SLVSHB1A March 2023 – November 2024 DRV8329-Q1
PRODUCTION DATA
PARAMETER | TEST CONDITIONS | MIN | TYP | MAX | UNIT | |
---|---|---|---|---|---|---|
POWER SUPPLIES (AVDD, PVDD, GVDD) | ||||||
IPVDDQ | PVDD sleep mode current | VPVDD =24V, nSLEEP = 0, TA = 25°C | 1 | µA | ||
nSLEEP = LOW | 2 | µA | ||||
IPVDDS | PVDD standby mode current | VPVDD = 24 V; nSLEEP = HIGH, INHx = INLX = LOW, DRVOFF = HIGH | 2 | 4 | mA | |
nSLEEP = HIGH, INHx = INLX = LOW, DRVOFF = HIGH | 3 | 5.5 | mA | |||
IPVDD | PVDD active mode current | VPVDD = 24 V, nSLEEP = HIGH, INHx = INLX = Switching@20kHz, No FETs connected | 4 | 7 | mA | |
nSLEEP = HIGH, INHx = INLX = Switching@20kHz, No FETs connected | 5 | 10 | mA | |||
VPVDD = 8 V, nSLEEP = HIGH, INHx = INLX = LOW, No FETs connected | 5 | 10 | mA | |||
VPVDD = 24 V, nSLEEP = HIGH, INHx = INLX = LOW, No FETs connected | 5 | 7 | mA | |||
ILBSx | Bootstrap pin leakage current | VBSTx = VSHx = 60V, VGVDD = 0V, nSLEEP = LOW | 5 | 10 | 16 | µA |
ILBS_TRAN | Bootstrap pin active mode transient leakage current | INLx = INHx = Switching@20kHz, No FETs connected | 60 | 115 | 300 | µA |
ILBS_DC_SRC | Bootstrap pin active mode leakage static source current | INHx = HIGH, INLx = LOW, INLy = INLz = HIGH, nSLEEP = HIGH, VPVDD = VSHX = VGVDD = 12V, VBSTx - VSHx = 5V | 135 | 200 | 280 | µA |
INHx = HIGH, INLx = LOW, INLy = INLz = HIGH, nSLEEP = HIGH, VPVDD = VSHX = VGVDD = 12V, VBSTx - VSHx = 7V | 70 | 105 | 145 | µA | ||
INHx = LOW, INLx = LOW, INLy = INLz = HIGH, nSLEEP = HIGH, VPVDD = VSHX = VGVDD = 12V, VBSTx - VSHx = 5V | 25 | 50 | 90 | µA | ||
INHx = LOW, INLx = LOW, INLy = INLz = HIGH, nSLEEP = HIGH, VPVDD = VSHX = VGVDD = 12V, VBSTx - VSHx = 7V | 16 | 28 | 50 | µA | ||
ILBS_DC_SINK | Bootstrap pin active mode leakage static sink current | INHx = LOW, INLx = LOW, INLy = INLz = HIGH, nSLEEP = HIGH, VPVDD = VSHX = VGVDD = 12V, VBSTx - VSHx = 12V | 10 | 40 | 90 | µA |
INHx = High, INLx = LOW, INLy = INLz = HIGH, nSLEEP = HIGH, VPVDD = VSHX = VGVDD = 12V, VBSTx - VSHx = 12V | 14 | 45 | 91 | µA | ||
ILSHx | Source pin leakage current | INHx = INLx = LOW, VBSTx - VSHx = 15, VSHx = 0 to 60V, nSLEEP = HIGH, DRVOFF = LOW | 80 | 145 | 210 | µA |
INHx = INLx = LOW, VBSTx - VSHx = 11, VSHx = 0 to 60V, nSLEEP = HIGH, DRVOFF = LOW | 15 | 20 | 30 | µA | ||
INHx = High, INLx = LOW, VBSTx - VSHx = 15, VSHx = 0 to 60V, nSLEEP = HIGH, DRVOFF = LOW | 80 | 145 | 210 | µA | ||
INHx = HIGH, INLx = LOW, VBSTx - VSHx = 11, VSHx = 0 to 60V, nSLEEP = HIGH, DRVOFF = LOW | 13 | 25 | 35 | µA | ||
tWAKE | Turnon time (nSLEEP) | nSLEEP = HIGH to Active mode (Outputs Ready), DRVOFF = LOW, CGVDD = 10 uF, CBSTx = 1 uF | 1 | 2 | ms | |
