Datasheet AD7323 (Analog Devices) - 10
| Manufacturer | Analog Devices |
| Description | 500 kSPS, 4-Channel, Software Selectable True bipolar Input, 12-Bit Plus Sign A/D Converter |
| Pages / Page | 37 / 10 — Data Sheet. AD7323. PIN CONFIGURATION AND FUNCTION DESCRIPTIONS. 16 SCLK. … |
| Revision | B |
| File Format / Size | PDF / 696 Kb |
| Document Language | English |
Data Sheet. AD7323. PIN CONFIGURATION AND FUNCTION DESCRIPTIONS. 16 SCLK. DIN. DGND. DOUT. AGND. TOP VIEW. VDRIVE. (Not to Scale). REFIN/OUT
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Data Sheet AD7323 PIN CONFIGURATION AND FUNCTION DESCRIPTIONS CS 1 16 SCLK DIN 2 15 DGND DGND 3 14 DOUT AD7323 AGND 4 TOP VIEW 13 VDRIVE (Not to Scale) REFIN/OUT 5 12 VCC V 6 11 SS VDD V 7 10 IN0 VIN2 V 8 9 IN1 V
003
IN3
05400- Figure 3. Pin Configuration
Table 5. Pin Function Descriptions Pin No. Mnemonic Description
1 CS Chip Select. Active low logic input. This input provides the dual function of initiating conversions on the AD7323 and frames the serial data transfer. 2 DIN Data Input. Data to be written to the on-chip registers is provided on this input and is clocked into the register on the falling edge of SCLK (see the Registers section). 3, 15 DGND Digital Ground. Ground reference point for all digital circuitry on the AD7323. The DGND and AGND voltages ideally should be at the same potential and must not be more than 0.3 V apart, even on a transient basis. 4 AGND Analog Ground. Ground reference point for all analog circuitry on the AD7323. All analog input signals and any external reference signal should be referred to this AGND voltage. The AGND and DGND voltages ideally should be at the same potential and must not be more than 0.3 V apart, even on a transient basis. 5 REFIN/OUT Reference Input/Reference Output. The on-chip reference is available on this pin for use external to the AD7323. The nominal internal reference voltage is 2.5 V, which appears at this pin. A 680 nF capacitor should be placed on the reference pin (see the Reference section). Alternatively, the internal reference can be disabled and an external reference applied to this input. On power-up, the external reference mode is the default condition. 6 VSS Negative Power Supply Voltage. This is the negative supply voltage for the analog input section. 7, 8, 9, 10 VIN0 to VIN3 Analog Input 0 to Analog Input 3. The analog inputs are multiplexed into the on-chip track-and-hold. The analog input channel for conversion is selected by programming the ADD1 and ADD0 channel address bits in the control register. The inputs can be configured as four single-ended inputs, two true differential input pairs, two pseudo differential inputs, or three pseudo differential inputs (see Table 10). The configuration of the analog inputs is selected by programming the mode bits, Mode 1 and Mode 0, in the control register. The input range on each input channel is controlled by programming the range register. Input ranges of ±10 V, ±5 V, ±2.5 V, and 0 V to +10 V can be selected on each analog input channel when a 2.5 V reference voltage is used (see the Registers section). 11 VDD Positive Power Supply Voltage. This is the positive supply voltage for the analog input section. 12 VCC Analog Supply Voltage, 2.7 V to 5.25 V. This is the supply voltage for the ADC core on the AD7323. This supply should be decoupled to AGND. 13 VDRIVE Logic Power Supply Input. The voltage supplied at this pin determines at what voltage the interface operates. This pin should be decoupled to DGND. The voltage at this pin may be different from that at VCC, but it should not exceed VCC by more than 0.3 V. 14 DOUT Serial Data Output. The conversion output data is supplied to this pin as a serial data stream. The bits are clocked out on the falling edge of the SCLK input, and 16 SCLKs are required to access the data. The data stream consists of a leading zero, two channel identification bits, the sign bit, and 12 bits of conversion data. The data is provided MSB first (see the Serial Interface section). 16 SCLK Serial Clock, Logic Input. A serial clock input provides the SCLK used for accessing the data from the AD7323. This clock is also used as the clock source for the conversion process. Rev. B | Page 9 of 36 Document Outline Features Functional Block Diagram General Description Product Highlights Table of Contents Revision History Specifications Timing Specifications Absolute Maximum Ratings ESD Caution Pin Configuration and Function Descriptions Typical Performance Characteristics Terminology Theory of Operation Circuit Information Converter Operation Output Coding Transfer Functions Analog Input Structure Track-and-Hold Section Typical Connection Diagram Analog Input Single-Ended Inputs True Differential Mode Pseudo Differential Inputs Driver Amplifier Choice Registers Addressing Registers Control Register Sequence Register Range Register Sequencer Operation Reference VDRIVE Modes of Operation Normal Mode (PM1 = PM0 = 0) Full Shutdown Mode (PM1 = PM0 = 1) Autoshutdown Mode (PM1 = 1, PM0 = 0) Autostandby Mode (PM1 = 0, PM0 = 1) Power vs. Throughput Rate Serial Interface Microprocessor Interfacing AD7323 to ADSP-21xx AD7323 to ADSP-BF53x Application Hints Layout and Grounding Power Supply Configuration Outline Dimensions Ordering Guide
