SLVSBJ0 Data sheet

7.1 Absolute Maximum Ratings

over operating free-air temperature range (unless otherwise noted)⁽¹⁾ ⁽²⁾

		MIN	MAX	UNIT
V_IN	Input voltage	–0.3	6	V
V_OUT	Output voltage	–0.3	6	V
V_BIAS	Bias voltage	–0.3	6	V
V_ON	On voltage	–0.3	6	V
I_MAX	Maximum continuous switch current		6	A
I_PLS	Maximum pulsed switch current, pulse < 300 µs, 2% duty cycle		8	A
T_J	Maximum junction temperature		125	°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 pin.

7.2 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. Manufacturing with less than 500-V HBM is possible with the necessary precautions.

(2) JEDEC document JEP157 states that 250-V CDM allows safe manufacturing with a standard ESD control process. Manufacturing with less than 250-V CDM is possible with the necessary precautions.

7.3 Recommended Operating Conditions

			MIN	MAX	UNIT
V_IN	Input voltage		0.8	V_BIAS	V
V_BIAS	Bias voltage		2.5	5.7	V
V_ON	ON voltage		0	5.7	V
V_OUT	Output voltage			V_IN	V
V_IH	High-level input voltage, ON	V_BIAS = 2.5 V to 5.7 V	1.1	5.7	V
V_IL	Low-level input voltage, ON	V_BIAS = 2.5 V to 5.7 V	0	0.5	V
C_IN	Input capacitor		1⁽¹⁾		µF
T_A	Operating free-air temperature⁽²⁾		–40	105	°C

(1) See the Application Information section.

(2) 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 equation: T_A _(max) = T_J(max) – (θ_JA × P_D(max))

7.4 Thermal Information

THERMAL METRIC⁽¹⁾		TPS22965x	UNIT
		DSG (WSON)
		8 PINS
R_θJA	Junction-to-ambient thermal resistance	72.3	°C/W
R_θJC(top)	Junction-to-case (top) thermal resistance	96.1	°C/W
R_θJB	Junction-to-board thermal resistance	42.1	°C/W
ψ_JT	Junction-to-top characterization parameter	3.3	°C/W
ψ_JB	Junction-to-board characterization parameter	42.5	°C/W
R_θJC(bot)	Junction-to-case (bottom) thermal resistance	13.2	°C/W

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

7.5 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.

PARAMETER		TEST CONDITIONS		T_A	TYP	MAX	UNIT
POWER SUPPLIES AND CURRENTS
I_Q V_VBIAS	V_BIASquiescent current	I_OUT = 0 mA, V_IN = V_ON = V_BIAS = 5 V		–40°C to +105°C	50	75	µA
I_SD V_BIAS	V_BIAS shutdown current	V_ON = GND, V_OUT = 0 V		–40°C to +105°C		2	µA
I_SD V_IN	V_IN off-state supply current	V_ON = GND, V_OUT = 0 V	V_IN = 5 V	–40°C to +105°C	0.005	5	µA
			V_IN = 3.3 V	–40°C to +105°C	0.002	3
			V_IN = 1.8 V	–40°C to +105°C	0.002	2
			V_IN = 0.8 V	–40°C to +105°C	0.001	1
I_ON	ON pin input leakage current	V_ON = 5.5 V		–40°C to +105°C		0.5	µA
RESISTANCE CHARACTERISTICS
R_ON	ON-state resistance	I_OUT = –200 mA, V_BIAS = 5 V	V_IN = 5 V	25°C	16	21	mΩ
				–40°C to +85°C		23
				–40°C to +105°C		25
			V_IN = 3.3 V	25°C	16	21	mΩ
				–40°C to +85°C		23
				–40°C to +105°C		25
			V_IN = 1.8 V	25°C	16	21	mΩ
				–40°C to +85°C		23
				–40°C to +105°C		25
			V_IN = 1.5 V	25°C	16	21	mΩ
				–40°C to +85°C		23
				–40°C to +105°C		25
			V_IN = 1.2 V	25°C	16	21	mΩ
				–40°C to +85°C		23
				–40°C to +105°C		25
			V_IN = 0.8 V	25°C	16	21	mΩ
				–40°C to +85°C		23
				–40°C to +105°C		25
R_PD ⁽¹⁾	Output pulldown resistance	V_IN = 5 V, V_ON = 0 V, I_OUT = 15 mA		–40°C to +105°C	225	300	Ω

(1) TPS22965 only

7.6 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.

