SBASAM0 Data sheet

SBASAM0B March 2024 – November 2024 ADS127L18

PRODMIX

5.5 Electrical Characteristics

minimum and maximum specifications apply from T_A = –40°C to +125°C; typical specifications are at T_A = 25°C; all specifications are at AVDD1 = 5V, AVDD2 = 1.8V to 5V, AVSS = 0V, IOVDD = 1.8V, V_IN = 0V, V_CM = 2.5V, V_REFP = 4.096V, V_REFN = 0V, high-reference range, 1x input range, all speed modes, all channels active, input precharge buffers on, and reference precharge buffer on (unless otherwise noted)

PARAMETER		TEST CONDITIONS		MIN	TYP	MAX	UNIT
ANALOG INPUTS, MAX-SPEED MODE
	Input current, differential input voltage	Input buffers off			125		µA/V
		Input buffers off, 2x input range			60		µA/V
		Input buffers on			±2		µA
	Input current drift, differential input voltage	Input buffers off			5		nA/V/°C
		Input buffers off, 2x input range			2		nA/V/°C
		Input buffers on			20		nA/°C
	Input current, common-mode input voltage	Input buffers off			6.5		µA/V
		Input buffers off, 2x input range			3		µA/V
		Input buffers on			±2		µA
ANALOG INPUTS, HIGH-SPEED MODE
	Input current, differential input voltage	Input buffers off			95		µA/V
		Input buffers off, 2x input range			47		µA/V
		Input buffers on			±1.5		µA
	Input current drift, differential input voltage	Input buffers off			3		nA/V/°C
		Input buffers off, 2x input range			1.5		nA/V/°C
		Input buffers on			5		nA/°C
	Input current, common-mode input voltage	Input buffers off			5		µA/V
		Input buffers off, 2x input range			2.5		µA/V
		Input buffers on			±1.5		µA
ANALOG INPUTS, MID-SPEED MODE
	Input current, differential input voltage	Input buffers off			47		µA/V
		Input buffers off, 2x input range			25		µA/V
		Input buffers on			±1.5		µA
	Input current drift, differential input voltage	Input buffers off			2		nA/V/°C
		Input buffers off, 2x input range			1		nA/V/°C
		Input buffers on			5		nA/°C
	Input current, common-mode input voltage	Input buffers off			2.5		µA/V
		Input buffers off, 2x input range			1.3		µA/V
		Input buffers on			±1.5		µA
ANALOG INPUTS, LOW-SPEED MODE
	Input current, differential input voltage	Input buffers off			12		µA/V
		Input buffers off, 2x input range			6		µA/V
		Input buffers on			±0.4		µA
	Input current drift, differential input voltage	Input buffers off			1		nA/V/°C
		Input buffers off_,2x input range			0.5		nA/V/°C
		Input buffers on			0.2		nA/°C
	Input current, common-mode input voltage	Input buffers off			0.6		µA/V
		Input buffers off, 2x input range			0.3		µA/V
		Input buffers on			±0.4		µA
GENERAL CHARACTERISTICS
	Resolution	OSR ≥ 32			24		Bits
e_n	DC Noise			See the Noise Performance section for details
NMRR	Normal-mode rejection ratio	f_IN = 50Hz (±1Hz), f_DATA = 50SPS, sinc3 filter		100			dB
NMRR	Normal-mode rejection ratio	f_IN = 60Hz (±1Hz), f_DATA = 60SPS, sinc3 filter		100			dB
