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SN74LVCH8T245

ACTIVO

Transceptor de bus de alimentación doble de 8 bits con traducción de tensión configurable y salidas

Detalles del producto

Technology family LVC Bits (#) 8 High input voltage (min) (V) 1.08 High input voltage (max) (V) 5.5 Vout (min) (V) 1.65 Vout (max) (V) 5.5 Data rate (max) (Mbps) 200 IOH (max) (mA) -32 IOL (max) (mA) 32 Supply current (max) (µA) 25 Features Bus-hold, Output enable, Overvoltage tolerant inputs, Partial power down (Ioff), Vcc isolation Input type Bidirectional, CMOS, Overvoltage Tolerant Output type 3-State, Balanced CMOS, Push-Pull Rating Catalog Operating temperature range (°C) -40 to 85
Technology family LVC Bits (#) 8 High input voltage (min) (V) 1.08 High input voltage (max) (V) 5.5 Vout (min) (V) 1.65 Vout (max) (V) 5.5 Data rate (max) (Mbps) 200 IOH (max) (mA) -32 IOL (max) (mA) 32 Supply current (max) (µA) 25 Features Bus-hold, Output enable, Overvoltage tolerant inputs, Partial power down (Ioff), Vcc isolation Input type Bidirectional, CMOS, Overvoltage Tolerant Output type 3-State, Balanced CMOS, Push-Pull Rating Catalog Operating temperature range (°C) -40 to 85
SSOP (DB) 24 63.96 mm² 8.2 x 7.8 TSSOP (PW) 24 49.92 mm² 7.8 x 6.4 TVSOP (DGV) 24 32 mm² 5 x 6.4 VQFN (RHL) 24 19.25 mm² 5.5 x 3.5
  • Control inputs (DIR and OE) VIH and VIL levels are referenced to VCCA
  • Bus hold on data inputs eliminates the need for external pullup and pulldown resistors
  • VCC isolation
  • Fully configurable dual-rail design
  • Ioff supports Partial-Power-Down node operation
  • Latch-up performance exceeds 100 mA per JESD 78, class II
  • ESD protection exceeds JESD 22
  • Control inputs (DIR and OE) VIH and VIL levels are referenced to VCCA
  • Bus hold on data inputs eliminates the need for external pullup and pulldown resistors
  • VCC isolation
  • Fully configurable dual-rail design
  • Ioff supports Partial-Power-Down node operation
  • Latch-up performance exceeds 100 mA per JESD 78, class II
  • ESD protection exceeds JESD 22

The SN74LVCH8T245 is an 8-bit noninverting bus transceiver that uses two separate configurable power-supply rails. The A port is designed to track VCCA, which accepts any supply voltage from 1.65 V to 5.5 V. The B port is designed to track VCCB, which also accepts any supply voltage from 1.65 V to 5.5 V. This allows for universal low-voltage bidirectional translation between any of the 1.8-V, 2.5-V, 3.3-V, and 5.5-V voltage nodes.

The SN74LVCH8T245 is designed for asynchronous communication between two data buses. The logic levels of the direction-control (DIR) input and the output-enable (OE) input activate either the B-port outputs, the A-port outputs, or place both output ports into a high-impedance state. The device transmits data from the A bus to the B bus when the B-port outputs are activated, and from the B bus to the A bus when the A-port outputs are activated. The input circuitry on both A and B ports are always active.

Active bus-hold circuitry holds unused or undriven inputs at a valid logic state. Use of pullup or pulldown resistors with the bus-hold circuitry is not recommended. This device is fully specified for partial-power-down applications using Ioff. The Ioff circuitry disables the outputs, preventing damaging current backflow through the device. The VCC isolation feature ensures that if either VCCA or VCCB is at GND, then the outputs are in the high-impedance state. To ensure the high-impedance state during power up or power down, OE should be tied to VCCA through a pullup resistor; the minimum value of the resistor is determined by the current-sinking capability of the driver.

The SN74LVCH8T245 is designed so that the control pins (DIR and OE) are referenced to VCCA.

The SN74LVCH8T245 is an 8-bit noninverting bus transceiver that uses two separate configurable power-supply rails. The A port is designed to track VCCA, which accepts any supply voltage from 1.65 V to 5.5 V. The B port is designed to track VCCB, which also accepts any supply voltage from 1.65 V to 5.5 V. This allows for universal low-voltage bidirectional translation between any of the 1.8-V, 2.5-V, 3.3-V, and 5.5-V voltage nodes.

The SN74LVCH8T245 is designed for asynchronous communication between two data buses. The logic levels of the direction-control (DIR) input and the output-enable (OE) input activate either the B-port outputs, the A-port outputs, or place both output ports into a high-impedance state. The device transmits data from the A bus to the B bus when the B-port outputs are activated, and from the B bus to the A bus when the A-port outputs are activated. The input circuitry on both A and B ports are always active.

Active bus-hold circuitry holds unused or undriven inputs at a valid logic state. Use of pullup or pulldown resistors with the bus-hold circuitry is not recommended. This device is fully specified for partial-power-down applications using Ioff. The Ioff circuitry disables the outputs, preventing damaging current backflow through the device. The VCC isolation feature ensures that if either VCCA or VCCB is at GND, then the outputs are in the high-impedance state. To ensure the high-impedance state during power up or power down, OE should be tied to VCCA through a pullup resistor; the minimum value of the resistor is determined by the current-sinking capability of the driver.

