What do the six types of network jumper parameters mean?

　　The six types of network jumper parameters refer to a series of indicators used to describe and measure the performance of the six types of network jumpers. These parameters are essential to ensure the stability and reliability of the jumper during high-speed data tranSMission. The following is a detailed explanation of the six types of network jumper parameters:

　　Bandwidth: The bandwidth of the six types of network jumpers is usually up to 250MHz, which is an important indicator of its transmission capacity. The higher the bandwidth, the higher the data transmission rate the jumper can support.

　　Transmission rate: Six types of network jumpers support Gigabit Ethernet transmission, that is, the transmission rate can reach up to 1Gbps. This can meet the needs of Fast Ethernet and Gigabit Ethernet, ensuring fast and smooth data transmission.

　　Impedance: The standard impedance of the six types of network jumpers is 100 ohms. When the output impedance of the network device matches the impedance of the network cable, the signal minimizes reflection and loss, thus ensuring data integrity and accuracy.

　　Wire gauge and thickness: Six types of network jumpers usually use 23AWG or thinner wire gauges, which makes the network cable softer and lighter, making it easier to route in a small space. At the same time, thinner wire gauges can also reduce the occupancy of space, making the wiring more neat and beautiful.

　　Insulation and shielding performance: Although the sixth type of network jumper (unshielded type) itself does not have a metal shielding layer, it can still resist external electromagnetic interference to a certain extent through special insulating materials and stranded structures. This ensures the purity and stability of the signal.

　　Bending radius: Six types of network jumpers typically have a smaller bending radius, which means they can be turned and bent more flexibly during the wiring process to adapt to a variety of complex environments.

　　Length: The length of the six types of network jumpers can be customized according to actual needs, which is convenient for wiring and management. However, it should be noted that in 10/100/1000BASE-T systems, the maximum length is generally 100 meters. But in practical applications, environmental factors and equipment performance need to be considered, which may be shortened.

　　Other performance parameters: In addition to the above main parameters, the six types of network jumpers also include attenuation, near-end crosstalk, far-end crosstalk, attenuation to crosstalk ratio, summed near-end crosstalk/summed far-end crosstalk, return loss, transmission delay, delay difference and other performance indicators. These parameters together ensure the stability and reliability of the jumper during high-speed data transmission.

　　To sum up, the parameters of the six types of network jumpers are the key indicators to measure their performance. When selecting and using the six types of network jumpers, these parameters and the requirements of practical application scenarios need to be comprehensively considered to ensure the stability and reliability of data transmission.