Extrinsic Capacitance - Gonzaga Universityweb02.gonzaga.edu/faculty/talarico/EE303/HO/... ·...
Transcript of Extrinsic Capacitance - Gonzaga Universityweb02.gonzaga.edu/faculty/talarico/EE303/HO/... ·...
Claudio Talarico Gonzaga University
Fall 2014
Source: most slides provided by B. Murmann
Extrinsic Capacitance
Extrinsic Capacitance 2
Extrinsic Capacitance
§ Overlap capacitance (Cov) – Gate to source and gate to drain
§ Junction capacitance – Source to bulk (Csb) and drain to bulk (Cdb)
L L
Extrinsic Capacitance 3
Overlap Capacitance
§ Two components – Direct overlap ~ CoxWLoverlap
– Additional component due to fringing field • Non-negligible in modern technology (gate thickness is large
compared to other feature sizes)
§ Simple model equation Cov = Cov' · W
§ Stanford’s EE114 technology: – Cov’ = 0.5fF/µm for both NMOS and PMOS – Spice model parameters: CGSO=0.5n, CGDO=0.5n
Cov’ = overlap capacitance per unit length
Direct overlap
€
Cov−GS = CGSO ⋅W
€
Cov−GD = CGDO ⋅W
fringing
Extrinsic Capacitance 4
Junction Capacitance (1)
S D G
L
W
Ldiff Ldiff €
AS =W ⋅Ldiff
PS =W + 2Ldiff
€
AD =W ⋅Ldiff
PD =W + 2Ldiff
€
Cjdb =AD ⋅CJ
1+VDBPB
# $ %
& ' ( MJ +
PD ⋅CJSW
1+VDBPBSW
# $ %
& ' ( MJSW
Cjsb =AS ⋅CJ
1+VSBPB
# $ %
& ' ( MJ +
PS ⋅CJSW
1+VSBPBSW
# $ %
& ' ( MJSW
€
C j =C j 0
1+VR
φB
C j 0 =ε si q2
NAND
NA + ND
1φB
VR
CJ
For long channel transistors the side of the perimeter abutted to the gate is shielded by the electrons in the channel
Extrinsic Capacitance 5
Geometry parameters for calculating junction cap.
+ +
Extrinsic Capacitance 6
Junction Capacitance (2)
MJSWDB
MJDB
jdb
PBVCJSWPD
PBVCJADC
⎟⎠⎞⎜
⎝⎛ +
⋅+
⎟⎠⎞⎜
⎝⎛ +
⋅=11
EE114 Technology CJ CJSW MJ MJSW PB
NMOS 0.1 fF/µm2 0.5 fF/µm 0.5 0.33 0.95V
PMOS 0.3 fF/µm2 0.35 fF/µm 0.5 0.33 0.95V
MJSWSB
MJSB
jsb
PBVCJSWPS
PBVCJASC
⎟⎠⎞⎜
⎝⎛ +
⋅+
⎟⎠⎞⎜
⎝⎛ +
⋅=11
Extrinsic Capacitance 7
MOS transistor’s caps: Summary
Subthreshold Triode Saturation Cgs Cov ½WLCox+Cov ⅔WLCox+Cov
Cgd Cov ½WLCox+Cov Cov
Cgb
0 0
Csb Cjsb Cjsb+½CCB Cjsb+⅔CCB
Cdb Cjdb Cjdb+½CCB Cjdb
7
€
1CCB
+1
WLCox
"
# $
%
& '
−1
extrinsic cap. intrinsic cap.
€
CCB =εsiXd
⋅WLXd is the width of the depletion region at the silicon interface
Extrinsic Capacitance 8
MOS Capacitance Simulation
§ Note gradual transition in capacitance values
0 1 2 3 4 50
0.5
1
1.5
2
2.5 x 10-14 NMOS 10/1, VDS=0.5V
VGS [V]
C [F
]
CgsCgdCgb
Extrinsic Capacitance 9
Small Signal Model with Capacitances
roCgs gmvgs
D
S
G+vgs-
Cgd
B
CsbCgb @ 0 Cdb≈0
Extrinsic Capacitance 10
Transit Frequency with Extrinsic capacitances
ωT =gm
Cgs +Cgd
Cgs+Cgd
IoutIin ω=ωT
= 1
Extrinsic Capacitance 11
Parameter Summary (1)
Parameter Purpose EE 114 Technology
NMOS PMOS
KP µCox 50 µA/V2 25 µA/V2
COX εox/tox 2.3 fF/µm2 2.3 fF/µm2
VTO Threshold Voltage 0.5 V −0.5 V
LAMBDA Channel length modulation 0.1 V-1µm/L 0.1 V-1µm/L
CGDO, CGSO Gate-drain/source overlap capacitance per length
0.5 fF/µm 0.5 fF/µm
CJ Zero bias area capacitance 0.1 fF/µm2 0.3 fF/µm2
CJSW Zero bias sidewall capacitance 0.5 fF/µm 0.35 fF/µm
Extrinsic Capacitance 12
Parameter Summary (2)
Parameter Purpose EE 114 Technology
NMOS PMOS
PB Junction Potential 0.95 V 0.95 V
MJ Area Junction Grading Coefficient 0.5 0.5
MJSW Area Junction Grading Coefficient 0.33 0.33
HDIF Half-length of S/D diffusion (=Ldiff/2) 1.5 µm 1.5 µm
GAMMA Bulk Threshold Parameter 0.6 V1/2 0.6 V1/2
PHI Surface Potential (2Φf)
0.8 V 0.8 V
Needed Later
Extrinsic Capacitance 13
Common Source Amplifier (Revisited)
vi
VI
Ri
“Transducer” Vo
VB
RIB VB = 2.5V VI = 1.394V
IB = 500mA
W/L = 20µm/1µm
R = 5kΩ
Ri = 50kΩ
Extrinsic Capacitance 14
Small-Signal Model
roCgs gmvgs+vgs-
+vo-
R
Ri
vi Cdb
Cgd
fFfF.CWC 'ovgd 105020 =⋅=⋅=
fF.
..fF.
..fF.
PBVCJSWPD
PBVCJADC ..MJSW
DBMJ
DBdb 611
950521
5026
950521
1060
1133050 =
⎟⎠⎞⎜
⎝⎛ +
⋅+
⎟⎠⎞⎜
⎝⎛ +
⋅=
⎟⎠⎞⎜
⎝⎛ +
⋅+
⎟⎠⎞⎜
⎝⎛ +
⋅=
fF.fFfF.CWLCC ovoxgs 6740103212032
32 =+⋅⋅=+=
Extrinsic Capacitance 15
.AC SPICE Simulation
§ Extrinsic caps reduce bandwidth from 103 MHz to 32 MHz !
§ There also seems to be a second pole
106 107 108 109 1010-60
-40
-20
0
20
f [Hz]
|H(f)
| [dB
]
106 107 108 109 1010-50
0
50
100
150
200
f [Hz]
phas
e[H
(f)] [
deg]
Intrinsic cap onlyIntrinsic + extrinsic caps
Intrinsic cap onlyIntrinsic + extrinsic caps