ZHCSOY9 december 2021 UCC28781
PRODUCTION DATA
PARAMETER | TEST CONDITIONS | MIN | TYP | MAX | UNIT | |
---|---|---|---|---|---|---|
VDD INPUT | ||||||
IRUN(STOP) | Supply current, run state | No switching | 0.88 | 2.2 | 2.66 | mA |
IRUN(SW) | Supply current, run state | Switching, IVSL = 0 µA | 2.45 | 3 | 3.55 | mA |
IWAIT | Supply current, wait state | IFB = -85 µA, IVDD only | 465 | 540 | 658 | µA |
ISTART | Supply current, start state | VVDD = VVDD(ON) - 100 mV, VVS = 0 V | 150 | 235 | 301 | µA |
IFAULT | Supply current, fault state | fault state | 500 | 630 | µA | |
IVDD(LIMIT) | VDD startup current limit during startup | VVDD
increasing, VSWS - VVDD = 1 V, VVDD = 16.5 V | 1.2 | 2 | 2.53 | mA |
VVDD(ON) | VDD turnon threshold | VVDD increasing | 16.2 | 17 | 17.91 | V |
VVDD(OFF) | VDD turnoff threshold | VVDD decreasing | 9.94 | 10.6 | 11.17 | V |
VVDD(PCT) | Offset to power cycle for long output voltage overshoot | Offset above VVDD(OFF), IFB = -85 µA | 1.54 | 2.2 | 2.98 | V |
P13 OUTPUT | ||||||
VP13 | P13 voltage level including load regulation | 0 mA to 60 mA out of
P13, run state, VVDD = 20 V | 12.0 | 12.8 | 13.6 | V |
IP13(START) | Max sink current of P13 pin during startup | VP13 = 14 V | 1.53 | 2.2 | 3.04 | mA |
IP13(MAX) | Current sourcing limit of P13 pin | P13 shorted to AGND, VVDD = 20 V | 103.3 | 133 | 160 | mA |
VR13(LINE) | Line regulation of VP13 | VVDD = 15 V to 35 V | -6 | 2 | 8.7 | mV |
VP13(OV) | Over voltage fault threshold above VP13 | 1.35 | 2 | 2.54 | V | |
RP13 | Dropout resistance of P13 regulator switch between VDD and P13 pins | (VVDD -
VP13) / 30 mA, VVDD = 11 V, 30 mA out of P13 | 8.5 | 13 | 22.7 | Ω |
S13 OUTPUT | ||||||
RS13 | RDS(on) of internal disconnect switch between P13 and S13 pins | (VP13 -
VS13) / 30 mA, VVDD = 11 V, 30 mA out of S13 | 2.1 | 2.8 | 3.82 | Ω |
VS13_OK | S13_OK threshold to enable switching | VRUN = 5 V | 9.63 | 10.2 | 10.7 | V |
IS13(MAX) | Current sourcing limit of S13 pin | S13 shorted to AGND, VVDD = 20 V | 260.7 | 350 | 452.5 | mA |
REF OUTPUT | ||||||
VREF | REF voltage level | IREF = 0 A | 4.9 | 5 | 5.13 | V |
IREF(MAX) | Current sourcing limit of REF pin | REF shorted to AGND, VVDD = 20 V | 14.3 | 17 | 20.3 | mA |
VR5(LINE) | Line regulation of VREF | VVDD = 12 V to 35 V | -7 | -3 | 1 | mV |
VR5(LOAD) | Load regulation of VREF | 0 mA to 1 mA out of REF, Change in VREF | -16 | 0.1 | 25 | mV |
VS INPUT | ||||||
VVSNC | Negative clamp level | IVSL = -1.25 mA, voltage below ground | 221 | 287 | 344 | mV |
