II.Attach C to B, forming a BJT.A. Identify the type of BJT (NPN or PNP). Where is the emitter, base and the collector?Answer with A -_B -C-In forward active mode, why does a large current flow in the base-collector junction,even though it's reverse-biased? Answer in 1 sentence.C. If the transistor is made forward-active, draw the new energy-band diagram. AВE.EFE.E,I.Take the first part of the energy band figure shown below where material A is attached tomaterial B.A. If a positive voltage was applied to A, and B was attached to ground, is the AB junctionforward-biased or reverse-biased? (3 pts)Voltage/-EnergyElectricChargeFieldAВAAВB. The built-in voltage of a PN junction is due to a charge gradient between the two sidesof the junction, as shown above. What is the cause of this charge gradient? Answer in 1sentence.u°w* w¯ w?

Answered: Image /qna-images/answer/6a562e72-a204-4afd-a2bb-54333812d932.jpg

II. Attach C to B, forming a BJT. A. Identify the type of BJT (NPN or PNP). Where is the emitter, base and the collector? B -_ C- Answer with A - B. In forward active mode, why does a large current flow in the base-collector junction, even though it's reverse-biased? Answer in 1 sentence. C. If the transistor is made forward-active, draw the new energy-band diagram.

II. Attach C to B, forming a BJT. A. Identify the type of BJT (NPN or PNP). Where is the emitter, base and the collector? B -_ C- Answer with A - B. In forward active mode, why does a large current flow in the base-collector junction, even though it's reverse-biased? Answer in 1 sentence. C. If the transistor is made forward-active, draw the new energy-band diagram.

Introductory Circuit Analysis (13th Edition)

13th Edition

ISBN:9780133923605

Author:Robert L. Boylestad

Publisher:Robert L. Boylestad

Chapter1: Introduction

Section: Chapter Questions

Problem 1P: Visit your local library (at school or home) and describe the extent to which it provides literature...

See similar textbooks

Similar questions

Please do it on a paper
Task 3 a. Explain the operating principle of a BJT. b. For the given circuit below, the collector to emitter voltage of the BJT is 5.2V. Determine the current gain (B) of the transistor. BTEC 100 kn +12V 1kQ I Loughborough COLLEGE-
In saturation, what statement correctly describes the operation of a BJT transistor? Select one: a. No current flows through the transistor. Ob. There is a linear relationship between collector and base current. There is a nonlinear relationship between collector current and base current. d. There is an inverted but linear relationship between collector and base current. C.
QUESTION 3 List the three (3) operating regions of BJT. State the condition of BE junction and CB junction if the operating region is active. a)
Question three: Given the BJT transistor characteristics of Figure below: a. Draw load line on the characteristics determined by Vcc=21 V and R= 3 kQ for a fixed- bias configuration. b. Choose an operating point midway between cutoff and saturation. Determine the value of Rp to establish the resulting operating point. c. What are the resulting values of Ico and Vceq? d. What is the value of ß at the operating point? e. What is the value of a defined by the operating point? f. What is the saturation current (Icsar) for the design? g. Sketch the resulting fixed-bias configuration. h. What is the dc power dissipated by the device at the operating point? i. What is the power supplied by Vcc? j. Determine the power dissipated by the resistive elements by taking the difference between the results of parts (h) and (i). 1 Ic(mA) 110HA 100 µA 10 9 40 µÃ 5 30 HA 4 20 μΑ 10 HA 10 15 20 25 30 VCE (V)
Please answer 1 and 2 in step by step solution
The BJT is said to be in O a. active region, if both the junctions are forward biased b. saturation region, if both the junctions are reverse biased. OC. saturation region, if collector junction is reverse bigsed. d. cut-off region, if both the junctions are reverse biased.
Topic: Input and Output Characteristics of Transistor in Common Base Configuration Answer in 2-3 sentences each. Need a kind tutor that will do it for me. Thank you! 1. What is the range of "a" (alpha) for the transistor? 2. Identify various regions in output characteristics. 3. What is the relation of "a" (alpha) and "b" (beta)?
Please Solve on paper ASAP
Please answer all subpart in short please Asap for like this please..
4