Datasheet AD7715 (Analog Devices) - 8

制造商Analog Devices
描述3 V/5 V, 450 µA, 16-Bit, Sigma-Delta ADC
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Data Sheet. AD7715. Table 3. Parameter. Min. Typ. Max. Unit. Conditions/Comments

Data Sheet AD7715 Table 3 Parameter Min Typ Max Unit Conditions/Comments

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Data Sheet AD7715
AVDD = 3 V to 5 V, DVDD = 3 V to 5 V, REF IN(+) = 1.25 V (AD7715-3) or 2.5 V (AD7715-5); REF IN(−) = AGND; MCLK IN = 1 MHz to 2.4576 MHz, unless otherwise noted. All specifications TMIN to TMAX, unless otherwise noted.
Table 3. Parameter Min Typ Max Unit Conditions/Comments
SYSTEM CALIBRATION Positive Full-Scale Calibration Limit1 (1.05 × V GAIN Is the selected PGA gain (1, 2, 32, or 128) VREF)/GAIN Negative Ful -Scale Calibration Limit1 −(1.05 × V GAIN Is the selected PGA gain (1, 2, 32, or 128) VREF)/GAIN Offset Calibration Limit2 −(1.05 × V GAIN Is the selected PGA gain (1, 2, 32, or 128) VREF)/GAIN Input Span2 0.8 × V GAIN Is the selected PGA gain (1, 2, 32, or 128) VREF/GAIN (2.1 × VREF)/GAIN V GAIN Is the selected PGA gain (1, 2, 32, or 128) POWER REQUIREMENTS Power Supply Voltages AVDD Voltage (AD7715-3) 3 3.6 V For specified performance AVDD Voltage (AD7715-5) 4.75 5.25 V For specified performance DVDD Voltage 3 5.25 V For specified performance Power Supply Currents AVDD Current AVDD = 3.3 V or 5 V. gain = 1 to 128 (fCLK IN = 1 MHz) or gain = 1 or 2 (fCLK IN = 2.4576 MHz) 0.27 mA Typically 0.2 mA; BUF bit of the setup register = 0 0.6 mA Typically 0.4 mA; BUF bit of the setup register = 1, AVDD = 3.3 V or 5 V; gain = 32 or 128 (fCLK IN = 2.4576 MHz)3 0.5 mA Typically 0.3 mA; BUF bit of the setup register = 0 1.1 mA Typically 0.8 mA; BUF bit of the setup register = 1 DVDD Current4 Digital inputs = 0 V or DVDD; external MCLK IN 0.18 mA Typically 0.15 mA. DVDD = 3.3 V. fCLK IN = 1 MHz 0.4 mA Typically 0.3 mA. DVDD = 5 V. fCLK IN = 1 MHz 0.5 mA Typically 0.4 mA. DVDD = 3.3 V. fCLK IN = 2.4576 MHz 0.8 mA Typically 0.6 mA. DVDD = 5 V. fCLK IN = 2.4576 MHz Power Supply Rejection5 Depends on gain6 dB Normal-Mode Power Dissipation4 AVDD = DVDD = 3.3 V; digital inputs = 0 V or DVDD; external MCLK IN 1.5 mW BUF bit = 0. all gains 1 MHz clock 2.65 mW BUF bit = 1. all gains 1 MHz clock 3.3 mW BUF bit = 0. Gain = 32 or 128 @ fCLK IN = 2.4576 MHz 5.3 mW BUF bit = 1. Gain = 32 or 128 @ fCLK IN = 2.4576 MHz Normal-Mode Power Dissipation4 AVDD = DVDD = 5 V. digital inputs = 0 V or DVDD; external MCLK IN 3.25 mW BUF bit = 0; all gains 1 MHz clock 5 mW BUF bit = 1; all gains 1 MHz clock 6.5 mW BUF bit = 0; gain = 32 or 128 @ fCLK IN = 2.4576 MHz 9.5 mW BUF bit = 1; gain = 32 or 128 @ fCLK IN = 2.4576 MHz Standby (Power-Down) Current7 20 µA External MCLK IN = 0 V or DVDD. typical y 10 µA; VDD = 5 V Standby (Power-Down) Current7 10 µA External MCLK IN = 0 V or DVDD. typical y 5 µA; VDD = 3.3 V 1 