MAX-SPEED MODE (f_CLK = 32.768MHz)
f_DATA	Data rate	Wideband filter		4		512	kSPS
f_DATA	Data rate	Low-latency filter		0.1024		1365.3	kSPS
	Offset error	T_A = 25°C		–250	±60	250	µV
	Offset drift				25	150	nV/°C
	Gain error	T_A = 25°C		–2500	±200	2500	ppm of FSR
	Gain drift				1	3.0	ppm of FSR/°C
INL	Integral nonlinearity ⁽¹⁾				4	6.5	ppm of FSR
DR	Dynamic range	Inputs shorted, OSR = 64, f_DATA = 256kSPS	Wideband filter	109.5	111.5		dB
			Wideband filter, V_REF = 2.5V		107.5
			Wideband filter, V_REF = 2.5V, 2x input range		108.5
			Low-latency filter	112	114.5
			Low-latency filter, V_REF = 2.5V		110
			Low-latency filter, V_REF = 2.5V, 2x input range		111
SNR	Signal-to-noise ratio	f_IN = 1kHz, V_IN = –0.2dBFS, OSR = 64, f_DATA = 256kSPS	Wideband filter		108.5		dB
			Wideband filter, V_REF = 2.5V		105.5
			Wideband filter, V_REF = 2.5V, 2x input range		106.5
			Low-latency filter		111
			Low-latency filter, V_REF = 2.5V		108
			Low-latency filter V_REF = 2.5V, 2x input range		109
THD	Total harmonic distortion	f_IN = 1kHz, V_IN = –0.2dBFS, OSR = 64, f_DATA = 200kSPS, 9 harmonics	V_REF = 2.5V		–108	–99	dB
THD	Total harmonic distortion		V_REF = 4.096V		–106	–100	dB
IMD	Intermodulation distortion	f_IN = 9.7kHz and 10.3kHz, V_IN = –6.5dBFS	Second-order terms		–120		dB
IMD	Intermodulation distortion	f_IN = 9.7kHz and 10.3kHz, V_IN = –6.5dBFS	Third-order terms		–110		dB
SFDR	Spurious-free dynamic range	f_IN = 1kHz, V_IN = –0.2dBFS, OSR = 64			110		dB
	Crosstalk	f_IN = 1kHz, V_IN = –0.2dbFS ⁽³⁾			–120		dB
CMRR	Common-mode rejection ratio	At dc		92	115		dB
		Up to 10kHz			110
		At dc, 2x input range			105
PSRR	Power-supply rejection ratio	AVDD1, dc			98		dB
		AVDD2, dc			130
		IOVDD, dc			108
HIGH-SPEED MODE (f_CLK = 25.6MHz)
f_DATA	Data rate	Wideband filter		3.125		400	kSPS
f_DATA	Data rate	Low-latency filter		0.08		1067	kSPS
	Offset error	T_A = 25°C		–200	±30	200	µV
	Offset drift				10	35	nV/°C
	Gain error	T_A = 25°C		–2500	±200	2500	ppm of FSR
	Gain drift				0.5	1.0	ppm of FSR/°C
INL	Integral nonlinearity ⁽¹⁾				1	2.8	ppm of FSR
DR	Dynamic range	Inputs shorted, OSR = 64, f_DATA = 200kSPS	Wideband filter	110	112		dB
			Wideband filter, V_REF = 2.5V		108
			Wideband filter, V_REF = 2.5V, 2x input range		108.5
			Low-latency filter	113	114.5
			Low-latency filter, V_REF = 2.5V		110.5
			Low-latency filter, V_REF = 2.5V, 2x input range		111
SNR	Signal-to-noise ratio	f_IN = 1kHz, V_IN = –0.2dBFS, OSR = 64, f_DATA = 200kSPS	Wideband filter		110.5		dB
			Wideband filter, V_REF = 2.5V		106
			Wideband filter, V_REF = 2.5V, 2x input range		107.5
			Low-latency filter		112.5
			Low-latency filter, V_REF = 2.5V		108.5
			Low-latency filter, V_REF = 2.5V, 2x input range		110
THD	Total harmonic distortion	f_IN = 1kHz, V_IN = –0.2dBFS, OSR = 64, f_DATA = 200kSPS, 9 harmonics	V_REF = 2.5V		–118	–108	dB
