When we consider the frequency of a square wave, we can indeed equate that with the baud (not baud rate), which is the number of pulses per second.
The frequency of a wave is always equal to the rate of vibration of the source that creates it
The rate of vibration is called the frequency.
Frequency is rate of an occurence. Polling is asking for an answer. Frequency polling is checking for an answer on a set schedule.
One of the practical op-amp limitations is the rate at which the output voltage can change. The limiting rate of change for a device is called its "slew rate". The slew rate for the 741 is 0.5V/microsecond compared to 100V/microsecond for a high-speed op-amp. The LH0063C has a slew rate of 6000V/microsecond. The slew-rate imposes high-frequency limitations on the device. At some critical frequency, an output swing equal to the supply voltages will require a slew rate faster than the maximum slew rate of the device. Above that frequency, the amplitude of distortion-free output voltage swing will be limited. The slew rate is inherently limited by the small internal drive currents of an op-amp but is also limited by internal capacitance designed to compensateagainst high frequency oscillations. Some op-amps are externally compensated and therefore offer some control over the slew rate. The slew rate for a given amplitude V and frequency f is
Frequency
baud rate generator is a frequency divider
baud rate is the rate of symbol changes...symbol can be of 1 bit, 2 bit , 3 bit etc.... Where as frequency is the inverse of rate of lowest unit in a digital transimission...
Basically the baud rate can never be greater than the bit rate. Baud rate can only be equal or less than the bit rate. However, there are instances that baud rate maybe greater than the bit rate. In Return-to-zero or Manchester encoding, where there are two signaling elements, the baud rate is twice the bit rate and therefore requires more bandwidth.
Baud rate is the measure of how many times per second a signal makes a transition between two different states. The state of the signal can be a measurement of frequency, voltages, or phase angles to name a few. The Baud defines the number of signal events that occur in a transmitted signal.
baud rate = symbol rate= modulation rate all the same thing
whats the baud rate of the modem of the computer
It is impossible to answer that question. On the other hand if you assume this: - Baud rate = symbol rate - Bit rate = bits per second The following formula is valid: Baud rate = bit rate / 10 If 1024 QAM is used.
Baud rate is defined as the number of bits transmitted per sec.
Because it is the top operating speed for that IC
The frequency of a wave is always equal to the rate of vibration of the source that creates it
The baud rate measures the number of times the transmission medium can change its state in one second, which is the number of discrete signals in a given second. Baud rate is the speed of transmission when using modems over telephone lines.
bit rate is half the baud rate