Data Concept Analog and Digital Signal Periodic and Non-Periodic Signal Sine Wave Wave length Time and Frequency Domain Composite Signal Bandwidth

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Transcription:

Data Concept Analog and Digital Signal Periodic and Non-Periodic Signal Sine Wave Wave length and Frequency Domain Composite Signal Bandwidth BPS and Bit Length

Data is a usable to a person or application. Data should be transmitted from one place to another in the form of electromagnetic signals across a transmission medium. TO BE TRANSMITTED, DATA MUST BE TRANSFORMED TO ELCTROMAGNETIC SINGAL Signals are divided into two categories ANALOG SIGNAL DIGITAL SIGNAL

Value Value Analog Signal Digital Signal

Analog data refers to information that is continuous with respect to time and frequency. Signal has infinitely many levels of intensity over a period of time As the wave moves from place A to place B, it passes through and includes number of values along its path Examples: An analog clock(hours, minutes and sec.) Human Voice Digital signal refers to a information that has discrete states. Signal has limited number of defined values Each value can be either 1 or 0 Examples: A Digital clock(suddenly change from 10:02 to 10:03) Computer Memory(Data stored in form of 0s and 1s

Both analog and digital signals can take one of two forms : periodic or non-periodic A Periodic signal complete a pattern within a measurable time span or time frame, and repeats that pattern over subsequent identical periods. Commonly used in analog signals, because they need less bandwidth. A non-periodic signal changes without exhibiting a pattern or cycle that repeats over a time. Commonly used in digital signals, because they can represent variation in data.

A sine wave is the most fundamental form of a periodic analog signal Value A Sine wave can be represented by three parameters: Peak Amplitude Frequency Phase

Peak Amplitude The peak amplitude of a signal is the absolute value of its highest intensity, proportional to the energy it carries. Normally measured in VOLTS. Amplitude Peak Amplitude

Frequency Frequency refers to the number of period in 1sec. Formally expressed in Hertz(Hz), which is cycle per sec. Period refers to the amount of time, in seconds, a signal needs to complete 1 cycle. Period is the inverse of frequency and vice-versa. F=1/T Amplitude 1 sec Amplitude 1 sec A signal with frequency of 8 HZ A signal with frequency of 3 HZ

Phase Phase describe the position of the waveform relative to time 0. Wave as something that can be shifted backward or forward along with time axis, phase describe the amount of that shift. Measured in degrees or radian A phase shift of 360 degree correspondence to a shift of a complete period. 0 0 0 Degree 90 Degree

Wavelength binds the period or the frequency of a simple sine wave to the propagation speed of the medium It is the distance a simple signal can travel in one period Wave Length Transmission medium at time t Direction of Propagation Transmission medium at time t+t Wavelength=propagation speed*period

Sine wave by using -Domain Plot 5V Peak Value: 5V Frequency 5Hz A sine wave in the time domain with peak value 5V and frequency 5Hz Sine wave by using Frequency-Domain Plot 5V Peak Value: 5V Frequency A sine wave in the frequency domain with peak value 5V and frequency 5Hz

Composite signal is a combination of simple sine waves with different frequencies, amplitudes and phases. It can be periodic or non-periodic. A periodic composite signal can be decompressed into a series of simple sine waves with discrete frequencies, that have integer values(1,2,3, and so on) A non-periodic composite signal can be decomposed into a combination of an infinite number of simple sine waves with continuous frequencies, that have real values A composite periodic signal

The range of frequencies contained in a composite signal is its bandwidth. It is normally a difference between two numbers. Example: If a composite signal contains frequencies between 1000 and 5000, its bandwidth is 5000-1000=4000 The Bandwidth of a composite signal is the difference between the highest and the lowest frequencies contained in that signal. Amplitude 1000 Bandwidth= 5000-4000=1000 5000 Frequency Amplitude 1000 Bandwidth= 5000-4000=1000 5000 Frequency

The Bit Rate is the number of bits sent in 1 sec, expressed in bps(bit per sec). Bandwidth can also refer to the number of bits per second that a channel, a link, or even a network can transmit. Example, one can say the bandwidth of a fast Ethernet network is a maximum of 100Mbps.This means that this network can send 100Mbps. The Bit length is the distance one bit occupies on the transmission medium. Bit length= Propagation speed * bit duration

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