SLVSCG4C January 2016 – August 2020 TPD3S714-Q1
PRODUCTION DATA
PARAMETER | TEST CONDITIONS | MIN | TYP | MAX | UNIT | ||
---|---|---|---|---|---|---|---|
SUPPLY CURRENT CONSUMPTION | |||||||
IVBUS_SLEEP | VBUS sleep current consumption | Measured at VBUS_SYS pin, EN = 5 V | 45 | 150 | µA | ||
IVBUS | VBUS operating current consumption | Measured at VBUS_SYS pin | 285 | 380 | µA | ||
IVIN | Leakage current for VIN | Measured at VIN pin, VIN = 3.6 V | 12 | 25 | µA | ||
ION(LEAK) | Leakage through VBUS while shorted to battery and powered on | Measured flowing in to VBUS_SYS pin, VBUS_SYS = 5 V, VBUS_CON = 18 V | 120 | µA | |||
IOFF(LEAK) | Leakage through VBUS while shorted to battery and unpowered | Measured flowing out of VBUS_SYS pin, VBUS_SYS = 0 V, VBUS_CON = 18 V | 50 | µA | |||
IVD(OFF_LEAK) | Leakage into data path while shorted to battery and unpowered | Measured flowing in to VD+ or VD– pins, VBUS_SYS = 0 V, VD+ or VD– = 18 V, VIN = 0 V, D+/D– = 0 V | 80 | µA | |||
IVD(ON_LEAK) | Leakage into data path while shorted to battery and powered on | Measured flowing in to VD+ or VD– pins, VBUS_SYS = 5 V, VD+ or VD– = 18 V, D+/D– = 0 V | 80 | µA | |||
VIN PIN | |||||||
VUVLO(RISING) | Undervoltage lockout rising for VIN | VIN | Ramp VIN down until FLT is deasserted, EN = 5 V | 2.6 | 2.7 | 2.9 | V |
VUVLO(FALLING) | Undervoltage lockout falling for VIN | Ramp VIN until FLT is asserted, EN = 5 V | 2.5 | 2.6 | 2.8 | ||
EN, FLT PINS | |||||||
VIH | High-level input voltage | EN | Set EN = 0 V; Sweep EN to 1.4 V; Measure when FLT is asserted | 1.2 | V | ||
VIL | Low-level input voltage | EN | Set EN = 3.3 V; Sweep EN from 3.3 V to 0.5 V; Measure when FLT is deasserted | 0.8 | V | ||
IIL | Input leakage current | EN | V(EN) = 3.3 V ; Measure Current into EN pin | 1 | µA | ||
VOL | Low-level output voltage | FLT | IOL = 3 mA | 0.4 | V | ||
OCP CIRCUIT—VBUS | |||||||
ILIM | Overcurrent limit | VBUS | Progressively load VBUS_CON until device asserts FLT | 550 | 700 | 850 | mA |
OVERTEMPERATURE PROTECTION | |||||||
TSD(RISING) | The rising overtemperature protection shutdown threshold | VBUS_SYS = 5 V, EN = 0 V, No Load on VBUS_CON, TA stepped up until FLT is asserted | 150 | 165 | 180 | ℃ | |
TSD(FALLING) | The falling overtemperature protection shutdown threshold | VBUS_SYS = 5 V, EN = 0 V, No Load on VBUS_CON, TA stepped down from TSD(RISING) until FLT is deasserted | 125 | 130 | 140 | ℃ | |
TSD(HYST) | The overtemperature protection shutdown threshold hysteresis | TSD(RISING) – TSD(FALLING) | 10 | 35 | 55 | ℃ | |
OVP CIRCUIT—VBUS | |||||||
VOVP(RISING) | Input overvoltage protection threshold | VBUS_CON | Increase VBUS_CON from 5 V to 7 V. Measure when FLT is asserted | 5.4 | 5.6 | 5.8 | V |
VHYS(OVP) | Hysteresis on OVP | VBUS_CON | Difference between rising and falling OVP thresholds on VBUS_CON | 50 | mV | ||
TOVP(FALLING) | Input overvoltage protection threshold | VBUS_CON | Decrease VBUS_CON from 7 V to 5 V. Measure when FLT is deasserted | 5.36 | 5.74 | V | |
VUVLO(SYS_RISING) | Undervoltage lockout rising for VBUS_SYS | VBUS_SYS | VBUS_SYS voltage rising from 0 V to 5 V | 3.1 | 3.3 | 3.6 | V |
