Datasheet AD7710 (Analog Devices) - 3
| Manufacturer | Analog Devices |
| Description | CMOS, 24-Bit Signal Conditioning ADC with Current Source |
| Pages / Page | 33 / 3 — AD7710–SPECIFICATIONS (AVDD = +5 V. 5%; DVDD = +5 V. 5%; VSS = 0 V or –5 … |
| Revision | G |
| File Format / Size | PDF / 322 Kb |
| Document Language | English |
AD7710–SPECIFICATIONS (AVDD = +5 V. 5%; DVDD = +5 V. 5%; VSS = 0 V or –5 V. 5%; REF IN(+) = +2.5 V;
Model Line for this Datasheet
Text Version of Document
AD7710–SPECIFICATIONS (AVDD = +5 V
ⴞ
5%; DVDD = +5 V
ⴞ
5%; VSS = 0 V or –5 V
ⴞ
5%; REF IN(+) = +2.5 V; REF IN(–) = AGND; MCLK IN = 10 MHz unless otherwise noted. All specifications TMIN to TMAX, unless otherwise noted.) Parameter A, S Versions1 Unit Conditions/Comments
STATIC PERFORMANCE No Missing Codes 24 Bits min Guaranteed by Design. For Filter Notches ≤ 60 Hz 22 Bits min For Filter Notch = 100 Hz 18 Bits min For Filter Notch = 250 Hz 15 Bits min For Filter Notch = 500 Hz 12 Bits min For Filter Notch = 1 kHz Output Noise Tables I and II Depends on Filter Cutoffs and Selected Gain Integral Nonlinearity @ +25°C ±0.0015 % of FSR max Filter Notches ≤ 60 Hz T ± MIN to TMAX 0.003 % of FSR max Typically ± 0.0003% Positive Full-Scale Error2, 3 See Note 4 Excluding Reference Full-Scale Drift5 1 µV/°C typ Excluding Reference. For Gains of 1, 2 0.3 µV/°C typ Excluding Reference. For Gains of 4, 8, 16, 32, 64, 128 Unipolar Offset Error2 See Note 4 Unipolar Offset Drift5 0.5 µV/°C typ For Gains of 1, 2 0.25 µV/°C typ For Gains of 4, 8, 16, 32, 64, 128 Bipolar Zero Error2 See Note 4 Bipolar Zero Drift5 0.5 µV/°C typ For Gains of 1, 2 0.25 µV/°C typ For Gains of 4, 8, 16, 32, 64, 128 Gain Drift 2 ppm/°C typ Bipolar Negative Full-Scale Error2 @ 25°C ±0.003 % of FSR max Excluding Reference T ± MIN to TMAX 0.006 % of FSR max Typically ± 0.0006% Bipolar Negative Full-Scale Drift5 1 µV/°C typ Excluding Reference. For Gains of 1, 2 0.3 µV/°C typ Excluding Reference. For Gains of 4, 8, 16, 32, 64, 128 ANALOG INPUTS/REFERENCE INPUTS Input Common-Mode Rejection (CMR) 100 dB min At DC and AVDD = 5 V 90 dB min At DC and AVDD = 10 V Common-Mode Voltage Range6 VSS to AVDD V min to V max Normal-Mode 50 Hz Rejection7 100 dB min For Filter Notches of 10, 25, 50 Hz, ± 0.02 × fNOTCH Normal-Mode 60 Hz Rejection7 100 dB min For Filter Notches of 10, 30, 60 Hz, ± 0.02 × fNOTCH Common-Mode 50 Hz Rejection7 150 dB min For Filter Notches of 10, 25, 50 Hz, ± 0.02 × fNOTCH Common-Mode 60 Hz Rejection7 150 dB min For Filter Notches of 10, 30, 60 Hz, ± 0.02 × fNOTCH DC Input Leakage Current7 @ 25°C 10 pA max TMIN to TMAX 1 nA max Sampling Capacitance7 20 pF max Analog Inputs8 Input Voltage Range9 For Normal Operation. Depends on Gain Selected 0 to +V 10 REF nom Unipolar Input Range (B/U Bit of Control Register = 1) ±VREF nom Bipolar Input Range (B/U Bit of Control Register = 0) Input Sampling Rate, fS See Table III Reference Inputs REF IN(+) – REF IN(–) Voltage11 2.5 to 5 V min to V max For Specified Performance. Part Is Functional with Lower VREF Voltages Input Sampling Rate, fS fCLK IN/256 NOTES 1Temperature ranges are as follows: A Version, –40°C to +85°C; S Version, –55°C to +125°C. See also Note 16. 2Applies after calibration at the temperature of interest. 3Positive full-scale error applies to both unipolar and bipolar input ranges. 4These errors will be of the order of the output noise of the part as shown in Table I after system calibration. These errors will be 20 µV typical after self-calibration or background calibration. 5Recalibration at any temperature or use of the background calibration mode will remove these drift errors. 6This common-mode voltage range is allowed, provided that the input voltage on AIN(+) and AIN(–) does not exceed AV DD + 30 mV and VSS – 30 mV. 7These numbers are guaranteed by design and/or characterization. 