Datasheet AD7656A (Analog Devices) - 10
| Manufacturer | Analog Devices |
| Description | 250 kSPS, 6-Channel, Simultaneous Sampling, Bipolar 16-Bit ADC |
| Pages / Page | 29 / 10 — Data Sheet. AD7656A. Pin No. Mnemonic. Description |
| File Format / Size | PDF / 528 Kb |
| Document Language | English |
Data Sheet. AD7656A. Pin No. Mnemonic. Description
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Data Sheet AD7656A Pin No. Mnemonic Description
27 RANGE Analog Input Range Selection. Logic input. The logic level on this pin determines the input range of the analog input channels. When this pin is Logic 1 at the falling edge of BUSY, the range for the next conversion is ±2 × VREF. When this pin is Logic 0 at the falling edge of BUSY, the range for the next conversion is ±4 × VREF. In hardware select mode, the RANGE pin is checked on the falling edge of BUSY. In software mode (H/S SEL = 1), the RANGE pin can be tied to DGND, and the input range is determined by the RNGA, RNGB, and RNGC bits in the control register. 28 RESET Reset Input. When set to logic high, this pin resets the AD7656A, and the current conversion, if any, is aborted. The internal register is set to all 0s. In hardware mode, the AD7656A is configured depending on the logic levels on the hardware select pins. In all modes, after power-up, the device must receive a RESET pulse. The reset high pulse is typically 100 ns wide. After the RESET pulse, the AD7656A needs to see a valid CONVST pulse to initiate a conversion; this typically consists of a high- to-low CONVST edge followed by a low-to-high CONVST edge. During the RESET pulse, the CONVST x signal must be high. 29 W/B Word/Byte Input. When this pin is logic low, data can be transferred to and from the AD7656A using the parallel data lines DB15 to DB0. When this pin is logic high, byte mode is enabled. In this mode, data is transferred using data lines DB15 to DB8 and DB7 takes on its HBEN function. To obtain the 16-bit conversion result, 2-byte reads are required. In serial mode, tie this pin to DGND. 30 VSS Negative Power Supply Voltage. This is the negative supply voltage for the analog input section. Place 10 µF and 100 nF decoupling capacitors on the VSS pin. 31 VDD Positive Power Supply Voltage. This is the positive supply voltage for the analog input section. Place 10 µF and 100 nF decoupling capacitors on the VDD pin. 32, 37, 38, 43, AGND Analog Ground. Ground reference point for all analog circuitry on the AD7656A. Refer all analog input 44, 49, 52, 53, signals and any external reference signal to the AGND voltage. Connect all AGND pins to the AGND 55, 57, 59 plane of a system. Ideally, the AGND and DGND voltages are at the same potential and must not be more than 0.3 V apart, even on a transient basis. 33, 36, 39, V1 to V6 Analog Input 1 to Analog Input 6. These are six single-ended analog inputs. In hardware mode, 42, 45, 48 the analog input range on these channels is determined by the RANGE pin. In software mode, it is determined by Bit RNGC to Bit RNGA of the control register (see Table 9). 34, 35, 40, AVCC Analog Supply Voltage, 4.75 V to 5.25 V. The AVCC pin is the supply voltage for the ADC cores. Ideally, 41, 46, 47, the AVCC and DVCC voltages are at the same potential and must not be more than 0.3 V apart, even 50, 60 on a transient basis. Decouple these supply pins to AGND, and place 10 µF and 100 nF decoupling capacitors on the AVCC pins. 51 REFIN/REFOUT Reference Input/Reference Output. The on-chip reference is available on Pin 51 for external use to the AD7656A. Alternatively, the internal reference can be disabled and an external reference can be applied to this input. See the Reference Section. When the internal reference is enabled, decouple Pin 51 using at least a 10 µF decoupling capacitor. 54, 56, 58 REFCAPA, REFCAPB, Reference Capacitor A, Reference Capacitor B, and Reference Capacitor C. Decoupling capacitors are REFCAPC connected to these pins, which decouples the reference buffer for each ADC pair. Decouple each REFCAPx pin to AGND using 10 µF and 100 nF capacitors. 