Gain in db
[DOC File]RADAR BASICS - UAH
https://info.5y1.org/gain-in-db_1_149ab3.html
The 3-dB points are the angles where is 3 dB below its maximum value. As a side note, the maximum value of is the antenna gain, or . With this we find that the antenna represented in Figure 4 has a beamwidth of 2 degrees in the direction.
[DOC File]CORRELATION FUNDAMENTALS
https://info.5y1.org/gain-in-db_1_37fed8.html
Processing Gain = Bandwidth of Uncorrelated Signal / Bandwidth Correlated Signal. For a GPS receiver this works out to (in db) Processing Gain GPS Rec.(db ) = 10 log [ 2Mhz / 100Hz] ( +43dB. This number is an estimate of processing gain. A more accurate estimate is the ratio of …
[DOC File]Stevens Institute of Technology
https://info.5y1.org/gain-in-db_1_6071d3.html
Component NF(dB) Gain (dB) NFn GAINn 1 SLP 2950 -1 0.794328 2 ZKL 2R5 5 30 3.162278 1000 3 ZAM 42 -8.5 0.141254 4 SBP 70 -1.5 0.707946 5 ZKL 1R5 3 40 1.995262 10000 59 Nftot = 2.722148 NF 4.3491 Gain 59 dB 2.4 GHz Wireless Testbed Setup. 3. Alternate Designs
[DOC File]Communication Between Earth and Mars
https://info.5y1.org/gain-in-db_1_75f527.html
Eb = energy-per-bit, dB. Gt = gain of transmitting antenna, dBi. Gr = gain of receiving antenna, dBi. Lt = loss from transmitting, dB. No = noise-power-density, dBW/Hz. Pt = transmitted power, dBW. Tb = bit period. 7.1.1 Introduction. The communication system supports the transmission of high and low data rate video, voice data, science data ...
[DOC File]RADAR BASICS - UAH
https://info.5y1.org/gain-in-db_1_57abf9.html
Thus, the coherent gain above would be, effectively, 1.6 dB. The non-coherent gain for the SW0/SW5/SW1/SW3 target would be 0.8 dB and the integration gains for the SW2 and SW4 targets would be, respectively, 6.8 and 4.8 dB. If the radar uses a phased array antenna we would compute somewhat differently.
[DOC File]Radio Shack HTX-100 Microphone Amplifier analysis and ...
https://info.5y1.org/gain-in-db_1_f2d0fd.html
Compare the open loop gain in the chart at around 2 to 3 KHz (around 60 dB) to the gain of an NJM4558 in the actual Microphone Amplifier circuit as measured further below. It appears the 4558 in this app was running very near open loop, save for the negative feedback contributed by the 560 pF capacitor. Microphone Amplifier - AC Circuit analysis
[DOC File]Decibel Study Questions
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A listener who barely detected a 1,000 Hz tone at 55 dBSPL would therefore have a hearing loss of 55-7=48 dB; that is, the hearing sensitivity of this listener would be 48 dB worse than normal. The reference for dBHL is the audibility threshold, so this listener would have a 55 dB hearing loss at 125 Hz. There is no need to consult the table.
[DOC File]cept.org
https://info.5y1.org/gain-in-db_1_5c1e48.html
Parameter Unit Value Tx power dBm 47.0 Tx antenna gain dBi 0.0 Tx cable loss dB 3.0 Tx EIRP dBm 44.0 Frequency MHz 960.0 Tx-Rx distance km 370.0 Path loss dB -143.5 Implementation margin dB 0.0 Blanking loss dB 0.0 Rx duplexer and cable loss and antenna gain dB -5.5 Rx received signal power dBm -94.0 Rx noise temperature K 290.0 Rx bandwidth ...
[DOC File]OPERATIONAL AMPLIFIER
https://info.5y1.org/gain-in-db_1_5f0539.html
This occurs when the power gain G drops by 3 dB. In Figure 10, the bandwidth is B Hz. For all op-amps, the Gain*Bandwidth product is a constant. Hence, if the gain of an op-amp is decreased, its operational bandwidth increases proportionally. This is an important trade-off consideration in op-amp circuit design.
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