JAJSPD9 December 2022 UCC5871-Q1
PRODUCTION DATA
PARAMETER | TEST CONDITIONS | MIN | TYP | MAX | UNIT | |
---|---|---|---|---|---|---|
POWER SUPPLY | ||||||
VIT+(UVLO1) | UVLO threshold of VCC1 rising | UVOV1_LEVEL = 0 | 2.6 | 2.75 | 2.9 | V |
VIT+(UVLO1) | UVLO threshold of VCC1 rising | UVOV1_LEVEL = 1 | 4.5 | 4.65 | 4.8 | V |
VIT- (UVLO1) | UVLO threshold of VCC1 falling | UVOV1_LEVEL = 0 | 2.3 | 2.45 | 2.6 | V |
VIT- (UVLO1) | UVLO threshold of VCC1 falling | UVOV1_LEVEL = 1 | 4.2 | 4.35 | 4.5 | V |
VHYS (UVLO1) | UVLO threshold hysteresis of VCC1 | 0.30 | V | |||
tUVLO1 | VCC1 UVLO detection deglitch time | 20 | µs | |||
VIT-(OVLO1) | OVLO threshold of VCC1 falling | UVOV1_LEVEL = 0 | 3.7 | 3.85 | 4.0 | V |
VIT-(OVLO1) | OVLO threshold of VCC1 falling | UVOV1_LEVEL = 1 | 5.2 | 5.35 | 5.5 | V |
VIT+(OVLO1) | OVLO threshold of VCC1 rising | UVOV1_LEVEL = 0 | 4.0 | 4.15 | 4.3 | V |
VIT+ (OVLO1) | OVLO threshold of VCC1 rising | UVOV1_LEVEL = 1 | 5.5 | 5.65 | 5.8 | V |
VHYS (OVLO1) | OVLO threshold hysteresis of VCC1 | 0.30 | V | |||
tOVLO1 | VCC1 OVLO detection deglitch time | 20 | µs | |||
VIT+(UVLO2) | UVLO threshold voltage of VCC2 rising with reference to GND2 | UVLO2TH = 00b | 15.2 | 16 | 16.8 | V |
UVLO2TH = 01b | 13.3 | 14 | 14.7 | V | ||
UVLO2TH = 10b | 11.4 | 12 | 12.6 | V | ||
UVLO2TH = 11b | 9.5 | 10 | 10.5 | V | ||
VIT- (UVLO2) | UVLO threshold voltage of VCC2 falling with reference to GND2 | UVLO2TH = 00b | 14.25 | 15 | 15.75 | V |
UVLO2TH = 01b | 12.35 | 13 | 13.65 | V | ||
UVLO2TH = 10b | 10.45 | 11 | 11.55 | V | ||
UVLO2TH = 11b | 8.55 | 9 | 9.45 | V | ||
VHYS (UVLO2) | UVLO threshold voltage hysteresis of VCC2 | 1 | V | |||
tUVLO2 | VCC2 UVLO detection deglitch time | 20 | µs | |||
VIT-(OVLO2) | OVLO threshold voltage of VCC2 falling with reference to GND2 | OVLO2TH = 00b | 21.85 | 23 | 24.15 | V |
OVLO2TH = 01b | 19.95 | 21 | 22.05 | V | ||
OVLO2TH = 10b | 18.05 | 19 | 19.95 | V | ||
OVLO2TH = 11b | 16.15 | 17 | 17.85 | V | ||
VIT+ (OVLO2) | OVLO threshold voltage of VCC2 rising with reference to GND2 | OVLO2TH = 00b | 22.8 | 24 | 25.2 | V |
OVLO2TH = 01b | 20.9 | 22 | 23.1 | V | ||
OVLO2TH = 10b | 19 | 20 | 21 | V | ||
OVLO2TH = 11b | 17.1 | 18 | 18.9 | V | ||
VHYS (OVLO2) | OVLO threshold voltage hysteresis of VCC2 | 1 | V | |||
tOVLO2 | VCC2 OVLO detection blanking time | 20 | µs | |||
VIT-(UVLO3) | UVLO threshold voltage of VEE2 falling with reference to GND2 | UVLO3TH = 00b | –3.15 | –3 | –2.85 | V |
UVLO3TH = 01b | –5.25 | –5 | –4.75 | V | ||
UVLO3TH = 10b | –8.4 | –8 | –7.6 | V | ||
UVLO3TH = 11b | –10.5 | –10 | –9.5 | V | ||
VIT+ (UVLO3) | UVLO threshold voltage of VEE2 rising with reference to GND2 | UVLO3TH = 00b | –2.1 | –2 | –1.9 | V |
