米6体育平台手机版

ZHCSHR0B September 2017 – September 2019 BQ25910

PRODUCTION DATA.

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请参考 PDF 数据表获取器件具体的封装图。

机械数据 (封装 | 引脚)

YFF|36

散热焊盘机械数据 (封装 | 引脚)

订购信息

6.5 Electrical Characteristics

V_{VBUS_UVLOZ} < V_VBUS < V_{VBUS_OV} and V_VBUS > V_BAT + V_SLEEP, T_J = –40°C to +125°C, and T_J = 25°C for typical values (unless otherwise noted)

PARAMETER		TEST CONDITIONS	MIN	TYP	MAX	UNIT
QUIESCENT CURRENTS
I_BAT	Battery discharge current (BATP, BATN, SW)	VBAT = 4.5V, VBUS = 0 - 5V, SCL, SDA = 0V or 1.8V, T_J < 85°C, EN_CHG = 0		6.5	10	μA
I_{VBUS_HIZ}	Input supply current (VBUS) in HIZ	VBUS = 5V, High-Z Mode, no battery			30	μA
I_{VBUS_HIZ}	Input supply current (VBUS) in HIZ	VBUS < V_{VBUS_OV}, High-Z Mode, no battery			50	μA
I_VBUS	Input supply current (VBUS)	VBUS > V_SLEEPZ, V_BAT = 3.8V, ICHG = 0A, converter not switching			20	μA
I_VBUS	Input supply current (VBUS)	VBUS > V_SLEEPZ, V_BAT = 3.8V, converter switching, IOUT = 0A		13		mA
VBUS / VBAT POWER UP
V_{VBUS_OP}	VBUS operating range		3.9		14	V
V_{VBUS_UVLOZ}	VBUS rising for active I2C, no battery	VBUS rising	3.6			V
V_SLEEP	Enter sleep mode threshold	VBUS falling, VBUS - VBAT, VBAT = 4V, T_J = 0°C - 85°C	15	60	110	mV
V_SLEEPZ	Exit sleep mode threshold	VBUS rising, VBUS - VBAT, VBAT = 4V, T_J = 0°C - 85°C	115	220	275	mV
V_{VBUS_OV}	VBUS over-voltage rising threshold	VBUS rising	14	14.3	14.7	V
V_{VBUS_OV}	VBUS over-voltage falling threshold	VBUS falling	13.3	13.65	14	V
V_{BAT_UVLOZ}	Battery for active I2C, no VBUS		2.3			V
V_POORSRC	Bad adapter detection threshold			3.7		V
I_POORSRC	Bad adapter detection current source			20		mA
POWER-PATH
R_{ON_QBLK}(QBLK)	Top reverse blocking MOSFET on-resistance between VBUS and PMID (QBLK)	T_J = –40°C - 125°C		14	22	mΩ
R_{ON_QHSA}(Q1)	Outer, high-side switching MOSFET on-resistance between PMID and CFLY+ (Q1)	T_J = –40°C - 125°C		22	40	mΩ
R_{ON_QHSB}(Q3)	Inner, high-side switching MOSFET on-resistance between CFLY+ and SW (Q3)	T_J = –40°C - 125°C		12	20	mΩ
R_{ON_QLSB} (Q4)	Inner, low-side switching MOSFET on-resistance between SW and CFLY- (Q4)	T_J = –40°C - 125°C		8	13	mΩ
R_{ON_QLSA}(Q2)	Outer, low-side switching MOSFET on-resistance between CFLY- and GND (Q2)	T_J = –40°C - 125°C		8	13	mΩ
BATTERY CHARGER
V_{REG_RANGE}	Typical charge voltage regulation range		3.5		4.775	V
V_{REG_STEP}	Typical charge voltage regulation step			5		mV
V_{REG_ACC}	Charge voltage regulation accuracy	VREG = 4.2V or 4.35V or 4.4V, T_J = –40°C - 85°C	-0.4		0.4	%
I_{CHG_RANGE}	Typical charge current regulation range		1000		6000	mA
I_{CHG_STEP}	Typical charge current regulation step			50		mA
I_{CHG_ACC}	Charge current regulation accuracy	ICHG = 2A, 3A, 4A, 5A, 6A, T_J = –40°C - 85°C	-10		10	%
