ]. 'aca5-14gm' (1 cameras), Saturation Capacity 8 Saturation Capacity [e-] Camera 'aca5-14gm' (1 cameras), Saturation Capacity Histogram 15 Number Saturation Capacity [e-] Figure 7: Saturation Capacity Item Symbol Typ. Std. Dev. Unit Remarks Saturation Capacity µ e.sat e Table 9: Saturation Capacity Basler aca5-14gm 17
18 4.1 Basic Parameters Spectrogram Spectrogram referenced to photons in [p ] is plotted versus spatial frequency in [1/pixel] for no light, 5% saturation, and 9% saturation. 1 'aca5-14gm' (1 cameras), FFT for No Light FFT Amplitude [p~] All Mean Frequency [Cycles/pixel] 'aca5-14gm' (1 cameras), FFT for No Light FFT Amplitude [p~] All Mean Frequency [Cycles/pixel] Figure 8: Spectrogram Referenced to Photons for No Light 18 Basler aca5-14gm
19 4.1 Basic Parameters 5 'aca5-14gm' (1 cameras), FFT for 5% Saturation FFT Amplitude [p~] All Mean Frequency [Cycles/pixel] 'aca5-14gm' (1 cameras), FFT for 5% Saturation FFT Amplitude [p~] All Mean Frequency [Cycles/pixel] Figure 9: Spectrogram Referenced to Photons for 5% Saturation Basler aca5-14gm 19
20 4.1 Basic Parameters 5 'aca5-14gm' (1 cameras), FFT for 9% Saturation FFT Amplitude [p~] All Mean Frequency [Cycles/pixel] 'aca5-14gm' (1 cameras), FFT for 9% Saturation 4 FFT Amplitude [p~] All Mean Frequency [Cycles/pixel] Figure 1: Spectrogram Referenced to Photons for 9% Saturation Basler aca5-14gm
21 4.1 Basic Parameters Non-Whiteness Coefficient The non-whiteness coefficient is plotted versus the number of photons µ p in [p ] collected in a pixel during exposure time..5 'aca5-14gm' (1 cameras), Non Whiteness. Non Whiteness Mean Photon [Photons/pixel] Figure 11: Non-whiteness Coefficient Basler aca5-14gm 1
22 4. Derived Data 4. Derived Data 4..1 Absolute Sensitivity Threshold Absolute sensitivity threshold µ p.min (λ) in [ p ] for monochrome light versus wavelength of the light in [nm]. µ p.min = σ d (1) η Absolute Sensitivity Threshold [p~] 'aca5-14gm' (1 cameras), Absolute Sensitivity Threshold Camera 'aca5-14gm' (1 cameras), Absolute Sensitivity Threshold Histogram 15 Number Absolute Sensitivity Threshold [p~] Figure 1: Absolute Sensitivity Threshold Item Symbol Typ. Std. Dev. Unit Remarks Absolute Sensitivity Threshold µ p.min 11 TBD p λ = 545 nm Table 1: Absolute Sensitivity Threshold Basler aca5-14gm
23 4. Derived Data 4.. Signal-to-noise Ratio Signal-to-noise ratio SNR y (µ p ) is plotted versus number of photons µ p collected in a pixel during exposure time in [p ] for monochrome light with the wavelength λ given in [ nm]. The wavelength should be near the maximum of the quantum efficiency. A : SNR y = µ y µ y.dark σ y () B : SNR y = ηµ p (ηµp + σ d ) (3) Figure 13 shows the signal-to-noise ratio SNR y for monochrome light with the wavelength λ = 545 nm. 8 'aca5-14gm' (1 cameras), SNR SNR [bit] 6 4 A B Mean Photon [bit] Figure 13: Signal-to-noise Ratio The maximum achievable image quality is given as SNR y.max. SNR y.max = µ e.sat (4) SNR y.max.bit = ld SNR y.max = log SNR y.max log (5) SNR y.max.db = log SNR y.max 6. SNR y.max.bit (6) Basler aca5-14gm 3
24 4. Derived Data 'aca5-14gm' (1 cameras), SNR SNR Mean Photon [Photons/pixel] A B Figure 14: Signal-to-noise Ratio Item Symbol Typ. Std. Dev. Unit Remarks Maximum achievable SNR [bit] SNR y.max.bit 6.4. bit Table 11: Maximum achievable SNR [bit] Item Symbol Typ. Std. Dev. Unit Remarks Maximum achievable SNR [db] SNR y.max.db db Table 1: Maximum achievable SNR [db] 4 Basler aca5-14gm
25 4. Derived Data 4..3 Dynamic Range Dynamic range DYN out.bit in [ bit]. DYN out = µ e.sat σ d (7) DYN out.bit = log (DYN out ) (8) 'aca5-14gm' (1 cameras), Output Dynamic Range 1 Output Dynamic Range [bit] Camera 5 'aca5-14gm' (1 cameras), Output Dynamic Range Histogram Number Output Dynamic Range [bit] Figure 15: Output Dynamic Range Item Symbol Typ. Std. Dev. Unit Remarks Output Dynamic Range DYN out.bit 1..4 bit Table 13: Output Dynamic Range Basler aca5-14gm 5
26 4.3 Raw Measurement Data 4.3 Raw Measurement Data Mean Gray Value Mean gray value µ y (µ p ) in [DN] is plotted versus number of photons µ p in [p ] collected in a pixel during exposure time. Mean Gray Value Bright [DN] 'aca5-14gm' (1 cameras), Mean Gray Value Bright Mean Photon [Photons/pixel] Figure 16: Mean Gray Values of the Cameras with Illuminated Pixels 6 Basler aca5-14gm
