ZHCSGO5B June 2017 – March 2022 BQ25600 , BQ25600D
PRODUCTION DATA
PARAMETER | TEST CONDITIONS | MIN | TYP | MAX | UNIT | |
---|---|---|---|---|---|---|
QUIESCENT CURRENTS | ||||||
IBAT | Battery discharge current (BAT, SW, SYS) in buck mode | VBAT = 4.5 V, VBUS < VAC-UVLOZ, leakage between BAT and VBUS, TJ< 85°C | 5 | µA | ||
IBAT | Battery discharge current (BAT) in buck mode | VBAT = 4.5 V, HIZ Mode and OVPFET_DIS = 1 or No VBUS, I2C disabled, BATFET Disabled. TJ < 85°C | 17 | 33 | µA | |
IBAT | Battery discharge current (BAT, SW, SYS) | VBAT = 4.5 V, HIZ Mode and OVPFET_DIS = 1 or No VBUS, I2C Disabled, BATFET Enabled. TJ < 85°C | 58 | 85 | µA | |
IVAC_HIZ | Input supply current (VAC) in buck mode | VVAC = 5 V, HIZ Mode and OVPFET_DIS = 1, No battery | 24 | 37 | µA | |
VVAC = 12 V, HIZ Mode and OVPFET_DIS = 1, No battery | 41 | 61 | µA | |||
IVACVBUS_HIZ | Input supply current (VAC and VBUS short) in buck mode | VVAC = 5 V, HIZ Mode and OVPFET_DIS = 1, No battery | 37 | 50 | µA | |
VVAC = 12 V, HIZ Mode and OVPFET_DIS = 1, No battery | 68 | 90 | µA | |||
IVBUS | Input supply current (VBUS) in buck mode | VVBUS = 12 V, VVBUS > VVBAT, converter not switching | 1.5 | 3 | mA | |
VVBUS > VUVLO, VVBUS > VVBAT, converter switching, VBAT = 3.8V, ISYS = 0A | 3 | mA | ||||
IBOOST | Battery discharge current in boost mode | VBAT = 4.2 V, boost mode, IVBUS = 0 A, converter switching | 3 | mA | ||
VBUS, VAC AND BAT PIN POWER-UP | ||||||
VBUS_OP | VBUS operating range | VVBUS rising | 3.9 | 13.5 | V | |
VVAC_UVLOZ | VAC for active I2C, no battery
Sense VAC pin voltage | VVAC rising | 3.3 | 3.7 | V | |
VVAC_UVLOZ_HYS | I2C active hysteresis | VAC falling from above VVAC_UVLOZ | 300 | mV | ||
VVAC_PRESENT | REGN turn-on threshold | VVAC rising | 3.65 | 3.9 | V | |
VVAC_PRESENT_HYS | VVAC falling | 500 | mV | |||
VSLEEP | Sleep mode falling threshold | (VVAC–VVBAT ), VBUSMIN_FALL ≤ VBAT ≤ VREG, VAC falling | 15 | 60 | 131 | mV |
VSLEEPZ | Sleep mode rising threshold | (VVAC–VVBAT ), VBUSMIN_FALL ≤ VBAT ≤ VREG, VAC rising | 115 | 220 | 340 | mV |
VVAC_OV_RISE | VAC 6.5-V Overvoltage rising threshold | VAC rising; OVP (REG06[7:6]) = '01' | 6.1 | 6.42 | 6.75 | V |
VVAC_OV_RISE | VAC 10.5-V Overvoltage rising threshold | VAC rising, OVP (REG06[7:6]) = '10' | 10.35 | 11 | 11.5 | V |
VVAC_OV_RISE | VAC 14-V Overvoltage rising threshold | VAC rising, OVP (REG06[7:6]) = '11' | 13.5 | 14.2 | 15 | V |
VVAC_OV_HYS | VAC 6.5-V Overvoltage hysteresis | VAC falling, OVP (REG06[7:6]) = '01' | 130 | mV | ||
VVAC_OV_HYS | VAC 10.5-V Overvoltage hysteresis | VAC falling, OVP (REG06[7:6]) = '10' | 250 | mV | ||
