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Transcript
Name & Er. No.:Patel Rashi I.(130940109085)
Patel Jinal B.(1409403109029)
Patel Priya R.(1409403109015)
Patel Nikita A.(1409403109012)
Patel Varish J.(1409403109016)
Patel Chirag B.(1409403109028)
TOPIC:ZERO CROSSING DETECTOR
WINDOW DETECTOR
SCHMITT TRIGGER
SAMPLE AND HOLD CKT
ZERO CROSSING DETECTOR:
Circuit diagram:-
CIRCUIT
OPERATION:-
Zero crossing detector is as in fig. is nothing but
the basic comparator circuit with a zero
reference vtg applied to the non-inverting.
Out put is –v(sat) for v(in)>0 and +v(sat) for
v(in)<0
INPUT &
OUTPUT VTG WAVEFORM:-
When the input sine wave crosses zero and becomes
positive at instant t=0, the differential input vtg v(d)
becomes negative and the output vtg will to –v(sat).
At the t=t/2 ,the differential input vtg becomes
positive and the output voltage will swing to +v(sat) as
now the (+) terminal is more positive than the (-)
terminal.
The zero crossing detector thus switches its
output from one state to the other every time
when the input crosses the zero,
The zero crossing detector is also known as a
sine wave to square wave converter.
WINDOW
COMPARATOR:-
Circuit diagram:-
OPERATION
CIRCUIT:-
The window detector ckt using two comparator is a
shown fig. the ckt in unknown vtg v(in) ,reference
voltage V(H) &V(L).
If V(in) between two reference vtg i.e.;
V(L)<V(in)<V(H) then the output of both comparator
will be high.
The output vtg will be equal to V(cc)
V(0)=+V(cc); for V(L)<V(in)<V(H)
This will output vtg comparator it two low condition:(1)V(0)=V(CE)=low;for V(in)<V(L)
(2) V(0)=V(CE)=low ;for V(in)>V(H)
Conclusion:- a high o/p vtg indicate that the i/p vtg
within the window where a low o/p vtg indicates that
the i/p vtg is out of the window.
INPUT &
.
OUTPUT VTG WAVEFORM:-
SCHMITT TRIGGER:
(1)
(2)
Schmitt Trigger is also called Regenerative
Comparator.
The comparator which use the positive feedback is
known as the Schmitt trigger or negeneration
comparator.
Types of Schmitt Trigger:Inverting Schmitt trigger
Non-inverting Schmitt trigger
INVERTING SCHMITT
.
TRIGGER:-
OPERATION
OF CIRCUIT:-
In Schmitt trigger the reference vtg is V1 is vtg
developed across R2,this reference vtg is not fixed
but its amplitude and sign depend on the o/p vtg
V1={R2/R1+R2}*V(0)
two diff.trigger vtg are defined below team:(1)
Upper threshold voltage(UTV)
(2)
Lower threshold Voltage(LTV)
The upper trigger and lower trigger level is same to
+V(sat) to –V(sat)
INPUT & OUTPUT VTG INVERTING SCHMITT
TRIGGER WAVEFORM:-
TRANSFER CHARACTERISTIC OF
INVERTING SCHMITT TRIGGER:-
HYSTERESIS VOLTAGE V(HV):
The loop gain and Hysteresis of the Schmitt trigger
is therefore depends on the values of resistor R1 &R2
and the value of V(sat) of the OP-APM.
NON-INVERTING SCHMITT
Circuit diagram:-
TRIGGER:-
The
exranl i/p signal is being applied to noninverting (+) terminal of the OP-APM and two
resistor R1&R2 are connected a positive feedback.
The Upper trigger & Lower trigger in which same
value V(in) in that V1=0 and o/p transition from
+V(sat) to –V(sat).
Applying the superposition theorm,then voltage
equation then;
The UTV <V equation below;
INPUT & OUTPUT VTG NON-INVERTING
SCHMITT TRIGGER WAVEFORM:-
HYSTERESIS VOLTAGE V(HV):-
EFFECT
OF
HYSTERESIS:-
Hysteresis improves the noise immunity.
It reduces the response time.
Increased Hysteresis will make the sensitivity poor.
Hysteresis reduces the possibility of false triggering
produced by noise.
SAMPLE AND HOLD
Circuit diagram:-
CIRCUIT:-
The
sample and hold circuit in fig. show that using
an op-amp with an E-MOSFET. in this ckt the EMOSFET work as a switch that is controlled by the
sample and hold control vtg V(s) and capacitor
stroge a energy.
On the when, V(s) is zero, the E-MOSFET is off
and open switch, then i/p resistance of op-amp vtg
follower is also very high.
The time periods T(H) of V(s) during which the vtg
across the capacitior is constant are called hold
periods.
In the application in a high speed op-amp is helpful
INPUT &
OUTPUT VTG WAVEFORM:-
USED
A
A SAMPLE-HOLD CIRCUIT:-
signification reduction in size & improved
can be using that a designed sample and hold
IC such the LF398.
LF398 in required only an external storage
capacitor.
That used in digital interfacing and
communication such as a analog to digital.
Used to pulse modulation system.
THANK YOU…..
