NOISE ImmunityVery goodGoodexcellent Propagation Delay: The time taken by a ‘gate’ in PROPAGATING an input signal to the OUTPUT of the gate is called ‘propagation delay’. It is measured in Nanoseconds (10-9sec.).Fan-out: The number of units that can be connected to the output of a logic gate is called its ‘Fan-out’.Noise Margin: In a digital circuit, the Noise Margin is the amount by which the signal exceeds the threshold for a proper ‘0’ or ‘1’.This is SCHEMATICALLY explained with the help of the following diagram:CMOS has the largest Noise Margin and ECL is having a Poor Noise Margin.TTL outputs are typically restricted to narrower limits, between 0 V and 0.4 V for a “LOW” and between 2.4 V and Vcc for a “HIGH”, providing at least 0.4 V of noise immunity.Noise Margins for CMOS chips are usually much greater than those of TTL because the VOH(min) is closer to the power supply Voltage and VOL(max) is closer to 0.

"> NOISE ImmunityVery goodGoodexcellent Propagation Delay: The time taken by a ‘gate’ in PROPAGATING an input signal to the OUTPUT of the gate is called ‘propagation delay’. It is measured in Nanoseconds (10-9sec.).Fan-out: The number of units that can be connected to the output of a logic gate is called its ‘Fan-out’.Noise Margin: In a digital circuit, the Noise Margin is the amount by which the signal exceeds the threshold for a proper ‘0’ or ‘1’.This is SCHEMATICALLY explained with the help of the following diagram:CMOS has the largest Noise Margin and ECL is having a Poor Noise Margin.TTL outputs are typically restricted to narrower limits, between 0 V and 0.4 V for a “LOW” and between 2.4 V and Vcc for a “HIGH”, providing at least 0.4 V of noise immunity.Noise Margins for CMOS chips are usually much greater than those of TTL because the VOH(min) is closer to the power supply Voltage and VOL(max) is closer to 0.

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Match List-I with List-II and select the correct answer using the code given below the lists:List - IList - IIA. TTL1. Low power consumptionB. ECL2. High speedC. CMOS3. Low propagation delay

Logical and Verbal Reasoning Logic in Logical and Verbal Reasoning . 3 years ago

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A comparison of the given logic families is as shown: TTLECLCMOSFan-In12-14> 10> 10Fan-Out102550Power Dissipation (mW)101750.001NoiseMargin0.5 V0.16 V (lowest)1.5 V (Highest)Propagation Delay (ns)10< 3 (lowest)50 (Highest)NOISE ImmunityVery goodGoodexcellent Propagation Delay: The time taken by a ‘gate’ in PROPAGATING an input signal to the OUTPUT of the gate is called ‘propagation delay’. It is measured in Nanoseconds (10-9sec.).Fan-out: The number of units that can be connected to the output of a logic gate is called its ‘Fan-out’.Noise Margin: In a digital circuit, the Noise Margin is the amount by which the signal exceeds the threshold for a proper ‘0’ or ‘1’.This is SCHEMATICALLY explained with the help of the following diagram:CMOS has the largest Noise Margin and ECL is having a Poor Noise Margin.TTL outputs are typically restricted to narrower limits, between 0 V and 0.4 V for a “LOW” and between 2.4 V and Vcc for a “HIGH”, providing at least 0.4 V of noise immunity.Noise Margins for CMOS chips are usually much greater than those of TTL because the VOH(min) is closer to the power supply Voltage and VOL(max) is closer to 0.

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Posted on 11 Aug 2021, this text provides information on Logical and Verbal Reasoning related to Logic in Logical and Verbal Reasoning. Please note that while accuracy is prioritized, the data presented might not be entirely correct or up-to-date. This information is offered for general knowledge and informational purposes only, and should not be considered as a substitute for professional advice.

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