SLVSCT3 Data sheet

SLVSCT3 March 2015 TPS51275B-1

PRODUCTION DATA.

パッケージ・オプション

メカニカル・データ（パッケージ｜ピン）

RUK|20
- MPQF220D

サーマルパッド・メカニカル・データ

RUK|20
- QFND191D

発注情報

7 Specifications

7.1 Absolute Maximum Ratings⁽¹⁾

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

		MIN	MAX	UNIT
Input voltage⁽²⁾	VBST1, VBST2	–0.3	32	V
	VBST1, VBST2⁽³⁾	–0.3	6
	SW1, SW2	–6.0	26
	VIN	–0.3	26
	EN1, EN2	–0.3	6
	VFB1, VFB2	–0.3	3.6
	VO1	–0.3	6
Output voltage⁽²⁾	DRVH1, DRVH2	–6.0	32	V
	DRVH1, DRVH2⁽³⁾	–0.3	6
	DRVH1, DRVH2⁽³⁾ (pulse width < 20 ns)	–2.5	6
	DRVL1, DRVL2	–0.3	6
	DRVL1, DRVL2 (pulse width < 20 ns)	–2.5	6
	PGOOD, VCLK, VREG5	–0.3	6
	VREG3, CS1, CS2	–0.3	3.6
Junction temperature, T_J			150	°C
Storage temperature, T_stg		–55	150	°C

(1) Stresses beyond those listed under absolute maximum ratings may cause permanent damage to the device. These are stress ratings only and functional operation of the device at these or any other conditions beyond those indicated under recommended operating conditions is not implied. Exposure to absolute-maximum-rated conditions for extended periods may affect device reliability.

(2) All voltage values are with respect to the network ground terminal unless otherwise noted

(3) Voltage values are with respect to SW terminals.

7.2 ESD Ratings

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

7.3 Recommended Operating Conditions

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

		MIN	MAX	UNIT
Supply voltage	VIN	5	24	V
Input voltage⁽¹⁾	VBST1, VBST2	–0.1	30	V
	VBST1, VBST2⁽²⁾	–0.1	5.5
	SW1, SW2	–5.5	24
	EN1, EN2	–0.1	5.5
	VFB1, VFB2	–0.1	3.5
	VO1	–0.1	5.5
Output voltage⁽¹⁾	DRVH1, DRVH2	–5.5	30	V
	DRVH1, DRVH2⁽²⁾	–0.1	5.5
	DRVL1, DRVL2	–0.1	5.5
	PGOOD, VCLK, VREG5	–0.1	5.5
	VREG3, CS1, CS2	–0.1	3.5
Operating free-air temperature, T_A		–40	85	°C

(1) All voltage values are with respect to the network ground terminal unless otherwise noted.

(2) Voltage values are with respect to the SW terminal.

7.4 Thermal Information

THERMAL METRIC⁽¹⁾		RUK (WQFN)	UNIT
THERMAL METRIC⁽¹⁾		20 PINS	UNIT
R_θJA	Junction-to-ambient thermal resistance	94.1	°C/W
R_θJC(top)	Junction-to-case (top) thermal resistance	58.1
R_θJB	Junction-to-board thermal resistance	64.3
ψ_JT	Junction-to-top characterization parameter	31.8
ψ_JB	Junction-to-board characterization parameter	58.0
R_θJC(bot)	Junction-to-case (bottom) thermal resistance	5.9

(1) For more information about traditional and new thermal metrics, see the IC Package Thermal Metrics application report, SPRA953.