PARAMETER		TEST CONDITIONS		T_A	MIN	TYP	MAX	UNIT
POWER SUPPLIES AND CURRENTS
I_Q V_VBIAS	V_BIASquiescent current	I_OUT = 0 mA, V_IN = V_ON = V_BIAS = 2.5 V		–40°C to +105°C		20	30	µA
I_SD V_BIAS	V_BIAS shutdown current	V_ON = GND, V_OUT = 0 V		–40°C to +105°C			2	µA
I_SD V_IN	V_IN off-state supply current	V_ON = GND, V_OUT = 0 V	V_IN = 2.5 V	–40°C to +105°C		0.005	3	µA
			V_IN = 1.8 V	–40°C to +105°C		0.002	2
			V_IN = 1.2 V	–40°C to +105°C		0.002	2
			V_IN = 0.8 V	–40°C to +105°C		0.001	1
I_ON	ON pin input leakage current	V_ON = 5.5 V		–40°C to +105°C			0.5	µA
RESISTANCE CHARACTERISTICS
R_ON	ON-state resistance	I_OUT = –200 mA, V_BIAS = 2.5 V	V_IN = 2.5 V	25°C		20	24	mΩ
				–40°C to +85°C			27
				–40°C to +105°C			28
			V_IN = 1.8 V	25°C		19	23	mΩ
				–40°C to +85°C			26
				–40°C to +105°C			28
			V_IN = 1.5 V	25°C		18	23	mΩ
				–40°C to +85°C			25
				–40°C to +105°C			27
			V_IN = 1.2 V	25°C	0	18	23	mΩ
				–40°C to +85°C			25
				–40°C to +105°C			27
			V_IN = 0.8 V	25°C		17	22	mΩ
				–40°C to +85°C			25
				–40°C to +105°C			27
R_PD⁽¹⁾	Output pulldown resistance	V_IN = 2.5 V, V_ON = 0 V, I_OUT = 1 mA		–40°C to +105°C		275	325	Ω

(1) TPS22965 only

7.7 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	1600	µs
t_OFF	Turnoff time	R_L= 10 Ω, C_L = 0.1 µF, C_T = 1000 pF	9
t_R	V_OUT rise time	R_L= 10 Ω, C_L = 0.1 µF, C_T = 1000 pF	1985
t_F	V_OUT fall time	R_L= 10 Ω, C_L = 0.1 µF, C_T = 1000 pF	3
t_D	ON delay time	R_L= 10 Ω, C_L = 0.1 µF, C_T = 1000 pF	660
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	730	µs
t_OFF	Turnoff time	R_L= 10 Ω, C_L = 0.1 µF, C_T = 1000 pF	100
t_R	V_OUT rise time	R_L= 10 Ω, C_L = 0.1 µF, C_T = 1000 pF	380
t_F	V_OUT fall time	R_L= 10 Ω, C_L = 0.1 µF, C_T = 1000 pF	8
t_D	ON delay time	R_L= 10 Ω, C_L = 0.1 µF, C_T = 1000 pF	560
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	2435	µs
t_OFF	Turnoff time	R_L= 10 Ω, C_L = 0.1 µF, C_T = 1000 pF	9
t_R	V_OUT rise time	R_L= 10 Ω, C_L = 0.1 µF, C_T = 1000 pF	2515
t_F	V_OUT fall time	R_L= 10 Ω, C_L = 0.1 µF, C_T = 1000 pF	4
t_D	ON delay time	R_L= 10 Ω, C_L = 0.1 µF, C_T = 1000 pF	1230
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	1565	µs
t_OFF	Turnoff time	R_L= 10 Ω, C_L = 0.1 µF, C_T = 1000 pF	70
t_R	V_OUT rise time	R_L= 10 Ω, C_L = 0.1 µF, C_T = 1000 pF	930
t_F	V_OUT fall time	R_L= 10 Ω, C_L = 0.1 µF, C_T = 1000 pF	8
t_D	ON delay time	R_L= 10 Ω, C_L = 0.1 µF, C_T = 1000 pF	1110

7.8 Typical DC Characteristics

V_IN = 1.8 V	V_ON = 5 V	V_OUT = 0 V

Figure 1. V_BIAS Quiescent Current vs Bias Voltage

V_IN = 5 V	V_ON = 0 V	V_OUT = 0 V

Figure 3. V_BIAS Shutdown Current vs Bias Voltage

V_BIAS = 2.5 V	I_OUT = –200 mA	V_ON = 5.5 V
	All three RON curves have the same values and hence only one line is visible.

Figure 5. On-Resistance vs Ambient Temperature

V_BIAS = 2.5 V	I_OUT = –200 mA	V_ON = 5.5 V

Figure 7. On-Resistance vs Input Voltage

T_A = 25°C	I_OUT = –200 mA	V_ON = 5.5 V

Figure 9. On-Resistance vs Bias Voltage

V_IN = 2 V	T_A = 25°C

Figure 11. Output Voltage vs ON Voltage

V_BIAS = 5 V

I_OUT = –4 A

V_ON = 5.5 V

Figure 13. On-Resistance vs Input Voltage

V_BIAS = 5 V	V_ON = 5 V	V_OUT = 0 V

Figure 2. V_BIAS Quiescent Current vs Input Voltage

V_BIAS = 5 V	V_ON = 0 V	V_OUT = 0 V

Figure 4. V_BIAS Shutdown Current vs Input Voltage

V_BIAS = 5 V	I_OUT = –200 mA	V_ON = 5.5 V
Note:	All three R_ON curves have the same values; therefore, only one line is visible.

