SLVSAA2D March 2010 – January 2016 TPS65182 , TPS65182B
PRODUCTION DATA.
MIN | MAX | UNIT | |||
---|---|---|---|---|---|
Input voltage range at VIN, VINP | –0.3 | 7 | V | ||
Ground pins to system ground | –0.3 | 0.3 | V | ||
Voltage range at SDA, SCL, WAKEUP, PWR3, PWR2, PWR1, PWR0, VCOM_CTRL, VDDH_FB, VEE_FB, PWR_GOOD | –0.3 | 3.6 | V | ||
VCOM_XADJ | –3.6 | 0.3 | V | ||
Voltage on VB, VB_SW, VPOS_IN, VDDH_IN | –0.3 | 20 | V | ||
Voltage on VN, VNEG_IN, VEE_IN, VCOM_PWR | –20 | 0.3 | V | ||
Voltage from VINP to VN_SW | –0.3 | 30 | V | ||
Peak output current | Internally limited | mA | |||
Continuous total power dissipation | 2 | W | |||
TJ | Operating junction temperature | –10 | 125 | °C | |
TA | Operating ambient temperature(3) | –10 | 85 | °C | |
Tstg | Storage temperature | –65 | 150 | °C |
VALUE | UNIT | |||
---|---|---|---|---|
V(ESD) | Electrostatic discharge | Human-body model (HBM), per ANSI/ESDA/JEDEC JS-001(1) | ±2000 | V |
Charged-device model (CDM), per JEDEC specification JESD22-C101(2) | ±500 |
MIN | NOM | MAX | UNIT | ||
---|---|---|---|---|---|
Input voltage range at VIN, VINP | 3 | 3.7 | 6 | V | |
Voltage range at SDA, SCL, WAKEUP, PWR3, PWR2, PWR1, PWR0, VCOM_CTRL, VDDH_FB, VEE_FB, VCOM_XADJ, PWR_GOOD | 0 | 3.6 | V | ||
TA | Operating ambient temperature | –10 | 85 | °C | |
TJ | Operating junction temperature | –10 | 125 | °C |
THERMAL METRIC(1) | TPS65182x | UNIT | |
---|---|---|---|
RGZ (VQFN) | |||
48 PINS | |||
RθJA | Junction-to-ambient thermal resistance (2) | 30.5 | °C/W |
RθJC(top) | Junction-to-case (top) thermal resistance | 16.2 | °C/W |
RθJB | Junction-to-board thermal resistance | 7.1 | °C/W |
ψJT | Junction-to-top characterization parameter | 0.2 | °C/W |
ψJB | Junction-to-board characterization parameter | 7.1 | °C/W |
RθJC(bot) | Junction-to-case (bottom) thermal resistance | — | °C/W |
PARAMETER | TEST CONDITIONS | MIN | TYP | MAX | UNIT | ||
---|---|---|---|---|---|---|---|
INPUT VOLTAGE | |||||||
VIN | Input voltage range | 3 | 3.7 | 6 | V | ||
VUVLO | Undervoltage lockout threshold | VIN falling | 2.9 | V | |||
VHYS | Undervoltage lockout hysteresis | VIN rising | 400 | mV | |||
INPUT CURRENT | |||||||
IQ | Operating quiescent current into VIN | Device switching, no load | 5.5 | mA | |||
ISTD | Operating quiescent current into VIN | Device in standby mode | 130 | µA | |||
ISLEEP | Shutdown current | Device in sleep mode | 2.8 | 10 | µA | ||
INTERNAL SUPPLIES | |||||||
VINT_LDO1 | Internal supply | 2.7 | V | ||||
VINT_LDO2 | Internal supply | 2.7 | V | ||||
VREF | Internal supply | 2.25 | V | ||||
DCDC1 (POSITIVE BOOST REGULATOR) | |||||||
VIN | Input voltage range | 3 | 3.7 | 6 | V | ||
VOUT | Output voltage range | 17 | V | ||||
DC set tolerance | –5% | 5% | |||||
IOUT | Output current | 160 | mA | ||||
RDS(ON) | MOSFET on resistance | VIN = 3.7 V | 350 | mΩ | |||
ILIMIT | Switch current limit | 1.5 | A | ||||
Switch current accuracy | –30% | 30% | |||||
fSW | Switching frequency | 1 | MHz | ||||
L | Inductor | 2.2 | µH | ||||
C | Capacitor | 2x4.7 | µF | ||||
ESR | Capacitor ESR | 20 | mΩ | ||||
DCDC2 (INVERTING BUCK-BOOST REGULATOR) | |||||||
