ZHCSON5 april 2023 UCC21756-Q1
PRODUCTION DATA
| Parameter | TEST CONDITIONS | MIN | TYP | MAX | UNIT | |
|---|---|---|---|---|---|---|
| VCC UVLO THRESHOLD AND DELAY | ||||||
| VVCC_ON | VCC - GND | 2.55 | 2.7 | 2.85 | V | |
| VVCC_OFF | 2.35 | 2.5 | 2.65 | V | ||
| VVCC_HYS | 0.2 | V | ||||
| tVCCFIL | VCC UVLO deglitch time | 10 | μs | |||
| tVCC+ to OUT | VCC UVLO on delay to output high | IN+ = VCC, IN– = GND | 28 | 37.8 | 50 | μs |
| tVCC- to OUT | VCC UVLO off delay to output low | 5 | 10 | 15 | μs | |
| tVCC+ to RDY | VCC UVLO on delay to RDY high | RST/EN = VCC | 30 | 37.8 | 50 | μs |
| tVCC- to RDY | VCC UVLO off delay to RDY low | 5 | 10 | 15 | μs | |
| VDD UVLO THRESHOLD AND DELAY | ||||||
| VVDD_ON | VDD - COM | 10.5 | 12 | 12.8 | V | |
| VVDD_OFF | 9.9 | 10.7 | 11.8 | V | ||
| VVDD_HYS | 0.8 | V | ||||
| tVDDFIL | VDD UVLO deglitch time | 5 | μs | |||
| tVDD+ to OUT | VDD UVLO on delay to output high | IN+ = VCC, IN– = GND | 2 | 5 | 8 | μs |
| tVDD- to OUT | VDD UVLO off delay to output low | 5 | 10 | μs | ||
| tVDD+ to RDY | VDD UVLO on delay to RDY high | RST/EN = VCC | 10 | 15 | μs | |
| tVDD- to RDY | VDD UVLO off delay to RDY low | 10 | 15 | μs | ||
| VCC, VDD QUIESCENT CURRENT | ||||||
| IVCCQ | VCC quiescent current | OUT(H) = High, fS = 0Hz, AIN=2V | 2.5 | 3 | 4 | mA |
| OUT(L) = Low, fS = 0Hz, AIN=2V | 1.45 | 2 | 2.75 | mA | ||
| IVDDQ | VDD quiescent current | OUT(H) = High, fS = 0Hz, AIN=2V | 3.6 | 4 | 5.9 | mA |
| OUT(L) = Low, fS = 0Hz, AIN=2V | 3.1 | 3.7 | 5.3 | mA | ||
| LOGIC INPUTS - IN+, IN- and RST/EN | ||||||
| VINH | Input high threshold | VCC=3.3V | 1.85 | 2.31 | V | |
| VINL | Input low threshold | 0.99 | 1.52 | V | ||
| VINHYS | Input threshold hysteresis | 0.33 | V | |||
| IIH | Input high level input leakage current | VIN = VCC | 90 | uA | ||
| IIL | Input low level input leakage current | VIN = GND | -90 | uA | ||
| RIND | Input pins pull down resistance | 55 | k? | |||
| RINU | Input pins pull up resistance | 55 | k? | |||
| TINFIL | IN+, IN– and RST/EN deglitch (ON and OFF) filter time | fS = 50kHz | 28 | 40 | 60 | ns |
| TRSTFIL | Deglitch filter time to reset FLT | 500 | 650 | 800 | ns | |
| GATE DRIVER STAGE | ||||||
| IOUTH | Peak source current | CL = 0.18μF, fS = 1kHz | 10 | A | ||
| IOUTL | Peak sink current | 10 | A | |||
| ROUTH(3) | Output pull-up resistance | IOUTH = -0.1A | 2.5 | Ω | ||
| ROUTL | Output pull-down resistance | IOUTL = 0.1A | 0.3 | Ω | ||