8The analog inputs present a very high impedance dynamic load that varies with clock frequency and input sample rate. The maximum recommended source resistance depends on the selected gain (see Tables IV and V). 9The analog input voltage range on the AIN1(+) and AIN2(+) inputs is given here with respect to the voltage on the AIN1(–) and AIN2(–) inputs. The absolute voltage on the analog inputs should not go more positive than AV DD + 30 mV or go more negative than VSS – 30 mV. 10VREF = REF IN(+) – REF IN(–). 11The reference input voltage range may be restricted by the input voltage range requirement on the VBIAS input. –2– REV. G Document Outline FEATURES APPLICATIONS FUNCTIONAL BLOCK DIAGRAM GENERAL DESCRIPTION PRODUCT HIGHLIGHTS SPECIFICATIONS ABSOLUTE MAXIMUM RATINGS TIMING CHARACTERISTICS ORDERING GUIDE PIN CONFIGURATION PIN FUNCTION DESCRIPTIONS Terminology Integral Nonlinearity Positive Full-Scale Error Unipolar Offset Error Bipolar Zero Error Bipolar Negative Full-Scale Error Positive Full-Scale Overrange Negative Full-Scale Overrange Offset Calibration Range Full-Scale Calibration Range Input Span CONTROL REGISTER (24 BITS) PGA GAIN CHANNEL SELECTION Power-Down Word Length Output Compensation Current Burn-Out Current Bipolar/Unipolar Selection (Both Inputs) FILTER SELECTION (FS11–FS0) CIRCUIT DESCRIPTION THEORY OF OPERATION Input Sample Rate DIGITAL FILTERING Filter Characteristics Post Filtering Antialias Considerations ANALOG INPUT FUNCTIONS Analog Input Ranges Burnout Current Output Compensation Current Bipolar/Unipolar Inputs REFERENCE INPUT/OUTPUT VBIAS Input USING THE AD7710 SYSTEM DESIGN CONSIDERATIONS Clocking System Synchronization Accuracy Autocalibration Self-Calibration System Calibration System Offset Calibration Background Calibration Span and Offset Limits POWER-UP AND CALIBRATION Drift Considerations POWER SUPPLIES AND GROUNDING DIGITAL INTERFACE Self-Clocking Mode Read Operation Write Operation External Clocking Mode Read Operation Write Operation SIMPLIFYING THE EXTERNAL CLOCKING MODE INTERFACE MICROCOMPUTER/MICROPROCESSOR INTERFACING AD7710 to 8XC51 Interface AD7710 to 68HC11 Interface APPLICATIONS OUTLINE DIMENSIONS Revision History
ⴞ
5%; DVDD = +5 V
ⴞ
5%; VSS = 0 V or –5 V
ⴞ
5%; REF IN(+) = +2.5 V; REF IN(–) = AGND; MCLK IN = 10 MHz unless otherwise noted. All specifications TMIN to TMAX, unless otherwise noted.) Parameter A, S Versions1 Unit Conditions/Comments
STATIC PERFORMANCE No Missing Codes 24 Bits min Guaranteed by Design. For Filter Notches ≤ 60 Hz 22 Bits min For Filter Notch = 100 Hz 18 Bits min For Filter Notch = 250 Hz 15 Bits min For Filter Notch = 500 Hz 12 Bits min For Filter Notch = 1 kHz Output Noise Tables I and II Depends on Filter Cutoffs and Selected Gain Integral Nonlinearity @ +25°C ±0.0015 % of FSR max Filter Notches ≤ 60 Hz T ± MIN to TMAX 0.003 % of FSR max Typically ± 0.0003% Positive Full-Scale Error2, 3 See Note 4 Excluding Reference Full-Scale Drift5 1 µV/°C typ Excluding Reference. For Gains of 1, 2 0.3 µV/°C typ Excluding Reference. For Gains of 4, 8, 16, 32, 64, 128 Unipolar Offset Error2 See Note 4 Unipolar Offset Drift5 0.5 µV/°C typ For Gains of 1, 2 0.25 µV/°C typ For Gains of 4, 8, 16, 32, 64, 128 Bipolar Zero Error2 See Note 4 Bipolar Zero Drift5 0.5 µV/°C typ For Gains of 1, 2 0.25 µV/°C typ For Gains of 4, 8, 16, 32, 64, 128 Gain Drift 2 ppm/°C typ Bipolar Negative Full-Scale Error2 @ 25°C ±0.003 % of FSR max Excluding Reference T ± MIN to TMAX 0.006 % of FSR max Typically ± 0.0006% Bipolar Negative Full-Scale Drift5 1 µV/°C typ Excluding Reference. For Gains of 1, 2 0.3 µV/°C typ Excluding Reference. For Gains of 4, 8, 16, 32, 64, 128 ANALOG INPUTS/REFERENCE INPUTS Input Common-Mode Rejection (CMR) 100 dB min At DC and AVDD = 5 V 90 dB min At DC and AVDD = 10 V Common-Mode Voltage Range6 VSS to AVDD V min to V max Normal-Mode 