SBAS502C December 2011 – April 2020 ADS1291 , ADS1292 , ADS1292R
PRODUCTION DATA.
PARAMETER | TEST CONDITIONS | MIN | TYP | MAX | UNIT | ||
---|---|---|---|---|---|---|---|
ANALOG INPUTS | |||||||
Full-scale differential input voltage
(AINP – AINN) |
±VREF / gain | V | |||||
Input common-mode range | See the Input Common-Mode Range subsection of the PGA Settings and Input Range section | ||||||
Input capacitance | 20 | pF | |||||
Input bias current (PGA chop = 8 kHz) | TA = +25°C, input = 1.5 V | ±200 | pA | ||||
TA = –40°C to +85°C, input = 1.5 V | ±1 | nA | |||||
Chop rates other than 8 kHz | See Pace Detect section | ||||||
DC input impedance | No pull-up or pull-down current source | 1000 | MΩ | ||||
Current source lead-off detection (nA),
AVSS + 0.3 V < AIN < AVDD – 0.3 V |
500 | MΩ | |||||
Current source lead-off detection (µA),
AVSS + 0.6 V < AIN < AVDD – 0.6 V |
100 | MΩ | |||||
PGA PERFORMANCE | |||||||
Gain settings | 1, 2, 3, 4, 6, 8, 12 | ||||||
Bandwidth | With a 4.7-nF capacitor on PGA output
(see PGA Settings and Input Range section for details) |
8.5 | kHz | ||||
ADC PERFORMANCE | |||||||
Resolution | 24 | Bits | |||||
Data rate | fCLK = 512 kHz | 125 | 8000 | SPS | |||
CHANNEL PERFORMANCE (DC Performance) | |||||||
Input-referred noise | Gain = 6(1), 10 seconds of data | 8 | μVPP | ||||
Gain = 6, 256 points, 0.5 seconds of data | 8 | 11 | μVPP | ||||
Gain settings other than 6,
data rates other than 500 SPS |
See Noise Measurements section | ||||||
Integral nonlinearity | Full-scale with gain = 6, best fit | 2 | ppm | ||||
Offset error | ±100 | μV | |||||
Offset error drift | 2 | μV/°C | |||||
Offset error with calibration | 15 | μV | |||||
Gain error | Excluding voltage reference error | ±0.1 | ±0.2 | % of FS | |||
Gain drift | Excluding voltage reference drift | 2 | ppm/°C | ||||
Gain match between channels | 0.2 | % of FS | |||||
CHANNEL PERFORMANCE (AC performance) | |||||||
CMRR | Common-mode rejection ratio | fCM = 50 Hz and 60 Hz(2) | 105 | 120 | dB | ||
PSRR | Power-supply rejection ratio | fPS = 50 Hz and 60 Hz | 90 | dB | |||
Crosstalk | fIN = 50 Hz and 60 Hz | –120 | dB | ||||
SNR | Signal-to-noise ratio | fIN = 10 Hz input, gain = 6 | 107 | dB | |||
THD | Total harmonic distortion | 10 Hz, –0.5 dBFs, CFILTER = 4.7nF | –104 | dB | |||
100 Hz, –0.5 dBFs, CFILTER = 4.7nF | –95 | dB | |||||
ADS1292R channel 1, 10 Hz, –0.5 dBFS, CFILTER = 47 nF | –82 | dB | |||||
DIGITAL FILTER | |||||||
–3-dB bandwidth | 0.262 fDR | Hz | |||||
Digital filter settling | Full setting | 4 | Conversions | ||||
RIGHT LEG DRIVE (RLD) AMPLIFIER | |||||||
RLD integrated noise | BW = 150 Hz | 1.4 | μVRMS | ||||
GBP | Gain bandwidth product | 50 kΩ || 10 pF load, gain = 1 | 100 | kHz | |||
SR | Slew rate | 50 kΩ || 10 pF load, gain = 1 | 0.07 | V/μs | |||
THD | Total harmonic distortion | fIN = 100 Hz, gain = 1 | –85 | dB | |||
CMIR | Common-mode input range | AVSS + 0.3 | AVDD – 0.3 | V | |||
Common-mode resistor matching | Internal 200-kΩ resistor matching | 0.1 | % | ||||
ISC | Short-circuit current | 1.1 | mA | ||||
Quiescent power consumption | 5 | μA | |||||
LEAD-OFF DETECT | |||||||
Frequency | See Register Map section for settings | 0, fDR / 4 | kHz | ||||
Current | ILEAD_OFF [1:0] = 00 | 6 | nA | ||||
ILEAD_OFF [1:0] = 01 | 22 | nA | |||||
ILEAD_OFF [1:0] = 10 | 6 | μA | |||||
ILEAD_OFF [1:0] = 11 | 22 | μA | |||||
Current accuracy | ±10 | % | |||||
Comparator threshold accuracy | ±10 | mV | |||||
RESPIRATION (ADS1292R) | |||||||
Frequency | Internal source | 32, 64 | kHz | ||||
External source | 32 | 64 | kHz | ||||
Phase shift | See Register Map section for settings | 0 | 112.5 | 168.75 | Degrees | ||
Impedance range | IRESP = 30 µA | 2000 | 10,000 | Ω | |||
Impedance measurement noise | 0.05-Hz to 2-Hz brick wall filter, 32-kHz modulation clock, phase = 112.5,
using IRESP = 30 µA with 2-kΩ baseline load, gain = 4 |
40 | mΩPP | ||||
Maximum modulator current | Using Internal reference | 100 | μA | ||||
