the cmos inverter - ewu | ewu homeweb.ewu.edu/groups/technology/claudio/ee430/lectures… · ·...
TRANSCRIPT
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Slides adapted from:
N. Weste, D. Harris, CMOS VLSI Design, © Addison-Wesley, 3/e, 2004
The CMOS
Inverter
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Outline
Robustness of CMOS Inverter – The Static Behavior
Switching threshold
Noise Margins
Performance of CMOS Inverter – Dynamic Behavior
Propagation delay
Power Dissipation
Static dissipation
Dynamic dissipation
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Q&A
1. If the width of a transistor increases, the current will increase decrease not change
2. If the length of a transistor increases, the current will increase decrease not change
3. If the supply voltage of a chip increases, the maximum transistor current will increase decrease not change
4. If the width of a transistor increases, its gate capacitance will increase decrease not change
5. If the length of a transistor decreases, its gate capacitance will increase decrease not change
6. If the supply voltage of a chip increases, the gate capacitance of each transistor will increase decrease not change
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Q&A
1. If the width of a transistor increases, the current will increase decrease not change
2. If the length of a transistor increases, the current will increase decrease not change
3. If the supply voltage of a chip increases, the maximum transistor current will increase decrease not change
4. If the width of a transistor increases, its gate capacitance will increase decrease not change
5. If the length of a transistor increases, its gate capacitance will increase decrease not change
6. If the supply voltage of a chip increases, the gate capacitance of each transistor will increase decrease not change
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CMOS Inverter Static Behavior:
DC Analysis
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CMOS Inverter: DC Analysis
DC Response: Vout vs. Vin for a gate
Inverter
When Vin = 0 Vout = VDD
When Vin = VDD Vout = 0
In between, Vout depends on transistor current
By KCL, must settle such that
Idsn = |Idsp|
We can solve equations
Graphical solution gives very good insight
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Transistors operation regions
Current depends on transistor’s operation region
For what Vin and Vout are nMOS and pMOS in
Cutoff ?
Linear ?
Saturation ?
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nMOS and pMOS operation
Vgsn = Vin
Vdsn = Vout
Vgsp = Vin - VDD
Vdsp = Vout - VDD
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Graphical derivation of the inverter DC
response: I-V Characteristics
Make pMOS wider than nMOS such that n = p
For simplicity let’s assume Vtn=-Vtp
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Graphical derivation of the inverter DC
response: current vs. Vout, Vin
Load Line Analysis:
For a given Vin:
Plot Idsn, Idsp vs. Vout
Vout must be where |currents| are equal
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Graphical derivation of the inverter DC
response: Load Line Analysis
Vin = 0
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Graphical derivation of the inverter DC
response: Load Line Analysis
Vin = 0.2 VDD
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Graphical derivation of the inverter DC
response: Load Line Analysis
Vin = 0.4 VDD
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Graphical derivation of the inverter DC
response: Load Line Analysis
Vin = 0.6 VDD
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Graphical derivation of the inverter DC
response: Load Line Analysis
Vin = 0.8 VDD
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Graphical derivation of the inverter DC
response: Load Line Analysis
Vin = VDD
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DC Transfer Curve
Transcribe points onto Vin vs. Vout plot
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DC transfer curve: operating regions
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Beta Ratio
If p / n 1, switching point will move from VDD/2
Called skewed gate
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Noise Margins How much noise can a gate input see before it does not
recognize the input ?
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Noise Margins To maximize noise margins, select logic levels at unity gain
point of DC transfer characteristic
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DC parameters
Input switching threshold: VTH
Minimum high output voltage: VOH
Maximum low output voltage: VOL
Minimum HIGH input voltage: VIH
Maximum LOW input voltage: VIL
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CMOS Inverter Dynamic Behavior:
AC Analysis
DC analysis tells Vout if Vin is constant
AC analysis tells Vout(t) if Vin(t) changes
Requires solving differential equations
Input is usually considered to be a step
or ramp from 0 to VDD or vice versa
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CMOS Inverter Dynamic Behavior:
AC Analysis
The switching characteristic (Vout(t) given Vin(t)) of a logic gate tells the speed at which the gate can operate
The switching speed of a logic gate can be measured in terms of the time required to charge and discharge a capacitive load
Critical paths
Timing Analyzers automatically finds the slowest paths in a logic design
Critical paths can be affected at various levels:
Architecture/ Microarchitecture Level
Logic Level
Circuit Level
Layout level
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Inverter Step Response
Find step response of inverter driving load cap
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Delay Parameters
tr: rise time
From output crossing 0.2 VDD to 0.8 VDD
tf: fall time
From output crossing 0.8 VDD to 0.2 VDD
tpdr: rising propagation delay
From input crossing VDD/2 to rising output crossing VDD/2
tpdf: falling propagation delay
From input crossing VDD/2 to falling output crossing VDD/2
tpd: average propagation delay
tpd = (tpdr + tpdf)/2
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Delay Parameters cont.
