XRT91L31ES Product Introduction:
MaxLinear, Inc. Part Number XRT91L31ES(Clock/Timing - Application Specific), developed and manufactured by MaxLinear, Inc., 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.
XRT91L31ES 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 XRT91L31ES, the latest cutting-edge product from MaxLinear, Inc. This advanced device is designed to revolutionize the world of high-speed data transmission and networking. With its exceptional features and versatile application fields, the XRT91L31ES is set to become an indispensable tool for professionals across various industries.
Equipped with state-of-the-art technology, the XRT91L31ES offers lightning-fast data transfer speeds, ensuring seamless connectivity and efficient communication. Its high-performance capabilities make it ideal for applications such as data centers, telecommunications, and enterprise networking. Whether you need to transmit large volumes of data or establish reliable connections, the XRT91L31ES is the perfect solution.
One of the standout features of the XRT91L31ES is its exceptional signal integrity. With advanced equalization and adaptive filtering techniques, this device ensures minimal signal distortion, resulting in crystal-clear data transmission. Additionally, its low power consumption and compact form factor make it an energy-efficient and space-saving choice for any setup.
The XRT91L31ES is also highly flexible, supporting a wide range of protocols and interfaces, including Ethernet, Fibre Channel, and InfiniBand. This versatility allows it to seamlessly integrate into existing systems and infrastructure, making it a cost-effective solution for businesses of all sizes.
In conclusion, the XRT91L31ES from MaxLinear, Inc. is a game-changer in the field of high-speed data transmission. With its exceptional features, versatile application fields, and unmatched performance, this device is set to redefine the way professionals connect and communicate. Experience the future of networking with the XRT91L31ES.
Clock/ Timing-Application Specific is designed for precise time control and measurement, and has shown unique value in many fields because of its high accuracy, stability and versatility. A dedicated clock/timing IC is an integrated circuit that integrates clock generation, time measurement, or time management functions. They produce a stable clock signal that can be used to synchronize various parts of the system, or to record and manage time information such as the date, time, and possible alarm Settings.
Application
Clock/ Timing-Application Specific provides stable and accurate time reference for electronic devices. In a digital system, the clock signal is the key to coordinating the synchronized work of various modules, which ensures that the data is transmitted and processed at the right moment. The timing function enables the device to record and manage time information, such as timing switch, record event time stamp, etc. In addition, some advanced dedicated clock/timing ics also have temperature compensation, calibration and other features to improve the accuracy and stability of time measurement. Applications: Consumer electronics, communication equipment, industrial control, automotive electronics, computers and servers, etc.
FAQ about Clock/Timing - Application Specific
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1. What ICs are used in digital clocks?
ICs used in digital clocks include LM8361, LM8363, LM8365, LM8560, and MM5456. These ICs are mainly used for the timing and display functions of digital clocks.
LM8361, LM8363, and LM8365 use a common cathode display board, while LM8560 and MM5456 use a dual power supply display pole, which has the characteristics of fewer pins, 28 and 22 pins 1 respectively. In addition, digital clocks may also use other types of ICs, such as DS1629, SY75572LMG, AD9522-5BCPZ, etc. These ICs have different functions and characteristics and are suitable for different application scenarios.
The basic components of a digital clock include four parts: a multivibrator, a counter, a decoder, and a digital display. The multivibrator is used to generate a second pulse signal, the counter is used to record seconds, minutes, and hours, the decoder converts the output of the counter into a digital display, and the digital display is used to display the time.
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2. What is a Clock/Timing-Application Specific IC?
Clock/Timing-Special Applications are designed for precise time control and measurement, and show unique value in many fields due to their high accuracy, stability and versatility. Specialized clock/timing ICs are integrated circuits that integrate clock generation, time measurement or time management functions. They generate stable clock signals that can be used to synchronize various parts of the system, or record and manage time information such as date, time and possible alarm settings.
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3. What is a clock IC on a motherboard?
A clock IC on a motherboard is an integrated circuit used to generate and manage clock signals in electronic devices. It is an important component in electronic devices, used to synchronize the work of various modules so that electronic devices can complete various operations in a predetermined time sequence. The clock IC generates a stable frequency signal through a crystal oscillator, and generates the required clock frequency through frequency division and frequency multiplication circuits.
On the motherboard, the clock IC is usually combined with a specific crystal oscillator (such as a 14.318MHz crystal oscillator) to jointly generate a clock signal with a frequency of 14.318MHz. This signal is the basis for various operations of the computer, such as data transmission, calculation, etc., so the clock IC can be said to be one of the important components of computer operation.
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4. What kind of IC is used for a timer?
The commonly used ICs for timers include 555 timer chips, 556 dual 555 timer chips, 74HC series chips, CD4000 series chips, RTC chips, and PLL chips.
The 555 timer chip is a common timing IC that is often used in timers, pulse generators, and oscillation circuits. It was launched by Signetics in 1971 and is widely used in the design of electronic circuits due to its ease of use, low price, and good reliability. A 555 timer can realize various functions by a 555 timer, including generating various timing signals and pulses, as a delay device, trigger or oscillator, etc.
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5. Why is it called a timer IC?
Timer IC (Input Capture) is a function widely used in embedded systems, mainly used to measure parameters such as frequency, width and pulse count of input signals.
Timer IC (Input Capture) mode is a working mode of a general timer. When the channel input pin has a specified level jump, the current CNT value will be latched into CCR, which is often used to measure the frequency, duty cycle, pulse interval, level duration and other parameters of the PWM waveform. Each advanced timer and general timer has 4 input capture channels and can be configured as PWMI mode to measure frequency and duty cycle at the same time.
In STM32 microcontrollers, timers are not only used for basic timing functions, but also realize multiple functions through different working modes. For example, the frequency and width of the input signal can be measured through the input capture mode, and a specific waveform output can be generated through the output comparison mode.