Electrical Engineering

🔍

Electrical Engineering

Describe the role of an Analog-to-Digital Converter (ADC) in an embedded system that measures temperature.

by EE-Expert in Embedded System asked 2 months ago

Describe the role of an Analog-to-Digital Converter (ADC) in an embedded system that measures temperature.

Next ⇨Next ⇨⇦ Previous ⇦ Previous

Related questions

in Embedded System

What is a Real-Time Operating System (RTOS), and why is it frequently used in embedded systems instead of a general-purpose operating system like Linux or Windows?

What is a Real-Time Operating System (RTOS), and why is it frequently used in embedded systems instead of a general-purpose operating system like Linux or Windows?
Answer : The answer lies in one critical concept: **determinism**. While a general-purpose OS is designed for high throughput and fairness, an RTOS is designed for predictability and meeting strict timing deadlines. ... system where **failing to complete a task on time is considered a total system failure.**...

X

Full Screen Image

Electrical Engineering

Loading products...

in Power Electronics

Describe the function of an inverter in a power electronics system.

Describe the function of an inverter in a power electronics system.

X

Full Screen Image

Electrical Engineering

Loading products...

in Flexible AC Transmission System

What is the role of a FACTS device like a STATCOM in a power transmission system?

What is the role of a FACTS device like a STATCOM in a power transmission system?

X

Full Screen Image

Electrical Engineering

Loading products...

in Electrical Materials and Writing Practice

Describe the properties of copper that make it an ideal material for electrical wiring.

Describe the properties of copper that make it an ideal material for electrical wiring.

X

Full Screen Image

Electrical Engineering

Loading products...

in Digital Electronics And Microcontroller Applications

How does a microcontroller, which operates exclusively with discrete digital values (1s and 0s), measure a continuous, real-world analog signal like the temperature from a sensor?

How does a microcontroller, which operates exclusively with discrete digital values (1s and 0s), measure a continuous, real-world analog signal like the temperature from a sensor?
Answer : The bridge between the analog real world and the digital world of a microcontroller is a crucial mixed-signal circuit called an **Analog-to-Digital Converter (ADC)**. Virtually all modern ... measurement like temperature, allowing a purely digital device to sense and react to the analog world....

X

Full Screen Image

Electrical Engineering

Loading products...

in Signal & Systems

What is the difference between an analog signal and a digital signal?

What is the difference between an analog signal and a digital signal?

X

Full Screen Image

Electrical Engineering

Loading products...

in Switch Gear & Protection

What is the primary function of a circuit breaker in an electrical system?

What is the primary function of a circuit breaker in an electrical system?
Answer : It Cuts the power off in any fault in the circuit such as overloading to protect appliances....

X

Full Screen Image

Electrical Engineering

Loading products...

in Electrical And Electronic Measurement

What is the difference between analog and digital instruments in electrical measurement?

What is the difference between analog and digital instruments in electrical measurement?
Answer : Analog instruments use a continuously moving pointer or needle to represent the measured quantity. Example: moving-coil ammeter, analog voltmeter. They are simple and give a visual trend but have lower ... and can store or process data, but they may be costlier and require power supply/electronics....

X

Full Screen Image

Electrical Engineering

Loading products...

in Applied Physics Lab

Describe an experiment to determine the acceleration due to gravity (g) using a simple pendulum.

Describe an experiment to determine the acceleration due to gravity (g) using a simple pendulum.

X

Full Screen Image

Electrical Engineering

Loading products...

in Current Electricity

The storage battery of a car has an emf of 12V . If the internal resistance of the battery is 0.4 Ohm , what is the maximum current that can be drawn from the battery?

The storage battery of a car has an emf of 12V . If the internal resistance of the battery is 0.4 Ohm , what is the maximum current that can be drawn from the battery?
Answer : The maximum current that can be drawn from the battery is **30 Amperes (A)**. --- ### Detailed Explanation #### 1. Understand the Concepts * **EMF (Electromotive Force, $\mathcal{E ... even explode. This calculation is a theoretical maximum. **Never attempt to short-circuit a car battery.**...