The SN74LVCH8T245 is designed so that the control pins (DIR and OE) are referenced to VCCA.

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* Data sheet SN74LVCH8T245 8-BIT Dual-Supply Bus Transceiver With Configurable Level-Shifting, Voltage Translation, and 3-State Outputs datasheet (Rev. C) PDF | HTML 15 dic 2022
Application note Schematic Checklist - A Guide to Designing With Fixed or Direction Control Translators PDF | HTML 02 oct 2024
Application note Schematic Checklist - A Guide to Designing with Auto-Bidirectional Translators PDF | HTML 12 jul 2024
Application note Understanding Transient Drive Strength vs. DC Drive Strength in Level-Shifters (Rev. A) PDF | HTML 03 jul 2024
Application note Implications of Slow or Floating CMOS Inputs (Rev. E) 26 jul 2021
Selection guide Voltage Translation Buying Guide (Rev. A) 15 abr 2021
Selection guide Little Logic Guide 2018 (Rev. G) 06 jul 2018
Selection guide Logic Guide (Rev. AB) 12 jun 2017
Application note How to Select Little Logic (Rev. A) 26 jul 2016
Application note Understanding and Interpreting Standard-Logic Data Sheets (Rev. C) 02 dic 2015
Application note Designing with SN74LVCXT245 and SN74LVCHXT245 Family of Direction Controlled 27 oct 2015
User guide LOGIC Pocket Data Book (Rev. B) 16 ene 2007
Product overview Design Summary for WCSP Little Logic (Rev. B) 04 nov 2004
Application note Semiconductor Packing Material Electrostatic Discharge (ESD) Protection 08 jul 2004
Application note Selecting the Right Level Translation Solution (Rev. A) 22 jun 2004
User guide Signal Switch Data Book (Rev. A) 14 nov 2003
Application note Use of the CMOS Unbuffered Inverter in Oscillator Circuits 06 nov 2003
User guide LVC and LV Low-Voltage CMOS Logic Data Book (Rev. B) 18 dic 2002
Application note Texas Instruments Little Logic Application Report 01 nov 2002
Application note TI IBIS File Creation, Validation, and Distribution Processes 29 ago 2002
More literature Standard Linear & Logic for PCs, Servers & Motherboards 13 jun 2002
Application note 16-Bit Widebus Logic Families in 56-Ball, 0.65-mm Pitch Very Thin Fine-Pitch BGA (Rev. B) 22 may 2002
Application note Power-Up 3-State (PU3S) Circuits in TI Standard Logic Devices 10 may 2002
More literature STANDARD LINEAR AND LOGIC FOR DVD/VCD PLAYERS 27 mar 2002
Application note Migration From 3.3-V To 2.5-V Power Supplies For Logic Devices 01 dic 1997
Application note Bus-Interface Devices With Output-Damping Resistors Or Reduced-Drive Outputs (Rev. A) 01 ago 1997
Application note CMOS Power Consumption and CPD Calculation (Rev. B) 01 jun 1997
Application note LVC Characterization Information 01 dic 1996
Application note Input and Output Characteristics of Digital Integrated Circuits 01 oct 1996
Application note Live Insertion 01 oct 1996
Design guide Low-Voltage Logic (LVC) Designer's Guide 01 sep 1996
Application note Understanding Advanced Bus-Interface Products Design Guide 01 may 1996

Diseño y desarrollo

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Placa de evaluación

14-24-LOGIC-EVM — Módulo de evaluación genérico de productos lógicos para encapsulados D, DB, DGV, DW, DYY, NS y PW de

El módulo de evaluación 14-24-LOGIC-EVM (EVM) está diseñado para admitir cualquier dispositivo lógico que esté en un encapsulado D, DW, DB, NS, PW, DYY o DGV de 14 a 24 pines.

Guía del usuario: PDF | HTML
Placa de evaluación

14-24-NL-LOGIC-EVM — Módulo de evaluación genérico de productos lógicos para encapsulados sin conductores de 14 a 24 pine

14-24-NL-LOGIC-EVM es un módulo de evaluación (EVM) flexible diseñado para admitir cualquier dispositivo lógico o de traducción que tenga un encapsulado BQA, BQB, RGY, RSV, RJW o RHL de 14 a 24 pines.

Guía del usuario: PDF | HTML
Placa de evaluación

AVCLVCDIRCNTRL-EVM — EVM genérico para dispositivo de traducción bidireccional controlado por dirección compatible con AV

The generic EVM is designed to support one, two, four and eight channel LVC and AVC direction-controlled translation devices. It also supports the bus hold and automotive -Q1 devices in the same number of channels. The AVC are low voltage translation devices with lower drive strength of 12mA. LVC (...)

Guía del usuario: PDF
Modelo de simulación

SN74LVCH8T245 IBIS Model

SCEM493.ZIP (55 KB) - IBIS Model
Encapsulado Pines Símbolos CAD, huellas y modelos 3D
SSOP (DB) 24 Ultra Librarian
TSSOP (PW) 24 Ultra Librarian
TVSOP (DGV) 24 Ultra Librarian
VQFN (RHL) 24 Ultra Librarian

Pedidos y calidad

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  • Lugar de fabricación
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