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CLAMPERS A clamper is a network constructed of a diode, a resistor and a capacitor that shifts a waveform to a different dc level without changing the appearance of the applied signal.

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Page 1: capacitor that shifts a waveform to a different dc level ... device lecture4.pdf · CLAMPERS A clamper is a network constructed of a diode, a resistor and a capacitor that shifts

CLAMPERS

A clamper is a network constructed of a diode, a resistor and a capacitor that shifts a waveform to a different dc level withoutchanging the appearance of the applied signal.

Page 2: capacitor that shifts a waveform to a different dc level ... device lecture4.pdf · CLAMPERS A clamper is a network constructed of a diode, a resistor and a capacitor that shifts

Operation at forward biased, the diode is short circuited (i.e “on” state). The voltage will be vo=0 since the current is shorted thru diode and the capacitor is charged up to a voltage V.

Analysis (ideal diode)

Page 3: capacitor that shifts a waveform to a different dc level ... device lecture4.pdf · CLAMPERS A clamper is a network constructed of a diode, a resistor and a capacitor that shifts

Analysis

During reverse biased, the diode is open circuited (i.e “off” state). The voltage will be vo=0 since the current is shorted thru diode. The voltage across R will beVdc + Vc= -V+(-V)=-2V

Vdc

VC

Page 4: capacitor that shifts a waveform to a different dc level ... device lecture4.pdf · CLAMPERS A clamper is a network constructed of a diode, a resistor and a capacitor that shifts

Result

Input

Output

Page 5: capacitor that shifts a waveform to a different dc level ... device lecture4.pdf · CLAMPERS A clamper is a network constructed of a diode, a resistor and a capacitor that shifts

Determine vo for the following network with the input shown (for ideal diode).

Solution: Frequency is 1000Hz, then the period will be 1/f = 1ms ,so the interval for each level state is t1= 0.5ms. At first interval the diode is open circuited, so no current at output, therefore vo =0

Page 6: capacitor that shifts a waveform to a different dc level ... device lecture4.pdf · CLAMPERS A clamper is a network constructed of a diode, a resistor and a capacitor that shifts

Analysis (forward biased)

At 2nd interval, the diode is short circuited, the voltage across R will be the same as across the batery (parallel) Vo= 5VThe voltage that charge up the capacitor, Applying KVL

-20V +Vc -5V =0 , then VC=25V

Page 7: capacitor that shifts a waveform to a different dc level ... device lecture4.pdf · CLAMPERS A clamper is a network constructed of a diode, a resistor and a capacitor that shifts

The third interval will make the diode open circuited again and current start to flow in the resistor (discharged the capacitor). Applying the KVL +10V +25V – vo=0Give us vo= 35V

Noted : the discharge time is can be determined as t= RCRC=100kΩ x 0.1mF= 0.01s= 10ms

Total discharge 5t= 5x10ms=50ms which is >>interval time which allow the capacitor to hold significantly the input voltage.

Page 8: capacitor that shifts a waveform to a different dc level ... device lecture4.pdf · CLAMPERS A clamper is a network constructed of a diode, a resistor and a capacitor that shifts

The result

Page 9: capacitor that shifts a waveform to a different dc level ... device lecture4.pdf · CLAMPERS A clamper is a network constructed of a diode, a resistor and a capacitor that shifts

Practical case with diode of Vk=0.7V

At second interval vo = 5V-0.7V= 4.3V and the charging up voltage -20V-5V +0.7V+Vc=0Therefore Vc= 24.3V

Page 10: capacitor that shifts a waveform to a different dc level ... device lecture4.pdf · CLAMPERS A clamper is a network constructed of a diode, a resistor and a capacitor that shifts

The third interval we have10V+24.3V-vo=0Thus vo= 34.3V

Circuit

result

Page 11: capacitor that shifts a waveform to a different dc level ... device lecture4.pdf · CLAMPERS A clamper is a network constructed of a diode, a resistor and a capacitor that shifts

Other example of clampers

Page 12: capacitor that shifts a waveform to a different dc level ... device lecture4.pdf · CLAMPERS A clamper is a network constructed of a diode, a resistor and a capacitor that shifts

The clamper also work well for sinusoidal wave.

