An armature is a set of coils connected together. If AC is induced in the armature by an alternating magnetic field, that AC typically gets converted to DC via a mechanical commutator.Hadron said:Can a d/c be made using an armature? How?
How does one convert a/c 2 d/c (or d/c to a/c)
They used to have car vacuum tube radio that size, then they went to miniature vacuum tubes and the radios became a little bit smaller.Quickbobo said:Thank goodness, and we should all give a minute of silence, to the first "flying wire" transistor,and the diode, least we be driving around, plagued by vacuum tube boxes the size of a bread box's in our cars.
256bits said:They used to have car vacuum tube radio that size, then they went to miniature vacuum tubes and the radios became a little bit smaller. Before the alternator automobiles had a DC generator to charge the battery and provide current for the headlights and all that jazz.
That was the fun part. At least one could feel they were doing something to tune up their vehicle.Quickbobo said:I'm well aware of this, in my fairly advanced age, but we were talking about conversions of currents. Lot's of old cars use to have their electrical systems w/ the positive terminal going to ground also, but it was the advent of modern electronic components, that allowed us to use alternators, instead of the generators, and mechanical regulators, w/ their numerous problems, such as brush ware, commutator ring burn out, regulator point pitting/ burn out, regulator hold down coil burn out, and the like..
An armature is a component found in a DC motor or generator that is responsible for producing the magnetic field necessary for converting electrical energy into mechanical energy. It is typically made up of a series of coils of wire wrapped around a metal core.
An armature produces DC current by rotating within a magnetic field, which creates a changing magnetic flux. This changing flux induces an electromotive force (EMF) in the armature coils, causing an electrical current to flow through the circuit.
The main difference between AC (alternating current) and DC (direct current) is the direction of the flow of electrons. In AC, the electrons flow back and forth, constantly changing direction, while in DC, the electrons flow in one direction only. AC is used for long-distance power transmission, while DC is commonly used in electronics and batteries.
There are several methods for converting AC to DC, but the most common is through the use of a rectifier. A rectifier is an electronic device that converts AC to DC by using a series of diodes to block the negative portion of the AC wave, leaving only the positive portion to pass through. This results in a pulsating DC current, which can then be smoothed out using a capacitor.
One of the main advantages of converting AC to DC is the ability to control the amount of voltage and current in a circuit. This is crucial in many electronic devices, as different components may require different levels of voltage or current to function properly. Additionally, DC power is more efficient for many applications, and is often used in small electronic devices such as smartphones and laptops.