CLVTH16245AQDGGREP

Texas Instruments

IC TXRX NON-INVERT 3.6V 48TSSOP

1214 Pcs New Original In Stock

Transceiver, Non-Inverting 2 Element 8 Bit per Element 3-State Output 48-TSSOP

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5.0 / 5.0 - (371 Ratings)

CLVTH16245AQDGGREP

Name: Texas Instruments CLVTH16245AQDGGREP
Brand: Texas Instruments
SKU: CLVTH16245AQDGGREP
Price: 4.7165 USD
Availability: InStock
Rating: 5.0 (371 reviews)

Product Overview

1252011

DiGi Electronics Part Number

CLVTH16245AQDGGREP-DG

Manufacturer

Texas Instruments

Manufacturer Product Number CLVTH16245AQDGGREP

Description

IC TXRX NON-INVERT 3.6V 48TSSOP

Inventory

1214 Pcs New Original In Stock

Detailed Description Transceiver, Non-Inverting 2 Element 8 Bit per Element 3-State Output 48-TSSOP

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Datasheet CLVTH16245AQDGGREP Datasheet

Video CLVTH16245AQDGGREP Video

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Basic cost: USD 70.00

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In Stock (All prices are in USD)

QTY Target Price Total Price
1 4.7165 4.7165
200 1.8265 365.3000
500 1.7626 881.3000
1000 1.7306 1730.6000

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CLVTH16245AQDGGREP Technical Specifications

Datasheet & Documents

Datasheets

Download CLVTH16245AQDGGREP Product Specification (PDF)

HTML Datasheet

CLVTH16245AQDGGREP-DG

Environmental & Export Classification

RoHS Status ROHS3 Compliant

Moisture Sensitivity Level (MSL) 1 (Unlimited)

REACH Status REACH Unaffected

ECCN EAR99

HTSUS 8542.39.0001

Additional Information

Other Names

-296-18098-1

-CLVTH16245AQDGGREP-NDR

296-18098-1-NDR

296-18098-2

296-18098-1

296-18098-2-NDR

296-18098-6

-296-18098-1-DG

296-18098-6-NDR

V62/04602-01YE

-V62/04602-01YE

Standard Package

2,000

Alternative Parts

View Details

PART NUMBER

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74LVTH16245MEA

onsemi

3307

74LVTH16245MEA-DG

1.7306

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Reviews

5.0/5.0-(Show up to 5 Ratings)

愛***者

Dec 02, 2025

5.0

我對DiGi Electronics的配送時間非常滿意，且售後服務持續提供專業協助。

陽***園

Dec 02, 2025

5.0

物流運送速度快，追蹤資訊即時更新，非常安心的購物體驗。

Her***sang

Dec 02, 2025

5.0

Ich bin seit Jahren Kunde und immer zufrieden mit der Qualität und dem Support.

Bloss***rigade

Dec 02, 2025

5.0

Their support team is always available and eager to assist.

Shin***Stars

Dec 02, 2025

5.0

Their pricing is very reasonable, and I always find what I need at a great price.

Gentl***urney

Dec 02, 2025

5.0

I find their pricing to be very honest and the product quality consistently excellent.

Pure***mony

Dec 02, 2025

5.0

Their customer service is not just professional but also genuinely helpful and friendly.

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Frequently Asked Questions (FAQ)

When designing a 3.3V bidirectional data bus interface for an industrial control system, how does the CLVTH16245AQDGGREP compare to the 74LVT16245BDGG in terms of noise margin and signal integrity under long trace routing?

The CLVTH16245AQDGGREP offers improved noise margin over the 74LVT16245BDGG due to its tighter input hysteresis and lower output transition times, making it better suited for long PCB traces or noisy industrial environments. While both parts operate at 2.7V–3.6V, the CLVTH16245AQDGGREP’s enhanced output drive (24mA sink/source) and faster edge rates reduce susceptibility to crosstalk and ground bounce. For designs with trace lengths exceeding 6 inches or operating near switching power supplies, the CLVTH16245AQDGGREP provides more robust signal integrity—provided proper termination and grounding are implemented to manage increased EMI from faster edges.

Can the CLVTH16245AQDGGREP safely replace a legacy 74LVT162245MTDX in a mixed-voltage system where one side runs at 2.5V and the other at 3.3V, and what are the risks if voltage translation isn't fully level-shifted?

The CLVTH16245AQDGGREP is not recommended for direct replacement in true mixed 2.5V/3.3V systems without additional level-shifting circuitry. Although it tolerates inputs up to 5.5V, its internal logic thresholds are optimized for 3.3V operation, and applying 2.5V signals may result in undefined logic states or increased propagation delay due to marginal VIH compliance. In contrast, the 74LVT162245MTDX has better low-voltage input compatibility. If you proceed with the CLVTH16245AQDGGREP, validate logic thresholds across temperature and supply variation, and consider adding series resistors or dedicated level translators to avoid intermittent failures during power-up sequences or voltage droop events.

What thermal and layout considerations should I account for when using the CLVTH16245AQDGGREP in a high-density automotive PCB with ambient temperatures reaching 110°C, given its 48-TSSOP package and 24mA output drive?

In high-temperature automotive applications, the CLVTH16245AQDGGREP’s 48-TSSOP package requires careful thermal management despite its MSL-1 rating. At 110°C ambient and full 24mA loading on all 16 outputs, junction temperatures can exceed 140°C without adequate copper pour or thermal vias under the exposed pad (if present). Ensure the PCB uses a 2oz copper ground plane connected to the device’s thermal pad, and avoid placing heat-sensitive components nearby. Also, derate output current by 20–30% at elevated temperatures to prevent electromigration and ensure long-term reliability. Monitor simultaneous switching output (SSO) noise, as high di/dt at temperature extremes can couple into adjacent analog circuits.

How does the CLVTH16245AQDGGREP behave during hot-swapping or live insertion scenarios compared to the 74LVT162245BDL, and what protection circuitry is essential to prevent latch-up or I/O damage?

The CLVTH16245AQDGGREP lacks built-in hot-swap protection and is more susceptible to latch-up during live insertion than the 74LVT162245BDL, which includes enhanced ESD structures and Ioff partial-power-down protection. When using the CLVTH16245AQDGGREP in hot-swap applications, you must add external TVS diodes on all I/O lines, series current-limiting resistors (10–33Ω), and ensure power sequencing that avoids floating inputs. Without these mitigations, transient voltage spikes or ground bounce during insertion can trigger parasitic SCR structures in the CMOS die, leading to functional failure or thermal runaway—especially problematic in backplane or modular systems.

Is the CLVTH16245AQDGGREP a drop-in replacement for the older 74LVT16245BDL,118 in a telecom line card design, and what subtle timing or power sequencing issues might arise during system power-up?

While pin-compatible and functionally similar, the CLVTH16245AQDGGREP is not a guaranteed drop-in replacement for the 74LVT16245BDL,118 due to differences in power-up behavior and output enable (OE) response timing. The CLVTH16245AQDGGREP may exhibit slower OE disable times under low VCC ramp conditions (<1ms), risking bus contention during system initialization. In telecom line cards with multiple transceivers, this can cause momentary short circuits on shared buses. To mitigate, implement a centralized power-good signal to delay OE assertion until all supplies are stable, and verify timing margins across the full -40°C to 125°C range. Also, confirm that your system’s quiescent current budget accommodates the CLVTH16245AQDGGREP’s slightly higher ICC during state transitions.

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