X

Full Screen Image

Electrical Engineering

Loading products...

in Current Electricity

State why the resistance of the conductor increases with the rise in temperature.

State why the resistance of the conductor increases with the rise in temperature.
Answer : Here is a clear explanation of why the resistance of a conductor increases with a rise in temperature, broken down into a simple analogy and the underlying physics. --- ### Simple Analogy: The ... More collisions** mean more opposition to the flow, which is, by definition, **higher resistance**....

X

Full Screen Image

Electrical Engineering

Loading products...

in Current Electricity

If the temperature of a good conductor decreases, how does the relaxation time of electrons in the conductor change?

If the temperature of a good conductor decreases, how does the relaxation time of electrons in the conductor change?
Answer : ### The Short Answer If the temperature of a good conductor decreases, the **relaxation time of electrons increases**. --- ### The Detailed Explanation To understand why, let's break ... **. This is why good conductors become even better conductors (less resistive) at lower temperatures....

X

Full Screen Image

Electrical Engineering

Loading products...

in IoT Applications

How can the Internet of Things (IoT) be used to create a smart home automation system?

How can the Internet of Things (IoT) be used to create a smart home automation system?

X

Full Screen Image

Electrical Engineering

Loading products...

in Electrical Materials and Writing Practice

Compare the casing / capping system of electrical wiring to concealed system of electrical wiring. On the basis of look, cost, life, safety retentivity of material and suitability for locations.

Compare the casing / capping system of electrical wiring to concealed system of electrical wiring. On the basis of look, cost, life, safety retentivity of material and suitability for locations.
Answer : This comparison covers two of the most common methods for electrical wiring in buildings. Here is a detailed comparison of the Casing/Capping system and the Concealed Conduit system based on your ... and safety to the property. It is the standard for modern residential and commercial construction....

X

Full Screen Image

Electrical Engineering

Loading products...

in Applied Science

Describe the practical application of Pascal's law in hydraulic systems.

Describe the practical application of Pascal's law in hydraulic systems.

X

Full Screen Image

Electrical Engineering

Loading products...

in Electrical Materials and Writing Practice

Describe with sketches the process of laying of underground cables by the drawing in method.

Describe with sketches the process of laying of underground cables by the drawing in method.
Answer : ### **The "Drawing In" Method for Laying Underground Cables** This method involves first installing a system of pipes or conduits (called ducts) underground. The cables are then pulled, or " ... duct system. However, this is often offset by the long-term flexibility and protection it provides....

X

Full Screen Image

Electrical Engineering

Loading products...

in Electrical Materials and Writing Practice

Explain the use of the following components in electrical wiring system and give specification of each: (i) MCB (ii) ELCB

Explain the use of the following components in electrical wiring system and give specification of each: (i) MCB (ii) ELCB
Answer : ### Introduction In any modern electrical wiring system, safety and protection are paramount. Devices like MCBs and ELCBs are critical safety components installed in a consumer unit (also known as a ... (lighting, sockets, etc.) | Protecting a group of circuits or an entire installation |...

X

Full Screen Image

Electrical Engineering

Loading products...

in Current Electricity

A battery of emf E and internal resistance r sends a current, I1 , I2 when connected to an external resistance of R1 , R2 respectively. Find the emf. and internal resistance of the battery.

A battery of emf E and internal resistance r sends a current, I1 , I2 when connected to an external resistance of R1 , R2 respectively. Find the emf. and internal resistance of the battery.
Answer : Let's derive the expressions for the electromotive force (EMF) and the internal resistance of the battery step-by-step. ### Understanding the Setup The core principle we'll use is Ohm's law applied to the entire circuit. For a ... $$ **EMF (E):** $$ E = \frac{I_1 I_2 (R_1 - R_2)}{I_2 - I_1} $$...