nSLEEP = High to Active mode (Outputs Ready). CGVDD = 100 uF, CAVDD = 10 uF, CBSTx = 10 uF | 10 | 15 | ms | |||
VPVDD = 12V, nSLEEP = HIGH to Active mode (Outputs Ready), DRVOFF = LOW, CGVDD = 10 uF | 1 | 2 | ms | |||
Turnon time (DRVOFF) | DRVOFF = LOW to Active mode (Outputs Ready), nSLEEP = High | 0.05 | 0.1 | ms | ||
tSLEEP | Turnoff time | nSLEEP = LOW to Sleep mode | 20 | us | ||
tRST | Minimum Reset Pulse Time | nSLEEP = LOW period to reset faults | 1 | 1.2 | us | |
VGVDD_RT | GVDD Gate driver regulator voltage (Room Temperature) | VPVDD ≥ 40 V, IGS = 10 mA, TJ= 25°C | 11.8 | 13 | 15 | V |
22 V ≤VPVDD ≤ 40 V, IGS = 30 mA, TJ= 25°C | 11.8 | 13 | 15 | V | ||
8 V ≤VPVDD ≤ 22 V, IGS = 30 mA, TJ= 25°C | 11.8 | 13 | 15 | V | ||
6.75 V ≤VPVDD ≤ 8 V, IGS = 10 mA, TJ= 25°C | 11.8 | 13 | 14.5 | V | ||
4.5 V ≤VPVDD ≤ 6.75 V, IGS = 10 mA, TJ= 25°C | 2*VPVDD - 1 | 13.5 | V | |||
VGVDD | GVDD Gate driver regulator voltage | VPVDD ≥ 40 V, IGS = 10 mA | 11.5 | 15.5 | V | |
22 V ≤VPVDD ≤ 40 V, IGS = 30 mA | 11.5 | 15.5 | V | |||
8 V ≤VPVDD ≤ 22 V; IGS = 30 mA | 11.5 | 15.5 | V | |||
6.75 V ≤VPVDD ≤ 8 V, IGS = 10 mA | 11.5 | 14.5 | V | |||
4.5 V ≤VPVDD ≤ 6.75 V, IGS = 10 mA | 2*VPVDD - 1.4 | 13.5 | V | |||
VAVDD_RT | AVDD Analog regulator voltage (Room Temperature) | VPVDD ≥ 6 V, 0 mA ≤ IAVDD ≤ 30 mA, TJ= 25°C | 3.26 | 3.3 | 3.33 | V |
VPVDD ≥ 6 V, 30 mA ≤ IAVDD ≤ 80 mA, TJ= 25°C | 3.2 | 3.3 | 3.4 | V | ||
VPVDD ≤ 6 V, 0 mA ≤ IAVDD ≤ 50 mA, TJ= 25°C | 3.13 | 3.3 | 3.46 | V | ||
VAVDD | AVDD Analog regulator voltage | VPVDD ≥ 6 V, 0 mA ≤ IAVDD ≤ 80 mA | 3.2 | 3.3 | 3.4 | V |
VPVDD ≤ 6 V, 0 mA ≤ IAVDD ≤ 50 mA | 3.125 | 3.3 | 3.5 | V | ||
LOGIC-LEVEL INPUTS (DRVOFF, INHx, INLx, nSLEEP etc) | ||||||
VIL | Input logic low voltage | DRVOFF | 0.8 | V | ||
INLx, INHx pins | 0.8 | V | ||||
VIH | Input logic high voltage | DRVOFF | 2.2 | V | ||
INLx, INHx pins | 2.2 | V | ||||
VHYS | Input hysteresis | DRVOFF | 200 | 400 | 650 | mV |
INLx, INHx pins | 45 | 240 | 350 | mV | ||
IIL | Input logic low current | VPIN (Pin Voltage) = 0 V; | -1 | 0 | 1 | µA |
IIH | Input logic high current | nSLEEP, VPIN (Pin Voltage) = 65 V; | 3 | 6.5 | 10 | µA |
nSLEEP, VPIN (Pin Voltage) = 5 V; | 3 | 6 | 10 | µA | ||
Other pins, VPIN (Pin Voltage) = 5 V; | 7 | 20 | 35 | µA | ||
RPD_DRVOFF | Input pulldown resistance | DRVOFF To GND | 100 | 200 | 300 | kΩ |
RPD_nSLEEP | Input pulldown resistance | nSLEEP To GND | 500 | 800 | 1500 | kΩ |
RPD | Input pulldown resistance | All other pins To GND | 150 | 250 | 350 | kΩ |
FOUR-LEVEL INPUTS (GAIN) | ||||||
VL1 | Input level 1 voltage | Tied to GND | 0 | 0.18*AVDD | V | |
