Based on the measurements on table 1.1 and 1.2, what is the condition of the diode? Table 1.1Multimeter's probe connection to Diode terminalReading ResultRed to Anode & Black to Cathode0.5 VRed to Cathode & Black to AnodeOL2. If the red probe is connected to the anode terminal of the diode, this means diode is forward-biased. If the displayed voltage value is in between 0.6 to 0.7 (since it is silicon diode) then thediode is healthy and perfect.3. If the red probe is connected to the cathode and the black to anode, this is the reverse biasedcondition of the diode where no current flows through it. Hence the meter should read OL (which isequivalent to open circuit) if the diode is healthy.B. Ohmmeter Mode Testing Procedure1. Identify the terminals anode and cathode of the diode.2. Keep the multimeter in resistance or ohmmeter mode by rotating the central knob or selector to theplace where ohm symbol or resistor values are indicated.3. Keep the selector in low resistance (may be 200 ohm) mode for forward-bias and keep it in highresistance mode (2M ohm) for the reverse bias testing procedure.Using Multisim, select QW* Simulated Agilent Multimeter-XMM2* Agilent neutimene34401AlaptRata RetvOhmHIFUNCTIONMATHLOLOACIPeried%23De VFreeContPOwerMaANGE/ DIGITSAuterManSingleShifonFased onR PataCHOICESLEVELENTERLOCALTable 1.2Multimeter's probe connection to Diode terminalReading ResultRed (+) to Anode &Black (-) to Cathode535.45 QRed (+) to Cathode &53.09 kOBlack (-) to Anode

Given: Consider the given tables: To find: Based on the measurements in the above tables, what is…

Answered: Based on the measurements on table 1.1…

Engineering

Electrical Engineering

Based on the measurements on table 1.1 and 1.2, what is the condition of the diode?

Delmar's Standard Textbook Of Electricity

7th Edition

ISBN:9781337900348

Author:Stephen L. Herman

Publisher:Stephen L. Herman

Chapter30: Dc Motors

Section: Chapter Questions

Problem 6RQ: What is CEMF?

See similar textbooks

Related questions

Q: A three-phase, four-pole induction motor, connected at ∆, 220V, 60Hz, presents rotational losses of ...

Q: 3) For the circuit in Figure 6.6, use superposition to determine V1 and V2. 2.7kQ + V2 - 1k2 3.3kn 5...

A: Superposition theorem: It tells that if there is a linear bilateral network containing more than one...

Q: 24430 v. z, = 2 + 2 2, 2, = 4 - j3 2, j10 0, and z, 4. For the circuit below, E, z, = 6 + 38 2, 2, =...

A: The circuit is as shown below,

Q: A real continuous-time LTI system is given by the block diagram below. E(s) G(s) R(s) Y(s) The input...

Q: 10.4: For the circuit shown: 1. Find the Z-Parameters? 2. Find the Y-Parameters? ww 202 V2 202 (Ans....

A: This question belongs to circuit theory . It is based on the concept of z parameters and y parameter...

Q: Inductive reactance results in a current that lags the voltage by n/2 rad leads the voltage by n /2 ...

Q: 25. The maximum instantaneous voltage and current output of an alternator are 300 V and 20 A, respec...

Q: Simplify the circuit using appropriate resistor combinations and apply voltage division to determine...

A: The given circuit diagram is shown below:

Q: a) [ (indicate all values and units). Redraw the circuit in the S-domain b) L Calculate the total im...

Q: In designing a full wave power supply using a single pi section filter that provides a dc output of ...

A: EMF is the electromagnetic force which is the force required for the current flow. The EMF is develo...

Q: have an inductance of 12.5 H when operating at a flux density 3 T, the corresponding relative permea...

Q: 1. A large power plant generates electricity at 12.0 kV. Its old transformer once converted the volt...

Q: R1 100 Ω V1 sine (A 60 Hz R2 10 10 Vrms 1:1 Calculate the magnitude (in RMS) of the voltage across R...

Q: Using re model, compute for the AC characteristic of below circuit. (Ai) 15 V 10 k2 45 k2 21k2 I µF ...