X

Full Screen Image

Electrical Engineering

Loading products...

in Electrical Materials and Writing Practice

Explain the suitability of copper as an electrical conductor with reference to its mechanical and electrical properties.

Explain the suitability of copper as an electrical conductor with reference to its mechanical and electrical properties.
Answer : ### Introduction Copper is the industry standard for electrical wiring and conductors, and its widespread use is due to an exceptional combination of both electrical and mechanical properties. While ... for decades, making it the superior choice for the vast majority of electrical applications....

X

Full Screen Image

Electrical Engineering

Loading products...

in Electrical Materials and Writing Practice

Explain the suitability of aluminum as an electrical conductor with respect to its mechanical and electrical properties.

Explain the suitability of aluminum as an electrical conductor with respect to its mechanical and electrical properties.
Answer : Aluminum is an excellent and widely used electrical conductor, second only to copper in global usage. Its suitability is a trade-off: it is not as conductive as copper, but its significantly lower ... at a premium and high conductivity in a small package is essential, copper is the superior choice....

X

Full Screen Image

Electrical Engineering

Loading products...

in Electronics Engineering

What is the function of a capacitor in an electronic circuit?

What is the function of a capacitor in an electronic circuit?
Answer : To store electric energy when the circuit is closed and release the energy when circuit is opened ...

X

Full Screen Image

Electrical Engineering

Loading products...

in Electrical Safety & Standards

What is the purpose of grounding (earthing) in an electrical installation?

What is the purpose of grounding (earthing) in an electrical installation?

X

Full Screen Image

Electrical Engineering

Loading products...

in Electrical Machines – II

Explain the concept of 'slip' in an induction motor.

Explain the concept of 'slip' in an induction motor.

X

Full Screen Image

Electrical Engineering

Loading products...

in Power System

What is the purpose of a substation in an electrical power grid?

What is the purpose of a substation in an electrical power grid?

X

Full Screen Image

Electrical Engineering

Loading products...

in Current Electricity

A set of n-identical resistors, each of resistance R ohm when connected in series have an effective resistance of X ohm and when the resistors are connected in parallel the effective resistance is Y ohm. Find the relation between R , X and Y ?

A set of n-identical resistors, each of resistance R ohm when connected in series have an effective resistance of X ohm and when the resistors are connected in parallel the effective resistance is Y ohm. Find the relation between R , X and Y ?
Answer : Let's break this down step-by-step to find the relationship between R, X, and Y. ### 1. Resistors in Series When resistors are connected in series, their total effective resistance is the sum of ... the **geometric mean** of the total series resistance (X) and the total parallel resistance (Y)....

X

Full Screen Image

Electrical Engineering

Loading products...

in Electrical Safety & Standards

What is the purpose of earthing or grounding in an electrical installation?

What is the purpose of earthing or grounding in an electrical installation?
Answer : The primary and most critical purpose of earthing (or grounding, as it's more commonly called in North America) in an electrical installation is **safety**. It acts as a ... that saves lives and prevents fires by ensuring any dangerous electrical fault is instantly and automatically disconnected....

X

Full Screen Image

Electrical Engineering

Loading products...

in Applied Mathematics II

Why is the Fourier Series—the ability to represent a complex periodic function as a sum of simple sine and cosine waves—considered one of the most powerful tools in applied mathematics and engineering?

Why is the Fourier Series—the ability to represent a complex periodic function as a sum of simple sine and cosine waves—considered one of the most powerful tools in applied mathematics and engineering?
Answer : The power of the Fourier Series lies in its ability to transform a problem from the often-complex **time domain** into the much simpler and more intuitive **frequency domain**. It acts like a ... ) is impossible. The sharp corners, which rely on the highest frequencies, will always get rounded off....

X

Full Screen Image

Electrical Engineering

Loading products...

in Applied Physics Lab

In a Hall Effect experiment, a voltage is measured perpendicular to both the current flow and the magnetic field. What is the physical origin of this "Hall Voltage," and what two crucial properties of a semiconductor material can be determined by measuring it?

