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Transcript
Analog-to-digital converter
Prepared by:
Selah al-Battah
Mohammed Al-khabbaz
Atiyah Alnakhli
Ali Dumyati
1
Introduction
-Signals in real world; light, sound .
-When you scan a picture with a scanner what the
scanner is doing?? (ADC)
It is taking the analog information provided by the
picture (light) and converting into digital .
-When you record your voice on your computer,
2
Introduction cont'd
- Since analog signals can assume any value, noise
is interpreted as being part of the original signal.
Digital system, on the other hand, can only
understand two numbers, zero and one. Anything
different from this is discarded.
- Here we need a translator from analog to digital.
The devices which play this job are called analog
to digital converter.
3
Analog-to-digital converter
-An analog-to-digital converter (abbreviated
ADC, A/D or A to D) is an electronic circuit that
converts continuous signals to discrete digital
numbers.
-The digital output may be using different coding
schemes, such as binary and two's complement
binary. However, some non-electronic or only
partially electronic devices, such as shaft encoder,
can also be considered as ADCs.
4
Techniques of ACD
-There are various techniques of A/D
conversion:
1.including flash.
2.successive approximation.
3.Delta-encoded.
4.Integrator.
5.delta sigma or modulator.
5
A direct conversion ADC or flash ADC
 -A direct conversion is very fast, but usually has
only 8 bits of resolution (256 comparators) or
fewer, as it needs a large, expensive circuit. ADCs
of this type have a large die size, a high input
capacitance, and are prone to produce mistakes
on the output (by outputting an out-of-sequence
code).
 -example:
 They are often used for video or other fast signals.
6
A successive approximation
ADC
This type uses a comparator to reject ranges of
voltages, eventually settling on a final voltage
range. The way successive approximation works is
through constantly comparing the input voltage to
a known reference voltage until the best
approximation is achieved. At each step in this
process, a binary value of the approximation is
stored in a successive approximation register
(SAR). the SAR uses a refernce voltage for
conversion.
7
A delta-encoded ADC
- A delta-encoded ADC has an up-down counter that feeds
a (DAC). The input signal and the DAC both go to a
comparator. The comparator controls the counter. The
circuit uses negative feedback from the comparator to
adjust the counter until the DAC's output is close enough
to the input signal. The number is read from the counter.
- Delta converters have very wide ranges, and high
resolution , but the conversion time is dependent on the
input signal level.
- Delta converters are often very good choices to read
real-world signals..
8
Integrator
 An integrator ADC (also called ramp-compare , dualslope or multi-slope ADC) produces a saw-tooth signal
that ramps up, then quickly falls to zero. When the ramp
starts, a timer starts counting. When the ramp voltage
matches the input, a comparator fires, and the timer's value
is recorded. Timed ramp converters require the least
number of transistors.
 - The ramp time is sensitive to temperature??
 There are two solutions: use a clocked counter driving a
DAC and then use the comparator to preserve the
counter's value, or calibrate the timed ramp.
9
A Sigma-Delta ADC
 - Also known as a Delta-Sigma ADC over samples the
desired signal by a large factor and filters the desired
signal band. Generally a smaller number of bits than
required are converted using a Flash ADC after the Filter.
The resulting signal, along with the error generated by the
discrete levels of the Flash, is fed back and subtracted
from the input to the filter. This negative feedback has the
effect of noise shaping the error due to the Flash so that it
does not appear in the desired signal frequencies. A digital
filter follows the ADC which reduces the sampling rate,
10
Resolution
-The resolution of the converter indicates the number of
discrete values it can produce over the range of voltage
values. It is usually expressed in (bits). For example, an
ADC that encodes an analog input to one of 256 discrete
values (0...255) has a resolution of eight bits, since 2^8 =
256.
-Resolution can also be defined electrically, and expressed in
volt. The voltage resolution of an ADC is equal to its overall
voltage measurement range divided by the number of
discrete values.
11
Commercial analog-to-digital converters
- These are usually integrated circuit.
- Most converters sample with 6 to 24 bits of resolution, and
produce less than 1 mega sample per second. It is rare to
get more than 24 bits of resolution. Mega sample
converters are required in digital video cameras, video
capture card, and TV tuner card to convert full-speed
analog video to MPEG digital video files.
- Commercial converters usually have ±0.5 to ±1.5 LSB error
in their output.
12
Application to music recording
- ADCs are integral to much current music
reproduction technology, since much music
production is done on computers; even when
analog recording is used.
- An ADC is still needed to create the PCM data
stream that goes onto a compact disc.
13
Other applications
- AD converters are used virtually everywhere where an
analog signal has to be processed, stored, or transported
in digital form. Fast video ADCs are used, for example, in
TV tuner cards. Slow on-chip 8, 10, 12, or 16 bit ADCs are
common in microcontrollers.
- Very fast ADCs are needed in digital oscilloscopes, and are
crucial for new applications like software defined radio
14
Questions??
15