Leakage Energy in CMOS Solution

STEP 0: Pre-Calculation Summary
Formula Used
Leakage Energy in CMOS = Total Energy in CMOS-Switching Energy in CMOS
Eleak = Et-Es
This formula uses 3 Variables
Variables Used
Leakage Energy in CMOS - (Measured in Joule) - Leakage Energy in CMOS is defined as an energy leak is when we're expending energy in ways that cause an energetic deficit.
Total Energy in CMOS - (Measured in Joule) - Total Energy in CMOS is defined as is the quantitative property that must be transferred to an object in order to perform work on or to heat, the object in the CMOS.
Switching Energy in CMOS - (Measured in Joule) - Switching Energy in CMOS is defined as the quantitative property that must be transferred to an object in order to perform work on, or to heat, the object during the switching of the circuit.
STEP 1: Convert Input(s) to Base Unit
Total Energy in CMOS: 42 Picojoule --> 4.2E-11 Joule (Check conversion here)
Switching Energy in CMOS: 35 Picojoule --> 3.5E-11 Joule (Check conversion here)
STEP 2: Evaluate Formula
Substituting Input Values in Formula
Eleak = Et-Es --> 4.2E-11-3.5E-11
Evaluating ... ...
Eleak = 7E-12
STEP 3: Convert Result to Output's Unit
7E-12 Joule -->7 Picojoule (Check conversion here)
FINAL ANSWER
7 Picojoule <-- Leakage Energy in CMOS
(Calculation completed in 00.020 seconds)

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17 CMOS Power Metrics Calculators

Gates on Critical Path
Go Gates on Critical Path = Duty Cycle*(Off Current*(10^Base Collector Voltage))/(Capacitance of Gate to Channel*[BoltZ]*Base Collector Voltage)
Subthreshold Leakage through OFF Transistors
Go Subthreshold Current = (CMOS Static Power/Base Collector Voltage)-(Gate Current+Contention Current+Junction Current)
Contention Current in Ratioed Circuits
Go Contention Current = (CMOS Static Power/Base Collector Voltage)-(Subthreshold Current+Gate Current+Junction Current)
Gate Leakage through Gate Dielectric
Go Gate Current = (CMOS Static Power/Base Collector Voltage)-(Subthreshold Current+Contention Current+Junction Current)
Output Switching at Load Power Consumption
Go Output Switching = Capacitive Load Power Consumption/(External Load Capacitance*Supply Voltage^2*Output Signal Frequency)
Capacitive Load Power Consumption
Go Capacitive Load Power Consumption = External Load Capacitance*Supply Voltage^2*Output Signal Frequency*Output Switching
Activity Factor
Go Activity Factor = Switching Power/(Capacitance*Base Collector Voltage^2*Frequency)
Switching Power
Go Switching Power = Activity Factor*(Capacitance*Base Collector Voltage^2*Frequency)
Power Supply Rejection Ratio
Go Power Supply Rejection Ratio = 20*log10(Input Voltage Ripple/Output Voltage Ripple)
Switching Power in CMOS
Go Switching Power = (Positive Voltage^2)*Frequency*Capacitance
Switching Energy in CMOS
Go Switching Energy in CMOS = Total Energy in CMOS-Leakage Energy in CMOS
Leakage Energy in CMOS
Go Leakage Energy in CMOS = Total Energy in CMOS-Switching Energy in CMOS
Total Energy in CMOS
Go Total Energy in CMOS = Switching Energy in CMOS+Leakage Energy in CMOS
Short-Circuit Power in CMOS
Go Short-Circuit Power = Dynamic Power-Switching Power
Dynamic Power in CMOS
Go Dynamic Power = Short-Circuit Power+Switching Power
Total Power in CMOS
Go Total Power = CMOS Static Power+Dynamic Power
Static Power in CMOS
Go CMOS Static Power = Total Power-Dynamic Power

Leakage Energy in CMOS Formula

Leakage Energy in CMOS = Total Energy in CMOS-Switching Energy in CMOS
Eleak = Et-Es

What are CMOS used for?

It is a technology used to produce integrated circuits. CMOS circuits are found in several types of electronic components, including microprocessors, batteries, and digital camera image sensors.

How to Calculate Leakage Energy in CMOS?

Leakage Energy in CMOS calculator uses Leakage Energy in CMOS = Total Energy in CMOS-Switching Energy in CMOS to calculate the Leakage Energy in CMOS, The Leakage Energy in CMOS formula is defined as a leaked energy where the expended energy in ways causes an energetic deficit. For example, an energetic deficit is created by hanging out with energy vampires. Leakage Energy in CMOS is denoted by Eleak symbol.

How to calculate Leakage Energy in CMOS using this online calculator? To use this online calculator for Leakage Energy in CMOS, enter Total Energy in CMOS (Et) & Switching Energy in CMOS (Es) and hit the calculate button. Here is how the Leakage Energy in CMOS calculation can be explained with given input values -> 7E+12 = 4.2E-11-3.5E-11.

FAQ

What is Leakage Energy in CMOS?
The Leakage Energy in CMOS formula is defined as a leaked energy where the expended energy in ways causes an energetic deficit. For example, an energetic deficit is created by hanging out with energy vampires and is represented as Eleak = Et-Es or Leakage Energy in CMOS = Total Energy in CMOS-Switching Energy in CMOS. Total Energy in CMOS is defined as is the quantitative property that must be transferred to an object in order to perform work on or to heat, the object in the CMOS & Switching Energy in CMOS is defined as the quantitative property that must be transferred to an object in order to perform work on, or to heat, the object during the switching of the circuit.
How to calculate Leakage Energy in CMOS?
The Leakage Energy in CMOS formula is defined as a leaked energy where the expended energy in ways causes an energetic deficit. For example, an energetic deficit is created by hanging out with energy vampires is calculated using Leakage Energy in CMOS = Total Energy in CMOS-Switching Energy in CMOS. To calculate Leakage Energy in CMOS, you need Total Energy in CMOS (Et) & Switching Energy in CMOS (Es). With our tool, you need to enter the respective value for Total Energy in CMOS & Switching Energy in CMOS and hit the calculate button. You can also select the units (if any) for Input(s) and the Output as well.
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