ZHCSO81 数据表 | 德州仪器 TI.com.cn

ZHCSO81 November 2021 ADS130B04-Q1

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6.5 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 AVDD = 3.3 V, DVDD = 3.3 V, external clock, f_CLKIN = 8.192 MHz, high-resolution mode, all channels, all gains, data rate = 4 kSPS, all channels enabled, and global-chop mode disabled (unless otherwise noted)

PARAMETER		TEST CONDITIONS	MIN	TYP	MAX	UNIT
ANALOG INPUTS
Z_in	Differential input impedance	Global-chop disabled		25		MΩ
		Global-chop enabled		300		MΩ
		All power modes, all data rates	See Table 8-2
	Absolute input current	Global-chop disabled, V_AINxP = V_AINxN = 0 V		±1		nA
	Absolute input current	Global-chop enabled, V_AINxP = V_AINxN = 0 V		±1		nA
	Differential input current	Global-chop disabled, V_AINxP = V_AINxN = 0 V		±50		pA
	Differential input current	Global-chop enabled, V_AINxP = V_AINxN = 0 V		±30		pA
ADC CHARACTERISTICS
	Resolution		24			Bits
	Gain settings		1, 2, 4, 8, 16, 32, 64, 128
f_DATA	Data rate	High-resolution mode, f_CLKIN = 8.192 MHz	250		32k	SPS
		Low-power mode, f_CLKIN = 4.096 MHz	125		16k
		Very-low-power mode, f_CLKIN = 2.048 MHz	62.5		8k
ADC PERFORMANCE
INL	Integral nonlinearity (best fit)	Differential-ended input		10		ppm of FSR
	Offset error (input referred)	Global-chop disabled	–800	±200	800	µV
	Offset error (input referred)	Global-chop enabled⁽³⁾	–4	±0.4	4	µV
	Offset drift	Global-chop disabled, gain = 1 to 4		100	500	nV/°C
		Global-chop disabled, gain = 8 to 128		50	200
		Global-chop enabled		10	30
	Offset error long-term drift	1000 hours at T_A = 85°C, global-chop disabled		0.8		μV
	Offset error long-term drift	1000 hours at T_A = 85°C, global-chop enabled		0.25		μV
	Gain error	Including error of internal voltage reference, T_A = 25°C	–0.7%	±0.2%	0.7%
	Gain drift	Including drift of internal voltage reference, T_A = –40°C to +85°C, gain = 1 to 4		8	30	ppm/°C
		Including drift of internal voltage reference, T_A = –40°C to +85°C, gain = 8 to 128		7	25
		Including drift of internal voltage reference, T_A = –40°C to +125°C		13	40
	Gain error long-term drift	1000 hours at T_A = 85°C, gain = 1, including drift of internal voltage reference		250		ppm
CMRR	Common-mode rejection ratio	At dc, global-chop disabled, gain = 1		96		dB
		At dc, global-chop enabled, gain = 1		128
		f_CM = 50 Hz or 60 Hz, global-chop disabled, gain = 1		89
		f_CM = 50 Hz or 60 Hz, global-chop enabled, gain = 1		106
PSRR	Power-supply rejection ratio	AVDD at dc, global-chop disabled, gain = 1		81		dB
		AVDD at dc, global-chop enabled, gain = 1		116
		DVDD at dc, global-chop disabled, gain = 1		109
		DVDD at dc, global-chop enabled, gain = 1		117
	Input-referred noise		See Table 7-1
	Crosstalk	f_IN = 50 Hz or 60 Hz		–120		dB
INTERNAL VOLTAGE REFERENCE
V_REF	Internal reference voltage			1.2		V
INTERNAL OSCILLATOR
f_OSC	Frequency			8.192		MHz
	Accuracy		–5%	±0.5%	2.5%
	Frequency long-term drift	1000 hours at T_A = 85°C		0.2%
DIGITAL INPUTS/OUTPUTS
V_IL	Logic input level, low		DGND		0.2 DVDD	V
V_IH	Logic input level, high		0.8 DVDD		DVDD	V
V_OL	Logic output level, low	I_OL = –1 mA			0.2 DVDD	V
V_OH	Logic output level, high	I_OH = 1 mA	0.8 DVDD			V
I_IN	Input current	DGND < V_{Digital Input} < DVDD	–1		1	µA
POWER SUPPLY
I_AVDD	Analog supply current	High-resolution mode, gain = 1, 2		5.6	6.8	mA
		High-resolution mode, gain = 4 to 128		6.4	8
		Low-power mode, gain = 1, 2		2.8	3.4
		Low-power mode, gain = 4 to 128		3.2
		Very-low-power mode, gain = 1, 2		1.4	2
		Very-low-power mode, gain = 4 to 128		1.6
		Standby mode		0.4		µA
		Internal oscillator		140		µA
I_DVDD	Digital supply current⁽¹⁾	High-resolution mode		0.4	0.5	mA
		Low-power mode		0.2	0.3
		Very-low-power mode		0.1	0.2
		Standby mode⁽²⁾		1.2		µA
P_D	Power dissipation	High-resolution mode, gain = 1, 2		19.8	24.1	mW
		High-resolution mode, gain = 4 to 128		22.4	28.1
		Low-power mode, gain = 1, 2		9.9	12.2
		Very-low-power mode, gain = 1, 2		5	7.3

(1) Currents measured with SPI idle.

(2) External clock stopped.

(3) Offset error may be limited by LSB size in certain OSR and gain configurations.

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6.5 Electrical Characteristics