AM26LV32EMDREP

Texas Instruments

IC RECEIVER 0/4 16SOIC

4613 Pcs New Original In Stock

0/4 Receiver RS422, RS485 16-SOIC

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5.0 / 5.0 - (330 Ratings)

AM26LV32EMDREP

Name: Texas Instruments AM26LV32EMDREP
Brand: Texas Instruments
SKU: AM26LV32EMDREP
Price: 7.3647 USD
Availability: InStock
Rating: 5.0 (330 reviews)

Product Overview

1232076

DiGi Electronics Part Number

AM26LV32EMDREP-DG

Manufacturer

Texas Instruments

Manufacturer Product Number AM26LV32EMDREP

Description

IC RECEIVER 0/4 16SOIC

Inventory

4613 Pcs New Original In Stock

Detailed Description 0/4 Receiver RS422, RS485 16-SOIC

See all Drivers, Receivers, Transceivers

Datasheet AM26LV32EMDREP Datasheet

Quantity
Minimum 1

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Basic cost: USD 70.00

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In Stock (All prices are in USD)

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AM26LV32EMDREP Technical Specifications

Datasheet & Documents

Datasheets

Download AM26LV32EMDREP Product Specification (PDF)

HTML Datasheet

AM26LV32EMDREP-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

296-23926-1

-296-23926-1-NDR

296-23926-1-NDR

296-23926-2

296-23926-6-NDR

-V62/09602-01XE

296-23926-6

-AM26LV32EMDREP-NDR

-V62/09602-01XE-NDR

-296-23926-1-DG

296-23926-2-NDR

Standard Package

2,500

Alternative Parts

PART NUMBER

MANUFACTURER

QUANTITY AVAILABLE

DiGi PART NUMBER

UNIT PRICE

SUBSTITUTE TYPE

SP26LV432CN-L

MaxLinear, Inc.

2877

SP26LV432CN-L-DG

0.0736

MFR Recommended

DS26LV32ATM/NOPB

Texas Instruments

16571

DS26LV32ATM/NOPB-DG

0.0736

MFR Recommended

DS26LV32ATMX/NOPB

Texas Instruments

36515

DS26LV32ATMX/NOPB-DG

0.0736

MFR Recommended

SP26LV432CN-L/TR

MaxLinear, Inc.

812

SP26LV432CN-L/TR-DG

0.0736

MFR Recommended

Reviews

5.0/5.0-(Show up to 5 Ratings)

星***夢

de desembre 02, 2025

5.0

包裝細節做得很好，讓我覺得他們很在乎每個客戶體驗。

Wissen***aftWald

de desembre 02, 2025

5.0

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Ethe***lVibe

de desembre 02, 2025

5.0

Their after-sales service ensures I am never left in the dark after a transaction.

Qui***uest

de desembre 02, 2025

5.0

I appreciate the careful attention to packaging details which ensures safe delivery.

Brig***aves

de desembre 02, 2025

5.0

The shipping process was seamless and efficient, with timely updates from the company that kept me well-informed.

Bra***eart

de desembre 02, 2025

5.0

Navigation menu is well-structured, so I can browse different sections effortlessly.

Silen***reams

de desembre 02, 2025

5.0

DiGi's prices are very reasonable, and their customer service is always helpful and courteous.

Sunny***izons

de desembre 02, 2025

5.0

Their products demonstrate remarkable consistency, ensuring that every purchase meets high standards of performance and durability.

Ocea***eeze

de desembre 02, 2025

5.0

DiGi Electronics' focus on product consistency ensures I get reliable items every time.

Joy***Soul

de desembre 02, 2025

5.0

The delivery arrived ahead of schedule, and support was very helpful.

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Frequently Asked Questions (FAQ)

What are the key design risks when using the AM26LV32EMDREP in a 3.3V industrial RS-485 network with long cable runs, and how can I mitigate signal integrity issues without exceeding its supply voltage limits?