VZCD | Zero-crossing detection (ZCD) level | VVS decreasing | 12.4 | 35 | 67.2 | mV |
IVSB | Input bias current | VVS = 4 V | -0.23 | 0 | 0.31 | µA |
VVS(SM1) | VS threshold voltage in SM1 startup mode | 242.4 | 282 | 318.3 | mV | |
VVS(SM2) | VS threshold voltage in SM2 startup mode | 458.3 | 500 | 543 | mV | |
VVSLV(UP) | VS upper threshold out of low output voltage mode (LV mode) | VVS increasing | 2.41 | 2.49 | 2.6 | V |
VVSLV(LR) | VS lower threshold into low output voltage mode (LV mode) | VVS decreasing | 2.3 | 2.39 | 2.49 | V |
tZC | Zero-crossing timeout delay | 1.95 | 2.3 | 2.73 | µs | |
tD(ZCD) | Propagation delay from ZCD high to PWML 10% high | VVS step from 4 V to -0.1 V | 23 | 50 | 81 | ns |
CS INPUT | ||||||
VCST(MAX) | Peak-power threshold on CS pin out of LV mode | IVSL = 0 μA, VVS ≥ VVSLV(UP) | 767.4 | 801 | 836.4 | mV |
IVSL = -333 μA, VVS ≥ VVSLV(UP) | 650 | 727 | 788.7 | mV | ||
IVSL = -666 μA, VVS ≥ VVSLV(UP) | 570 | 600 | 651.8 | mV | ||
IVSL = -1.25 mA, VVS ≥ VVSLV(UP) | 537.2 | 570 | 612 | mV | ||
VCST(MAX)_LV | Peak-power threshold on CS pin in LV mode | IVSL = 0 mA, VVS ≤ VVSLV(LR) | 593.7 | 628 | 663.9 | mV |
IVSL = -666 μA, VVS ≤ VVSLV(LR) | 540 | 570 | 609.5 | mV | ||
IVSL = -1.25 mA, VVS ≤ VVSLV(LR) | 511.2 | 540 | 584.7 | mV | ||
VCST(MIN) | Minimum CS threshold voltage | VCS increasing, IFB = -85 µA | 120.7 | 153 | 200.1 | mV |
KLC | Line-compensation current ratio | IVSL = -1.25 mA, IVSL / current out of CS pin | 21.6 | 25 | 29 | A/A |
VCST(EMI)12 | EMI dithering magnitude on CS pin out of LV mode | (VBUR /
KBUR-CST) < VCST <
VCST(MAX), IVSL > -646 μA, VVS ≥ VVSLV(UP) | 78.4 | 96 | 113.6 | mV |
VCST(EMI)_LV12 | EMI dithering magnitude on CS pin in LV mode | (VBUR /
KBUR-CST) < VCST <
VCST(MAX), IVSL > -646 μA, VVS ≤ VVSLV(LR) | 29.3 | 36 | 42.7 | mV |
VCST(SM1) | CS threshold voltage in SM1 startup mode | VVS < VVS(SM1) | 177.5 | 200 | 222.9 | mV |
VCST(SM2) | CS threshold voltage in SM2 startup mode | VVS < VVS(SM2) | 470.4 | 500 | 531.4 | mV |
tCSLEB | Leading-edge-blanking time | VSET = 5 V, VCS = 1 V | 171.2 | 190 | 216.1 | ns |
VSET = 0 V, VCS = 1 V | 94.4 | 108 | 125 | ns | ||
tD(CS) | Propagation delay of CS comparator high to PWML 90 % low | VCS step from 0 V to 1 V | 10 | 26 | 37 | ns |
fDITHER12 | EMI dithering frequency on CS pin | (VBUR /
KBUR-CST) < VCST <
VCST(OPP), IVSL > -646 μA | 20 | 23 | 27 | kHz |
BUR INPUT and Low-power MODE | ||||||
