Transcription of RF Basics, RF for Non-RF Engineers - Texas Instruments
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RF Basics, RF for Non-RF Engineers - Texas Instruments
2006 Texas Instruments Inc, Slide 1RF Basics, RF for Non-RF EngineersDag GriniProgram Manager, Low power WirelessTexas Instruments 2006 Texas Instruments Inc, Slide 2 Basics Basic Building Blocks of an RF System RF Parameters and RF Measurement Equipment Support / getting startedAgenda 2006 Texas Instruments Inc, Slide 3 Definitions dBm relative to 1 mW dBc relative to carrier 10mW = 10dBm, 0dBm = 1mW -110dBm = 1E-11mW = For a 50 ohm load : -110dBm is , not much! Rule of thumb: Double the power = 3 dB increase Half the power = 3 dB decrease 2006 Texas Instruments Inc, Slide 4dBm to Watt About dBm and W Voltage Ratio aV = 20 log (P2/P1)[aV] = dB power Ratio aP = 10 log (P2/P1)[aP] = dB Voltage LevelV = 20 log (V/1 V)[V ] = dB V power LevelP = 10 log (P/1mW)[P ] = 25mW max.
Transceiver System-on-Chip ... No extra signal is needed from MCU to turn off LNA in low power modes RF_P TXRX_SWITCH RF_N CC2420 BALUN TX/RX Switch ANT PA LP filter TX path RX path Control logic and bias network RX current 19.7 mA 19.7 mA Line of 230 meter 580 meter Sight Range Sensitivity -94 dBm -93.1 dBm
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