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## Credits

Bipin Tripathi Kumaon Institute of Technology (BTKIT), Dwarahat
Shobhit Dimri has created this Calculator and 500+ more calculators!
Vishwakarma Government Engineering College (VGEC), Ahmedabad
Urvi Rathod has verified this Calculator and 1000+ more calculators!

## Series resistance from the package to the air Solution

STEP 0: Pre-Calculation Summary
Formula Used
series_resistance_package_to_air = Thermal Resistance between junction and Ambient-series resistance from the die to the package
Θpa = θj-Θjp
This formula uses 2 Variables
Variables Used
Thermal Resistance between junction and Ambient - Thermal Resistance between junction and Ambient (Measured in Kelvin)
series resistance from the die to the package - series resistance from the die to the package (Measured in Ohm)
STEP 1: Convert Input(s) to Base Unit
Thermal Resistance between junction and Ambient: 3 Kelvin --> 3 Kelvin No Conversion Required
series resistance from the die to the package: 10 Ohm --> 10 Ohm No Conversion Required
STEP 2: Evaluate Formula
Substituting Input Values in Formula
Θpa = θj-Θjp --> 3-10
Evaluating ... ...
Θpa = -7
STEP 3: Convert Result to Output's Unit
-7 Ohm --> No Conversion Required
FINAL ANSWER
-7 Ohm <-- Series resistance from the package to the air
(Calculation completed in 00.016 seconds)

## < 10+ CMOS-VLSI Design Calculators

Drain Voltage
drain_voltage = sqrt(dynamic power/frequency*Capacitance) Go
Gate to Channel Voltage
gate_to_channel_voltage = (Channel Charge/Gate Capacitance)+Threshold voltage Go
Threshold Voltage
threshold_voltage = Gate to Channel Voltage-(Channel Charge/Gate Capacitance) Go
Gate Capacitance
channel_charge = Gate Capacitance*(Gate to Channel Voltage-Threshold voltage) Go
Channel Charge
channel_charge = Gate Capacitance*(Gate to Channel Voltage-Threshold voltage) Go
Capacitor dynamic power
dynamic_power = Drain Voltage^2*frequency*Capacitance Go
Potential gate to Collector
potential_gate_to_collector = (Potential Gate to Source+Potential Gate to Drain)/2 Go
Potential Gate to Drain
potential_gate_to_drain = 2*potential gate to collector-Potential Gate to Source Go
Static Current
static_current = Static power/Drain Voltage Go
Static Power Dissipation
static_power = static current*Drain Voltage Go

### Series resistance from the package to the air Formula

series_resistance_package_to_air = Thermal Resistance between junction and Ambient-series resistance from the die to the package
Θpa = θj-Θjp

## What will happen if contents of register are shifter left, right?

It is well known that in left shift all bits will be shifted left and LSB will be appended with 0 and in right shift all bits will be shifted right and MSB will be appended with 0 this is a straightforward answer.

## How to Calculate Series resistance from the package to the air?

Series resistance from the package to the air calculator uses series_resistance_package_to_air = Thermal Resistance between junction and Ambient-series resistance from the die to the package to calculate the Series resistance from the package to the air, The Series resistance from the package to the air formula is defined as the resistance experienced from package to the air. Series resistance from the package to the air and is denoted by Θpa symbol.

How to calculate Series resistance from the package to the air using this online calculator? To use this online calculator for Series resistance from the package to the air, enter Thermal Resistance between junction and Ambient (θj) and series resistance from the die to the package (Θjp) and hit the calculate button. Here is how the Series resistance from the package to the air calculation can be explained with given input values -> -7 = 3-10.

### FAQ

What is Series resistance from the package to the air?
The Series resistance from the package to the air formula is defined as the resistance experienced from package to the air and is represented as Θpa = θj-Θjp or series_resistance_package_to_air = Thermal Resistance between junction and Ambient-series resistance from the die to the package. Thermal Resistance between junction and Ambient and series resistance from the die to the package.
How to calculate Series resistance from the package to the air?
The Series resistance from the package to the air formula is defined as the resistance experienced from package to the air is calculated using series_resistance_package_to_air = Thermal Resistance between junction and Ambient-series resistance from the die to the package. To calculate Series resistance from the package to the air, you need Thermal Resistance between junction and Ambient (θj) and series resistance from the die to the package (Θjp). With our tool, you need to enter the respective value for Thermal Resistance between junction and Ambient and series resistance from the die to the package 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 Series resistance from the package to the air?
In this formula, Series resistance from the package to the air uses Thermal Resistance between junction and Ambient and series resistance from the die to the package. We can use 10 other way(s) to calculate the same, which is/are as follows -
• dynamic_power = Drain Voltage^2*frequency*Capacitance
• drain_voltage = sqrt(dynamic power/frequency*Capacitance)
• static_power = static current*Drain Voltage
• static_current = Static power/Drain Voltage
• channel_charge = Gate Capacitance*(Gate to Channel Voltage-Threshold voltage)
• channel_charge = Gate Capacitance*(Gate to Channel Voltage-Threshold voltage)
• gate_to_channel_voltage = (Channel Charge/Gate Capacitance)+Threshold voltage
• threshold_voltage = Gate to Channel Voltage-(Channel Charge/Gate Capacitance)
• potential_gate_to_collector = (Potential Gate to Source+Potential Gate to Drain)/2
• potential_gate_to_drain = 2*potential gate to collector-Potential Gate to Source
Where is the Series resistance from the package to the air calculator used?
Among many, Series resistance from the package to the air calculator is widely used in real life applications like {FormulaUses}. Here are few more real life examples -
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