VL2 | Input level 2 voltage | 50 kΩ +/- 5% tied to GND | 0.48*AVDD | 0.5*AVDD | 0.52*AVDD | V |
VL3 | Input level 3 voltage | 200 kΩ +/- 5% tied to GND | 0.82*AVDD | 0.833*AVDD | 0.85*AVDD | V |
VL4 | Input level 4 voltage | HiZ or Connect to AVDD | AVDD | V | ||
RPU | Input pullup resistance | GAIN To AVDD | 80 | 100 | 120 | kΩ |
OPEN-DRAIN OUTPUTS (nFAULT etc) | ||||||
VOL | Output logic low voltage | IOD = 5 mA | 0.4 | V | ||
IOZ | Output logic high current | VOD = 5 V | -1 | 1 | µA | |
COD | Output capacitance | VOD = 5 V | 30 | pF | ||
GATE DRIVERS (GHx, GLx, SHx, SLx) | ||||||
VGSHx_LO | High-side gate drive low level voltage | IGLx = -100 mA; VGVDD = 12V; No FETs connected | 0.05 | 0.11 | 0.24 | V |
VGSHx_HI | High-side gate drive high level voltage (VBSTx - VGHx) | IGHx = 100 mA; VGVDD = 12V; No FETs connected | 0.28 | 0.44 | 0.82 | V |
VGSLx_LO | Low-side gate drive low level voltage | IGLx = -100 mA; VGVDD = 12V; No FETs connected | 0.05 | 0.11 | 0.27 | V |
VGSLx_HI | Low-side gate drive high level voltage (VGVDD - VGHx) | IGHx = 100 mA; VGVDD = 12V; No FETs connected | 0.28 | 0.44 | 0.82 | V |
VGSH_100_PH | High-side gate drive voltage in steady state with 100 % duty cycle (GHx- SHx) | INHx = HIGH, INLx = LOW, INLy = INLz = HIGH, VPVDD >15V, VGVDD ≥11.5V | 8.4 | 9.6 | 11.1 | V |
INHx = HIGH, INLx = LOW, INLy = INLz = HIGH, VGVDD ≥11.5V | 7.5 | 8.3 | 9 | V | ||
INHx = HIGH, INLx = LOW, INLy = INLz = HIGH, 7V ≥VGVDD ≥ 8V | 5.7 | 6.5 | 7.6 | V | ||
RDS(ON)_PU_HS | High-side pullup switch resistance | IGHx = 100 mA; VGVDD= 12V | 2.7 | 4.5 | 8.4 | Ω |
RDS(ON)_PD_HS | High-side pulldown switch resistance | IGHx = 100 mA; VGVDD = 12V | 0.2 | 1.1 | 2.4 | Ω |
RDS(ON)_PU_LS | Low-side pullup switch resistance | IGLx = 100 mA; VGVDD = 12V | 2.7 | 4.5 | 8.3 | Ω |
RDS(ON)_PD_LS | Low-side pulldown switch resistance | IGLx = 100 mA; VGVDD = 12V | 0.2 | 1.1 | 2.8 | Ω |
IDRIVEP_HS | High-side peak source gate current | VGSHx = 12V | 550 | 1000 | 1575 | mA |
IDRIVEN_HS | High-side peak sink gate current | VGSHx = 0V | 1150 | 2000 | 2675 | mA |
IDRIVEP_LS | Low-side peak source gate current | VGSLx = 12V | 550 | 1000 | 1575 | mA |
IDRIVEN_LS | Low-side peak sink gate current | VGSLx = 0V | 1150 | 2000 | 2675 | mA |
RPD_LS | Low-side passive pull down | GLx to LSS | 80 | 100 | 120 | kΩ |
RPDSA_HS | High-side semiactive pull down | GHx to SHx, VGSHx = 2V | 8 | 10 | 12.5 | kΩ |
GATE DRIVERS TIMINGS | ||||||
tPDR_LS | Low-side rising propagation delay | INLx to GLx rising, VGVDD > 8V | 70 | 100 | 145 | ns |
tPDF_LS | Low-side falling propagation delay | INLx to GLx falling, VGVDD > 8V | 70 | 100 | 135 | ns |