Page 13: capacitor that shifts a waveform to a different dc level ... device lecture4.pdf · CLAMPERS A clamper is a network constructed of a diode, a resistor and a capacitor that shifts

ZENER DIODES

Showing the equivalent circuit at each state in V-I characteristic

Page 14: capacitor that shifts a waveform to a different dc level ... device lecture4.pdf · CLAMPERS A clamper is a network constructed of a diode, a resistor and a capacitor that shifts

Determine (i) the voltages at references Vo1 and Vo2 (ii) the current thru LED and the power delivered by the supply(iii) How does the power absorbed by the LED compare to that 6V Zener diode

Vo1= VZ2 +VK= 3.3V +0.7V=4.0V

Vo2=Vo1 +VK= 4V+ 6V= 10V

mAk

VVvk

VVvR

VII LEDRLEDR 20

3.141040

3.140 02 =

Ω−−

=Ω−−

===

Power delivered Ps=EIs=EIR= (40V)(20mA)=800mW

E=

Absorbed by LED PLED=VLEDILED=(4V)(20mA)=80mW

Absorbed by Zener PZ=VZIZ= (6V)(20mA)=120mW

Page 15: capacitor that shifts a waveform to a different dc level ... device lecture4.pdf · CLAMPERS A clamper is a network constructed of a diode, a resistor and a capacitor that shifts

A LIMITER

Page 16: capacitor that shifts a waveform to a different dc level ... device lecture4.pdf · CLAMPERS A clamper is a network constructed of a diode, a resistor and a capacitor that shifts

Analysis

First half2nd half

Page 17: capacitor that shifts a waveform to a different dc level ... device lecture4.pdf · CLAMPERS A clamper is a network constructed of a diode, a resistor and a capacitor that shifts

Fixed Vi and R as a dc regulator

A simplest Zener diode regulator network

Page 18: capacitor that shifts a waveform to a different dc level ... device lecture4.pdf · CLAMPERS A clamper is a network constructed of a diode, a resistor and a capacitor that shifts

To determine the state of Zener diode by removing the diode from the network

Thus applying voltage divider rule

L

iLL RR

VRVV

+==

If V> VZ, the Zener diode is on.

If V< VZ, the Zener diode is off.

Page 19: capacitor that shifts a waveform to a different dc level ... device lecture4.pdf · CLAMPERS A clamper is a network constructed of a diode, a resistor and a capacitor that shifts

Zener equivalent for the “on” situation

Since Zener is directly parallel to RL , then VL=VZ

Zener current , applying Kirchoff’s current law IR = IZ + IL

Thus IZ = IR – IL

And Power PZ= VZ IZ

L

LL R

VI =RVV

RV

I LiRR

−==

Page 20: capacitor that shifts a waveform to a different dc level ... device lecture4.pdf · CLAMPERS A clamper is a network constructed of a diode, a resistor and a capacitor that shifts

Ex: Determine VL , VR, IZ and PZ

Page 21: capacitor that shifts a waveform to a different dc level ... device lecture4.pdf · CLAMPERS A clamper is a network constructed of a diode, a resistor and a capacitor that shifts

Solution

( ) VkkVk

RRVR

VL

iL 73.82.11

162.1=

Ω+ΩΩ

=+

=Applying voltage divider rule

Since V=8.73V is less than 10V , the diode is in the “off” state

Thus VL=V=8.73V And VR=Vi-VL=16V-8.73V=7.27V

Since the Zener is off , then IZ=0 and PZ= VZ IZ = 0W

Page 22: capacitor that shifts a waveform to a different dc level ... device lecture4.pdf · CLAMPERS A clamper is a network constructed of a diode, a resistor and a capacitor that shifts

Ex: Determine VL , VR, IZ and PZ

( ) VkkVk

RRVR

VL

iL 1231

163=

Ω+ΩΩ

=+

=

mAmAmAIII LRZ 67.233.36 =−=−=

mAkV

RVI

L

LL 33.3

310

==

Applying voltage divider rule

Since V=12V is greater than VZ=10V, the Zener is in “on” state

Therefore VL=VZ=10V and VR= Vi- VL =16V -10V=6V

mAkV

RVI R

R 616

==

and

Page 23: capacitor that shifts a waveform to a different dc level ... device lecture4.pdf · CLAMPERS A clamper is a network constructed of a diode, a resistor and a capacitor that shifts

