Princeton 4411-0087 Manuale Utente

Chapter 6 

Exposure and Readout 

59 

 

The time needed to take a full frame at full resolution is:  

 

t

R

 + t

exp

 + t

c

 (1) 

where 

t

R

 is the CCD readout time, 

t

exp

 is the exposure time, and 

t

c

 is the shutter compensation time. 

The readout time is approximately given by: 

 

t

R

 = [N

x

 · N

y

 · (t

sr

 + t

v

)] + (N

x

 · t

i

) (2) 

where  

N

x

 is the smaller dimension of the CCD  

N

y

 is the larger dimension of the CCD 

t

sr

 is the time needed to shift one pixel out of the shift register 

t

v

 is the time needed to digitize a pixel 

t

i

 is the time needed to shift one line into the shift register 

t

s

 is the time needed to discard a pixel 

The readout times for a number of different CCD arrays are provided in Table 4 below. 

EEV CCD-37 512 x 512 

0.28 sec. 

Kodak KAF-0400 768 x 512 

0.5 sec. 

Kodak KAF-1400 1317 x 1035 

1.5 sec. 

A subsection of the CCD can be read out at full resolution, sometimes dramatically 
increasing the readout rate while retaining the highest resolution in the region of interest 
(ROI). To approximate the readout rate of an ROI, in Equation 2 substitute the x and y 
dimensions of the ROI in place of the dimensions of the full CCD. Some overhead time, 
however, is required to read out and discard the unwanted pixels.  

Binning is the process of adding the data from adjacent pixels together to form a single 
pixel (sometimes called a super-pixel), and it can be accomplished in either hardware or 
software. Rectangular groups of pixels of any size may be binned together, subject to 
some hardware and software limitations.  

Hardware binning is performed before the signal is read out by the preamplifier. For 
signal levels that are readout noise limited this method improves S/N ratio linearly with 
the number of pixels grouped together. For signals large enough to render the camera