A: We need to find current gain for given circuit

Q: Problem 4. Is the circuit below (consisting of a D-Latch and a couple logic gates) an S-R latch or a...

A: The solution is given below

Q: The equation for 60 cycles current sine wave having RMS value 30 amperes, will be ____. Kindly provi...

A: The solution is given below

Q: 2. Sketch the following convolutions: a(t) = rect b(t) = ("C. 9, 0く) 0 <t <1 other c(t) = 8(t – 1) (...

Q: An iron ring has a length of 60 cm and cross section of 4 cm^2. If the field strength is 1.5 T, find...

Q: (c) Now suppose a 100 mV signal is applied to the antenna. Calculate the output power. Is this a rea...

Q: Given a voltage v = 50 cos(200nt + 60°) V. Find (a) its amplitude, (b) its phase angle in degrees, (...

A: The solution is given below

Q: 24. The following are in series R = 2, 000 N, L = 600 µH and C = 80, 000 pF. The voltage across the ...

Q: what should be the operating frequency to have a high frequency gain of 30 % lower that the mid ban...

A: The circuit diagram is given as We know that the frequency response of opamp is like a low pass fil...

Q: An alternating voltage v-90cos(wt - 161.5 degrees) maybe represented function by 90sin (wt- 71.5 deg...

A: Option - a ( answer )

Q: R = 330 2 R3 = 91 2 Voltmeter E 10 V R2 220 2 %3D (DMM or VOM)

Q: QUESTIONS: 1. What is the Transfer function? 2. What do the BODE diagram and poles-zeros graph tell ...

A: Solve the first question, unless the student has asked for a specific question to be solved, subject...

Q: Answer the following questions: a) in the time domain vo(t). s] Given the output voltage signal Vo(s...

Q: A mini diesel power plant burns diesel at 12,500 kcal/kg.

A: Conductor-Materials which have free electrons in valence which can flow when comes under any externa...

Q: 21. A current of 2.5 A flows through a series circuit consisting of a 100 N resistor and an unknown ...

A: We need to find out capacitive reactance for given circuit

Q: Show all computations. A Bo 2Ω 25 2 8Ω 50 Ω D 50 2

A: Given, We have circuit. We have to find current by applying voltage . Please find the below attachme...

Q: EXERCIS E 5.9 Consider a family of logic gates that operates under the static 1.5 V, VOL discipline ...

A: Given,The thresholds voltages are,VIL=1.5 VVOL=0.5 VVIH=3.5 VVOH=4.4 V

Q: Find the sum of the poles of the system represented in state space below. 8 -4 1 -4" -3 2 0 x + -3 u...

Q: 3. What is the rms value of a square wave with an amplitude of 10 A and a frequency of 1 Hz? 4. A si...

A: The solution is given below

Q: capacitor to alternating current of frequency 50Hz is 10ohms. If the frequency is increased to 100Hz...

A: Reactance and frequency are inversely proportional for capacitor

Q: 1. An AM signal consists of a 10-MHz carrier modulated by a 5-kHz sine wave. It has a maximum positi...

A: We are authorized to answer three subparts at a time, since you have not mentioned which part you ar...

Q: Contribution of fault analysis in power system netwrok?

A: Solution- Contribution of fault analysis in power system network- Fault analysis of a power system i...

Q: a I1 20 212 V.079 I3 ell jia b' 10 420°A -j207 22 V,071 Is 12 e

A: To find all currents through kirchoff's law

Q: Q7: How can you explain scientifically the generation of high voltages to feed the ignition plugs in...

A: Electrical machines can be either generator , transformers or motors. They can be either Ac machines...

Q: resistors having resistances of 12 and 24 ohms. Determine the current passing

Q: A four wire 208 V three-phase system is used to supply power to a three-phase 5-hp induction motor a...

Q: A 40 kVA, single-phase transformer has 400 turns on the primary and 100 turns on the secondary. The ...

Q: 5 For each of the circuits shown in Fig. P3.3: a) Find the equivalent resistance seen by the source....

A: Given, We have Circuits. We have to find equivalent resistance seen by source And power developed b...

