MAX1838(2001) 查看數據表(PDF) - Maxim Integrated
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MAX1838 Datasheet PDF : 12 Pages
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Dual USB Switch with Fault Blanking
and Autoreset
between IN and AUX. However, a fault does not trigger
since the fault blanking-time is longer than the supply
switchover time.
Applications Information
Input Power Source
AUX provides the power for the MAX1838 internal con-
trol circuitry. Limit the input-voltage slew rate to less
than 0.2V/µs to prevent erroneous FAULT indications.
Input Capacitor
To limit the input voltage drop during momentary output
short-circuit conditions, connect a capacitor from both
AUX and IN to ground. A 0.1µF ceramic capacitor is
required for local decoupling; however, higher capaci-
tor values will further reduce the voltage drop at the
input (Figure 2). When driving inductive loads, a larger
capacitance prevents voltage spikes from exceeding
the MAX1838’s absolute maximum ratings.
Output Capacitor
An output capacitor helps prevent parasitic inductance
from pulling OUT negative during turn-off. When start-
ing up into very large capacitive loads, the switch puls-
es the output current at 0.35ARMS until the output
voltage rises above 1V, then the capacitor continues to
charge at the full 0.9A current limit. There is no limit to
the size of output capacitor, but to prevent a startup
fault assertion, the capacitor must charge up within the
fault-blanking delay period. Typically starting up into a
330µF or smaller capacitor does not trigger a fault out-
put. In addition to bulk capacitance, small value (0.1µF
or greater) ceramic capacitors improve the output’s
resilience to electrostatic discharge (ESD).
Driving Inductive Loads
A wide variety of devices (mice, keyboards, cameras,
and printers) can load the USB port. These devices
commonly connect to the port with cables, which can
add an inductive component to the load. This induc-
tance causes the output voltage at the USB port to ring
Table 2. MAX1838 Current Limiting and Fault Behavior
CONDITION
If a short circuit is present
(VOUT < 1V)
MAX1838 BEHAVIOR
• If a short circuit is detected at the output, the channel turns off, the blanking timer
begins, and FAULT stays high.
• If the short circuit persists during the fault-blanking period, the output pulses at 0.35A-
RMS. When the short is removed before the 15ms short-circuit blanking timeout period,
the next ramped current pulse soft-starts the output. The FAULT flag stays high.
• If the short circuit persists after the fault-blanking period, FAULT goes low, autoreset
mode is enabled, and the output sources 25mA. If the voltage on that output is above
0.5V for 20ms, the channel resets, the output turns on, and FAULT goes high (see
Short-Circuit Response in the Typical Operating Characteristics.)
If an overload current is present
(VOUT > 1V)
If thermal fault condition is present
• Output current regulates at ILIM, the blanking timer turns on, and FAULT stays high.
• Continuous current at ILIM persists until the overload is removed, a thermal fault occurs,
or the 20ms continuous current-limit timeout period is reached.
• If overcurrent is still present at 20ms, FAULT goes low, autoreset mode is enabled, and
the output sources 25mA. If the voltage on that output is above 0.5V for 20ms, the
channel resets, the output turns on, and FAULT goes high.
• FAULT immediately goes low (the blanking timer does not apply to thermal faults), and
the channel turns off. When the junction cools by 15oC, the thermal fault condition is
removed, autoreset mode is enabled, the output sources 25mA, and FAULT remains
low. If the voltage on that output is above 0.5V for 20ms, the channel resets, the output
turns on, and FAULT goes high.
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