61 SER/PAR/SEL Serial/Parallel Selection Input. When this pin is low, the parallel interface is selected. When this pin is high, the serial interface mode is selected. In serial mode, DB10 to DB8 take on their DOUT C to DOUT A function, DB0 to DB2 take on their DOUT select function, and DB7 takes on its DCEN function. In serial mode, tie DB15 and DB13 to DB11 to DGND 62 H/S SEL Hardware/Software Select Input. Logic input. When H/S SEL = 0, the AD7656A operates in hardware select mode, and the ADC pairs to be simultaneously sampled are selected by the CONVST x pins. When H/S SEL = 1, the ADC pairs to be sampled simultaneously are selected by writing to the control register. In serial mode, CONVST A is used to initiate conversions on the selected ADC pairs. 63 WR/REFEN/D IS Write Data/Reference Enable/Disable. When H/S SEL pin is high and both CS and WR are logic low, DB15 to DB8 are used to write data to the internal control register. When the H/S SEL pin is low, this pin is used to enable or disable the internal reference. When H/S SEL = 0 and REFEN/DIS = 0, the internal reference is disabled, and an external reference must be applied to the REFIN/REFOUT pin. When H/S SEL = 0 and REFEN/DIS = 1, the internal reference is enabled and the REFIN/REFOUT pin must be decoupled. See the Reference Section. 1 Multifunction pin names may be referenced by their relevant function only. Rev. 0 | Page 9 of 28 Document Outline FEATURES APPLICATIONS FUNCTIONAL BLOCK DIAGRAM GENERAL DESCRIPTION PRODUCT HIGHLIGHTS TABLE OF CONTENTS REVISION HISTORY SPECIFICATIONS TIMING SPECIFICATIONS ABSOLUTE MAXIMUM RATINGS POWER SUPPLY SEQUENCING THERMAL RESISTANCE ESD CAUTION PIN CONFIGURATION AND FUNCTION DESCRIPTIONS TYPICAL PERFORMANCE CHARACTERISTICS TERMINOLOGY THEORY OF OPERATION CONVERTER DETAILS Track-and-Hold Amplifiers Analog Input ADC TRANSFER FUNCTION REFERENCE SECTION TYPICAL CONNECTION DIAGRAM DRIVING THE ANALOG INPUTS INTERFACE SECTION Parallel Interface (SER/PAR/SEL = 0) SOFTWARE SELECTION OF ADCS Changing the Analog Input Range (H/S SEL = 0) Changing the Analog Input Range (H/S SEL = 1) Serial Interface (SER/PAR/SEL = 1) SERIAL READ OPERATION DAISY-CHAIN MODE (DCEN = 1, SER//SEL = 1) Standby/Partial Power-Down Modes of Operation (SER/PAR/SEL = 0 or SER/PAR/SEL = 1) APPLICATION HINTS LAYOUT OUTLINE DIMENSIONS ORDERING GUIDE
Data Sheet AD7656A Pin No. Mnemonic Description
27 RANGE Analog Input Range Selection. Logic input. The logic level on this pin determines the input range of the analog input channels. When this pin is Logic 1 at the falling edge of BUSY, the range for the next conversion is ±2 × VREF. When this pin is Logic 0 at the falling edge of BUSY, the range for the next conversion is ±4 × VREF. In hardware select mode, the RANGE pin is checked on the falling edge of BUSY. In software mode (H/S SEL = 1), the RANGE pin can be tied to DGND, and the input range is determined by the RNGA, RNGB, and RNGC bits in the control register. 28 RESET Reset Input. When set to logic high, this pin resets the AD7656A, and the current conversion, if any, is aborted. The internal register is set to all 0s. In hardware mode, the AD7656A is configured depending on the logic levels on the hardware select pins. In all modes, after power-up, the device must receive a RESET pulse. The reset high pulse is typically 100 ns wide. After the RESET pulse, the AD7656A needs to see a valid CONVST pulse to initiate a conversion; this typically consists of a high- to-low CONVST edge followed by a low-to-high CONVST edge. During the RESET pulse, the CONVST x signal must be high. 29 W/B Word/Byte Input. When this pin is logic low, data can be transferred to and from the AD7656A using the parallel data lines DB15 to DB0. When this pin is logic high, byte mode is enabled. In this mode, data is transferred using data lines DB15 to DB8 and DB7 takes on its HBEN function. To obtain the 16-bit conversion result, 2-byte reads are required. In serial mode, tie this pin to DGND. 30 VSS Negative Power Supply Voltage. This is the negative supply voltage for the analog input section. Place 10 µF and 100 nF decoupling capacitors on the VSS pin. 31 VDD Positive Power Supply Voltage. This is the positive supply voltage for the analog input section. Place 10 µF and 100 nF decoupling capacitors on the VDD pin. 32, 37, 38, 43, AGND Analog Ground. Ground reference point for all analog circuitry on the AD7656A. Refer all analog input 44, 49, 52, 53, signals and any external reference signal to the AGND voltage. Connect all AGND pins to the AGND 55, 57, 59 plane of a system. Ideally, the AGND and DGND voltages are at the same potential and must not be more than 0.3 V apart, even on a transient basis. 