To determine the resistor range

Zi

ZL VV

RVR

−=min

RRVR

VVL

iLZL +==

minmin

L

Z

L

LL R

VRVI ==

To determine the minimum load that can turn on the diodeSo that VL=VZ ‘ that is

Solving for RL ‘ we have

and

Thus any resistance value greater than RLmin will ensure that the Zener diode is in the “on” state

Page 24: capacitor that shifts a waveform to a different dc level ... device lecture4.pdf · CLAMPERS A clamper is a network constructed of a diode, a resistor and a capacitor that shifts

To determine the resistor range

RVI R

R =

minmin

L

ZL I

VR =

Once the diode is in the “on” state, the voltage across R remains fixed at

VR= Vi - VZ

And IR remains fixed at

The Zener current IZ = IR - IL

But the IZ is limited by the manufacturer IZM , then

ILmin = IR - IZM

And the maximum load resistance as

Page 25: capacitor that shifts a waveform to a different dc level ... device lecture4.pdf · CLAMPERS A clamper is a network constructed of a diode, a resistor and a capacitor that shifts

mAkV

RVI R

R 40140

==

( )( )Ω=

Ω=

−Ω

=−

= 25040

101050101

mink

VVVk

VVRV

RZi

ZL

The voltage across the resistor R is VR= Vi – VZ =50V – 10V = 40V

Determine the range of RL and IL that will result in VRL being maintained at 10V

Calculating for minimum load RLmin

This will give us

Page 26: capacitor that shifts a waveform to a different dc level ... device lecture4.pdf · CLAMPERS A clamper is a network constructed of a diode, a resistor and a capacitor that shifts

Ω=== kmAV

IV

RL

ZL 25.1

810

minmax

The minimum level of IL is ILmin = IR – IZM = 40mA -32mA = 8mA

Maximum load RLmax,

Continue

Power Pmax = VZ IZM= (10V )(32mA) = 320mW

Page 27: capacitor that shifts a waveform to a different dc level ... device lecture4.pdf · CLAMPERS A clamper is a network constructed of a diode, a resistor and a capacitor that shifts

Fixed RL and Variable Vi

RRVR

VVL

iLZL +==

( )L

ZLi R

VRRV

+=min

ZRi VVV += maxmax ZRi VRIV += maxmax

The voltage Vi must be sufficiently large to turn the Zener diode on. The minimum turn on voltage Vi= Vimin is

therefore

Since the maximum Zener current IZM, Thus IZM=IR-IL

Then IRMAX = IZM + IL

The maximum voltage

or

Page 28: capacitor that shifts a waveform to a different dc level ... device lecture4.pdf · CLAMPERS A clamper is a network constructed of a diode, a resistor and a capacitor that shifts

Determine the range of values of Vi that will maintain the Zener diode of in the “on” state.

( ) ( )( ) VVR

VRRVL

ZLi 67.23

1200202201200

min =ΩΩ+Ω

=+

=

mAkV

RV

RV

IL

Z

L

LL 67.16

2.120

===

ZRi VRIV += maxmax

Using the formula given before

Page 29: capacitor that shifts a waveform to a different dc level ... device lecture4.pdf · CLAMPERS A clamper is a network constructed of a diode, a resistor and a capacitor that shifts

mAmAmAIII LZMR 67.7667.1660max =+=+=

( )( ) VVkmAVRIV ZRi 87.362022.067.76maxmax =+Ω=+=

Continue

The Vi range is plotted below

Page 30: capacitor that shifts a waveform to a different dc level ... device lecture4.pdf · CLAMPERS A clamper is a network constructed of a diode, a resistor and a capacitor that shifts

If the input is a ripple from full-wave rectified and filtering as shown, as long as within the specified voltage, the output will still remain constant at 20V.

