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## Collector current at instantaneous power dissipation in transistor Solution

STEP 0: Pre-Calculation Summary
Formula Used
collector_current = Power Dissipation in Series Transistor/Collector to emitter voltage at saturation
Ic = Pd/VCESat
This formula uses 2 Variables
Variables Used
Power Dissipation in Series Transistor - Power Dissipation in Series Transistor (Measured in Watt)
Collector to emitter voltage at saturation - The collector to emitter voltage at saturation vCE of a saturated transistor can be found as the difference between the forward-bias voltages of the EBJ and the CBJ, (Measured in Volt)
STEP 1: Convert Input(s) to Base Unit
Power Dissipation in Series Transistor: 6 Watt --> 6 Watt No Conversion Required
Collector to emitter voltage at saturation: 0.2 Volt --> 0.2 Volt No Conversion Required
STEP 2: Evaluate Formula
Substituting Input Values in Formula
Ic = Pd/VCESat --> 6/0.2
Evaluating ... ...
Ic = 30
STEP 3: Convert Result to Output's Unit
30 Ampere --> No Conversion Required
FINAL ANSWER
30 Ampere <-- Collector current
(Calculation completed in 00.016 seconds)

## < 10+ Class A Output Stage Calculators

Bias current of the emitter-follower
input_bias_current = modulus((-Supply Voltage)+Saturation collector to emitter voltage)/Load resistance Go
Transfer characteristics of emitter-follower
output_voltage = Voltage-Base-emitter signal Voltage Go
Instantaneous power dissipation of emitter-follower
power_dissipated = Collector to emitter voltage at saturation*Collector current Go
Maximum transfer characteristics of emitter-follower in positive limit
maximum_voltage = Supply Voltage-Saturation collector to emitter voltage Go
Maximum voltage of emitter-follower when the transistor saturates
maximum_voltage = Supply Voltage-Saturation collector to emitter voltage Go
Saturation voltage between collector-emitter at maximum voltage
saturation_collector_to_emitter_voltage = Supply Voltage-Maximum Voltage Go
Minimum voltage of emitter-follower when the transistor saturates
min_voltage = -(Supply Voltage+Saturation collector to emitter voltage) Go
Saturation voltage between collector-emitter at minimum voltage
saturation_collector_to_emitter_voltage = Min voltage+Supply Voltage Go
Bias current in minimum transfer characteristics of emitter-follower in negative limit
input_bias_current = -(Min voltage/Load Resistance) Go
Minimum transfer characteristics of emitter-follower in negative limit
min_voltage = -(Input Bias Current*Load Resistance) Go

### Collector current at instantaneous power dissipation in transistor Formula

collector_current = Power Dissipation in Series Transistor/Collector to emitter voltage at saturation
Ic = Pd/VCESat

## What is class A output stage? Where are class A amplifiers used?

A Class A amplifier stage passes the same load current even when no input signal is applied so large heatsinks are needed for the output transistors. These types of devices are basically two transistors within a single package, one small “pilot” transistor and another larger “switching” transistor. The Class A Amplifier more suitable for outdoor musical systems, since the transistor reproduces the entire audio waveform without ever cutting off. As a result, the sound is very clear and more linear, that is, it contains much lower levels of distortion.

## How to Calculate Collector current at instantaneous power dissipation in transistor?

Collector current at instantaneous power dissipation in transistor calculator uses collector_current = Power Dissipation in Series Transistor/Collector to emitter voltage at saturation to calculate the Collector current, The Collector current at instantaneous power dissipation in transistor formula is defined as the direct current that passes through the collector of a transistor. Collector current and is denoted by Ic symbol.

How to calculate Collector current at instantaneous power dissipation in transistor using this online calculator? To use this online calculator for Collector current at instantaneous power dissipation in transistor, enter Power Dissipation in Series Transistor (Pd) and Collector to emitter voltage at saturation (VCESat) and hit the calculate button. Here is how the Collector current at instantaneous power dissipation in transistor calculation can be explained with given input values -> 30 = 6/0.2.

### FAQ

What is Collector current at instantaneous power dissipation in transistor?
The Collector current at instantaneous power dissipation in transistor formula is defined as the direct current that passes through the collector of a transistor and is represented as Ic = Pd/VCESat or collector_current = Power Dissipation in Series Transistor/Collector to emitter voltage at saturation. Power Dissipation in Series Transistor and The collector to emitter voltage at saturation vCE of a saturated transistor can be found as the difference between the forward-bias voltages of the EBJ and the CBJ,.
How to calculate Collector current at instantaneous power dissipation in transistor?
The Collector current at instantaneous power dissipation in transistor formula is defined as the direct current that passes through the collector of a transistor is calculated using collector_current = Power Dissipation in Series Transistor/Collector to emitter voltage at saturation. To calculate Collector current at instantaneous power dissipation in transistor, you need Power Dissipation in Series Transistor (Pd) and Collector to emitter voltage at saturation (VCESat). With our tool, you need to enter the respective value for Power Dissipation in Series Transistor and Collector to emitter voltage at saturation and hit the calculate button. You can also select the units (if any) for Input(s) and the Output as well.
How many ways are there to calculate Collector current?
In this formula, Collector current uses Power Dissipation in Series Transistor and Collector to emitter voltage at saturation. We can use 10 other way(s) to calculate the same, which is/are as follows -
• output_voltage = Voltage-Base-emitter signal Voltage
• maximum_voltage = Supply Voltage-Saturation collector to emitter voltage
• saturation_collector_to_emitter_voltage = Supply Voltage-Maximum Voltage
• min_voltage = -(Input Bias Current*Load Resistance)
• input_bias_current = -(Min voltage/Load Resistance)
• min_voltage = -(Supply Voltage+Saturation collector to emitter voltage)
• maximum_voltage = Supply Voltage-Saturation collector to emitter voltage
• saturation_collector_to_emitter_voltage = Min voltage+Supply Voltage
• input_bias_current = modulus((-Supply Voltage)+Saturation collector to emitter voltage)/Load resistance
• power_dissipated = Collector to emitter voltage at saturation*Collector current
Where is the Collector current at instantaneous power dissipation in transistor calculator used?
Among many, Collector current at instantaneous power dissipation in transistor calculator is widely used in real life applications like {FormulaUses}. Here are few more real life examples -
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