VVAC_OV_HYS | VAC 14-V Overvoltage hysteresis | VAC falling, OVP (REG06[7:6]) = '11' | 300 | mV | ||
VBAT_UVLOZ | BAT for active I2C, no adapter | VBAT rising | 2.5 | V | ||
VBAT_DPL_FALL | Battery Depletion Threshold | VBAT falling | 2.18 | 2.62 | V | |
VBAT_DPL_RISE | Battery Depletion Threshold | VBAT rising | 2.34 | 2.86 | V | |
VBAT_DPL_HYST | Battery Depletion rising hysteresis | VBAT rising | 180 | mV | ||
VBUSMIN_FALL | Bad adapter detection falling threshold | VBUS falling | 3.68 | 3.8 | 3.9 | V |
VBUSMIN_HYST | Bad adapter detection hysteresis | 180 | mV | |||
IBADSRC | Bad adapter detection current source | Sink current from VBUS to GND | 30 | mA | ||
POWER-PATH | ||||||
VSYS_MIN | System regulation voltage | VVBAT < SYS_MIN[2:0] = 101, BATFET Disabled (REG07[5] = 1) | 3.5 | 3.68 | V | |
VSYS | System Regulation Voltage | ISYS = 0 A, VVBAT > VSYSMIN, VVBAT = 4.400 V, BATFET disabled (REG07[5] = 1) | VBAT + 50 mV | V | ||
VSYS_MAX | Maximum DC system voltage output | ISYS = 0 A, , Q4 off, VVBAT≤ 4.400 V, VVBAT > VSYSMIN = 3.5V | 4.4 | 4.45 | 4.48 | V |
RON(RBFET) | Top reverse blocking MOSFET on-resistance between VBUS and PMID - Q1 | -40°C≤ TA ≤ 125°C | 35 | mΩ | ||
RON(HSFET) | Top switching MOSFET on-resistance between PMID and SW - Q2 | VREGN = 5 V , -40°C≤ TA ≤ 125°C | 55 | mΩ | ||
RON(LSFET) | Bottom switching MOSFET on-resistance between SW and GND - Q3 | VREGN = 5 V , -40°C≤ TA ≤ 125°C | 60 | mΩ | ||
VFWD | BATFET forward voltage in supplement mode | 30 | mV | |||
RON(BAT-SYS) | SYS-BAT MOSFET on-resistance | QFN package, Measured from BAT to SYS, VBAT = 4.2V, TJ = –40 - 125°C | 19.5 | mΩ | ||
BATTERY CHARGER | ||||||
VBATREG_RANGE | Charge voltage program range | 3.856 | 4.624 | V | ||
VBATREG_STEP | Charge voltage step | 32 | mV | |||
VBATREG | Charge voltage setting | VREG (REG04[7:3]) = 4.208 V (01011), V, –40 ≤ TJ ≤ 85°C | 4.187 | 4.208 | 4.229 | V |
VREG (REG04[7:3]) = 4.352 V (01111), V, –40 ≤ TJ ≤ 85°C | 4.330 | 4.352 | 4.374 | V | ||
VBATREG_ACC | Charge voltage setting accuracy | VBAT = 4.208 V or VBAT = 4.352 V, –40 ≤ TJ ≤ 85°C | –0.5% | 0.5% | ||
ICHG_REG_RANGE | Charge current regulation range | 0 | 3000 | mA | ||
ICHG_REG_STEP | Charge current regulation step | 60 | mA | |||
ICHG_REG | Charge current regulation setting | ICHG = 240 mA, VVBAT = 3.1V or VVBAT = 3.8 V | 0.214 | 0.24 | 0.26 | A |
ICHG_REG_ACC | Charge current regulation accuracy | ICHG = 240 mA, VVBAT = 3.1 V or VVBAT = 3.8 V | –11% | 9% | ||
ICHG_REG | Charge current regulation setting | ICHG = 720 mA, VVBAT = 3.1 V or VVBAT = 3.8 V | 0.68 | 0.720 | 0.76 | A |
