SBOSA68 Data sheet

SBOSA68D November 2021 – March 2024 TLV9161 , TLV9162 , TLV9164

PRODUCTION DATA

Package Options

Mechanical Data (Package|Pins)

D|8
- MSOI002K
DSG|8
- MPDS308C
PW|8
- MPDS568
RUG|10
- MPQF216D
DGK|8
- MPDS028E
DDF|8
- MPDS569D

Thermal pad, mechanical data (Package|Pins)

DSG|8
- QFND141I
RUG|10
- QFND221A

Orderable Information

5.7 Electrical Characteristics

For V_S = (V+) – (V–) = 2.7 V to 16 V (±1.35 V to ±8 V) at T_A = 25°C, R_L = 10 kΩ connected to V_S / 2, V_CM = V_S / 2, and V_OUT = V_S / 2, unless otherwise noted.

PARAMETER		TEST CONDITIONS		MIN	TYP	MAX	UNIT
OFFSET VOLTAGE
V_OS	Input offset voltage	V_CM = V–			±0.21	±1	mV
V_OS	Input offset voltage	V_CM = V–	T_A = –40°C to 125°C			±1.2	mV
dV_OS/dT	Input offset voltage drift	V_CM = V–	T_A = –40°C to 125°C		±0.25		µV/℃
PSRR	Input offset voltage versus power supply	TLV9161, TLV9162, V_CM = V–, V_S = 5 V to 16 V			±0.45	±2	μV/V
		TLV9161, TLV9162, V_CM = V–, V_S = 5 V to 16 V	T_A = –40°C to 125°C		±0.45	±3
		TLV9162SIRUGR, V_CM = V–, V_S = 5 V to 16 V⁽¹⁾			±0.45	±2.8
		TLV9162SIRUGR, V_CM = V–, V_S = 5 V to 16 V⁽¹⁾	T_A = –40°C to 125°C		±0.45	±3.1
		TLV9164, V_CM = V–, V_S = 5 V to 16 V			±0.45	±2.2
		TLV9164, V_CM = V–, V_S = 5 V to 16 V	T_A = –40°C to 125°C		±0.45	±3.8
		TLV9161, TLV9162, TLV9164, V_CM = V–, V_S = 2.7 V to 16 V⁽¹⁾	T_A = –40°C to 125°C		±2	±12
	DC channel separation				0.4		µV/V
INPUT BIAS CURRENT
I_B	Input bias current				±10		pA
I_OS	Input offset current				±10		pA
NOISE
E_N	Input voltage noise	f = 0.1 Hz to 10 Hz			2.7		μV_PP
E_N	Input voltage noise	f = 0.1 Hz to 10 Hz			0.49		µV_RMS
e_N	Input voltage noise density	f = 1 kHz			6.8		nV/√Hz
e_N	Input voltage noise density	f = 10 kHz			4.2		nV/√Hz
i_N	Input current noise density	f = 1 kHz			55		fA/√Hz
INPUT VOLTAGE RANGE
V_CM	Common-mode voltage range			(V–)		(V+)	V
CMRR	Common-mode rejection ratio	V_S = 16 V, V– < V_CM < (V+) – 2 V (PMOS pair)	T_A = –40°C to 125°C	85	110		dB
		V_S = 5 V, V– < V_CM < (V+) – 2 V (PMOS pair)⁽¹⁾		75	98
		V_S = 2.7 V, V– < V_CM < (V+) – 2 V (PMOS pair)			90
		V_S = 2.7 – 16 V, (V+) – 1 V < V_CM < V+ (NMOS pair)			78
		(V+) – 2 V < V_CM < (V+) – 1 V		See Figure 5-6
INPUT IMPEDANCE
Z_ID	Differential				100 \|\| 9		MΩ \|\| pF
Z_ICM	Common-mode				6 \|\| 1		TΩ \|\| pF
OPEN-LOOP GAIN
A_OL	Open-loop voltage gain	V_S = 16 V, V_CM = V_S / 2, (V–) + 0.1 V < V_O < (V+) – 0.1 V		120	136		dB
			T_A = –40°C to 125°C		136
		V_S = 5 V, V_CM = V_S / 2, (V–) + 0.1 V < V_O < (V+) – 0.1 V⁽¹⁾		104	125
			T_A = –40°C to 125°C		125
		V_S = 2.7 V, V_CM = V_S / 2, (V–) + 0.1 V < V_O < (V+) – 0.1 V⁽¹⁾		90	105
			T_A = –40°C to 125°C		105
FREQUENCY RESPONSE
GBW	Gain-bandwidth product				11		MHz
SR	Slew rate	V_S = 16 V, G = +1, V_STEP = 10 V, C_L = 20 pF⁽³⁾			33		V/μs