THD	Total harmonic distortion		V_REF = 4.096V		–118	–108	dB
IMD	Intermodulation distortion	f_IN = 9.7kHz and 10.3kHz, V_IN = –6.5dBFS	Second-order terms		–125		dB
IMD	Intermodulation distortion	f_IN = 9.7kHz and 10.3kHz, V_IN = –6.5dBFS	Third-order terms		–115		dB
SFDR	Spurious-free dynamic range	f_IN = 1kHz, V_IN = –0.2dBFS, OSR = 64			120		dB
	Crosstalk	f_IN = 1kHz, V_IN = –0.2dbFS ⁽³⁾			–130		dB
CMRR	Common-mode rejection ratio	At dc		105	120		dB
		Up to 10kHz			120
		At dc, 2x input range			105
PSRR	Power-supply rejection ratio	AVDD1, dc			118		dB
		AVDD2, dc			130
		IOVDD, dc			113
MID-SPEED MODE (f_CLK = 12.8MHz)
f_DATA	Data rate	Wideband filter		1.5625		200	kSPS
f_DATA	Data rate	Low-latency filter		0.08		533.3	kSPS
	Offset error	T_A = 25°C		–150	±30	150	µV
	Offset drift				5	30	nV/°C
	Gain error	T_A = 25°C		–2500	±200	2500	ppm of FSR
	Gain drift				0.25	0.5	ppm of FSR/°C
INL	Integral nonlinearity ⁽¹⁾				0.6	1.8	ppm of FSR
DR	Dynamic range	Inputs shorted, OSR = 64, f_DATA= 100kSPS	Wideband filter	110	112		dB
			Wideband filter, V_REF = 2.5V		108.5
			Wideband filter, V_REF = 2.5V 2x input range		108.5
			Low-latency filter	112.5	114.5
			Low-latency filter, V_REF = 2.5V		111
			Low-latency filter, V_REF = 2.5V, 2x input range		111
SNR	Signal-to-noise ratio	f_IN = 1kHz, V_IN = –0.2dbFS, OSR = 64, f_DATA = 100kSPS	Wideband filter		110.5		dB
			Wideband filter, V_REF = 2.5V		106.5
			Wideband filter, V_REF = 2.5V, 2x input range		108
			Low-latency filter		113
			Low-latency filter, V_REF = 2.5V		109
			Low-latency filter, V_REF = 2.5V, 2x input range		110.5
THD	Total harmonic distortion	f_IN = 1kHz, V_IN = –0.2dBFS, OSR = 64, f_DATA = 200kSPS, 9 harmonics	V_REF = 2.5V		–125	–118	dB
THD	Total harmonic distortion		V_REF = 4.096V		–122	–116	dB
IMD	Intermodulation distortion	f_IN = 9.7kHz and 10.3kHz, V_IN = –6.5dbFS	Second-order terms		–125		dB
IMD	Intermodulation distortion	f_IN = 9.7kHz and 10.3kHz, V_IN = –6.5dbFS	Third-order terms		–115		dB
SFDR	Spurious-free dynamic range	f_IN = 1kHz, V_IN = –0.2dbFS, OSR = 64			123		dB
	Crosstalk	f_IN = 1kHz, V_IN = –0.2dbFS ⁽³⁾			–130		dB
CMRR	Common-mode rejection ratio	At dc		114	125		dB
		Up to 10kHz			120
		At dc, 2x input range			105
PSRR	Power-supply rejection ratio	AVDD1, dc			125		dB
		AVDD2, dc			130
		IOVDD, dc			112
LOW-SPEED MODE (f_CLK = 3.2MHz)
f_DATA	Data rate	Wideband filter		0.390625		50	kSPS
f_DATA	Data rate	Low-latency filter		0.01		133.3	kSPS
	Offset error	T_A = 25°C		–150	±30	150	µV
	Offset drift				5	30	nV/°C
	Gain error	T_A = 25°C		–2500	±200	2500	ppm of FSR
	Gain drift				0.25	0.6	ppm of FSR/°C
INL	Integral nonlinearity ⁽¹⁾				0.6	1.4	ppm of FSR
DR	Dynamic range	Inputs shorted, OSR = 64, f_DATA = 25kSPS	Wideband filter	110	112		dB
