米6体育平台手机版

ZHCSJZ6D June 2019 – December 2021 BQ25618 , BQ25619

PRODUCTION DATA

封装选项

机械数据 (封装 | 引脚)

RTW|24
- MPQF167C

散热焊盘机械数据 (封装 | 引脚)

RTW|24
- QFND125K

订购信息

7.6 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_{Q_BAT}	Quiescent battery current (BATSNS, BAT, SYS, SW)	VBAT = 4.5V, VBUS floating or VBUS = 0V - 5V, SCL, SDA = 0V or 1.8V, T_J < 85 °C, BATFET enabled		9.5	15	µA
I_{SHIP_BAT}	Shipmode battery current (BATSNS, BAT, SYS, SW)	VBAT = 4.5V, VBUS floating or VBUS = 0V - 5V, SCL, SDA = 0V or 1.8V, T_J < 85 °C, BATFET disabled		7	9.5	µA
I_VBUS	Input current (VBUS) in buck mode when converter is switching	VBUS=5V, charge disabled, converter switching, ISYS = 0A		2.3		mA
I_{HIZ_VBUS}	Quiescent input current in HIZ	VAC/VBUS = 5V, HIZ mode, no battery		37	50	µA
I_{HIZ_VBUS}	Quiescent input current in HIZ	VAC/VBUS = 12V, HIZ mode, no battery		68	90	µA
I_BST	Quiescent battery current (BATSNS, BAT, SYS, SW) in boost mode when converter is switching	VBAT = 4.5V, VBUS = 5V, boost mode enabled, converter switching, I_PMID = 0A		2.4		mA
VBUS / VBAT SUPPLY
V_{VBUS_OP}	VBUS operating range		4		13.5	V
V_{VBUS_UVLOZ}	VBUS rising for active I2C, no battery	VBUS rising		3.3	3.7	V
V_{VBUS_UVLO}	VBUS falling to turnoff I2C, no battery	VBUS falling		3	3.3	V
V_{VBUS_PRESENT}	VBUS to enable REGN	VBUS rising		3.65	3.9	V
V_{VBUS_PRESENTZ}	VBUS to disable REGN	VBUS falling		3.15	3.4	V
V_SLEEP	Enter Sleep mode threshold	VBUS falling, VBUS - VBAT, VBAT = 4V	15	60	110	mV
V_SLEEPZ	Exit Sleep mode threshold	VBUS rising, VBUS - VBAT, VBAT = 4V	115	220	340	mV
V_ACOV	VAC overvoltage rising threshold to turn of switching	VAC rising, OVP[1:0]=00	5.45	5.85	6.07	V
		VAC rising, OVP[1:0]=01	6.1	6.4	6.75	V
		VAC rising, OVP[1:0]=10	10.45	11	11.55	V
		VAC rising, OVP[1:0]=11 (default)	13.5	14.2	14.85	V
	VAC overvoltage falling threshold to resume switching	VAC falling, OVP[1:0]=00	5.2	5.6	5.8	V
		VAC falling, OVP[1:0]=01	5.8	6.2	6.45	V
		VAC falling, OVP[1:0]=10	10	10.7	11.1	V
		VAC falling, OVP[1:0]=11 (default)	13	13.9	14.5	V
V_{BAT_UVLOZ}	BAT voltage for active I2C, no VBUS	VBAT rising	2.5			V
V_{BAT_DPLZ}	BAT depletion rising threshold to turn on BATFET	VBAT rising	2.35		2.8	V
V_{BAT_DPL}	BAT depletion falling threshold to turn off BATFET	VBAT falling	2.18		2.62	V
V_POORSRC	Bad adapter detection threshold	VBUS falling	3.75	3.9	4.0	V
POWER PATH MANAGEMENT
V_{SYS_MIN}	Typical minimum system regulation voltage	VBAT=3.2V < SYS_MIN = 3.5V, ISYS = 0A	3.5	3.65		V
V_{SYS_OVP}	System overvoltage threshold	VREG = 4.35V, Charge disabled, ISYS = 0A		4.7		V
R_{ON_RBFET}	Blocking FET on-resistance (BQ25618)			35		mΩ
R_{ON_RBFET}	Blocking FET on-resistance (BQ25619)			45		mΩ
R_{ON_HSFET}	High-side switching FET on-resistance (BQ25618)			55		mΩ
R_{ON_HSFET}	High-side switching FET on-resistance (BQ25619)			62		mΩ
