Datasheet Texas Instruments SN74LVC2G126

ManufacturerTexas Instruments
SeriesSN74LVC2G126
Datasheet Texas Instruments SN74LVC2G126

Dual Bus Buffer Gate With 3-State Outputs

Datasheets

SN74LVC2G126 Dual Bus Buffer Gate With 3-State Outputs datasheet
PDF, 1.0 Mb, Revision: M, File published: Sep 7, 2016
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Prices

Status

74LVC2G126DCTRG474LVC2G126DCUTE474LVC2G126DCUTG4SN74LVC2G126DCTRSN74LVC2G126DCURSN74LVC2G126DCUTSN74LVC2G126YZPR
Lifecycle StatusActive (Recommended for new designs)Active (Recommended for new designs)Active (Recommended for new designs)Active (Recommended for new designs)Active (Recommended for new designs)Active (Recommended for new designs)Active (Recommended for new designs)
Manufacture's Sample AvailabilityNoYesYesNoNoYesYes

Packaging

74LVC2G126DCTRG474LVC2G126DCUTE474LVC2G126DCUTG4SN74LVC2G126DCTRSN74LVC2G126DCURSN74LVC2G126DCUTSN74LVC2G126YZPR
N1234567
Pin8888888
Package TypeDCTDCUDCUDCTDCUDCUYZP
Industry STD TermSSOPVSSOPVSSOPSSOPVSSOPVSSOPDSBGA
JEDEC CodeR-PDSO-GR-PDSO-GR-PDSO-GR-PDSO-GR-PDSO-GR-PDSO-GR-XBGA-N
Package QTY3000250300030002503000
CarrierLARGE T&RSMALL T&RLARGE T&RLARGE T&RSMALL T&RLARGE T&R
Device MarkingC26C26RC26C26QC26RCN7
Width (mm)2.8222.8222.25
Length (mm)2.952.32.32.952.32.31.25
Thickness (mm)1.29.85.851.29.85.85.31
Pitch (mm).65.5.5.65.5.5.5
Max Height (mm)1.3.9.91.3.9.9.5
Mechanical DataDownloadDownloadDownloadDownloadDownloadDownloadDownload

