MAX3814CHJ+T Integrated Circuits (ICs) |
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Allicdata Part #: | MAX3814CHJ+TTR-ND |
Manufacturer Part#: |
MAX3814CHJ+T |
Price: | $ 0.00 |
Product Category: | Integrated Circuits (ICs) |
Manufacturer: | Maxim Integrated |
Short Description: | IC DRVR/EQUALIZER CABLE 32-TQFP |
More Detail: | Cable Equalization Interface 32-TQFP (5x5) |
DataSheet: | MAX3814CHJ+T Datasheet/PDF |
Quantity: | 2500 |
Series: | -- |
Packaging: | Tape & Reel (TR) |
Part Status: | Active |
Applications: | Cable Equalization |
Interface: | -- |
Voltage - Supply: | 3 V ~ 3.6 V |
Package / Case: | 32-TQFP |
Supplier Device Package: | 32-TQFP (5x5) |
Mounting Type: | Surface Mount |
Base Part Number: | MAX3814 |
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MAX3814CHJ+T plays a very important role in the field of interface-specialized, meaning that this integrated circuit combines the features of a charge pump and a transceiver into a single hardware system. This chip can be used in many applications such as direct driver logic, cell phone-data transfer and clock generation. The advantages of this single integrated system include faster operation, cost savings, reduced space and faster installation.
The MAX3814CHJ+T is designed to meet interface standards such as RS-232, USB, FireWire, and infrared. It also offers a wide range of features, such as the ability to control pulse widths, to create low-power clock signals, to control data transfer speeds and to generate two-phase differential waves. With these features, the chip can be used in many different applications across different industries.
The working principle of the MAX3814CHJ+T is based on the transceiver principle, which is a type of digital technology. In this system, the data is encoded into a series of 0s and 1s so that it can be transmitted over a communications link. At the receiver end, the data is decoded into analog electrical signals. This process is necessary for reliable communication between two computers or any other device.
At the heart of the MAX3814CHJ+T is the charge pump, which is responsible for converting the digital data into a series of electrical pulses. The charge pump works by converting an electrical pulse, such as that from a logic gate, into a series of pulses with a changing voltage level. The pulses are then transmitted to the next device, and then reconstructed back into the digital data. This process allows the data to be transferred quickly and accurately between two computers.
The MAX3814CHJ+T is also equipped with a transceiver which handles the data transfer. The transceiver is responsible for sending data over a specific frequency and uses the amplified electrical signals to communicate the data. The transceiver is capable of operating over a wide range of frequencies, allowing for fast and reliable data transmission.
The MAX3814CHJ+T also incorporates digital-to-analog conversion technology, which enables it to convert the incoming digital data into an analog electrical signal. This process allows both the sender and the receiver to be synchronous with each other. This is beneficial for communication systems, since it allows for the accurate transfer of data.
Finally, the MAX3814CHJ+T is also able to generate low-power clock signals. This feature allows for the synchronized transmission of data, even in cases where there is a varying time delay due to changes in the conditions of the cable. By being able to generate low-power clock signals, it reduces the risk of data loss due to delays caused by the cable.
The MAX3814CHJ+T is a powerful and versatile integrated circuit, capable of performing a variety of tasks in the field of interface-specialized. It combines the features of a charge pump and a transceiver into a single hardware system, allowing for faster operation, cost savings, reduced space and faster installation. Its working principle is based on the transceiver principle and it can be used in many different applications across different industries. Its ability to control pulse widths, to create low-power clock signals, to control data transfer speeds and to generate two-phase differential waves make it a great choice for the interface-specialized field.
The specific data is subject to PDF, and the above content is for reference
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