VIN | Input voltage range | 3 | 3.7 | 6 | V | ||
VOUT | Output voltage range | –17 | V | ||||
DC set tolerance | –5% | 5% | |||||
IOUT | Output current | 160 | mA | ||||
RDS(ON) | MOSFET on resistance | VIN = 3.7 V | 350 | mΩ | |||
ILIMIT | Switch current limit | 1.5 | A | ||||
Switch current accuracy | –30% | 30% | |||||
L | Inductor | 4.7 | µH | ||||
C | Capacitor | 2x4.7 | µF | ||||
ESR | Capacitor ESR | 20 | mΩ | ||||
LDO1 (VPOS) | |||||||
VPOS_IN | Input voltage range | 16.15 | 17 | 17.85 | V | ||
VSET | Output voltage set value | VIN = 17 V | 14.25 | 15 | 15.75 | V | |
VINTERVAL | Output voltage set resolution | VIN = 17 V | 250 | mV | |||
VPOS_OUT | Output voltage range | VSET = 15 V, ILOAD = 20 mA | 14.85 | 15 | 15.15 | V | |
VOUTTOL | Output tolerance | VSET = 15 V, ILOAD = 20 mA | –1% | 1% | |||
VDROPOUT | Dropout voltage | ILOAD = 120 mA | 250 | mV | |||
VLOADREG | Load regulation – DC | ILOAD = 10% to 90% | 1% | ||||
ILOAD | Load current range | 120 | mA | ||||
ILIMIT | Output current limit | 200 | mA | ||||
TSS | Soft start time | 1 | ms | ||||
C | Recommended output capacitor | 4.7 | µF | ||||
LDO2 (VNEG) | |||||||
VNEG_IN | Input voltage range | –17.85 | –17 | –16.15 | V | ||
VSET | Output voltage set value | VIN = –17 V | –15.75 | –15 | –14.25 | V | |
VINTERVAL | Output voltage set resolution | VIN = –17 V | 250 | mV | |||
VNEG_OUT | Output voltage range | VSET = –15 V, ILOAD = –20 mA | –15.15 | –15 | –14.85 | V | |
VOUTTOL | Output tolerance | VSET = –15 V, ILOAD = –20 mA | –1% | 1% | |||
VDROPOUT | Dropout voltage | ILOAD = 120 mA | 250 | mV | |||
VLOADREG | Load regulation – DC | ILOAD = 10% to 90% | 1% | ||||
ILOAD | Load current range | 120 | mA | ||||
ILIMIT | Output current limit | 200 | mA | ||||
TSS | Soft start time | 1 | ms | ||||
C | Recommended output capacitor | 4.7 | µF | ||||
LD01 (POS) AND LDO2 (VNEG) TRACKING | |||||||
VDIFF | Difference between VPOS and VNEG | VSET = ±15 V, ILOAD = ±20 mA, 0°C to 60°C |
–50 | 50 | mV | ||
VCOM DRIVER | |||||||
VCOM | Output voltage range | –2.5 | –0.3 | V | |||
G | VCOM gain (VCOM_XADJ/VCOM) | VCOM_ADJ = 0 V | 1 | V/V | |||
VCOM SWITCH | |||||||
TON | Switch ON time | VCOM = –1.25 V, VCOM_PANEL = 0 V CVCOM = 4.7 µF, CVCOM_PANEL = 4.7 µF |
1 | ms | |||
RDS(ON) | MOSFET ON resistance | VCOM = –1.25 V, ICOM = 30 mA | 20 | 35 | Ω | ||
ILIMIT | MOSFET current limit | Not tested in production | 200 | mA | |||
ISWLEAK | Switch leakage current | VCOM = 0 V, VCOM_PANEL = –2.5 V |
8.3 | nA | |||
CP1 (VDDH) CHARGE PUMP | |||||||
VDDH_IN | Input voltage range | 16.15 | 17 | 17.85 | V | ||
VFB | Feedback voltage | 1 | V | ||||
Accuracy | –3% | 3% | |||||
VDDH_OUT | Output voltage range | VSET = 22 V, ILOAD = 2 mA | 21 | 22 | 23 | V | |
ILOAD | Load current range | 10 | mA | ||||
fSW | Switching frequency | 560 | KHz | ||||
CD | Recommended driver capacitor | 10 | nF | ||||
CO | Recommended output capacitor | 4.7 | µF | ||||
CP2 (VEE) NEGATIVE CHARGE PUMP | |||||||
VEE_IN | Input voltage range | –17.75 | –17 | –16.15 | V | ||
VFB | Feedback voltage | –1 | V | ||||
Accuracy | –3% | 3% | |||||
