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ZHCSJ77F December 2010 – December 2018 TPS51916

PRODUCTION DATA.

封裝選項

6.5 Electrical Characteristics

over operating free-air temperature range, V_V5IN= 5 V, VLDOIN is connected to VDDQ output, V_MODE= 0 V, V_S3= V_S5= 5 V (unless otherwise noted)

PARAMETER		TEST CONDITION	MIN	TYP	MAX	UNIT
SUPPLY CURRENT
I_V5IN(S0)	V5IN supply current, in S0	T_A = 25°C, No load, V_S3 = V_S5 = 5 V		590		μA
I_V5IN(S3)	V5IN supply current, in S3	T_A = 25°C, No load, V_S3 = 0 V, V_S5 = 5 V		500		μA
I_V5INSDN	V5IN shutdown current	T_A = 25°C, No load, V_S3 = V_S5 = 0 V			1	μA
I_VLDOIN(S0)	VLDOIN supply current, in S0	T_A = 25°C, No load, V_S3 = V_S5 = 5 V			5	μA
I_VLDOIN(S3)	VLDOIN supply current, in S3	T_A = 25°C, No load, V_S3 = 0 V, V_S5 = 5 V			5	μA
I_VLDOINSDN	VLDOIN shutdown current	T_A = 25°C, No load, V_S3 = V_S5 = 0 V			5	μA
VREF OUTPUT
V_VREF	Output voltage	I_VREF = 30 μA, T_A = 25°C		1.8000		V
		0 μA ≤ I_VREF <300 μA, T_A = –10°C to 85°C	1.7856		1.8144
		0 μA ≤ I_VREF <300 μA, T_A = –40°C to 85°C	1.7820		1.8180
I_VREFOCL	Current limit	V_VREF = 1.7 V	0.4	0.8		mA
VTTREF OUTPUT
V_VTTREF	Output voltage			V_VDDQSNS/2		V
V_VTTREF	Output voltage tolerance to V_VDDQ	\|I_VTTREF\| <100 μA, 1.2 V ≤ V_VDDQSNS ≤ 1.8 V	49.2%		50.8%
V_VTTREF	Output voltage tolerance to V_VDDQ	\|I_VTTREF\| <10 mA, 1.2 V ≤ V_VDDQSNS ≤ 1.8 V	49%		51%
I_VTTREFOCLSRC	Source current limit	V_VDDQSNS = 1.8 V, V_VTTREF= 0 V	10	18		mA
I_VTTREFOCLSNK	Sink current limit	V_VDDQSNS = 1.8 V, V_VTTREF = 1.8 V	10	17		mA
I_VTTREFDIS	VTTREF discharge current	T_A = 25°C, V_S3 = V_S5 = 0 V, V_VTTREF = 0.5 V	0.8	1.3		mA
VTT OUTPUT
V_VTT	Output voltage			V_VTTREF		V
V_VTTTOL	Output voltage tolerance to VTTREF	\|I_VTT\| ≤ 10 mA, 1.2 V ≤ V_VDDQSNS ≤ 1.8 V, I_VTTREF= 0 A	–20		20	mV
		\|I_VTT\| ≤ 1 A, 1.2 ≤ V_VDDQSNS ≤ 1.8 V, I_VTTREF= 0 A	–30		30
		\|I_VTT\| ≤ 2 A, 1.4 V ≤ V_VDDQSNS ≤ 1.8 V, I_VTTREF= 0 A	–40		40
		\|I_VTT\| ≤ 1.5 A, 1.2 V ≤ V_VDDQSNS ≤ 1.4 V, I_VTTREF= 0 A	–40		40
I_VTTOCLSRC	Source current limit	V_VDDQSNS = 1.8 V, V_VTT = V_VTTSNS = 0.7 V, I_VTTREF= 0 A	2	3		A
I_VTTOCLSNK	Sink current limit	V_VDDQSNS = 1.8 V, V_VTT = V_VTTSNS = 1.1 V, I_VTTREF= 0 A	2	3		A
I_VTTLK	Leakage current	T_A = 25°C , V_S3 = 0 V, V_S5 = 5 V, V_VTT = V_VTTREF			5	μA
I_VTTSNSBIAS	VTTSNS input bias current	V_S3 = 5 V, V_S5 = 5 V, V_VTTSNS = V_VTTREF	–0.5	0.0	0.5
I_VTTSNSLK	VTTSNS leakage current	V_S3 = 0 V, V_S5 = 5 V, V_VTTSNS = V_VTTREF	–1	0	1
I_VTTDIS	VTT Discharge current	T_A = 25°C, V_S3 = V_S5 = 0 V, V_VDDQSNS = 1.8 V, V_VTT = 0.5 V, I_VTTREF= 0 A		7.8		mA
VDDQ OUTPUT
V_VDDQSNS	VDDQ sense voltage			V_REFIN
V_VDDQSNSTOL	VDDQSNS regulation voltage tolerance to REFIN	T_A = 25°C	–3		3	mV
I_VDDQSNS	VDDQSNS input current	V_VDDQSNS = 1.8 V		39		μA
I_REFIN	REFIN input current	V_REFIN = 1.8 V	–0.1	0.0	0.1	μA
I_VDDQDIS	VDDQ discharge current	V_S3 = V_S5 = 0 V, V_VDDQSNS = 0.5 V, MODE pin pulled down to GND through 47 kΩ (Non-tracking)		12		mA
I_VLDOINDIS	VLDOIN discharge current	V_S3 = V_S5 = 0 V, V_VDDQSNS = 0.5 V, MODE pin pulled down to GND through 100 kΩ (Tracking)		1.2		A