Page 31: capacitor that shifts a waveform to a different dc level ... device lecture4.pdf · CLAMPERS A clamper is a network constructed of a diode, a resistor and a capacitor that shifts

Voltage Multiplier

HALF-WAVE VOLTAGE DOUBLER

Page 32: capacitor that shifts a waveform to a different dc level ... device lecture4.pdf · CLAMPERS A clamper is a network constructed of a diode, a resistor and a capacitor that shifts

(b) Second half cycle, D2 conducts and D1 is cut-off. Now the capacitor C2 is charged up with Vm + VC = Vm +Vm=2Vm

(a)During the positive voltage half-cycle across the transformer, the diode D1 conducts and D2 is cut off. The capacitor C1 chargeup to peak rectified voltage Vm .

VCVC

Page 33: capacitor that shifts a waveform to a different dc level ... device lecture4.pdf · CLAMPERS A clamper is a network constructed of a diode, a resistor and a capacitor that shifts

FULL-WAVE VOLTAGE DOUBLER

Page 34: capacitor that shifts a waveform to a different dc level ... device lecture4.pdf · CLAMPERS A clamper is a network constructed of a diode, a resistor and a capacitor that shifts

(a) Positive cycle, D1 is conducting, thus charging C1 to Vm . D2 is not conducting so charging on capacitor C2.

(b) Negative cycle, D2 is conducting, thus charging C2 to Vm. D1 is not conducting so C1 still maintain the charging voltage

Page 35: capacitor that shifts a waveform to a different dc level ... device lecture4.pdf · CLAMPERS A clamper is a network constructed of a diode, a resistor and a capacitor that shifts

HALF-WAVE DOUBLER, TRIPLER AND QUADRUPLER

By arranging alternately capacitor and diode, we are able to obtain voltage doubler, tripler and quadrupler. C1 plus transformer charging C2. C2 charging C3 and C3 charging C4.

Page 36: capacitor that shifts a waveform to a different dc level ... device lecture4.pdf · CLAMPERS A clamper is a network constructed of a diode, a resistor and a capacitor that shifts

Protective configuration

Trying to change the current through an inductive element too quickly may result in an inductive kick that could damage surrounding elements or the system itself

Transient phase of a simple RL cct Arcing during opening the switch

Page 37: capacitor that shifts a waveform to a different dc level ... device lecture4.pdf · CLAMPERS A clamper is a network constructed of a diode, a resistor and a capacitor that shifts

The RL circuit may be used to control the relay

During closing the switch the coil will gain a steady current. When closing, the arcing may cause the problem to the relay.

Page 38: capacitor that shifts a waveform to a different dc level ... device lecture4.pdf · CLAMPERS A clamper is a network constructed of a diode, a resistor and a capacitor that shifts

This is the cheapest circuit to protect the switching system.

A capacitor is parallel to the switch. It is acting as a bypass ( or shorting) the high frequency component.

Xc= 1/2πfCLow cost ceramic capacitor is usually used

A snubber is also to short circuit the high frequency component

The resistor in series is to protect the surge current.

Page 39: capacitor that shifts a waveform to a different dc level ... device lecture4.pdf · CLAMPERS A clamper is a network constructed of a diode, a resistor and a capacitor that shifts

Diode protection for RL circuit

A diode is placed parallel to the inductive element (relay). When switch open the polarity of voltage across coil will turn on the diode thus provide conduction path for the inductor. The diode must has the same current level to that current passing the coil

Page 40: capacitor that shifts a waveform to a different dc level ... device lecture4.pdf · CLAMPERS A clamper is a network constructed of a diode, a resistor and a capacitor that shifts

Diode protector to limit the emitter –base voltage

VBE is limited to 0.7V (knee voltage of the silicon diode)

Page 41: capacitor that shifts a waveform to a different dc level ... device lecture4.pdf · CLAMPERS A clamper is a network constructed of a diode, a resistor and a capacitor that shifts

Diode protection to prevent a reversal in collection current

A current from B to C will be blocked by the diode

Page 42: capacitor that shifts a waveform to a different dc level ... device lecture4.pdf · CLAMPERS A clamper is a network constructed of a diode, a resistor and a capacitor that shifts