tPDR_HS | High-side rising propagation delay | INHx to GHx rising, VGVDD = VBSTx - VSHx > 8V |
65 | 100 | 145 | ns |
tPDF_HS | High-side falling propagation delay | INHx to GHx falling, VGVDD = VBSTx - VSHx > 8V |
70 | 100 | 140 | ns |
tPD_MATCH_PH | Matching propagation delay per phase | GLx turning ON to GLx turning OFF, VGVDD = VBSTx - VSHx > 8V; SHx = 0V to 60V, No load on GHx and GLx | -25 | ±4 | 25 | ns |
GLx turning OFF to GHx turning ON, VGVDD = VBSTx - VSHx > 8V; SHx = 0V to 60V, No load on GHx and GLx | -28 | ±4 | 28 | ns | ||
GHx turning ON to GHx turning OFF, VGVDD = VBSTx - VSHx > 8V; SHx = 0V to 60V, No load on GHx and GLx | -25 | ±4 | 25 | ns | ||
GHx turning OFF to GLx turning ON, VGVDD = VBSTx - VSHx > 8V; SHx = 0V to 60V, No load on GHx and GLx | -25 | ±4 | 25 | ns | ||
tPD_MATCH_PH_PH | Matching propagation delay phase to phase | GHx turning ON to GHy turning ON, VGVDD = VBSTx - VSHx > 8V; SHx = 0V to 60V, No load on GHx and GLx | -10 | ±4 | 10 | ns |
GLx turning ON to GLy turning ON, VGVDD = VBSTx - VSHx > 8V; SHx = 0V to 60V, No load on GHx and GLx | -10 | ±4 | 10 | ns | ||
GHx turning OFF to GHy turning OFF, VGVDD = VBSTx - VSHx > 8V; SHx = 0V to 60V, No load on GHx and GLx | -15 | ±4 | 15 | ns | ||
GLx turning OFF to GLy turning OFF, VGVDD = VBSTx - VSHx > 8V; SHx = 0V to 60V, No load on GHx and GLx | -10 | ±4 | 10 | ns | ||
tPW_MIN | Minimum input pulse width on INHx, INLx that changes the output on GHx, GLx | 18 | 32 | 45 | ns | |
tDEAD | Gate drive dead time configurable range | 50 | 2000 | ns | ||
tDEAD | Gate drive dead time | DT pin floating | 35 | 55 | 90 | ns |
DT pin connected to GND | 25 | 55 | 80 | ns | ||
10 kΩ between DT pin and GND | 75 | 100 | 140 | ns | ||
390 kΩ between DT pin and GND | 1350 | 2000 | 2650 | ns | ||
BOOTSTRAP DIODES | ||||||
VBOOTD | Bootstrap diode forward voltage | IBOOT = 100 µA | 0.8 | V | ||
IBOOT = 100 mA | 1.6 | V | ||||
RBOOTD | Bootstrap dynamic resistance (ΔVBOOTD/ΔIBOOT) | IBOOT = 100 mA and 50 mA | 4.5 | 5.5 | 9 | Ω |
CURRENT SHUNT AMPLIFIERS (SNx, SOx, SPx, CSAREF) | ||||||
ACSA | Sense amplifier gain | CSAGAIN = Tied to GND | 4.92 | 5 | 5.05 | V/V |
CSAGAIN = 50kΩ ±5% tied to GND | 9.9 | 10 | 10.1 | V/V | ||
CSAGAIN = 200kΩ ±5% tied to GND | 19.75 | 20 | 20.2 | V/V | ||
CSAGAIN =Hi-Z; | 39.6 | 40 | 40.6 | V/V | ||
ACSA_ERR | Sense amplifier gain error | TJ = 25℃ | -1.5 | 1.5 | % | |
ACSA_ERR_DRIFT | Sense amplifier gain error temperature drift | -20 | 20 | ppm/℃ | ||
NL | Non linearity Error | 0.01 | 0.05 | % | ||
tSET | Settling time to ±1% | VSTEP = 1.6 V, ACSA = 5 V/V, CLOAD = 500pF | 0.6 | 1 | µs | |
