SBOS965D Data sheet

SBOS965D October 2019 – January 2023 LMH32401

PRODUCTION DATA

Package Options

Refer to the PDF data sheet for device specific package drawings

Mechanical Data (Package|Pins)

RGT|16
Y|0

Thermal pad, mechanical data (Package|Pins)

RGT|16
- QFND098S

Orderable Information

6.7 Electrical Characteristics: Both Gains

V_DD = 3.3 V, V_OCM = open, V_OD = 0 V, C_PD⁽¹⁾ = 1 pF, EN = 0 V, GAIN = 0 V / 3.3 V, IDC_EN = 3.3 V, R_L = 100 Ω, and T_A = 25℃ (unless otherwise noted)

PARAMETER		TEST CONDITIONS	MIN	TYP	MAX	UNIT
OUTPUT PERFORMANCE
V_OH	Single-sided output voltage swing (high)⁽²⁾	T_A = 25°C	2.87	2.9		V
V_OL	Single-sided output voltage swing (low)⁽²⁾	T_A = 25°C		0.36	0.39	V
I_OUT	Linear output drive (sink and source)	T_A = 25°C, I_IN = 500 µA, gain = 2 kΩ, R_L = 25 Ω	24	26.6	32	mA
		T_A = –40°C, I_IN = 500 µA, gain = 2 kΩ, R_L = 25 Ω		27.1
		T_A = 125°C, I_IN = 500 µA, gain = 2 kΩ, R_L = 25 Ω		25.1
I_SC	Output short-circuit current (differential) ⁽³⁾			70		mA
Z_OUT	DC output impedance (amplifier enabled)	Differential impedance	18	21	24	Ω
Z_OUT	DC output impedance in shutdown	Differential impedance	2.8	3.3		kΩ
OUTPUT COMMON-MODE CONTROL (V_OCM) PERFORMANCE
SSBW	Small-signal bandwidth	V_OCM = 100 mV_PP at VOCM pin		285		MHz
LSBW	Large-signal bandwidth	V_OCM = 1 V_PP at VOCM pin		85		MHz
e_N	Output common-mode noise	f = 10 MHz, 1-nF capacitor to GND on VOCM pin		17.8		nV/√Hz
A_V	Gain, (ΔV_OCM/ΔVOCM)	IN floating, VOCM = 1.1 V (driven)		1		V/V
	Gain error	T_A = 25°C, VOCM = 0.7 V to 2.3 V	–2%	0.5%	2%
	Gain error	T_A = –40°C to 125°C, VOCM = 0.7 V to 2.3 V		±1%
	Input impedance			17		kΩ
VOCM_OS	VOCM pin default offset from 1.1 V	VOCM floating, (VOCM measured - 1.1 V)	0	10	20	mV
ΔV_OCM/ ΔI_IN	V_OCM error vs Input current	Gain = 20 kΩ, VOCM driven to 1.1 V		–15		µV/µA
V_OCM	Output common-mode voltage, (V_OUT+ + V_OUT-)/2	T_A = 25°C, VOCM pin floating	1.05	1.1	1.15	V
	Output common-mode voltage drift, (ΔV_OCM/ΔT_A)	T_A = –40°C to 125°C, VOCM pin floating		75		µV/°C
V_OCM	Output common-mode voltage, (V_OUT+ + V_OUT-)/2	T_A = 25°C, VOCM pin driven to 1.1 V	1.05	1.1	1.15	V
	Output common-mode voltage drift, (ΔV_OCM/ΔT_A)	T_A = –40°C to 125°C, VOCM pin driven to 1.1 V		–14		µV/°C
OUTPUT DIFFERENTIAL OFFSET (V_OD) PERFORMANCE
SSBW	Small-signal bandwidth	V_OD = 100 mV_PP at VOD pin		45		MHz
LSBW	Large-signal bandwidth	V_OD = 1 V_PP		14		MHz
V_{OS_D}	Differential output offset, V_OUT = (V_OUT– –V_OUT+)	IN floating, VOD = 0.5 V	490	510	530	mV
	Differential output offset drift, ΔV_{OS_D}/ΔT_A	IN floating, VOD = 0.5 V		0.03		mV/℃
V_{OS_D}	Differential output offset, V_OUT = (V_OUT– –V_OUT+)	IN floating, VOD floating	490	510	530	mV
	Differential output offset drift, ΔV_{OS_D}/ΔT_A	IN floating, VOD floating		0.04		mV/℃
A_V	Gain, (ΔV_OUT/ΔVOD), where V_OUT = (V_OUT– –V_OUT+)	IN floating, VOCM = 1.1 V (driven)		1.01		V/V
	Gain error	T_A = 25℃, VOD = 0 V to 1.2 V	–5%	–1%	5%
	Gain error	T_A = –40℃ to 125℃, VOD = 0 V to 1.2 V		±1.5%
	Input impedance			2.5		kΩ
AMBIENT LIGHT CANCELLATION PERFORMANCE (IDC_EN = 0 V) ⁽⁴⁾
	Settling time (within V_ODlimit)	I_IN = 0 µA → 100 µA, GAIN = 2 kΩ		18		µs
		I_IN = 0 µA → 10 µA, GAIN = 20 kΩ		2.5
		I_IN = 100 µA → 0 µA, GAIN= 2 kΩ		35
		I_IN = 10 µA → 0 µA, GAIN = 20 kΩ		13
	Ambient light current cancellation range	Differential output offset (V_OUT– – V_OUT+) shift from I_DC = 10 µA < ±10 mV	2	3		mA
POWER SUPPLY
I_Q	Quiescent current, total	T_A = 25°C	24	30	33.5	mA
		T_A = 125°C		32
		T_A = –40°C		27
PSRR+	Positive power-supply rejection ratio, VDD1 = VDD2		54	66		dB
SHUTDOWN
I_Q	Disabled quiescent current (EN = V_DD)	T_A = 25°C	2.4	3.3	4.2	mA
		T_A = –40°C		2.75
		T_A = 125°C		5.2
	Enable pin input bias current	T_A = 25°C		75	120	µA

(1) Input capacitance of photodiode.

(2) Output levels achieved by adjusting VOCM, VOD, and input current.

(3) Device cannot withstand continuous short-circuit between the differential outputs.

(4) Enabling the ambient light cancellation loop adds noise to the system.