Modular Connectors - Jacks With Magnetics
The ARJM11C7-517-NN-EW2 is an example of a modular connector that utilizes magnetics, a technology used in high-speed data transfer applications which enable network connection over long distances. It is a premier provider of next-generation data communications and networking products.
The ARJM11C7-517-NN-EW2 provides an interoperable category of connectors designed to enable high speeds. It uses common magnetics technology and offers exceptional density for high-speed data transmission over a single port. By utilizing a combination of contacts, wire strain relief, and magnetic connectivity, the ARJM11C7-517-NN-EW2 facilitates unmatched transmission performance at high speeds.
Magnetic jacks are highly reliable, use a standard form factor, and offer several advantages. The ARJM11C7-517-NN-EW2 supports the highest-speed applications without requiring an external power supply. It provides matched impedance for high-speed transmission. It also has a low crosstalk and insertion loss.
The ARJM11C7-517-NN-EW2 has an application field like Ethernet, Multimedia and KVM switches. It is the perfect product for today’s high speed applications, such as broadband, high-definition audio, video, and data transfer. The ARJM11C7-517-NN-EW2 is suitable for implementation in a variety of applications, including industrial settings, medical equipment, and applications requiring long-distance transmission.
The ARJM11C7-517-NN-EW2 has a working principle that involves the use of electromagnets, which are magnets that are electrically charged. An electrical current is used to generate a magnetic field, which is then used to transmit and receive data. The electrical current creates a field of magnetic lines which are used to store and transmit digital information. A receiver picks up the magnetic field and interprets the data. This technology is used to enable fast, accurate and secure transmission of data.
In summary, the ARJM11C7-517-NN-EW2 is a modular connector that utilizes magnetics, a technology used in high-speed data transfer applications which enable network connection over long distances. It offers exceptional density for high-speed data transmission over a single port, is highly reliable, has matched impedance for high-speed data transmission, low crosstalk and insertion loss and is suitable for a variety of applications including industrial settings, medical equipment, and long-distance data transfers. The working principle relies on the use of electromagnets which generate a magnetic field and are used to store and transmit digital information.