EXTERNAL REFERENCE | |||||||
Reference input voltage | 3-V supply VREF = (VREFP – VREFN) | 2 | 2.5 | VDD – 0.3 | V | ||
5-V supply VREF = (VREFP – VREFN) | 2 | 4 | VDD – 0.3 | V | |||
VREFN | Negative input | AVSS | V | ||||
VREFP | Positive input | AVSS + 2.5 | V | ||||
Input impedance | 120 | kΩ | |||||
INTERNAL REFERENCE | |||||||
Output voltage | Register bit CONFIG2.VREF_4V = 0 | 2.42 | V | ||||
Register bit CONFIG2.VREF_4V = 1 | 4.033 | V | |||||
Output current drive | Available for external use | 100 | µA | ||||
VREF accuracy | ±0.5 | % | |||||
Internal reference drift | –40°C ≤ TA ≤ +85°C | 45 | ppm/°C | ||||
Start-up time | Settled to 0.2% with 10-µF capacitor on VREFP pin | 100 | ms | ||||
Quiescent current consumption | 20 | µA | |||||
SYSTEM MONITORS | |||||||
Analog supply reading error | 1 | % | |||||
Digital supply reading error | 1 | % | |||||
Device wake up | From power-supply ramp after power-on reset (POR) to DRDY low | 32 | ms | ||||
From power-down mode to DRDY low | 10 | ms | |||||
From STANDBY mode to DRDY low | 10 | ms | |||||
VCAP1 settling time | 1% accuracy | 0.5 | s | ||||
Temperature sensor reading | Voltage | TA = +25°C | 145 | mV | |||
Coefficient | 490 | μV/°C | |||||
TEST SIGNAL | |||||||
Signal frequency | See Register Map section for settings | At dc and 1 Hz | Hz | ||||
Signal voltage | See Register Map section for settings | ±1 | mV | ||||
Accuracy | ±2 | % | |||||
CLOCK | |||||||
Internal oscillator clock frequency | Nominal frequency | 512 | kHz | ||||
Internal clock accuracy | TA = +25°C | ±0.5 | % | ||||
–40°C ≤ TA ≤ +85°C | ±1.5 | % | |||||
Internal oscillator start-up time | 32 | μs | |||||
Internal oscillator power consumption | 30 | μW | |||||
External clock input frequency | CLKSEL pin = 0, CLK_DIV = 0 | 485 | 512 | 562.5 | kHz | ||
CLKSEL pin = 0, CLK_DIV = 1 | 1.94 | 2.048 | 2.25 | MHz | |||
DIGITAL INPUT/OUTPUT | |||||||
VIH | Logic level | DVDD = 1.8 V to 3.6 V | 0.8 DVDD | DVDD + 0.1 | V | ||
VIL | DVDD = 1.8 V to 3.6 V | –0.1 | 0.2 DVDD | V | |||
VIH | DVDD = 1.7 V to 1.8 V | DVDD – 0.2 | V | ||||
VIL | DVDD = 1.7 V to 1.8 V | 0.2 | V | ||||
VOH | DVDD = 1.7 V to 3.6 V | IOH = –500 μA | 0.9 DVDD | V | |||
VOL | DVDD = 1.7 V to 3.6 V | IOL = +500 μA | 0.1 DVDD | V | |||
IIN | Input current | 0 V < VDigitalInput < DVDD | –10 | +10 | μA | ||
POWER-SUPPLY REQUIREMENTS | |||||||
AVDD | Analog supply | AVDD – AVSS | 2.7 | 3 | 5.25 | V | |
DVDD | Digital supply | DVDD – DGND | 1.7 | 1.8 | 3.6 | V | |
AVDD – DVDD | –2.1 | 3.6 | V | ||||
SUPPLY CURRENT (RLD Amplifier Turned Off) | |||||||
IAVDD | ADS1292 and ADS1292R | AVDD – AVSS = 3 V | 205 | μA | |||
AVDD – AVSS = 5 V | 250 | μA | |||||
IDVDD | ADS1292 and ADS1292R | DVDD = 3.3 V | 75 | μA | |||
DVDD = 1.8 V | 32 | μA | |||||
POWER DISSIPATION (Analog Supply = 3 V, RLD Amplifier Turned Off) | |||||||
Quiescent power dissipation | ADS1292 and ADS1292R | Normal mode | 670 | 740 | µW | ||
Standby mode | 160 | µW | |||||
ADS1291 | Normal mode | 450 | 495 | µW | |||
Standby mode | 160 | µW | |||||
Quiescent power dissipation, per channel | ADS1292R | Normal mode | 335 | µW | |||
ADS1292 | Normal mode | 335 | µW | ||||
ADS1291 | Normal mode | 450 | µW | ||||
POWER DISSIPATION (Analog Supply = 5 V, RLD Amplifier Turned Off) | |||||||
Quiescent power dissipation | ADS1292 and ADS1292R | Normal mode | 1300 | µW | |||
Standby mode | 340 | µW | |||||
ADS1291 | Normal mode | 950 | µW | ||||
Standby mode | 340 | µW | |||||
Quiescent power dissipation, per channel | ADS1292R | Normal mode | 670 | µW | |||
ADS1292 | Normal mode | 670 | µW | ||||
ADS1291 | Normal mode | 860 | µW | ||||
POWER DISSIPATION IN POWER-DOWN MODE | |||||||
Analog supply = 3 V | DVDD = 1.8 V | 1 | µW | ||||
DVDD = 3.3 V | 4 | µW | |||||
Analog supply = 5 V | DVDD = 1.8 V | 5 | µW | ||||
DVDD = 3.3 V | 10 | µW | |||||
TEMPERATURE | |||||||
Specified temperature range | –40 | +85 | °C | ||||
Operating temperature range | –40 | +85 | °C | ||||
Storage temperature range | –60 | +150 | °C |