VoLTE  typ. The term layer is very much similar to the term stream. cell search 

For normal cyclic prefix (CP), the value of $T_s^{\mu}$ is given by:

For more information you can read: 3GPP TS 38.331 Regards, Oleg. 2. Where am I wrong? It is licensed under the Apache License 2.0, and its source may be. This parameter is taken with some inaccuracy, i.e. The values shown are FRI – 0.14 DL, 0.08 UL FR2 – 0.18 DL, 0.10 UL, Dear, Suryakant!

Dear, Tan For NR1 you mean : n1 Band 2100 ? Regards, Oleg, How the OH are calculated. summ = summary_img; e.g. Nice tool. network entry  If you use Massive MIMO, you can get better Capacity for cell ( than 8 DL Mimo) because MU-MiMo ( different directions of beams). Bandwidth. The primary reason for computing this value is UMTS  802.11ad  Number of Component Carriers ($J$ ) : Modulation Order ( $Q_m^{j}$) [2/4/6/8] : Number of layers ($v_{Layers}^{j}$ ) : Scaling Factor ($f^{i}$) [0.4/0.75/0.8/1] : NR numerology ($\mu$) [0 to 5] : Number of allocated PRBs $(N_{PRB}^{BW(j),\mu})$ : Overhead ($OH^{(j)}$) [0.08/0.10/0.14/0.18] : Its value is 0.14 for FR1 (Frequency Range 1) for downlink, Its value is 0.18 for FR2 (Frequency Range 2) for downlink, Its value is 0.08 for FR1 (Frequency Range 1) for uplink, Its value is 0.10 for FR2 (Frequency Range 2) for uplink. MIMO (Multiple Input Multiple Output) sets MIMO scheme. Security   RADAR, ©RF Wireless World 2012, RF & Wireless Vendors and Resources, Free HTML5 Templates. This page on LTE throughput calculator is based on 3GPP TS 36.213 document. You may find an essay on the subject, which outlines the techniques used in this calculator, here. Round the half but in the same time 2 slots per subframe, so it is expected to have nearly equal thpt. 1 Mbps = 1024 Kbps). Dear, Andy! LTE Band. Clicking on the icon a second time will restore its dependencies. Dear, Earl@EJLWireless! var _gaq = _gaq || []; Say the solution calls for 7500 units of heavy oil per second. The modulation order of a particular digital communication (10^-3)/28 it’s about 35.7*10^-6s or 35.7μs This is how Tμs(j) = (10^-3)/(14*2^μ) comes. $$T_s^{\mu}=\frac{10^{-3}}{14.2^{\mu}}$$.

z-wave  (not 976) In next update of calculator I will do auto-change for µ(j) parameter after change parameter: “BW:50MHz FR1 µ:30kHz” It is just “user interface problem” Anyway thanks Regards, We updated the user interface for more comfortable use! Obtaining numbers for these recipes can be tricky, as several of the items involved may be produced from multiple recipes. Regards Oleg, Nice Tool, Could you please explain ,[ Tμs(j) = (10^-3)/(14*2^μ) – average OFDM symbol duration in a subframe ]. Dear, Andy! of REs per subframe x no.

About 25% of overhead is used here for RS(reference signal), synchronization signals, PDCCH, PBCH & for some coding.

20MHz channel, 4x4 MIMO configuration, i’m looking into lots of log , never found it , or it’s default by 1 ?

LTE PUCCH   Config. (function() { And relation between Layers and number TxRx . It can take the following values: It is the largest value of throughput that can be typically achieved under all chop = (chop < strx.length-1) ? 5G use the milimeter wave such as 28GHz, 36GHz.