			Wideband filter, V_REF = 2.5V		108
			Wideband filter, V_REF = 2.5V, 2x input range		109
			Low-latency filter	112.5	115
			Low-latency filter, V_REF = 2.5V		110.5
			Low-latency filter, V_REF = 2.5V, 2x input range		111.5
SNR	Signal-to-noise ratio	f_IN = 1kHz, V_IN = –0.2dBFS, OSR = 64, f_DATA = 25kSPS	Wideband filter		111		dB
			Wideband filter, V_REF = 2.5V		107
			Wideband filter, V_REF = 2.5V, 2x input range		108.5
			Low-latency filter		113.5
			Low-latency filter, V_REF = 2.5V		109.5
			Low-latency filter, V_REF = 2.5V, 2x input range		111
THD	Total harmonic distortion	f_IN = 1kHz, V_IN = –0.2dBFS, OSR = 64, f_DATA = 25kSPS, 9 harmonics	V_REF = 2.5V		–125	–118	dB
THD	Total harmonic distortion		V_REF = 4.096V		–125	–118	dB
IMD	Intermodulation distortion	f_IN= 9.7kHz and 10.3kHz, V_IN= –6.5dBFS	Second-order terms		–125		dB
IMD	Intermodulation distortion	f_IN= 9.7kHz and 10.3kHz, V_IN= –6.5dBFS	Third-order terms		–120		dB
SFDR	Spurious-free dynamic range	f_IN = 1kHz, V_IN = –0.2dBFS, OSR = 64			125		dB
	Crosstalk	f_IN = 1kHz, V_IN = –0.2dbFS ⁽³⁾			–130		dB
CMRR	Common-mode rejection ratio	At dc		118	130		dB
		Up to 10kHz			120
		At dc, 2x input range			105
PSRR	Power-supply rejection ratio	AVDD1, dc			125		dB
		AVDD2, dc			125
		IOVDD, dc			110
WIDEBAND FILTER CHARACTERISTICS
	Pass-band frequency	Within envelope of pass-band ripple			0.4 ∙ f_DATA		Hz
		–0.1dB frequency			0.4125 ∙ f_DATA
		–3dB frequency			0.4374 ∙ f_DATA
	Pass-band ripple			–0.0004		0.0004	dB
	Stop-band frequency	At stop-band attenuation			0.5 · f_DATA		Hz
	Stop-band attenuation ⁽²⁾				106		dB
	Group delay				34 / f_DATA		s
	Settling time				68 / f_DATA		s
VOLTAGE REFERENCE INPUTS
	REFP and REFN input current	REFP buffer off	Max-speed mode		225		µA/V/ch
			High-speed mode		190
			Mid-speed mode		130
			Low-speed mode		80
	REFP input current	REFP buffer on			±3		µA/ch
	REFP and REFN input current drift	REFP buffer off	Max-speed mode		20		nA/℃/ch
			High-speed mode		20
			Mid-speed mode		15
			Low-speed mode		15
	REFP input current drift	REFP buffer on			10		nA/℃/ch
INTERNAL OSCILLATOR
f_OSC	Oscillator frequency			25.4	25.6	25.8	MHz
VCM OUTPUT VOLTAGE
	Output voltage			(AVDD1 + AVSS) / 2			V
	Accuracy			–1%	±0.1%	1%
	Voltage noise	1kHz bandwidth			25		µV_RMS
	Start-up time	C_L = 100nF			1		ms
	Capacitive load					100	nF
	Resistive load			2			kΩ
	Short-circuit current limit				10		mA
DIGITAL INPUTS/OUTPUTS
V_IL	Logic-low input level					0.3 IOVDD	V
V_IH	Logic-high input level			0.7 IOVDD			V
I_LEAK	External leakage current	Tri-state pins, floating input state		-5		5	µA
C_LOAD	Capacitive load	Tri-state pins, floating input state				50	pF
R_EXT	Pull-up or pull-down resistance	Tri-state pins, logic low or high state		0		3	kΩ
V_OL	Logic-low output level	OUT_DRV = 0b, I_OL = 2mA				0.2 ∙ IOVDD	V
