ZHCSNH8 数据表 | 德州仪器 TI.com.cn

ZHCSNH8B July 2021 – November 2021 INA823

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机械数据 (封装 | 引脚)

D|8
- MSOI002K
DGK|8
- MPDS028E

散热焊盘机械数据 (封装 | 引脚)

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7.5 Electrical Characteristics

at T_A = 25°C, V_S = ±15 V, R_L = 10 kΩ, V_CM = V_REF = 0 V, and G = 1 (unless otherwise noted)

PARAMETER		TEST CONDITIONS		MIN	TYP	MAX	UNIT
INPUT
V_OSI	Input stage offset voltage⁽¹⁾⁽³⁾				20	100	µV
		T_A = –40°C to +125°C(3)				190	µV
		T_A = –40°C to +125°C(3)			0.2	1.2	µV/°C
V_OSO	Output stage offset voltage⁽¹⁾⁽³⁾				140	450	µV
		T_A = –40°C to +125°C⁽²⁾				850	µV
		T_A = –40°C to +125°C⁽²⁾			1	5	µV/°C
PSRR	Power-supply rejection ratio	V_S = ±1.35 V to ±18 V	G = 1, RTI	100	130		dB
			G = 10, RTI	115	148
			G = 100, RTI	120	148
			G = 1000, RTI	120	148
Z_IN	Input impedance				12 \|\| 8.5		GΩ \|\| pF
	RFI filter, –3-dB frequency				20		MHz
V_CM	Operating input voltage(5)	V_S = ±1.35 V to ±18 V		(–V_S) – 0.15		(+V_S) – 1	V
V_CM	Operating input voltage(5)	V_S = ±1.35 V to ±18 V	T_A = –40°C to +125°C	See Figure 7-53			V
	Input overvoltage	T_A = –40°C to +125°C⁽²⁾				±60	V
CMRR	Common-mode rejection ratio	At dc to 60 Hz, RTI, V_CM = (V–) –0.15 V to (V+) – 1 V, G = 1		84	110		dB
		At dc to 60 Hz, RTI, V_CM = (V–) –0.15 V to (V+) – 1 V, G = 10		104	136
		At dc to 60 Hz, RTI, V_CM = (V–) –0.15 V to (V+) – 1 V, G ≥ 100		120	149
BIAS CURRENT
I_B	Input bias current				1.2	8	nA
		T_A = –40°C to +125°C			2.4		nA
		T_A = –40°C to +125°C			15		pA/°C
I_OS	Input offset current				0.4	4	nA
		T_A = –40°C to +125°C			0.8		nA
		T_A = –40°C to +125°C			4		pA/°C
NOISE VOLTAGE
e_NI	Input stage voltage noise density⁽⁶⁾	f = 1 kHz, G = 1000, R_S = 0 Ω			21		nV/√Hz
e_NI	Input stage voltage noise⁽⁶⁾	f_B = 0.1 Hz to 10 Hz, G = 1000, R_S = 0 Ω			0.4		µV_PP
e_NO	Output stage voltage noise density⁽⁶⁾	f = 1 kHz, R_S = 0 Ω			120		nV/√Hz
e_NO	Output stage voltage noise⁽⁶⁾	f_B = 0.1 Hz to 10 Hz, R_S = 0 Ω			5		µV_PP
i_n	Current noise density	f = 1 kHz			160		fA/√Hz
i_n	Current noise	f_B = 0.1 Hz to 10 Hz, G = 100			5		pA_PP
GAIN
	Gain equation			1 + (100 kΩ / R_G)			V/V
G	Gain			1		10000	V/V
GE	Gain error(6)	V_O = ±10 V	G = 1		±0.01	±0.04	%
			G = 10		±0.025	±0.2
			G = 100		±0.025	±0.2
			G = 1000		±0.05	±0.2
	Gain drift(6)	T_A = –40°C to +125°C	G = 1		±0.2	±5	ppm/°C
	Gain drift(6)	T_A = –40°C to +125°C	G > 1		±12	±35	ppm/°C
	Gain nonlinearity	G = 1 to 10			2	10	ppm
		G > 10			5
		G = 1 to 100, R_L = 2 kΩ			15
OUTPUT
	Output voltage swing			(–V_S) + 0.15		(+V_S) – 0.15	V
	Load capacitance	Stable operation			1000		pF
Z_OUT	Closed-loop output impedance			See Figure 7-37			Ω
I_SC	Short-circuit current	Continuous to V_S / 2			±20		mA
FREQUENCY RESPONSE
BW	Bandwidth, –3 dB	G = 1			1.9		MHz
		G = 10			350		kHz
		G = 100			60
		G = 1000			6
SR	Slew rate	G = 1, V_O = ±10 V			0.9		V/µs
t_S	Settling time	To 0.01%	G = 1 to 10, V_STEP = 10 V		12		µs
			G = 100, V_STEP = 10 V		28
			G = 1000, V_STEP = 10 V		260
		To 0.001%	G = 1 to 10, V_STEP = 10 V		14
			G = 100, V_STEP = 10 V		33
			G = 1000, V_STEP = 10 V		290
REFERENCE INPUT
R_IN	Input impedance				100		kΩ
	Reference input voltage			(–V_S)		(+V_S)	V
	Gain to output				1		V/V
	Reference gain error	inside the output voltage swing			0.01	0.05	%
POWER SUPPLY
I_Q	Quiescent current	V_IN = 0 V			180	250	µA
I_Q	Quiescent current	V_IN = 0 V	T_A = –40°C to +125°C			300	µA

(1) Total offset, referred-to-input (RTI): V_OS = (V_OSI) + (V_OSO / G).

(2) Specified by characterization.

(3) Offset drifts are uncorrelated. Input-referred offset drift is calculated using: ΔV_OS(RTI) = √[ΔV_OSI² + (ΔV_OSO/ G)²].

(4) Input voltage range of the instrumentation amplifier input stage. The input range depends on the common-mode voltage, differential voltage, gain, and reference voltage. See Typical Characteristic curves for more information.

(5) The values specified for G > 1 do not include the effects of the external gain-setting resistor, R_G.

(6) Total RTI voltage noise is equal to: e_N(RTI) = √[e_NI² + (e_NO/ G)²].