SN65MLVD040RGZR

Name: SN65MLVD040RGZR
Brand: Texas Instruments
Rating: 4.5 (10 reviews)
Author: Lisleapex

The SN65MLVD040RGZR is ideal for applications requiring high-speed, low-voltage differential signaling

4,088 Effective Inventory

SN65MLVD040RGZR

Effective Inventory4,088

The SN65MLVD040RGZR is ideal for applications requiring high-speed, low-voltage differential signaling

Manufacturer Part # : SN65MLVD040RGZR
Package/Case: VQFN (RGZ)-48
Brand: Texas Instruments
Product Categories : Drivers, Receivers, Transceivers
Series : 65MLVD040

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SN65MLVD040RGZR DataSheet

Current price plan is under preparation. Please contact our customer service team for the latest pricing information. Thank you for your understanding and support!

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SN65MLVD040RGZR Details

The SN65MLVD040RGZR is a low-voltage differential signaling (LVDS) driver from Texas Instruments, designed for high-speed data transmission in communication and industrial applications. This driver features low power consumption, wide operating voltage range, and built-in ESD protection, making it suitable for demanding and noise-sensitive environments.

Pinout

1 (Y1): Data Output Channel 1
2 (Y2): Data Output Channel 2
3 (GND): Ground
4 (VCC): Positive Power Supply
5 (EN): Enable Pin

(Tip: For detailed pinout information, please refer to the corresponding datasheet.)

Key Features

High-Speed Data Transmission: Supports high-speed data rates for efficient communication.
Low Power Consumption: Designed for low power operation, reducing energy usage.
Wide Operating Voltage Range: Operates over a wide voltage range, enhancing flexibility in various applications.
Built-in ESD Protection: Provides ESD protection for reliable operation in harsh environments.
Industrial Grade: Suitable for industrial applications requiring robust and reliable data transmission.

Application

Communication Systems: Ideal for high-speed data transmission in communication networks.
Industrial Automation: Used in industrial automation systems for robust and noise-resistant communication.
Data Acquisition: Suitable for data acquisition systems where high-speed and reliable data transmission is essential.

Where to Use

The SN65MLVD040RGZR is suitable for applications requiring high-speed and reliable data transmission, especially in communication and industrial environments. It is ideal for systems where low power consumption and noise immunity are important.

How to Use

Connect the SN65MLVD040RGZR to your LVDS communication bus by wiring the data output channels and power supply pins to the respective connections. Ensure proper power supply connections and use the enable pin for control. For detailed usage instructions, refer to the datasheet.

Application Circuit

The application circuit diagram for the SN65MLVD040RGZR illustrates how to connect the LVDS driver to a communication system. It includes connections for power supply, ground, data outputs, and enable pin, ensuring proper operation and communication integrity.

(Tip: For detailed circuit diagram connections and usage guide, refer to the datasheet.)

Equivalents

DS90LV048ATMTX/NOPB: A similar LVDS driver with comparable features and performance from Texas Instruments.
MAX9201EUE/V+: An alternative LVDS driver offering equivalent functionality and specifications.

Complementary

The SN65MLVD040RGZR can be complemented by the SN65MLVD204A, which offers additional features such as multiple output channels and enhanced data rates, suitable for more demanding communication applications.

When selecting complementary drivers, ensure that their features and specifications align with your specific application requirements for optimal performance and compatibility.

Frequently Asked Questions

Q: What is the maximum data rate supported by the SN65MLVD040RGZR?

A: The SN65MLVD040RGZR supports data rates up to 400Mbps. For more details, refer to the datasheet for specific operating conditions and limitations.

Q: Can the SN65MLVD040RGZR withstand industrial environmental conditions?

A: Yes, the SN65MLVD040RGZR is designed for industrial applications and features robust construction to withstand harsh environmental conditions, ensuring reliable data transmission.

Specifications

The followings are basic parameters of the part selected concerning the characteristics of the part and categories it belongs to.

Function	Transceiver	Protocols	M-LVDS
Number of transmitters	4	Number of receivers	4
Supply voltage (V)	3.3	Signaling rate (MBits)	250
Input signal	LVTTL, M-LVDS	Output signal	LVTTL, M-LVDS
Rating	Catalog	Operating temperature range (°C)	-40 to 85

Datasheet PDF

Datasheets record the features, absolute maximum ratings, applications and more of the device, which benefit a lot as an overall guide to the specific application of the part.

Preliminary Specification SN65MLVD040RGZR PDF Download

FAQs

What is SN65MLVD040RGZR?

The SN65MLVD040RGZR is a quad low-voltage differential signaling (LVDS) receiver designed by Texas Instruments. It is suitable for applications requiring high-speed data transmission with low power consumption, such as point-to-point links, communication systems, and high-speed networking.

How Does SN65MLVD040RGZR Work?

The SN65MLVD040RGZR works by receiving LVDS signals and converting them into standard CMOS/TTL levels. It utilizes a differential input with built-in fail-safe biasing to ensure reliable signal reception. The receiver is designed to operate at lower supply voltages while maintaining high-speed data transmission capabilities.

How Many Pins does SN65MLVD040RGZR have and What are the Functions of the Pinout Configuration?

The SN65MLVD040RGZR is housed in a 16-pin VQFN (Very Thin Quad Flat No-Lead) package. The pinout configuration includes:

A1, A2, A3, A4: Differential input pairs for Channel 1, 2, 3, and 4.
Y1, Y2, Y3, Y4: LVDS data output pairs for Channel 1, 2, 3, and 4.
GND: Ground pin.
VCC: Power supply pin.
EN1, EN2: Enable input pins for Channel 1 and 2.
DE/SEL: Device enable/select pin.

What are the Pros and Cons of SN65MLVD040RGZR?

Pros:

High-Speed Data Transmission: Supports high data rates, suitable for high-speed communication links.
Low Power Consumption: Operates at low supply voltages, reducing power consumption.
Fail-Safe Biasing: Built-in fail-safe biasing ensures reliable signal reception.
Quad Channel Option: Provides four independent LVDS input channels for flexibility in applications.
Small Package: The VQFN package offers a compact footprint for space-constrained designs.

Cons:

External Components: May require external termination resistors and capacitors for optimal signal integrity.
Complexity: Requires careful board layout and signal integrity design for high-speed applications.
Application Specific: Designed specifically for LVDS signal reception, may not be suitable for single-ended signal applications.

Are There Any Equivalents/Alternatives to SN65MLVD040RGZR for Recommendation?

The DS90CF384 from Texas Instruments is a similar quad LVDS receiver with features comparable to the SN65MLVD040RGZR.
Alternatives to the SN65MLVD040RGZR include the SN65LVDS4 and SN65LVDT41 from Texas Instruments.