SN65EPT22DGKR Product Introduction:
Texas Instruments Part Number SN65EPT22DGKR(Logic - Translators, Level Shifters), developed and manufactured by Texas Instruments, distributed globally by Jinftry. We distribute various electronic components from world-renowned brands and provide one-stop services, making us a trusted global electronic component distributor.
SN65EPT22DGKR is one of the part numbers distributed by Jinftry, and you can learn about its specifications/configurations, package/case, Datasheet, and other information here. Electronic components are affected by supply and demand, and prices fluctuate frequently. If you have a demand, please do not hesitate to send us an RFQ or email us immediately sales@jinftry.com Please inquire about the real-time unit price, Data Code, Lead time, payment terms, and any other information you would like to know. We will do our best to provide you with a quotation and reply as soon as possible.
Introducing the Texas Instruments SN65EPT22DGKR, a high-speed differential line driver designed to provide exceptional performance and reliability in a wide range of applications. With its advanced features and robust design, this line driver is the perfect solution for demanding industrial, automotive, and telecommunications applications.
The SN65EPT22DGKR offers a wide operating voltage range of 2.375V to 3.8V, making it compatible with a variety of systems. It features a high-speed differential output that can drive signals up to 3.2Gbps, ensuring fast and accurate data transmission. The device also incorporates a built-in fail-safe circuitry that guarantees a high level of signal integrity even in the presence of noise and distortion.
This line driver is designed to operate in harsh environments, with a wide temperature range of -40°C to 85°C and a robust ESD protection of up to 8kV. It also features a small form factor and low power consumption, making it ideal for space-constrained applications.
The SN65EPT22DGKR is suitable for a wide range of applications, including high-speed data transmission, clock distribution, and signal amplification. It can be used in industrial automation systems, automotive infotainment systems, telecommunications equipment, and more.
In summary, the Texas Instruments SN65EPT22DGKR is a high-performance differential line driver that offers exceptional reliability and versatility. Its advanced features and robust design make it the perfect choice for a wide range of industrial, automotive, and telecommunications applications.
Translators and Level Shifters are electronic devices used in integrated circuits to convert signals. A converter is a circuit module that converts an input signal from one form or standard to another, commonly found in analog-to-digital converters (ADCs) and digital to analog converters (DACs), which are responsible for converting analog signals to digital signals or restoring digital signals to analog signals, respectively. The converter consists of key components such as sample and hold circuit, quantization encoding circuit, and reference power supply. The design principle is based on precise conversion technology of signal processing to ensure the accuracy and stability of signal conversion. A level shifter is a circuit specifically designed to adjust signal levels, commonly used for signal transmission between different voltage domains, such as converting low voltage signals into high voltage signals, or vice versa. The level shifter achieves precise control of signal levels by adjusting internal circuits to meet interface requirements between different circuits or systems.
Application
Translators and Level Shifters are used in various fields such as communication, audio and video processing, data acquisition, and automation control. In communication systems, converters are responsible for converting analog signals to digital signals, ensuring accurate transmission of information. In audio and video processing, converters are used for digital processing of audio signals and format conversion of video signals to improve audio and video quality. In addition, in the field of industrial automation, converters are commonly used for the acquisition and processing of various sensor signals, providing accurate data support for control systems. Level shifters are commonly used in hybrid voltage domain designs, such as FPGA, ASIC, and other high-performance integrated circuits, to address interface compatibility issues between different voltage standards. In applications such as microprocessors, DSPs, and high-speed interface circuits, level shifters can effectively avoid signal distortion or damage caused by voltage mismatch, ensuring the stable operation of the system.
Integrated Circuit: Different Classifications and Different Applications
Integrated Circuit (IC) is one of the core components of modern electronic technology and is widely used in various electronic devices. The invention of IC has greatly promoted the development of information technology, making electronic devices more compact, efficient and reliable.
ATMEGA328P-PU Microcontroller Introduction and Frequently Asked Questions
The ATMEGA328P-PU is a high-performance microcontroller used in a wide range of embedded systems and projects. Produced by Microchip Technology Inc. (formerly Atmel Corporation), this microcontroller is popular among creators, engineers, and students for its power, flexibility, and ease of use.
IC 7404 Pin Diagram, Equivalents and Applications
The 7404 Hex Inverter, part of the 7400 series, is specifically used as a hex inverter. It is widely used in various electronic circuits due to its simplicity and reliability. The primary function of the 7404 IC is to invert the input signal; if the input is high, the output will be low, and vice versa.
Ring Counter: Working Principle, Truth Table, Diagram
What is a Ring Counter? A ring counter is a type of sequential logic circuit that is commonly used in digital systems. It consists of a series of flip-flops connected in a circular fashion, where the output of one flip-flop is the input of the next, and the last flip-flop's output is fed back to the first flip-flop's input.