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Summary and typical values

  The complexity of Figure 3.4 is in most cases unnecessary, as several of the occurring capacitances can be ignored without serious consequences.

With these adjustments we get the small signal equivalent diagram in Figure 3.5. Expressions for the component values are given in the Figure. Note that some alternative expressions are given for the transconductance gm of the MOS transistor. These expressions are useful if the primary and known quantities are not W/L and VGS, and they may be derived from (3.1-3.2) and (3.5).

In Table 3.1 we show the values of the occurring constants of a typical 1.0tex2html_wrap_inline3554 CMOS process. Note that the channel length modulation factor tex2html_wrap_inline3712 is not constant. It is almost inversely proportional to the channel length L, besides which it is dependent on both VGS-VT (small values result in less tex2html_wrap_inline3712) and VDS-VT (small values result in less tex2html_wrap_inline3712). The typical values stated apply to transistors with tex2html_wrap_inline3812 and tex2html_wrap_inline3814.

 

N-channelP-channelSPICE parameter
COX 1.73tex2html_wrap_inline3818 1.73tex2html_wrap_inline3818 tex2html_wrap_inline3822
tex2html_wrap_inline3704 568cm2/Vs 163cm2/Vs UO
tex2html_wrap_inline3830 98tex2html_wrap_inline3832 28tex2html_wrap_inline3832 KP
VT0 0.82V -1.06V VTO
tex2html_wrap_inline3842 0.73V 0.74V PHI
tex2html_wrap_inline3714 0.71tex2html_wrap_inline3850 0.61tex2html_wrap_inline3850 GAMMA
tex2html_wrap_inline3712 0.094V-1 0.112V-1 LAMBDA
CGSO 0.31tex2html_wrap_inline3862 0.30tex2html_wrap_inline3862 CGSO
CGDO 0.31tex2html_wrap_inline3862 0.30tex2html_wrap_inline3862 CGDO
LD 0.1tex2html_wrap_inline3554 0.1tex2html_wrap_inline3554 LD
Cj0 0.35tex2html_wrap_inline3818 0.54tex2html_wrap_inline3818 CJ
m 0.43 0.51 MJ
Cjp0 0.45tex2html_wrap_inline3862 0.76tex2html_wrap_inline3862 CJSW
mp 0.43 0.51 MJSW
tex2html_wrap_inline3758 0.68V 0.70V PB
 Table 3.1: Process parameters for a typical 1.0tex2html_wrap_inline3554 CMOS process.

 

  figure676
Figure 3.5: Adjusted small-signal equivalent diagram.

 

Saturation Linear
gm tex2html_wrap_inline3904 tex2html_wrap_inline3906
gmb tex2html_wrap_inline3910 tex2html_wrap_inline3910
gds tex2html_wrap_inline3916 tex2html_wrap_inline3918
cgs tex2html_wrap_inline3922 tex2html_wrap_inline3924(tex2html_wrap_inline3926)
cgd tex2html_wrap_inline3930 tex2html_wrap_inline3924(tex2html_wrap_inline3926)
cbs tex2html_wrap_inline3938 tex2html_wrap_inline3938
cbd tex2html_wrap_inline3944 tex2html_wrap_inline3944
Table 3.2: Adjusted small-signal equivalent diagram, component values.

(tex2html_wrap_inline3926) Calculated for VDS=0.

 

Two important parameters are defined for the MOS transistor, a) the unity-gain frequency, tex2html_wrap_inline3954, and b) the maximum voltage amplification, A0. Consider a MOS transistor operating in saturation used as an amplifier. An input voltage is applied over gate-source, and the output voltage is the drain-source voltage. tex2html_wrap_inline3954 is defined as the (angular) frequency, at which the current amplification of the amplifier is unity. tex2html_wrap_inline3954 is calculated as
 equation789
This expression shows, that in order to maximise tex2html_wrap_inline3954, we should

  1. prefer N-channel transistors to P-channel transistors (tex2html_wrap_inline3966),
  2. avoid small values for the effective gate voltage, VGS-VT, and
  3. use minimum channel length.
A0 is defined as the low frequency amplification of the unloaded MOS amplifier. A0 may be calculated as follows
equation805
In order to maximise A0, we should
  1. select a relatively small value of VGS-VTgif,
  2. use a longer channel, as this would imply a smaller value for tex2html_wrap_inline3712.
Figure 3.6 show curves of several transistor parameters for both N- and P-channel transistors as a function of the effective gate voltage, tex2html_wrap_inline3984. Curves are shown with channel lengths of 1tex2html_wrap_inline3554 and 10tex2html_wrap_inline3554.

  figure822
Figure 3.6: a) Channel length modulation factor tex2html_wrap_inline3712, b) DC amplification A0, and c) unity-gain frequency tex2html_wrap_inline4000 for a typical 1.0tex2html_wrap_inline3554 CMOS process.

next up previous contents
Next: MOS current mirrors Up: The small-signal equivalent diagram Previous: Capacitances of the small-signal

Flemming Stassen (Lektor)
Wed Jan 21 13:35:14 MET 1998