In a Hall Effect experiment, a voltage is measured perpendicular to both the current flow and the magnetic field. What is the physical origin of this "Hall Voltage," and what two crucial properties of a semiconductor material can be determined by measuring it?
Answer : The physical origin of the Hall Voltage is the **Lorentz force** acting on charge carriers as they move through a magnetic field. This simple experiment is profoundly important because it ... **carrier concentration `n`**, a fundamental parameter that dictates the material's electrical properties....

X

Full Screen Image

Electrical Engineering

Loading products...

in Current Electricity

Six lead-acid type of secondary cells each of emf 2.0 V and internal resistance 0.015 Ohm are joined in series to provide a supply to a resistance of 8.5 Ohm . What is the current drawn from the supply and its terminal voltage?

Six lead-acid type of secondary cells each of emf 2.0 V and internal resistance 0.015 Ohm are joined in series to provide a supply to a resistance of 8.5 Ohm . What is the current drawn from the supply and its terminal voltage?
Answer : ### Given Data: * Number of cells, **n = 6** * EMF of each cell, **E_cell = 2.0 V** * Internal resistance of each cell, **r_cell = 0.015 Ω** * External resistance (load), **R = 8.5 Ω ... The current drawn from the supply is **1.40 A**. * The terminal voltage of the supply is **11.9 V**....

X

Full Screen Image

Electrical Engineering

Loading products...

in Current Electricity

A battery of emf 10 V and internal resistance 3 Ohm is connected to a resistor. If the current in the circuit is 0.5 A, what is the resistance of the resistor? What is the terminal voltage of the battery when the circuit is closed?

A battery of emf 10 V and internal resistance 3 Ohm is connected to a resistor. If the current in the circuit is 0.5 A, what is the resistance of the resistor? What is the terminal voltage of the battery when the circuit is closed?
Answer : ### Given Information: * **EMF of the battery (E):** 10 V * **Internal resistance (r):** 3 Ω * **Current in the circuit (I):** 0.5 A --- ### 1. What is the resistance of the ... text{V}$ Both methods give the same result. **Answer:** The terminal voltage of the battery is **8.5 V**....

X

Full Screen Image

Electrical Engineering

Loading products...

in Current Electricity

Three identical cells, each of emf. 2V and unknown internal resistance are connected in parallel. This combination is connected to a 5 ohm resistor. If the terminal voltage across the cell is 1.5 volt. What is the internal resistance of each cell? Hence define the internal resistance of a cell?

Three identical cells, each of emf. 2V and unknown internal resistance are connected in parallel. This combination is connected to a 5 ohm resistor. If the terminal voltage across the cell is 1.5 volt. What is the internal resistance of each cell? Hence define the internal resistance of a cell?
Answer : ### Part 1: Calculating the Internal Resistance Here's how we can find the internal resistance of each cell. **Given Data:** * Electromotive force (EMF) of each cell, E = 2 V * Number of identical cells ... . * **I** is the current flowing from the cell. * **r** is the internal resistance....

X

Full Screen Image

Electrical Engineering

Loading products...

in Current Electricity

In a potentiometer arrangement, a cell of emf 1.25V gives a balance point at 35.0cm length of the wire. If the cell is replaced by another cell and the balance point shifts to 63.0cm , what is the emf of the second cell?

In a potentiometer arrangement, a cell of emf 1.25V gives a balance point at 35.0cm length of the wire. If the cell is replaced by another cell and the balance point shifts to 63.0cm , what is the emf of the second cell?
Answer : ### Principle The working principle of a potentiometer is that the potential drop across any portion of a wire of uniform cross-section is directly proportional to the length of that portion, provided a constant current flows ... 2.25 V** ### Answer The EMF of the second cell is **2.25 V**....

X

Full Screen Image

Electrical Engineering

Loading products...

in Current Electricity

Two heated wires of the same dimensions are first connected in series and then it’s parallel to a source of supply. What will be the ratio of heat produced in the two cases?

