SLVSDZ5 Data sheet

SLVSDZ5A February 2018 – January 2020 TPS2HB50-Q1

PRODUCTION DATA.

Table 7. Electrical Characteristics

V_BB = 6 V to 18 V, T_J = -40°C to 150°C (unless otherwise noted)

PARAMETER		TEST CONDITIONS		MIN	TYP	MAX	UNIT
INPUT VOLTAGE AND CURRENT
V_DSCLAMP	V_DS clamp voltage			40		46	V
V_BBCLAMP	V_BB clamp voltage			58		76	V
V_UVLOF	V_BB undervoltage lockout falling	Measured with respect to the GND pin of the device		2.0		3	V
V_UVLOR	V_BB undervoltage lockout rising	Measured with respect to the GND pin of the device		2.2		3	V
I_SB	Standby current (total device leakage including both MOSFET channels)	V_BB = 13.5 V, T_J = 25°C V_ENx = V_{DIA_EN} = 0 V, V_OUT = 0 V				0.5	µA
I_SB		V_BB= 13.5 V, T_J = 125°C, V_ENx = V_{DIA_EN} = 0 V, V_OUT = 0 V				4	µA
IL_NOM	Continuous load current, per channel	Two channels enabled, T_AMB = 70°C			3		A
IL_NOM	Continuous load current, per channel	One channel enabled, T_AMB = 70°C			4.5		A
I_OUT(standby)	Output leakage current (per channel)	V_BB = 13.5 V, T_J = 25°C V_ENx = V_{DIA_EN} = 0 V, V_OUT = 0 V			0.01	0.5	µA
I_OUT(standby)	Output leakage current (per channel)	V_BB= 13.5 V, T_J = 125°C V_ENx = V_{DIA_EN} = 0 V, V_OUT = 0 V				1.5	µA
I_DIA	Current consumption in diagnostic mode	V_BB = 13.5 V, I_SNS = 0 mA V_ENx = 0 V, V_{DIA_EN}= 5 V, V_OUT = 0V			3	6	mA
I_Q	Quiescent current	V_BB = 13.5 V V_ENx = V_{DIA_EN} = 5 V, I_OUTx = 0 A			3	6	mA
t_STBY	Standby mode delay time	V_ENx = V_{DIA_EN} = 0 V to standby		12	17	22	ms
RON CHARACTERISTICS
R_ON	On-resistance (Includes MOSFET and package)	T_J = 25°C, 6 V ≤ V_BB ≤ 28 V, I_OUT1 = I_OUT2 > 1 A			50		mΩ
		T_J = 150°C, 6 V ≤ V_BB ≤ 28 V, I_OUT1 = I_OUT2 > 1 A				100	mΩ
		T_J = 25°C, 3 V ≤ V_BB ≤ 6 V, I_OUT1 = I_OUT2 > 1 A				75	mΩ
R_ON(REV)	On-resistance during reverse polarity	T_J = 25°C, -18 V ≤ V_BB ≤ -8 V			50		mΩ
R_ON(REV)	On-resistance during reverse polarity	T_J = 105°C, -18 V ≤ V_BB ≤ -8 V				100	mΩ
CURRENT SENSE CHARACTERISTICS
K_SNS	Current sense ratio I_OUTx / I_SNS	I_OUTX= 1 A			1500
I_SNSI	Current sense current and accuracy	V_EN = V_{DIA_EN} = 5 V, V_SEL1 = 0 V, V_SEL2 = X	I_OUT = 3 A		2.000		mA
			I_OUT = 3 A	–5		5	%
			I_OUT = 1 A		0.667		mA
			I_OUT = 1 A	–5		5	%
			I_OUT = 300 mA		0.2		mA
			I_OUT = 300 mA	–5		5	%
			I_OUT = 100 mA		0.067		mA
			I_OUT = 100 mA	–6		6	%
			I_OUT = 50 mA		0.032		mA
			I_OUT = 50 mA	–11		11	%
			I_OUT = 20 mA		0.0124		mA
			I_OUT = 20 mA	-28		28	%
TJ SENSE CHARACTERISTICS
I_SNST	Temperature sense current	V_{DIA_EN} = 5 V, V_SEL1 = 5 V, V_SEL2 = 0 V	T_J = -40°C	0.00	0.12	0.29	mA
			T_J = 25°C	0.68	0.85	1.02	mA
			T_J = 85°C	1.25	1.52	1.79	mA
			T_J = 125°C	1.61	1.96	2.31	mA
			T_J = 150°C	1.80	2.25	2.70	mA
dI_SNST/dT	Coefficient				0.011		mA/°C
SNS CHARACTERISTICS
I_SNSFH	I_SNSfault high-level	V_{DIA_EN} = 5 V, V_SEL1 = 0 V, V_SEL2= X		4	4.5	5.3	mA
I_SNSleak	I_SNS leakage	V_{DIA_EN} = 0 V				1	µA
CURRENT LIMIT CHARACTERISTICS
I_CL	Current Limit Threshold	Device Version A, T_J = -40°C to 150°C	R_ILIM = GND, open, or out of range		11.8		A
