Antenna Gain definition

Antenna Gain means the ratio expressed in decibels of the power required at the input of a loss free reference antenna to the power supplied to the input of the given antenna to produce in a given direction the same field strength.
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Examples of Antenna Gain in a sentence

  • Availability measured over: Each quarterly calendar period Upper Failure Threshold: > Normal Operating Antenna Gain Gain + 1dB Lower Failure Threshold: < Normal Operating Antenna Gain Gain - 3dB On Sites where the Client does not combine into the Service Provider’s Broadcast antenna system the only measurable Availability Target will relate to Electrical Power.

  • Availability measured over: Each quarterly calendar period Upper Failure Threshold: > Normal Operating Antenna Gain Gain + 1dB Lower Failure Threshold: < Normal Operating Antenna Gain Gain - 3dB ERP = Effective Radiated Power On Sites where the Client does not combine into the Service Provider’s Broadcast antenna system the only measurable Availability Target will relate to Electrical Power.

  • Availability measured over: Each quarterly calendar period Upper Failure Threshold: > Normal Operating Antenna Gain Gain + 1dB Lower Failure Threshold: < Normal Operating Antenna Gain Gain - 3dB On Sites where the Client does not combine into the Service Provider‟s Broadcast antenna system the only measurable Availability Target will relate to Electrical Power.

  • Availability measured over: Each quarterly calendar period Upper Failure Threshold: > Normal Operating Antenna Gain Gain + 1dB Lower Failure Threshold: < Normal Operating Antenna Gain Gain - 3dB ERP = Effective Radiated Power On Sites where the Client does not combine into the Service Provider‟s Broadcast antenna system the only measurable Availability Target will relate to Electrical Power.

  • No No No No Yes No Antenna Gain N/A N/A 35.1/ 36.3/ 36.9 30.4 20.9 N/A Line Quant.

  • No N/A N/A N/A N/A N/A Antenna Gain ▇/▇ ▇/▇ ▇/▇ ▇/▇ ▇/▇ ▇/▇ Total # of Lines 0 N/A N/A N/A N/A N/A Line Quant.

  • RF Frequency [GHz] 300 Baud Rate [Gbaud] BW/1.2 due to 20% roll-off, BW in GHz units NF [dB] 10 T=300 K TX Power [dBm] 10 Link Distance [m] 1000 Antenna Gain [dBi] 50 Common for both TX and RX Payload Rate 0.9 Payload/Frame length Currently, such a wide-band modem as described in Table 2 is not available since it requires ultra- high speed data converters (DAC, ADC) and a digital signal processor.