SLVSBH4 Data sheet

6.1 Absolute Maximum Ratings

Over operating free-air temperature range (unless otherwise noted)⁽¹⁾

		MIN	MAX	UNIT⁽²⁾
V_IN1,2	Input voltage	–0.3	6	V
V_OUT1,2	Output voltage	–0.3	6	V
V_ON1,2	ON-pin voltage	–0.3	6	V
V_BIAS	V_BIAS voltage	–0.3	6	V
I_MAX	Maximum continuous switch current per channel		6	A
I_PLS	Maximum pulsed switch current per channel, pulse <300 µs, 2% duty cycle		8	A
T_J	Maximum junction temperature		125	°C
T_LEAD	Maximum lead temperature (10-s soldering time)		300	°C
T_stg	Storage temperature	–65	150	°C

(1) Stresses beyond those listed under Absolute Maximum Ratings may cause permanent damage to the device. These are stress ratings only, which do not imply functional operation of the device at these or any other conditions beyond those indicated under Recommended Operating Conditions. Exposure to absolute-maximum-rated conditions for extended periods may affect device reliability.

(2) All voltage values are with respect to network ground terminal.

6.2 ESD Ratings

			VALUE	UNIT
V_(ESD)	Electrostatic discharge	Human body model (HBM), per ANSI/ESDA/JEDEC JS-001⁽¹⁾	±2000	V
V_(ESD)	Electrostatic discharge	Charged-device model (CDM), per JEDEC specification JESD22-C101⁽²⁾	±1000	V

(1) JEDEC document JEP155 states that 500-V HBM allows safe manufacturing with a standard ESD control process.

(2) JEDEC document JEP157 states that 250-V CDM allows safe manufacturing with a standard ESD control process.

6.3 Recommended Operating Conditions

			MIN	MAX	UNIT
V_IN1,2	Input voltage		0.8	V_BIAS	V
V_BIAS	Bias voltage		2.5	5.5	V
V_ON1,2	ON voltage		0	5.5	V
V_OUT1,2	Output voltage			V_IN	V
V_IH	High-level input voltage, ON	V_BIAS = 2.5 V to 5.5 V	1.2	5.5	V
V_IL	Low-level input voltage, ON	V_BIAS = 2.5 V to 5.5 V	0	0.5	V
C_IN1,2	Input capacitor		1⁽²⁾		µF
T_A	Operating free-air temperature ⁽¹⁾		–40	105	°C

(1) In applications where high power dissipation and/or poor package thermal resistance is present, the maximum ambient temperature may have to be derated. Maximum ambient temperature [T_A(max)] is dependent on the maximum operating junction temperature [T_J(max)], the maximum power dissipation of the device in the application [P_D(max)], and the junction-to-ambient thermal resistance of the part-package in the application (θ_JA), as given by the following equation: TA_(max) = T_J(max) – (θ_JA × P_D(max)).

(2) See the Input Capacitor (Optional) section.

6.4 Thermal Information

THERMAL METRIC ⁽¹⁾		TPS22966	UNIT
		DPU (WSON)
		14 PINS
R_θJA	Junction-to-ambient thermal resistance	52.3	°C/W
R_θJC(top)	Junction-to-case (top) thermal resistance	45.9	°C/W
R_θJB	Junction-to-board thermal resistance	11.5	°C/W
ψ_JT	Junction-to-top characterization parameter	0.8	°C/W
ψ_JB	Junction-to-board characterization parameter	11.4	°C/W
R_θJC(bot)	Junction-to-case (bottom) thermal resistance	6.9	°C/W

(1) For more information about traditional and new thermal metrics, see the Semiconductor and IC Package Thermal Metrics application report.

