Download sample an analog input voltage

Survey
yes no Was this document useful for you?
   Thank you for your participation!

* Your assessment is very important for improving the workof artificial intelligence, which forms the content of this project

page
1
page
2
page
3
page
4
page
5
page
6
page
7
page
8
page
9
page
10
page
11
page
12
page
13
page
14
page
15
page
16
page
17
page
18
page
19
page
20
Document related concepts
no text concepts found
Transcript 
Sampling
Introduction

Sampling refers to the process of converting a
continuous, analog signal to discrete digital
numbers.
Sampling
Cont.,

When an analog voltage is directly connected to
the input of an ADC, the conversion process can
be affected if the analog voltage is changing
during the conversion time.
Sample and Hold circuit

The stability of the conversion process can be
improved by using a sample and hold circuit.

It is used to sample an analog input voltage for a
very short period of time and to hold the analog
voltage constant while the conversion takes place.
Sampling and Hold circuit
Sample and Hold circuit waveform
Sample and Hold circuit waveform

The waveform refers to the case of positive going
S/H pulses.

This circuit track the input signal when the
command is high and holds the input signal when
the command is low.
Ratio estimation of sampling survey animation
Sampling rate

The sampling rate is the number of samples of
data taken in one second for each channel of
audio being recorded.

CDs are recorded at 44,100 samples per second.
1000hz signal recorded at 8000 samples per
second sample rate
1000hz signal recorded at 44,100 samples per
second
Oversampling

Oversampling is the mathematical interpolation of
data.

It allows a signal with x number of samples/s to be
increased to any multiple of x. A 44k rate signal with 2
times oversampling will have 88,000 data points
from which to decode the recorded audio.
Oversampling
Sample and hold amplifier

The Op-amps A1 and A2 are worked as voltage
followers.

The output of A1 is connected to the input of
op-amp A2 through a switch.
Working of Sample and hold amplifier

The switch is controlled by a logic signal, meaning
that a high input ‘closes’ the switch and a low
input ‘opens’ it.

When the switch is closed, the capacitor rapidly
charges to Vin.
Sample and Hold Amplifier
Cont.,

Now the output of second Op-amp Vout is equal
to Vin.

When the switch opens, the capacitor retains its
charge.

Ideally, the output holds at a value of Vin.
Cont.,

If the switch is suddenly opened, the capacitor
voltage represents a sample of the input voltage
at the switch was opened.

The capacitor then holds this sample until the
switch is again closed and a new sample taken.
The End
…… Thank You ……
Related documents
Power Amplifier - IHMC Public Cmaps (3)
Power Amplifier - IHMC Public Cmaps (3)
Problem 3.2 Apply nodal analysis to determine Vx in the circuit of Fig
Problem 3.2 Apply nodal analysis to determine Vx in the circuit of Fig
ch 16 Electricity Essential Questions
ch 16 Electricity Essential Questions
7.5 Design the circuit in Fig. P7.5 to obtain a dc voltage of +0.2V at
7.5 Design the circuit in Fig. P7.5 to obtain a dc voltage of +0.2V at
Problem 3.3 Use nodal analysis to determine the current Ix and
Problem 3.3 Use nodal analysis to determine the current Ix and
EX: In the circuit shown below, the switch closes at time t = 0. a) Find
EX: In the circuit shown below, the switch closes at time t = 0. a) Find
9-10 - Worksheet - Series Circuit Problems
9-10 - Worksheet - Series Circuit Problems
PDF Data Sheet Rev. F
PDF Data Sheet Rev. F
Current and Resistance
Current and Resistance
File
File
Energy!
Energy!
Engineering Review – Electric Circuits I
Engineering Review – Electric Circuits I