Easier to detect and correct errors, since transmitted data is binary.
possible to send more digital data through a given circuit .
Easier to combine them on the same circuit, since signals made up of digital data.
) Digital signals do not get corrupted by noise etc. You are sending a series of numbers that represent the signal of interest (i.e. audio, video etc.)
2) Digital signals typically use less bandwidth. This is just another way to say you can cram more information (audio, video) into the same space.
3) Digital can be encrypted so that only the intended receiver can decode it
1) Digital signals do not get corrupted by noise etc. You are sending a series of numbers that represent the signal of interest (i.e. audio, video etc.)
2) Digital signals typically use less bandwidth. This is just another way to say you can cram more information (audio, video) into the same space.
3) Digital can be encrypted so that only the intended receiver can decode it
Easier to detect and correct errors, since transmitted data is binary.
possible to send more digital data through a given circuit .
Easier to combine them on the same circuit, since signals made up of digital data.
) Digital signals do not get corrupted by noise etc. You are sending a series of numbers that represent the signal of interest (i.e. audio, video etc.)
2) Digital signals typically use less bandwidth. This is just another way to say you can cram more information (audio, video) into the same space.
3) Digital can be encrypted so that only the intended receiver can decode it
Aravind kumar
1) Digital signals do not get corrupted by noise etc. You are sending a series of numbers that represent the signal of interest (i.e. audio, video etc.)
2) Digital signals typically use less bandwidth. This is just another way to say you can cram more information (audio, video) into the same space.
3) Digital can be encrypted so that only the intended receiver can decode it