R_{ON_LSFET}	Low-side switching FET on-resistance (BQ25618)			60		mΩ
R_{ON_LSFET}	Low-side switching FET on-resistance (BQ25619)			71		mΩ
V_BATFET__FWD	BATFET forward voltage in supplement mode	BAT discharge current 10mA, converter running		30		mV
BATTERY CHARGER
V_{REG_RANGE}	Typical charge voltage regulation range		3.5		4.52	V
V_{REG_STEP}	Typical charge voltage step	4.3V < VREG < 4.52V		10		mV
V_{REG_ACC}	Charge voltage accuracy	VREG = 4.2V, T_J = –40°C - 85°C	4.183	4.2	4.2168	V
V_{REG_ACC}	Charge voltage accuracy	VREG = 4.35V, T_J = –40°C - 85°C	4.333	4.35	4.367	V
V_{REG_ACC}	Charge voltage accuracy	VREG = 4.45V, T_J = –40°C - 85°C	4.432	4.45	4.468	V
I_{CHG_RANGE}	Typical charge current regulation range		0		1.5	A
I_{CHG_STEP}	Typical charge current regulation step			20		mA
I_{CHG_ACC}	Fast charge current regulation accuracy	ICHG = 0.24A, VBAT = 3.1V or 3.8V, T_J = –40°C - 85°C	0.216	0.24	0.264	A
		ICHG = 0.72A, VBAT = 3.1V or 3.8V, T_J = –40°C - 85°C	0.6768	0.72	0.7632	A
		ICHG = 1.50A, VBAT = 3.1V or 3.8V, T_J = –40°C - 85°C	1.41	1.5	1.59	A
I_{PRECHG_RANGE}	Typical pre-charge current range		20		260	mA
I_{PRECHG_STEP}	Typical pre-charge current step			20		mA
I_{PRECHG_ACC}	Precharge current accuracy	VBAT = 2.6V, IPRECHG = 40mA	28	40	52	mA
I_{PRECHG_ACC}	Precharge current accuracy	VBAT = 2.6V, IPRECHG = 120mA	84	120	156	mA
I_{TERM_RANGE}	Typical termination current range		20		260	mA
I_{TERM_STEP}	Typical termination current step			20		mA
I_{TERM_ACC}	Termination current accuracy	ITERM=40mA, ICHG>260mA, VREG=4.35V, T_J = 0°C - 85°C	30	40	50	mA
I_{TERM_ACC}	Termination current accuracy	ITERM=20mA, ICHG<260mA, VREG=4.35V, T_J = 0°C - 85°C	10	20	30	mA
V_{BAT_SHORTZ}	Battery short voltage rising threshold to start pre-charge	VBAT rising	2.13	2.25	2.35	V
V_{BAT_SHORT}	Battery short voltage falling threshold to stop pre-charge	VBAT falling	1.85	2	2.15	V
I_{BAT_SHORT}	Battery short trickle charging current	VBAT < V_{BAT_SHORTZ}	15	25	30	mA
V_BATLOWV	Battery LOWV rising threshold to start fast-charge	VBAT rising	3	3.12	3.24	V
V_BATLOWV	Battery LOWV falling threshold to stop fast-charge	VBAT falling	2.7	2.8	2.9	V
V_RECHG	Battery recharge threshold	VRECHG=0, VBAT falling (default)	90	120	150	mV
V_RECHG	Battery recharge threshold	VRECHG=1, VBAT falling	185	210	245	mV
I_{SYS_LOAD}	System discharge load current during SYSOVP			30		mA
R_{ON_BATFET}	Battery FET on-resistance	T_J = -40°C - 85°C		19.5	26	mΩ
R_{ON_BATFET}	Battery FET on-resistance	T_J = -40°C - 125°C		19.5	30	mΩ
BATTERY OVERVOLTAGE PROTECTION
V_{BAT_OVP}	Battery overvoltage rising threshold	VBAT rising, as percentage of VREG	103	104	105	%
V_{BAT_OVP}	Battery overvoltage falling threshold	VBAT falling, as percentage of VREG	101	102	103	%
INPUT VOLTAGE / CURRENT REGULATION