27 4.3 Raw Measurement Data 4.3. Variance of the Temporal Distribution of Gray Values The variance of the temporal distribution of gray values σ y.temp(µ p ) in [DN ] is plotted versus number of photons µ p in [p ] collected in a pixel during exposure time. Variance Gray Value Bright [DN^] 'aca5-14gm' (1 cameras), Variance Gray Value Bright Mean Photon [Photons/pixel] Figure 17: Variance Values for the Temporal Distribution of Gray Values with Illuminated Pixels Saturation Capacity The saturation point is defined as the maximum of the curve in figure 17. The abscissa of the maximum point is the number of photons µ p.sat where the camera saturates. The saturation capacity µ e.sat in electrons is computed according to the mathematical model as: µ e.sat = ηµ p.sat (9) Basler aca5-14gm 7
28 4.3 Raw Measurement Data Mean of the Gray Values Dark Signal Mean of the gray values dark signal µ y.dark (T exp ) in [DN] time in [s]. is plotted versus exposure 'aca5-14gm' (1 cameras), Mean Gray Value Dark 35 Mean Gray Value Dark [DN] Exposure Time [ms] Figure 18: Mean Gray Values for the Cameras in Darkness 8 Basler aca5-14gm
29 4.3 Raw Measurement Data Variance of the Gray Value Temporal Distribution in Darkness The variance of the temporal distribution of gray values in darkness σ y.temp.dark(t exp ) in [DN ] is plotted versus exposure time T exp in [s]. 'aca5-14gm' (1 cameras), Variance Gray Value Dark Variance Gray Value Dark [DN^] Exposure Time [ms] Figure 19: Variance Values for the Temporal Distribution of Gray Values in Darkness Temporal Dark Noise The dark noise for exposure time zero is found as the offset of the linear correspondence in figure 19. Match a line (with offset) to the linear part of the data in the diagram. The dark noise for exposure time zero σd is found as the offset of the line divided by the square of the overall system gain K. σ d = σ y.temp.dark (T exp = ) K (1) Basler aca5-14gm 9
30 4.3 Raw Measurement Data Light Induced Variance of the Temporal Distribution of Gray Values The light induced variance of the temporal distribution of gray values in [DN ] is plotted versus light induced mean gray value in [DN]. Variance Gray Value (Bright - Dark) [DN^] 'aca5-14gm' (1 cameras), Diff. Variance vs Diff. Mean Gray Value Mean Gray Value (Bright - Dark) [DN] Figure : Light Induced Variance of the Temporal Distribution of Gray Values Versus Light Induced Mean Gray Value The overall system gain K is computed according to the math- Overall System Gain ematical model as: K = σ y.temp σ y.temp.dark µ y µ y.dark (11) which describes the linear correspondence in figure. Match a line starting at the origin to the linear part of the data in this diagram. The slope of this line is the overall system gain K. 3 Basler aca5-14gm
31 4.3 Raw Measurement Data Light Induced Mean Gray Value The light induced mean gray value µ y µ y.dark in [ DN] is plotted versus the number of photons collected in a pixel during exposure time Kµ p in [ p ]. Mean Gray Value (Bright - Dark) [DN] 'aca5-14gm' (1 cameras), Difference Mean Gray Value Mean Photon [Photons/pixel] Figure 1: Light Induced Mean Gray Value Versus the Number of Photons Total Quantum Efficiency The total quantum efficiency η is computed according to the mathematical model as: η = µ y µ y.dark (1) Kµ p which describes the linear correspondence in figure 1. Match a line starting at the origin to the linear part of the data in this diagram. The slope of this line divided by the overall system gain K yields the total quantum efficiency η. The number of photons µ p is calculated using the model for monochrome light. The number of photons Φ p collected in the geometric pixel per unit exposure time [p /s] is given by: Φ p = EAλ (13) hc with the irradiance E on the sensor surface [W/m ], the area A of the (geometrical) pixel [m ], the wavelength λ of light [m], the Planck s constant h Js, and the speed of light c m/s. The number of photons can be calculated by: µ p = Φ p T exp (14) during the exposure time T exp. Using equation 1 and the number of photons µ p, the total quantum efficiency η can be calculated as: η = hc 1 AT exp E 1 λ µ p µ y.dark. (15) K Basler aca5-14gm 31
32 4.3 Raw Measurement Data Dark Current Versus Housing Temperature The logarithm to the base of the dark current in [e /s] versus deviation of the housing temperature from 3 C in [ C] Not measured! 3 Basler aca5-14gm