Parametrics

Parameters / Models74LVC2G126DCTRG4
74LVC2G126DCTRG4
74LVC2G126DCUTE4
74LVC2G126DCUTE4
74LVC2G126DCUTG4
74LVC2G126DCUTG4
SN74LVC2G126DCTR
SN74LVC2G126DCTR
SN74LVC2G126DCUR
SN74LVC2G126DCUR
SN74LVC2G126DCUT
SN74LVC2G126DCUT
SN74LVC2G126YZPR
SN74LVC2G126YZPR
3-State OutputYesYesYesYesYesYesYes
Approx. Price (US$)0.14 | 1ku
Bits222222
Bits(#)2
F @ Nom Voltage(Max), Mhz150150150150150150
F @ Nom Voltage(Max)(Mhz)150
Gate TypeBUFFERBUFFERBUFFERBUFFERBUFFERBUFFERBUFFER
ICC @ Nom Voltage(Max), mA0.010.010.010.010.010.01
ICC @ Nom Voltage(Max)(mA)0.01
LogicTrueTrueTrueTrueTrueTrueTrue
Operating Temperature Range, C-40 to 125-40 to 125-40 to 125-40 to 125-40 to 125-40 to 125
Operating Temperature Range(C)-40 to 125
Output Drive (IOL/IOH)(Max), mA32/-3232/-3232/-3232/-3232/-3232/-32
Output Drive (IOL/IOH)(Max)(mA)32/-32
Package GroupSM8VSSOPVSSOPSM8VSSOPVSSOPDSBGA
Package Size: mm2:W x L, PKG8SM8: 12 mm2: 4 x 2.95(SM8)8VSSOP: 6 mm2: 3.1 x 2(VSSOP)8SM8: 12 mm2: 4 x 2.95(SM8)8VSSOP: 6 mm2: 3.1 x 2(VSSOP)8VSSOP: 6 mm2: 3.1 x 2(VSSOP)See datasheet (DSBGA)
Package Size: mm2:W x L (PKG)See datasheet (DSBGA)
RatingCatalogCatalogCatalogCatalogCatalogCatalogCatalog
Schmitt TriggerNoNoNoNoNoNoNo
Special FeaturesIoff,down translation to Vcc,low power,3-stateIoff
down translation to Vcc
low power
3-state
Ioff,down translation to Vcc,low power,3-stateIoff,down translation to Vcc,low power,3-stateIoff,down translation to Vcc,low power,3-stateIoff,down translation to Vcc,low power,3-stateIoff,down translation to Vcc,low power,3-state
Sub-FamilyNon-Inverting Buffer/DriverNon-Inverting Buffer/DriverNon-Inverting Buffer/DriverNon-Inverting Buffer/DriverNon-Inverting Buffer/DriverNon-Inverting Buffer/DriverNon-Inverting Buffer/Driver
Technology FamilyLVCLVCLVCLVCLVCLVCLVC
VCC(Max), V5.55.55.55.55.55.5
VCC(Max)(V)5.5
VCC(Min), V1.651.651.651.651.651.65
VCC(Min)(V)1.65
Voltage(Nom), V1.8,2.5,3.3,51.8,2.5,3.3,51.8,2.5,3.3,51.8,2.5,3.3,51.8,2.5,3.3,51.8,2.5,3.3,5
Voltage(Nom)(V)1.8
2.5
3.3
5
tpd @ Nom Voltage(Max), ns9.8,4.9,4,3.29.8,4.9,4,3.29.8,4.9,4,3.29.8,4.9,4,3.29.8,4.9,4,3.29.8,4.9,4,3.2
tpd @ Nom Voltage(Max)(ns)9.8
4.9
4
3.2

Eco Plan

74LVC2G126DCTRG474LVC2G126DCUTE474LVC2G126DCUTG4SN74LVC2G126DCTRSN74LVC2G126DCURSN74LVC2G126DCUTSN74LVC2G126YZPR
RoHSCompliantNot CompliantCompliantCompliantCompliantCompliantCompliant
Pb FreeNo

