For an active-loaded MOS differential amplifier shown in Figure 2, assume that for all transistors, W/L = 7.2 µm/0.36 μm, μnCox = 387 μA/V², μpCox = 86 μA/V², |V'An| = 5 V/ μm, V'Apl = 6 V/ μm, the bias current /TAIL = 0.2 mA and Rss = 25 ΚΩ. Determine the value of differential-mode gain, Adm. (Note: No derivation needed) Given the common-mode gain, Acm = CMRR. VG1 T3 T₁ VDD SS ITAIL Figure 2. T₂ T4 1/(2.gm.Rss), determine the V₂ VG2
For an active-loaded MOS differential amplifier shown in Figure 2, assume that for all transistors, W/L = 7.2 µm/0.36 μm, μnCox = 387 μA/V², μpCox = 86 μA/V², |V'An| = 5 V/ μm, V'Apl = 6 V/ μm, the bias current /TAIL = 0.2 mA and Rss = 25 ΚΩ. Determine the value of differential-mode gain, Adm. (Note: No derivation needed) Given the common-mode gain, Acm = CMRR. VG1 T3 T₁ VDD SS ITAIL Figure 2. T₂ T4 1/(2.gm.Rss), determine the V₂ VG2
Introductory Circuit Analysis (13th Edition)
13th Edition
ISBN:9780133923605
Author:Robert L. Boylestad
Publisher:Robert L. Boylestad
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H7
Transcribed Image Text:For an active-loaded MOS differential amplifier shown in Figure 2, assume that
for all transistors, W/L = 7.2 µm/0.36 µm, µnCox = 387 µA/V², µpCox = 86 μA/V²,
|V'An| = 5 V/ μm, [V'Ap| = 6 V/ µm, the bias current /TAIL = 0.2 mA and Rss = 25
ΚΩ.
Determine the value of differential-mode gain, Adm.
(Note: No derivation needed)
Given the common-mode gain, Acm =
CMRR.
VG1
T3
T₁
VDD
Vss
ITAIL
Figure 2.
T₂
T4
1/(2.gm.Rss), determine the
V₂
VG2
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