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(a) The ideal inverter in Fig. 6.2(b) has R=100 k and V+ = 2.5 V. What are VH and V₁? What is the power dissipation of the gate for vo = VH and Vo = VL? (b) Repeat for V+ = 3.3 V. R -O vo

(a) The ideal inverter in Fig. 6.2(b) has R=100 k and V+ = 2.5 V. What are VH and V₁? What is the power dissipation of the gate for vo = VH and Vo = VL? (b) Repeat for V+ = 3.3 V. R -O vo

Introductory Circuit Analysis (13th Edition)
Introductory Circuit Analysis (13th Edition)
13th Edition
ISBN:9780133923605
Author:Robert L. Boylestad
Publisher:Robert L. Boylestad
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← Microsoft X 321 Chap X Hw#1/#2 × ⇒ [-1.5+-SC X https://docs.google.com/document/d/1x4NvtTUifDqxalUsE3FBfYiFN-gLtX7nwiG7VjTmRs4/edit → с Search the menus (Alt+/) Microele X Type here to search 1000|0 A T 100% VI (1) 1 100 R HW 432 X Normal text ▼ Arial 2 | HW 5 32 X M Inbox (1,4 × VO (a) The ideal inverter in Fig. 6.2(b) has R=100 k and V+ 2.5 V. What are VH and V₁? What is the power dissipation of the gate for vo = VH and vo= VL? (b) Repeat for V+ = 3.3 V. 11 3|4| + B I U A 51617| 60% Untitled X + GEN G (8) 3 D ID 100 = IE i > T 4 X Update: 9:15 AM 11/14/2022
Transcribed Image Text:← Microsoft X 321 Chap X Hw#1/#2 × ⇒ [-1.5+-SC X https://docs.google.com/document/d/1x4NvtTUifDqxalUsE3FBfYiFN-gLtX7nwiG7VjTmRs4/edit → с Search the menus (Alt+/) Microele X Type here to search 1000|0 A T 100% VI (1) 1 100 R HW 432 X Normal text ▼ Arial 2 | HW 5 32 X M Inbox (1,4 × VO (a) The ideal inverter in Fig. 6.2(b) has R=100 k and V+ 2.5 V. What are VH and V₁? What is the power dissipation of the gate for vo = VH and vo= VL? (b) Repeat for V+ = 3.3 V. 11 3|4| + B I U A 51617| 60% Untitled X + GEN G (8) 3 D ID 100 = IE i > T 4 X Update: 9:15 AM 11/14/2022
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