Agression Driver Calculator

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CMOS Design Characteristics

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✖Victim Driver refers to a type of electronic component that acts as an amplifier or attenuator to amplify or reduce the input signal.ⓘ Victim Driver [R_vi]			+10% -10%
✖Time Constant Ratio is defined as the parameter characterizing the response to a step input of a first-order, linear time-invariant (LTI) system.ⓘ Time Constant Ratio [k]			+10% -10%
✖Adjacent capacitance is the capacitance at adjacent point.ⓘ Adjacent Capacitance [C_adj]			+10% -10%
✖Ground Capacitance is the capacitance at the ground of the CMOS Circuit.ⓘ Ground Capacitance [C_gnd]			+10% -10%
✖Ground A Capacitance is a measure of the ability of a grounding system to dissipate charge. It is defined as the ratio of the charge stored in the ground to the resulting voltage change.ⓘ Ground A Capacitance [C_ga]			+10% -10%

✖Agression Driver is defined as the resistance experienced by the voltage around the agression driver.ⓘ Agression Driver [R_agr]

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Formula

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Agression Driver

Formula

`"R"_{"agr"} = ("R"_{"vi"}*"k"*("C"_{"adj"}+"C"_{"gnd"}))/("C"_{"ga"}+"C"_{"adj"})`

Example

`"1.123254"=("1.98"*"0.62"*("8pF"+"2.98pF"))/("4pF"+"8pF")`

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Agression Driver Solution

STEP 0: Pre-Calculation Summary

Formula Used

Agression Driver = (Victim Driver*Time Constant Ratio*(Adjacent Capacitance+Ground Capacitance))/(Ground A Capacitance+Adjacent Capacitance)
R_agr = (R_vi*k*(C_adj+C_gnd))/(C_ga+C_adj)
This formula uses 6 Variables

Variables Used

Agression Driver - Agression Driver is defined as the resistance experienced by the voltage around the agression driver.
Victim Driver - Victim Driver refers to a type of electronic component that acts as an amplifier or attenuator to amplify or reduce the input signal.
Time Constant Ratio - Time Constant Ratio is defined as the parameter characterizing the response to a step input of a first-order, linear time-invariant (LTI) system.
Adjacent Capacitance - (Measured in Farad) - Adjacent capacitance is the capacitance at adjacent point.
Ground Capacitance - (Measured in Farad) - Ground Capacitance is the capacitance at the ground of the CMOS Circuit.
Ground A Capacitance - (Measured in Farad) - Ground A Capacitance is a measure of the ability of a grounding system to dissipate charge. It is defined as the ratio of the charge stored in the ground to the resulting voltage change.

STEP 1: Convert Input(s) to Base Unit

Victim Driver: 1.98 --> No Conversion Required
Time Constant Ratio: 0.62 --> No Conversion Required
Adjacent Capacitance: 8 Picofarad --> 8E-12 Farad (Check conversion here)
Ground Capacitance: 2.98 Picofarad --> 2.98E-12 Farad (Check conversion here)
Ground A Capacitance: 4 Picofarad --> 4E-12 Farad (Check conversion here)

STEP 2: Evaluate Formula

Substituting Input Values in Formula

R_agr = (R_vi*k*(C_adj+C_gnd))/(C_ga+C_adj) --> (1.98*0.62*(8E-12+2.98E-12))/(4E-12+8E-12)

Evaluating ... ...

R_agr = 1.123254

STEP 3: Convert Result to Output's Unit

1.123254 --> No Conversion Required

FINAL ANSWER

1.123254 <-- Agression Driver

(Calculation completed in 00.004 seconds)

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Created by Shobhit Dimri

Bipin Tripathi Kumaon Institute of Technology (BTKIT), Dwarahat

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< 24 CMOS Design Characteristics Calculators

Ground to Agression Capacitance

Go Adjacent Capacitance = ((Victim Driver*Time Constant Ratio*Ground Capacitance)-(Agression Driver*Ground A Capacitance))/(Agression Driver-Victim Driver*Time Constant Ratio)

Victim Driver

Go Victim Driver = (Agression Driver*(Ground A Capacitance+Adjacent Capacitance))/(Time Constant Ratio*(Adjacent Capacitance+Ground Capacitance))

Agression Driver

Go Agression Driver = (Victim Driver*Time Constant Ratio*(Adjacent Capacitance+Ground Capacitance))/(Ground A Capacitance+Adjacent Capacitance)

Thermal Voltage of CMOS

Go Thermal Voltage = Built-in Potential/ln((Acceptor Concentration*Donor Concentration)/(Intrinsic Electron Concentration^2))

Built-in Potential

Go Built-in Potential = Thermal Voltage*ln((Acceptor Concentration*Donor Concentration)/(Intrinsic Electron Concentration^2))

Agressor Voltage

Go Agressor Voltage = (Victim Voltage*(Ground Capacitance+Adjacent Capacitance))/Adjacent Capacitance

Victim Voltage

Go Victim Voltage = (Agressor Voltage*Adjacent Capacitance)/(Ground Capacitance+Adjacent Capacitance)

