In order to know how many bits/second there are in 1 frame/second, you need to know how many bits are in that frame. In a typical asychronous serial protocol with 8 bits per frame, the bit rate would be 0.125 bits/second. If you are talking the IP network layer of TCP/IP, then the frame size is very dependent on the underlying message payload and headers.
The original question, by the way, is invalid. Its asks "how many bits does...", but it should have asked "how manys bits per second does...".
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).
600 bauds per second
On a modern 100Mb (million bits/second) broadband connection a megabyte transfers in 80 milliseconds (1.333E-3 minutes).
The data rate for Pulse Code Modulation (PCM) digital voice signals is calculated using the formula: Data Rate = Sampling Rate × Bits per Sample. For standard voice applications, the sampling rate is typically 8 kHz (samples per second), and each sample is represented by 8 bits (1 byte). Thus, the calculation is 8,000 samples/second × 8 bits/sample = 64,000 bits per second, or 64 Kbps. This rate is sufficient to capture the frequency range of human speech effectively.
Baud rate is the number of samples per second. Data transfer rate is the number of bits per second. Since the analog phone line can have more than two values at any one sample, this translates to more bits per second than baud.There is a tendency to confuse baud rate with data rate. The two terms are not always the same.
2 MB per second equals 16,777,215.9 bits per second.
kbps > Kilo Bits Per Second > 1024 bits per second mbps > Mega Bits Per Second > 1024 kilo bits per second
To convert bits per second to bytes per second, you would divide the bits per second by 8, since there are 8 bits in a byte. For example, if you have 1000 bits per second, the equivalent would be 125 bytes per second (1000 bits / 8 = 125 bytes).
To determine the time it takes to send 1,000,000 bits over a channel with a bandwidth of 5 kbps (kilobits per second), you can use the formula: time = total bits / bandwidth. So, time = 1,000,000 bits / 5,000 bits per second = 200 seconds. Therefore, it takes 200 seconds to send the time frame of 1,000,000 bits.
The system needs 8000 frames per second to maintain 24 simultaneous voice channels. Each frame is 193 bits in length (24 X 8 bits per channel + 1 control bit= 193 bits). 8000 frames per second is multiplied by 193 bits per frame which yields a rate of 1.544Mbps
To convert bits per second (bps) to bytes per second (Bps), you divide by 8. For example, if you have 1000 bps, the equivalent in Bps would be 125 bytes per second. Conversely, to convert bytes per second to bits per second, you would multiply by 8.
Bit rate would be the number of bit processed per time frame, normally per second Old modems commonly worked as 4800 Baud or 9600 Baud which would be 4800 bits per second and 9600 bits per second respectively
The human brain on average takes in 11 million bits of information per second. However the brain is only aware of just 40 of those bits of information per second.
100 megabits per second (Mbps) = 12800 kilobytes per second (KBps)
Assuming 12 bits for each pixel, rather than per color. The 105 bit per second sounds kind of slow, though. A 640 x 480 = 307,200 pixels. Multiply by 12 bits = 3,686,400 bits. So divide by 105 bits per second = 35,109 seconds, or about 9 hours 45 minutes.
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.
Generally, but bit rate can be defined as any bit per unit of time so it could also refer to bits per minute, bits per hour or bits per day or bits per year etc...For the most part though bit rate is bits per second.