6.5 Electrical Characteristics—V_BIAS = 5 V

Unless otherwise noted, the specification in the following table applies where V_BIAS = 5 V. Typical values are for T_A = 25°C (unless otherwise noted)

PARAMETER		TEST CONDITIONS		T_A	TYP	MAX	UNIT
POWER SUPPLIES AND CURRENTS
I_IN(VBIAS-ON)	V_BIASquiescent current (both channels)	I_OUT1 = I_OUT2 = 0 mA, V_IN1,2 = V_ON1,2 = V_BIAS = 5 V		–40°C to +105°C	80	120	µA
I_IN(VBIAS-ON)	V_BIASquiescent current (single channel)	I_OUT1 = I_OUT2 = 0 mA, V_ON2 = 0 V V_IN1,2 = V_ON1 = V_BIAS = 5 V		–40°C to +105°C	60	120	µA
I_{IN(VBIAS-OFF)}	V_BIAS shutdown current	V_ON1,2 = 0 V, V_OUT1,2 = 0 V		–40°C to +105°C		2	µA
I_IN(VIN-OFF)	V_IN1,2 off-state supply current (per channel)	V_ON1,2 = 0 V, V_OUT1,2 = 0 V	V_IN1,2 = 5 V	–40°C to +105°C	0.5	8	µA
			V_IN1,2 = 3.3 V	–40°C to +105°C	0.1	3
			V_IN1,2 = 1.8 V	–40°C to +105°C	0.07	2
			V_IN1,2 = 0.8 V	–40°C to +105°C	0.04	1
I_ON	ON pin input leakage current	V_ON = 5.5 V		–40°C to +105°C		1	µA
RESISTANCE CHARACTERISTICS
R_ON	ON-state resistance (per channel)	I_OUT = –200 mA, V_BIAS = 5 V	V_IN = 5 V	25°C	16	19	mΩ
				–40°C to +85°C		21
				–40°C to +105°C		23
			V_IN = 3.3 V	25°C	16	19
				–40°C to +85°C		21
				–40°C to +105°C		23
			V_IN = 1.8 V	25°C	16	19
				–40°C to +85°C		21
				–40°C to +105°C		23
			V_IN = 1.5 V	25°C	16	19
				–40°C to +85°C		21
				–40°C to +105°C		23
			V_IN = 1.2 V	25°C	16	19
				–40°C to +85°C		21
				–40°C to +105°C		23
			V_IN = 0.8 V	25°C	16	19
				–40°C to +85°C		21
				–40°C to +105°C		23
R_PD	Output pulldown resistance	V_IN = 5 V, V_ON = 0 V, I_OUT = 15 mA		–40°C to +85°C	220	300	Ω
R_PD	Output pulldown resistance	V_IN = 5 V, V_ON = 0 V, I_OUT = 15 mA		–40°C to +105°C		330	Ω

6.6 Electrical Characteristics—V_BIAS = 2.5 V

Unless otherwise noted, the specification in the following table applies where V_BIAS = 2.5 V. Typical values are for T_A = 25°C (unless otherwise noted)

PARAMETER		TEST CONDITIONS		T_A	TYP	MAX	UNIT
POWER SUPPLIES AND CURRENTS
I_IN(VBIAS-ON)	V_BIASquiescent current (both channels)	I_OUT1 = I_OUT2 = 0 mA, V_IN1,2 = V_ON1,2 = V_BIAS = 2.5 V		–40°C to +85°C	32	37	µA
I_IN(VBIAS-ON)	V_BIASquiescent current (both channels)	I_OUT1 = I_OUT2 = 0 mA, V_IN1,2 = V_ON1,2 = V_BIAS = 2.5 V		–40°C to +105°C		40	µA
I_IN(VBIAS-ON)	V_BIASquiescent current (single channel)	I_OUT1 = I_OUT2 = 0 mA, V_ON2 = 0 V V_IN1,2 = V_ON1 = V_BIAS = 2.5 V		–40°C to +105°C	23	40	µA
I_{IN(VBIAS-OFF)}	V_BIAS shutdown current	V_ON1,2 = 0 V, V_OUT1,2 = 0 V		–40°C to +105°C		2	µA
I_IN(VIN-OFF)	V_IN1,2 off-state supply current (per channel)	V_ON1,2 = 0 V, V_OUT1,2 = 0 V	V_IN1,2 = 2.5 V	–40°C to +105°C	0.13	3	µA
			V_IN1,2 = 1.8 V	–40°C to +105°C	0.07	2
			V_IN1,2 = 1.2 V	–40°C to +105°C	0.05	2
			V_IN1,2 = 0.8 V	–40°C to +105°C	0.04	1
I_ON	ON pin input leakage current	V_ON = 5.5 V		–40°C to +105°C		1	µA
RESISTANCE CHARACTERISTICS
R_ON	ON-state resistance	I_OUT = –200 mA, V_BIAS = 2.5 V	V_IN = 2.5 V	25°C	21	24	mΩ
				–40°C to +85°C		27
				–40°C to +105°C		29
			V_IN = 1.8 V	25°C	19	22
				–40°C to +85°C		25
				–40°C to +105°C		27
			V_IN = 1.5 V	25°C	18	21
				–40°C to +85°C		24
				–40°C to +105°C		26
			V_IN = 1.2 V	25°C	18	21
				–40°C to +85°C		24
				–40°C to +105°C		26
			V_IN = 0.8 V	25°C	17	20
				–40°C to +85°C		23
				–40°C to +105°C		25
R_PD	Output pulldown resistance	V_IN = 2.5 V, V_ON = 0 V, I_OUT = 1 mA		–40°C to +85°C	260	300	Ω
R_PD	Output pulldown resistance	V_IN = 2.5 V, V_ON = 0 V, I_OUT = 1 mA		–40°C to +105°C		330	Ω