Q: Answer the question briefly. 1. How to generate an AC? Explain. 2. What are the types of alternating...

Q: 5. What was the effect on the motor power factor as the load increased? 6. What was the effect on th...

Q: Two alternating voltages are represented by v1%350sinwt volts and v2-100sin (wt - T/6) V. Find the s...

A: The solution is given below

Q: In a balanced three-phase Y-connected system, the line voltage and the corresponding phase voltage a...

Q: A C-filtered center-tapped rectifier circuit is used to rectify sinusoid of 110 Vrms, 60HZ. The mini...

A: Given:V=110 Vrmsf=60HzMinimum output voltage=35Volttransformer ratio= 2:1load resistance, RL=1.8kΩ

Q: use nodal analysis to solve for the given circuit

A: To solve using nodal analysis Nodes are a,b,c,d,e Let 'c' as reference node

Q: C2 C3 Once vou u

A: The solution is given below

Q: + R1 R2 Vo V out Vin

Q: 6. A two-element series circuit with R = 150, L = 20 mH has an impedance of 30 ohms and an unknown a...

Concept explainers

Analysis of Diode

It is a semiconductor device in electronics applications where only a one-way current is required. It is like a one-way switch that allows current to flow in one direction only. A diode has two terminals, a cathode, and an anode. The cathode is the negative terminal that carries electrons, while the anode is the positive terminal that carries holes. Although no element has holes, it just means that there is a free space for electrons. Diodes are used to convert AC to DC. As we know, AC shifts between positive and negative cycles and DC stays positive constantly. As the diodes allow current only in one direction, they filter out the AC signal’s negative cycle and only keep the positive one.

Working and Construction

In civil engineering, construction means the application of principles of science and mathematics for building bridges, dams, buildings, roads, highways, tunnels, airports, structures, etc. Different branches of science, like physics and chemistry, are extensively applied to design and analysis in construction. Material properties, the science of atmospheric conditions (like solutions, mixtures, etc.), the impact of environmental factors like, corrosion and acidity are some of the primary knowledge of chemistry which are used by civil engineers to carry out construction. Estimation of forces, application of laws of mechanics, fluids mechanics, soil mechanics, etc. are some of the fundamental concepts of physics, which are well applied in construction works. Building construction and structural engineering are two of the most primary areas in civil engineering that parallelly applies principles of both chemistry and physics to carry on construction works.

Property of Diode

An electronic component that facilitates the directional flow of current is known as a diode. According to the direction of the flow of current, the resistance of a diode changes from zero to Infinity.

Question

Based on the measurements on table 1.1 and 1.2, what is the condition of the diode?

Table 1.1
Multimeter's probe connection to Diode terminal
Reading Result
Red to Anode & Black to Cathode
0.5 V
Red to Cathode & Black to Anode
OL
2. If the red probe is connected to the anode terminal of the diode, this means diode is forward-
biased. If the displayed voltage value is in between 0.6 to 0.7 (since it is silicon diode) then the
diode is healthy and perfect.
3. If the red probe is connected to the cathode and the black to anode, this is the reverse biased
condition of the diode where no current flows through it. Hence the meter should read OL (which is
equivalent to open circuit) if the diode is healthy.
B. Ohmmeter Mode Testing Procedure
1. Identify the terminals anode and cathode of the diode.
2. Keep the multimeter in resistance or ohmmeter mode by rotating the central knob or selector to the
place where ohm symbol or resistor values are indicated.
3. Keep the selector in low resistance (may be 200 ohm) mode for forward-bias and keep it in high
resistance mode (2M ohm) for the reverse bias testing procedure.
Using Multisim, select QW
* Simulated Agilent Multimeter-XMM2
* Agilent neutimene
34401A
lapt
Rata Ret
v
Ohm
HI
FUNCTION
MATH
LO
LO
ACI
Peried
%23
De V
Free
Cont
POwer
Ma
ANGE/ DIGITS
Auter
Man
Single
Shif
on
Fased on
R Pata
CHOICES
LEVEL
ENTER
LOCAL
Table 1.2
Multimeter's probe connection to Diode terminal
Reading Result
Red (+) to Anode &
Black (-) to Cathode
535.45 Q
Red (+) to Cathode &
53.09 kO
Black (-) to Anode

Expert Solution

This question has been solved!