After calibration, if the analog input exceeds positive ful scale, the converter outputs all 1s. If the analog input is less than negative full scale, then the device outputs all 0s. 2 These calibration and span limits apply provided the absolute voltage on the analog inputs does not exceed AVDD + 30 mV or go more negative than AGND − 30 mV. The offset calibration limit applies to both the unipolar zero point and the bipolar zero point. 3 Assumes CLK Bit of setup register is set to correct status corresponding to the master clock frequency. 4 When using a crystal or ceramic resonator across the MCLK pins as the clock source for the device, the DVDD current and power dissipation wil vary depending on the crystal or resonator type (see the Clocking and Oscillator Circuit section). 5 Measured at dc and applies in the selected pass-band. PSRR at 50 Hz exceeds 120 dB with filter notches of 25 Hz or 50 Hz. PSRR at 60 Hz exceeds 120 dB with filter notches of 20 Hz or 60 Hz. 6 PSRR depends on gain. Gain of 1:85 dB typical; gain of 2:90 dB typical; gains of 32 and 128:95 dB typical. 7 If the external master clock continues to run in standby mode, the standby current increases to 50 µA typical. When using a crystal or ceramic resonator across the MCLK pins as the clock source for the device, the internal oscillator continues to run in standby mode and the power dissipation depends on the crystal or resonator type (see the Standby Mode section). Rev. E | Page 7 of 40 Document Outline FEATURES FUNCTIONAL BLOCK DIAGRAM GENERAL DESCRIPTION PRODUCT HIGHLIGHTS TABLE OF CONTENTS REVISION HISTORY SPECIFICATIONS AD7715-5 AD7715-3 TIMING CHARACTERISTICS ABSOLUTE MAXIMUM RATINGS ESD CAUTION PIN CONFIGURATION AND FUNCTION DESCRIPTIONS TERMINOLOGY ON-CHIP REGISTERS COMMUNICATIONS REGISTER (RS1, RS0 = 0, 0) SETUP REGISTER (RS1, RS0 = 0, 1); POWER ON/RESET STATUS: 28 HEX TEST REGISTER (RS1, RS0 = 1, 0) DATA REGISTER (RS1, RS0 = 1, 1) OUTPUT NOISE AD7715-5 AD7715-3 CALIBRATION SEQUENCES CIRCUIT DESCRIPTION ANALOG INPUT Analog Input Ranges Input Sample Rate Bipolar/Unipolar Inputs REFERENCE INPUT DIGITAL FILTERING Filter Characteristics Post-Filtering ANALOG FILTERING CALIBRATION Self-Calibration System Calibration Span and Offset Limits Power-Up and Calibration USING THE AD7715 CLOCKING AND OSCILLATOR CIRCUIT SYSTEM SYNCHRONIZATION RESET INPUT STANDBY MODE ACCURACY DRIFT CONSIDERATIONS POWER SUPPLIES Supply Current Grounding and Layout Evaluating the AD7715 Performance DIGITAL INTERFACE CONFIGURING THE AD7715 MICROCONTROLLER/MICROPROCESSOR INTERFACING AD7715 TO 68HC11 INTERFACE AD7715 TO 8XC51 INTERFACE AD7715 TO ADSP-2184N/ADSP-2185N/ ADSP-2186N/ADSP-2187N/ADSP-2188N/ ADSP-2189N INTERFACE CODE FOR SETTING UP THE AD7715 C CODE FOR INTERFACING AD7715 TO 68HC11 APPLICATIONS INFORMATION PRESSURE MEASUREMENT TEMPERATURE MEASUREMENT SMART TRANSMITTERS OUTLINE DIMENSIONS ORDERING GUIDE