SWITCH MODE POWER SUPPLY (SMPS) FREQUENCY
f_SW	VDDQ switching frequency	V_IN = 12 V, V_VDDQSNS = 1.8 V, R_MODE = 100 kΩ		300		kHz
		V_IN = 12 V, V_VDDQSNS = 1.8 V, R_MODE = 200 kΩ		400
		V_IN = 12 V, V_VDDQSNS = 1.8 V, R_MODE = 1 kΩ		500
		V_IN = 12 V, V_VDDQSNS = 1.8 V, R_MODE = 12 kΩ		670
t_ON(min)	Minimum on-time⁽¹⁾	DRVH rising to falling		60		ns
t_OFF(min)	Minimum off-time	DRVH falling to rising	200	320	450	ns
VDDQ MOSFET DRIVER
R_DRVH	DRVH resistance	Source, I_DRVH = –50 mA		1.6	3.0	Ω
R_DRVH	DRVH resistance	Sink, I_DRVH = 50 mA		0.6	1.5
R_DRVL	DRVL resistance	Source, I_DRVL = –50 mA		0.9	2.0
R_DRVL	DRVL resistance	Sink, I_DRVL = 50 mA		0.5	1.2
t_DEAD	Dead time	DRVH-off to DRVL-on		10		ns
t_DEAD	Dead time	DRVL-off to DRVH-on		20		ns
INTERNAL BOOT STRAP SW
V_FBST	Forward voltage	V_V5IN-VBST, T_A = 25°C, I_F = 10 mA		0.1	0.2	V
I_VBSTLK	VBST leakage current	T_A = 25°C, V_VBST = 33 V, V_SW = 28 V		0.01	1.5	μA
LOGIC THRESHOLD
I_MODE	MODE source current		14	15	16	μA
V_THMODE	MODE threshold voltage	MODE 0-1	109	129	149	mV
		MODE 1-2	235	255	275
		MODE 2-3	392	412	432
		MODE 3-4	580	600	620
		MODE 4-5	829	854	879
		MODE 5-6	1202	1232	1262
		MODE 6-7	1760	1800	1840
V_IL	S3 or S5 low-level voltage				0.5	V
V_IH	S3 or S5 high-level voltage		1.5
V_IHYST	S3 or S5 hysteresis voltage			0.25
I_ILK	S3 or S5 input leak current		–1	0	1	μA
SOFT START
t_SS	VDDQ soft-start time	Internal soft-start time, C_VREF = 0.1 μF, S5 rising to V_VDDQSNS > 0.99 × V_REFIN		1.1		ms
PGOOD COMPARATOR
V_THPG	VDDQ PGOOD threshold	PGOOD in from higher	106%	108%	110%
		PGOOD in from lower	90%	92%	94%
		PGOOD out to higher	114%	116%	118%
		PGOOD out to lower	82%	84%	86%
I_PG	PGOOD sink current	V_PGOOD = 0.5 V	3	5.9		mA
t_PGDLY	PGOOD delay time	Delay for PGOOD in	0.8	1	1.2	ms
t_PGDLY	PGOOD delay time	Delay for PGOOD out, with 100 mV over drive		330		ns
t_PGSSDLY	PGOOD start-up delay	C_VREF = 0.1 μF, S5 rising to PGOOD rising		2.5		ms
PROTECTIONS
I_TRIP	TRIP source current	T_A = 25°C, V_TRIP = 0.4 V	9	10	11	μA
TC_ITRIP	TRIP source current temperature coefficient⁽¹⁾			4700		ppm/°C
V_TRIP	V_TRIP voltage range		0.2		3	V
V_OCL	Current limit threshold	V_TRIP = 3.0 V	360	375	390	mV
		V_TRIP = 1.6 V	190	200	210
		V_TRIP = 0.2 V	20	25	30
V_OCLN	Negative current limit threshold	V_TRIP = 3.0 V	–390	–375	–360	mV
		V_TRIP = 1.6 V	–210	–200	–190
		V_TRIP = 0.2 V	–30	–25	–20
V_ZC	Zero cross detection offset			0		mV
V_UVLO	V5IN UVLO threshold voltage	Wake-up	4.2	4.4	4.5	V
V_UVLO	V5IN UVLO threshold voltage	Shutdown	3.7	3.9	4.1	V
V_OVP	VDDQ OVP threshold voltage	OVP detect voltage	118%	120%	122%
t_OVPDLY	VDDQ OVP propagation delay	With 100 mV over drive		430		ns
V_UVP	VDDQ UVP threshold voltage	UVP detect voltage	66%	68%	70%
t_UVPDLY	VDDQ UVP delay			1		ms
t_UVPENDLY	VDDQ UVP enable delay			1.2		ms
V_OOB	OOB Threshold voltage			108%
THERMAL SHUTDOWN
T_SDN	Thermal shutdown threshold⁽¹⁾	Shutdown temperature		140		°C
T_SDN	Thermal shutdown threshold⁽¹⁾	Hysteresis		10		°C

(1) Ensured by design. Not production tested.

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訂購信息

6.5 Electrical Characteristics