參數(shù)資料
型號(hào): LM3544MX-H/NOPB
廠商: NATIONAL SEMICONDUCTOR CORP
元件分類: 電源管理
英文描述: 2-CHANNEL POWER SUPPLY SUPPORT CKT, PDSO16
封裝: SOIC-16
文件頁(yè)數(shù): 13/13頁(yè)
文件大?。?/td> 785K
代理商: LM3544MX-H/NOPB
Functional Description (Continued)
In Figure 3, port 1 is enabled into a short. When this occurs,
the MOSFET switch of port 1 repeatedly opens and closes
as the device temperature rises and falls between 145C and
135C. In this example, the device temperature never rises
above 160C. The second stage thermal shutdown is not
used and port 2 remains operational.
When port 1 is enabled into a short in the example illustrated
in Figure 4, the device temperature immediately rises above
160C. A higher ambient temperature or a larger number of
shorted outputs can cause the junction temperature to in-
crease, resulting in the difference in behavior between the
current example and the previous one. When the junction
temperature reaches 160C, all four ports are disabled (ports
3 and 4 are not shown in the figure) and all four fault-flag
signals are asserted. Just prior to time index 2.5 ms, the
device temperature falls below 135C, all four ports activate,
and all four fault flags are removed. The short condition
remains on port 1, however. For the remainder of the ex-
ample, the device temperature cycles between 135C and
145C, causing port 1 to repeatedly turn on and off but
allowing the un-shorted ports to function normally.
SOFT START
When a power switch is enabled, high levels of current will
flow instantaneously through the LM3544 to charge the large
capacitance at the output of the port. This is likely to exceed
the over-current threshold of the device, at which point the
LM3544 will enter its current-limit mode. The amount of
current used to charge the output capacitor is then set by the
current-limit circuitry. The device will exit the current-limit
mode when the current needed to continue to charge the
output capacitor is less than the LM3544 current-limit level.
FAULT FLAG
The fault flags are open-drain outputs, each capable of
sinking up to a 10 mA load current to typically 100 mV above
ground.
A parasitic diode exists between the flag pins and V
IN pins.
Pulling the flag pins to voltages higher than V
IN will forward
bias this diode and will cause an increase in supply current.
This diode will also clamp the voltage on the flag pins to a
diode drop above V
IN.
The fault flag is active (pulled low) when any of the following
conditions are present: under-voltage, current-limit, or
thermal-shutdown.
The LM3544 has an internal delay in reporting fault condi-
tions that is typically 7 ms in length. In start-up, the delay
gives the device time to charge the output capacitor(s) and
exit the current-limit mode before a flag signal is set. This
delay also prevents flag signal glitches from occurring when
brief changes in operating conditions momentarily place the
LM3544 into one of its three error conditions. If an error
condition still exists after the delay interval has elapsed, the
appropriate fault flag(s) will be asserted (pulled low) until the
error condition is removed. In most applications, the 7 ms
internal flag delay eliminates the need to extend the delay
with an external RC delay network.
Application Information
OUTPUT FILTERING
The schematic in Figure 1 showed a typical application
circuit for the LM3544. The USB specification requires 120
F at the output of each hub. A four-port hub with 33 F
tantalum capacitors at each port output meets the specifica-
tion. These capacitors provide short-term transient current to
drive downstream devices when hot-plug events occur. Ca-
pacitors with low equivalent-series-resistance should be
used to lower the inrush current flow through the LM3544
during a hot-plug event.
The rapid change in currents seen during a hot plug event
can generate electromagnetic interference (EMI). To reduce
this effect, ferrite beads in series between the outputs of the
LM3544 and the downstream USB port are recommended.
Beads should also be placed between the ground node of
the LM3544 and the ground nodes of connected down-
stream ports. In order to keep voltage drop across the beads
to a minimum, wire with small DC resistance should be used
through the ferrite beads. A 0.01 F - 0.1 F ceramic capaci-
tor is recommended on each downstream port directly be-
tween the V
bus and ground pins to further reduce EMI ef-
fects.
POWER SUPPLY FILTERING
A sizable capacitor should be connected to the input of the
LM3544 to ensure the voltage drop on this node is less than
330 mV during a heavy-load hot-plug event. A 33 F, 16V
10120825
FIGURE 3. Thermal Shutdown Characteristics when
only the First-Stage Thermal-Shutdown Mode is
Needed
10120826
FIGURE 4. Thermal Shutdown Characteristics when
Both First-Stage and Second-Stage Thermal-Shutdown
Modes are Needed
LM3544
www.national.com
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