SN65LVDS386DGG

Product Overview

Category: Integrated Circuit (IC)

Use: The SN65LVDS386DGG is a low-voltage differential signaling (LVDS) driver/receiver IC. It is designed to transmit and receive high-speed digital signals over twisted-pair copper cables.

Characteristics: - Low power consumption - High data rates - Noise immunity - Wide operating temperature range - Small form factor

Package: The SN65LVDS386DGG is available in a 48-pin TSSOP package.

Essence: This IC serves as an interface between LVDS-compatible devices, enabling reliable and high-speed data transmission.

Packaging/Quantity: The SN65LVDS386DGG is typically sold in reels of 250 units.

Specifications

• Supply Voltage Range: 3V to 3.6V
• Data Rate: Up to 400 Mbps
• Operating Temperature Range: -40°C to +85°C
• Input Common-Mode Voltage Range: ±1V
• Output Voltage Swing: 350mV (minimum)
• Propagation Delay: 1.5ns (typical)

Pin Configuration

The SN65LVDS386DGG has a total of 48 pins. The following table provides a detailed pin configuration:

| Pin Number | Pin Name | Function | |------------|----------|----------| | 1 | VCC | Power supply voltage | | 2 | GND | Ground | | 3 | RXP | Positive differential receiver input | | 4 | RXN | Negative differential receiver input | | 5 | RXO | Receiver output | | ... | ... | ... | | 46 | TXP | Positive differential transmitter input | | 47 | TXN | Negative differential transmitter input | | 48 | TXO | Transmitter output |

Functional Features

• Differential signaling for noise immunity
• Built-in termination resistors for impedance matching
• High-speed data transmission
• Low power consumption
• ESD protection
• Compatible with LVDS standards

Advantages and Disadvantages

Advantages: - High data rates enable fast communication - Noise immunity ensures reliable signal transmission - Small form factor allows for space-efficient designs - Wide operating temperature range for versatile applications

Disadvantages: - Requires additional components for complete LVDS implementation - Limited to short-distance communication due to cable length restrictions

Working Principles

The SN65LVDS386DGG operates based on the LVDS signaling standard. It uses a differential voltage swing to transmit digital signals over twisted-pair copper cables. The IC incorporates built-in termination resistors to match the characteristic impedance of the transmission line, minimizing signal reflections and maximizing signal integrity.

When transmitting data, the IC accepts single-ended inputs and converts them into differential signals. On the receiving end, it receives differential signals and converts them back into single-ended outputs. This enables reliable and high-speed data communication between LVDS-compatible devices.

Detailed Application Field Plans

The SN65LVDS386DGG finds applications in various fields, including:

1. Industrial Automation: Used for high-speed data transmission in industrial control systems, PLCs, and motor drives.
2. Automotive Electronics: Enables communication between different automotive modules, such as infotainment systems, sensors, and displays.
3. Medical Equipment: Facilitates reliable data transfer in medical imaging devices, patient monitoring systems, and diagnostic equipment.
4. Communication Systems: Supports high-speed data links in telecommunications infrastructure, routers, and switches.
5. Consumer Electronics: Used in high-definition displays, gaming consoles, and audio/video equipment.

Detailed and Complete Alternative Models

1. SN65LVDS387DGG
2. SN65LVDS388DGG
3. SN65LVDS389DGG
4. SN65LVDS390DGG
5. SN65LVDS391DGG

These alternative models offer similar functionality to the SN65LVDS386DGG, with slight variations in specifications and pin configurations. Users can choose the most suitable model based on their specific requirements.

In conclusion, the SN65LVDS386DGG is a versatile LVDS driver/receiver IC that enables high-speed and reliable data transmission. Its low power consumption, noise immunity, and small form factor make it suitable for various applications across different industries.