UVLO3TH = 01b | –4.2 | –4 | –3.8 | V | ||
UVLO3TH = 10b | –7.35 | –7 | –6.65 | V | ||
UVLO3TH = 11b | –9.45 | –9 | –8.55 | V | ||
VHYS (UVLO3) | UVLO threshold voltage hysteresis of VEE2 | 1 | V | |||
tUVLO3 | VEE2 UVLO detection blanking time | 20 | µs | |||
VIT+(OVLO3) | OVLO threshold voltage of VEE2 rising with reference to GND2 | OVLO3TH = 00b | –5.25 | –5 | –4.75 | V |
OVLO3TH = 01b | –7.35 | –7 | –6.65 | V | ||
OVLO3TH = 10b | –10.5 | –10 | –9.5 | V | ||
OVLO3TH = 11b | –12.6 | –12 | –11.4 | V | ||
VIT-(OVLO3) | OVLO threshold voltage of VEE2 falling with reference to GND2 | OVLO3TH = 00b | –6.3 | –6 | –5.7 | V |
OVLO3TH = 01b | –8.4 | –8 | –7.6 | V | ||
OVLO3TH = 10b | –11.55 | –11 | –10.45 | V | ||
OVLO3TH = 11b | –13.65 | –13 | –12.35 | V | ||
VHYS(OVLO3) | OVLO threshold voltage hysteresis of VEE2 | 1 | V | |||
tOVLO3 | VEE2 OVLO detection blanking time | 20 | µs | |||
IQVCC1 | Quiescent Current of VCC1 | No switching, VCC1 = 5V | 7.7 | mA | ||
IQVCC2 | Quiescent Current of VCC2 | No switching, VCC2 = 20V, VEE2 = -10V | 15 | mA | ||
IQVEE2 | Quiescent Current of VEE2 | No switching, VCC2 = 20V, VEE2 = -10V | 15 | mA | ||
tRP(VCC1) | Slew rate of VCC1 | 0.1 | V/µs | |||
tRP(VCC2) | Slew rate of VCC2 | 0.1 | V/µs | |||
tRP(VEE2) | Slew rate of VEE2 | 0.1 | V/µs | |||
LOGIC IO | ||||||
VIH | Input-high threshold voltage of primary IO (IN+, IN-, ASC, and ASC_EN) | Input rising, VCC1 = 3.3V | 0.7*VCC1 | V | ||
Input-high threshold voltage of secondary IO in ASC mode (AI5, and AI6) | Input rising, VREF=4V | 3.0 | V | |||
VIL | Input-low threshold voltage of primary IO (IN+, IN-, ASC, and ASC_EN) | VCC1 = 3.3V | 0.3*VCC1 | V | ||
Input-low input-threshold voltage of secondary IO in ASC mode (AI5 and AI6) | Input falling | 1.5 | V | |||
VHYS(IN) | Input hysteresis voltage of primary IO (IN+, IN-, ASC, and ASC_EN) | VCC1=3.3V | 0.1*VCC1 | V | ||
Input hysteresis voltage of secondary IO in ASC mode (AI5, and AI6) | 0.5 | V | ||||
ILI | Leakage current on the input IO pins ASC, ASC_EN, IN+, IN-, CLK, and SDI | VIO = GND1, VIO is the voltage on IO pins | 5 | µA | ||
Leakage current on nCS | VIO = VCC1, VIO is the voltage on IO pins | 5 | µA | |||
RPUI | Pullup resistance for nCS | 40 | 100 | kΩ | ||
RPDI | Pulldown resistance for ASC, ASC_EN, IN+, IN-, CLK, and SDI | 40 | 100 | kΩ | ||
Pulldown resistance for AI5 and AI6 in ASC mode | 800 | 1200 | kΩ | |||
VOH | Output logic-high voltage (SDO) | 4.5mA output current, VCC1 = 5V | 0.9*VCC1 | V | ||
VOL | Output logic-low voltage (nFLT1, nFLT2, and SDO) | 4.5mA sink current, VCC1 = 5V | 0.1*VCC1 | V | ||
