How do you feel when you are scolded by your parents and ordered to sit down and study? Well, this is a situation that each and every person in existence has gone through as a child and there’s nothing wrong about it as the parents are only doing their duty by asking their children to study as it is a question of their future.
The problem is that at that age, people fail to realize the concept of future benefits and are only interested in wiling away their time in the present doing nothing but wasting time by hanging out with friends and doing useless stuff.
One major cause for this behavior of young kids are the boring subjects, most prominent ones being physics, chemistry, biology and mathematics as children are fed up of racking their brains and understand little to nothing about it.
Basic Understanding
Let us get to understand what exactly does band pass filter means before proceeding further as the basics have to be cleared as this is not a term that you get to hear in your daily conversations.
In simple terms, band pass filter is an electronic device in the form of a circuit that has the capacity to pass through sound frequency in an easy manner within a specific range while it totally ignores the frequencies that are out of the boundaries of its range.
The frequencies can be of two or more objects but the important point here is that it discourages other frequencies by disassociating their signals towards itself and does not care about it even though it realizes the importance of different signals coming into contact with each other.
A Band pass filter cannot function on its own and require the electric current from an outside source to make it happening and as a result have to get the assistance of electronic devices such as transistors, live integrated circuit, fuse conductors, inductors, etc., which can be termed as active filters for band pass.
To make it more clear, band pass filters are in the form of a resistor-inductor-capacitor or RLC circuit and are the result of a combination of low and high pass filters.
Low and High Study
It is important to highlight this combination as it forms an important part as far as the applications for Bandpass filters are concerned and can be considered the very foundation stone for the filters as a study of quantum physics.
Low pass filters are those that can easily pass through filters of lower frequencies than the selected frequency that is cut off and tunes to signals with higher frequencies of the main cutoff frequency.
It is so because there is a strong physical barrier that responds to higher frequency of light and sound and is considered a low pass filter with the ability to transmit sound from one place to another and whose frequency varies from time to time.
High pass filters are those that can pass signals with a higher frequency and relates to only those electronic objects that adheres to the norm than a specified frequency for a cut off point and develops an attenuation to signals with a significantly low frequency than the specified cutoff.
While looking at the study from an optical point of view, both high and low passing filters are at the opposite ends of the spectrum where the high filters can pass through objects with longer wavelength whereas the low filters do the same for shorter wavelength objects.
Applications
Given its features, band pass filters are easily used in wireless objects such as transmitters and receivers, whose job is to provide limited access to the signaled output to the allocated band that is for transmission.
Enclosure for Loudspeaker
Band pass filters are such objects that can be subjected to the simulation process with the help of a vented box where the back face of the cone drive is trapped and the radiated color at the front of the cone is sealed inside the ported chamber which helps in modifying the driver’s resonance.
Band pass filter is quite a complex topic to cover up in one article as its concept is quite huge with many subsets, which are the same for many subjects in the field of physics, whose contribution to mankind is immense.