Datasheet AD7796, AD7797 (Analog Devices) - 8

HerstellerAnalog Devices
BeschreibungLow Power 24-Bit Sigma-Delta A/D Converter for Bridge Sensors
Seiten / Seite24 / 8 — AD7796/AD7797. Data Sheet. PIN CONFIGURATION AND FUNCTION DESCRIPTIONS. …
RevisionB
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DokumentenspracheEnglisch

AD7796/AD7797. Data Sheet. PIN CONFIGURATION AND FUNCTION DESCRIPTIONS. SCLK. DIN. CLK. 15 DOUT/RDY. AD7796/. DVDD. AD7797. TOP VIEW. AVDD

AD7796/AD7797 Data Sheet PIN CONFIGURATION AND FUNCTION DESCRIPTIONS SCLK DIN CLK 15 DOUT/RDY AD7796/ DVDD AD7797 TOP VIEW AVDD

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AD7796/AD7797 Data Sheet PIN CONFIGURATION AND FUNCTION DESCRIPTIONS SCLK 1 16 DIN CLK 2 15 DOUT/RDY AD7796/ CS 3 14 DVDD AD7797 NC 4 13 TOP VIEW AVDD (Not to Scale) AIN(+) 5 12 GND AIN(–) 6 11 NC NC 7 10 REFIN(–) NC 8 9 REFIN(+)
05 0 3-
NC = NO CONNECT
08 06 Figure 5. Pin Configuration
Table 5. Pin Function Descriptions Pin No. Mnemonic Description
1 SCLK Serial Clock Input. This serial clock input is for data transfers to and from the ADC. The SCLK has a Schmitt- triggered input, making the interface suitable for opto-isolated applications. The serial clock can be continuous with all data transmitted in a constant train of pulses. Alternatively, it can be a noncontinuous clock with the information being transmitted to or from the ADC in smaller batches of data. 2 CLK Clock In/Clock Out. The internal clock can be made available at this pin. Alternatively, the internal clock can be disabled, and the ADC can be driven by an external clock. This allows several ADCs to be driven from a common clock, allowing simultaneous conversions to be performed. 3 CS Chip Select Input. This is an active low logic input used to select the ADC. CS can be used to select the ADC in systems with more than one device on the serial bus or as a frame synchronization signal in communicating with the device. CS can be hardwired low, allowing the ADC to operate in 3-wire mode with SCLK, DIN, and DOUT used to interface with the device. 4 NC No Connect. 5 AIN(+) Analog Input. AIN(+) is the positive terminal of the differential analog input pair AIN(+)/AIN(−). 6 AIN(−) Analog Input. AIN(−) is the negative terminal of the differential analog input pair AIN(+)/AIN(−). 7 NC No Connect. 8 NC No Connect. 9 REFIN(+) Positive Reference Input/Analog Input. An external reference can be applied between REFIN(+) and REFIN(–). REFIN(+) can lie anywhere between AVDD and GND + 0.1 V. The nominal reference voltage (REFIN(+) – REFIN(−)) is 2.5 V, but the devices function with a reference of 0.1 V to AVDD. 10 REFIN(−) Negative Reference Input/Analog Input. REFIN(−) is the negative reference input for REFIN. This reference input can lie anywhere between GND and AVDD − 0.1 V. 11 NC No Connect. 12 GND Ground Reference Point. 13 AVDD Supply Voltage, 2.7 V to 5.25 V. 14 DVDD Digital Interface Supply Voltage. The logic levels for the serial interface pins are related to this supply, which is between 2.7 V and 5.25 V. The DVDD voltage is independent of the voltage on AVDD; therefore, AVDD can equal 5 V with DVDD at 3 V or vice versa. 15 DOUT/RDY Serial Data Output/Data Ready Output. DOUT/RDY serves a dual purpose. It functions as a serial data output pin to access the output shift register of the ADC. The output shift register can contain data from any of the on- chip data or control registers. In addition, DOUT/RDY operates as a data ready pin, going low to indicate the completion of a conversion. If the data is not read after the conversion, the pin goes high before the next update occurs. The DOUT/RDY falling edge can be used as an interrupt to a processor, indicating that valid data is available. With an external serial clock, the data can be read using the DOUT/RDY pin. With CS low, the data/control word information is placed on the DOUT/RDY pin on the SCLK falling edge and is valid on the SCLK rising edge. 16 DIN Serial Data Input. This serial data input accesses the input shift register on the ADC. Data in this shift register is transferred to the control registers within the ADC; the register selection bits of the communication register identify the appropriate register. Rev. B | Page 8 of 24 Document Outline FEATURES INTERFACE APPLICATIONS FUNCTIONAL BLOCK DIAGRAM GENERAL DESCRIPTION TABLE OF CONTENTS REVISION HISTORY SPECIFICATIONS TIMING CHARACTERISTICS TIMING DIAGRAMS ABSOLUTE MAXIMUM RATINGS THERMAL RESISTANCE ESD CAUTION PIN CONFIGURATION AND FUNCTION DESCRIPTIONS RMS NOISE AND RESOLUTION SPECIFICATIONS TYPICAL PERFORMANCE CHARACTERISTICS ON-CHIP REGISTERS COMMUNICATION REGISTER RS2, RS1, RS0 = 0, 0, 0 STATUS REGISTER RS2, RS1, RS0 = 0, 0, 0; Power-On/Reset = 0x80 MODE REGISTER RS2, RS1, RS0 = 0, 0, 1; Power-On/Reset = 0x000A CONFIGURATION REGISTER RS2, RS1, RS0 = 0, 1, 0; Power-On/Reset = 0x0710 DATA REGISTER RS2, RS1, RS0 = 0, 1, 1; Power-On/Reset = 0x0000 (AD7796)/0x000000 (AD7797) ID REGISTER RS2, RS1, RS0 = 1, 0, 0; Power-On/Reset = 0x5A (AD7796)/0x5B (AD7797) OFFSET REGISTER RS2, RS1, RS0 = 1, 1, 0; Power-On/Reset = 0x8000 (AD7796)/0x800000 (AD7797) FULL-SCALE REGISTER RS2, RS1, RS0 = 1, 1, 1; Power-On/Reset = 0x5XXX (AD7796)/0x5XXX00 (AD7797) ADC CIRCUIT INFORMATION OVERVIEW DIGITAL INTERFACE Single Conversion Mode Continuous Conversion Mode Continuous Read Mode CIRCUIT DESCRIPTION ANALOG INPUT CHANNEL BIPOLAR/UNIPOLAR CONFIGURATION DATA OUTPUT CODING REFERENCE RESET BURNOUT CURRENTS AVDD MONITOR TEMPERATURE MONITOR CALIBRATION GROUNDING AND LAYOUT APPLICATIONS INFORMATION WEIGH SCALES OUTLINE DIMENSIONS ORDERING GUIDE