33, 36, 39, V1 to V6 Analog Input 1 to Analog Input 6. These are six single-ended analog inputs. In hardware mode, 42, 45, 48 the analog input range on these channels is determined by the RANGE pin. In software mode, it is determined by Bit RNGC to Bit RNGA of the control register (see Table 9). 34, 35, 40, AVCC Analog Supply Voltage, 4.75 V to 5.25 V. The AVCC pin is the supply voltage for the ADC cores. Ideally, 41, 46, 47, the AVCC and DVCC voltages are at the same potential and must not be more than 0.3 V apart, even 50, 60 on a transient basis. Decouple these supply pins to AGND, and place 10 µF and 100 nF decoupling capacitors on the AVCC pins. 51 REFIN/REFOUT Reference Input/Reference Output. The on-chip reference is available on Pin 51 for external use to the AD7656A. Alternatively, the internal reference can be disabled and an external reference can be applied to this input. See the Reference Section. When the internal reference is enabled, decouple Pin 51 using at least a 10 µF decoupling capacitor. 54, 56, 58 REFCAPA, REFCAPB, Reference Capacitor A, Reference Capacitor B, and Reference Capacitor C. Decoupling capacitors are REFCAPC connected to these pins, which decouples the reference buffer for each ADC pair. Decouple each REFCAPx pin to AGND using 10 µF and 100 nF capacitors. 61 SER/PAR/SEL Serial/Parallel Selection Input. When this pin is low, the parallel interface is selected. When this pin is high, the serial interface mode is selected. In serial mode, DB10 to DB8 take on their DOUT C to DOUT A function, DB0 to DB2 take on their DOUT select function, and DB7 takes on its DCEN function. In serial mode, tie DB15 and DB13 to DB11 to DGND 62 H/S SEL Hardware/Software Select Input. Logic input. When H/S SEL = 0, the AD7656A operates in hardware select mode, and the ADC pairs to be simultaneously sampled are selected by the CONVST x pins. When H/S SEL = 1, the ADC pairs to be sampled simultaneously are selected by writing to the control register. In serial mode, CONVST A is used to initiate conversions on the selected ADC pairs. 63 WR/REFEN/D IS Write Data/Reference Enable/Disable. When H/S SEL pin is high and both CS and WR are logic low, DB15 to DB8 are used to write data to the internal control register. When the H/S SEL pin is low, this pin is used to enable or disable the internal reference. When H/S SEL = 0 and REFEN/DIS = 0, the internal reference is disabled, and an external reference must be applied to the REFIN/REFOUT pin. When H/S SEL = 0 and REFEN/DIS = 1, the internal reference is enabled and the REFIN/REFOUT pin must be decoupled. See the Reference Section. 1 Multifunction pin names may be referenced by their relevant function only. Rev. 0 | Page 9 of 28 Document Outline FEATURES APPLICATIONS FUNCTIONAL BLOCK DIAGRAM GENERAL DESCRIPTION PRODUCT HIGHLIGHTS TABLE OF CONTENTS REVISION HISTORY SPECIFICATIONS TIMING SPECIFICATIONS ABSOLUTE MAXIMUM RATINGS POWER SUPPLY SEQUENCING THERMAL RESISTANCE ESD CAUTION PIN CONFIGURATION AND FUNCTION DESCRIPTIONS TYPICAL PERFORMANCE CHARACTERISTICS TERMINOLOGY THEORY OF OPERATION CONVERTER DETAILS Track-and-Hold Amplifiers Analog Input ADC TRANSFER FUNCTION REFERENCE SECTION TYPICAL CONNECTION DIAGRAM DRIVING THE ANALOG INPUTS INTERFACE SECTION Parallel Interface (SER/PAR/SEL = 0) SOFTWARE SELECTION OF ADCS Changing the Analog Input Range (H/S SEL = 0) Changing the Analog Input Range (H/S SEL = 1) Serial Interface (SER/PAR/SEL = 1) SERIAL READ OPERATION DAISY-CHAIN MODE (DCEN = 1, SER//SEL = 1) Standby/Partial Power-Down Modes of Operation (SER/PAR/SEL = 0 or SER/PAR/SEL = 1) APPLICATION HINTS LAYOUT OUTLINE DIMENSIONS ORDERING GUIDE