ICHG_REG | Charge current regulation accuracy | ICHG_REG = 720 mA, VBAT = 3.1 V or VBAT = 3.8 V | -6% | 6% | ||
ICHG_REG | Charge current regulation setting | ICHG = 1.38 A, VVBAT = 3.1 V or VVBAT = 3.8 V | 1.30 | 1.380 | 1.45 | A |
ICHG_REG_ACC | Charge current regulation accuracy | ICHG = 720 mA or ICHG = 1.38 A, VVBAT = 3.1 V or VVBAT = 3.8 V | –6% | 6% | ||
VBATLOWV_FALL | Battery LOWV falling threshold | ICHG = 240 mA | 2.7 | 2.8 | 2.9 | V |
VBATLOWV_RISE | Battery LOWV rising threshold | Pre-charge to fast charge | 3 | 3.12 | 3.24 | V |
IPRECHG | Precharge current regulation | IPRECHG[3:0] = '0010' = 180 mA | 150 | 170 | 190 | mA |
IPRECHG_ACC | Precharge current regulation accuracy | IPRECHG[3:0] = '0010' = 180 mA | –15 | 5 | % | |
ITERM | Termination current regulation | ICHG > 780 mA, ITERM[3:0] = '0010' = 180 mA, VVBAT = 4.208 V | 145 | 180 | 215 | mA |
ITERM_ACC | Termination current regulation accuracy | ICHG > 780 mA, , ITERM[3:0] = '0010' = 180 mA, VVBAT = 4.208 V | -20% | 20% | ||
ITERM | Termination current regulation | ICHG ≤ 780 mA, , ITERM[3:0] = '0000' = 60 mA, VVBAT = 4.208 V | 44 | 60 | 75 | mA |
ITERM_ACC | Termination current regulation accuracy | ICHG ≤ 780 mA, ,ITERM[3:0] = '0000' = 60 mA, VVBAT = 4.208 V | -27% | 25% | ||
VSHORT | Battery short voltage | VVBAT falling | 1.85 | 2 | 2.15 | V |
VSHORTZ | Battery short voltage | VVBAT rising | 2.15 | 2.25 | 2.35 | V |
ISHORT | Battery short current | VVBAT < VSHORTZ | 50 | 90 | 117 | mA |
VRECHG | Recharge Threshold below VBAT_REG | VBAT falling, REG04[0] = 0 | 90 | 120 | 150 | mV |
VRECHG | Recharge Threshold below VBAT_REG | VBAT falling, REG04[0] = 1 | 200 | 230 | 265 | mV |
ISYSLOAD | System discharge load current | VSYS = 4.2 V | 30 | mA | ||
INPUT VOLTAGE AND CURRENT REGULATION | ||||||
VINDPM | Input voltage regulation limit | VINDPM (REG06[3:0] = 0000) = 3.9 V | 3.78 | 3.95 | 4.1 | V |
VINDPM_ACC | Input voltage regulation accuracy | VINDPM (REG06[3:0] = 0000) = 3.9 V | –4.5% | 4% | ||
VINDPM | Input voltage regulation limit | VINDPM (REG06[3:0] = 0110) = 4.4 V | 4.268 | 4.4 | 4.532 | V |
VINDPM_ACC | Input voltage regulation accuracy | VINDPM (REG06[3:0] = 0110) = 4.4 V | –3% | 3% | ||
VDPM_VBAT | Input voltage regulation limit tracking VBAT | VINDPM = 3.9V, VDPM_VBAT_TRACK = 300mV, VBAT = 4.0V | 4.17 | 4.3 | 4.46 | V |
VDPM_VBAT_ACC | Input voltage regulation accuracy tracking VBAT | VINDPM = 3.9V, VDPM_VBAT_TRACK = 300mV, VBAT = 4.0V | –3% | 4% | ||
IINDPM | USB input current regulation limit | VVBUS = 5 V, current pulled from SW, IINDPM (REG[4:0] = 00100) = 500 mA, –40 ≤ TJ ≤ 85°C | 450 | 500 | mA | |