VSTEP = 1.6 V, ACSA = 10 V/V, CLOAD = 500pF | 0.6 | 1.1 | µs | |||
VSTEP = 1.6 V, ACSA = 20 V/V, CLOAD = 500pF | 0.7 | 1.2 | µs | |||
VSTEP = 1.6 V, ACSA = 40 V/V, CLOAD = 500pF | 0.8 | 1.7 | µs | |||
tSET | Settling time to ±1% | VSTEP = 1.6 V, ACSA = 5 V/V, CLOAD = 60pF | 0.3 | 0.5 | µs | |
VSTEP = 1.6 V, ACSA = 10 V/V, CLOAD = 60pF | 0.3 | 0.5 | µs | |||
VSTEP = 1.6 V, ACSA = 20 V/V, CLOAD = 60pF | 0.3 | 0.65 | µs | |||
VSTEP = 1.6 V, ACSA = 40 V/V, CLOAD = 60pF | 0.3 | 0.8 | µs | |||
BW | Bandwidth | ACSA = 5 V/V, CLOAD = 60-pF, small signal -3 dB | 3 | 5 | 7 | MHz |
ACSA = 10 V/V, CLOAD = 60-pF, small signal -3 dB | 2.5 | 4.8 | 6.6 | MHz | ||
ACSA = 20 V/V, CLOAD = 60-pF, small signal -3 dB | 2 | 4 | 5.4 | MHz | ||
ACSA = 40 V/V, CLOAD = 60-pF, small signal -3 dB | 1.75 | 3 | 4.2 | MHz | ||
tSR | Output slew rate | VSTEP = 1.6 V, ACSA = 5 V/V, CLOAD = 60-pF, low to high transition | 12 | V/µs | ||
VSTEP = 1.6 V, ACSA = 10 V/V, CLOAD = 60-pF, low to high transition | 13 | V/µs | ||||
VSTEP = 1.6 V, ACSA = 20 V/V, CLOAD = 60-pF, low to high transition | 11 | V/µs | ||||
VSTEP = 1.6 V, ACSA = 40 V/V, CLOAD = 60-pF, low to high transition | 11 | V/µs | ||||
VSWING | Output voltage range | VCSAREF = 3 | 0.25 | 2.75 | V | |
VSWING | Output voltage range | VCSAREF = 5.5 | 0.25 | 5.25 | V | |
VSWING | Output voltage range | VCSAREF = 3 to 5.5 V | 0.25 | VCSAREF - 0.25 | V | |
VCOM | Common-mode input range | -0.15 | 0.15 | V | ||
VDIFF | Differential-mode input range | -0.3 | 0.3 | V | ||
VOFF | Input offset voltage | VSP = VSN = GND; TJ = -40℃, CSA_VREF = 0 | -2.0 | 2.0 | mV | |
VOFF | Input offset voltage | VSP = VSN = GND; TJ = 25℃, CSA_VREF = 0 | -1.9 | 1.9 | mV | |
VOFF | Input offset voltage | VSP = VSN = GND; TJ = 175℃, CSA_VREF= 0 | -2.0 | 2.0 | mV | |
VOFF | Input offset voltage | VSP = VSN = GND | -2.0 | 2.0 | mV | |
VOFF_DRIFT | Input drift offset voltage | VSP = VSN = GND | 8 | µV/℃ | ||
VBIAS | Output voltage bias ratio | VSP = VSN = GND | 0.122 | 0.125 | 0.128 | V |
VBIAS_ACC | Output voltage bias ratio accuracy | VSP = VSN = GND | -1.2 | 1.2 | % | |
IBIAS | Input bias current | VSP = VSN = GND, VCSAREF = 3V to 5.5V | 100 | µA | ||
IBIAS_OFF | Input bias current offset | ISP – ISN | -1 | 1 | µA | |
ICSASRC | SO ouput sink current capability | 5 | 7 | 11 | mA | |
ICSASRC | SO ouput source current capability | 2 | 3.7 | 6.6 | mA | |
CMRR | Common-mode rejection ratio | DC | 80 | dB | ||
20 kHz | 65 | dB | ||||
PSRR | Power-supply rejection ratio (CSAREF) | CSAREF to SOx, DC, Differential | 80 | dB | ||
CSAREF to SOx, 20 kHz, Differential | 70 | dB | ||||