Explore an expertly crafted, step-by-step solution for a thorough understanding of key concepts.

SEE SOLUTION Check out a sample Q&A here

Step 1

VIEW

Step 2

VIEW

Step 3

VIEW

Step by step

Solved in 3 steps with 5 images

SEE SOLUTION Check out a sample Q&A here

Knowledge Booster

Learn more about

Need a deep-dive on the concept behind this application? Look no further. Learn more about this topic, electrical-engineering and related others by exploring similar questions and additional content below.

Similar questions

A 1N4748A zener diode has a ZZ of 23 Ω. Taking the data from the datasheet VZ = 22 V with a test current, IZ, of 11.5 mA. What is the voltage across the zener terminals when the current is 6 mA? When the current is 20 mA? Make the representation of the values by means of their curve characteristic.
During calibration of an LVDT, the data shown in Table P1.54 were obtained. Using a spreadsheet program, plot the relation between the micrometer reading and voltage. What is the linear range of the LVDT? Determine the calibration factor of the LVDT by obtaining the best fit line of the data within the linear range.
InP is composed of equal atoms of indium and phosphorus in a lattice similar to that of silicon. (a) Suppose a germanium atom replaces an indium atom in the lattice. Do you expect the germanium atom to behave as a donor or acceptor impurity? Why? (b) Suppose a germanium atom replaces a phosphorus atom in the lattice. Do you expect the germanium atom to behave as a donor or acceptor impurity? Explain.
Draw the V-I characteristic curve of a Ge based Zener diode with Zener breakdown voltage (?z=5 ?). Indicate three different regions of the curve. Subject: Electronic devices
Which of the following ratings (PIV- Peak Inverse Voltage and temperature) is true? Si diodes have lower PIV and wider temperature ranges than Ge diodes. Ge diodes have lower PIV and smaller temperature ranges than Si diodes. Si diodes have higher PIV and narrower temperature ranges than Ge diodes. Si diodes have lower PIV and narrower temperature ranges than Ge diodes.
Calculate the intrinsic carrier densities in silicon and germanium at (a) 77K, (b) 300K, and (c) 450K. Use the information from the table shown.
Which of the following ratings (PIV- Peak Inverse Voltage and temperature) is true? A)Si diodes have lower PIV and wider temperature ranges than Ge diodes. B) Si diodes have lower PIV and narrower temperature ranges than Ge diodes. C) Si diodes have higher PIV and narrower temperature ranges than Ge diodes. D) Ge diodes have lower PIV and smaller temperature ranges than Si diodes.
Draw band diagrams for below contacts. a) metal-n-type semiconductor for Φm< Φs b) metal-n-type semiconductor for Φm> Φs c) metal-p-type semiconductor for Φm< Φs d) metal-p-type semiconductor for Φm> Φs Clearly specify type of contact, Schottky barrier, built-in-potential and the depletion width in the band diagram
Assume D = D0e^–Ea/kT is the diffusion coefficient of boron in silicon surface, whereD0 = 10.5 cm^2/s and Ea = 3.7 eV. The substrate is N-type silicon doped to 10^15 cm^3.N0 = 10^15 cm^2 of boron is introduced just below the silicon surface.(a) What is the junction depth after a 1-h drive-in at 1,100°C?(b) By how much will the junction depth change after 10^6 h (~100 years) of operation at100°C
3. What are the main applications of using diodes in commercial power supplies such as laptop power supply? Please provide an original response, thank
The voltage drop of schottky diode is more than that of power diode? true or fales
What are the main components that make up a photoresist? 2. What is a two-component resist? What are the two components? 3. What does the concept of dose involve? 4. What effect does the dose have on the molecular weight of a negativeresist? (Does it cause it to decrease or increase?) 5. Identify one problem that can arise when positive resist is applied to athermally grown oxide wafer (silicon substrate). How can this problembe resolved?