Datasheet AD7722 (Analog Devices) - 9

ManufacturerAnalog Devices
Description16-Bit, 195 kSPS CMOS, Sigma-Delta ADC
Pages / Page25 / 9 — AD7722. PIN FUNCTION DESCRIPTIONS. Mnemonic. Pin No. Description
RevisionC
File Format / SizePDF / 478 Kb
Document LanguageEnglish

AD7722. PIN FUNCTION DESCRIPTIONS. Mnemonic. Pin No. Description

AD7722 PIN FUNCTION DESCRIPTIONS Mnemonic Pin No Description

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AD7722 PIN FUNCTION DESCRIPTIONS Mnemonic Pin No. Description
AVDD1 14 Clock Logic Power Supply Voltage for the Analog Modulator, 5 V ± 5%. AGND1 10 Clock Logic Ground Reference for the Analog Modulator. AVDD 20, 23 Analog Power Supply Voltage, 5 V ± 5%. AGND 9, 13, 15, 19, Ground Reference for Analog Circuitry. 21, 25, 26 DVDD 39 Digital Power Supply Voltage, 5 V ± 5%. DGND 6, 28 Ground Reference for Digital Circuitry. REF1 22 Reference Input/Output. REF1 connects through 3 kΩ to the output of the internal 2.5 V reference and to the input of a buffer amplifier that drives the Σ-∆ modulator. This pin can also be overdriven with an external reference 2.5 V. REF2 24 Reference Input/Output. REF2 connects to the output of an internal buffer amplifier used to drive the Σ-∆ modulator. When REF2 is used as an input, REF1 must be connected to AGND. VIN(+) 18 Positive Terminal of the Differential Analog Input. VIN(–) 16 Negative Terminal of the Differential Analog Input. UNI 7 Analog Input Range Select Input. UNI selects the analog input range for either bipolar or unipolar operation. A logic low input selects unipolar operation. A logic high input selects bipolar operation. CLKIN 11 Clock Input. Master clock signal for the device. The CLKIN pin interfaces the AD7722 internal oscillator circuit to an external crystal or an external clock. A parallel resonant, fundamental-frequency, microprocessor-grade crystal and a 1 MΩ resistor should be connected between the CLKIN and XTAL pins with two capacitors connected from each pin to ground. Alternatively, the CLKIN pin can be driven with an external CMOS compatible clock. The AD7722 is specified with a clock input frequency of 12.5 MHz. XTAL 12 Oscillator Output. The XTAL pin connects the internal oscillator output to an external crystal. If an external clock is used, XTAL should be left unconnected. P/S 8 Parallel/Serial Interface Select Input. A logic high configures the output data interface for parallel mode operation. The serial mode operation is selected with the P/S set to a logic low. CAL 27 Calibration Logic Input. A logic high input for a duration of one CLKIN cycle initiates a calibration sequence for the device gain and offset error. RESET 17 Reset Logic Input. RESET is used to clear the offset and gain calibration registers. RESET is an asynchronous input. RESET allows the user to set the AD7722 to an uncalibrated state if the device had been previously calibrated. A rising edge also resets the AD7722 Σ-∆ modulator by shorting the integrator capacitors in the modulator. In addition, RESET functions identically to the SYNC pin described below. When operating with more than one AD7722, a RESET/SYNC should be issued following power up to ensure the devices are synchronized. Ensure that the supplies are settled before applying the RESET/SYNC pulse. CS 29 Chip select is a level sensitive logic input. CS enables the output data register for parallel mode read operation. The CS logic level is sensed on the rising edge of CLKIN. The output data bus is enabled when the rising edge of CLKIN senses a logic low level on CS if RD is also low. When CS is sensed high, the output data bits DB15–DB0 will be high impedance. In serial mode, tie CS to a logic low. SYNC 30 Synchronization Logic Input. SYNC is an asynchronous input. When using more than one AD7722 operated from a common master clock, SYNC allows each ADC’s Σ-∆ modulator to simultaneously sample its analog input and update its output data register. A rising edge resets the AD7722 digital filter sequencer counter to zero. After a SYNC, conversion data is not valid until after the digital filter settles (see Figure 7). DVAL goes low in the serial mode. When the rising edge of CLKIN senses a logic low on SYNC (or RESET), the reset state is released; in parallel mode, DRDY goes high. After the reset state is released, DVAL returns high after 8192 CLKIN cycles (128 × 64/fCLKIN); in parallel mode, DRDY returns low after one additional convolution cycle of the digital filter (64 CLKIN periods), when valid data is ready to be read from the output data register. When operating with more than one AD7722, a RESET/SYNC should be issued follow- ing power up to ensure the devices are synchronized. Ensure that the supplies are settled before applying the RESET/SYNC pulse. –8– REV. B Document Outline FEATURES FUNCTIONAL BLOCK DIAGRAM GENERAL DESCRIPTION SPECIFICATIONS ABSOLUTE MAXIMUM RATINGS ORDERING GUIDE TIMING SPECIFICATIONS PIN FUNCTION DESCRIPTIONS PIN CONFIGURATION PARALLEL MODE PIN FUNCTION DESCRIPTIONS SERIAL MODE PIN FUNCTION DESCRIPTIONS TERMINOLOGY Signal-to-Noise Plus Distortion Ratio (S/(N+D)) Total Harmonic Distortion (THD) Spurious-Free Dynamic Range (SFDR) Intermodulation Distortion Pass-Band Ripple Pass-Band Frequency Cutoff Frequency Stop-Band Frequency Stop-Band Attenuation Integral Nonlinearity Differential Nonlinearity Common-Mode Rejection Ratio Unipolar Offset Error Bipolar Offset Error Gain Error Typical Performance Characteristics CIRCUIT DESCRIPTION APPLYING THE AD7722 Analog Input Range Differential Inputs Applying the Reference Input Circuits Clock Generation Varying the Master Clock SYSTEM SYNCHRONIZATION AND CONTROL SYNC Input DVAL Reset Input Power-On Reset Offset and Gain Calibration DATA INTERFACING Parallel Interface SERIAL INTERFACE 2-Channel Multiplexed Operation Serial Interfacing to DSPs OUTLINE DIMENSIONS Revision History