50 Hz Rejection7 100 dB min For Filter Notches of 10, 25, 50 Hz, ± 0.02 × fNOTCH Normal-Mode 60 Hz Rejection7 100 dB min For Filter Notches of 10, 30, 60 Hz, ± 0.02 × fNOTCH Common-Mode 50 Hz Rejection7 150 dB min For Filter Notches of 10, 25, 50 Hz, ± 0.02 × fNOTCH Common-Mode 60 Hz Rejection7 150 dB min For Filter Notches of 10, 30, 60 Hz, ± 0.02 × fNOTCH DC Input Leakage Current7 @ 25°C 10 pA max TMIN to TMAX 1 nA max Sampling Capacitance7 20 pF max Analog Inputs8 Input Voltage Range9 For Normal Operation. Depends on Gain Selected 0 to +V 10 REF nom Unipolar Input Range (B/U Bit of Control Register = 1) ±VREF nom Bipolar Input Range (B/U Bit of Control Register = 0) Input Sampling Rate, fS See Table III Reference Inputs REF IN(+) – REF IN(–) Voltage11 2.5 to 5 V min to V max For Specified Performance. Part Is Functional with Lower VREF Voltages Input Sampling Rate, fS fCLK IN/256 NOTES 1Temperature ranges are as follows: A Version, –40°C to +85°C; S Version, –55°C to +125°C. See also Note 16. 2Applies after calibration at the temperature of interest. 3Positive full-scale error applies to both unipolar and bipolar input ranges. 4These errors will be of the order of the output noise of the part as shown in Table I after system calibration. These errors will be 20 µV typical after self-calibration or background calibration. 5Recalibration at any temperature or use of the background calibration mode will remove these drift errors. 6This common-mode voltage range is allowed, provided that the input voltage on AIN(+) and AIN(–) does not exceed AV DD + 30 mV and VSS – 30 mV. 7These numbers are guaranteed by design and/or characterization. 8The analog inputs present a very high impedance dynamic load that varies with clock frequency and input sample rate. The maximum recommended source resistance depends on the selected gain (see Tables IV and V). 9The analog input voltage range on the AIN1(+) and AIN2(+) inputs is given here with respect to the voltage on the AIN1(–) and AIN2(–) inputs. The absolute voltage on the analog inputs should not go more positive than AV DD + 30 mV or go more negative than VSS – 30 mV. 10VREF = REF IN(+) – REF IN(–). 11The reference input voltage range may be restricted by the input voltage range requirement on the VBIAS input. –2– REV. G Document Outline FEATURES APPLICATIONS FUNCTIONAL BLOCK DIAGRAM GENERAL DESCRIPTION PRODUCT HIGHLIGHTS SPECIFICATIONS ABSOLUTE MAXIMUM RATINGS TIMING CHARACTERISTICS ORDERING GUIDE PIN CONFIGURATION PIN FUNCTION DESCRIPTIONS Terminology Integral Nonlinearity Positive Full-Scale Error Unipolar Offset Error Bipolar Zero Error Bipolar Negative Full-Scale Error Positive Full-Scale Overrange Negative Full-Scale Overrange Offset Calibration Range Full-Scale Calibration Range Input Span CONTROL REGISTER (24 BITS) PGA GAIN CHANNEL SELECTION Power-Down Word Length Output Compensation Current Burn-Out Current Bipolar/Unipolar Selection (Both Inputs) FILTER SELECTION (FS11–FS0) CIRCUIT DESCRIPTION THEORY OF OPERATION Input Sample Rate DIGITAL FILTERING Filter Characteristics Post Filtering Antialias Considerations ANALOG INPUT FUNCTIONS Analog Input Ranges Burnout Current Output Compensation Current Bipolar/Unipolar Inputs REFERENCE INPUT/OUTPUT VBIAS Input USING THE AD7710 SYSTEM DESIGN CONSIDERATIONS Clocking System Synchronization Accuracy Autocalibration Self-Calibration System Calibration System Offset Calibration Background Calibration Span and Offset Limits POWER-UP AND CALIBRATION Drift Considerations POWER SUPPLIES AND GROUNDING DIGITAL INTERFACE Self-Clocking Mode Read Operation Write Operation External Clocking Mode Read Operation Write Operation SIMPLIFYING THE EXTERNAL CLOCKING MODE INTERFACE MICROCOMPUTER/MICROPROCESSOR INTERFACING AD7710 to 8XC51 Interface AD7710 to 68HC11 Interface APPLICATIONS OUTLINE DIMENSIONS Revision History