fDOUT | Output frequency of DOUT pin | FREQ_DOUT = 00b | 13.9 | kHz | ||
FREQ_DOUT = 01b | 27.8 | kHz | ||||
FREQ_DOUT = 10b | 55.7 | kHz | ||||
FREQ_DOUT = 11b | 111.4 | kHz | ||||
DDOUT | Duty of DOUT | VAI* = 0.36 V | 10 | % | ||
VAI* = 1.8 V | 50 | % | ||||
VAI* = 3.24 V | 90 | % | ||||
ILO | Leakage current on pin nFLT* | nFLT* = HiZ, VCC1 on nFLT* pin | –5 | 5 | µA | |
Leakage current on pin SDO | nCS = 1 | –5 | 5 | µA | ||
RPUO | Pullup resistance for pin nFLT* | 40 | 100 | kΩ | ||
DRIVER STAGE | ||||||
VOUTH | High-level output voltage (OUT and OUTH) | IOUT = -100 mA | VCC2 – 0.033 | V | ||
VOUTL | Low-level output voltage (OUT and OUTL) | IOUT = 100 mA | 33 | mV | ||
IOUTH | Gate driver high output current | IN+= high, IN- = low, VCC2 - VOUTH = 5 V | 15 | A | ||
IOUTL | Gate driver low output current | IN- = low, IN + = high, VOUTL - VEE2 = 5 V | 15 | A | ||
ISTO | Driver low output current during SC and OC faults | VOUTL - VEE2 = 6 V and STO_CURR = 00b, 100℃ to 150℃ | 0.24 | 0.3 | 0.36 | A |
VOUTL - VEE2 = 6 V and STO_CURR = 01b, 100℃ to 150℃ | 0.48 | 0.6 | 0.72 | A | ||
VOUTL - VEE2 = 6 V and STO_CURR = 10b, 100℃ to 150℃ | 0.72 | 0.9 | 1.08 | A | ||
VOUTL - VEE2 = 6 V and STO_CURR = 11b, 100℃ to 150℃ | 0.96 | 1.2 | 1.44 | A | ||
ACTIVE MILLER CLAMP | ||||||
VCLP | Low-level clamp voltage (internal Miller clamp) | ICLP = 100 mA | 100 | mV | ||
Miller clamp current | MCLPTH=11b, VCLAMP = VEE2+4 V | 3.2 | A | |||
VCLPTH | Clamp threshold voltage with reference to VEE2 | MCLPTH = 00b | 1.2 | 1.5 | 1.8 | V |
MCLPTH = 01b | 1.6 | 2 | 2.5 | V | ||
MCLPTH = 10b | 2.25 | 3 | 3.75 | V | ||
MCLPTH = 11b | 3 | 4 | 5 | V | ||
VECLP | CLAMP output voltage in external Miller clamp mode | 4.5 | 5 | 5.5 | V | |
RECLP_PD | CLAMP pull-down resistance in external Miller clamp mode | 13 | Ω | |||
RECLP_PU | CLAMP pull-up resistance in external Miller clamp mode | 13 | Ω | |||
SHORT CIRCUIT CLAMPING | ||||||
VCLP-OUT | Clamping voltage (VOUTH - VCC2, VCLAMP - VCC2) | IN+= high, IN- = low, tCLP = 10us, IOUTH or ICLAMP = 500 mA | 0.8 | 1.6 | V | |
ACTIVE PULLDOWN | ||||||
VOUTSD | Active shut-down voltage on OUTL | IOUTL = 30mA, VCC2 = open | 1.55 | V | ||
VOUTSD | Active shut-down voltage on OUTL | IOUTL = 0.1xIOUTL, VCC2 = open | 2.5 | V | ||
DESAT SHORT-CIRCUIT PROTECTION | ||||||
VDESATth | DESAT detection threshold voltage with respect to GND2 | DESATTH = 0000b | 2.25 | 2.5 | 2.75 | V |
DESATTH = 0001b | 2.7 | 3 | 3.3 | V | ||
DESATTH = 0010b | 3.15 | 3.5 | 3.85 | V | ||
DESATTH = 0011b | 3.6 | 4 | 4.4 | V | ||
DESATTH = 0100b | 4.05 | 4.5 | 4.95 | V | ||
DESATTH = 0101b | 4.5 | 5 | 5.5 | V | ||
DESATTH = 0110b | 4.95 | 5.5 | 6.05 | V | ||
