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Maximum allowable power supply ripple Solution

STEP 0: Pre-Calculation Summary
Formula Used
max_allow_voltage = (Impedance*Drain Voltage^2)/Power
Vm = (Z*vds^2)/P
This formula uses 3 Variables
Variables Used
Impedance - Impedance (Z), in electrical devices, refers to the amount of opposition faced by the direct or alternating current when it passes through a conductor component, circuit, or system. (Measured in Ohm)
Drain Voltage - Drain Voltage is the voltage that falls across the gate-source terminal of the transistor. (Measured in Volt)
Power - Power is the amount of energy liberated per second in a device. (Measured in Watt)
STEP 1: Convert Input(s) to Base Unit
Impedance: 0.6 Ohm --> 0.6 Ohm No Conversion Required
Drain Voltage: 8 Volt --> 8 Volt No Conversion Required
Power: 100 Watt --> 100 Watt No Conversion Required
STEP 2: Evaluate Formula
Substituting Input Values in Formula
Vm = (Z*vds^2)/P --> (0.6*8^2)/100
Evaluating ... ...
Vm = 0.384
STEP 3: Convert Result to Output's Unit
0.384 Volt --> No Conversion Required
FINAL ANSWER
0.384 Volt <-- Maximum Allowable Applied Voltage
(Calculation completed in 00.021 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

Maximum allowable power supply ripple Formula

max_allow_voltage = (Impedance*Drain Voltage^2)/Power
Vm = (Z*vds^2)/P

What is ripple voltage?

Ripple (specifically ripple voltage) in electronics is the residual periodic variation of the DC voltage within a power supply which has been derived from an alternating current (AC) source. Ripple voltage originates as the output of a rectifier or from generation and commutation of DC power.

How to Calculate Maximum allowable power supply ripple?

Maximum allowable power supply ripple calculator uses max_allow_voltage = (Impedance*Drain Voltage^2)/Power to calculate the Maximum Allowable Applied Voltage, The Maximum allowable power supply ripple formula is defined as the maximum conductor voltage-drop recommended for both the feeder and branch circuit is 5% of the voltage source (120V). The total conductor voltage drop (feeder and branch circuit) shouldn't exceed 120V×0.05=6V. . Maximum Allowable Applied Voltage and is denoted by Vm symbol.

How to calculate Maximum allowable power supply ripple using this online calculator? To use this online calculator for Maximum allowable power supply ripple, enter Impedance (Z), Drain Voltage (vds) and Power (P) and hit the calculate button. Here is how the Maximum allowable power supply ripple calculation can be explained with given input values -> 0.384 = (0.6*8^2)/100.

FAQ

What is Maximum allowable power supply ripple?
The Maximum allowable power supply ripple formula is defined as the maximum conductor voltage-drop recommended for both the feeder and branch circuit is 5% of the voltage source (120V). The total conductor voltage drop (feeder and branch circuit) shouldn't exceed 120V×0.05=6V. and is represented as Vm = (Z*vds^2)/P or max_allow_voltage = (Impedance*Drain Voltage^2)/Power. Impedance (Z), in electrical devices, refers to the amount of opposition faced by the direct or alternating current when it passes through a conductor component, circuit, or system, Drain Voltage is the voltage that falls across the gate-source terminal of the transistor and Power is the amount of energy liberated per second in a device.
How to calculate Maximum allowable power supply ripple?
The Maximum allowable power supply ripple formula is defined as the maximum conductor voltage-drop recommended for both the feeder and branch circuit is 5% of the voltage source (120V). The total conductor voltage drop (feeder and branch circuit) shouldn't exceed 120V×0.05=6V. is calculated using max_allow_voltage = (Impedance*Drain Voltage^2)/Power. To calculate Maximum allowable power supply ripple, you need Impedance (Z), Drain Voltage (vds) and Power (P). With our tool, you need to enter the respective value for Impedance, Drain Voltage and Power 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 Maximum Allowable Applied Voltage?
In this formula, Maximum Allowable Applied Voltage uses Impedance, Drain Voltage and Power. 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 Maximum allowable power supply ripple calculator used?
Among many, Maximum allowable power supply ripple calculator is widely used in real life applications like {FormulaUses}. Here are few more real life examples -
{FormulaExamplesList}
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