SN65LVDS1DBVRIn StockTexas Instruments
SN65LVDS1DBVR is a single-channel LVDS receiver by Texas Instruments supporting 400Mbps data rate, 3.3V supply, SOT-23-5 package, from $1.38 in stock with worldwide shipping
- Manufacturer
- Texas Instruments
- Package
- SOT-23
- Pin Count
- 5
- Lifecycle
- ACTIVE
- Datasheet
- N/A
- Category
- interface-ics
- Price
- From $0.7425(MOQ 1)
- Temp Range
- -40.0°C to 85.0°C
- RoHS
- Compliant
- Lead Time
- 3–7 business days
- Shipping
- DHL Express · Worldwide
Key Features
- 400Mbps maximum data rate for high-speed differential signaling
- Compact SOT-23-5 package ideal for space-constrained designs
- 3.3V single-supply operation (3.0V to 3.6V range)
- Industrial temperature range -40°C to +85°C
- LVDS standard compliant receiver with low power consumption
Applications
SN65LVDS1DBVR is used in high-speed data transmission systems including industrial automation, medical imaging, and telecommunications equipment. It suits point-to-point differential links in PCB designs requiring reliable signal integrity at distances up to several meters.
Specifications
| Data Rate | 400Mbps |
| Supply Voltage | 3.0V to 3.6V |
| Interface Standard | LVDS |
| Number of Channels | 1 |
| Package | SOT-23-5 |
| Package | SOT-23 |
Compliance & Regulatory
| RoHS Status | Compliant |
Alternate & Equivalent Parts
No known alternates. Submit an RFQ and our team can suggest alternatives.
Frequently Asked Questions
What is the maximum data rate of SN65LVDS1DBVR?
The SN65LVDS1DBVR supports a maximum data rate of 400Mbps, making it suitable for high-speed differential signal reception in industrial and communications applications.
What supply voltage does the SN65LVDS1DBVR require?
The SN65LVDS1DBVR operates from a single 3.3V supply with a range of 3.0V to 3.6V, compatible with standard 3.3V digital logic systems.
What package and pin count does SN65LVDS1DBVR come in?
The SN65LVDS1DBVR is available in a compact SOT-23-5 surface-mount package with 5 pins, ideal for space-constrained PCB designs.
What is the operating temperature range of SN65LVDS1DBVR?
The SN65LVDS1DBVR operates over an industrial temperature range of -40°C to +85°C, suitable for demanding environments including automotive and industrial applications.
What are typical applications for the SN65LVDS1DBVR?
Typical applications include high-speed point-to-point data links, industrial automation systems, medical imaging equipment, and telecommunications infrastructure where LVDS differential signaling is required for noise-immune data transmission.
Related Guides
BOM Optimization: How to Reduce Electronic Component Costs Without Sacrificing Quality
Practical strategies for reducing BOM costs by 15-30% through smart component selection, supplier diversification, and procurement optimization.
Apr 9, 2026
Top 10 Microcontrollers in 2025: A Comprehensive Comparison Guide
Detailed comparison of the most popular MCUs in 2025 — STM32, ESP32, RP2040, nRF52, and more. Specs, pricing, ecosystem, and use-case recommendations.
Apr 9, 2026
How to Read an IC Datasheet: A Practical Guide for Engineers
Master the art of reading IC datasheets. Learn what every section means, which specs matter most, and how to extract the information you need for your design.
Apr 9, 2026
Understanding the 2025 Chip Shortage: Which Components Are Affected and What to Do
Analysis of the current semiconductor supply landscape, which components face extended lead times, and strategies for engineers and procurement teams.
Apr 9, 2026
Why Buy from FindMyChip
About Texas Instruments
Texas Instruments (TI) is a global semiconductor company headquartered in Dallas, Texas. TI designs and manufactures analog and embedded processing chips used in industrial, automotive, consumer, communications, and enterprise systems.
| Qty. | Unit Price | Ext. Price |
|---|---|---|
| 1+ | $1.3750 | $1.38 |
| 25+ | $1.1900 | $29.75 |
| 69+ | $0.8250 | $56.92 |
| 183+ | $0.7425 | $135.88 |
In Stock · 24h Response · Worldwide Shipping
Response within 24 hours · Worldwide shipping
“Their engineering team helped us find a pin-compatible alternative when our original MCU went EOL.”