Diodes can be used to limit the input of OPAM to 0.7V

Same appearance

Page 43: capacitor that shifts a waveform to a different dc level ... device lecture4.pdf · CLAMPERS A clamper is a network constructed of a diode, a resistor and a capacitor that shifts

Introduce voltage to increase limitation of the positive portion and limit to 0.7V to the negative portion before feeding to OPAM

Limit to 6.7V to positive portion

Limit to 0.7V to negative portion

Page 44: capacitor that shifts a waveform to a different dc level ... device lecture4.pdf · CLAMPERS A clamper is a network constructed of a diode, a resistor and a capacitor that shifts

POLARITY INSURANCE

This circuit is to prevent from mistaken connecting the battery with wrong polarity

Page 45: capacitor that shifts a waveform to a different dc level ... device lecture4.pdf · CLAMPERS A clamper is a network constructed of a diode, a resistor and a capacitor that shifts

If the polarity is okay then the diode circuit is in open state

Page 46: capacitor that shifts a waveform to a different dc level ... device lecture4.pdf · CLAMPERS A clamper is a network constructed of a diode, a resistor and a capacitor that shifts

If the polarity is not okay then the current is bypass thru diode. This will stop the battery to damage the $ system

Page 47: capacitor that shifts a waveform to a different dc level ... device lecture4.pdf · CLAMPERS A clamper is a network constructed of a diode, a resistor and a capacitor that shifts

Battery –powered backup

When electrical power is connected D1 id “on” state and D2 will be “off” state, thus only electrical power is functioned. When electrical power is disconnected D1 is “off” state and D2 is conducted , thus the power will come from the battery.

Page 48: capacitor that shifts a waveform to a different dc level ... device lecture4.pdf · CLAMPERS A clamper is a network constructed of a diode, a resistor and a capacitor that shifts

Polarity detector using diodes and LED

For positive polarity green LED is lit

For negative polarity red LED is lit

Page 49: capacitor that shifts a waveform to a different dc level ... device lecture4.pdf · CLAMPERS A clamper is a network constructed of a diode, a resistor and a capacitor that shifts

LED diodes are arranged for EXIT sign display.

Page 50: capacitor that shifts a waveform to a different dc level ... device lecture4.pdf · CLAMPERS A clamper is a network constructed of a diode, a resistor and a capacitor that shifts

Voltage Reference Levels circuit

This circuit provide different reference levels

Page 51: capacitor that shifts a waveform to a different dc level ... device lecture4.pdf · CLAMPERS A clamper is a network constructed of a diode, a resistor and a capacitor that shifts

To establish a voltage level insensitive to the load current

A battery is connected to a network that has different voltage supply and variable load. The battery available is 9V but the network require 6V. How?

Page 52: capacitor that shifts a waveform to a different dc level ... device lecture4.pdf · CLAMPERS A clamper is a network constructed of a diode, a resistor and a capacitor that shifts

Using external resistor

Let’s say the load is 1kΩ , then using voltage divider ,we determine the value of external resistor we obtain approximately 470ΩWe calculate the VRL , give us 6.1V

Now if we change the load to 600 W but the external still same ,then VRL become 4.9V … thus the system will not operate correctly!!

Page 53: capacitor that shifts a waveform to a different dc level ... device lecture4.pdf · CLAMPERS A clamper is a network constructed of a diode, a resistor and a capacitor that shifts

Using diode

Using diode the voltage can be converted using 4 silicon diode which give a drop of voltage around 2.8V , thus the required voltage of 6.2V is obtained. This network does not sensitive to the load.

Page 54: capacitor that shifts a waveform to a different dc level ... device lecture4.pdf · CLAMPERS A clamper is a network constructed of a diode, a resistor and a capacitor that shifts

AC regulator and square-wave generator

conduct

Voltage across corresponding to the input if less than 20V

Voltage across limit to 20V

Page 55: capacitor that shifts a waveform to a different dc level ... device lecture4.pdf · CLAMPERS A clamper is a network constructed of a diode, a resistor and a capacitor that shifts

Robert L. BoylestadElectronic Devices and Circuit Theory, 9e

Copyright ©2006 by Pearson Education, Inc.Upper Saddle River, New Jersey 07458

All rights reserved.

Same configuration to produce square -wave