DESATTH = 0111b | 5.4 | 6 | 6.6 | V | ||
DESATTH = 1000b | 5.85 | 6.5 | 7.15 | V | ||
DESATTH = 1001b | 6.3 | 7 | 7.7 | V | ||
DESATTH = 1010b | 6.75 | 7.5 | 8.25 | V | ||
DESATTH = 1011b | 7.2 | 8 | 8.8 | V | ||
DESATTH = 1100b | 7.65 | 8.5 | 9.35 | V | ||
DESATTH = 1101b | 8.1 | 9 | 9.9 | V | ||
DESATTH = 1110b | 8.55 | 9.5 | 10.45 | V | ||
DESATTH = 1111b | 9 | 10 | 11 | V | ||
VDESATL | DESAT voltage with respect to GND2 when OUTL is driven low | 1 | V | |||
ICHG | Blanking capacitor charging current | V(DESAT) - GND2 = 2 V, DESAT_CHG_CURR = 00b | 0.555 | 0.6 | 0.645 | mA |
V(DESAT) - GND2 = 2 V, DESAT_CHG_CURR = 01b | 0.6475 | 0.7 | 0.7525 | mA | ||
V(DESAT) - GND2 = 2 V, DESAT_CHG_CURR = 10b | 0.74 | 0.8 | 0.86 | mA | ||
V(DESAT) - GND2 = 2 V, DESAT_CHG_CURR = 11b | 0.925 | 1 | 1.075 | mA | ||
IDCHG | Blanking capacitor discharging current | V(DESAT) - GND2 = 6 V | 14 | mA | ||
tLEB | DESAT leading edge blanking time | 127 | 158 | 250 | ns | |
tDESFLT | DESAT pin glitch filter | DESAT_DEGLITCH=0 | 90 | 158 | 190 | ns |
tDESFLT | DESAT pin glitch filter | DESAT_DEGLITCH=1 | 270 | 316 | 401 | ns |
tDESAT (90%) | DESAT protection reaction time from event to action (includes deglitch time) | VDESAT>VDESATth to VOUTL 90% of VCC2, CLOAD = 1 nF, DESAT_DEGLITCH=0 | 160 + tDESFLT | ns | ||
OVERCURRENT PROTECTION | ||||||
VOCth | Over current detection threshold voltage | OCTH = 0000b | 170 | 200 | 225 | mV |
OCTH = 0001b | 220 | 250 | 275 | mV | ||
OCTH = 0010b | 270 | 300 |
330 | mV | ||
OCTH = 0011b | 315 | 350 |
375 | mV | ||
OCTH = 0100b | 360 | 400 |
440 | mV | ||
OCTH = 0101b | 410 | 450 |
475 | mV | ||
OCTH = 0110b | 460 | 500 |
525 | mV | ||
OCTH = 0111b | 520 | 550 | 575 | mV | ||
OCTH = 1000b | 570 | 600 | 630 | mV | ||
OCTH = 1001b | 610 | 650 | 690 | mV | ||
OCTH = 1010b | 660 | 700 | 740 | mV | ||
OCTH = 1011b | 710 | 750 | 790 | mV | ||
OCTH = 1100b | 760 | 800 | 840 | mV | ||
OCTH = 1101b | 807 | 850 | 893 | mV | ||
OCTH = 1110b | 855 | 900 | 945 | mV | ||
OCTH = 1111b | 902 | 950 | 998 | mV | ||
VSCth | Short circuit protection threshold | SCTH = 00b | 460 | 500 | 530 | mV |
SCTH = 01b | 700 | 750 | 785 | mV | ||
SCTH = 10b | 945 | 1000 | 1050 | mV | ||
SCTH = 11b | 1185 | 1250 | 1312 | mV | ||
tSCBLK | Short circuit protection blanking time with reference to system clock | SC_BLK = 00b | 100 | ns | ||
SC_BLK = 01b | 200 | ns | ||||
SC_BLK = 10b | 400 | ns | ||||
SC_BLK = 11b | 800 | ns | ||||
tOCBLK | Over current protection blanking time with reference to system clock | OC_BLK = 000b | 500 | ns | ||
OC_BLK = 001b | 1000 | ns | ||||
OC_BLK = 010b | 1500 | ns | ||||
OC_BLK = 011b | 2000 | ns | ||||
