SLUSF11C February 2023 – March 2024 UCC14341-Q1
PRODUCTION DATA
PARAMETER | TEST CONDITIONS | MIN | TYP | MAX | UNIT | |
---|---|---|---|---|---|---|
INPUT SUPPLY (Primary-side. All voltages with respect to GNDP) | ||||||
VVIN | Input voltage range UCC14341-Q1 | Primary-side input voltage to GNDP | 13.5 | 15 | 18 | V |
Input voltage range UCC14341B-Q1 | Primary-side input voltage to GNDP | 8.5 | 15 | 18 | V | |
IVINQ_OFF | VIN quiescent current, disabled | VENA=0 V; VVIN=13.5 V-16.5 V | 600 | µA | ||
IVIN_ON_NO_LOAD | VIN operating current, enabled, No Load | VENA=5 V; VVIN=13.5 V-16.5 V; (VDD-VEE) =25-V regulating; IVDD-VEE = 0 mA. Single Output. | 35 | mA | ||
IVIN_ON_FULL_LOAD | VIN operating current, enabled, Full Load | VENA=5 V; VVIN=13.5 V-16.5 V; (VDD-VEE) = 25-V regulating; IVDD-VEE = 60 mA. Single Output. | 190 | mA | ||
UVLOP COMPARATOR (Primary-side. All voltages with respect to GNDP) | ||||||
VVIN_UVLOP_RISE_341B | VIN analog undervoltage lockout rising threshold. UVLOP to start switching for UCC14341B-Q1. | Analog Comparator Always Active First | 7.8 | 8.2 | 8.5 | V |
VVIN_UVLOP_FALL_341B | VIN analog undervoltage lockout falling threshold. UVLOP to start switching for UCC14341B-Q1 . Also Reset Fault threshold for UCC14341-Q1 and UCC14341B-Q1. | Analog Comparator Always Active First | 7 | 7.4 | 7.7 | V |
VVIN_UVLOP_RISE_341 | VIN undervoltage lockout rising threshold. UVLOP to start switching for UCC14341-Q1. | 11.4 | 12 | 12.6 | V | |
VVIN_UVLOP_FALL_341 | VIN undervoltage lockout falling threshold. UVLOP to start switching for UCC14341-Q1. | 9.975 | 10.5 | 11 | V | |
OVLO COMPARATOR (Primary-side. All voltages with respect to GNDP) | ||||||
VVIN_OVLO_RISING | VIN overvoltage lockout rising threshold | 20.9 | 22 | 23.1 | V | |
VVIN_OVLO_FALLING | VIN overvoltage lockout falling threshold | 19 | 20 | 21 | V | |
TSHUTP THERMAL SHUTDOWN COMPARATOR (Primary-side. All voltages with respect to GNDP) | ||||||
TSHUTPPRIMARY_RISING | Primary-side over-temperature shutdown rising threshold | First time at power-up TJ needs to be < 140 °C to turnon | 150 | 160 | 170 | °C |
TSHUTPPRIMARY_HYST | Primary-side over-temperature shutdown hysteresis | 15 | 20 | 25 | °C | |
ENA INPUT PIN (Primary-side. All voltages with respect to GNDP) | ||||||
VEN_IR | Input voltage rising threshold, logic HIGH | Rising edge | 1.25 | 1.95 | V | |
VEN_IF | Input voltage falling threshold, logic LOW | Falling edge | 0.84 | 1.56 | V | |
IEN | Enable Pin Input Current | VENA = 5.0 V | 5 | 10 | µA | |
PG OPEN-DRAIN OUTPUT PIN (Primary-side. All voltages with respect to GNDP) | ||||||
VPG_OUT_LO | PG output-low saturation voltage | Sink Current = 5 mA, power good | 0.5 | V | ||
IPG_OUT_HI | PG Leakage current | VPG = 5.5 V, power not good | 5 | µA | ||
Primary-side Control (All voltages with respect to GNDP) | ||||||
FSW | Switching frequency | VVIN = 15 V; VENA = 5 V; (VDD-VEE) = 25 V | 15 | MHz | ||
FSSM | Frequency of Spread Spectrum Modulation (SSM) triangle waveform | Only during primary-side startup starting after VIN > UVLOP, and ENA = HIGH; FSS_BURST_P = 125 kHz | 90 | kHz | ||
SSM Percentage change of FCARRIER | SSM Percent change of carrier frequency during Spread Spectrum Modulation (SSM) by triangle waveform | Only during primary-side startup starting after VIN > UVLOP, and ENA = HIGH; FSS_BURST_P = 125 kHz | 5 | % | ||
tSOFT_START_TIME_OUT | Primary-side soft-start time-out | Timer begins when VIN > UVLOP and ENA = High and reset when Powergood pin indicates Good | 28.4 | ms | ||
(VDD-VEE) OUTPUT VOLTAGE (Secondary-side. All voltages with respect to VEE) | ||||||
VVDD_RANGE | (VDD – VEE) Output voltage range | 15 | 25 | V | ||
VVDD_DC_ACCURACY | (VDD – VEE) Output voltage DC regulation accuracy | Secondary-side (VDD – VEE) output voltage, over load, line and temperature range, externally adjust with external resistor divider |
-1.3 | 1.3 | % | |
(VDD-VEE) REGULATION HYSTERETIC COMPARATOR (Secondary-side. All voltages with respect to VEE) | ||||||
VFBVDD_REF | Feedback regulation reference voltage for (VDD – VEE) | (VDD – VEE) output in regulation | 2.4675 | 2.5 | 2.5325 | V |
