Can a transistor be used as a Rectifier?
Answer
Verified491.1k+ views
Hint: To describe the conditions and principles as to why a rectifier is used and how it helps. To compare it with the characteristics of the junction diode. To note the conditions for which the transistor may behave like a rectifier. To also mention why a standard rectifier is preferred over a transistor that behaves as a rectifier.
Complete step by step answer:
Transistor is a three-terminal conductor normally used as an amplifier or as a switch. Devices like this always have clear instructions about using AC/DC. However, there are times once you might need an AC electrical outlet but have to connect a tool that needs a DC. This is when a Rectifier steps in. In simple words, a Rectifier converts electrical energy into DC.
The Volt-Ampere characteristics of a junction diode explain how current is passing through the diode only if it's forward biased. Hence, if an alternating voltage is applied across a junction diode, then the current will flow only within the part where it's forward biased. This property of a junction diode is accustomed to rectify alternating voltage/current. The circuit used for this purpose is called a Rectifier. So in order to use a transistor as a rectifier, either the emitter-base segment or the collector-base segment must be used. In every transistor, the bottom is thinner than the emitter, and also the collector is lightly doped so both segments won’t work as a correct rectifier. Example: Germanium diode-connected transistor involves a drop of about \[0.13\] volts, rectifier diode about \[0.3\] (over \[2.5\] times) it’s just that rectifiers are optimized for rectification and are designed to execute at normally higher currents, and it's cheap. A transistor may be used as a rectifier. If we connect the base-emitter or base-collector region and use it as a diode, a transistor will work as an occasional current rectifier. It’s just that standard rectifiers are cheaper and might rectify higher values of current yet, and hence, are preferred for rectification.
Note:
When used as an amplifier, a transistor works in the active region, i.e. its emitter-base junction is always forward biased and collector-base junction is always reverse biased. When used as a switch it works within the saturation zone and cut-off area. This suggests that, by switching between its “top-off” (saturation) and “absolute OFF,” the transistor is employed as a switch to basically overwrite its Q-Point and therefore the voltage dividers circuit that's needed for amplification.
Complete step by step answer:
Transistor is a three-terminal conductor normally used as an amplifier or as a switch. Devices like this always have clear instructions about using AC/DC. However, there are times once you might need an AC electrical outlet but have to connect a tool that needs a DC. This is when a Rectifier steps in. In simple words, a Rectifier converts electrical energy into DC.
The Volt-Ampere characteristics of a junction diode explain how current is passing through the diode only if it's forward biased. Hence, if an alternating voltage is applied across a junction diode, then the current will flow only within the part where it's forward biased. This property of a junction diode is accustomed to rectify alternating voltage/current. The circuit used for this purpose is called a Rectifier. So in order to use a transistor as a rectifier, either the emitter-base segment or the collector-base segment must be used. In every transistor, the bottom is thinner than the emitter, and also the collector is lightly doped so both segments won’t work as a correct rectifier. Example: Germanium diode-connected transistor involves a drop of about \[0.13\] volts, rectifier diode about \[0.3\] (over \[2.5\] times) it’s just that rectifiers are optimized for rectification and are designed to execute at normally higher currents, and it's cheap. A transistor may be used as a rectifier. If we connect the base-emitter or base-collector region and use it as a diode, a transistor will work as an occasional current rectifier. It’s just that standard rectifiers are cheaper and might rectify higher values of current yet, and hence, are preferred for rectification.
Note:
When used as an amplifier, a transistor works in the active region, i.e. its emitter-base junction is always forward biased and collector-base junction is always reverse biased. When used as a switch it works within the saturation zone and cut-off area. This suggests that, by switching between its “top-off” (saturation) and “absolute OFF,” the transistor is employed as a switch to basically overwrite its Q-Point and therefore the voltage dividers circuit that's needed for amplification.
Recently Updated Pages
A man running at a speed 5 ms is viewed in the side class 12 physics CBSE
The number of solutions in x in 02pi for which sqrt class 12 maths CBSE
State and explain Hardy Weinbergs Principle class 12 biology CBSE
Write any two methods of preparation of phenol Give class 12 chemistry CBSE
Which of the following statements is wrong a Amnion class 12 biology CBSE
Differentiate between action potential and resting class 12 biology CBSE
Trending doubts
What are the major means of transport Explain each class 12 social science CBSE
Which are the Top 10 Largest Countries of the World?
Draw a labelled sketch of the human eye class 12 physics CBSE
How much time does it take to bleed after eating p class 12 biology CBSE
Explain sex determination in humans with line diag class 12 biology CBSE
Explain sex determination in humans with the help of class 12 biology CBSE