We use the correlation amplitude to decide which 7.68 MHz wide snapshot encompasses the LTE signal center frequency. Once the signal in one snapshot is classified as LTE, two more snapshots are captured in order to cover 20 MHz, the maximum LTE bandwidth.
Read moreWhat is LTE raster?
The center frequency of an LTE carrier is assumed to be on a 100 kHz channel raster (known also as carrier grid) in order to allow the LTE UEs to search a limited number of carrier frequencies in the frequency bands they support and synchronize within a reasonable amount of time after being activated.18 May 2018
Read moreWhat is FR1 band?
FR1 (4.1 GHz to 7.125 GHz ) band of frequencies are used for carrying most of the traditional cellular mobile communications traffic, while the FR2 (24.25 GHz to 52.6 GHz) band of frequencies are focused on short-range, high data rate capabilities.23 Nis 2020
Read moreWhat are the mmWave bands?
Millimeter wave (MM wave), also known as millimeter band, is the band of spectrum with wavelengths between 10 millimeters (30 GHz) and 1 millimeter (300 GHz) . It is also known as the extremely high frequency (EHF) band by the International Telecommunication Union (ITU).
Read moreWhat is frequency raster?
The global frequency channel raster defines a set of RF reference frequencies . The RF reference frequency is used in signalling to identify the position of RF channels, SS blocks and other elements. The global frequency raster is defined for all frequencies from 0 to 100 GHz.
Read moreWhat are FR1 and FR2 bands?
FR1 defines bands in the sub-6 GHz spectrum (although 7125 MHz is the maximum) and FR2 defines bands in the mmWave spectrum . Because of the higher carrier frequencies in FR2, it has a higher maximum bandwidth. Bandwidths include 5-100 MHz (FR1) and 50/100/200/400 MHz (FR2).
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