ADS131M08IRSNR

The ADS131M08IRSNR is an electronic component from Texas Instruments. View the full ADS131M08IRSNR datasheet below including key specifications, electrical characteristics, absolute maximum ratings.

Manufacturer

Texas Instruments

Key Specifications

Parameter	Value
Packaging	MouseReel
Standard Pack Qty	3000

Overview

Part: ADS131M08 — Texas Instruments

Type: 8-Channel, Simultaneously-Sampling, 24-Bit, Delta-Sigma ADC

Description: An 8-channel, simultaneously-sampling, 24-bit, delta-sigma (ΔΣ) analog-to-digital converter (ADC) offering wide dynamic range, low power, and energy-measurement-specific features, with programmable gain up to 128 and data rates up to 32 kSPS.

Operating Conditions:

Supply voltage: 2.7 V to 3.6 V (analog and digital supplies)
Operating temperature: -40°C to +125°C
Data rate: up to 32 kSPS
Programmable gain: 1 to 128

Absolute Maximum Ratings:

Key Specs:

Dynamic range: -102 dB at gain = 1, 4 kSPS
Dynamic range: -80 dB at gain = 64, 4 kSPS
Total harmonic distortion: -100 dB
Input impedance (gains 1, 2, 4): 330 kΩ
Input impedance (gains 8, 16, 32, 64, 128): ≥ 1 MΩ
Channel-to-channel crosstalk: -120 dB
Power consumption: 6.0 mW at 3-V AVDD and DVDD
Fast startup: first data within 0.5 ms of supply ramp

Features:

8 simultaneously sampling differential inputs
Programmable channel-to-channel phase delay calibration (244-ns resolution, 8.192-MHz fCLKIN)
Current-detect mode for extremely low power tamper detection
Integrated negative charge pump allows input signals below ground
Low-drift internal voltage reference
Cyclic redundancy check (CRC) on communications and register map

Applications:

Electricity meters: commercial and residential
Circuit breakers
Protection relays
Power quality meters
Battery test equipment
Battery management systems

Package:

TQFP (32-pin, 5.00 mm × 5.00 mm)
WQFN (32-pin, 4.00 mm × 4.00 mm)

Features

8 simultaneously sampling differential inputs
Programmable data rate up to 32 kSPS
Programmable gain up to 128
Noise performance:
-102-dB dynamic range at gain = 1, 4 kSPS
-80-dB dynamic range at gain = 64, 4 kSPS
Total harmonic distortion: -100 dB
High-impedance inputs for direct sensor connection:
-Input impedance 330-kΩ for gains of 1, 2, and 4
-Input impedance ≥ 1-MΩ for gains of 8, 16, 32, 64, and 128
Programmable channel-to-channel phase delay calibration:
-244-ns resolution, 8.192-MHz fCLKIN
Current-detect mode allows for extremely low power tamper detection
Fast startup: first data within 0.5 ms of supply ramp
Integrated negative charge pump allows input signals below ground
Crosstalk between channels: -120 dB
Low-drift internal voltage reference
Cyclic redundancy check (CRC) on communications and register map
2.7-V to 3.6-V analog and digital supplies
Low power consumption: 6.0 mW at 3-V AVDD and DVDD
Packages: 32-pin TQFP or 32-pin WQFN
Operating temperature range: -40°C to +125°C

Applications

Pin Configuration

Figure 5-1. PBS Package, 32-Pin TQFP, Top View

Figure 5-1. PBS Package, 32-Pin TQFP, Top View

Figure 5-2. RSN Package, 32-Pin WQFN, Top View

PIN	PIN	PIN
NAME	NO.	NO.
NAME	WQFN	TQFP
AGND	13, 28	13, 28
AIN0N	30	30
AIN0P	29	29
AIN1N	31	31
AIN1P	32	32
AIN2N	2	2
AIN2P	1	1
AIN3N	3	3
AIN3P	4	4
AIN4N	6	6
AIN4P	5	5
AIN5N	7	7
AIN5P	8	8
AIN6N	10	10
AIN6P	9	9
AIN7N	11	11
AIN7P	12	12
AVDD	15	15
CAP	24	24
CS	17	17
DGND	25	25
DIN	21	21
DOUT	20	20
DRDY	18	18
DVDD	26	26
NC	27	27
REFIN	14	14
SCLK	19	19
SYNC/RESET	16	16
XTAL1/CLKIN	23	23
XTAL2	22	22
Thermal pad		-

Electrical Characteristics

minimum and maximum specifications apply from TA = -40°C to +125°C; typical specifications are at TA = 25°C; all specifications are at AVDD = 3 V, DVDD = 3 V, fCLKIN = 8.192 MHz, data rate = 4 kSPS, gain = 1, all channels enabled, global-chop mode disabled, using internal reference with 100-nF tied to REFIN pin, and internal oscillator disabled (unless otherwise noted).

