- To send a logical 0, the sender must produce an output voltage value that is less than VOL. Correspondingly, the receiver must interpret input voltages below VIL as a logical 0.
- Similarly, to send a logical 1, the sender must produce an output voltage value that is greater than VOH. Further, the receiver must interpret voltages above VIH as a logical 1.
- Noise Margin: The absolute value of the difference between the prescribed output voltage for a given logical value and the corresponding forbidden region voltage threshold for the receiver is called the noise margin for that logical value.
- NM0 = VIL − VOL
- NM1 = VOH − VIH
- The static discipline is a specification for digital devices. The static discipline requires devices to interpret correctly voltages that fall within the input thresholds (VIL and VIH). As long as valid inputs are provided to the devices, the discipline also requires the devices to produce valid output voltages that satisfy the output thresholds (VOL and VOH).
Wednesday, November 24, 2010
5.1 Voltage Levels and Static Discipline
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good
ReplyDeletethis is what i could get out of it:
ReplyDeletelets say sender wants to send a logical 1 ,so sender sends signal greater than Voh which due to noise gets corrupted , but because of static discipline it is received as above Vih by the receiver .
ok now here is my doubts :
1 is it the digital device which is acting as the receiver which then converts that input signal back to what sender had sent .
2 if no then where in this entire scene is our digital device ?
plzz answer ..thanks in advance