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Maximum Allowable Power Formula

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Maximum Allowable Power the maximum amount of power the system or component can handle without exceeding its design limits or risking damage. Check FAQs

P m = \frac{1}{Χ c \cdot {f TC}^{2}} \cdot {(E m \cdot \frac{V s}{2 \cdot π})}^{2}

P_m - Maximum Allowable Power?Χ_c - Reactance?f_TC - Transit Time Cutoff Frequency?E_m - Maximum Electric Field?V_s - Maximum Saturation Drift Velocity?π - Archimedes' constant?

Maximum Allowable Power Example

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Here is how the Maximum Allowable Power equation looks like with Values.

Here is how the Maximum Allowable Power equation looks like with Units.

Here is how the Maximum Allowable Power equation looks like.

1.7E+6 = \frac{1}{0.0056 \cdot {2.08}^{2}} \cdot {(24 \cdot \frac{53}{2 \cdot 3.1416})}^{2}

1.7E+6W = \frac{1}{0.0056Ω \cdot {2.08Hz}^{2}} \cdot {(24V/m \cdot \frac{53m/s}{2 \cdot 3.1416})}^{2}

1.7E+6 = \frac{1}{0.0056 \cdot {2.08}^{2}} \cdot {(24 \cdot \frac{53}{2 \cdot 3.1416})}^{2}

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Maximum Allowable Power Solution

Follow our step by step solution on how to calculate Maximum Allowable Power?

FIRST Step Consider the formula

P m = \frac{1}{Χ c \cdot {f TC}^{2}} \cdot {(E m \cdot \frac{V s}{2 \cdot π})}^{2}

Next Step Substitute values of Variables

∴

P m = \frac{1}{0.0056Ω \cdot {2.08Hz}^{2}} \cdot {(24V/m \cdot \frac{53m/s}{2 \cdot π})}^{2}

Next Step Substitute values of Constants

∴

P m = \frac{1}{0.0056Ω \cdot {2.08Hz}^{2}} \cdot {(24V/m \cdot \frac{53m/s}{2 \cdot 3.1416})}^{2}

Next Step Prepare to Evaluate

∴

P m = \frac{1}{0.0056 \cdot {2.08}^{2}} \cdot {(24 \cdot \frac{53}{2 \cdot 3.1416})}^{2}

Next Step Evaluate

∴

P m = 1691608.22832704W

LAST Step Rounding Answer

∴

P m = 1.7E+6W

Maximum Allowable Power Formula Elements

Variables

Constants

Maximum Allowable Power

Maximum Allowable Power the maximum amount of power the system or component can handle without exceeding its design limits or risking damage.

Symbol: P_m

Measurement: PowerUnit: W

Note: Value should be greater than 0.

Formulas to find Maximum Allowable Power

Reactance

Reactance describes the opposition that an element (such as a capacitor or inductor) presents to the flow of alternating current (AC).

Symbol: Χ_c

Measurement: Electric ResistanceUnit: Ω

Note: Value should be greater than 0.

Formulas to find Reactance

Transit Time Cutoff Frequency

Transit Time Cutoff Frequency is related as the time taken for charge carriers (electrons or holes) to transit through the device.

Symbol: f_TC

Measurement: FrequencyUnit: Hz

Note: Value should be greater than 0.

Formulas to find Transit Time Cutoff Frequency

Maximum Electric Field

Maximum Electric Field a vector field that describes the force experienced by a charged particle at any given point in space.

Symbol: E_m

Measurement: Electric Field StrengthUnit: V/m

Note: Value should be greater than 0.

Formulas to find Maximum Electric Field

Maximum Saturation Drift Velocity

Maximum Saturation Drift Velocity refers to the highest attainable drift velocity of charge carriers in a semiconductor material under the influence of an electric field, reaching saturation.

Symbol: V_s

Measurement: SpeedUnit: m/s

Note: Value should be greater than 0.

Formulas to find Maximum Saturation Drift Velocity

Archimedes' constant

Archimedes' constant is a mathematical constant that represents the ratio of the circumference of a circle to its diameter.

Symbol: π

Value: 3.14159265358979323846264338327950288

Other formulas in Transistor Amplifiers category

Go MESFET Cutoff Frequency

f co = \frac{G m}{2 \cdot π \cdot C gs}

Go Maximum Operating Frequency

f max = \frac{f co}{2} \cdot \sqrt{\frac{R d}{R s + R i + R g}}

Go Transconductance in Saturation Region in MESFET

G m = g 0 \cdot (1 - \sqrt{\frac{V i - V G}{V p}})

Go Maximum Frequency of Oscillation

f max o = \frac{v s}{2 \cdot π \cdot L c}

How to Evaluate Maximum Allowable Power?

Maximum Allowable Power evaluator uses Maximum Allowable Power = 1/(Reactance*Transit Time Cutoff Frequency^2)*(Maximum Electric Field*Maximum Saturation Drift Velocity/(2*pi))^2 to evaluate the Maximum Allowable Power, The Maximum Allowable Power formula is defined as the maximum amount of power the system or component can handle without exceeding its design limits or risking damage. Maximum Allowable Power is denoted by P_m symbol.

How to evaluate Maximum Allowable Power using this online evaluator? To use this online evaluator for Maximum Allowable Power, enter Reactance (Χ_c), Transit Time Cutoff Frequency (f_TC), Maximum Electric Field (E_m) & Maximum Saturation Drift Velocity (V_s) and hit the calculate button.

FAQs on Maximum Allowable Power

What is the formula to find Maximum Allowable Power?

The formula of Maximum Allowable Power is expressed as Maximum Allowable Power = 1/(Reactance*Transit Time Cutoff Frequency^2)*(Maximum Electric Field*Maximum Saturation Drift Velocity/(2*pi))^2. Here is an example- 1.7E+6 = 1/(0.0056*2.08^2)*(24*53/(2*pi))^2.

How to calculate Maximum Allowable Power?

With Reactance (Χ_c), Transit Time Cutoff Frequency (f_TC), Maximum Electric Field (E_m) & Maximum Saturation Drift Velocity (V_s) we can find Maximum Allowable Power using the formula - Maximum Allowable Power = 1/(Reactance*Transit Time Cutoff Frequency^2)*(Maximum Electric Field*Maximum Saturation Drift Velocity/(2*pi))^2. This formula also uses Archimedes' constant .

Can the Maximum Allowable Power be negative?

No, the Maximum Allowable Power, measured in Power cannot be negative.

Which unit is used to measure Maximum Allowable Power?

Maximum Allowable Power is usually measured using the Watt[W] for Power. Kilowatt[W], Milliwatt[W], Microwatt[W] are the few other units in which Maximum Allowable Power can be measured.

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Maximum Allowable Power Formula

Maximum Allowable Power Example

Maximum Allowable Power Solution

Maximum Allowable Power Formula Elements

Other formulas in Transistor Amplifiers category

How to Evaluate Maximum Allowable Power?

FAQs on Maximum Allowable Power

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