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All inputs hae to be low i.e 0.
business logic ....refers to the domain specific logic rules,proc,and processes presentation logic......concerned with how objects are displayed to the user of the software
fuzzy logic is a logic which we have to implement in c language
The only charateristic of logic is consistency.
we use logic probe in circuit because logic probe is use to indicate where signal is high or low on ic chip.
measuremittens A2: Generally, in positive logic, a pulse over +3.5 volts is considered a "high"; a "one". Below that is considered a "low"; a "zero".
Logicus (LOW-gee-coos)
I believe you mean low power, not low energy.TTL is typically lower power than ECL, but not always. Some TTL devices have been higher power than similar ECL devices.
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The 74xx series of integrated circuits use 5 volts. This is common in TTL (Transistor to Transistor Logic) circuits.For inputs:The 0 or Low Logic level is anything less than 0.8vThe 1 or High logic level is anything from 2v up to the supply or 5v level.Voltages between these trigger points in the logic, should be avoided to prevent spurios operation.The output levels are generally5v = logic level 1 or High0v = logic level 0 or Low.
To tell you the state of a logic signal, when the state changes are infrequent and the cost of an oscilloscope or logic analyzer would be inappropriate/excessive.
Logic 0 and logic 1 are the two states in digital (or binary) logic. A binary numbering system has but two numbers: 0 and 1. In contrast, we use a decimal system with 10 numbers: 0 to 9. The area of algebra that addresses binary (2-state) logic is called Boolean. In Boolean a logic 0 may be refered to as 'low', 'off' or 'false'; a logic 1 as 'high', 'on' or 'true'. Boolean logic is the foundation of digital electronics.
It means that an electronic circuit is designed in such a way that a 1 is represented by a HIGH voltage, and a 0 is represented by a LOW voltage. Also known as active-high. If it's the other way round, it's called active-low, or negative logic.
CMOS logic families tolerate low temperatures because they are designed to. I suppose the why is not public because those would be trade secrets.
it wil represent a low impendence
A: using a multimeter or scope it can be verifies the states of a logic device either as '1' or a '0' which translates to true = hi [volts] = '1' and '0' as low [volts] = '0'. '0' is a false state and '1' is a true state. Must add that the voltmeter will not decipher hi or low if toggling