7.5 Electrical Characteristics

over operating free-air temperature range, V_VIN = 12 V, V_VO1 = 5 V, V_VFB1 = V_VFB2 = 2 V, V_EN1 = V_EN2 = 3.3 V (unless otherwise noted)

PARAMETER		TEST CONDITIONS	MIN	TYP	MAX	UNIT
SUPPLY CURRENT
I_VIN1	VIN supply current-1	T_A = 25°C, No load, V_VO1 = 0 V		860		μA
I_VIN2	VIN supply current-2	T_A = 25°C, No load		30		μA
I_VO1	VO1 supply current	T_A = 25°C, No load, V_VFB1 = V_VFB2 = 2.05 V		900		μA
I_VIN(STBY)	VIN stand-by current	T_A = 25°C, No load, V_VO1 = 0 V, V_EN1= V_EN2 = 0 V		180		μA
INTERNAL REFERENCE
V_FBx	VFB regulation voltage	T_A = 25°C	1.99	2	2.01	V
V_FBx	VFB regulation voltage		1.98	2	2.02	V
VREG5 OUTPUT
V_VREG5	VREG5 output voltage	T_A = 25°C, No load, V_VO1 = 0 V	4.9	5	5.1	V
		V_VIN > 7 V , V_VO1 = 0 V, I_VREG5 < 100 mA	4.85	5	5.1
		V_VIN> 5.5 V , V_VO1 = 0 V, I_VREG5 < 35 mA	4.85	5	5.1
		V_VIN> 5 V, V_VO1= 0 V, I_VREG5 < 20 mA	4.50	4.75	5.1
I_VREG5	VREG5 current limit	V_VO1 = 0 V, V_VREG5 = 4.5 V, V_VIN = 7 V	100	150		mA
R_V5SW	5-V switch resistance	T_A = 25°C, V_VO1= 5 V, I_VREG5 = 50 mA		1.8		Ω
VREG3 OUTPUT
V_VREG3	VREG3 output voltage	No load, V_VO1= 0 V, T_A = 25°C	3.267	3.3	3.333	V
		V_VIN> 7 V , V_VO1= 0 V, I_VREG3< 100 mA	3.217	3.3	3.383
		5.5 V < V_VIN , V_VO1= 0 V, I_VREG3< 35 mA	3.234	3.3	3.366
		0°C ≤ T_A ≤ 85°C, V_VIN> 5.5 V, V_VO1 = 0 V, I_VREG3< 35 mA	3.267	3.3	3.333
		0°C ≤ T_A ≤ 85°C, V_VIN> 5.5 V, V_VO1 = 5 V, I_VREG3< 35 mA	3.267	3.3	3.333
		V_VIN> 5 V, V_VO1 = 0 V, I_VREG3< 35 mA	3.217	3.3	3.366
I_VREG3	VREG3 current limit	V_VO1 = 0 V, V_VREG3 = 3.0 V, V_VIN= 7 V	100	150		mA
MOSFET DRIVERS
R_DRVH	DRVH resistance	Source, (V_VBST – V_DRVH) = 0.25 V, (V_VBST – V_SW) = 5 V		3		Ω
R_DRVH	DRVH resistance	Sink, (V_DRVH– V_SW) = 0.25 V, (V_VBST – V_SW) = 5 V		1.9		Ω
R_DRVL	DRVL resistance	Source, (V_VREG5 – V_DRVL) = 0.25 V, V_VREG5 = 5 V		3		Ω
R_DRVL	DRVL resistance	Sink, V_DRVL = 0.25 V, V_VREG5= 5 V		0.9		Ω
INTERNAL BOOT STRAP SWITCH
R_{VBST (ON)}	Boost switch on-resistance	T_A = 25°C, I_VBST = 10 mA		13		Ω
I_VBSTLK	VBST leakage current	T_A = 25°C			1	µA
CLOCK OUTPUT
R_{VCLK (PU)}	VCLK on-resistance (pullup)	T_A = 25°C		10		Ω
R_{VCLK (PD)}	VCLK on-resistance (pulldown)	T_A = 25°C		10		Ω
OUTPUT DISCHARGE
R_DIS1	CH1 discharge resistance	T_A = 25°C, V_VO1 = 0.5 V V_EN1 = V_EN2 = 0 V		35		Ω
R_DIS2	CH2 discharge resistance	T_A = 25°C, V_SW2 = 0.5 V, V_EN1 = V_EN2 = 0 V		70		Ω
POWER GOOD
V_PGTH	PG threshold	Lower (rising edge of PG-in)	92.5%	95.0%	97.5%
		Hysteresis		5%
		Upper (rising edge of PG-out)	107.5%	110.0%	112.5%
		Hysteresis		5%
I_PGMAX	PG sink current	V_PGOOD = 0.5 V		6.5		mA
I_PGLK	PG leakage current	V_PGOOD = 5.5 V			1	µA
CURRENT SENSING
I_CS	CS source current	T_A = 25°C, V_CS= 0.4 V	9	10	11	μA
TC_CS	CS current temperature coefficient⁽¹⁾	On the basis of 25°C		4500		ppm/°C
V_CS	CS current-limit setting range		0.2		2	V
V_ZC	Zero cross detection offset	T_A = 25°C	–1	1	3	mV
LOGIC THRESHOLD
V_ENX(ON)	EN threshold high-level	SMPS on level			1.6	V
V_ENX(OFF)	EN threshold low-level	SMPS off level	0.3			V
I_EN	EN input current	V_ENx= 3.3 V	–1		1	µA
OUTPUT OVERVOLTAGE PROTECTION
V_OVP	OVP trip threshold		112.5%	115.0%	117.5%
OUTPUT UNDERVOLTAGE PROTECTION
V_UVP	UVP trip threshold		55%	60%	65%
UVLO
V_UVL0VIN	VIN UVLO threshold	Wake up		4.58		V
V_UVL0VIN	VIN UVLO threshold	Hysteresis		0.5		V
V_UVLO5	VREG5 UVLO threshold	Wake up		4.38	4.5	V
V_UVLO5	VREG5 UVLO threshold	Hysteresis		0.4		V
V_UVLO3	VREG3 UVLO threshold	Wake up		3.15		V
V_UVLO3	VREG3 UVLO threshold	Hysteresis		0.15		V
OVERTEMPERATURE PROTECTION
T_OTP	OTP threshold⁽¹⁾	Shutdown temperature		155		°C
T_OTP	OTP threshold⁽¹⁾	Hysteresis		10		°C