KBUR-CST | Ratio of VBUR to VCST | VBUR between 0.7 V and 2.4 V | 3.82 | 3.98 | 4.09 | V/V |
IBUR(LPM) | Bias source current of VBUR offset in LPM | 2.09 | 2.65 | 3.16 | µA | |
IBUR(AAM) | Bias sink current of VBUR offset in AAM | VCST > VBUR / KBUR-CST | 3.76 | 4.85 | 5.81 | µA |
fBUR(UP1) | First upper threshold of burst frequency in ABM | 30.7 | 34.4 | 38.5 | kHz | |
fBUR(UP2) | Second upper threshold of burst frequency in ABM | VVS = 2.2 V | 41.8 | 51.2 | 58.9 | kHz |
fBUR(LR) | Lower threshold of burst frequency in ABM | 21.3 | 24.5 | 28.1 | kHz | |
fLPM | Burst frequency in low-power mode | 23.3 | 25 | 26.9 | kHz | |
IPC INPUT and SBP2 MODE | ||||||
VCST_IPC(UP) | Highest programmable VCST range of SBP2 by IPC pin | VIPC = 5 V | 373.8 | 405 | 438.5 | mV |
KIPC | Ratio of the programmable IPC voltage to VCST | VIPC between 1.8 V and 3.8 V | 59.3 | 64 | 68.4 | mV/V |
VCST_IPC(LR) | Lowest programmable VCST range of SBP2 by IPC pin | VIPC = 1 V | 247.5 | 273 | 307.7 | mV |
VCST_IPC(MIN) | Minimum VCST of SBP2 by grounding IPC pin | VIPC = 0 V | 128.1 | 154 | 191.5 | mV |
IIPC(SBP2) | Bias source current of VIPC offset in SBP2 | IFB = -85 µA | 40.7 | 49 | 55.7 | µA |
fSBP2(UP) | Upper threshold of burst frequency in SBP2 | 6 | 8.5 | 13.4 | kHz | |
fSBP2(LR) | Lower threshold of burst frequency in SBP2 | VIPC = 2 V | 1 | 1.7 | 2 | kHz |
RUN | ||||||
VRUNH | RUN pin high-level | IRUN = -0.2 mA | 4.6 | 4.78 | 5 | V |
VRUNL | RUN pin low-level | IRUN = 1 mA | 0.1 | 0.25 | 0.3 | V |
ISRC(RUN) | RUN peak source current | VRUN = 2.3 V | 33 | 44 | 52 | mA |
VRUN = 3 V | 14 | 20 | 25 | mA | ||
tR(RUN) | Turn-on rise time of RUN pin, from 0 V to 2.5 V | CLOAD = 22 nF, VRUN from 0 V to 2.5 V | 0.2 | 0.79 | 1 | µs |
tF(RUN) | Turn-off fall time of RUN pin, 90 % to 10 % | CLOAD = 10 pF | 20 | 32 | ns | |
PWML | ||||||
VPWMLH | PWML pin high-level | IPWML = -1 mA | 12.1 | 12.85 | 13.6 | V |
VPWMLL | PWML pin low-level | IPWML = 1 mA | 0.002 | 0.1 | V | |
ISRC(PWML)1 | PWML peak source current | VPWML = 0 V | 0.25 | 0.5 | 0.8 | A |
ISNK(PWML)1 | PWML peak sink current | VPWML = 13 V | 1.2 | 1.9 | 2.8 | A |
RSRC(PWML) | PWML pull-up resistance | IPWML = -20 mA | 3.1 | 4.3 | 6.1 | Ω |
RSNK(PWML) | PWML pull-down resistance | IPWML = 20 mA | 0.5 | 1.1 | 1.9 | Ω |
tR(PWML) | Turn-on rise time of PWML pin, 10 % to 90 % | CLOAD = 1.5 nF | 30 | 53 | ns | |
tF(PWML) | Turn-off fall time of PWML pin, 90 % to 10 % | CLOAD = 1.5 nF | 9 | 20 | ns | |
