Datasheet AD9208 (Analog Devices) - 10

制造商Analog Devices
描述14-Bit, 3GSPS, JESD204B, Dual Analog-to-Digital Converter
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Data Sheet. AD9208. SWITCHING SPECIFICATIONS. Table 4. Parameter Min. Typ. Max. Unit

Data Sheet AD9208 SWITCHING SPECIFICATIONS Table 4 Parameter Min Typ Max Unit

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Data Sheet AD9208 SWITCHING SPECIFICATIONS
AVDD1 = 0.975 V, AVDD1_SR = 0.975 V, AVDD2 = 1.9 V, AVDD3 = 2.5 V, DVDD = 0.975 V, DRVDD1 = 0.975 V, DRVDD2 = 1.9 V, SPIVDD = 1.9 V, specified maximum sampling rate, 1.7 V p-p full-scale differential input, AIN = −2.0 dBFS, default SPI settings, −10°C ≤ TJ ≤ +120°C,1 unless otherwise noted. Typical specifications represent performance at TJ = 70°C (TA = 25°C).
Table 4. Parameter Min Typ Max Unit
CLOCK Clock Rate (at CLK+/CLK− Pins) 3 6 GHz Sample Rate2 2500 3000 3100 MSPS Clock Pulse Width High 161.29 166.67 192.31 ps Clock Pulse Width Low 161.29 166.67 192.31 ps OUTPUT PARAMETERS Unit Interval (UI)3 62.5 66.67 592.6 ps Rise Time (tR) (20% to 80% into 100 Ω Load) 26 ps Fall Time (tF) (20% to 80% into 100 Ω Load) 26 ps Phase-Locked Loop (PLL) Lock Time 5 ms Data Rate per Channel (Nonreturn to Zero)4 1.6875 15 16 Gbps LATENCY5 Pipeline Latency6 75 Clock cycles Fast Detect Latency 26 Clock cycles WAKE-UP TIME Standby 400 μs Power-Down 15 ms NCO CHANNEL SELECTION TO OUTPUT 8 Clock cycles APERTURE Aperture Delay (tA) 250 ps Aperture Uncertainty (Jitter, tJ) 55 fs rms Out of Range Recovery Time 1 Clock cycles 1 The junction temperature (TJ) range of −10°C to +120°C translates to an ambient temperature (TA) range of −40°C to +85°C. 2 The maximum sample rate is the clock rate after the divider. 3 Baud rate = 1/UI. A subset of this range can be supported. 4 Default L = 8. This number can be changed based on the sample rate and decimation ratio. 5 No DDCs used. L = 8, M = 2, and F = 1. 6 Refer to the Latency section for more details. Rev. 0 | Page 9 of 136 Document Outline FEATURES APPLICATIONS FUNCTIONAL BLOCK DIAGRAM TABLE OF CONTENTS REVISION HISTORY GENERAL DESCRIPTION SPECIFICATIONS DC SPECIFICATIONS AC SPECIFICATIONS DIGITAL SPECIFICATIONS SWITCHING SPECIFICATIONS TIMING SPECIFICATIONS Timing Diagrams ABSOLUTE MAXIMUM RATINGS THERMAL RESISTANCE ESD CAUTION PIN CONFIGURATION AND FUNCTION DESCRIPTIONS TYPICAL PERFORMANCE CHARACTERISTICS EQUIVALENT CIRCUITS THEORY OF OPERATION ADC ARCHITECTURE ANALOG INPUT CONSIDERATIONS Differential Input Configurations Input Common Mode Analog Input Buffer Controls and SFDR Optimization Dither Absolute Maximum Input Swing VOLTAGE REFERENCE DC OFFSET CALIBRATION CLOCK INPUT CONSIDERATIONS Clock Duty Cycle Considerations Input Clock Divider Input Clock Divider ½ Period Delay Adjust Clock Fine Delay and Superfine Delay Adjust Clock Coupling Considerations Clock Jitter Considerations POWER-DOWN/STANDBY MODE TEMPERATURE DIODE