VVBUS = 5 V, current pulled from SW, IINDPM (REG[4:0] = 01000) = 900 mA, –40 ≤ TJ ≤ 85°C | 750 | 900 | mA | |||
VVBUS = 5 V, current pulled from SW, IINDPM (REG[4:0] = 01110) = 1.5 A, –40 ≤ TJ ≤ 85°C | 1.28 | 1.5 | A | |||
IIN_START | Input current limit during system start-up sequence | 200 | mA | |||
BAT PIN OVERVOLTAGE PROTECTION | ||||||
VBATOVP_RISE | Battery overvoltage threshold | VBAT rising, as percentage of VBAT_REG | 103 | 104 | 105 | % |
VBATOVP_Fall_HYS | Battery overvoltage falling hysteresis | VBAT falling, as percentage of VBAT_REG | 2 | % | ||
THERMAL REGULATION AND THERMAL SHUTDOWN | ||||||
TJUNCTION_REG | Junction Temperature Regulation Threshold | Temperature Increasing, TREG (REG05[1] = 1) = 110℃ | 110 | °C | ||
TJUNCTION_REG | Junction Temperature Regulation Threshold | Temperature Increasing, TREG (REG05[1] = 0) = 90℃ | 90 | °C | ||
TSHUT | Thermal Shutdown Rising Temperature | Temperature Increasing | 160 | °C | ||
TSHUT_HYST | Thermal Shutdown Hysteresis | 30 | °C | |||
JEITA THERMISTOR COMPARATOR (BUCK MODE) | ||||||
VT1 | T1 (0°C) threshold, Charge suspended T1 below this temperature. | Charger suspends charge. As Percentage to VREGN | 72.4% | 73.3% | 74.2% | |
VT1 | Falling | As Percentage to VREGN | 69% | 71.5% | 74% | |
VT2 | T2 (10°C) threshold, Charge back to ICHG/2 and 4.2 V below this temperature | As percentage of VREGN | 67.2% | 68% | 69% | |
VT2 | Falling | As Percentage to VREGN | 66% | 66.8% | 67.7% | |
VT3 | T3 (45°C) threshold, charge back to ICHG and 4.05V above this temperature. | Charger suspends charge. As Percentage to VREGN | 43.8% | 44.7% | 45.8% | |
VT3 | Falling | As Percentage to VREGN | 45.1% | 45.7% | 46.2% | |
VT5 | T5 (60°C) threshold, charge suspended above this temperature. | As Percentage to VREGN | 33.7% | 34.2% | 35.1% | |
VT5 | Falling | As Percentage to VREGN | 34.5% | 35.3% | 36.2% | |
COLD OR HOT THERMISTER COMPARATOR (BOOST MODE) | ||||||
VBCOLD | Cold Temperature Threshold, TS pin Voltage Rising Threshold | As Percentage to VREGN (Approx. -20°C w/ 103AT), TJ = –20°C - 125°C | 79.5% | 80% | 80.5% | |
VBCOLD | Falling | TJ = –20°C - 125°C | 78.5% | 79% | 79.5% | |
VBHOT | Hot Temperature Threshold, TS pin Voltage falling Threshold | As Percentage to VREGN (Approx. 60°C w/ 103AT), TJ = –20°C - 125°C | 30.2% | 31.2% | 32.2% | |
VBHOT | Rising | TJ = –20°C - 125°C | 33.8% | 34.4% | 34.9% | |
CHARGE OVERCURRENT COMPARATOR (CYCLE-BY-CYCLE) | ||||||
IBATFET_OCP | System over load threshold | 6.0 | A | |||
PWM | ||||||
fSW | PWM switching frequency | Oscillator frequency, buck mode | 1320 | 1500 | 1680 | kHz |
Oscillator frequency, boost mode | 1150 | 1412 | 1660 | kHz | ||
