1. Last time Reviewed 4 devices in CMOS Transistors: main device
Caps, resistors, diodes, transistors
Transistors: main device
Regions of operation
Equations in each region
Small signal model, DC
Small signal model, HF
Key figures: A0=gm/gds, wT=gm/Cgs

2. Goals Use these devices to build useful circuits
Op amps, with components:
Simple amplifiers
Diff pairs
Current mirrors
Biasing circuits
Data converters
References
Comparators
Switches
Resistor/capacitor/current source arrays

3. Starting point Examine what we can do using A single transistor
Or two transistors

4. Simple transistor circuits
Can use any # of ideal current or voltage sources, resisters, and switches
Use one or two transistors
Examine various ways to place the input and output nodes
Examine various connections for
high gain
high bandwidth
high or low output impedance
low input referred noise …

5. Single transistor configurations
A transistor is a four terminal device
Three choices of input node
For each input choice, there are two choices for the output node
The other two terminals can be at VDD, GND, virtual short (V source), virtual open (I source), input, or output node
Most connections are non-operative or duplicates
D and S symmetric; B not as useful

6. 2 valid input choice and 1 output choice
Connection of other terminals: or
Resister

7. Capacitor
Gnd or virtual
Common source

8. This is D
To VDD
Source follower

9. N-channel common gate
p-channel common gate

10. Diode connections

11. Building realistic circuits from simple connections
flip vertical 
Combine 
N common source

12. flip left-right 
N common source
Combine to form
differential pair 

13. Vbb
flip upside down to get
current source load 
Vbb
Combine to form
differential amp

14. Can also use self biasing
and convert to single
ended output 
Replace virtual gnd
by current source

15. two transistor connections
Start with one T connections, and add a second T
Many possibilities
many useless
some obtainable by flip and combine from one T connections
some new two T connections
Search for ones with special properties
in terms of AV, BW, ro, ri, etc

16. First MOST is CS D1 connects to D2: (with appropriate n-p pairing)
-kvo vo
vin
CS with
negative gm at
output node CS
Push pull CS

17. When Vx = gnd
T2 is not useful
VDD
When Vx = Vin, T2
and T1 are just one T Vo
When Vx = -kVo
what do we get? Vx

18. VDD
Vx=gnd, M2 is I source
Vx = vin, ? Vo
Vx = ─ vin, ? M1 M2
Vx = vo, capacitor Vx
Vx = kvo, negative
gds feedback

19. VDD
VDD M3 M4 k k vo
-vo M1 M2
vin
-vin
gm1 M5
AV=
gm1vin+gds1vo+
gds3vo-kvogm3=0
gds1+gds3-kgm3
gds1+gds3
AV=  when k =
gm3
GBW=gm1/Co = GBW of simple CS

20. D1 connects to S2
VDD
VDD
just a single
NMOST
Cascode

21. VDD
VDD Vo
-kVx
-kVo Vx
Cascode
with positive
Vx feedback
Cascode
with positive
Vo feedback

22. VDD
VDD
VDD
Vin Vo Vo Vo
Effects on GBW?
Folded cascode

23. VDD
VDD Vx
-kVo
-Vx Vo Vo
folded cascode with positive feedback

24. VDD M2 M1
Vbb
Vin CL Rb
flip up-down
for source M2 M1
Vbb
Vin CL M4 M3
Vyy
Vxx
VDD
connecting D1 to S2
cascoding

25. VDD M4 M2
Vbb
Vin- CL M8 M6 M3 M1
Vin+ M7 M5
Vyy
Vxx M9
flip left-right
to get this
differential
telescopic
cascoded
amplifier
add M9 to change
gnd to virtual gnd
GBW=gm1/Co

26. M4 M2
Vin- CL M8 M6 M3 M1
Vin+ M7 M5
Vyy M9
VDD Vx Vo
How to connect
G3 to –Vx, –kVx,
or – kVo
Same GBW
Gain can be very high

27. M4 M2
Vin- CL M8 M6 M3 M1
Vin+ M7 M5
Vyy M9
VDD Vx Vo
How to connect
G3 to –Vx, –kVx,
or – kVo
Same GBW
Gain can be very high

28. VDD
Vin CL
Vbb
flip up-down for
I sources
VDD M1
Vin CL M2
Vbb
connecting n-D to p-S

29. VDD
VDD
folded cascode amp
Same GBW
Vbb
Vin+
Vin- CL

30. VDD
VDD
How to connect for
positive feedback?
Vbb
Vin+
Vin- CL

31. D1 connects to G2, two stages
VDD
VDD
VDD
VDD
two stage
CS amplifier
CS amplifier with a
source follower buffer

32. VDD
VDD
VDD
VDD Vx
-Vx
-vin
Can you connect
without loading effect?

33. VDD
VDD
VDD
V? Vx Vx
Same as above,
only T2 is pMOS
Connecting S1 to D2
makes ro really small
buffer or output stage

35. connecting S1 to D2 V? V?

36. ? ?
e.g. 

37. M1 is common gate: D1 connects to G2
VDD
Vin

38. D1 connects to S2
Vin