33 5 Characterizing Total and Spatial Noise 5 Characterizing Total and Spatial Noise 5.1 Basic Parameters Spatial Offset Noise Standard deviation of the spatial offset noise σ o referenced to electrons in [ e ]. 3. 'aca5-14gm' (1 cameras), DSNU188.5 DSNU188 [e-] Camera 'aca5-14gm' (1 cameras), DSNU188 Histogram Number DSNU188 [e-] Figure : Spatial Offset Noise ( DSNU 188 ) Item Symbol Typ. Std. Dev. Unit Remarks Spatial Offset Noise ( DSNU 188 ) σ o.4.1 e Table 14: Spatial Offset Noise ( DSNU 188 ) Basler aca5-14gm 33
34 5.1 Basic Parameters 5.1. Spatial Gain Noise Standard deviation of the spatial gain noise S g in [ %]. 3. 'aca5-14gm' (1 cameras), PRNU188.5 PRNU188 [%] Camera 5 'aca5-14gm' (1 cameras), PRNU188 Histogram Number PRNU188 [%] Figure 3: Spatial Gain Noise ( PRNU 188 ) Item Symbol Typ. Std. Dev. Unit Remarks Spatial Gain Noise ( PRNU 188 ) S g.1. % Table 15: Spatial Gain Noise ( PRNU 188 ) 34 Basler aca5-14gm
35 5.1 Basic Parameters Spectrogram Spatial Noise Spectrogram referenced to photons in [p ] is plotted versus spatial frequency in [1/pixel] for no light, 5% saturation, and 9% saturation. 1 'aca5-14gm' (1 cameras), Spatial FFT for No Light FFT Amplitude [p~] All Mean Frequency [Cycles/pixel] 'aca5-14gm' (1 cameras), Spatial FFT for No Light FFT Amplitude [p~] All Mean Frequency [Cycles/pixel] Figure 4: Spectrogram Referenced to Photons for No Light Basler aca5-14gm 35
36 5.1 Basic Parameters 5 'aca5-14gm' (1 cameras), Spatial FFT for 5% Saturation FFT Amplitude [p~] All Mean Frequency [Cycles/pixel] 'aca5-14gm' (1 cameras), Spatial FFT for 5% Saturation FFT Amplitude [p~] All Mean Frequency [Cycles/pixel] Figure 5: Spectrogram Referenced to Photons for 5% Saturation 36 Basler aca5-14gm
37 5.1 Basic Parameters 5 'aca5-14gm' (1 cameras), Spatial FFT for 9% Saturation FFT Amplitude [p~] All Mean Frequency [Cycles/pixel] 'aca5-14gm' (1 cameras), Spatial FFT for 9% Saturation 4 FFT Amplitude [p~] All Mean Frequency [Cycles/pixel] Figure 6: Spectrogram Referenced to Photons for 9% Saturation Basler aca5-14gm 37
38 5.1 Basic Parameters Spatial Non-whiteness Coefficient The non-whiteness coefficient is plotted versus the number of photons µ p in [p ] collected in a pixel during exposure time. 6 'aca5-14gm' (1 cameras), Spatial Non-Whiteness Spatial Non-Whiteness Mean Photon [Photons/pixel] Figure 7: Spatial Non-whiteness Coefficient 38 Basler aca5-14gm
39 5. Raw Measurement Data 5. Raw Measurement Data 5..1 Standard Deviation of the Spatial Dark Noise Standard deviation of the spatial dark noise in [DN] versus exposure time in [s]. Spatial Std. Dev. Gray Value Dark [DN] 'aca5-14gm' (1 cameras), Spatial Std. Dev. Gray Value Dark Exposure Time [ms] Figure 8: Standard Deviation of the Spatial Dark Noise From the mathematical model, it follows that the variance of the spatial offset noise σ o should be constant and not dependent on the exposure time. Check that the data in the figure 8 forms a flat line. Compute the mean of the values in the diagram. The mean divided by the conversion gain K gives the standard deviation of the spatial offset noise σ o. DSNU 188 = σ o = σ y.spat.dark K The square of the result equals the variance of the spatial offset noise σo. (16) Basler aca5-14gm 39
40 5. Raw Measurement Data 5.. Light Induced Standard Deviation of the Spatial Noise Light induced standard deviation of the spatial noise in [DN] versus light induced mean of gray values [DN]. Std. Dev. Gray Value (Bright - Dark) [DN] 'aca5-14gm' (1 cameras), Spatial Gain Noise Mean Gray Value (Bright - Dark) [DN] Figure 9: Light Induced Standard Deviation of the Spatial Noise The variance coefficient of the spatial gain noise Sg or its standard deviation value S g respectively, is computed according to the mathematical model as: PRNU 188 = S g = σ y.spat σ y.spat.dark µ y µ y.dark, (17) which describes the linear correspondence in figure 9. Match a line through the origin to the linear part of the data. The line s slope equals the standard deviation value of the spatial gain noise S g. 4 Basler aca5-14gm
41 REFERENCES References [1] EUROPEAN MACHINE VISION ASSOCIATION (EMVA): EMVA Standard Standard for Characterization and Presentation of Specification Data for Image Sensors and Cameras (Release A1.3). 6 Basler aca5-14gm 41
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