6.7 Switching Characteristics

PARAMETER		TEST CONDITION	TYP	UNIT
V_IN = V_ON = V_BIAS = 5 V, T_A = 25ºC (unless otherwise noted)
t_ON	Turnon time	R_L= 10 Ω, C_L = 0.1 µF, C_T = 1000 pF	1310	µs
t_OFF	Turnoff time	R_L= 10 Ω, C_L = 0.1 µF, C_T = 1000 pF	6
t_R	V_OUT rise time	R_L= 10 Ω, C_L = 0.1 µF, C_T = 1000 pF	1720
t_F	V_OUT fall time	R_L= 10 Ω, C_L = 0.1 µF, C_T = 1000 pF	2
t_D	ON delay time	R_L= 10 Ω, C_L = 0.1 µF, C_T = 1000 pF	460
V_IN = 0.8 V, V_ON = V_BIAS = 5 V, T_A = 25ºC (unless otherwise noted)
t_ON	Turnon time	R_L= 10 Ω, C_L = 0.1 µF, C_T = 1000 pF	550	µs
t_OFF	Turnoff time	R_L= 10 Ω, C_L = 0.1 µF, C_T = 1000 pF	170
t_R	V_OUT rise time	R_L= 10 Ω, C_L = 0.1 µF, C_T = 1000 pF	325
t_F	V_OUT fall time	R_L= 10 Ω, C_L = 0.1 µF, C_T = 1000 pF	16
t_D	ON delay time	R_L= 10 Ω, C_L = 0.1 µF, C_T = 1000 pF	400
V_IN = 2.5 V, V_ON = 5 V, V_BIAS = 2.5 V, T_A = 25ºC (unless otherwise noted)
t_ON	Turnon time	R_L= 10 Ω, C_L = 0.1 µF, C_T = 1000 pF	2050	µs
t_OFF	Turnoff time	R_L= 10 Ω, C_L = 0.1 µF, C_T = 1000 pF	5
t_R	V_OUT rise time	R_L= 10 Ω, C_L = 0.1 µF, C_T = 1000 pF	2275
t_F	V_OUT fall time	R_L= 10 Ω, C_L = 0.1 µF, C_T = 1000 pF	2.5
t_D	ON delay time	R_L= 10 Ω, C_L = 0.1 µF, C_T = 1000 pF	990
V_IN = 0.8 V, V_ON = 5 V, V_BIAS = 2.5 V, T_A = 25ºC (unless otherwise noted)
t_ON	Turnon time	R_L= 10 Ω, C_L = 0.1 µF, C_T = 1000 pF	1300	µs
t_OFF	Turnoff time	R_L= 10 Ω, C_L = 0.1 µF, C_T = 1000 pF	130
t_R	V_OUT rise time	R_L= 10 Ω, C_L = 0.1 µF, C_T = 1000 pF	875
t_F	V_OUT fall time	R_L= 10 Ω, C_L = 0.1 µF, C_T = 1000 pF	16
t_D	ON delay time	R_L= 10 Ω, C_L = 0.1 µF, C_T = 1000 pF	870