CEL - NET
CEL - NET
Embedded Files
Cellular internet for homes, or home cellular internet, utilises the same infrastructure as mobile networks but is optimised for stationary use. It involves the installation of an outdoor antenna or receiver that connects to nearby cellular towers, allowing for reliable and high-speed internet access within the home.
One of the main advantages of cellular internet for homes is its widespread coverage. Cellular networks have extensive coverage in many areas, including both urban and rural regions, making them accessible to a wide range of users.
This technology is also used for your phone to take calls and use the internet outside.
TYPES OF NETWORKS BELOW:
5G
5G, or Fifth Generation, wireless technology represents the latest advancement in wireless connectivity. It offers even faster speeds, lower latency, and increased capacity compared to 4G. 5G wireless home internet delivers broadband-like speeds in wireless
Audio and video streaming. In all quility
Carrier aggregation.
As fast as firbe optic
100+ Megabits-per-second (Mbps)
5G uses adaptive modulation and coding scheme (MCS) to keep the bit error rate (BLER) extremely low.
FASTEST CEL-NET YET
LTE
In telecommunications, long-term evolution is a standard for wireless broadband communication for mobile devices and data terminals, based on the GSM/EDGE and UMTS/HSPA standards. It improves on those standards' capacity and speed by using a different radio interface and core network improvements.
Audio and video streaming. LTE has faster download then 4G.
Real-time connection to services. With voice-over LTE, users can talk to others without. experiencing lag or jitter.
Even quicker speeds with LTE-Advanced.
Carrier aggregation.
4G
4G is the fourth generation of broadband cellular network technology, succeeding 3G and preceding 5G. A 4G system must provide capabilities defined by ITU in IMT Advanced.
Voice
Video Call
Mail
VOIP INTERNET,Video Streaming etc
3G
3G is the third generation of wireless mobile telecommunications technology. It is the upgrade over 2G, 2.5G, GPRS and 2.75G Enhanced Data Rates for GSM Evolution networks, offering faster data transfer, and better voice quality.
digital,
supported data,
GPS,
Video Conferencing,
Video on demand.
DISCONTINUED
2G
2G is a short notation for second-generation cellular network, a group of technology standards employed for cellular networks. 2G was commercially launched on the GSM standard in Finland by Radiolinja in 1991. After 2G was launched, the previous mobile wireless network systems were retroactively dubbed 1G.
SMS
picture messages
MMS.
DISCONTINUED ( NOT IN USE)
1G
1G refers to the first generation of cellular network technology. These are mobile telecommunications standards that were introduced in the 1980s and were superseded by 2G.
VOICE ONLY
2.4 KBPS
ANALOG
DISCONTINUED ( NOT IN USE)
SIM CARDS
PHYSICAL SIM
This card allows subscribers to use their mobile devices to receive calls, send SMS messages, or connect to mobile internet services.
You can use a SIM PIN to prevent access to cellular data networks. In order to use cellular data, you must enter the PIN whenever you swap SIM cards or restart your phone, If someone else takes your sim card and put sit in their phone this wont work till a pin is provided
E-SIM
An eSIM is a digital version of the physical SIM card—identifying your device virtually to provide a network connection. It's programmable remotely via software and is built into newer smartphones, meaning you wouldn't have to go purchase a new SIM card if you wanted to swap phones or wireless carriers.
You can use a SIM PIN to prevent access to cellular data networks. In order to use cellular data, you must enter the PIN whenever you swap SIM cards or restart your phone, If someone else takes your sim card and put sit in their phone this wont work till a pin is provided
SATELLITE
SATELLITE
Satellite internet provides internet connectivity by utilizing satellites in space to transmit and receive data signals. It serves as a crucial option for those living in remote or underserved areas where traditional wired connections are unavailable or impractical. In this explanation, we will explore how satellite internet works to deliver internet access to homes and businesses.
The process of satellite internet begins with the user's equipment, consisting of a satellite dish, a modem, and a computer or router. The satellite dish is installed on the user's property, typically on the roof or another elevated location with a clear line of sight to the satellite in space. The dish's purpose is to send and receive signals to and from the satellite.
When a user sends a request for data, such as opening a website or streaming a video, the data is transmitted from their device to the satellite dish via the modem. The modem then converts the digital data into a format suitable for satellite transmission.
The satellite dish then sends the data signals to the designated satellite in geostationary orbit or other specialized orbits. Geostationary satellites remain in a fixed position relative to the Earth's rotation, ensuring a stable connection. These satellites are positioned at high altitudes, approximately 35,786 kilometers (22,236 miles) above the Earth's equator.
(ON HOME/BUILDING )
(ON HOME/BUILDING )
(FROM SIP TO SATTLITE)
(FROM SIP TO SATTLITE)
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