OC_BLK = 100b | 2500 | ns | ||||
OC_BLK = 101b | 3000 | ns | ||||
OC_BLK = 110b | 5000 | ns | ||||
OC_BLK = 111b | 10000 | ns | ||||
tSCFLT | Short circuit protection deglitch filter | 50 | 150 | 200 | ns | |
tOCFLT | Over current protection deglitch filter | 50 | 150 | 200 | ns | |
tSC(90%) | Short circuit protection reaction time from event to action (includes deglitch time) | VAIx > VSCth to VOUTL at 90% of VCC2, CLOAD = 1nF, tSCBLK expired | 175 + tSCFLT | ns | ||
tOC(90%) | Over current protection reaction time from event to action (includes deglitch time) | VAIx > VOCth to VOUTL at 90% of VCC2, CLOAD = 1nF, tOCBLK expired | 175 + tOCFLT | ns | ||
TWO-LEVEL TURN-OFF PLATEAU VOLTAGE LEVEL | ||||||
V2 LOFF | Plateau voltage (with respect to GND2) during two-level turnoff | 2LOFF_VOLT = 000b | 5 | 6 | 7 | V |
2LOFF_VOLT = 001b | 6 | 7 | 8 | V | ||
2LOFF_VOLT = 010b | 7 | 8 | 9 | V | ||
2LOFF_VOLT = 011b | 8 | 9 | 10 | V | ||
2LOFF_VOLT = 100b | 9 | 10 | 11 | V | ||
2LOFF_VOLT = 101b | 10 | 11 | 12 | V | ||
2LOFF_VOLT = 110b | 11 | 12 | 13 | V | ||
2LOFF_VOLT = 111b | 12 | 13 | 14 | V | ||
t2 LOFF | Plateau voltage during two-level turnoff hold time | 2LOFF_TIME = 000b | 150 | ns | ||
2LOFF_TIME = 001b | 300 | ns | ||||
2LOFF_TIME = 010b | 450 | ns | ||||
2LOFF_TIME = 011b | 600 | ns | ||||
2LOFF_TIME = 100b | 1000 | ns | ||||
2LOFF_TIME = 101b | 1500 | ns | ||||
2LOFF_TIME = 110b | 2000 | ns | ||||
2LOFF_TIME = 111b | 2500 | ns | ||||
I2 LOFF | Discharge current for transition to plateau voltage level | 2LOFF_CURR = 00b, 100℃ to 150℃ | 0.24 | 0.3 | 0.36 | A |
2LOFF_CURR = 01b, 100℃ to 150℃ | 0.48 | 0.6 | 0.72 | A | ||
2LOFF_CURR = 10b, 100℃ to 150℃ | 0.72 | 0.9 | 1.08 | A | ||
2LOFF_CURR = 11b, 100℃ to 150℃ | 0.96 | 1.2 | 1.44 | A | ||
HIGH VOLTAGE CLAMPING | ||||||
VCECLPTH | VCE clamping threshold with respect to VEE2 | 1.5 | 2.2 | 2.9 | V | |
VCECLPHYS | VCE clamping threshold hysteresis | 200 | mV | |||
tVCECLP | VCE clamping intervention-time | 30 | ns | |||
tVCECLP_HLD | VCE clamping hold on time | VCE_CLMP_HLD_TIME = 00b | 100 | ns | ||
VCE_CLMP_HLD_TIME = 01b | 200 | ns | ||||
VCE_CLMP_HLD_TIME = 10b | 300 | ns | ||||
VCE_CLMP_HLD_TIME = 11b | 400 | ns | ||||
OVERTEMPERATURE PROTECTION | ||||||
TSD_SET | Overtemperature protection set for driver | 155 | °C | |||
TSD_CLR | Overtemperature protection clear for driver | 135 | °C | |||
TWN_SET | Overtemperature warning set for driver | 130 | °C | |||
TWN_CLR | Overtemperature warning clear for driver | 110 | °C | |||
THYS | Hysteresis for thermal comparators | 20 | °C | |||
ITO | Bias current for temp sensing diode for pins AI1, AI3, and AI5 | TEMP_CURR = 00b, Tj = 100C to 150C | 0.097 | 0.1 | 0.103 | mA |
