ZHCSEJ3B 数据表 | 德州仪器 TI.com.cn

ZHCSEJ3B June 2015 – April 2020 ADS131E08S

PRODUCTION DATA.

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7.5 Electrical Characteristics

Minimum and maximum specifications apply from T_A = –40°C to +105°C. Typical specifications are at T_A = 25°C. All specifications are at DVDD = 1.8 V, AVDD = 5 V, AVSS = 0 V, V_REF = 4 V, external f_CLK = 2.048 MHz, data rate = 4 kSPS, and gain = 1 (unless otherwise noted).

PARAMETER		TEST CONDITIONS	MIN	TYP	MAX	UNIT
ANALOG INPUTS
C_i	Input capacitance			20		pF
I_IB	Input bias current	PGA output in normal range		5		nA
	DC input impedance			200		MΩ
PGA PERFORMANCE
	Gain settings		1, 2, 4, 8, 12			V/V
BW	Bandwidth		See Table 3
ADC PERFORMANCE
DR	Data rate	f_CLK = 2.048 MHz	1	4	64	kSPS
	Resolution	DR = 1 kSPS, 2 kSPS, 4 kSPS, 8 kSPS, and 16 kSPS	24			Bits
	Resolution	DR = 32 kSPS and 64 kSPS	16			Bits
CHANNEL PERFORMANCE (DC Performance)
INL	Integral nonlinearity	Full-scale, best fit		10		ppm
	Dynamic range	Data rate = 4 kSPS, gain = 1		116		dB
	Dynamic range	Gain settings other than 1	See the Noise Measurements section			dB
E_O	Offset error⁽¹⁾	Gain = 1	–100	–450	–800	µV
	Offset error drift⁽¹⁾			0.2	2.5	µV/°C
E_G	Gain error	Excluding voltage reference error		0.1%
	Gain drift	Excluding voltage reference drift		3		ppm/°C
	Gain match between channels			0.2		% of FS
CHANNEL PERFORMANCE (AC Performance)
CMRR	Common-mode rejection ratio	f_CM = 50 Hz or 60 Hz⁽²⁾		–110		dB
PSRR	Power-supply rejection ratio	f_PS = 50 Hz or 60 Hz		–80		dB
	Crosstalk	f_IN = 50 Hz or 60 Hz		–125	–113	dB
SNR	Signal-to-noise ratio	f_IN = 50 Hz or 60 Hz, amplitude = –0.5 dBFS, normalized		108		dB
SNR	Signal-to-noise ratio	f_IN = 50 Hz or 60 Hz, amplitude = –15 dBFS, normalized		115		dB
THD	Total harmonic distortion	f_IN = 50 Hz or 60 Hz, amplitude = –0.5 dBFS		–102		dBc
THD	Total harmonic distortion	f_IN = 50 Hz or 60 Hz, amplitude = –15 dBFS		–107		dBc
INTERNAL VOLTAGE REFERENCE
V_REF	Output voltage⁽¹⁾	T_A = 25°C, V_REF = 2.4 V, VREF_4V = 0		2.4		V
V_REF	Output voltage⁽¹⁾	T_A = 25°C, V_REF = 4 V, VREF_4V = 1	3.88	4	4.12	V
	Accuracy	T_A = 25°C		±0.2%
	Temperature drift	T_A = –40°C ≤ T_A ≤ 105°C		8		ppm/°C
	Power-up time	VCAP1 = 470 pF, VREFP = 330 nF, settled to 0.2%		1		ms
INTERNAL OSCILLATOR
	Internal oscillator clock frequency			2.048		MHz
	Internal oscillator accuracy⁽¹⁾	T_A = 25°C			±1%
	Internal oscillator accuracy⁽¹⁾	–40°C ≤ T_A ≤ +105°C			±3%
	Power-up time			20		µs
	Internal oscillator power consumption			120		µW
OPERATIONAL AMPLIFIER
	Integrated noise	0.1 Hz to 250 Hz		9		µV_RMS
	Noise density	2 kHz		120		nV/√Hz
GBP	Gain bandwidth product	50-kΩ \|\| 10-pF load		100		kHz
SR	Slew rate	50-kΩ \|\| 10-pF load		0.25		V/µs
	Load current			50		µA
THD	Total harmonic distortion	f_IN = 100 Hz		70		dB
V_CM	Common-mode input range		AVSS + 0.7		AVDD – 0.3	V
	Quiescent current consumption			20		µA
FAULT DETECT AND ALARM
	Comparator threshold accuracy			±30		mV
SYSTEM MONITORS
	Analog supply reading error			2%
	Digital supply reading error			2%
	Device wake-up	From standby mode		31.25		µs
TEMPERATURE SENSOR
	Offset voltage	T_A = 25°C⁽³⁾		144		mV
	Temperature coefficient⁽³⁾			400		µV/°C
SELF-TEST SIGNAL
	Signal frequency			f_CLK / 2²¹		Hz
	Signal frequency			f_CLK / 2²⁰		Hz
	Signal voltage			±1		mV
	Signal voltage			±2		mV
	Accuracy			±2%
DIGITAL INPUTS AND OUTPUTS
V_IH	High-level input voltage⁽¹⁾	DVDD = 1.7 V to 1.8 V	DVDD – 0.2 V			V
V_IH	High-level input voltage⁽¹⁾	DVDD = 1.8 V to 3.6 V	0.8 DVDD		DVDD + 0.1	V
V_IL	Low-level input voltage⁽¹⁾	DVDD = 1.7 V to 1.8 V			DGND + 0.2	V
V_IL	Low-level input voltage⁽¹⁾	DVDD = 1.8 V to 3.6 V	DGND – 0.1		0.2 DVDD	V
V_OH	High-level output voltage⁽¹⁾	I_OH = –500 µA	0.9 DVDD			V
V_OL	Low-level output voltage⁽¹⁾	I_OL = 500 µA			0.1 DVDD	V
I_IN	Input current	0 V < V_{Digital_Input} < DVDD	–10		10	µA
SUPPLY CURRENT (Operational Amplifier Turned Off)
I_AVDD	Analog supply current	AVDD – AVSS = 3 V		5.1		mA
I_AVDD	Analog supply current	AVDD – AVSS = 5 V		5.8		mA
I_DVDD	Digital supply current	DVDD = 3.3 V		1		mA
I_DVDD	Digital supply current	DVDD = 1.8 V		0.4		mA
POWER DISSIPATION (8 Channels Powered Up)
	Power dissipation	Normal mode, AVDD – AVSS = 3 V		16		mW
		Standby mode, AVDD – AVSS = 3 V		2		mW
		Power-down mode, AVDD – AVSS = 3 V		10		µW
		Normal mode, AVDD – AVSS = 5 V⁽¹⁾		29.7	32.9	mW
		Standby mode, AVDD – AVSS = 5 V		4.2		mW
		Power-down mode, AVDD – AVSS = 5 V		20		µW

(1) Minimum and maximum values are specified by design and characterization data.

(2) CMRR is measured with a common-mode signal of (AVSS + 0.3 V) to (AVDD – 0.3 V). The values indicated are the minimum of the eight channels.

(3) See the Temperature Sensor (TempP, TempN) section for more information.

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7.5 Electrical Characteristics