米6体育平台手机版

ZHCSI09S June 2010 – August 2018 TPS65911

PRODUCTION DATA.

封装选项

机械数据 (封装 | 引脚)

ZRC|98
- MPBG381
NMA|98
- MPBGAT4A

散热焊盘机械数据 (封装 | 引脚)

订购信息

5.18 Electrical Characteristics: LDO3 and LDO4

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

PARAMETER	TEST CONDITIONS		MIN	TYP	MAX	UNIT
Input voltage on VCC5 (V_IN)	V_OUT (LDO3) = 1.8 V and V_OUT (LDO4) = 1.8 V or 1.1 V or 1.0 V		2.7		5.5	V
	V_OUT (LDO3) = 2.6 V and V_OUT (LDO4) = 2.5 V		3.0		5.5
	V_OUT (LDO3) = 2.8 V		3.2		5.5
LDO3
DC output voltage (V_OUT)	On and low-power mode, V_OUT = 1.0 to 3.3 V, V_IN = V_INmin to V_INmax	SEL[6:2] = 00010		1		V
		SEL[6:2] = 00011		1.1
		...	–3%	...	3%
		SEL[6:2] = 11000		3.2
		SEL[6:2] = 11001		3.3
Rated output current (I_OUTmax)	On mode		200			mA
Rated output current (I_OUTmax)	Low-power mode		1			mA
Load current limitation (short-circuit protection)	On mode, V_OUT = V_OUTmin – 100 mV		400	550	650	mA
Dropout voltage (V_DO)	On mode, V_OUTtyp = 3.3 V, V_DO = V_IN – V_OUT, V_IN = 3.6 V, I_OUT = I_OUTmax			150	250	mV
DC load regulation	On mode, I_OUT = I_OUTmax to 0				10	mV
DC line regulation	On mode, V_IN = V_INmin to V_INmax at I_OUT = I_OUTmax				4	mV
Transient load regulation	On mode, V_IN = 2.7 V, V_OUTtyp = 1.8 V I_OUT = 0.1 × I_OUTmax to 0.9 × I_OUTmax in 5 µs and I_OUT = 0.9 × I_OUTmax to 0.1 × I_OUTmax in 5 µs			15	22	mV
Transient line regulation	On mode, V_OUTtyp = 1.8V, I_OUT = I_OUTmax, V_IN = V_INmin + 0.5 V to V_INmin in 30 µs and V_IN = V_INmin to V_INmin + 0.5 V in 30 µs, I_OUT = I_OUTmax			0.5	1	mV
Turnon time	V_OUT = (1 to 1.8 V), at I_OUT = 0 measured from V_OUT = 0.1 V up to 97% of V_OUT		30		150	µs
Turnon time	V_OUT = (1.9 to 3.3 V), at I_OUT = 0 measured from V_OUT = 0.1 V up to 97% of V_OUT		50		200	µs
Turnon inrush current				200	450	mA
Ripple rejection	V_IN = V_INDC + 100 mV_pp tone, V_INDC+ = 3.8 V, I_OUT = I_OUTmax / 2	ƒ = 217 Hz		70		dB
Ripple rejection		ƒ = 50 Hz		40		dB
LDO3 internal resistance	LDO off			500		kΩ
Ground current	On mode, I_OUT = 0			65	76	µA
	On mode, I_OUT = I_OUTmax				2000
	Low-power mode			14	22
	Off mode				1
LDO4
DC output voltage (V_OUT)	On and low-power mode, V_IN = V_INmin to V_INmax⁽¹⁾	SEL[7:2] = 000000		0.8
		SEL[7:2] = 000001		0.85
		SEL[7:2] = 000010		0.9
		SEL[7:2] = 000011		0.95
		SEL[7:2] = 000100		1		V
		SEL[7:2] = 000101		1.05
		...	–3%	...	3%
		SEL[7:2] = 110001		3.25
		SEL[7:2] = 110010		3.3
Rated output current (I_OUTmax)	On mode		50			mA
Rated output current (I_OUTmax)	Low-power mode		1			mA
Load current limitation (short-circuit protection)	On mode, V_OUT = V_OUTmin – 100 mV		200	400	500	mA
Dropout voltage (V_DO)	On mode, V_OUTtyp = 2.5 V, V_DO = V_IN – V_OUT V_IN = 3.6 V, I_OUT = I_OUTmax			100	160	mV
DC load regulation	On mode, I_OUT = I_OUTmax to 0				5	mV
DC line regulation	On mode, V_IN = V_INmin to V_INmax at I_OUT = I_OUTmax				4	mV
Transient load regulation	On mode, V_IN = 2.7 V, V_OUTtyp = 1.8 V I_OUT = 0.1 × I_OUTmax to 0.9 × I_OUTmax in 5 µs and I_OUT = 0.9 × I_OUTmax to 0.1 × I_OUTmax in 5 µs			6	10	mV
Transient line regulation	On mode, V_IN = V_INmin + 0.5 V to V_INmin in 30 µs and V_IN = V_INmin to V_INmin + 0.5 V in 30 µs, I_OUT = I_OUTmax/ 2			0.2	1	mV
Turnon time	V_OUT = (1 to 1.8 V), at I_OUT = 0 measured from V_OUT = 0.1 V up to 97% of V_OUT		30		150	µs
Turnon time	V_OUT = (1.9 to 3.3 V), at I_OUT = 0 measured from V_OUT = 0.1 V up to 97% of V_OUT		50		200	µs
Ripple rejection	V_IN = V_INDC + 100 mV_pp tone, V_INDC+= 3.8 V, I_OUT = I_OUTmax / 2	ƒ = 217 Hz		70		dB
Ripple rejection		ƒ = 50 kHz		40		dB
LDO4 internal resistance	LDO off			500		kΩ
Ground current	On mode, I_OUT = 0			55	65	µA
	On mode, I_OUT = I_OUTmax				900
	Low-power mode			14	17
	Off mode				1

(1) Set DCDCCTRL_REG.TRACK=1 and disable VDD1 to achieve V_OUT < 1 V.