V_{INDPM_RANGE}	Typical input voltage regulation range		3.9		5.4	V
V_{INDPM_STEP}	Typical input voltage regulation step			100		mV
V_{INDPM_ACC}	Typical input voltage regulation accuracy		4.365	4.5	4.635	V
V_{INDPM_TRACK}	VINDPM threshold to track battery voltage	VBAT = 4.35V, VINDPM_BAT_TRACK = VBAT+200mV	4.45	4.55	4.74	V
I_{INDPM_RANGE}	Typical input current regulation range		0.1		3.2	A
I_{INDPM_STEP}	Typical input current regulation step			100		mA
I_{INDPM_ACC}	Input current regulation accuracy	IINDPM = 500mA (T_J=-40°C - 85°C)	450	465	500	mA
I_{INDPM_ACC}	Input current regulation accuracy	IINDPM = 900mA (T_J=-40°C-85°C)	750	835	900	mA
I_{INDPM_ACC}	Input current regulation accuracy	IINDPM = 1500mA (T_J=-40°C-85°C)	1300	1390	1500	mA
THERMAL REGULATION AND THERMAL SHUTDOWN
T_REG	Junction temperature regulation accuracy	TREG = 90°C		90		°C
T_REG	Junction temperature regulation accuracy	TREG = 110°C		110		°C
T_SHUT	Thermal Shutdown Rising threshold	Temperature Increasing		150		°C
	Thermal Shutdown Falling threshold	Temperature Decreasing		130		°C
CHARGE MODE THERMISTOR COMPARATOR (JEITA 616J or HOT/COLD 616)
V_{T1_RISE%}	TS pin voltage rising threshold, Charge suspended above this voltage.	As Percentage to REGN (0°C w/ 103AT)	72.4	73.3	74.2	%
V_{T1_FALL%}	TS pin voltage falling threshold. Charge re-enabled to 20% of ICHG and VREG below this voltage.	As Percentage to REGN	71.5	72	72.5	%
V_{T2_RISE%}	TS pin voltage rising threshold, Charge back to 20% of ICHG and VREG above this voltage.	As Percentage to REGN, JEITA_T2=5°C w/ 103AT	70.25	70.75	71.25	%
		As Percentage to REGN, JEITA_T2=10°C w/ 103AT	67.75	68.25	68.75	%
		As Percentage to REGN, JEITA_T2=15°C w/ 103AT	64.75	65.25	65.75	%
		As Percentage to REGN, JEITA_T2=20°C w/ 103AT	61.75	62.25	62.75	%
V_{T2_FALL%}	TS pin voltage falling threshold. Charge back to ICHG and VREG below this voltage.	As Percentage to REGN, JEITA_T2=5°C w/ 103AT	68.7	69.2	69.7	%
		As Percentage to REGN, JEITA_T2=10°C w/ 103AT	66.45	66.95	67.45	%
		As Percentage to REGN, JEITA_T2=15°C w/ 103AT	63.7	64.2	64.7	%
		As Percentage to REGN, JEITA_T2=20°C w/ 103AT	60.7	61.2	61.7	%
V_{T3_FALL%}	TS pin voltage falling threshold. Charge to ICHG and 4.1V below this voltage.	As Percentage to REGN, JEITA_T3=40°C w/ 103AT	47.75	48.25	48.75	%
		As Percentage to REGN, JEITA_T3=45°C w/ 103AT	44.25	44.75	45.25	%
		As Percentage to REGN, JEITA_T3=50°C w/ 103AT	40.2	40.7	41.2	%
		As Percentage to REGN, JEITA_T3=55°C w/ 103AT	37.2	37.7	38.2	%
V_{T3_RISE%}	TS pin voltage rising threshold. Charge back to ICHG and VREG above this voltage.	As Percentage to REGN, JEITA_T3=40°C w/ 103AT	48.8	49.3	49.8	%
		As Percentage to REGN, JEITA_T3=45°C w/ 103AT	45.3	45.8	46.3	%
		As Percentage to REGN, JEITA_T3=50°C w/ 103AT	41.3	41.8	42.3	%