PARAMETER	PARAMETER	TEST CONDITIONS	MIN	TYP	MAX	UNIT
ANALOG INPUTS	ANALOG INPUTS	ANALOG INPUTS	ANALOG INPUTS	ANALOG INPUTS	ANALOG INPUTS	ANALOG INPUTS
Z in	Differential input impedance	Gain = 1, 2, or 4		330		kΩ
I b	Input bias current	Gain = 8, 16, 32, 64, or 128, inputs shorted to ground		±1		μA/V
ADC CHARACTERISTICS	ADC CHARACTERISTICS Resolution Gain settings	ADC CHARACTERISTICS	ADC CHARACTERISTICS 24 1, 2, 4, 8, 16, 32, 64, 128	ADC CHARACTERISTICS	ADC CHARACTERISTICS	ADC CHARACTERISTICS Bits
f DATA	Data rate	High-resolution mode, f CLKIN = 8.192 MHz	250		32k	SPS
f DATA	Data rate	Low-power mode, f CLKIN = 4.096 MHz	125		16k	SPS
f DATA	Data rate	Very low-power mode, f CLKIN = 2.048 MHz	62.5		8k
	Startup time	Measured from supplies at 90% to first DRDY falling edge		0.5		ms
ADC PERFORMANCE	ADC PERFORMANCE	ADC PERFORMANCE	ADC PERFORMANCE	ADC PERFORMANCE	ADC PERFORMANCE	ADC PERFORMANCE
INL	Integral nonlinearity (best fit)			7.5		ppm of FSR
	Offset error (input referred) Offset drift Gain error Gain drift	Global-chop mode Global-chop mode Excluding voltage reference error, gain = 1		±240 ±32 215 105 ±0.3% 5		μV nV/°C
	Gain drift	Including internal voltage reference error, gain = 1		10	20	ppm/°C
	Long-term gain drift	1000 hours at 85°C, including internal voltage reference error, TQFP package		385		ppm
	Long-term gain drift	1000 hours at 85°C, including internal voltage reference error, WQFN package		90		ppm
CMRR	Common-mode rejection ratio	At dc		100		dB
CMRR	Common-mode rejection ratio	Hz		94		dB
PSRR	Power-supply rejection ratio					dB
PSRR	Power-supply rejection ratio	f CM = 50 Hz or 60 AVDD at DC DVDD at DC AVDD supply, f PS = 50 Hz or 60 Hz		100 80 78		dB
	Input referred noise	DVDD supply, f PS = 50 Hz or 60 Hz		90 5.4		μV RMS
	Input referred noise	During fast startup		1500		μV RMS
	Dynamic range	Gain = 1	99	102		dB
	Dynamic range	Gain = 64		80		dB
	Crosstalk	f IN = 50 Hz or 60 Hz	See	-120		dB

Absolute Maximum Ratings

		MIN	MAX	UNIT
Power-supply voltage	AVDD to AGND	-0.3	3.9	V
Power-supply voltage	AGND to DGND	-0.3	0.3	V
Power-supply voltage	DVDD to DGND	-0.3	3.9	V
Power-supply voltage	DVDD to DGND, CAP tied to DVDD	-0.3	2.2	V
Power-supply voltage	CAP to DGND	-0.3	2.2	V
Analog input voltage	AINxP, AINxN	AGND - 1.6	AVDD + 0.3	V
Reference input voltage	REFIN	AGND - 0.3	AVDD + 0.3	V
Digital input voltage	CS, XTAL1/CLKIN, DIN, SCLK, SYNC/RESET, XTAL2	DGND - 0.3	DVDD + 0.3	V
Input current	Continuous, all pins except power-supply pins	-10	10	mA
Temperature	Junction, T J		150	°C
Temperature	Storage, T stg	-60	150	°C

Recommended Operating Conditions

over operating ambient temperature range (unless otherwise noted)

