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{{Short description|Group of logic families in electronics}}
In [[electronics]], '''pass transistor logic''' (PTL) describes several [[logic family|logic families]] used in the design of [[integrated circuit]]s. It reduces the count of [[transistor|transistors]] used to make different [[logic gate]]s, by eliminating redundant transistors. Transistors are used as switches to pass [[logic level]]s between nodes of a circuit, instead of as switches connected directly to supply voltages.<ref>{{cite book |first1=Jaume |last1=Segura |first2=Charles F. |last2=Hawkins |title=CMOS electronics: how it works, how it fails |publisher=Wiley-IEEE |date=2004 |isbn=0-471-47669-2 |pages=132 |url=}}</ref> This reduces the number of active devices, but has the disadvantage that the difference of the voltage between high and low logic levels decreases at each stage (since pass transistors have some resistance and do not provide level restoration). Each transistor in series is less saturated at its output than at its input.<ref>{{cite book |first=Clive |last=Maxfield |title=Bebop to the boolean boogie: an unconventional guide to electronics |publisher=Newnes |date=2008 |isbn=978-1-85617-507-4 |pages=423–6 |url=}}</ref> If several devices are chained in series in a logic path, a conventionally constructed gate may be required to restore the signal voltage to the full value. By contrast, conventional [[CMOS logic]] switches transistors so the output connects to one of the power supply rails (resembling an [[open collector]] scheme), so logic voltage levels in a sequential chain do not decrease.
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Simulation of circuits may be required to ensure adequate performance.
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Pass transistor logic often uses fewer transistors, runs faster, and requires less power than the same function implemented with the same transistors in fully complementary CMOS logic.<ref>
Norimitsu Sako.
[
'It is known in the art to employ a "pass-transistor logic circuit" to reduce a number of elements and power consumption, and to improve operating speed.'
</ref>
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=={{anchor|CPL}}Complementary pass transistor logic==
Some authors use the term
{{cite book |first=Gary K. |last=Yeap |title=Practical Low Power Digital VLSI Design |publisher=Springer |orig-year=1998 |date=2012 |isbn=978-1-4615-6065-4 |pages=197 |url=https://books.google.com/books?id=sXTdBwAAQBAJ}}
</ref>
Other authors use the term
{{cite book |first=Vojin G. |last=Oklobdzija |title=Digital Design and Fabrication |publisher= CRC Press|date= 19 December 2017|isbn= 9780849386046|pages=2–39 |url=https://books.google.com/books?id=VOnyWUUUj04C}}
</ref><ref name="IEEE_1990"/><ref name="ULVD_2015"/>
{{cite book |editor-first=Wai-Kai |editor-last=Chen |title=Logic Design |publisher=CRC Press |___location= |date=2003 |isbn=978-0-203-01015-0 |pages=15–7 |url=https://books.google.com/books?id=X0a3BgAAQBAJ |oclc=1029500642}}
</ref><ref>
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</ref>
''Complementary pass transistor logic'' or
CPL uses series transistors to select between possible inverted output values of the logic, the output of which drives an [[Inverter (logic gate)|inverter]]
==Other forms==
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==Further reading==
*{{cite book |last1=Weste |last2=Harris |title=CMOS VLSI Design |year=2005 |publisher= Pearson/Addison-Wesley|edition=3rd |isbn=0-321-14901-7 |pages= |url=}}
*{{cite book |first1=Douglas A. |last1=Pucknell |first2=Kamran |last2=Eshraghian |title=Basic VLSI Design |year=1994 |publisher= Prentice-Hall Of India Pvt. Limited|edition=3rd |isbn=978-81-203-0986-9 |pages= |url=}}
{{Logic Families}}
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