DS90C383BMT/NOPB
3.3V LVDS transmitter ICs for flat panel display interfaces
Manufacturer: ['national-semiconductor', 'rochester', 'ti']
series introduction
# DS90C383BMT/NOPB Product Series Introduction
## 1. Overview
The DS90C383BMT/NOPB belongs to a specialized product series that plays a crucial role in high - speed data transmission applications. It is designed to meet the demanding requirements of modern electronic systems, offering reliable and efficient data transfer solutions. This series is part of a family of integrated circuits that are engineered to handle high - speed differential signals, making them suitable for a wide range of industries such as automotive, industrial automation, and consumer electronics.
## 2. Key Features
### 2.1 High - Speed Data Transmission
One of the most prominent features of the DS90C383BMT/NOPB is its ability to support high - speed data rates. It can transmit data at rates up to [X] Mbps, which is essential for applications that require real - time data transfer, such as video streaming, high - speed imaging, and high - performance communication systems. This high - speed capability ensures that large amounts of data can be transferred quickly and accurately, reducing latency and improving overall system performance.
### 2.2 Differential Signaling
The product utilizes differential signaling technology. Differential signals are less susceptible to electromagnetic interference (EMI) compared to single - ended signals. This makes the DS90C383BMT/NOPB highly reliable in noisy environments. The differential pairs in the device help to cancel out common - mode noise, ensuring that the data transmitted is clean and error - free. This feature is particularly important in industrial and automotive applications where there are many sources of electromagnetic interference.
### 2.3 Low Power Consumption
In today's energy - conscious world, low power consumption is a critical factor. The DS90C383BMT/NOPB is designed with power efficiency in mind. It operates at a relatively low power supply voltage and has a low quiescent current. This not only reduces the overall power consumption of the system but also helps to extend the battery life in portable devices. Additionally, the low power operation generates less heat, which can improve the reliability and longevity of the device.
### 2.4 Wide Operating Temperature Range
The product is capable of operating over a wide temperature range, typically from [minimum temperature] to [maximum temperature]. This makes it suitable for use in harsh environments, such as automotive under - the - hood applications and industrial settings where temperature variations can be significant. The wide temperature range ensures that the device can maintain its performance and reliability even in extreme conditions.
### 2.5 ESD Protection
Electrostatic discharge (ESD) can cause damage to electronic components. The DS90C383BMT/NOPB is equipped with built - in ESD protection. It can withstand high levels of ESD, protecting the device from accidental electrostatic discharges during handling and operation. This feature enhances the robustness of the product and reduces the risk of component failure due to ESD events.
## 3. Functional Block Diagram and Working Principle
### 3.1 Functional Block Diagram
The DS90C383BMT/NOPB consists of several key functional blocks, including an input buffer, a serializer, a differential driver, and an output buffer. The input buffer receives the parallel data from the source device. The serializer then converts the parallel data into a high - speed serial data stream. The differential driver takes the serial data and converts it into differential signals for transmission over a differential pair. Finally, the output buffer provides the appropriate impedance matching and signal conditioning for the differential signals.
### 3.2 Working Principle
When the device is powered on, it first initializes its internal registers and circuits. The parallel data is fed into the input buffer, which prepares the data for serialization. The serializer uses a specific encoding scheme to convert the parallel
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