SN65LVDS303ZQER

Product Overview

Use

It is primarily used for high-speed data transmission in various applications, including but not limited to automotive, industrial, and consumer electronics.

Characteristics

Low voltage operation: Operates at low voltage levels, typically around 3.3V.
High-speed data transmission: Capable of transmitting data at high speeds, ensuring efficient communication.
Noise immunity: Provides excellent noise immunity, allowing reliable data transmission even in noisy environments.
ESD protection: Offers built-in electrostatic discharge (ESD) protection, safeguarding the device from damage caused by static electricity.
Wide temperature range: Designed to operate reliably across a wide temperature range, making it suitable for various environments.
Small package size: Comes in a compact package, enabling space-saving designs.

Package and Quantity

SN65LVDS303ZQER is available in a small form factor package, such as QFN (Quad Flat No-leads), with a specific pin configuration. It is typically sold in reels or trays, with varying quantities depending on the supplier.

Specifications

Supply voltage: 3.0V to 3.6V
Data rate: Up to 400 Mbps
Operating temperature range: -40°C to +85°C
Number of channels: 3
Input/output voltage range: ±1V
ESD protection: >8kV (HBM)
Package type: QFN-16

Pin Configuration

The detailed pin configuration of SN65LVDS303ZQER is as follows:

| Pin Number | Pin Name | Description | |------------|----------|-------------| | 1 | VCC | Power supply voltage | | 2 | GND | Ground reference | | 3 | IN1P | Non-inverting input for channel 1 | | 4 | IN1N | Inverting input for channel 1 | | 5 | OUT1P | Non-inverting output for channel 1 | | 6 | OUT1N | Inverting output for channel 1 | | 7 | IN2P | Non-inverting input for channel 2 | | 8 | IN2N | Inverting input for channel 2 | | 9 | OUT2P | Non-inverting output for channel 2 | | 10 | OUT2N | Inverting output for channel 2 | | 11 | IN3P | Non-inverting input for channel 3 | | 12 | IN3N | Inverting input for channel 3 | | 13 | OUT3P | Non-inverting output for channel 3 | | 14 | OUT3N | Inverting output for channel 3 | | 15 | NC | No connection | | 16 | GND | Ground reference |

Functional Features

LVDS signaling: Implements the LVDS standard, which provides high-speed and low-power differential signaling.
Differential inputs/outputs: Utilizes differential signaling to improve noise immunity and reduce electromagnetic interference.
Wide operating voltage range: Supports a wide range of supply voltages, allowing flexibility in various applications.
Power-down mode: Includes a power-down feature to conserve power when the device is not actively transmitting or receiving data.
Built-in termination resistors: Integrates on-chip termination resistors, simplifying the design and reducing external component count.

Advantages and Disadvantages

Advantages

High-speed data transmission capability
Excellent noise immunity
Compact package size
Wide temperature range operation
Built-in ESD protection

Disadvantages

Limited number of channels (3 in this case)
Requires careful PCB layout for optimal performance

Working Principles

SN65LVDS303ZQER operates based on the LVDS standard, which uses differential signaling to transmit data. The device receives parallel data inputs and converts them into LVDS signals using internal circuitry. These LVDS signals are then transmitted differentially through the output channels.

The differential signaling provides several advantages, including improved noise immunity and reduced power consumption. The receiver section of the transceiver converts the received LVDS signals back into parallel data.

Detailed Application Field Plans

SN65LVDS303ZQER finds applications in various fields, including:

Automotive: Used for high-speed data transmission in automotive systems, such as infotainment systems, driver-assistance systems, and communication interfaces.
Industrial: Employed in industrial automation, control systems, and robotics for reliable and high-speed data communication between different components.
Consumer

Listen Sie 10 häufige Fragen und Antworten im Zusammenhang mit der Anwendung von SN65LVDS303ZQER in technischen Lösungen auf

Sure! Here are 10 common questions and answers related to the application of SN65LVDS303ZQER in technical solutions:

Question: What is SN65LVDS303ZQER?
- Answer: SN65LVDS303ZQER is a high-speed differential line driver and receiver designed for applications that require high data rates and low power consumption.
Question: What is the operating voltage range of SN65LVDS303ZQER?
- Answer: The operating voltage range of SN65LVDS303ZQER is typically between 3.0V and 3.6V.
Question: What is the maximum data rate supported by SN65LVDS303ZQER?
- Answer: SN65LVDS303ZQER supports a maximum data rate of up to 400 Mbps.
Question: Can SN65LVDS303ZQER be used in point-to-point or multi-point applications?
- Answer: Yes, SN65LVDS303ZQER can be used in both point-to-point and multi-point applications.
Question: Does SN65LVDS303ZQER support hot-plugging?
- Answer: No, SN65LVDS303ZQER does not support hot-plugging. It is recommended to power down the device before connecting or disconnecting it.
Question: What is the typical power consumption of SN65LVDS303ZQER?
- Answer: The typical power consumption of SN65LVDS303ZQER is around 20 mW.
Question: Can SN65LVDS303ZQER be used in automotive applications?
- Answer: Yes, SN65LVDS303ZQER is suitable for automotive applications as it meets the AEC-Q100 Grade 2 qualification.
Question: What is the operating temperature range of SN65LVDS303ZQER?
- Answer: The operating temperature range of SN65LVDS303ZQER is typically between -40°C and 85°C.
Question: Does SN65LVDS303ZQER have built-in ESD protection?
- Answer: Yes, SN65LVDS303ZQER has built-in ESD protection, which helps to safeguard against electrostatic discharge events.
Question: Can SN65LVDS303ZQER be used in low-power applications?
- Answer: Yes, SN65LVDS303ZQER is designed for low-power applications and features a power-down mode to minimize power consumption when not in use.

Please note that these answers are general and may vary depending on the specific application and requirements. It is always recommended to refer to the datasheet and consult with the manufacturer for detailed information.