ADC OVERRANGE AND FAST DETECT ADC OVERRANGE FAST THRESHOLD DETECTION (FD_A AND FD_B) ADC APPLICATION MODES AND JESD204B Tx CONVERTER MAPPING PROGRAMMABLE FIR FILTERS SUPPORTED MODES PROGRAMMING INSTRUCTIONS DIGITAL DOWNCONVERTER (DDC) DDC I/Q INPUT SELECTION DDC I/Q OUTPUT SELECTION DDC GENERAL DESCRIPTION DDC Frequency Translation Stage (Optional) DDC Filtering Stage DDC Gain Stage (Optional) DDC Complex to Real Conversion Stage (Optional) DDC FREQUENCY TRANSLATION DDC Frequency Translation General Description Variable IF Mode 0 Hz IF (ZIF) Mode fS/4 Hz IF Mode Test Mode DDC NCO Description DDC NCO Programmable Modulus Mode DDC NCO Coherent Mode NCO FTW/POW/MAW/MAB Description NCO FTW/POW/MAW/MAB Programmable Modulus Mode NCO FTW/POW/MAW/MAB Coherent Mode NCO Channel Selection Setting Up the Multichannel NCO Feature NCO Synchronization NCO Multichip Synchronization For these reasons, the AD9208 contains a synchronization triggering mechanism that allows the following: NCO Multichip Synchronization at Startup NCO Multichip Synchronization During Normal Operation DDC Mixer Description DDC NCO + Mixer Loss and SFDR DDC DECIMATION FILTERS HB4 Filter Description HB3 Filter Description HB2 Filter Description HB1 Filter Description TB2 Filter Description TB1 Filter Description FB2 Filter Description DDC GAIN STAGE DDC COMPLEX TO REAL CONVERSION DDC MIXED DECIMATION SETTINGS DDC EXAMPLE CONFIGURATIONS DDC POWER CONSUMPTION SIGNAL MONITOR SPORT OVER JESD204B DIGITAL OUTPUTS INTRODUCTION TO THE JESD204B INTERFACE JESD204B OVERVIEW FUNCTIONAL OVERVIEW Transport Layer Data Link Layer Physical Layer JESD204B LINK ESTABLISHMENT Code Group Synchronization (CGS) and SYNCINB± Initial Lane Alignment Sequence (ILAS) User Data and Error Detection 8-Bit/10-Bit Encoder PHYSICAL LAYER (DRIVER) OUTPUTS Digital Outputs, Timing, and Controls De-Emphasis Phase-Locked Loop (PLL) fS × 4 MODE SETTING UP THE AD9208 DIGITAL INTERFACE Example 1—Full Bandwidth Mode Example 2—ADC with DDC Option (Two ADCs Plus Two DDCs) DETERMINISTIC LATENCY SUBCLASS 0 OPERATION SUBCLASS 1 OPERATION Deterministic Latency Requirements Setting Deterministic Latency Registers MULTICHIP SYNCHRONIZATION NORMAL MODE TIMESTAMP MODE SYSREF INPUT SYSREF Control Features SYSREF± SETUP/HOLD WINDOW MONITOR LATENCY END TO END TOTAL LATENCY EXAMPLE LATENCY CALCULATIONS LMFC REFERENCED LATENCY TEST MODES ADC TEST MODES JESD204B BLOCK TEST MODES Transport Layer Sample Test Mode Interface Test Modes Data Link Layer Test Modes SERIAL PORT INTERFACE CONFIGURATION USING THE SPI HARDWARE INTERFACE SPI ACCESSIBLE FEATURES MEMORY MAP READING THE MEMORY MAP REGISTER TABLE Open and Reserved Locations Default Values Logic Levels Channel Specific Registers SPI Soft Reset MEMORY MAP REGISTER DETAILS APPLICATIONS INFORMATION POWER SUPPLY RECOMMENDATIONS LAYOUT GUIDELINES AVDD1_SR (PIN E7) AND AGND (PIN E6 AND PIN E8) OUTLINE DIMENSIONS ORDERING GUIDE