tr, tf
Tells how steep can be the waveform that the
logic gate is able to provide at its output
tpdr, tpdf
Input-to-output delay of the logic gate (time
needed for the output to respond to a change
in the input)
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Factors affecting delay
CLOAD (= Cintrinsic + Cextrinsic)
intrinsic capacitance (parasitic capacitance of the driving logic gate)
extrinsic capacitance (interconnect capacitance + capacitance of the stage driven)
Slope of the input waveform
As the voltage on the gate terminal of a transistor change so does its capacitance
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Simulated Inverter Delay Solving differential equations by hand is too hard
SPICE simulator solves the equations numerically
Uses more accurate I-V models too!
But simulations take time to write
It is important to develop back of the envelope techniques to rapidly
estimate delay, understand its origin, and figure out how it can be
reduced
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Delay Estimation
We would like to be able to easily estimate delay
Not as accurate as simulation
But easier to ask “What if ?”
The step response usually looks like a 1st order RC response with a decaying exponential.
Use RC delay models to estimate delay
C = total capacitance on output node
Use effective resistance R
So that tpd = RC
Characterize transistors by finding their effective R
Depends on average current as gate switches
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RC Delay Models
Use equivalent circuits for MOS transistors
Ideal switch + capacitance and ON resistance
Unit nMOS has resistance R, capacitance C
Unit pMOS has resistance 2R, capacitance C
Capacitance proportional to width
Resistance inversely proportional to width
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Power Dissipation
Static CMOS gates are very power-efficient because
they dissipate nearly zero power while idle
Instantaneous power:
Energy consumed:
Average power:
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Power Dissipation
Power dissipation in CMOS circuits comes from two
components:
Static Dissipation
Subtreshold conduction
Tunneling current
Leakage through reverse biased diodes
Dynamic Dissipation
Charging and discharging (switching) of the load capacitance
“Short-Circuit” current while both pMOS and nMOS networks
are partially ON
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Static Dissipation
OFF transistors still conduct a small amount of current :
Sub threshold current
Current through reverse biased diodes
gate tunneling current
In 130 nm processes and beyond leakage is becoming a major design issue and vendors now provide leakage data (often in the form of nA/μm of gate length)
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Dynamic Dissipation
Assuming a logic gate goes through one complete charge/discharge cycle
every clock cycle:
Because most gates do not switch every clock cycle, we introduce a corrective
activity factor :
A clock has =1 because it rises and fall every cycle, but most data have a
maximum activity factor =0.5 because they transition only once every cycle
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Dynamic Dissipation
Because, input rise/fall time is greater than zero, both
nMOS and pMOS will be ON for a short period of time
(while the input is between Vtn and VDD-|Vtp|)
This results in a “short-circuit” current pulse from VDD
to GND
Typically this increases power dissipation by about
10%
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Low Power Design
Power Dissipation is a major problem !!!
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Dynamic Power Reduction
Decrease activity factor Selective clock gating
Drawback: if the system transitions rapidly from an idle mode to a fully active mode a large di/dt spike will occur
Decrease switching capacitance Small transistors
Careful floor planning to reduce interconnect
Decrease power supply Adjust voltage depending on the operating mode
Decrease operating frequency
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Static Power Reduction
Subthreshold current can be reduced by increasing Vt
Selective application of multiple threshold
(low-Vt transistors on critical paths, high Vt transistors on other paths)
Control Vt through the body voltage
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Turn off the power supply
entirely. MTCMOS circuits use
low Vt transistors for computation and high Vt
transistor as a switch to
disconnect the power supply
during idle mode
The leakage through two series
OFF transistor is much lower
(10-20x) than that of a single transistor (stack effect)
Static Power Reduction cont.