tD(RUN-PWML) | Delay from RUN high to PWML high | VS13 > 11 V | 1.92 | 4.7 | 7.43 | µs |
tON(MIN) | Minimum on-time of PWML in LPM | VSET = 5 V, IFB = -85 µA, VCS = 1 V | 68 | 105 | 180 | ns |
PWMH | ||||||
VPWMHH | PWMH pin high-level | IPWMH = -1 mA | 4.39 | 4.66 | 4.83 | V |
VPWMHL | PWMH pin low-level | IPWMH = 1 mA | 0.1 | 0.198 | 0.21 | V |
ISRC(PWMH) | PWMH peak source current | VPWMH = 2.5 V | 16.5 | 21 | 26.2 | mA |
VPWMH = 3.5 V | 3.8 | 6 | 7.6 | mA | ||
tR(PWMH) | Turn-on rise time of PWMH pin, 10 % to 90 % | CLOAD = 10 pF | 8 | 24 | ns | |
tF(PWMH) | Turn-off fall time of PWMH pin, 90 % to 10 % | CLOAD = 10 pF | 22 | 29 | ns | |
tD(VS-PWMH) | Dead time between VS high and PWMH 10 % high | 10 | 18 | 28 | ns | |
PROTECTION | ||||||
VOVP | Over-voltage threshold | VVS increasing | 4.4 | 4.55 | 4.67 | V |
VOCP | Over-current threshold | VCS increasing | 1.14 | 1.22 | 1.27 | V |
KOPP-PPL | Ratio of over-power threshold to peak-power threshold | VCST(OPP) /
VCST(MAX) , and VCST(OPP)_LV / VCST(MAX)_LV | 0.72 | 0.75 | 0.78 | V/V |
IVSL(RUN) | VS line-sense run current | Current out of VS pin increasing | 313 | 365 | 408.6 | µA |
IVSL(STOP) | VS line-sense stop current | Current out of VS pin decreasing | 255 | 305 | 336.4 | µA |
KVSL | VS line sense ratio | IVSL(STOP) / IVSL(RUN) | 0.72 | 0.836 | 0.9 | A/A |
RRDM(TH) | RRDM threshold for CS pin fault | 35 | 55 | 70 | kΩ | |
TJ(STOP)1 | Thermal-shutdown temperature | Internal junction temperature | 125 | 162 | °C | |
tOPP3 | OPP fault timer | IFB = 0 A | 130 | 164 | 210 | ms |
tBO | Brown-out detection delay time | IVSL < IVSL(STOP) | 28.8 | 55 | 85.2 | ms |
tCSF1 | Maximum PWML on-time for detecting CS pin fault | VSET = 5 V | 1.6 | 2.05 | 2.5 | µs |
tCSF0 | Maximum PWML on-time for detecting CS pin fault | RRDM < RRDM(TH) for VSET = 0 V | 0.85 | 1.05 | 1.27 | µs |
tFDR3 | Fault reset delay timer | OCP, OPP, OVP, SCP or CS pin fault | 1.2 | 1.5 | 2.4 | s |
FLT INPUT | ||||||
VNTCTH | NTC shut-down voltage | FLT voltage decreasing | 0.47 | 0.5 | 0.52 | V |
RNTCTH | NTC shut-down resistance | RNTC decreasing | 8.9 | 9.91 | 11.18 | kΩ |
RNTCR | NTC recovery resistance | RNTC increasing | 21.2 | 23 | 26.4 | kΩ |
IFLT | Input bias current for VFLT at VIOVPTH | VFLT = 4.5 V | -0.1 | 0 | 0.1 | µA |
VIOVPTH | Shut-down voltage of input OVP | FLT voltage increasing | 4.3 | 4.5 | 4.67 | V |
VIOVPR | Hysteresis of input OVP | FLT voltage decreasing | 57.7 | 74 | 87 | mV |
tFLT(NTC) | Delay time of NTC fault | 14 | 50 | 100 | µs | |