t_S	Settling time	To 0.1%, V_S = 16 V, V_STEP = 10 V, G = +1, C_L = 20 pF			0.70		μs
		To 0.1%, V_S = 16 V, V_STEP = 2 V, G = +1, C_L = 20 pF			0.22
		To 0.01%, V_S = 16 V, V_STEP = 10 V, G = +1, C_L = 20 pF			0.89
		To 0.01%, V_S = 16 V, V_STEP = 2 V, G = +1, C_L = 20 pF			0.42
	Phase margin	G = +1, R_L = 10 kΩ, C_L = 20 pF			64		°
	Overload recovery time	V_IN × gain > V_S			120		ns
THD+N	Total harmonic distortion + noise	V_S = 16 V, V_O = 3 V_RMS, G = 1, f = 1 kHz			0.00005%
		V_S = 16 V, V_O = 3 V_RMS, G = 1, f = 1 kHz			126		dB
		V_S = 10 V, V_O = 3 V_RMS, G = 1, f = 1 kHz, R_L = 128 Ω			0.0032%
		V_S = 10 V, V_O = 3 V_RMS, G = 1, f = 1 kHz, R_L = 128 Ω			90		dB
		V_S = 10 V, V_O = 0.4 V_RMS, G = 1, f = 1 kHz, R_L = 32 Ω			0.00032%
		V_S = 10 V, V_O = 0.4 V_RMS, G = 1, f = 1 kHz, R_L = 32 Ω			110		dB
OUTPUT
	Voltage output swing from rail	Positive and negative rail headroom	V_S = 16 V, R_L = no load		6		mV
			V_S = 16 V, R_L = 10 kΩ		25	60
			V_S = 16 V, R_L = 2 kΩ		85	300
			V_S = 2.7 V, R_L = no load		0.5
			V_S = 2.7 V, R_L = 10 kΩ		5	20
			V_S = 2.7 V, R_L = 2 kΩ		20	50
I_SC	Short-circuit current				±73		mA
C_LOAD	Capacitive load drive			See Figure 5-33			pF
Z_O	Open-loop output impedance	I_O = 0 A		See Figure 5-30			Ω
POWER SUPPLY
I_Q	Quiescent current per amplifier	TLV9162, TLV9164, I_O = 0 A			2.4	2.8	mA
		TLV9162, TLV9164, I_O = 0 A	T_A = –40°C to 125°C			2.84
		TLV9161, I_O = 0 A			2.48	2.92
		TLV9161, I_O = 0 A	T_A = –40°C to 125°C			2.98
SHUTDOWN
I_QSD	Quiescent current per amplifier	V_S = 2.7 V to 16 V, all amplifiers disabled, SHDN = V– + 2 V			36	45	µA
Z_SHDN	Output impedance during shutdown	V_S = 2.7 V to 16 V, amplifier disabled			10 \|\| 2		GΩ \|\| pF
V_IH	Logic high threshold voltage (amplifier disabled)	For valid input high, the SHDN pin voltage should be greater than the maximum threshold but less than or equal to V+				(V–) + 1.1 V	V
V_IL	Logic low threshold voltage (amplifier enabled)	For valid input low, the SHDN pin voltage should be less than the minimum threshold but greater than or equal to V–		(V–) + 0.2 V			V
t_ON	Amplifier enable time (from shutdown) ⁽²⁾	V_S = ±8 V, G = +1, V_CM = V_S/2, R_L = 10 kΩ connected to V-			5		µs
t_OFF	Amplifier disable time ⁽²⁾	V_S = ±8 V, G = +1, V_CM = V_S/2, R_L = 10 kΩ connected to V-			3		µs
	SHDN pin input bias current (per pin)	V_S = 2.7 V to 16 V, V+ ≥ SHDN ≥ (V–) + 0.9 V			500		nA
	SHDN pin input bias current (per pin)	V_S = 2.7 V to 16 V, (V–) ≤ SHDN ≤ (V–) + 0.7 V			400		nA

(1) Specified by characterization only.

(2) Disable time (t_OFF) and enable time (t_ON) are defined as the time interval between the 50% point of the signal applied to the SHDN pin and the point at which the output voltage reaches 10% (disable) or 90% (enable) of its final value.

(3) See Figure 5-15 for more information.