			R_ILIM = 5 kΩ	7	10	14.4	A
			R_ILIM = 25 kΩ	1.325	2	3.2	A
		Device Version B, T_J = -40°C to 150°C	R_ILIM = GND, open, or out of range		27		A
			R_ILIM = 5 kΩ	13.5	18	26	A
			R_ILIM = 25 kΩ	2.2	4.4	5.28	A
K_CL	Current Limit Ratio	Version A		35	50	80	A * kΩ
K_CL	Current Limit Ratio	Version B		68.4	90	111	A * kΩ
FAULT CHARACTERISTICS
V_OL	Open-load (OL) detection voltage	V_ENx = 0 V, V_{DIA_EN} = 5 V		2	3	4	V
t_OL1	OL and STB indication-time from ENx falling	V_ENx= 5 V to 0 V, V_{DIA_EN} = 5 V, V_SEL1 = 0 V⁽¹⁾ I_OUT = 0 mA, V_OUTx = 4 V		300	500	700	µs
t_OL2	OL and STB indication-time from DIA_EN rising	V_ENx = 0 V, V_{DIA_EN} = 0 V to 5 V, V_SEL1 = 0 V⁽¹⁾ I_OUT= 0 mA, V_OUTx = 4 V				50	µs
t_OL3	OL and STB indication-time from V_OUT rising	V_ENx = 0 V, V_{DIA_EN} = 5 V, V_SEL1 = 0 V⁽¹⁾ I_OUT = 0 mA, V_OUTx = 0 V to 4 V				50	µs
T_ABS	Thermal shutdown			150			°C
T_REL	Relative thermal shutdown				50		°C
T_HYS	Thermal shutdown hysteresis				28		°C
t_FAULT	Fault shutdown indication-time	V_{DIA_EN} = 5 V Time between switch shutdown and I_SNS settling at I_SNSFH				50	µs
t_RETRY	Retry time	Time from fault shutdown until switch re-enable (thermal shutdown or current limit).		1	2	3	ms
EN1 AND EN2 PIN CHARACTERISTICS⁽²⁾
V_{IL, ENx}	Input voltage low-level	No GND network diode				0.8	V
V_{IH, ENx}	Input voltage high-level	No GND network diode		2			V
V_{IHYS, ENx}	Input voltage hysteresis				350		mV
R_ENx	Internal pulldown resistor			0.5	1	2	MΩ
I_{IL, EN}	Input current low-level	V_EN = 0.8 V			0.8		µA
I_{IH, EN}	Input current high-level	V_EN = 5 V			5		µA
DIA_EN PIN CHARACTERISTICS⁽²⁾
V_{IL, DIA_EN}	Input voltage low-level	No GND network diode				0.8	V
V_{IH, DIA_EN}	Input voltage high-level	No GND network diode		2.0			V
V_{IHYS, DIA_EN}	Input voltage hysteresis			200	350	530	mV
R_{DIA_EN}	Internal pulldown resistor			0.5	1	2	MΩ
I_{IL, DIA_EN}	Input current low-level	V_{DIA_EN} = 0.8 V			0.8		µA
I_{IH, DIA_EN}	Input current high-level	V_{DIA_EN} = 5 V			5		µA
SEL1 AND SEL2 PIN Characteristics
V_{IL, SELx}	Input voltage low-level	No GND network diode				0.8	V
V_{IH, SELx}	Input voltage high-level	No GND network diode		2			V
V_{IHYS, SELx}	Input voltage hysteresis				350		mV
R_SELx	Internal pulldown resistor			0.5	1	2	MΩ
I_{IL, SELX}	Input current low-level	V_SELX = 0.8 V			0.8		µA
I_{IH, SELX}	Input current high-level	V_SELX = 5 V			5		µA
LATCH PIN CHARACTERISTICS⁽²⁾
V_{IL, LATCH}	Input voltage low-level	No GND network diode				0.8	V
V_{IH, LATCH}	Input voltage high-level	No GND network diode		2			V
V_{IHYS, LATCH}	Input voltage hysteresis			200	350	530	mV
R_LATCH	Internal pulldown resistor			0.5	1	2	MΩ
I_{IL, LATCH}	Input current low-level	V_LATCH = 0.8 V			0.8		µA
I_{IH, LATCH}	Input current high-level	V_LATCH = 5 V			5		µA

(1) SELx must be set to select the relevant channel. Diagnostics are performed on Channel 1 when SELx = 00 and diagnostics are performed on channel 2 when SELx =01.

(2) V_BB = 3 V to 28 V