Get premium membership and access questions with answers, video lessons as well as revision papers.

Find the a rating of the transistor shown in Fig. 4.20. Hence determine the value of IC using both a and ß rating of the...

Find the α rating of the transistor shown in Fig. 4.20. Hence determine the value of IC using both α and β rating of the transistor.

Answers

- Fig. 4.20 shows the conditions of the problem

Wilfykil answered the question on August 14, 2019 at 13:20

Next: Calculate I_E in a transistor for which ß = 50 and I_B = 20 µA.
Previous: Read the following excerpt then answer the questions that follow.

View More Electronics Questions and Answers | Return to Questions Index

Learn High School English on YouTube

Related Questions

Calculate I_E in a transistor for which ß = 50 and I_B = 20 µA.(Solved)
Calculate I_E in a transistor for which β = 50 and I_B = 20 μA.

Date posted: August 14, 2019. Answers (1)
Find the value of ß if; (i) a = 0.9 (ii) a = 0.98 (iii) a = 0.99.(Solved)
Find the value of β if;
(i) α = 0.9
(ii) α = 0.98
(iii) α = 0.99.

Date posted: August 14, 2019. Answers (1)
Explain the Common Emitter Connection in transistors(Solved)
Explain the Common Emitter Connection in transistors

Date posted: August 14, 2019. Answers (1)
List the Transistor Connections or configurations(Solved)
List the Transistor Connections or configurations

Date posted: August 14, 2019. Answers (1)

A common base transistor amplifier has an input resistance of 20 ohms and output resistance of 100 kilo-ohms.(Solved)
A common base transistor amplifier has an input resistance of 20 ohms and output resistance of 100 kilo-ohms. The collector load is 1 kilo-ohm. If a signal of 500 mV is applied between emitter and base, find the voltage amplification. Assume a_ac to be nearly one

Date posted: August 14, 2019. Answers (1)
Explain how Transistor Circuit is used as an Amplifier(Solved)
Explain how Transistor Circuit is used as an Amplifier

Date posted: August 14, 2019. Answers (1)
Show in form of diagrams the Transistor Symbols(Solved)
Show in form of diagrams the Transistor Symbols

Date posted: August 14, 2019. Answers (1)
What is the Importance of transistor action?(Solved)
What is the Importance of transistor action?

Date posted: August 14, 2019. Answers (1)

Discuss on Transistor Action(Solved)
Discuss on Transistor Action

Date posted: August 14, 2019. Answers (1)
Which are the Facts about the Transistor?(Solved)
Which are the Facts about the Transistor?

Date posted: August 14, 2019. Answers (1)
Explain the Naming of Transistor Terminals(Solved)
Explain the Naming of Transistor Terminals

Date posted: August 14, 2019. Answers (1)
Over what range of input voltage will the Zener circuit shown in Fig. 3.68 maintain 30 V across 2000 O load, assuming that series resistance...(Solved)
Over what range of input voltage will the Zener circuit shown in Fig. 3.68 maintain 30 V across 2000 Ω load, assuming that series resistance R = 200 Ω and Zener current rating is 25 mA ?

Date posted: August 14, 2019. Answers (1)
What value of series resistance is required when three 10-watt, 10-volt, 1000 mA Zener diodes are connected in series to obtain a 30-volt regulated output...(Solved)
What value of series resistance is required when three 10-watt, 10-volt, 1000 mA Zener diodes are connected in series to obtain a 30-volt regulated output from a 45 volt d.c. power source ?

Date posted: August 14, 2019. Answers (1)
The circuit of Fig. 3.66 uses two Zener diodes, each rated at 15 V, 200 mA.(Solved)
The circuit of Fig. 3.66 uses two Zener diodes, each rated at 15 V, 200 mA. If the circuit is connected to a 45-volt unregulated supply, determine:
(i) The regulated output voltage
(ii) The value of series resistance R

Date posted: August 14, 2019. Answers (1)
A 10-V Zener diode is used to regulate the voltage across a variable load resistor [See fig. 3.65].(Solved)
A 10-V Zener diode is used to regulate the voltage across a variable load resistor [See fig. 3.65]. The input voltage varies between 13 V and 16 V and the load current varies between 10 mA and 85 mA. The minimum Zener current is 15 mA. Calculate the value of series resistance R.

Date posted: August 14, 2019. Answers (1)
The Zener diode shown in Fig. 3.64 has V_Z = 18 V.(Solved)
The Zener diode shown in Fig. 3.64 has V_Z = 18 V. The voltage across the load stays at 18 V as long as I_Z is maintained between 200 mA and 2 A. Find the value of series resistance R so that E₀ remains 18 V while input voltage E_i is free to vary between 22 V to 28V.

Date posted: August 14, 2019. Answers (1)
A 7.2 V Zener is used in the circuit shown in Fig. 3.63 and the load current is to vary from 12 to 100 mA.(Solved)
A 7.2 V Zener is used in the circuit shown in Fig. 3.63 and the load current is to vary from 12 to 100 mA. Find the value of series resistance R to maintain a voltage of 7.2 V across the load. The input voltage is constant at 12V and the minimum Zener current is 10 mA.

Date posted: August 14, 2019. Answers (1)
For the circuit shown in Fig. 3.62 (i), find the maximum and minimum values of Zener diode current.(Solved)
For the circuit shown in Fig. 3.62 (i), find the maximum and minimum values of Zener diode current.

Date posted: August 14, 2019. Answers (1)
For the circuit shown in Fig. 3.61 (i), find:(Solved)
For the circuit shown in Fig. 3.61 (i), find:
(i) the output voltage
(ii) the voltage drop across series resistance
(iii) the current through Zener diode.

Date posted: August 14, 2019. Answers (1)
Explain Zener Diode as Voltage Stabilizer(Solved)
Explain Zener Diode as Voltage Stabilizer

Date posted: August 14, 2019. Answers (1)

Quick Links