Data Sheet AD7323 PIN CONFIGURATION AND FUNCTION DESCRIPTIONS CS 1 16 SCLK DIN 2 15 DGND DGND 3 14 DOUT AD7323 AGND 4 TOP VIEW 13 VDRIVE (Not to Scale) REFIN/OUT 5 12 VCC V 6 11 SS VDD V 7 10 IN0 VIN2 V 8 9 IN1 V
003
IN3
05400- Figure 3. Pin Configuration
Table 5. Pin Function Descriptions Pin No. Mnemonic Description
1 CS Chip Select. Active low logic input. This input provides the dual function of initiating conversions on the AD7323 and frames the serial data transfer. 2 DIN Data Input. Data to be written to the on-chip registers is provided on this input and is clocked into the register on the falling edge of SCLK (see the Registers section). 3, 15 DGND Digital Ground. Ground reference point for all digital circuitry on the AD7323. The DGND and AGND voltages ideally should be at the same potential and must not be more than 0.3 V apart, even on a transient basis. 4 AGND Analog Ground. Ground reference point for all analog circuitry on the AD7323. All analog input signals and any external reference signal should be referred to this AGND voltage. The AGND and DGND voltages ideally should be at the same potential and must not be more than 0.3 V apart, even on a transient basis. 5 REFIN/OUT Reference Input/Reference Output. The on-chip reference is available on this pin for use external to the AD7323. The nominal internal reference voltage is 2.5 V, which appears at this pin. A 680 nF capacitor should be placed on the reference pin (see the Reference section). Alternatively, the internal reference can be disabled and an external reference applied to this input. On power-up, the external reference mode is the default condition. 6 VSS Negative Power Supply Voltage. This is the negative supply voltage for the analog input section. 7, 8, 9, 10 VIN0 to VIN3 Analog Input 0 to Analog Input 3. The analog inputs are multiplexed into the on-chip track-and-hold. The analog input channel for conversion is selected by programming the ADD1 and ADD0 channel address bits in the control register. The inputs can be configured as four single-ended inputs, two true differential input pairs, two pseudo differential inputs, or three pseudo differential inputs (see Table 10). The configuration of the analog inputs is selected by programming the mode bits, Mode 1 and Mode 0, in the control register. The input range on each input channel is controlled by programming the range register. Input ranges of ±10 V, ±5 V, ±2.5 V, and 0 V to +10 V can be selected on each analog input channel when a 2.5 V reference voltage is used (see the Registers section). 11 VDD Positive Power Supply Voltage. This is the positive supply voltage for the analog input section. 12 VCC Analog Supply Voltage, 2.7 V to 5.25 V. This is the supply voltage for the ADC core on the AD7323. This supply should be decoupled to AGND. 13 VDRIVE Logic Power Supply Input. The voltage supplied at this pin determines at what voltage the interface operates. This pin should be decoupled to DGND. The voltage at this pin may be different from that at VCC, but it should not exceed VCC by more than 0.3 V. 14 DOUT Serial Data Output. The conversion output data is supplied to this pin as a serial data stream. The bits are clocked out on the falling edge of the SCLK input, and 16 SCLKs are required to access the data. The data stream consists of a leading zero, two channel identification bits, the sign bit, and 12 bits of conversion data. The data is provided MSB first (see the Serial Interface section). 16 SCLK Serial Clock, Logic Input. A serial clock input provides the SCLK used for accessing the data from the AD7323. This clock is also used as the clock source for the conversion process. Rev. B | Page 9 of 36 Document Outline Features Functional Block Diagram General Description Product Highlights Table of Contents Revision History Specifications Timing Specifications Absolute Maximum Ratings ESD Caution Pin Configuration and Function Descriptions Typical Performance Characteristics Terminology Theory of Operation Circuit Information Converter Operation Output Coding Transfer Functions Analog Input Structure Track-and-Hold Section Typical Connection Diagram Analog Input Single-Ended Inputs True Differential Mode Pseudo Differential Inputs Driver Amplifier Choice Registers Addressing Registers Control Register Sequence Register Range Register Sequencer Operation Reference VDRIVE Modes of Operation Normal Mode (PM1 = PM0 = 0) Full Shutdown Mode (PM1 = PM0 = 1) Autoshutdown Mode (PM1 = 1, PM0 = 0) Autostandby Mode (PM1 = 0, PM0 = 1) Power vs. Throughput Rate Serial Interface Microprocessor Interfacing AD7323 to ADSP-21xx AD7323 to ADSP-BF53x Application Hints Layout and Grounding Power Supply Configuration Outline Dimensions Ordering Guide
