ZHCSGB0B November 2017 – November 2020 LM5145
PRODUCTION DATA
PARAMETER | TEST CONDITIONS | MIN | TYP | MAX | UNIT | ||
---|---|---|---|---|---|---|---|
INPUT SUPPLY | |||||||
VIN | Operating input voltage range | 6 | 75 | V | |||
IQ-RUN | Operating input current, not switching | VEN/UVLO = 1.5 V, VSS/TRK = 0 V | 1.8 | 2.1 | mA | ||
IQ-STBY | Standby input current | VEN/UVLO = 1 V | 1.75 | 2 | mA | ||
IQ-SDN | Shutdown input current | VEN/UVLO = 0 V, VVCC < 1 V | 13.5 | 16 | µA | ||
VCC REGULATOR | |||||||
VVCC | VCC regulation voltage | VSS/TRK = 0 V, 9 V
≤ VVIN ≤ 75 V, 0 mA < IVCC ≤ 20 mA |
7.3 | 7.5 | 7.7 | V | |
VVCC-LDO | VIN to VCC dropout voltage | VVIN = 6 V, VSS/TRK = 0 V, IVCC = 20 mA | 0.25 | 0.63 | V | ||
ISC-LDO | VCC short-circuit current | VSS/TRK = 0 V, VVCC = 0 V | 40 | 50 | 70 | mA | |
VVCC-UV | VCC undervoltage threshold | VVCC rising | 4.8 | 4.93 | 5.2 | V | |
VVCC-UVH | VCC undervoltage hysteresis | Rising threshold – falling threshold | 0.26 | V | |||
VVCC-EXT | Minimum external bias supply voltage | Voltage required to disable VCC regulator | 8 | V | |||
IVCC | External VCC input current, not switching | VSS/TRK = 0 V, VVCC = 13 V | 2.1 | mA | |||
ENABLE AND INPUT UVLO | |||||||
VSDN | Shutdown to standby threshold | VEN/UVLO rising | 0.42 | V | |||
VSDN-HYS | Shutdown threshold hysteresis | EN/UVLO rising – falling threshold | 50 | mV | |||
VEN | Standby to operating threshold | VEN/UVLO rising | 1.164 | 1.2 | 1.236 | V | |
IEN-HYS | Standby to operating hysteresis | VEN/UVLO = 1.5 V | 9 | 10 | 11 | µA | |
ERROR AMPLIFIER | |||||||
VREF | FB reference voltage | FB connected to COMP | 792 | 800 | 808 | mV | |
IFB-BIAS | FB input bias current | VFB = 0.8 V | –0.1 | 0.1 | µA | ||
VCOMP-OH | COMP output high voltage | VFB = 0 V, COMP sourcing 1 mA | 5 | V | |||
VCOMP-OL | COMP output low voltage | COMP sinking 1 mA | 0.3 | V | |||
AVOL | DC gain | 94 | dB | ||||
GBW | Unity gain bandwidth | 6.5 | MHz | ||||
SOFT-START AND VOLTAGE TRACKING | |||||||
ISS | SS/TRK capacitor charging current | VSS/TRK = 0 V | 8.5 | 10 | 12 | µA | |
RSS | SS/TRK discharge FET resistance | VEN/UVLO = 1 V, VSS/TRK = 0.1 V | 11 | Ω | |||
VSS-FB | SS/TRK to FB offset | –15 | 15 | mV | |||
VSS-CLAMP | SS/TRK clamp voltage | VSS/TRK – VFB, VFB = 0.8 V | 115 | mV | |||
POWER GOOD INDICATOR | |||||||
PGUTH | FB upper threshold for PGOOD high to low | % of VREF, VFB rising | 106% | 108% | 110% | ||
PGLTH | FB lower threshold for PGOOD high to low | % of VREF, VFB falling | 90% | 92% | 94% | ||
PGHYS_U | PGOOD upper threshold hysteresis | % of VREF | 3% | ||||
PGHYS_L | PGOOD lower threshold hysteresis | % of VREF | 2% | ||||
TPG-RISE | PGOOD rising filter | FB to PGOOD rising edge | 25 | µs | |||
TPG-FALL | PGOOD falling filter | FB to PGOOD falling edge | 25 | µs | |||
VPG-OL | PGOOD low state output voltage | VFB = 0.9 V, IPGOOD = 2 mA | 150 | mV | |||
IPG-OH | PGOOD high state leakage current | VFB = 0.8 V, VPGOOD = 13 V | 100 | nA | |||
OSCILLATOR | |||||||
FSW1 | Oscillator Frequency – 1 | RRT = 100 kΩ | 100 | kHz | |||
FSW2 | Oscillator Frequency – 2 | RRT = 25 kΩ | 380 | 400 | 420 | kHz | |
FSW3 | Oscillator Frequency – 3 | RRT = 12.5 kΩ | 780 | kHz | |||
SYNCHRONIZATION INPUT AND OUTPUT | |||||||
FSYNC | SYNCIN external clock frequency range | % of nominal frequency set by RRT | –20% | +50% | |||
VSYNC-IH | Minimum SYNCIN input logic high | 2 | V | ||||
VSYNC-IL | Maximum SYNCIN input logic low | 0.8 | V | ||||
RSYNCIN | SYNCIN input resistance | VSYNCIN = 3 V | 20 | kΩ | |||