			MIN	NOM	MAX	UNIT
POWER SUPPLY	POWER SUPPLY	POWER SUPPLY	POWER SUPPLY	POWER SUPPLY	POWER SUPPLY	POWER SUPPLY
	Analog power supply	AVDD to AGND, normal operating modes	2.7	3.0	3.6	V
		AVDD to AGND, standby and current-detect modes	2.4	3.0	3.6	V
		AGND to DGND	-0.3	0	0.3	V
	Digital power supply	DVDD to DGND	2.7	3.0	3.6	V
		DVDD to DGND, DVDD shorted to CAP (digital LDO bypassed)	1.65	1.8	2	V
ANALOG INPUTS (1)	ANALOG INPUTS (1)	ANALOG INPUTS (1)	ANALOG INPUTS (1)	ANALOG INPUTS (1)	ANALOG INPUTS (1)	ANALOG INPUTS (1)
V AINxP ,	Absolute input voltage	Gain = 1, 2, or 4	AGND - 1.3		AVDD	V
V AINxN		Gains = 8, 16, 32, 64 or 128	AGND - 1.3		AVDD - 1.8	V
V IN	Differential input voltage	Using internal reference, V IN = V AINxP - V AINxN	-V REF / Gain		V REF / Gain	V
V IN	Differential input voltage	Using external reference, V IN = V AINxP - V AINxN	- 0.96 × V REF / Gain		0.96 × V REF / Gain	V
VOLTAGE REFERENCE INPUT	VOLTAGE REFERENCE INPUT	VOLTAGE REFERENCE INPUT	VOLTAGE REFERENCE INPUT	VOLTAGE REFERENCE INPUT	VOLTAGE REFERENCE INPUT	VOLTAGE REFERENCE INPUT
V REFIN	Reference input voltage		1.1	1.25	1.3	V
EXTERNAL CLOCK SOURCE	EXTERNAL CLOCK SOURCE	EXTERNAL CLOCK SOURCE	EXTERNAL CLOCK SOURCE	EXTERNAL CLOCK SOURCE	EXTERNAL CLOCK SOURCE	EXTERNAL CLOCK SOURCE
f CLKIN	External clock frequency	High-resolution mode, Gain = 1 or 2	0.3	8.192	8.4	MHz
f CLKIN	External clock frequency	High-resolution mode, Gain > 2	0.3	8.192	8.2	MHz
f CLKIN	External clock frequency	Low-power mode	0.3	4.096	4.15	MHz
f CLKIN		Very-low-power mode	0.3	2.048	2.08	MHz
	Duty cycle	Duty cycle	40	50	60	%
DIGITAL INPUTS	DIGITAL INPUTS	DIGITAL INPUTS	DIGITAL INPUTS	DIGITAL INPUTS	DIGITAL INPUTS	DIGITAL INPUTS
	Input voltage	Input voltage	DGND		DVDD	V
TEMPERATURE RANGE	TEMPERATURE RANGE	TEMPERATURE RANGE	TEMPERATURE RANGE	TEMPERATURE RANGE	TEMPERATURE RANGE	TEMPERATURE RANGE
T A	Operating ambient temperature	Operating ambient temperature	-40		125	°C

Thermal Information

		ADS131M08	ADS131M08
THERMAL METRIC (1)	THERMAL METRIC (1)	RSN (WQFN)	PBS (TQFP)
		32 PINS	32 PINS
R θJA	Junction-to-ambient thermal resistance	33.7	81.9
R θJC(top)	Junction-to-case (top) thermal resistance	26.5	26.0
R θJB	Junction-to-board thermal resistance	13.4	32.7
Ψ JT	Junction-to-top characterization parameter	0.3	1.1
Ψ JB	Junction-to-board characterization parameter	13.4	32.5
R θJC(bot)	Junction-to-case (bottom) thermal resistance	4.1	N/A

Typical Application

This section describes a class 0.1 three-phase energy measurement front-end using the ADS131M08. The ADC samples the outputs of the CTs and voltage dividers to measure the current and voltage (respectively) of each leg of the AC mains. The design can achieve high accuracy across a wide input current range (0.05 A - 100 A) and supports high sampling frequencies necessary for advanced power quality features such as individual harmonic analysis. Using the ADS131M08 to sample the CT output provides designers greater flexibility in the choice of metrology microcontrollers when compared to an integrated system-on-a-chip (SoC) and dedicated application-specific products.

Figure 9-5 shows the front-end for the three-phase energy measurement design.

Figure 9-5. Three-Phase Metrology Design Front-End

Related Variants

The following components are covered by the same datasheet.

Part Number	Manufacturer	Package
ADS131M08	Texas Instruments	—
ADS131M08-Q1	Texas Instruments	—
ADS131M08IPBS	Texas Instruments	TQFP-32(5x5)
ADS131M08IPBS.A	Texas Instruments	—
ADS131M08IPBSR	Texas Instruments	32-TQFP
ADS131M08IPBSR.A	Texas Instruments	—
ADS131M08IRSNR.A	Texas Instruments	—
ADS131M08IRSNT	Texas Instruments	—
ADS131M08IRSNT.A	Texas Instruments	—

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