tFLT(IOVP) | Delay time of input OVP fault | 555 | 750 | 917 | µs | |
VFLTZ | Clamp voltage of FLT pin | IFLT = 150 µA | 5.08 | 5.5 | 5.61 | V |
RTZ INPUT | ||||||
KTZ | tZ compensation ratio | ratio of tZ
at IVSL = -200 µA to tZ at IVSL = -733 µA | 1.27 | 1.41 | 1.54 | s/s |
tZ(MAX) | Maximum programmable dead time from PWMH low to PWML high | RRTZ = 280 kΩ, IVSL = -1 mA, VSET = 5 V | 397.8 | 478 | 592.8 | ns |
tZ(MIN) | Minimum programmable dead time from PWMH low to PWML high | RRTZ = 78.4 kΩ, IVSL = -1 mA, VSET = 0 V | 56.1 | 70 | 89.1 | ns |
tZ | Dead time from PWMH low to PWML high | IVSL = -200 µA | 152.2 | 175 | 212.7 | ns |
IVSL = -450 µA | 129.2 | 150 | 190 | ns | ||
IVSL = -733 µA | 109.7 | 125 | 147.2 | ns | ||
SWS INPUT | ||||||
VTH(SWS) | SWS zero voltage threshold | VSET = 5 V | 8.1 | 8.5 | 9.1 | V |
VSET = 0 V | 3.7 | 4.04 | 4.4 | V | ||
tD(SWS-PWML) | Time between SWS low to PWML 10 % high | VSWS step from 5 V to 0 V | 11.4 | 17 | 26 | ns |
FB INPUT | ||||||
IFB(SBP) | Maximum control FB current | IFB increasing | 64.2 | 75 | 87.1 | µA |
VFB(REG) | Regulated FB voltage level | 4.02 | 4.25 | 4.53 | V | |
RFBI | FB input resistance | 7.4 | 8.3 | 9.6 | kΩ | |
dICOMP/dt1 | Slope of internal ramp compensation current | 0.192 | 0.214 | 0.236 | A/s | |
ICOMP | Magnitude of internal ramp compensation current | 4 | 6.75 | 8 | µA | |
RDM INPUT | ||||||
tDM(MAX) | Maximum PWMH width with maximum tuning | VSWS = 12 V | 6.0 | 6.95 | 7.53 | µs |
tDM(MIN) | Minimum PWMH width with minimum tuning | VSWS = 0 V | 3.0 | 3.43 | 3.77 | µs |
XCD INPUT | ||||||
VXCD(LR) | XCD lower zero-crossing threshold | 5.9 | 6.62 | 7.2 | V | |
VXCD(UP) | XCD upper zero-crossing threshold | 6.8 | 7.5 | 7.9 | V | |
IXCD(0) | Leakage current in XCD wait state | VXCD = 15 V | 0.3 | 1.7 | µA | |
IXCD(1) | First-step XCD sense current | VXCD = 15 V | 0.32 | 0.4 | 0.46 | mA |
IXCD(2) | Second-step XCD sense current | VXCD = 15 V | 0.61 | 0.775 | 0.91 | mA |
IXCD(3) | Third-step XCD sense current | VXCD = 15 V | 0.73 | 1.15 | 1.6 | mA |
IXCD(4) | Fourth-step XCD sense current | VXCD = 15 V | 1.2 | 1.53 | 1.81 | mA |
IXCD(MAX) | Maximum XCD discharge current | VXCD = 15 V | 1.65 | 2 | 2.5 | mA |
VXCD(OVP) | Clamp voltage of XCD OVP | IXCD = 20 mA | 23 | 26 | 30 | V |
tXCD(STEP) | Dwell time for each XCD sense step | 9 | 12 | 14.6 | ms | |
tXCD(MAX) | Maximum XCD discharge time | 230.4 | 300 | 373.3 | ms | |
tXCD(WAIT) | XCD wait time | 700 | 1071 | ms |