tSYNCI-PW | SYNCIN input minimum pulsewidth | Minimum high state or low state duration | 50 | ns | |||
VSYNCO-OH | SYNCOUT high state output voltage | ISYNCOUT = –1 mA (sourcing) | 3 | V | |||
VSYNCO-OL | SYNCOUT low state output voltage | ISYNCOUT = 1 mA (sinking) | 0.4 | V | |||
tSYNCOUT | Delay from HO rising to SYNCOUT leading edge | VSYNCIN = 0 V, TS = 1/FSW, FSW set by RRT |
TS/2 – 140 | ns | |||
tSYNCIN | Delay from SYNCIN leading edge to HO rising | 50% to 50% | 150 | ns | |||
BOOTSTRAP DIODE AND UNDERVOLTAGE THRESHOLD | |||||||
VBST-FWD | Diode forward voltage, VCC to BST | VCC to BST, BST pin sourcing 20 mA | 0.75 | 0.9 | V | ||
IQ-BST | BST to SW quiescent current, not switching | VSS/TRK = 0 V, VSW = 48 V, VBST = 54 V | 80 | µA | |||
VBST-UV | BST to SW undervoltage detection | VBST – VSW falling | 3.4 | V | |||
VBST-HYS | BST to SW undervoltage hysteresis | VBST – VSW rising | 0.42 | V | |||
PWM CONTROL | |||||||
tON(MIN) | Minimum controllable on-time | VBST – VSW = 7 V, HO 50% to 50% | 40 | 60 | ns | ||
tOFF(MIN) | Minimum off-time | VBST – VSW = 7 V, HO 50% to 50% | 140 | 200 | ns | ||
DC100kHz | Maximum duty cycle | FSW = 100 kHz, 6 V ≤ VVIN ≤ 60 V | 98% | 99% | |||
DC400kHz | FSW = 400 kHz, 6 V ≤ VVIN ≤ 60 V | 90% | 94% | ||||
VRAMP(min) | Ramp valley voltage (COMP at 0% duty cycle) | 300 | mV | ||||
kFF | PWM feedforward gain (VIN / VRAMP) | 6 V ≤ VVIN ≤ 75 V | 15 | V/V | |||
OVERCURRENT PROTECT (OCP) – VALLEY CURRENT LIMITING | |||||||
IRS | ILIM source current, RSENSE mode | Low voltage detected at ILIM | 90 | 100 | 110 | µA | |
IRDSON | ILIM source current, RDS(on) mode | SW voltage detected at ILIM, TJ = 25°C | 180 | 200 | 220 | µA | |
IRDSONTC | ILIM current tempco | RDS-ON mode | 4500 | ppm/°C | |||
IRSTC | ILIM current tempco | RSENSE mode | 0 | ppm/°C | |||
VILIM-TH | ILIM comparator threshold at ILIM | –8 | –2 | 3.5 | mV | ||
SHORT-CIRCUIT PROTECT (SCP) – DUTY CYCLE CLAMP | |||||||
VCLAMP-OS | Clamp offset voltage – no current limiting | CLAMP to COMP steady state offset voltage | 0.2 + VVIN/75 | V | |||
VCLAMP-MIN | Minimum clamp voltage | CLAMP voltage with continuous current limiting | 0.3 + VVIN/150 | V | |||
HICCUP MODE FAULT PROTECTION | |||||||
CHICC-DEL | Hiccup mode activation delay | Clock cycles with current limiting before hiccup off-time activated | 128 | cycles | |||
CHICCUP | Hiccup mode off-time after activation | Clock cycles with no switching followed by SS/TRK release | 8192 | cycles | |||
DIODE EMULATION | |||||||
VZCD-SS | Zero-cross detect (ZCD) soft-start ramp | ZCD threshold measured at SW pin 50 clock cycles after first HO pulse |
0 | mV | |||
VZCD-DIS | Zero-cross detect disable threshold (CCM) | ZCD threshold
measured at SW pin 1000 clock cycles after first HO pulse |
200 | mV | |||
VDEM-TH | Diode emulation zero-cross threshold | Measured at SW with VSW rising | –5 | 0 | 5 | mV | |
GATE DRIVERS | |||||||
RHO-UP | HO high-state resistance, HO to BST | VBST – VSW = 7 V, IHO = –100 mA | 1.5 | Ω | |||
RHO-DOWN | HO low-state resistance, HO to SW | VBST – VSW = 7 V, IHO = 100 mA | 0.9 | Ω | |||
RLO-UP | LO high-state resistance, LO to VCC | VBST – VSW = 7 V, ILO = –100 mA | 1.5 | Ω | |||
RLO-DOWN | LO low-state resistance, LO to PGND | VBST – VSW = 7 V, ILO = 100 mA | 0.9 | Ω | |||
IHOH, ILOH | HO, LO source current | VBST – VSW = 7 V, HO = SW, LO = AGND | 2.3 | A | |||
IHOL, ILOL | HO, LO sink current | VBST – VSW = 7 V, HO = BST, LO = VCC | 3.5 | A | |||
THERMAL SHUTDOWN | |||||||
TSD | Thermal shutdown threshold | TJ rising | 175 | °C | |||
TSD-HYS | Thermal shutdown hysteresis | 20 | °C |