The AM26LV32EMDREP operates strictly within 3V to 3.6V, so powering it from a noisy 3.3V rail in long-cable industrial environments risks undervoltage during transient dips or overvoltage during surges—both of which can cause latch-up or data errors. To mitigate this, use a low-dropout regulator (LDO) with tight output tolerance (e.g., TPS7A3301) and add local 100nF + 10µF decoupling near the VCC pin. For signal integrity, ensure proper termination (120Ω at both ends), minimize stub lengths, and consider using shielded twisted-pair cables. The 35 mV hysteresis helps reject noise, but avoid routing digital lines parallel to the RS-485 traces to prevent crosstalk-induced false triggering.

Can the AM26LV32EMDREP reliably replace a MAX3485ESA+ in an existing 3.3V half-duplex RS-485 design, and what layout or biasing changes are required to maintain compliance with EIA-485 standards?

Yes, the AM26LV32EMDREP can replace the MAX3485ESA+ in most 3.3V half-duplex applications, but critical differences must be addressed: the AM26LV32EMDREP is a quad receiver only (no driver), so you’ll need an external driver like the SN65HVD72. Unlike the MAX3485’s integrated failsafe biasing, the AM26LV32EMDREP lacks internal bias resistors—you must add external pull-up/pull-down networks (typically 1kΩ to VCC and GND on A/B lines) to ensure a known idle state. Also, verify that your driver’s DE/RE timing aligns with the AM26LV32EMDREP’s propagation delay (~10 ns typical) to avoid bus contention during direction switching.

How does the AM26LV32EMDREP’s -55°C to 125°C operating range impact reliability in automotive or outdoor telecom enclosures, and what derating or thermal management practices should be followed despite its SOIC package?

While the AM26LV32EMDREP’s extended temperature range suits harsh environments, the 16-SOIC package has limited thermal dissipation (~90°C/W junction-to-ambient). In high-ambient scenarios (e.g., sealed outdoor enclosures reaching 85°C), power dissipation from input overdrive or ESD events can push the junction temperature beyond safe limits even with minimal quiescent current. Derate by ensuring ambient stays below 105°C and avoid sustained differential input voltages > ±12V. Use a ground plane under the package to improve heat spreading, and consider conformal coating for moisture protection—though MSL 1 allows unlimited floor life, condensation during thermal cycling can still cause corrosion if not sealed properly.

What are the hidden integration challenges when using the AM26LV32EMDREP in a multi-drop RS-422 system with mixed-voltage nodes, and how do I prevent ground potential differences from damaging the receiver inputs?

In multi-drop RS-422 systems with nodes powered from different supplies (e.g., 3.3V and 5V domains), ground offsets exceeding ±7V can violate the AM26LV32EMDREP’s absolute maximum input voltage (±14V differential, but only ±7V common-mode relative to ground). This risks latch-up or cumulative damage. Always use isolated RS-422 transceivers (e.g., ISO1500) or level-shifting techniques with galvanic isolation between nodes. If isolation isn’t feasible, ensure all grounds are bonded with low-impedance paths and limit cable length to reduce ground loops. Never rely solely on the receiver’s robustness—the AM26LV32EMDREP lacks integrated isolation, so system-level grounding strategy is critical for long-term reliability.

Is the AM26LV32EMDREP suitable for battery-powered field devices requiring ultra-low standby current, and how does its input leakage compare to alternatives like the SN65HVD3082E when idle?

The AM26LV32EMDREP is not optimized for ultra-low-power applications—its quiescent current (~1 mA typical) and input leakage (up to ±10 µA) are significantly higher than low-power alternatives like the SN65HVD3082E (1 µA shutdown current). In battery-powered field devices (e.g., remote sensors), this continuous draw can drastically reduce operational life. If you must use the AM26LV32EMDREP, disable unused receiver channels by tying their inputs to a valid logic level (via resistors) to minimize leakage paths, and consider adding a load switch to power down the entire IC during sleep modes. However, for new designs targeting multi-year battery life, evaluate pin-compatible low-power receivers such as the THVD2450 or SN65HVD3082E instead.

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