Two heated wires of the same dimensions are first connected in series and then it’s parallel to a source of supply. What will be the ratio of heat produced in the two cases?
Answer : Here is the step-by-step solution: ### The Short Answer The ratio of heat produced in the series case to the parallel case is **1:4**. --- ### Detailed ... proportional to this current, the parallel circuit draws significantly more power and therefore produces significantly more heat....

X

Full Screen Image

Electrical Engineering

Loading products...

in Thevenin's theorem

Find the Thevenin equivalent circuit of the circuit shown in Fig. to the left of the terminals a-b. Then find the current through RL = 6, 16, and 36 Ohm.

Find the Thevenin equivalent circuit of the circuit shown in Fig. to the left of the terminals a-b. Then find the current through RL = 6, 16, and 36 Ohm. ![][1] [1]: https://electrical-engineering.app/?qa=blob&qa_blobid=8797772883006435339
Answer : Solution : ![][1] [1]: https://electrical-engineering.app/?qa=blob&qa_blobid=9419660387739356857...

X

Full Screen Image

Electrical Engineering

Loading products...

in Advance Power Electronics

Explain the operation of a buck-boost converter and its primary application.

Explain the operation of a buck-boost converter and its primary application.

X

Full Screen Image

Electrical Engineering

Loading products...

in Power Quality

What is meant by "harmonics" in an electrical system and what problems can they cause?

What is meant by "harmonics" in an electrical system and what problems can they cause?

X

Full Screen Image

Electrical Engineering

Loading products...

in Numerical Mathematics & Probability using MATLAB

How would you use MATLAB to solve a system of linear equations?

How would you use MATLAB to solve a system of linear equations?

X

Full Screen Image

Electrical Engineering

Loading products...

in Control System

What is the difference between an open-loop and a closed-loop control system?

What is the difference between an open-loop and a closed-loop control system?

X

Full Screen Image

Electrical Engineering

Loading products...

in Microwave Engineering & Radar System

What is the basic principle behind how a RADAR system detects an object's range and velocity?

What is the basic principle behind how a RADAR system detects an object's range and velocity?

X

Full Screen Image

Electrical Engineering

Loading products...

in Electrical Materials and Writing Practice

State the insulating materials used in motor. Write temperature class and withstand temperature ranges for them.

State the insulating materials used in motor. Write temperature class and withstand temperature ranges for them.
Answer : ### The Importance of Motor Insulation Motor insulation is a critical system of materials that prevents electrical shorts and ensures the motor's longevity and reliability. It prevents current from leaking ... and reliably operate up to the maximum temperature of that class (155°C for Class F)....

X

Full Screen Image

Electrical Engineering

Loading products...

in Basics of Civil and Mechanical Engineering

From a fundamental engineering mechanics perspective, what is the primary difference between a beam and a shaft, given that both are often long, slender components used in structural and mechanical systems?

From a fundamental engineering mechanics perspective, what is the primary difference between a beam and a shaft, given that both are often long, slender components used in structural and mechanical systems?
Answer : The primary difference lies in the **type of load they are designed to resist** and, consequently, the **purpose they serve**. A **beam** is designed to resist **bending loads**, while a ... it supports. In such cases, engineers must analyze the **combined stresses** from both bending and torsion....

X

Full Screen Image

Electrical Engineering

Loading products...

in Object Oriented Programming Using C++

In C++, what is the fundamental problem that the virtual keyword solves when working with inheritance and pointers, and what is the practical difference in behavior when a base class function is declared with versus without it?

In C++, what is the fundamental problem that the virtual keyword solves when working with inheritance and pointers, and what is the practical difference in behavior when a base class function is declared with versus without it?
Answer : The `virtual` keyword solves the critical problem of **static vs. dynamic binding**, enabling **runtime polymorphism**, which is arguably the most powerful feature of Object-Oriented Programming. In simple terms, `virtual` ... NOTE: No 'virtual' keyword here void draw() { std::cout ...