VFBVDD_HYSTCMP_HYST | VISO1 Hysteresis comparator hysteresis settings. Hysteresis at the VFB pin. [ex: VISO1 would be 10x since If external resistor divider gain = 1/10 V/V; then VISO1=25V when VFB=2.5V]; See Notes |
Hysteresis Setting 1 | 9 | 10 | 12.3 | mV |
(COM-VEE) OUTPUT VOLTAGE (Secondary-side. All voltages with respect to VEE) | ||||||
VVEE_RANGE | (COM – VEE) Output voltage range | Secondary-side (COM – VEE), adjust with external resistor divider | 2.5 | (VDD-VEE) | V | |
VVEE_DC_ACURACY | (COM - VEE) Output voltage DC regulation accuracy |
Secondary-side (COM – VEE) output voltage, over load, line and temperature range, externally adjust with external resistor divider |
–1.3 | 1.3 | % | |
(COM-VEE) REGULATION HYSTERETIC COMPARATOR (Secondary-side. All voltages with respect to VEE) | ||||||
VFBVEE_REF | Feedback regulation reference voltage for (COM – VEE) | (COM – VEE) output in regulation | 2.4675 | 2.5 | 2.5325 | V |
VRLIM_SHORT_CHRG_CMP_RISE | Rlim Short Charge comparator rising threshold to exit PWM | Rising threshold | 0.73 | V | ||
tRLIM_SHORT_CHRG_ON_TIME | On-Time during RLIM pin Short Charge PWM mode | RLIM pin < 0.645 V, while FBVEE pin < 2.48 V | 1.2 | us | ||
tRLIM_SHORT_CHRG_OFF_TIME | Off-Time during RLIM pin Short Charge PWM mode | RLIM pin < 0.645 V, while FBVEE pin < 2.48 V | 5 | us | ||
(VDD-VEE) UVLOs COMPARATOR (Secondary-side. All voltages with respect to VEE) | ||||||
VVDD_UVLOS_RISING | (VDD – VEE) undervoltage lockout rising threshold | Voltage at FBVDD | 0.9 | V | ||
VVDD_UVLOS_HYST | (VDD – VEE) undervoltage lockout hysteresis | Voltage at FBVDD | 0.2 | V | ||
(VDD-VEE) OVLOs COMPARATOR (Secondary-side. All voltages with respect to VEE) | ||||||
VVDD_OVLOS_RISING | (VDD – VEE) over-voltage lockout rising threshold | Voltage from VDD to VEE, rising | 29.45 | 31 | 32.55 | V |
VVDD_OVLOS_FALLING | (VDD – VEE) over-voltage lockout falling threshold | Voltage from VDD to VEE, falling | 27.55 | 29 | 30.45 | V |
SOFT-START (Secondary-side. All voltages with respect to VEE) | ||||||
tdeglitch | Blank out time after soft start before PG for (VDD-VEE) UVP and (COM-VEE) UVP & OVP | 3 | ms | |||
(VDD-VEE) UVP, UNDER -VOLTAGE PROTECTION COMPARATOR (Secondary-side. All voltages with respect to VEE) | ||||||
VVDD_UVP_RISING | (VDD – VEE) under-voltage protection rising threshold, VUVP = VREF × 90% | 2.175 | 2.25 | 2.35 | V | |
VVDD_UVP_HYST | (VDD – VEE) under-voltage protection hysteresis | 20 | mV | |||
(VDD-VEE) OVP, OVER-VOLTAGE PROTECTION COMPARATOR (Secondary-side. All voltages with respect to VEE) | ||||||
VVDD_OVP_RISING | (VDD – VEE) over-voltage lockout rising threshold, VOVP = VREF ×110% | 2.7 | 2.75 | 2.825 | V | |
VVDD_OVP_HYST | (VDD – VEE) over-voltage protection hysteresis | 20 | mV | |||
(COM-VEE) UVP, UNDER -VOLTAGE PROTECTION COMPARATOR (Secondary-side. All voltages with respect to VEE) | ||||||
VVEE_UVP_RISING | (COM – VEE) under-voltage protection rising threshold, VUVP = VREF × 90% | 2.1 | 2.25 | 2.4 | V | |
VVEE_UVP_HYST | (COM – VEE) under-voltage protection hysteresis | 20 | mV | |||
(COM-VEE) OVP, OVER-VOLTAGE PROTECTION COMPARATOR (Secondary-side. All voltages with respect to VEE) | ||||||
VVEE_OVP_RISING | (COM – VEE) over-voltage protection rising threshold, VOVP = VREF × 110% | 2.7 | 2.75 | 2.825 | V | |
VVEE_OVP_HYST | (COM – VEE) over-voltage protection hysteresis | 20 | mV | |||
TSHUTS THERMAL SHUTDOWN COMPARATOR (Secondary-side. All voltages with respect to VEE) | ||||||
TSHUTSSECONDARY_RISE | Secondary -side over-temperature shutdown rising threshold | First time at power-up Tj needs to be < 140oC to turnon. | 150 | 160 | 170 | °C |
TSHUTSSECONDARY_HYST | Secondary-side over-temperature shutdown hysteresis | 15 | 20 | 25 | °C | |
CMTI (Common Mode Transient Immunity) | ||||||
CMTI | Common Mode Transient Immunity | Positive VEE with respect to GNDP | 150 | V/ns | ||
Negative VEE with respect to GNDP | -150 | V/ns | ||||
INTEGRATED MAGLAM TRANSFORMER (Primary-side to Secondary-side. Note: these values unique for each version of XFMR) | ||||||
N | Transformer effective turns ratio | Secondary side to primary side | 2.02 | - |