		As Percentage to REGN, JEITA_T3=55°C w/ 103AT	38.5	39	39.5	%
V_{T5_FALL%}	TS pin voltage falling threshold, charge suspended below this voltage.	As Percentage to REGN (60°C w/ 103AT)	33.7	34.2	35.1	%
V_{T5_RISE%}	TS pin voltage rising threshold. Charge back to ICHG and 4.1V above this voltage.	As Percentage to REGN	35	35.5	36	%
BOOST MODE THERMISTOR COMPARATOR (HOT/COLD)
V_{BCOLD_RISE%}	TS pin voltage rising threshold, boost mode is suspended above this voltage.	As Percentage to REGN (–19.5°C w/ 103AT)	79.5	80	80.5	%
V_{BCOLD_FALL%}	TS pin voltage falling threshold	As Percentage to REGN (0°C w/ 103AT)		72		%
V_{BHOT_FALL%}	TS pin voltage threshold. boost mode is suspended below this voltage.	As Percentage to REGN, (64°C w/ 103AT)	30.2	31.2	32.2	%
V_{BHOT_RISE%}	TS pin voltage rising threshold	As Percentage to REGN, (55°C w/ 103AT), REG0C[1:0]=11		39		%
SWITCHING CONVERTER
F_SW	PWM switching frequency	Oscillator frequency	1.32	1.5	1.68	MHz
D_MAX	Maximum PWM Duty Cycle			97		%
BOOST MODE CONVERTER
V_{BATLOWV_OTG}	Battery voltage exiting boost mode	V_VBAT falling	2.6	2.8	2.9	V
V_{BATLOWV_OTG}	Battery voltage entering boost mode	V_VBAT rising	2.9	3.0	3.15	V
V_{BST_BAT}	Battery voltage exiting boost mode	BAT fallingVVBAT	2.4	2.5	2.6	V
V_{BST_RANGE}	Typical boost mode voltage regulation range		4.6		5.15	V
V_{BST_ACC}	Boost mode voltage regulation accuracy	IVBUS = 0A, BOOST_V = 5V	4.85	5	5.15	V
I_{SYS_OCP_Q4}	Boost mode battery discharge current clamp on BATFET Q4		5	6		A
V_{BST_OVP}	Boost mode overvoltage threshold on PMID		5.55	5.8	6.15	V
REGN LDO
V_REGN	REGN LDO output voltage	V_VBUS = 5V, I_REGN = 20mA	4.58	4.7	4.8	V
V_REGN	REGN LDO output voltage	V_VBUS = 9V, I_REGN = 20mA	5.6	6	6.5	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	Pull up rail 1.8V			0.4	V
V_OL	Output low threshold level	Sink current = 5mA			0.4	V
I_BIAS	High-level leakage current	Pull up rail 1.8V			1	µA
V_{IH_SDA}	Input high threshold level, SDA	Pull up rail 1.8V	1.3			V
V_{IL_SDA}	Input low threshold level	Pull up rail 1.8V			0.4	V
V_{OL_SDA}	Output low threshold level	Sink current = 5mA			0.4	V
I_{BIAS_SDA}	High-level leakage current	Pull up rail 1.8V			1	µA
V_{IH_SCL}	Input high threshold level, SDA	Pull up rail 1.8V	1.3			V
V_{IL_SCL}	Input low threshold level	Pull up rail 1.8V			0.4	V
V_{OL_SCL}	Output low threshold level	Sink current = 5mA			0.4	V
I_{BIAS_SCL}	High-level leakage current	Pull up rail 1.8V			1	µA
LOGIC INPUT PIN
V_IH	Input high threshold level (/CE, PSEL)		1.3			V
V_IL	Input low threshold level (/CE, PSEL)				0.4	V
I_{IN_BIAS}	High-level leakage current (/CE, PSEL)	Pull up rail 1.8V			1	µA
LOGIC OUTPUT PIN
V_OL	Output low threshold level (/INT, STAT, PMID_GOOD)	Sink current = 5mA			0.4	V
I_{OUT_BIAS}	High-level leakage current (/INT, STAT, PMID_GOOD)	Pull up rail 1.8V			1	µA