Gain to db converter

    • [DOC File]Interference Rejection Thresholds

      https://info.5y1.org/gain-to-db-converter_1_d1857a.html

      The tuner channel was changed to another channel and back again when the level was within 1 dB of TOV; for some converter boxes, that channel change significantly changed the TOV—indicating that the receiver’s automatic gain control (AGC) apparently has memory that is reset by a channel change.

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    • [DOC File]EE 349

      https://info.5y1.org/gain-to-db-converter_1_52952f.html

      : The amplifier is to be a bandpass type with a midband gain of 20 (26 dB). The lower 3dB frequency is to be 20 Hz, upper 15 kHz. The maximum output peak amplitude is to be 5V. Make certain that the OP-AMP you choose has the appropriate slew-rate to be bandwidth limited over the desired range of …

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    • [DOC File]Terms Explained for the Sherwood Table of Receiver …

      https://info.5y1.org/gain-to-db-converter_1_c3aa3d.html

      If a radio has a good dynamic range, then it will have a good blocking number. 130 dB is a good number. With direct sampling radios, blocking is technically not the correct term. An A to D converter has an absolute overload point, unlike a 1 or 3 dB gain compression point.

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    • [DOC File]TTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTT ...

      https://info.5y1.org/gain-to-db-converter_1_f1b14a.html

      The operating point of the wavelength converter for these cases is at the notch of the electrical transfer function (63mA in Figure 4(a,b)) in order to achieve optical modulation in the non-inverting regime. Optical extinction ratios for this biasing scheme were measured to be better than 13 dB …

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    • [DOC File]Peter Sobczak DBA Audio Scientific, San Diego, CA

      https://info.5y1.org/gain-to-db-converter_1_f86af8.html

      Analyzed and troubleshot end to end systems consisting of sound - transducer - amplifier - A/D converter - transmit - loopback - receive - D/A converter - amplifier - transducer - sound. Calculated conversions between dBmo, dBV, dB SPL with distribution of level, gain, noise, signal swing and frequency response.

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    • [DOC File]PART 1 - broward.k12.fl.us

      https://info.5y1.org/gain-to-db-converter_1_3624ca.html

      The ITFS down converter shall be a solid-state device with integrated comb line filter, 50 ohm input, type N, and 75 ohm output, type F. Unit shall have 186 MHz bandwidth with frequency response if +/- 1.5 dB; dB gain; 2.8 dB noise figure; output frequencies 22-408 MHz; output level capability of+33dB mv …

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    • [DOC File]Communications Satellite Databases Part I

      https://info.5y1.org/gain-to-db-converter_1_549259.html

      GAIN_VAR = VAR = Gain Variation across the channel bandwidth expressed in dB. GAIN_SLOPE = SLP = The GAIN SLOPE across the filter expressed in dB per MHz. GD = GROUP DELAY in nano seconds at the edge of the designated bandwidth. REJECTION = OOB = The OUT OF BAND response or attenuation at frequencies 150% from band center, expressed as dB down.

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    • [DOC File]DARPA CS-WDM

      https://info.5y1.org/gain-to-db-converter_1_7e541d.html

      The gain peaks at about –10dB, and the bandwidth is above 3GHz at higher bias currents. Figure 1: Small signal optical AC gain as a function of frequency for different gain section bias currents and conversion from 1547nm to 1545 nm.

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    • [DOC File]PMP640 Test Data

      https://info.5y1.org/gain-to-db-converter_1_39414a.html

      The figure below is the loop gain of the flyback converter with a 48V input and a 12V/2A load. R15 was changed to 49.9 Ohms to inject a test signal. The Bandwidth is 7.6 KHz, the Phase Margin is 47 degrees, and the Gain Margin is 17 dB. The figure below is the loop gain of the flyback converter with a 24V input and a 12V/2A load.

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    • [DOCX File]doc.: IEEE 802.11-17/1711r4

      https://info.5y1.org/gain-to-db-converter_1_08f5be.html

      A high pass characteristic with a cut-off frequency of few 100 kHz is typically included in the frontend design. The high-pass characteristics enables adding the modulated AC part of the signal to the DC part needed for the bias. The high-pass is shown here for frontend sample#2. The gain of frontend sample#1 is slightly higher until around 10 MHz.

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