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ZHCSL64D april 2019 – may 2023 TPS7H4001-SP

PRODMIX

封裝選項(xiàng)

請(qǐng)參考 PDF 數(shù)據(jù)表獲取器件具體的封裝圖。

機(jī)械數(shù)據(jù) (封裝 | 引腳)

DDW|44
KGD|0
HKY|34

散熱焊盤(pán)機(jī)械數(shù)據(jù) (封裝 | 引腳)

DDW|44
- PPTD380

訂購(gòu)信息

7.5 Electrical Characteristics - All Devices

T_J = –55°C to 125°C, V_IN = P_VIN = 3 V to 7 V (unless otherwise noted)

PARAMETER	TEST CONDITIONS		SUBGROUP⁽¹⁾	MIN	TYP	MAX	UNIT
SUPPLY VOLTAGE (VIN AND PVIN PINS)
PVIN operating input voltage			1, 2, 3	3.0		7.0	V
PVIN internal UVLO threshold	PVIN rising		1, 2, 3	2.425	2.50	2.575	V
PVIN internal UVLO hysteresis	Load = 0 A		1, 2, 3	425	450	475	mV
VIN operating input voltage			1, 2, 3	3.0		7.0	V
VIN internal UVLO threshold	VIN rising		1, 2, 3	2.71	2.75	2.80	V
VIN internal UVLO hysteresis			1, 2, 3	134	150	178	mV
VIN shutdown supply current	V_EN = 0 V		1, 2, 3		2.32	2.85	mA
VIN operating – non switching supply current	V_SENSE = V_BG		1, 2, 3		4	6	mA
ENABLE AND UVLO (EN PIN)
Enable threshold	Rising		1, 2, 3	1.110	1.14	1.172	V
Enable threshold	Falling		1, 2, 3	1.080	1.11	1.148	V
Input current	V_EN = 1.1 V		1, 2, 3	4.8	6.1	7.6	μA
Hysteresis current	V_EN = 1.3 V		1, 2, 3	2.4	3.0	3.9	μA
ERROR AMPLIFIER
Error amplifier input offset voltage	V_SENSE = 0.6 V		1, 2, 3	–2		2.55	mV
VSENSE pin input current	V_SENSE = 0.6 V		1, 2, 3	–15		15	nA
Error amplifier transconductance (g_m)	–2 μA < I_COMP < 2 μA, V_(COMP) = 1 V		9, 10, 11	1150	1800	2400	μS
Error amplifier DC gain⁽²⁾	V_SENSE = 0.6 V				10000		V/V
Error amplifier source	V_(COMP) = 1 V, 100-mV input overdrive		1, 2, 3	100	140	190	μA
Error amplifier sink	V_(COMP) = 1 V, 100-mV input overdrive		1, 2, 3	100	140	190	μA
Error amplifier output resistance					7		M?
COMP to Iswitch gm⁽³⁾	COMP = 0.5 V	–55℃	3	28	38	49	S
		25℃	1	29	40	50
		125℃	2	30	41	52
SLOPE COMPENSATION
Slope compensation⁽⁴⁾	f_SW= 100 kHz, RSC = 1.1 M?				–1.2		A/μs
	f_SW = 500 kHz, RSC = 196 k?				–6.0
	f_SW = 1000 kHz, RSC = 80.6 k?				–16.0
THERMAL SHUTDOWN
Thermal shutdown					190		°C
Thermal shutdown hysteresis					18		°C
INTERNAL SWITCHING FREQUENCY
Internally set frequency	RT = Open	VIN = 3 V	4, 5, 6	444	473	515	kHz
Internally set frequency	RT = Open	VIN = 5 V	4, 5, 6	449	502	560	kHz
Externally set frequency	RT = 1.07 MΩ (1%)	VIN = 3 V	4, 5, 6	80	98	125	kHz
	RT = 1.07 MΩ (1%)	VIN = 5 V	4, 5, 6	80	100	125
	RT = 165 kΩ (1%)	VIN = 3 V	4, 5, 6	455	495	535
	RT = 165 kΩ (1%)	VIN = 5 V	4, 5, 6	475	523	615
	RT = 73.2 kΩ (1%)	VIN = 3 V	4, 5, 6	689	850	1011
		VIN = 5 V	4, 5, 6	760	986	1212
		VIN = 5 V, TID = 100 krad(Si)	4	760	1145	1425
EXTERNAL SYNCHRONIZATION
SYNC1/SYNC2 out low-to-high rise time (10%/90%)	Cload = 25 pF		9, 10, 11		70	180	ns
SYNC1/SYNC2 out high-to-low fall time (90%/10%)	Cload = 25 pF		9, 10, 11		10	21	ns
SYNC2 to SYNC1 rising edge phase shift			9, 10, 11	77	85	94	°
SYNC1 falling edge delay⁽³⁾			9, 10, 11	165	180	185	°
SYNC1/SYNC2 out high level threshold	I_OH = 50 μA		1, 2, 3	VIN – 0.3			V
SYNC1/SYNC2 out low level threshold	I_OL = 50 μA		1, 2, 3			600	mV
SYNC1/SYNC2 in low level threshold	PVIN = VIN = 3 V		1, 2, 3			800	mV
	PVIN = VIN = 5 V					800
	PVIN = VIN = 7 V⁽³⁾					800
SYNC1/SYNC2 in high level threshold	PVIN = VIN = 3 V		1, 2, 3	2.25			V
	PVIN = VIN = 5 V			3.5
	PVIN = VIN = 7 V⁽³⁾			4.9
SYNC1 in frequency range	PVIN = VIN = 5 V		4, 5, 6	100		1000	kHz
SYNC1 in duty cycle range	Duty cycle of external clock		4, 5, 6	40		60	%
PH (PH PIN)
Minimum on time	Measured at 10% to 90% of VIN, I_PH = 2 A, VIN = 3 V		9, 10, 11		190	235	ns
Minimum on time	Measured at 10% to 90% of VIN, I_PH = 2 A, VIN = 5 V		9, 10, 11		190	225	ns
SOFT START AND TRACKING (SS/TR PIN)
SS charge current			1, 2, 3	1.5	2.5	3	μA
SS/TR to VSENSE matching⁽³⁾	V_(SS/TR) = 0.3 V		1, 2, 3		30	90	mV
POWER GOOD (PWRGD PIN)
VSENSE threshold	V_SENSE falling (fault)		1, 2, 3	90	91		%VREF
	V_SENSE rising (good)				94	97
	V_SENSE rising (fault)				109	111
	V_SENSE falling (good)			103	106
Output high leakage	V_SENSE = VREF, V(PWRGD) = 5 V		1, 2, 3		30	181	nA
Output low	I_(PWRGD) = 2 mA		1, 2, 3			0.3	V
Minimum VIN for valid output	V_(PWRGD) < 0.5 V at 100 μA		1, 2, 3		0.6	1	V
Minimum SS/TR voltage for PWRGD			1, 2, 3			1.1	V

(1) For subgroup definitions, see Quality Conformance Inspection table.

(2) Ensured by design only. Not tested in production.

(3) Bench verified. Not tested in production.

(4) Example values are shown in the table. Actual values are application specific and should be calculated as detailed in the Slope Compensation section.