| VOUTH | High level output voltage | IOUTH = -0.2A, VDD = 18V | 17.5 | V | ||
| VOUTL | Low level output voltage | IOUTL= 0.2A | 60 | mV | ||
| ACTIVE PULLDOWN | ||||||
| VOUTPD | Output active pull down on OUTL | IOUTL(typ) = 0.1×IOUTL(typ), VDD=OPEN, VEE=COM |
1.5 | 2.0 | 2.5 | V |
| INTERNAL ACTIVE MILLER CLAMP | ||||||
| VCLMPTH | Miller clamp threshold voltage | Reference to VEE | 1.5 | 2.0 | 2.5 | V |
| VCLMPI | Output low clamp voltage | ICLMPI = 1A | VEE + 0.5 | V | ||
| ICLMPI | Output low clamp current | VCLMPI = 0V, VEE = –2.5V | 4.0 | A | ||
| RCLMPI | Miller clamp pull down resistance | ICLMPI = 0.2A | 0.6 | Ω | ||
| tDCLMPI | Miller clamp ON delay time | CL = 1.8nF | 15 | 50 | ns | |
| SHORT CIRCUIT CLAMPING | ||||||
| VCLP-OUT(H) | VOUTH–VDD | OUT = High, IOUT(H) = 500mA, tCLP=10μs | 0.9 | V | ||
| VCLP-OUT(L) | VOUTL–VDD | OUT = High, IOUT(L) = 500mA, tCLP=10μs | 1.8 | V | ||
| VCLP-CLMPI | VCLMPI-VDD | OUT = High, ICLMPI= 20mA, tCLP=10μs | 1.0 | V | ||
| DESAT PROTECTION | ||||||
| ICHG | Blanking capacitor charge current | VDESAT = 2.0V | 430 | 500 | 570 | μA |
| IDCHG | Blanking capacitor discharge current | VDESAT = 6.0V | 10.0 | 15.0 | mA | |
| VDESAT | Detection threshold | 4.6 | 5 | 5.47 | V | |
| tDESATLEB | Leading edge blank time | 150 | 200 | 450 | ns | |
| tDESATFIL | DESAT deglitch filter | 50 | 140 | 230 | ns | |
| tDESATOFF | DESAT propagation delay to OUTL 90% | 150 | 200 | 300 | ns | |
| tDESATFLT | DESAT to FLT low delay |
400 | 580 | 750 | ns | |
| INTERNAL SOFT TURN OFF | ||||||
| ISTO | Soft turn-off current on fault condition | VDD-VEE = 20 V, OUTL = 8 V | 500 | 900 | 1200 | mA |
| ISOLATED TEMPERATURE SENSE AND MONITOR (AIN–APWM) | ||||||
| VAIN | Analog sensing voltage range | 0.6 | 4.5 | V | ||
| IAIN | Internal current source | VAIN=2.5V, -40°C< TJ< 150°C | 196 | 203 | 209 | uA |
| fAPWM | APWM output frequency | VAIN=2.5V | 380 | 400 | 420 | kHz |
| BWAIN | AIN-APWM Bandwidth | 10 | kHz | |||
| DAPWM | APWM Duty Cycle | VAIN=0.6V | 86.5 | 88 | 89.5 | % |
| VAIN=2.5V | 48.5 | 50 | 51.5 | % | ||
| VAIN=4.5V | 7.5 | 10 | 11.5 | % | ||
| FLT AND RDY REPORTING | ||||||
| tRDYHLD | VDD UVLO RDY low minimum holding time | 0.55 | 1 | ms | ||
| tFLTMUTE | Output mute time on fault | Reset fault through RST/EN | 0.55 | 1 | ms | |
| RODON | Open drain output on resistance | IODON = 5mA | 30 | ? | ||
| VODL | Open drain low output voltage | 0.3 | V | |||
| COMMON MODE TRANSIENT IMMUNITY | ||||||
| CMTI | Common-mode transient immunity | 150 | V/ns | |||