PSRR | Power-supply rejection ratio (CSAREF) | CSAREF to SOx, 20 kHz, Single Ended | 40 | dB | ||
ICSA_SUP | Supply current for CSA | VCSAREF = 3.V to 5.5V | 1.5 | 2.1 | mA | |
TCMREC | Common mode recovery time | 0.6 | 0.7 | us | ||
CLOAD | Maximum load capacitance | 10 | nF | |||
VOFF_OUT | Output offset error | ACSA = 5 V/V | -3 | 3 | mV | |
ACSA = 10 V/V | -4 | 4 | mV | |||
ACSA = 20 V/V | -5 | 5 | mV | |||
ACSA = 40 V/V | -6 | 6 | mV | |||
PROTECTION CIRCUITS | ||||||
VPVDD_UV | PVDD undervoltage lockout threshold | VPVDD rising | 4.3 | 4.4 | 4.5 | V |
VPVDD falling | 4 | 4.1 | 4.25 | |||
VPVDD_UV_HYS | PVDD undervoltagelockout hysteresis | Rising to falling threshold | 225 | 265 | 325 | mV |
tPVDD_UV_DG | PVDD undervoltage deglitch time | 10 | 20 | 30 | µs | |
VAVDD_POR | AVDD supply POR threshold | AVDD rising | 2.7 | 2.85 | 3.0 | V |
AVDD falling | 2.5 | 2.65 | 2.8 | |||
VAVDD_POR_HYS | AVDD POR hysteresis | Rising to falling threshold | 170 | 200 | 250 | mV |
tAVDD_POR_DG | AVDD POR deglitch time | 7 | 12 | 22 | µs | |
VGVDD_UV | GVDD undervoltage threshold | VGVDD rising | 7.3 | 7.5 | 7.8 | V |
VGVDD falling | 6.4 | 6.7 | 6.9 | V | ||
VGVDD_UV_HYS | GVDD undervoltage hysteresis | Rising to falling threshold | 800 | 900 | 1000 | mV |
tGVDD_UV_DG | GVDD undervoltage deglitch time | 5 | 10 | 15 | µs | |
VBST_UV | Bootstrap undervoltage threshold | VBSTx- VSHx; VBSTx rising | 3.9 | 4.45 | 5 | V |
VBSTx- VSHx; VBSTx falling | 3.7 | 4.2 | 4.8 | V | ||
VBST_UV_HYS | Bootstrap undervoltage hysteresis | Rising to falling threshold | 150 | 220 | 285 | mV |
tBST_UV_DG | Bootstrap undervoltage deglitch time | 2 | 4 | 6 | µs | |
VDS_LVL_RNG | VDS overcurrent protection threshold linear range | 0.1 | 2.5 | V | ||
VDS_DIS | VDS overcurrent protection disable resistor | VDSLVL pin to GVDD | 70 | 100 | 500 | kΩ |
VDS_LVL | VDS overcurrent protection threshold Reference | VDSLVL = 100 kΩ to GVDD | 3 | 4.2 | 5.5 | V |
VDSLVL = 0.1V | 0.065 | 0.1 | 0.145 | V | ||
VDSLVL pin = 2.5V | 2.2 | 2.5 | 2.8 | |||
VSENSE_LVL | VSENSE overcurrent protection threshold | LSS to GND pin = 0.5V | 0.48 | 0.5 | 0.52 | V |
tDS_BLK | VDS overcurrent protection blanking time | 0.5 | 1 | 2.7 | µs | |
tDS_DG | VDS and VSENSE overcurrent protection deglitch time | 1.5 | 3 | 5 | µs | |
tSD_SINK_DIG | DRVOFF peak sink current duration | 3 | 5 | 7 | µs | |
tSD_DIG | DRVOFF digital shutdown delay | 0.5 | 1.5 | 2.2 | µs | |
tSD | DRVOFF analog shutdown delay | 7 | 14 | 21 | µs | |
TOTSD | Thermal shutdown temperature | TJ rising; | 160 | 170 | 187 | °C |
THYS | Thermal shutdown hysteresis | 16 | 20 | 23 | °C |