VHYS(UVLO_SYS) | VBUS_SYS UVLO hysteresis | VBUS_SYS | Difference between rising and falling UVLO thresholds on VBUS_SYS | 50 | 75 | 100 | mV |
VUVLO(SYS_FALLING) | Undervoltage lockout falling for VBUS_SYS | VBUS_SYS | VBUS_SYS voltage falling from 7 V to 3 V | 3 | 3.2 | 3.5 | V |
VSHRT(RISING) | Short-to-ground comparator rising threshold | VBUS_CON | Increase VBUS_CON voltage from 0 V until the device transitions from the short-circuit to over-current mode of operation | 2.5 | 2.6 | 2.7 | V |
VSHRT(FALLING) | Short-to-ground comparator falling threshold | VBUS_CON | Set VBUS_SYS = 5 V; VIN = 3.3 V; EN = 0 V; Decrease VBUS_CON voltage from 5 V until the device transitions from the overcurrent to short-circuit mode of operation | 2.4 | 2.5 | 2.6 | V |
VSHRT(HYST) | Short-to-ground comparator hysteresis | VBUS_CON | Difference between VSHRT(RISING) and VSHRT(FALLING) | 100 | 125 | 150 | mV |
ISHRT | Short-to-ground current source | VBUS_CON | Current sourced from VBUS_SYS when device is in short-circuit mode | 150 | 350 | mA | |
OVP CIRCUIT—VD+/VD– | |||||||
VOVP(RISING) | Input overvoltage protection threshold | VD+/VD– | Increase VD+ or VD– (with D+ and D–) from 3.3 V to 4.5 V. Measure the value at which FLT is asserted | VIN + 0.6 | VIN + 0.8 | VIN + 1 | V |
VHYS(OVP) | Hysteresis on OVP | VD+/VD– | Difference between rising and falling OVP thresholds on VD+/VD– | 50 | mV | ||
VOVP(FALLING) | Input overvoltage protection threshold | VD+/VD– | Decrease VD+ or VD– (with D+ or D–) from 4.5 V to 2 V. Measure the value at FLT is deasserted | VIN + 0.525 | VIN + 0.75 | VIN + 0.975 | V |
SHORT-TO-BATTERY | |||||||
V(VBUS_STB) | VBUS hotplug short-to-battery tolerance | VBUS_CON | Charge battery-equivalent capacitor to test voltage then discharge to pin under test through a 1-meter, 18-gauge wire. (See Figure 7-1 for more details) | 18 | V | ||
V(DATA_STB) | Data line hotplug short-to-battery tolerance | VD+/VD– | 18 | V | |||
DATA LINE SWITCHES—VD+ to D+ or VD–to D– | |||||||
CON | Equivalent on capacitance | Capacitance of D+/D– switches when enabled - measure on connector side across bias voltage 0 V to 0.4 V | 6.2 | pF | |||
RON | On resistance | Measure resistance between D+ and VD+ or D– and VD–, voltage between 0 and 0.4 V | 4 | 6.5 | Ω | ||
RON(Flat) | On resistance flatness | Measure resistance between D+ and VD+ or D– and VD–, sweep voltage between 0 V and 0.4 V | 0.2 | 1 | Ω | ||
BWON | On bandwidth (–3 dB) | Measure S21 bandwidth from D+ to VD+ or D– to VD– with voltage swing = 400 mVpp, VCM= 0.2 V | 860 | MHz | |||
BWON_DIFF | On bandwidth (–3 dB) | Measure SDD21 bandwidth from D+ to VD+ and D– to VD– with voltage swing = 800 mVpp differential, VCM = 0.2 V | 1050 | MHz | |||
Xtalk | Crosstalk | Measure S21 bandwidth from D+ to VD– or D– to VD+ with voltage swing = 400 mVpp. Be sure to terminate open sides to 50 ohms. f = 480 MHz | –34 | dB | |||
nFET SWITCH—VBus | |||||||
R(DISCHARGE) | Output discharge resistance | EN = 5 V, Set VBUS_CON = 5 V and measure current flow to ground | 12500 | Ω | |||
RON | Switch ON resistance | VBUS_CON = 5 V, IOUT = 0.5 A | 63 | 150 | mΩ |