I_{TERM_ACC}	Termination current regulation accuracy	VBUS = 9V, ICHG = 4A, ITERM = 1.0A, T_J = 0°C - 85°C	0.9	1	1.1	A
V_{BAT_SHORT}	Short battery voltage falling threshold	VBAT falling	1.85	2.00	2.15	V
V_{BAT_LOWV}	VBAT LOWV Rising threshold to start fast-charging	VBAT rising, VBATLOW = 3.2V	3.1	3.2	3.3	V
V_{BAT_LOWV}	VBAT LOWV Falling threshold to stop fast-charging	VBAT falling, VBATLOW = 3.2V	2.9	3	3.1	V
V_{BAT_LOWV}	VBAT LOWV Rising threshold to start fast-charging	VBAT rising, VBATLOW = 3.5V	3.4	3.5	3.6	V
V_{BAT_LOWV}	VBAT LOWV Falling threshold to stop fast-charging	VBAT falling, VBATLOW = 3.5V	3.2	3.3	3.4	V
R_BATP	BATP Input resistance	VBAT = 4V, VBUS = 5V, EN_CHG = 0		0.6		MΩ
R_BATN	BATN Input resistance	VBAT = 4V, VBUS = 5V, EN_CHG = 0		0.6		MΩ
INPUT VOLTAGE / CURRENT REGULATION
V_{INDPM_RANGE}	Input voltage regulation range		3.9		14	V
V_{INDPM_STEP}	Input voltage regulation step			100		mV
V_{INDPM_ACC}	Input voltage regulation accuracy	VINDPM = 4.3V	4.121	4.3	4.447	V
		VINDPM = 7.8V	7.566	7.8	8.034	V
		VINDPM = 10.8V	10.476	10.8	11.124	V
I_{INDPM_RANGE}	Input current regulation range		500		3600	mA
I_{INDPM_STEP}	Input current regulation step			100		mA
I_{INDPM_ACC}	Input current regulation accuracy	IINDPM = 500mA, T_J = –40°C - 85°C	410		500	mA
		IINDPM = 1500mA, T_J = –40°C - 85°C	1275		1500	mA
		IINDPM = 2500mA, T_J = –40°C - 85°C	2125		2500	mA
		IINDPM = 3000mA, T_J = –40°C - 85°C	2540		3000	mA
BATTERY OVER-VOLTAGE PROTECTION
V_{BAT_OVP}	Battery over-voltage rising threshold	VBAT rising, as percentage of VREG	102	104	106	%
V_{BAT_OVP}	Battery over-voltage falling threshold	VBAT falling, as percentage of VREG	100	102	103	%
THERMAL REGULATION AND THERMAL SHUTDOWN
T_REG	Junction temperature regulation accuracy	TREG = 80°C		80		°C
T_REG	Junction temperature regulation accuracy	TREG = 120°C		120		°C
T_SHUT	Thermal Shutdown Rising threshold	Temperature Increasing		150		°C
T_SHUT	Thermal Shutdown Falling threshold	Temperature Decreasing		120		°C
BUCK MODE OPERATION
F_SW	PWM switching frequency	Switching-node frequency	1.35	1.5	1.65	MHz
D_MAX	Maximum PWM Duty Cycle			97		%
REGN LDO
V_REGN	REGN LDO output voltage	V_VBUS = 12V, I_REGN = 40mA	4.85	5		V
V_REGN	REGN LDO output voltage	V_VBUS = 5V, I_REGN = 20mA	4.7	4.8		V
I_REGN	REGN LDO current limit	V_VBUS = 5V, V_REGN = 3.8V	50			mA
I2C INTERFACE (SCL, SDA)
V_IH	Input high threshold level, SDA and SCL	Pull-up rail 1.8V	1.3			V
V_IL	Input low threshold level, SDA and SCL	Pull-up rail 1.8V			0.4	V
V_OL	Output low threshold level, SDA	Sink current = 5mA			0.4	V
I_BIAS	High level leakage current, SDA and SCL	Pull-up rail 1.8V			1	μA
LOGIC OUTPUT PIN (/INT)
V_OL	Output low threshold level	Sink current = 5mA			0.4	V
I_{OUT_BIAS}	High level leakage current	Pull-up rail 1.8V			1	μA