TEMP_CURR = 01b, Tj = 100C to 150C | 0.291 | 0.3 | 0.309 | mA | ||
TEMP_CURR = 10b, Tj = 100C to 150C | 0.582 | 0.6 | 0.618 | mA | ||
TEMP_CURR = 11b, Tj = 100C to 150C | 0.97 | 1 | 1.03 | mA | ||
VPS_TSDth | The threshold of power switch over temperature protection. | TSDTH_PS = 000b | 0.95 | 1 | 1.05 | V |
TSDTH_PS = 001b | 1.1875 | 1.25 | 1.3125 | V | ||
TSDTH_PS = 010b | 1.425 | 1.5 | 1.575 | V | ||
TSDTH_PS = 011b | 1.6625 | 1.75 | 1.8375 | V | ||
TSDTH_PS = 100b | 1.9 | 2 | 2.1 | V | ||
TSDTH_PS = 101b | 2.1375 | 2.25 | 2.3625 | V | ||
TSDTH_PS = 110b | 2.375 | 2.5 | 2.625 | V | ||
TSDTH_PS = 111b | 2.6125 | 2.75 | 2.8875 | V | ||
tPS_TSDFLT | Power switch thermal shutdown deglitch time | PS_TSD_DEGLITCH = 00b | 250 | ns | ||
PS_TSD_DEGLITCH = 01b | 500 | ns | ||||
PS_TSD_DEGLITCH = 10b | 750 | ns | ||||
PS_TSD_DEGLITCH = 11b | 1000 | ns | ||||
GATE VOLTAGE MONITOR | ||||||
VGMH | Gate monitor threshold value with reference to VCC2 | IN+= high and IN- = low | – 4 | – 3 | – 2 | V |
VGML | Gate monitor threshold value with reference to VEE2 | IN + = low and IN- = high | 2 | 3 | 4 | V |
tGMBLK | Gate voltage monitor blanking time after driver receives PWM transition | GM_BLK = 00b | 500 | ns | ||
GM_BLK = 01b | 1000 | ns | ||||
GM_BLK = 10b | 2500 | ns | ||||
GM_BLK = 11b | 4000 | ns | ||||
tGMFLT | Gate voltage monitor deglitch time | 250 | ns | |||
IVGTHM | Charge current for VGTH measurement | VCC2 - VOUTH = 10V | 2 | mA | ||
tdVGTHM | Delay time between VGTH measurement control command to gate voltage sampling point. | 2300 | µs | |||
ADC | ||||||
FSR | Full scale input voltage range for A1 to A6 | 0 | 3.6 | 3.636 | V | |
VREF | Required voltage for external VREF | Accuracy of external reference directly affects the accuracy of the ADC | 4 | V | ||
Internal VREF output voltage | 4 | V | ||||
INL | Integral non-linearity | External reference, VREF = 4V | -1.2 | 1.2 | LSB | |
Internal reference | -4 | 9 | LSB | |||
DNL | Differential non-linearity | External reference, VREF = 4V | -0.75 | 0.75 | LSB | |
Internal reference | -0.75 | 0.75 | LSB | |||
tADREFEXT | External ADC reference turn on delay time from VCC2 > VIT-(UVLO2) | VIT-(UVLO2) to 10% of VREF | 10 | µs | ||
ITO2 | Pull up current on AI2,4,6 pins | VAI2,4,6= VREF/2, ITO2_EN=H | 10 | 15 | µA | |
thybrid | IN+ hold time to cause switchover between center mode and edge mode | ADC in hybrid mode configuration | 0.4 | ms | ||
tCONV | Time to complete ADC conversion | 5.1 | µs | |||
tRR | Time between ADC conversions in Edge mode | ADC in edge mode or hybrid mode (after tHYBRID) configuration | 7.5 | µs |