Your ultimate guide to unlimited wireless internet speeds

The average 4G data speed is what you usually get on your mobile device, while the peak speed is the maximum data rate that the network can theoretically generate. The peak speed of a mobile connection is, therefore, the maximum data rate that can be obtained from the radio signal when the highest possible network configuration is used. For more related articles visit internet providers in Florida.

For example, in LTE networks, we can combine multiple channels using carrier aggregation, configure different QAM modulation levels in LTE/LTE-A/LTE-A-Pro, and use different antenna settings to achieve the maximum possible bit rate. The maximum bit rate is sent over the cell towers depending on the network configuration.

The bit rate received at the other end (e.g., on the cell phone) depends on the nature of the radio signal, e.g., obstacles, other radio signals, number of simultaneous users, etc. These factors reduce the overall achievable data rate that mobile users receive.

Unlimited Wireless Internet Speeds depend upon your locality.

The best chance of getting the maximum speed is if you are near your mobile operator's cell tower to avoid signal fading and if your device is the only one being served by one of the LTE radio units with that tower. Since the probability of this being the case is not very high, especially during peak hours when many people use the network simultaneously, the actual speeds (average speeds) are much lower. First, let's check the maximum speed 4G LTE networks can offer before looking at the actual speeds.

The impact of LTE on unlimited wireless internet

The maximum speed of 4G LTE networks depends on the network configuration. There are various combinations of channel bandwidth, and modulation methods can be used. If a 20 MHz channel with modulation of 64 QAM (quadrature amplitude modulation) is used, peak speeds of up to 300 Mbit/s in download and up to 75 Mbit/s in uplink can be achieved.

The downlink data rate helps with downloads, while the uplink data rate supports uploads. LTE is more efficient than 3G technologies and offers lower latency than 3G UMTS and CDMA2000 networks. LTE networks have been improved several times, including significant updates such as LTE-Advanced and LTE-Advanced Pro. LTE-Advanced can support peak download data rates of up to 1 Gbit/s, and LTE-Advanced Pro can offer maximum data rates of up to 3 Gbit/s. The average achievable speeds are significantly lower, which we will look at in this article.

5G the Fastest Unlimited Wireless Internet

5G networks operate on rarely used millimetre radio bands from 30 GHz to 300 GHz. Tests of 5G coverage in the millimetre-wave range have produced results. These are derived at a distance of about 500 meters from the transmission tower. Using small cells, the deployment of 5G with millimetre-wave-based carriers can improve overall coverage. Small cells can provide high-speed coverage with low latency when combined with beamforming.

Why 5G unlimited wireless Internet is fastest

Low latency is one of the most important features of 5G. 5G uses a scalable orthogonal frequency division multiplexing (OFDM) technique. 5G benefits significantly from this and can have latency as low as one millisecond. The realistic estimates are as low as 1 to 10 seconds. 5G is estimated to be 60 to 120 times faster than the average 4G latency.

Active 5G antennas, encapsulated with 5G Massive MIMO, are deployed for better connectivity and user experience. Large 5G array antennas are deployed to provide additional beamforming information and eliminate the propagation problems. These problems are usually associated with mm-Wave frequency ranges.

In addition, 5G networks, in conjunction with the network slicing architecture, enable telecom operators to offer customized connectivity to their users on-demand while meeting service level agreements (SLAs). Such tailored network capabilities include latency, data speed, reliability, quality, services, and security.