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Emitter to Collector Distance Formula

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Emitter to collector distance is total distance between emitter to collector junction. Check FAQs
Lmin=VmbEmb
Lmin - Emitter to Collector Distance?Vmb - Maximum Applied Voltage in BJT?Emb - Maximum Electric Field in BJT?

Emitter to Collector Distance Example

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With units
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Here is how the Emitter to Collector Distance equation looks like with Values.

Here is how the Emitter to Collector Distance equation looks like with Units.

Here is how the Emitter to Collector Distance equation looks like.

2.1998Edit=0.22Edit100.01Edit
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HomeIcon Home » Category Engineering » Category Electronics » Category Microwave Theory » fx Emitter to Collector Distance

Emitter to Collector Distance Solution

Follow our step by step solution on how to calculate Emitter to Collector Distance?

FIRST Step Consider the formula
Lmin=VmbEmb
Next Step Substitute values of Variables
Lmin=0.22mV100.01V/m
Next Step Convert Units
Lmin=0.0002V100.01V/m
Next Step Prepare to Evaluate
Lmin=0.0002100.01
Next Step Evaluate
Lmin=2.1997800219978E-06m
Next Step Convert to Output's Unit
Lmin=2.1997800219978μm
LAST Step Rounding Answer
Lmin=2.1998μm

Emitter to Collector Distance Formula Elements

Variables
Emitter to Collector Distance
Emitter to collector distance is total distance between emitter to collector junction.
Symbol: Lmin
Measurement: LengthUnit: μm
Note: Value can be positive or negative.
Formulas to find Emitter to Collector DistanceOpen Variable
Maximum Applied Voltage in BJT
Maximum Applied Voltage in BJT across a diode is the highest voltage that can be applied to the diode without causing permanent damage or breakdown.
Symbol: Vmb
Measurement: Electric PotentialUnit: mV
Note: Value should be greater than 0.
Formulas to find Maximum Applied Voltage in BJTOpen Variable
Maximum Electric Field in BJT
Maximum Electric Field in BJT is the maximum force per unit of charge exerted.
Symbol: Emb
Measurement: Electric Field StrengthUnit: V/m
Note: Value should be greater than 0.
Formulas to find Maximum Electric Field in BJTOpen Variable

Other formulas in BJT Microwave Devices category

​Go Cut-off Frequency of Microwave
fco=12πτec
​Go Base Transit Time
τb=τec-(τscr+τc+τe)
​Go Base Collector Delay Time
τscr=τec-(τc+τb+τe)
​Go Collector Charging Time
τc=τec-(τscr+τb+τe)

How to Evaluate Emitter to Collector Distance?

Emitter to Collector Distance evaluator uses Emitter to Collector Distance = Maximum Applied Voltage in BJT/Maximum Electric Field in BJT to evaluate the Emitter to Collector Distance, The Emitter to Collector Distance formula is defined as the distance between the junction of emitter and the collector. Emitter to Collector Distance is denoted by Lmin symbol.

How to evaluate Emitter to Collector Distance using this online evaluator? To use this online evaluator for Emitter to Collector Distance, enter Maximum Applied Voltage in BJT (Vmb) & Maximum Electric Field in BJT (Emb) and hit the calculate button.

FAQs on Emitter to Collector Distance

What is the formula to find Emitter to Collector Distance?
The formula of Emitter to Collector Distance is expressed as Emitter to Collector Distance = Maximum Applied Voltage in BJT/Maximum Electric Field in BJT. Here is an example- 219978 = 0.00022/100.01.
How to calculate Emitter to Collector Distance?
With Maximum Applied Voltage in BJT (Vmb) & Maximum Electric Field in BJT (Emb) we can find Emitter to Collector Distance using the formula - Emitter to Collector Distance = Maximum Applied Voltage in BJT/Maximum Electric Field in BJT.
Can the Emitter to Collector Distance be negative?
Yes, the Emitter to Collector Distance, measured in Length can be negative.
Which unit is used to measure Emitter to Collector Distance?
Emitter to Collector Distance is usually measured using the Micrometer[μm] for Length. Meter[μm], Millimeter[μm], Kilometer[μm] are the few other units in which Emitter to Collector Distance can be measured.
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