Application Notes

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    PDF, 895 Kb, Revision: B, File published: May 22, 2002
    TI?s 56-ball MicroStar Jr.E package registered under JEDEC MO-225 has demonstrated through modeling and experimentation that it is an optimal solution for reducing inductance and capacitance improving thermal performance and minimizing board area usage in integrated bus functions. Multiple functions released in the 56-ball MicroStar Jr.E package have superior performance characteristics compa
  • LVC Characterization Information
    PDF, 114 Kb, File published: Dec 1, 1996
    This document provides characterization information about low-voltage logic (LVL) that operates from a 3.3-V power supply. It addresses the issues of interfacing to 5-V logic ac performance power considerations input and output characteristics and signal integrity for this family of devices.
  • Use of the CMOS Unbuffered Inverter in Oscillator Circuits
    PDF, 796 Kb, File published: Nov 6, 2003
    CMOS devices have a high input impedance high gain and high bandwidth. These characteristics are similar to ideal amplifier characteristics and hence a CMOS buffer or inverter can be used in an oscillator circuit in conjunction with other passive components. Now CMOS oscillator circuits are widely used in high-speed applications because they are economical easy to use and take significantly
  • Bus-Interface Devices With Output-Damping Resistors Or Reduced-Drive Outputs (Rev. A)
    PDF, 105 Kb, Revision: A, File published: Aug 1, 1997
    The spectrum of bus-interface devices with damping resistors or balanced/light output drive currently offered by various logic vendors is confusing at best. Inconsistencies in naming conventions and methods used for implementation make it difficult to identify the best solution for a given application. This report attempts to clarify the issue by looking at several vendors? approaches and discussi
  • Understanding Advanced Bus-Interface Products Design Guide
    PDF, 253 Kb, File published: May 1, 1996
  • Power-Up 3-State (PU3S) Circuits in TI Standard Logic Devices
    PDF, 209 Kb, File published: May 10, 2002
    Many telecom and networking applications require that cards be inserted and extracted from a live backplane without interrupting data or damaging components. To achieve this interface terminals of the card must be electrically isolated from the bus system during insertion or extraction from the backplane. To facilitate this Texas Instruments provides bus-interface and logic devices with features
  • How to Select Little Logic (Rev. A)
    PDF, 1.1 Mb, Revision: A, File published: Jul 26, 2016
    TI Little Logic devices are logic-gate devices assembled in a small single- dual- or triple- gate package. Little Logic devices are widely used in portable equipment such as mobile phones MP3 players and notebook computers. Little Logic devices also are used in desktop computers and telecommunications. Little Logic gates are common components for easy PC board routing schematic design and b
  • Migration From 3.3-V To 2.5-V Power Supplies For Logic Devices
    PDF, 115 Kb, File published: Dec 1, 1997
    This application report explores the possibilities for migrating to 3.3-V and 2.5-V power supplies and discusses the implications.Customers are successfully using a wide range of low-voltage 3.3-V logic devices. These devices are within Texas Instruments (TI) advanced low-voltage CMOS (ALVC) crossbar technology (CBT) crossbar technology with integrated diode (CBTD) low-voltage crossbar techn
  • Texas Instruments Little Logic Application Report
    PDF, 359 Kb, File published: Nov 1, 2002
    Portable and consumer electronic systems? needs present greater challenges today than ever before. Engineers strive to design smaller faster lower-cost systems to meet the market demand. Consequently the semiconductor industry faces a growing need to increase operating speed minimize power consumption and reduce packaging size. Texas Instruments manufactures a variety of Little Logic semicond
  • Selecting the Right Level Translation Solution (Rev. A)
    PDF, 313 Kb, Revision: A, File published: Jun 22, 2004
    Supply voltages continue to migrate to lower nodes to support today's low-power high-performance applications. While some devices are capable of running at lower supply nodes others might not have this capability. To haveswitching compatibility between these devices the output of each driver must be compliant with the input of the receiver that it is driving. There are several level-translati
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    PDF, 150 Kb, File published: Oct 1, 1996
    Many applications require the ability to exchange modules in electronic systems without removing the supply voltage from the module (live insertion). For example an electronic telephone exchange must always remain operational even during module maintenance and repair. To avoid damaging components additional circuitry modifications are necessary. This document describes in detail the phenomena tha
  • CMOS Power Consumption and CPD Calculation (Rev. B)
    PDF, 89 Kb, Revision: B, File published: Jun 1, 1997
    Reduction of power consumption makes a device more reliable. The need for devices that consume a minimum amount of power was a major driving force behind the development of CMOS technologies. As a result CMOS devices are best known for low power consumption. However for minimizing the power requirements of a board or a system simply knowing that CMOS devices may use less power than equivale
  • Input and Output Characteristics of Digital Integrated Circuits
    PDF, 1.7 Mb, File published: Oct 1, 1996
    This report contains a comprehensive collection of the input and output characteristic curves of typical integrated circuits from various logic families. These curves go beyond the information given in data sheets by providing additional details regarding the characteristics of the components. This knowledge is particularly useful when for example a decision must be made as to which circuit shou
  • Selecting the Right Texas Instruments Signal Switch
    PDF, 769 Kb, File published: Sep 7, 2001
    Texas Instruments offers a wide variety of electronic switches (digital analog bilateral bilateral analog) in a variety of families including CBT CBTLV HC LV and LVC. Depending on the application the right solution may be an analog switch that passes digital signals or vice versa. This application report summarizes the various switching technologies and provides considerations for choosi

Model Line

Manufacturer's Classification

  • Semiconductors> Logic> Little Logic