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Analog & Logic ICs

Automotive qualified products (AEC-Q100/Q101)

74ALVC164245DL

16-bit dual supply translating transceiver; 3-state

The 74ALVC164245 is a high-performance, low-power, low-voltage, Si-gate CMOS device, superior to most advanced CMOS compatible TTL families.

The 74ALVC164245 is a 16-bit (dual octal) dual supply translating transceiver featuring non-inverting 3-state bus compatible outputs in both send and receive directions. It is designed to interface between a 3 V and 5 V bus in a mixed 3 V and 5 V supply environment.

This device can be used as two 8-bit transceivers or one 16-bit transceiver.

The direction control inputs (1DIR and 2DIR) determine the direction of the data flow. nDIR (active HIGH) enables data from nAn ports to nBn ports. nDIR (active LOW) enables data from nBn ports to nAn ports. The output enable inputs (1OE and 2OE), when HIGH, disable both nAn and nBn ports by placing them in a high-impedance OFF-state. Pins nAn, nOE and nDIR are referenced to VCC(A) and pins nBn are referenced to VCC(B).

In suspend mode, when one of the supply voltages is zero, there will be no current flow from the non-zero supply towards the zero supply. The nAn-outputs must be set 3-state and the voltage on the A-bus must be smaller than Vdiode (typical 0.7 V). VCC(B) ≥ VCC(A) (except in suspend mode).

This product has been discontinued

Features and benefits

  • Wide supply voltage range:

    • 3 V port (VCC(A)): 1.5 V to 3.6 V

    • 5 V port (VCC(B)): 1.5 V to 5.5 V

  • CMOS low power consumption

  • Overvoltage tolerant inputs to 5.5 V

  • Direct interface with TTL levels

  • IOFF circuitry provides partial Power-down mode operation

  • Latch-up performance exceeds 100 mA per JESD 78 Class II Level B

  • Control inputs voltage range from 2.7 V to 5.5 V

  • High-impedance outputs when VCC(A) or VCC(B) = 0 V

  • Complies with JEDEC standards:

    • JESD8-7 (1.65 V to 1.95 V)

    • JESD8-5 (2.3 V to 2.7 V)

    • JESD8C (2.7 V to 3.6 V)

  • ESD protection:

    • HBM: ANSI/ESDA/JEDEC JS-001 class 2 exceeds 2000 V

    • CDM: ANSI/ESDA/JEDEC JS-002 class C3 exceeds 1000 V

  • Specified from -40 °C to +85 °C and -40 °C to +125 °C

Parametrics

Type number Package name
74ALVC164245DL SSOP48

PCB Symbol, Footprint and 3D Model

Model Name Description

Package

All type numbers in the table below are discontinued.

Type number Orderable part number, (Ordering code (12NC)) Status Marking Package Package information Reflow-/Wave soldering Packing
74ALVC164245DL 74ALVC164245DL,118
(935202340118)
Withdrawn / End-of-life ALVC164245 SOT370-1
SSOP48
(SOT370-1)
SOT370-1 SSOP-TSSOP-VSO-REFLOW
SSOP-TSSOP-VSO-WAVE
SOT370-1_118
74ALVC164245DL,112
(935202340112)
Obsolete ALVC164245 Not available

Environmental information

All type numbers in the table below are discontinued.

Type number Orderable part number Chemical content RoHS RHF-indicator
74ALVC164245DL 74ALVC164245DL,118 74ALVC164245DL rohs rhf rhf
74ALVC164245DL 74ALVC164245DL,112 74ALVC164245DL rohs rhf rhf
Quality and reliability disclaimer

Documentation (7)

File name Title Type Date
74ALVC164245 16-bit dual supply translating transceiver; 3-state Data sheet 2024-04-24
Nexperia_document_guide_Logic_translators Nexperia Logic Translators Brochure 2021-04-12
alvc164245 alvc164245 IBIS model IBIS model 2013-04-08
Nexperia_package_poster Nexperia package poster Leaflet 2020-05-15
SOT370-1 plastic, shrink small outline package; 48 leads; 0.635 mm pitch; 15.9 mm x 7.5 mm x 2.8 mm body Package information 2020-04-21
SSOP-TSSOP-VSO-REFLOW Footprint for reflow soldering Reflow soldering 2009-10-08
SSOP-TSSOP-VSO-WAVE Footprint for wave soldering Wave soldering 2009-10-08

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Models

File name Title Type Date
alvc164245 alvc164245 IBIS model IBIS model 2013-04-08

PCB Symbol, Footprint and 3D Model

Model Name Description

How does it work?

The interactive datasheets are based on the Nexperia MOSFET precision electrothermal models. With our interactive datasheets you can simply specify your own conditions interactively. Start by changing the values of the conditions. You can do this by using the sliders in the condition fields. By dragging the sliders you will see how the MOSFET will perform at the new conditions set.