(New page: == Introduction == Open Drain (OD) NAND gates are an unusual sort of logic gates. Unlike a traditional logic gate containing both N-channel and P-channel MOSFETs, the OD NAND gates only c...)
 
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<font size="4">'''[[ECE_270_SLecture_Table_of_Contents|The Brown-Meyer Lectures on Digital Systems]]''' </font>
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'''Module 1: Boolean Algebra &amp; CMOS logic structures'''
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[[slectures|Slectures]] by [[User:Rwayner|Robert Wayner]]
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© 2013
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= 1.3 Properties of Open Drain NAND Gates =
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== Introduction ==
 
== Introduction ==
 
Open Drain (OD) NAND gates  are an unusual sort of logic gates. Unlike a traditional logic gate containing both N-channel and P-channel MOSFETs, the OD NAND gates only contain N-channel MOSFETs which means it is only connected to ground. Thus an external power source of 5 volts is connected to the output with a pull-up resistor connecting the two.
 
Open Drain (OD) NAND gates  are an unusual sort of logic gates. Unlike a traditional logic gate containing both N-channel and P-channel MOSFETs, the OD NAND gates only contain N-channel MOSFETs which means it is only connected to ground. Thus an external power source of 5 volts is connected to the output with a pull-up resistor connecting the two.
 
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Revision as of 10:36, 5 July 2013


The Brown-Meyer Lectures on Digital Systems

Module 1: Boolean Algebra & CMOS logic structures

Slectures by Robert Wayner

© 2013


1.3 Properties of Open Drain NAND Gates


Introduction

Open Drain (OD) NAND gates are an unusual sort of logic gates. Unlike a traditional logic gate containing both N-channel and P-channel MOSFETs, the OD NAND gates only contain N-channel MOSFETs which means it is only connected to ground. Thus an external power source of 5 volts is connected to the output with a pull-up resistor connecting the two.


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