Datasheet Texas Instruments SN74AHCT16374 — Ficha de datos

FabricanteTexas Instruments
SerieSN74AHCT16374
Datasheet Texas Instruments SN74AHCT16374

Chanclas tipo D de 16 bits activadas por borde con salidas de 3 estados

Hojas de datos

SNX4AHCT1637416-Bit Edge-Triggered D-Type Flip-Flops With 3-State Outputs datasheet
PDF, 377 Kb, Revisión: I, Archivo publicado: feb 21, 2000
Extracto del documento

Precios

Estado

74AHCT16374DGGRG4SN74AHCT16374DGGRSN74AHCT16374DGVRSN74AHCT16374DLSN74AHCT16374DLG4SN74AHCT16374DLR
Estado del ciclo de vidaActivo (Recomendado para nuevos diseños)Activo (Recomendado para nuevos diseños)Activo (Recomendado para nuevos diseños)Activo (Recomendado para nuevos diseños)Activo (Recomendado para nuevos diseños)Activo (Recomendado para nuevos diseños)
Disponibilidad de muestra del fabricanteNoNoNoNoNoNo

Embalaje

74AHCT16374DGGRG4SN74AHCT16374DGGRSN74AHCT16374DGVRSN74AHCT16374DLSN74AHCT16374DLG4SN74AHCT16374DLR
N123456
Pin484848484848
Package TypeDGGDGGDGVDLDLDL
Industry STD TermTSSOPTSSOPTVSOPSSOPSSOPSSOP
JEDEC CodeR-PDSO-GR-PDSO-GR-PDSO-GR-PDSO-GR-PDSO-GR-PDSO-G
Package QTY20002000200025251000
CarrierLARGE T&RLARGE T&RLARGE T&RTUBETUBELARGE T&R
Device MarkingAHCT16374AHCT16374HF374AHCT16374AHCT16374AHCT16374
Width (mm)6.16.14.47.497.497.49
Length (mm)12.512.59.715.8815.8815.88
Thickness (mm)1.151.151.052.592.592.59
Pitch (mm).5.5.4.635.635.635
Max Height (mm)1.21.21.22.792.792.79
Mechanical DataDescargarDescargarDescargarDescargarDescargarDescargar

Paramétricos

Parameters / Models74AHCT16374DGGRG4
74AHCT16374DGGRG4
SN74AHCT16374DGGR
SN74AHCT16374DGGR
SN74AHCT16374DGVR
SN74AHCT16374DGVR
SN74AHCT16374DL
SN74AHCT16374DL
SN74AHCT16374DLG4
SN74AHCT16374DLG4
SN74AHCT16374DLR
SN74AHCT16374DLR
3-State OutputYesYesYesYesYesYes
Bits161616161616
F @ Nom Voltage(Max), Mhz707070707070
ICC @ Nom Voltage(Max), mA0.040.040.040.040.040.04
Operating Temperature Range, C-40 to 85-40 to 85-40 to 85-40 to 85-40 to 85-40 to 85
Output Drive (IOL/IOH)(Max), mA8/-88/-88/-88/-88/-88/-8
Package GroupTSSOPTSSOPTVSOPSSOPSSOPSSOP
Package Size: mm2:W x L, PKG48TSSOP: 101 mm2: 8.1 x 12.5(TSSOP)48TSSOP: 101 mm2: 8.1 x 12.5(TSSOP)48TVSOP: 62 mm2: 6.4 x 9.7(TVSOP)48SSOP: 164 mm2: 10.35 x 15.88(SSOP)48SSOP: 164 mm2: 10.35 x 15.88(SSOP)48SSOP: 164 mm2: 10.35 x 15.88(SSOP)
RatingCatalogCatalogCatalogCatalogCatalogCatalog
Schmitt TriggerNoNoNoNoNoNo
Technology FamilyAHCTAHCTAHCTAHCTAHCTAHCT
VCC(Max), V5.55.55.55.55.55.5
VCC(Min), V4.54.54.54.54.54.5
Voltage(Nom), V555555
tpd @ Nom Voltage(Max), ns11.511.511.511.511.511.5

Plan ecológico

74AHCT16374DGGRG4SN74AHCT16374DGGRSN74AHCT16374DGVRSN74AHCT16374DLSN74AHCT16374DLG4SN74AHCT16374DLR
RoHSObedienteObedienteObedienteObedienteObedienteObediente

Notas de aplicación

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    PDF, 102 Kb, Revisión: C, Archivo publicado: dic 2, 2002
    The Texas Instruments (TI) advanced high-speed CMOS (AHC) logic family provides a natural migration for high-speed CMOS (HCMOS) users who need more speed for low-power and low-drive applications. Unlike many other advanced logic families AHC does not have the drawbacks that come with higher speed e.g. higher signal noise and power consumption. The AHC logic family consists of gates medium-sca
  • Bus-Interface Devices With Output-Damping Resistors Or Reduced-Drive Outputs (Rev. A)
    PDF, 105 Kb, Revisión: A, Archivo publicado: agosto 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
  • How to Select Little Logic (Rev. A)
    PDF, 1.1 Mb, Revisión: A, Archivo publicado: jul 26, 2016
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    PDF, 115 Kb, Archivo publicado: dic 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
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    PDF, 359 Kb, Archivo publicado: 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, Revisión: A, Archivo publicado: 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
  • Live Insertion
    PDF, 150 Kb, Archivo publicado: 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
  • Introduction to Logic
    PDF, 93 Kb, Archivo publicado: abr 30, 2015
  • Implications of Slow or Floating CMOS Inputs (Rev. D)
    PDF, 260 Kb, Revisión: D, Archivo publicado: jun 23, 2016
  • CMOS Power Consumption and CPD Calculation (Rev. B)
    PDF, 89 Kb, Revisión: B, Archivo publicado: 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
  • Power-Up Behavior of Clocked Devices (Rev. A)
    PDF, 34 Kb, Revisión: A, Archivo publicado: feb 6, 2015

Linea modelo

Clasificación del fabricante

  • Semiconductors> Logic> Flip-Flop/Latch/Register> D-Type Flip-Flop