V_OL	Logic-low output level	OUT_DRV = 1b, I_OL = 1mA				0.2 ∙ IOVDD	V
V_OH	Logic-high output level	OUT_DRV = 0b, I_OH = –2mA		0.8 ∙ IOVDD			V
		OUT_DRV = 1b, I_OH = –1mA		0.8 ∙ IOVDD
		ERROR pin, I_OH = –2µA		0.8 ∙ IOVDD
	Input hysteresis				150		mV
	Input current			–1		1	µA
ANALOG SUPPLY CURRENT
I_AVDD1, I_AVSS	AVDD1, AVSS current (buffers off)	One channel	Max-speed mode		1.9	2.1	mA
		Each additional channel	Max-speed mode		1.7	2.0	mA/ch
		One channel	High-speed mode		1.5	1.7	mA
		Each additional channel	High-speed mode		1.3	1.6	mA/ch
		One channel	Mid-speed mode		0.9	1.0	mA
		Each additional channel	Mid-speed mode		0.7	0.85	mA/ch
		One Channel	Low-speed mode		0.3	0.35	mA
		Each additional channel	Low-speed mode		0.2	0.21	mA/ch
		Standby mode			110		µA
		Power-down mode			5		µA
	AVDD1, AVSS buffer current	Input buffers	Max-speed mode		1.78	2.1	mA/buffer
			High-speed mode		1.36	1.6
			Mid-speed mode		0.7	0.85
			Low-speed mode		0.2	0.25
		REFP buffers	Max-speed mode		1.6	1.7	mA/buffer
			High-speed mode		1.5	1.65
			Mid-speed mode		0.9	1.0
			Low-speed mode		0.4	0.5
		VCM buffer			0.1		mA
I_AVDD2, I_AVSS	AVDD2, AVSS current	Max-speed mode			4.6	5.1	mA/ch
		High-speed mode			3.6	4.0
		Mid-speed mode			2.3	2.55
		Low-speed mode			0.85	0.96
		Standby mode			60		µA
		Power-down mode			1		µA
DIGITAL SUPPLY CURRENT
I_IOVDD	IOVDD current	Wideband filter OSR = 32	Max-speed mode		2.1	2.5	mA/ch
			High-speed mode		1.6	2.0
			Mid-speed mode		0.8	1
			Low-speed mode		0.2	0.35
		Low-latency filter OSR = 32	Max-speed mode		0.6	0.8
			High-speed mode		0.5	0.7
			Mid-speed mode		0.20	0.35
			Low-speed mode		0.05	0.15
		Standby mode	External clock		15		µA
		Standby mode	Internal oscillator		50		µA
		Power-down mode			35		µA
POWER DISSIPATION
P_D	Power dissipation	ADS127L14 wideband filter, AVDD2 = 1.8V, buffers off	Max-speed mode		83	95	mW
			High-speed mode		64	76
			Mid-speed mode		37	43
			Low-speed mode		12	14
		ADS127L14 low-latency filter, AVDD2 = 1.8V, buffers off	Max-speed mode		72	83
			High-speed mode		57	66
			Mid-speed mode		33	39
			Low-speed mode		11	13
		ADS127L18 wideband filter, AVDD2 = 1.8V, buffers off	Max-speed mode		165	190	mW
			High-speed mode		128	151
			Mid-speed mode		74	86
			Low-speed mode		24	28
		ADS127L18 low-latency filter, AVDD2 = 1.8V, buffers off	Max-speed mode		144	165
			High-speed mode		112	132
			Mid-speed mode		65	77
			Low-speed mode		21	25

(1) Best-fit method.

(2) Stop-band attenuation as provided by the digital filter. Input frequencies in the stop band intermodulate with the chop frequency beginning at f_MOD/ 32, which results in stop-band attenuation <106dB. See the Stop-Band Attenuation figure for details.

(3) Crosstalk measured on one shorted-input channel with three (ADS127L14) and seven (ADS127L18) active channels.