6 bits
10 mbps ethernet uses Manchester encoding where each symbol is represented by 2 bit sequence. Hence the bits/symbol is 2. Since data rate = bits/symbol x symbol/seconds, symbols/seconds = baud rate = 5 mega baudWhat_is_the_baud_rate_of_the_standard_10-Mbps_Ethernet
Baud Width is an outdated Internet term. It refers to how many bits in a baud a modem can send per second. A baud is actually a pulse and carries a certain amount of bits per pulse. Nowadays its much simpler to refer to bits per second (BPS) since this is what Internet users wish to know; verses how many bits in a baud [pulse], and how many of these bauds are put out in a second.
1bit per baud
7 bits per baud. With a constellation of 128 points = 2^7 points, each symbol can carry 7 bits.
Baud rate is defined as the number of bits transmitted per sec.
It's measured in bits per second (baud rate). There are eight 'bits' to a byte.
1
The two terms are used frequently in data communication are bit rate and the baud rate. Bit rate can be defined as the number of bits transmitted during 1s. Baud rate can be referred as to the number of the signal units per second that are required to represent those bits. A signal unit is composed of one or more bits. In discussions of the computer efficiency, the bit rate is the important; we want to know how long it takes to process each and every piece of information. In data transmission, however, we more concerned with how efficiently we can move those data from one place to another, either in pieces or blocks. The fewer signals units required, the more efficient the system and less bandwidth required to transmit more bits; so we are more concerned with baud rate. The baud rate determines the bandwidth requires sending the signal. Bit rate equals the baud rate times; number of bits represented by each signal unit. Baud rate equals the bit rate divided by number of bits represented by each signal unit. The bit rate is always greater than or in some cases equal to the baud rate. So we can say that the bit rate is the number of bits per second while Baud rate is number of signal units per second.
Baud is the number of symbols per second. So if you have a parallel interface where the 8 bits are sent together, I guess 300 bytes per second equates to about 300 baud. With a serial interface, where each of the 8 bits is sent one after the other, extra start/stop bits are usually inserted between the 8 data bits, I guess 300 bytes per second equates to about 3000 baud. Baud is the number of changes per second. Since computers use binary number to store information, the baud rate is directly equivalent to the number of bits sent per second. Specifically, in an ASCII character set 8 bits are used to represent a character, 300 bits per second would equate to 37.5 characters per second which in turn is 2250 characters per minute. (just under 2 kilobytes per minute assuming no error correction overheads).
all you need is to know the modulation technique and then you can know how many bits per one symbole then to calculate the data rate = baud rate * bits/symbole
QAM-64 encodes 6 bits per symbol (2^6=64). Baud rate = symbol rate = bit rate / bits per symbol = 72000 bps / 6 bits per symbol = 12000
23 than it is 3