DMAX | Maximum PWM duty cycle(1) | 97% | ||||
BOOST MODE OPERATION | ||||||
VOTG_REG | Boost mode regulation voltage | VVBAT = 3.8 V, I(PMID) = 0 A, BOOSTV[1:0] = '10' = 5.15 V | 4.972 | 5.126 | 5.280 | V |
VOTG_REG_ACC | Boost mode regulation voltage accuracy | VVBAT = 3.8 V, I(PMID) = 0 A, BOOSTV[1:0] = '10' = 5.15 V | -3 | 3 | % | |
VBATLOWV_OTG | Battery voltage exiting boost mode | VVBAT falling, MIN_VBAT_SEL (REG01[0]) = 0 | 2.6 | 2.8 | 2.9 | V |
VVBAT rising, MIN_VBAT_SEL (REG01[0]) = 0 | 2.9 | 3.0 | 3.15 | V | ||
VVBAT falling, MIN_VBAT_SEL (REG01[0]) = 1 | 2.4 | 2.5 | 2.6 | V | ||
VVBAT rising, MIN_VBAT_SEL (REG01[0]) = 1 | 2.7 | 2.8 | 2.9 | V | ||
IOTG | OTG mode output current | BOOST_LIM (REG02[7]) = 1 | 1.16 | 1.4 | 1.6 | A |
IOTG_OCP_ACC | Boost mode RBFET over-current protection accuracy | BOOST_LIM = 0.5 A (REG02[7] = 0) | 0.5 | 0.73 | A | |
VOTG_OVP | OTG overvoltage threshold | Rising threshold | 5.55 | 5.8 | 6.15 | V |
IOTG_HSZCP | HSFET under current falling threshold | 100 | mA | |||
REGN LDO | ||||||
VREGN | REGN LDO output voltage | VVBUS = 9V, IREGN = 40mA | 5.6 | 6 | V | |
VREGN | REGN LDO output voltage | VVBUS = 5V, IREGN = 20mA | 4.58 | 4.7 | V | |
LOGIC I/O PIN CHARACTERISTICS ( CE, PSEL, SCL, SDA,, INT) | ||||||
VILO | Input low threshold CE | 0.4 | V | |||
VIH | Input high threshold CE | 1.3 | V | |||
IBIAS | High-level leakage current CE | Pull up rail 1.8 V | 1 | µA | ||
VILO | Input low threshold PSEL | 0.4 | V | |||
VIH | Input high threshold PSEL | 1.3 | V | |||
IBIAS | High-level leakage current PSEL | Pull up rail 1.8V | 1 | µA | ||
LOGIC I/O PIN CHARACTERISTICS ( PG, STAT) | ||||||
VOL | Low-level output voltage | 0.4 | V | |||
D+/D– DETECTION | ||||||
VD+_1P2 | D+ Threshold for Non-standard adapter (combined V1P2_VTH_LO and V1P2_VTH_HI) | 1.05 | 1.35 | V | ||
ID+_LKG | Leakage current into D+ | HiZ | -1 | 1 | µA | |
VD–_600MVSRC | Voltage source (600 mV) | 500 | 600 | 700 | mV | |
ID–_100UAISNK | D– current sink (100 µA) | VD– = 500 mV, | 50 | 100 | 150 | µA |
RD–_19K | D– resistor to ground (19 kΩ) | VD– = 500 mV, | 14.25 | 24.8 | kΩ | |
VD–_0P325 | D– comparator threshold for primary detection | D– pin Rising | 250 | 400 | mV | |
VD–_2P8 | D– Threshold for non-standard adapter (combined V2P8_VTH_LO and V2P8_VTH_HI) | 2.55 | 2.85 | V | ||
VD–_2P0 | D– Comparator threshold for non-standard adapter (For non-standard – same as bq2589x) | 1.85 | 2.15 | V | ||
VD–_1P2 | D– Threshold for non-standard adapter (combined V1P2_VTH_LO and V1P2_VTH_HI) | 1.05 | 1.35 | V | ||
ID–_LKG | Leakage current into D– | HiZ | -1 | 1 | µA |