VEE_OUT | Output voltage range | VSET = –20 V, ILOAD = 3 mA | –21 | –20 | –19 | V | |
ILOAD | Load current range | 12 | mA | ||||
fSW | Switching frequency | 560 | KHz | ||||
CD | Recommended driver capacitor | 10 | nF | ||||
CO | Recommended output capacitor | 4.7 | µF | ||||
THERMISTOR MONITOR(1) | |||||||
ATMS | Temperature to voltage ratio | Not tested in production | –0.0158 | V/°C | |||
OffsetTMS | Offset | Temperature = 0°C | 1.575 | V | |||
VTMS_HOT | Temp hot trip voltage (T = 50°C) | TEMP_HOT_SET = 0x8C | 0.768 | V | |||
VTMS_COOL | Temp hot escape voltage (T = 45°C) | TEMP_COOL_SET = 0x82 | 0.845 | V | |||
VTMS_MAX | Maximum input level | 2.25 | V | ||||
RNTC_PU | Internal pull up resistor | 7.307 | KΩ | ||||
RLINEAR | External linearization resistor | 43 | KΩ | ||||
ADCRES | ADC resolution | Not tested in production, 1 bit | 16.1 | mV | |||
ADCDEL | ADC conversion time | Not tested in production | 19 | µs | |||
TMSTTOL | Accuracy | Not tested in production | –1 | 1 | LSB | ||
LOGIC LEVELS AND TIMING CHARTERISTICS (SCL, SDA, PWR_GOOD, PWRx, WAKEUP) | |||||||
VOL | Output low threshold level | IO = 3 mA, sink current (SDA, PWR_GOOD) |
0.4 | V | |||
VIL | Input low threshold level | 0.4 | V | ||||
VIH | Input high threshold level | 1.2 | V | ||||
I(bias) | Input bias current | VIO = 1.8 V | 1 | µA | |||
tlow,WAKEUP | WAKEUP low time | minimum low time for WAKEUP pin | 150 | ms | |||
fSCL | SCL clock frequency | 400 | KHz | ||||
OSCILLATOR | |||||||
fOSC | Oscillator frequency | 9 | MHz | ||||
Frequency accuracy | TA = –40°C to 85°C | –10% | 10% | ||||
THERMAL SHUTDOWN | |||||||
TSHTDWN | Thermal trip point | 150 | °C | ||||
Thermal hysteresis | 20 | °C |
MIN | NOM | MAX | UNIT | |||
---|---|---|---|---|---|---|
f(SCL) | Serial clock frequency | 100 | 400 | KHz | ||
tHD;STA | Hold time (repeated) START condition. After this period, the first clock pulse is generated. | SCL = 100 KHz | 4 | µs | ||
SCL = 400 KHz | 600 | ns | ||||
tLOW | LOW period of the SCL clock | SCL = 100 KHz | 4.7 | µs | ||
SCL = 400 KHz | 1.3 | |||||
tHIGH | HIGH period of the SCL clock | SCL = 100 KHz | 4 | µs | ||
SCL = 400 KHz | 600 | ns | ||||
tSU;STA | Set-up time for a repeated START condition | SCL = 100 KHz | 4.7 | µs | ||
SCL = 400 KHz | 600 | ns | ||||
tHD;DAT | Data hold time | SCL = 100 KHz | 0 | 3.45 | µs | |
SCL = 400 KHz | 0 | 900 | ns | |||
tSU;DAT | Data set-up time | SCL = 100 KHz | 250 | ns | ||
SCL = 400 KHz | 100 | |||||
tr | Rise time of both SDA and SCL signals | SCL = 100 KHz | 1000 | ns | ||
SCL = 400 KHz | 300 | |||||
tf | Fall time of both SDA and SCL signals | SCL = 100 KHz | 300 | ns | ||
SCL = 400 KHz | 300 | |||||
tSU;STO | Set-up time for STOP condition | SCL = 100 KHz | 4 | µs | ||
SCL = 400 KHz | 600 | ns | ||||
tBUF | Bus Free Time Between Stop and Start Condition | SCL = 100 KHz | 4.7 | µs | ||
SCL = 400 KHz | 1.3 | |||||
tSP | Pulse width of spikes which mst be suppressed by the input filter | SCL = 100 KHz | n/a | n/a | ns | |
SCL = 400 KHz | 0 | 50 | ||||
Cb | Capacitive load for each bus line | SCL = 100 KHz | 400 | pF | ||
SCL = 400 KHz | 400 |