Allicdata Part #: | PL586-58DC-ND |
Manufacturer Part#: |
PL586-58DC |
Price: | $ 0.00 |
Product Category: | Integrated Circuits (ICs) |
Manufacturer: | Microchip Technology |
Short Description: | IC CLOCK BUFFER 1:1 160MHZ DIE |
More Detail: | Clock Buffer/Driver IC 1:1 160MHz Die |
DataSheet: | PL586-58DC Datasheet/PDF |
Quantity: | 1000 |
1 +: | 0.00000 |
Series: | -- |
Packaging: | Tray |
Part Status: | Obsolete |
Type: | Buffer/Driver |
Number of Circuits: | 1 |
Ratio - Input:Output: | 1:1 |
Differential - Input:Output: | No/Yes |
Input: | Crystal |
Output: | LVPECL |
Frequency - Max: | 160MHz |
Voltage - Supply: | 2.97 V ~ 3.63 V |
Operating Temperature: | 0°C ~ 70°C |
Mounting Type: | Surface Mount |
Package / Case: | Die |
Supplier Device Package: | Die |
Due to market price fluctuations, if you need to purchase or consult the price. You can contact us or emial to us: sales@allicdata.com
Clock Buffers, Drivers, and other related products are special devices designed to control and regulate electrical signals. PL586-58DC is a special type of device developed to fulfil a wide variety of applications. This article will discuss the application fields and working principles of PL586-58DC.
PL586-58DC, otherwise known as a Clock Buffer, is usually a medium-sized device that can be categorized as ‘Semiconductor Memory’ or ‘Data Processing Device’. It is mainly used for regulating and controlling of electrical signals, especially those dealing with high performance. It works by converting input signals into output signals, such as from ‘Clock’ to ‘Data’ or from ‘Data’ to ‘Clock’. This signal conversion means that PL586-58DC can be used in various signal applications.
These applications range from signal distribution and signal integrity in telecommunications and embedded systems to high-speed signal routing applications like in computer monitors and television sets. PL586-58DC can also be used in wide-area network (WAN) applications like digital signal processor (DSP) applications, as well as in clock synchronization and time-critical purposes. Moreover, it is often used in low-power applications such as digital video recording (DVR).
Now let us take a closer look at the actual working principle of PL586-58DC. Essentially, the clock buffer is designed to transmit signals, over additional wires and devices, in order to to reduce the switching noise and crosstalk that often comes with signal transmission. The basic operating principle of PL586-58DC is that it utilizes a feedback loop to control the switching intervals between two or more signals, thus allowing for simultaneous transmission of signals without the noise and crosstalk typically associated with signal transmission. In addition, it can also help reduce latency, which can be important in applications such as establishing high bit-rates.
In addition to controlling latency and reducing switching noise, PL586-58DC also helps to establish communication between two or more devices by providing sync information about the electrical signals it is managing. It does this by monitoring the signal waveforms being used and then providing information about the time between pulses. This system can be used to ensure that the signals remain in synchronization and that the data being sent between the two devices remains accurate.
Furthermore, PL586-58DC also acts as a converter of signals, as it can be used to convert any type of input signal, such as audio or video, into the correct output format. For example, it can convert a USB signal into an S-Video signal. It also helps to improve signal quality by emphasizing certain frequencies, eliminating noise and crosstalk, and by improving signal reception.
In conclusion, PL586-58DC is an essential device for controlling and regulating the timing and quality of electrical signals. It is used in a wide range of applications, from signal transmission and processing to latency reduction and signal maintenance. It also acts as a converter, transforming an input signal into the appropriate output format. Finally, PL586-58DC can help to improve the quality of a signal by suppressing noise, crosstalk, and emphasizing certain frequencies.
The specific data is subject to PDF, and the above content is for reference
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