DIODE SWITCHING TIMES



To understand the various switching times, consider simple diode circuit and an input waveform as shown in the Fig.

                                                           Simple diode circuit      

                                              
The following events will take place due to the nature of the applied voltage  

Event  1:  Till  time t the forward voltage  applied  is VF  and  diode  is  forward  biased. The value of R is  large enough such that drop across forward biased diode is very     small  compared to  drop across  R. The forward current  is then
neglecting
forward resistance of diode.


Event 2: At time t the applied voltage is suddenly reversed and reverse voltage of -
VR  is  applied  to  the  circuit.  Ideally  diode  also  must  become  OFF  from  ON  state instantly. But this does not happen instantly.


The number of minority carriers take time to reduce from p no to zero at the junction Due to this, at t1 current just reverses and remains at that reversed value IR till the minority carrier concentration reduces to zero. This current is given by -IR = -VR / R. This continues to flow till time t


Event3: From t onwards, the diode voltage starts to reverse and the diode current
starts  decreasing  as  shown  in  the  Fig.  At  t  =  t;  the  diode  state  completely  gets reversed and attains steady state in reverse biased condition.

The total time required by the diode which is the sum of storage time and transition     time, to recover completely from the change of state is called reverse recovery time
of  the  diode  and  denoted  as  trr.  This  is  an  important  consideration  in  high  speed switching applications.


The reverse recovery time depends on the RC time constant where C is a transition capacitance of a diode. Thus the transition capacitance plays an important role in the switching  circuits  using  diodes.The  total  switching  time  trr  puts  the  limit  on  the maximum  operating  frequency  of  the  diode.  Hence  trr  is  an  important  datasheet specification.  To  minimize  the  effect  of the reverse  current,  the  time  period  of  the operating frequency must be at least ten times trr.




where fmax is the maximum operating frequency.

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