Datasheet ADRV9002 (Analog Devices) - 6

HerstellerAnalog Devices
BeschreibungDual Narrow/Wideband RF Transceiver
Seiten / Seite71 / 6 — ADRV9002. Preliminary Technical Data. Parameter Symbol. Min. Typ. Max. …
RevisionPrA
Dateiformat / GrößePDF / 1.6 Mb
DokumentenspracheEnglisch

ADRV9002. Preliminary Technical Data. Parameter Symbol. Min. Typ. Max. Units Test. Conditions/Comments. RECEIVER SPECIFICATIONS

ADRV9002 Preliminary Technical Data Parameter Symbol Min Typ Max Units Test Conditions/Comments RECEIVER SPECIFICATIONS

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ADRV9002 Preliminary Technical Data Parameter Symbol Min Typ Max Units Test Conditions/Comments
900 MHz LO −76 dBFS 2400 MHz LO −75 dBFS 3500 MHz LO TBD dBFS 5800 MHz LO TBD dBFS Narrow-Band 30 MHz LO −73 dBFS 470 MHz LO −76 dBFS 900 MHz LO −76 dBFS 2400 MHz LO −70 dBFS 3500 MHz LO TBD dBFS 5800 MHz LO TBD dBFS CARRIER LEAKAGE WITH LO leakage calibration is active with 0 dB transmitter INITIALIZATION CALIBRATION attenuation. AND TRACKING CALIBRATION Wideband 30 MHz LO −61 dBm 470 MHz LO −60 dBm 900 MHz LO −60 dBm 2400 MHz LO −58 dBm 3500 MHz LO −56 dBm 5800 MHz LO −54 dBm Narrow-band 30 MHz LO TBD dBm 470 MHz LO TBD dBm 900 MHz LO TBD dBm 2400 MHz LO TBD dBm 3500 MHz LO TBD dBm 5800 MHz LO TBD dBm 1 Quadrature error correction (QEC) is the system for minimizing quadrature images of a desired signal. 2 Local oscillator leakage (LOL) is a measure of the amount of the LO signal that is passed from a mixer with the desired signal. 3 dBFS represents the ratio of the actual output signal to the maximum possible output level for a continuous wave output signal at the given RF attenuation setting. 4 A continuous wave is a single frequency signal.
RECEIVER SPECIFICATIONS Table 2. Receivers (Rx1A, Rx1B, Rx2A, and Rx2B) Parameter Symbol Min Typ Max Units Test Conditions/Comments
CENTER FREQUENCY 30 6000 MHz MAXIMUM GAIN High performance receiver ADCs, 0 dB attenuation, and 5.6 MHz baseband frequency. 30 MHz 22 dB 470 MHz 23 dB 900 MHz 23 dB 2400 MHz 23 dB 3500 MHz 19 dB 5800 MHz 18 dB ATTENUATION RANGE FROM 36 dB MAXIMUM GAIN Attenuation Accuracy Gain Step 0.5 dB Attenuator steps from 0 dB to 30 dB. TBD dB Attenuator steps from 30 dB to 36 dB. Gain Step Error 0.1 dB FREQUENCY RESPONSE Peak-to-Peak Gain Deviation 1 dB 40 MHz bandwidth including digital compensation. Peak-to-Peak Gain Deviation 0.2 dB Any 10 MHz span including digital compensation. Rev. PrA | Page 6 of 71 Document Outline FEATURES APPLICATIONS GENERAL DESCRIPTION TABLE OF CONTENTS FUNCTIONAL BLOCK DIAGRAM SPECIFICATIONS TRANSMITTER SPECIFICATIONS RECEIVER SPECIFICATIONS INTERNAL LO, EXTERNAL LO, AND DEVICE CLOCK DIGITAL INTERFACES AND AUXILIARY CONVERTERS POWER SUPPLY SPECIFICATIONS CURRENT CONSUMPTION ESTIMATES (TYPICAL VALUES) Sleep Mode (Typical Values) TDD Operation (Typical Values) FDD Operation (Typical Values) TIMING SPECIFICATIONS ABSOLUTE MAXIMUM RATINGS REFLOW PROFILE THERMAL RESISTANCE ELECTROSTATIC DISCHARGE (ESD) RATINGS ESD Ratings for ADRV2009 ESD CAUTION PIN CONFIGURATION AND FUNCTION DESCRIPTIONS TYPICAL PERFORMANCE CHARACTERISTICS 30 MHZ BAND 470 MHZ BAND 900 MHZ BAND 2400 MHZ BAND 3500 MHZ BAND 5800 MHZ BAND PHASE NOISE THEORY OF OPERATION TRANSMITTER RECEIVER Monitor Mode DPD Receiver as an Observation Receiver CLOCK INPUT SYNTHESIZERS RF PLL Baseband PLL (PLL) SPI INTERFACE GPIO PINS Digital GPIO Inputs/Outputs (DGPIO) Analog GPIO Inputs/Outputs (AGPIO) AUXILLARY CONVERTERS Auxiliary ADC Inputs (AUXADC_x) Auxiliary DACs Outputs (AUXDAC_x) JTAG BOUNDARY SCAN APPLICATIONS INFORMATION POWER SUPPLY SEQUENCE DIGITAL DATA INTERFACE CSSI CSSI Receive CSSI Transmit LSSI OUTLINE DIMENSIONS