Uninterrupted access to broadband Internet is an expectation of the latest technology trends. While many technologies, such as High Speed Internet Access (HSPA), Wireless Interoperability for Microwave Access (WiMAX) and Long Term Evolution (LTE) are promising and meet expectations, there are still numbers that penetrate rural areas in a transparent and cost-effective manner. “gap”.
Solving the previous situation is that there is a way to guide the broadband (tm unifi) Internet in the power supply in order to implement the network on the grid. The distribution of Internet data on the power line is called HomePlug or Powerline Broadband (BPL).
Electric Broadband! is an innovation in the latest technology trends. This technology is undoubtedly an encouraging and cost-effective model for broadband access to high-speed Internet, even in rural areas, as all households in the world have power lines.
Aware of the rapidly evolving communication landscape since the beginning of the Internet, broadband Internet is known as a mechanism for transmitting data over broadband channels. Or by plane. The broadband cable is called Asymmetric Digital Subscriber Line (ADSL), and the emerging broadband wireless technologies are Mobile WiMAX and LTE-Advanced. However, all of these technologies require a lot of infrastructure costs to meet the needs of the public. As a result, most of them are confined to urban areas, and the digital divide continues to dominate the Internet, and even in rural areas, the Internet cannot cover the public.
What is a large electric belt?
Contrary to technical barriers, new innovative technologies called “high-speed power” can reach rural areas even without the large infrastructure costs of transmitting Internet data through relatively high/intermediate frequency signals. . Broadband typically uses low frequency electrical signals to carry ordinary telephone and high frequency signals for transmission of data from the Internet, as shown by ADSL technology. The electronic filter separates two types of signals, with low frequencies pointing to your phone and higher frequencies pointing to your internet modem. The basic principle behind broadband technology is very simple: since the power line only passes through the low frequency portion of the power line, the data packet can be transmitted at a higher frequency.
How does this work?
The key technical concept of data transmission for broadband electrical technology is based on the basic concept of radio frequency (RF) energy, which is bundled on the same line as the line carrying the power. Since RF and electricity vibrate at different frequencies, there is no interference between the two, and the data packets transmitted by the RF are not lost due to the current. Broadband (tm unifi) electrical systems consume only a fraction of the entire grid. Typically, a power plant delivers electricity to a substation, which then distributes power through a 155K to 765K volt high voltage transmission line, independent of packet or RF transmission. The solution for broadband electrical technology is to avoid substations and high-voltage cables, and to focus on medium-voltage transmission lines that typically carry about 7,200 volts, which are then converted to 240 volts. Supply electricity to the family. In short, standard fiber optic lines are specifically designed for Internet transmission of data. These fiber lines will be connected to the medium voltage line. Repeaters are installed at these joint points to repeat data and increase transmission power. Couplings or special equipment will also be installed in the transformer to provide a data link around them. The digital data will then be carried by a 240 volt line that connects to the electrical outlet of the building or residential office and becomes the final point of distribution for the data.
Currently, residents and businesses have two options for connecting to the Internet. They can get a wireless transmitter that receives the wireless signal and sends it to the computer station, or can use the power line modem to use the broadband (tm unifi) for data filtering – broadband will reduce line noise to transmit data – and then send the data to the workstation. A wireless transmitter or broadband electronic modem can transmit signals to an end user or wireless computer (which may require a device with wireless LAN capability) or an electronic modem via a cable (requires cable) through an Ethernet modem
Technical advantages and business case
Given the widespread presence of electricity on a global scale, including in rural areas, high-speed electricity will be a ubiquitous technology that can reach rural areas and break the digital divide in communications.
Many benefits can be expected by deploying this technology. It’s affordable because it uses existing cables and sockets to avoid expensive data cabling installations – saving up to 75% on infrastructure investment. It is very convenient for the end user because each outlet in each room supports the Internet. Very easy to use, because you don’t need software, just plug and play. The technology is reliable and unaffected by wireless solutions with random service coverage. In addition, it provides a universal coverage solution that utilizes data rates up to 6 million bits per second.
One of the best business cases is that grid management solutions will become very effective after implementing broadband (tm unifi) electrical technology. Service companies can transfer data over power lines to better manage the system. Since this benefit is directly related to power management, utility companies are likely to invest more in high-speed power. Being able to control the grid through the grid will create a virtual workforce with less work time.