(1) Ensured by design. Not production tested.

7.6 Timing Requirements

over operating free-air temperature range, V_VIN = 12 V, V_VO1 = 5 V, V_VFB1 = V_VFB2 = 2 V, V_EN1 = V_EN2 = 3.3 V (unless otherwise noted)

			MIN	NOM	MAX	UNIT
DUTY CYCLE AND FREQUENCY CONTROL
f_sw1	CH1 frequency⁽¹⁾	T_A = 25°C, V_VIN= 20 V	240	300	360	kHz
f_SW2	CH2 frequency⁽¹⁾	T_A = 25°C, V_VIN= 20 V	280	355	430	kHz
t_OFF(MIN)	Minimum off-time	T_A = 25°C	200	300	500	ns
MOSFET DRIVERS
t_D	Dead time	DRVH-off to DRVL-on		12		ns
t_D	Dead time	DRVL-off to DRVH-on		20		ns

7.7 Switching Characteristics

over operating free-air temperature range, V_VIN = 12 V, V_VO1 = 5 V, V_VFB1 = V_VFB2 = 2 V, V_EN1 = V_EN2 = 3.3 V (unless otherwise noted)

PARAMETER		TEST CONDITIONS	TYP	UNIT
CLOCK OUTPUT
f_CLK	Clock frequency	T_A = 25°C	260	kHz
SOFT-START OPERATION
t_SS	Soft-start time	From ENx = HI and V_VREG5 > V_UVLO5 to V_OUT = 95%	3.25	ms
t_SSRAMP	Soft-start time (ramp-up)	V_OUT= 0% to V_OUT = 95%, V_VREG5 = 5 V	3.12	ms
POWER GOOD
t_PGDEL	PG delay	From PG lower threshold (95% = typical) to PG flag high	1.38	ms
OUTPUT OVERVOLTAGE PROTECTION
t_OVPDLY	OVP propagation delay	T_A = 25°C	0.5	µs
OUTPUT UNDERVOLTAGE PROTECTION
t_UVPDLY	UVP propagation delay		250	µs
t_UVPENDLY	UVP enable delay	From ENx = HI and V_VREG5 > V_UVLO5 to UV latch off	4.3	ms