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        AT71YM2CL2014-BA0行李追蹤及安全性
        
                        
        發布者:上海凌亮光電科技有限公司  發布時間:2023-02-03 13:50:48  訪問次數:182
        
                        
        
                                            	
                    	
                        
        
	 
	
        
    
        
	1 Synchronization Mode
Four different modes may be defined under user control. The TRIG1 and TRIG2 signals may be used to
trigger external events and to control the integration time. The Master clock is either external or internal
clock

        

        
	2 Free Run Mode with Integration Time Setting
The integration and readout periods start automatically and immediately after the previous period. The
read-out time depends on pixel number and pixel rate.

        

        
	3 Trigger and Integration Time Controlled by One Input
The integration period starts immediately after the falling edge of TRIG1 input signal, stops immediately
after the rising edge of TRIG1 input signal, and is immediately followed by a readout period. The readout time depends on pixel number and pixel rate

        

        
	4 Trigger and Integration Time Controlled by Two Inputs
TRIG2 rising edge start the integration period. TRIG1 rising edge stop the integration period.
This period is immediately followed by a readout period.

        

        
	5. Timing Diagram
Note: CLK_IN input frequency must be in the range 5 to 60 MHz. Out of this range, the performances may be decreased.
In case of multi-cameras synchronization (means more than one camera on one acquisition board):
? the "master" camera will provide DATA, STROBE and LVAL signals to the acquisition board. The
others will only provide DATA.
? the external clock CLK_IN must be input on each cameras to guaranty perfect data synchronization.
? the trigger(s) input (TRIG1 and/or TRIG2) must be input on each cameras. It is recommended to
synchronize the rising edge of these signals on the CLK_IN falling edge.
? cables must be balanced between each cameras (same quality, same length) to ensure perfect
cameras synchronization.
? the CLK_IN frequency must be equal to the two CCD register frequency. It means that the user shall
use either H=2 (2 taps at CLK_IN data rate) or H=10 (1 tap at 2xCLK_IN data rate). Using H=1 clock
mode will provide LVAL jitter on the "slave" camera.
? Only "triggered and integration time controlled" (M=3 or M=4) can be used. These modes ensure
perfect readout phase starting for each cameras.
tp
td
Internal Clock
or
CLK_IN
CLK_IN
(case H = 10)
LVAL
STROBE
DATA
First valid pixel Last valid pixel

        
		         
		
        
      
			
      
            
                       						
						
						
                       
                        
      
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