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Test: D/A Convertors - Electrical Engineering (EE) MCQ


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10 Questions MCQ Test - Test: D/A Convertors

Test: D/A Convertors for Electrical Engineering (EE) 2024 is part of Electrical Engineering (EE) preparation. The Test: D/A Convertors questions and answers have been prepared according to the Electrical Engineering (EE) exam syllabus.The Test: D/A Convertors MCQs are made for Electrical Engineering (EE) 2024 Exam. Find important definitions, questions, notes, meanings, examples, exercises, MCQs and online tests for Test: D/A Convertors below.
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Test: D/A Convertors - Question 1

Identify the most significant bit from the '100010' binary data.

Detailed Solution for Test: D/A Convertors - Question 1

MSB stands for most significant bit is the bit position in a binary number having the greatest value.
The MSB is sometimes referred to as the high-order bit or left-most bit due to the convention in positional notation of writing more significant digits further to the left.
The MSB can also correspond to the sign bit of a signed binary number. In one's and two's complement notation, "1" signifies a negative number and "0" signifies a positive number.

Example:
(12)10 = (1100)2


According to the question, the most significant bit of '100010' binary data is '1'. 

Test: D/A Convertors - Question 2

The smallest change in the input signal that can be detected by an instrument is called

Detailed Solution for Test: D/A Convertors - Question 2
  • The smallest change in the input signal that can be detected by an instrument is referred to as its "resolution."
  • The term resolution describes the finest detail that a device or system can detect or measure.
  • It is a key parameter for systems that deal with digital signals, as it is directly linked to the quality or level of detail of the output.
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Test: D/A Convertors - Question 3

Which of the following is the fastest A-D converter?

Detailed Solution for Test: D/A Convertors - Question 3

Concept:

Flash ADC (Fastest)

  • The flash ADC is the fastest type available. A flash ADC uses comparators, one per voltage step, and a string of resistors.
  • Flash-type ADC requires no counter For an n-bit ADC, flash-type ADC requires (2n – 1) comparators
  • A 4-bit ADC will have 15 comparators, and an 8-bit ADC will have 255 comparators.
  • The following figure shows a 3-bit flash ADC circuit.
  • It is formed of a series of comparators, each one comparing the input signal to a unique reference voltage.
  • The comparator outputs connect to the inputs of a priority encoder circuit, which then produces a binary output.
  • Vref is a stable reference voltage provided by a precision voltage regulator as part of the converter circuit.
  • As the analog input voltage exceeds the reference voltage at each comparator, the comparator outputs will sequentially saturate to a high state.
  • The priority encoder generates a binary number based on the highest-order active input, ignoring all other active inputs.

Additional Information

  • The successive approximation A/D converter has a shorter conversion time compared to the counter ramp A/D converter.
  • Counter type ADC and successive approximate ADC use DAC Counter type ADC uses linear search and successive approximation type ADC uses binary search
  • A ring counter is used in successive approximation-type ADC
  •  Dual slope ADC is the most accurate
Test: D/A Convertors - Question 4

The resolution of an 8 bit DAC will be:

Detailed Solution for Test: D/A Convertors - Question 4

Resolution: It is defined as the smallest change in the analog output voltage corresponding to a change of one bit in the digital input.

The percentage resolution (%R) of an n-bit DAC is:

The resolution of an n-bit DAC with a range of output voltage from 0 to V is given by:

Calculation:

Number of bits (n) = 8

Test: D/A Convertors - Question 5

If the resolution of a digital-to-analog converter is approximately 0.4% of its full-scale range, then it is a/an _______.

Detailed Solution for Test: D/A Convertors - Question 5

Concept of Resolution: 

It is defined as the smallest change in the analog output voltage corresponding to a change of one bit in the digital output.
The percentage resolution (%R) of an n-bit DAC is:

Calculation:
As we know the formula resolution,

250 = 2N -1
2N = 251 ≈ 255 
i.e., 28 = 255
N = 8
Hence the minimum value of N satisfying the condition.