X

Full Screen Image

Electrical Engineering

Loading products...

in Electronic Materials & Components

What is the fundamental difference in the physical mechanism and material structure between a Light Emitting Diode (LED) and a Laser Diode, given that both are semiconductor p-n junction devices that convert electricity into light?

What is the fundamental difference in the physical mechanism and material structure between a Light Emitting Diode (LED) and a Laser Diode, given that both are semiconductor p-n junction devices that convert electricity into light?
Answer : The difference lies in the nature of the photon emission process they utilize and the physical structure required to support that process. An LED relies on **Spontaneous Emission** to produce incoherent light, ... data | Fiber optics, barcode scanners, laser pointers, Blu-ray/DVD players |...

X

Full Screen Image

Electrical Engineering

Loading products...

in Electric Power Generation

Describe the term 'Nuclear shielding' in Nuclear Power Plant.

Describe the term 'Nuclear shielding' in Nuclear Power Plant.
Answer : --- ### **Nuclear Shielding in a Nuclear Power Plant** In a nuclear power plant, **Nuclear Shielding** refers to the use of specific materials and structures designed to absorb or block ... , making it possible to operate a nuclear reactor safely and protect workers and the public from harm....

X

Full Screen Image

Electrical Engineering

Loading products...

in Current Electricity

A silver wire has a resistance of 2.1 Ohm at 27.5 degree C , and a resistance of 2.7 Ohm at 100 degree C . Determine the temperature coefficient of resistivity of silver.

A silver wire has a resistance of 2.1 Ohm at 27.5 degree C , and a resistance of 2.7 Ohm at 100 degree C . Determine the temperature coefficient of resistivity of silver.
Answer : ### 1. Understand the Principle The relationship between resistance and temperature for most metals (like silver) over a moderate temperature range is approximately linear and can be described by the formula: $R_2 = ... 00394 °C⁻¹** Alternatively, in scientific notation: **α = 3.94 x 10⁻³ °C⁻¹**...

X

Full Screen Image

Electrical Engineering

Loading products...

in Current Electricity

Draw the graph showing the variation of conductivity with temperature for a metallic conductor?

Draw the graph showing the variation of conductivity with temperature for a metallic conductor?
Answer : The conductivity for a metallic conductor decreases with the increase in temperature. ![][1] [1]: https://electrical-engineering.app/?qa=blob&qa_blobid=10491891827766109637 ### Explanation: The Physics Behind the Graph To understand this ... | **Low** |...

X

Full Screen Image

Electrical Engineering

Loading products...

in Electronic Materials & Components

What are the properties of silicon that make it a suitable material for semiconductors?

What are the properties of silicon that make it a suitable material for semiconductors?

X

Full Screen Image

Electrical Engineering

Loading products...

in Engineering Graphics

What is Orthographic Projection, and what is the fundamental principle that governs the alignment of the standard views (Front, Top, and Right Side) on a 2D engineering drawing?

What is Orthographic Projection, and what is the fundamental principle that governs the alignment of the standard views (Front, Top, and Right Side) on a 2D engineering drawing?
Answer : **Orthographic Projection** is the primary method used in engineering to represent a three-dimensional object on a two-dimensional surface. The core idea is to look at the object from ... the exact 3D object it represents, making it the unambiguous foundation for manufacturing and construction....

X

Full Screen Image

Electrical Engineering

Loading products...

in Basic Electrical Engineering

List the factors that affect the resistance of a metallic conductor.

List the factors that affect the resistance of a metallic conductor.
Answer : The resistance of a metallic conductor is determined by four main factors. Here is a list and explanation of each factor: ### 1. Length of the Conductor (L) * **Relationship:** ... (Note: Temperature is not explicitly in this formula, as resistivity (ρ) itself is temperature-dependent.)*...

X

Full Screen Image

Electrical Engineering

Loading products...

in Electrical Power Utilization

Describe the principle of electric arc welding.

Describe the principle of electric arc welding.

X

Full Screen Image

Electrical Engineering

Loading products...

...