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EECS 240 Topic 10: Folded Cascode © 2011 B. Boser,A. Niknejad & S.Gambini

EECS 240Analog Integrated Circuits

Topic 10: Folded Cascode OTA

Bernhard E. Boser, Ali M. Niknejad,S.Gambini

Department of Electrical Engineering and Computer Sciences


Folded Cascode• Good general purpose single-stage OTA• Analysis

– Bias– Gain– Input capacitance– Frequency response– Feedback, stability– Settling time– Noise– Common-Mode Feedback

• Design– Specifications– Circuit parameters


Schematic

Many more transistors, but overall characteristics very similar to common-source stage.


Bias Subcircuit


DC Gain, Bias


Bias … Differential Inputs


Low Frequency Gain, Adm

• Gain / Output Range tradeoff– Adm=120 ΔVod = 4.3V– Adm=200 ΔVod = 3.6V

(nominal parameter)• Increasing Adm:

– Moderate:• Increase L• Affects V*, phase margin

– Substantial:• Double Cascode• Gain boosting• Multi-stage amplifier


Increased Adm


Output Resistance

Beware of imbalance between NMOS and PMOS current source


Gm, Cod Test Circuit


Transconductance


Differential Output Capacitance


Differential Input CapacitanceCGS1

= 2/3 Cox W L

= 117 fFMiller effect significantly increases Cid at low frequency

Cascoding M1, M2 helps (at the expense of reduced input common-mode range)


Frequency Response (Adm)• Bandwidth

– Strong function of CL

– Increasing fu?

• Feedback– Stability– Phase margin– Increasing φm

– Increasing CL increases φm in single-stage amplifier (costly)

φm


Common Mode Feedback (CMFB) (See G&M, Ch. 13)

Essential in all fully-differential amplifiersHow to implement it?Main choices:

•Continuous-time CMFB✴Resistors (mostly academic)✴Triode Devices✴Double Differential Pair

•Discrete-time CMFB•Switched capacitor CMFB

•Issues: Bandwidth, rejection


Ideal CMFB+

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-

+

vop

von

Σcmc A

Issue: How do we sense the output common-mode without disturbing the amplifier? (See next)


Resistive CMFBConsider Folded Cascode AmplifierGain=Gm Rout=70dB (~3000 V/V)Rout=2.5MΩRsense> 2.5MΩ to avoid gain degradation-impractical

+

-

-

+

vop

von

cmcRsense

Rsense

What about using transistors?


Triode Device CMFBWhat about using transistors?Advantage:SimpleProblem:one side shuts off for large signal-> this become DMFB (differential mode feedback)

vddbiasPbiasP

vss

vopvon

Vref Vref


Triode Device CMFBWhat about using transistors?Advantage:SimpleProblem:one side shuts off for large signal-> this become DMFB (differential mode feedback)Similar version with double diff pair and same problems

vddbiasPbiasP

vss

vopvon

Vref Vref


Switched Capacitor CMFBWhat about using capacitors?Problem:initialization

+

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-

+

vop

von

cmcCsense

Csense

Solution: Switched Capacitor (see next)


Switched Capacitor CMFB

+

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+

vop

von

cmc

Csense

Solution: Switched Capacitor

ϕ1

ϕ1

ϕ1

Csense

ϕ2

ϕ2

ϕ2

Vcmref

Vcmref

Vbias

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