Adjacent Capacitance

Go Adjacent Capacitance = (Victim Voltage*Ground Capacitance)/(Agressor Voltage-Victim Voltage)

Branching Effort

Go Branching Effort = (Capacitance Onpath+Capacitance Offpath)/Capacitance Onpath

Output Clock Phase

Go Output Clock Phase = 2*pi*VCO Control Voltage*VCO Gain

Total Capacitance Seen by Stage

Go Total Capacitance in Stage = Capacitance Onpath+Capacitance Offpath

Capacitance Offpath

Go Capacitance Offpath = Total Capacitance in Stage-Capacitance Onpath

Capacitance Onpath

Go Capacitance Onpath = Total Capacitance in Stage-Capacitance Offpath

Time Constant Ratio of Agression to Victim

Go Time Constant Ratio = Agression Time Constant/Victim Time Constant

Agression Time Constant

Go Agression Time Constant = Time Constant Ratio*Victim Time Constant

Victim Time Constant

Go Victim Time Constant = Agression Time Constant/Time Constant Ratio

Off-Path Capacitance of CMOS

Go Capacitance Offpath = Capacitance Onpath*(Branching Effort-1)

Change in Frequency Clock

Go Change in Frequency of Clock = VCO Gain*VCO Control Voltage

VCO Single Gain Factor

Go VCO Gain = Change in Frequency of Clock/VCO Control Voltage

VCO Control Voltage

Go VCO Control Voltage = Lock Voltage+VCO Offset Voltage

VCO Offset Voltage

Go VCO Offset Voltage = VCO Control Voltage-Lock Voltage

Lock Voltage

Go Lock Voltage = VCO Control Voltage-VCO Offset Voltage

Static Power Dissipation

Go Static Power = Static Current*Base Collector Voltage

Static Current

Go Static Current = Static Power/Base Collector Voltage

Agression Driver Formula

Agression Driver = (Victim Driver*Time Constant Ratio*(Adjacent Capacitance+Ground Capacitance))/(Ground A Capacitance+Adjacent Capacitance)
R_agr = (R_vi*k*(C_adj+C_gnd))/(C_ga+C_adj)

How does noise vary with victim and the aggressor?

Suppose wire A switches while B is supposed to remain constant. This introduces noise as B partially switches. We call A the aggressor or perpetrator and B the victim. t when the victim is floating, the noise remains indefinitely. When the victim is driven, the driver restores the victim. Larger (faster) drivers oppose the coupling sooner and result in noise that is a smaller percentage of the supply voltage. Note that during the noise event the victim transistor is in its linear region while the aggressor is in saturation. For equal-sized drivers, this means Raggressor is two to four times Rvictim, with greater ratios arising from more velocity saturation.

How to Calculate Agression Driver?

Agression Driver calculator uses Agression Driver = (Victim Driver*Time Constant Ratio*(Adjacent Capacitance+Ground Capacitance))/(Ground A Capacitance+Adjacent Capacitance) to calculate the Agression Driver, The Agression Driver formula is defined as the resistance experienced by the the voltage around the Agression Driver. Agression Driver is denoted by R_agr symbol.

How to calculate Agression Driver using this online calculator? To use this online calculator for Agression Driver, enter Victim Driver (R_vi), Time Constant Ratio (k), Adjacent Capacitance (C_adj), Ground Capacitance (C_gnd) & Ground A Capacitance (C_ga) and hit the calculate button. Here is how the Agression Driver calculation can be explained with given input values -> 1.1253 = (1.98*0.62*(8E-12+2.98E-12))/(4E-12+8E-12).

FAQ

What is Agression Driver?

The Agression Driver formula is defined as the resistance experienced by the the voltage around the Agression Driver and is represented as R_agr = (R_vi*k*(C_adj+C_gnd))/(C_ga+C_adj) or Agression Driver = (Victim Driver*Time Constant Ratio*(Adjacent Capacitance+Ground Capacitance))/(Ground A Capacitance+Adjacent Capacitance). Victim Driver refers to a type of electronic component that acts as an amplifier or attenuator to amplify or reduce the input signal, Time Constant Ratio is defined as the parameter characterizing the response to a step input of a first-order, linear time-invariant (LTI) system, Adjacent capacitance is the capacitance at adjacent point, Ground Capacitance is the capacitance at the ground of the CMOS Circuit & Ground A Capacitance is a measure of the ability of a grounding system to dissipate charge. It is defined as the ratio of the charge stored in the ground to the resulting voltage change.

How to calculate Agression Driver?

The Agression Driver formula is defined as the resistance experienced by the the voltage around the Agression Driver is calculated using Agression Driver = (Victim Driver*Time Constant Ratio*(Adjacent Capacitance+Ground Capacitance))/(Ground A Capacitance+Adjacent Capacitance). To calculate Agression Driver, you need Victim Driver (R_vi), Time Constant Ratio (k), Adjacent Capacitance (C_adj), Ground Capacitance (C_gnd) & Ground A Capacitance (C_ga). With our tool, you need to enter the respective value for Victim Driver, Time Constant Ratio, Adjacent Capacitance, Ground Capacitance & Ground A Capacitance and hit the calculate button. You can also select the units (if any) for Input(s) and the Output as well.

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