A: Absolutely not. Any application of a design will have a minimum PIV for the circuit
yes, diode can be used as rectifier diode to convert ac to dc
A diode is used to stop the negative voltage swing in an AC signal, so you only get the positive portions.diode-rectifier
yes ofcourse diode can be used as rectifier but it's an uncontrolled rectification.
A diode is used primarily as a Rectifier
Diode rectifies the AC signal. So it was called as rectifier. ******************************************** Rectification means changing a.c. to d.c. A diode is a one-way device, i.e. it allows current to pass in only one direction, so it is the obvious choice for rectification.
1.0A RECTIFIER diode used to convert ac power to dc power
No. Diodes are diodes. One diode can be USED as a half-wave rectifier. Four diodes can be used to build a bridge rectifier.
By definiton, a diode lets electrical current flow only in one direction. A RECTIFIER DIODE is basically the same thing. It is used mainly for power supply operation and can handle higher current flow than a regular diode. Diodes are rated from milliamps to as high as 100 amps per diode depending upon the diode style and amperage rating. A recitifier diode is the same as a "Power diode". Diodes are mainly used to change AC (alternating current) into DC (directo current) which is used by batteries and etc.
the usual semiconductor rectifier used in the microwave band is a gunn diode. Vacuum tube diodes are sometimes used too.
Yes **************************************** Yes they can but there are pitfalls. A normal diode will have a high reverse breakdown voltage. A zener has a relatively low breakdown voltage (its "zener"voltage). If a zener diode is used as a rectifier it must have a zener voltage at least twice the peak of the applied a.c.
A simple rectifier circuit uses a diode and there is a turn ON voltage for the diode. The input voltage has to exceed the turn ON voltage (0.6V for ordinary Si diode) before rectification is achieved. A precision rectifier is an active circuit using an opamp and a diode in the feedback loop. This overcomes the turn-on "knee" voltage. The op amp reduces the turn-on voltage of a diode in its feedback loop by a factor equal to the open-loop gain of the op amp. For practical op amp gains this reduces the forward voltage to a fraction of a mV, thus giving a "precision" or near ideal diode characteristic for the rectifier function.
Where a single diode is used as a rectifier you get halfwave rectification when the sinus wave is going positive the diode will conduct but in the negative half of the cycle it will block the current flow so the result wave form will be only the positive half that will be available for half the period of the cycle the other half will be 0 Volt