Test: D/A Convertors - Question 6

A D/A converter has 5V full-scale input voltage and an accuracy of ± 0.2%. The maximum error for any output voltage will be

Detailed Solution for Test: D/A Convertors - Question 6

Concept:
Maximum error (Er) of D/A is given as,
Er = (VFS x Accuracy)
Where,
VFS: full-scale input voltage
Calculation:
Given: VfS = 5V , Accuracy= 0.2%

Er = 10 mV

Test: D/A Convertors - Question 7

A 8-bit A/D converter is used over a span of zero to 2.56 V. The binary representation of 1.0 V signal is

Detailed Solution for Test: D/A Convertors - Question 7

Resolution:
Resolution of ADC is a change in analog voltage corresponding to a 1-bit increment.
Resolution is the number of bits per conversion cycle that the converter is capable of processing.

n = No. of bits of ADC
Vrange = Vmax - Vmin
Analog output = Reslotion x Decimal equivalent to binary
Vo = R x D

Calculation:
Vrange = Vmax - Vmin
Vmax = 2.56 V
Vmin = 0 V
⇒ Vrange = 2.56 V
n = 8
Resolution is

∴ R = 0.01.
Output voltage Vo = 1 V
⇒ 1 = 0.01 x D
∴ D = 100
The binary value of 100 is

The binary equivalent of 100 is (011 001 00)2  

Test: D/A Convertors - Question 8

Given below are three types of converters

  1. successive approximation type
  2. weighted resistor type
  3. R-2R ladder type

Which one of the types are D to A converter? 

Detailed Solution for Test: D/A Convertors - Question 8

Concept:

D/A converter:
D/A converter converts digital or binary data into its equivalent analog data. This analog data is required to drive motors and other analog devices. The converted analog value is either in voltage or current form.

There are two types of D/A converters:

  • Weighted Resistor or Resistive Divider type
  • R-2R Ladder-type

Weighted resistor DAC:
It uses a summing amplifier with a binary-weighted network as shown below.

For an n-bit ADC,

  • If the weight of MSB resistor is 2R, then the weight of the LSB resistor is 2nR.
  • We require n number of resistors.
  • We require n different values of resistors i.e. 2R, 22R, 23R, …, 2nR.

The accuracy and stability depend on the accuracy of resistors.
The requirement of a wide range of resistor values restricts the use up to 8-bit.

R-2R ladder resistor DAC:

It uses a summing amplifier with an R-2R ladder network as shown below.

For n-bit DAC, it requires only 2 different values of resistors i.e. R and 2R.

Test: D/A Convertors - Question 9

Two 10-bit ADCs, one of successive approximation type and other of single slope integrating type, take Ta and Tb time respectively to convert 3V analog input signal to digital output. If the input analog signal is increased to 6V, the approximate time taken by the two ADCs will respectively be

Detailed Solution for Test: D/A Convertors - Question 9
  • For the successive approximation ADC, the conversion time is proportional to the input voltage range, so for a 6V input signal, the conversion time will be 2 times Ta. Therefore, the approximate time taken by the successive approximation ADC for a 6V input signal will be 2Ta.
  • For the single slope integrating ADC, the conversion time is also proportional to the input voltage range, so for a 6V input signal, the conversion time will be 2 times Tb. Therefore, the approximate time taken by the single slope integrating ADC for a 6V input signal will be Tb.
  • Therefore, the approximate time taken by the two ADCs for a 6V input signal will be 2Ta for the successive approximation ADC and Tb for the single slope integrating ADC.
Test: D/A Convertors - Question 10

A 5 bit ladder has a digital input of 11010. Assuming that 0 corresponds to 0 V and 1 corresponds to +10 V, its output voltage will be:

Detailed Solution for Test: D/A Convertors - Question 10

Concept:
For a ladder-type D/A Converter:
Output Voltage (V0) = Resolution × Decimal Equivalent of binary input.
Where Resolution is given by:

Application:
Given n = 5 and the Digital input = 11010
∵ The Resolution will be:

Since the decimal Equivalent of 11010 = 26
So, V0 = 26 × 0.3125
V0 = 8.125 V
Note: If the full-scale voltage is given, then:

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