Figure 6. On-Resistance vs Ambient Temperature

V_BIAS = 5 V	I_OUT = –200 mA	V_ON = 5.5 V

Figure 8. On-Resistance vs Input Voltage

V_IN = 1.8 V	V_ON = 0 V

Figure 10. Pulldown Resistance vs Bias Voltage

V_BIAS = 2.5 V	I_OUT = –4 A	V_ON = 5.5 V

Figure 12. On-Resistance vs Input Voltage

7.9 Typical Switching Characteristics

T_A = 25°C, C_T = 1000 pF, C_IN = 1 µF, C_L = 0.1 µF, R_L = 10 Ω

V_BIAS = 2.5 V	CT = 1000 pF

Figure 14. Delay Time vs Input Voltage

V_BIAS = 2.5 V	CT = 1000 pF

Figure 16. Fall Time vs Input Voltage

V_BIAS = 2.5 V	CT = 1000 pF

Figure 18. Turnoff Time vs Input Voltage

V_BIAS = 2.5 V	CT = 1000 pF

Figure 20. Turnon Time vs Input Voltage

V_BIAS = 2.5 V	CT = 1000 pF

Figure 22. Rise Time vs Input Voltage

V_IN = 0.8 V	V_BIAS = 2.5 V	C_IN = 1 µF
C_L = 0.1 µF	R_L = 10 Ω

Figure 24. Turnon Response Time

V_IN = 2.5 V	V_BIAS = 2.5 V	C_IN = 1 µF,
C_L = 0.1 µF	R_L = 10 Ω

Figure 26. Turnon Response Time

V_IN = 0.8 V	V_BIAS = 2.5 V	C_IN = 1 µF
C_L = 0.1 µF	R_L= 10 Ω

Figure 28. Turnoff Response Time

V_IN = 2.5 V	V_BIAS = 2.5 V	C_IN = 1 µF
C_L = 0.1 µF	R_L = 10 Ω

Figure 30. Turnoff Response Time

V_BIAS = 5 V	CT = 1000 pF

Figure 15. Delay Time vs Input Voltage

V_BIAS = 5 V	CT = 1000 pF

Figure 17. Fall Time vs Input Voltage

V_BIAS = 5 V	CT = 1000 pF

Figure 19. Turnoff Time vs Input Voltage

V_BIAS = 5 V	CT = 1000 pF

Figure 21. Turnon Time vs Input Voltage

V_BIAS = 5 V	CT = 1000 pF

Figure 23. Rise Time vs Input Voltage

V_IN = 0.8 V	V_BIAS = 5 V	C_IN = 1 µF
C_L = 0.1 µF	R_L = 10 Ω

Figure 25. Turnon Response Time

V_IN = 5 V	V_BIAS = 5 V	C_IN = 1 µF
C_L = 0.1 µF	R_L = 10 Ω

Figure 27. Turnon Response Time

V_IN = 0.8 V	V_BIAS = 5 V	C_IN = 1 µF
C_L = 0.1 µF	R_L = 10 Ω

Figure 29. Turnoff Response Time

V_IN = 5 V	V_BIAS = 5 V	C_IN = 1 µF
C_L = 0.1 µF	R_L = 10 Ω)

Figure 31. Turnoff Response Time

Package Options

Mechanical Data (Package|Pins)

Thermal pad, mechanical data (Package|Pins)

Orderable Information

7 Specifications

7.1 Absolute Maximum Ratings

7.2 ESD Ratings

7.3 Recommended Operating Conditions

7.4 Thermal Information

7.5 Electrical Characteristics—V_BIAS = 5 V

7.6 Electrical Characteristics—V_BIAS = 2.5 V

7.7 Switching Characteristics

7.8 Typical DC Characteristics

7.9 Typical Switching Characteristics

Package Options

Mechanical Data (Package|Pins)

Thermal pad, mechanical data (Package|Pins)

Orderable Information

7 Specifications

7.1 Absolute Maximum Ratings

7.2 ESD Ratings

7.3 Recommended Operating Conditions

7.4 Thermal Information

7.5 Electrical Characteristics—VBIAS = 5 V

7.6 Electrical Characteristics—VBIAS = 2.5 V

7.7 Switching Characteristics

7.8 Typical DC Characteristics

7.9 Typical Switching Characteristics

7.5 Electrical Characteristics—V_BIAS = 5 V

7.6 Electrical Characteristics—V_BIAS = 2.5 V