SC403BEVB 查看數據表(PDF) - Semtech Corporation
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SC403BEVB Datasheet PDF : 32 Pages
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SC403B
Applications Information (continued)
Figure 10 shows the ENL voltage thresholds and their
effect on LDO and switcher operation.
ENL voltage
LDO on
Switcher on if EN = high
2.6V
2.4V
ENL low
threshold
(min 0.4V)
AGND
VIN UVLO hysteresis
LDO on
Switcher off by VIN UVLO
LDO off
Switcher on if EN = high
Figure 10 — ENL Threshold
Before start-up, the LDO checks the status of the following
signals to ensure proper operation can be maintained.
1. ENL pin
2. VIN input voltage
When the ENL pin is high and VIN is above the UVLO point,
the LDO will begin start-up. During the initial phase, when
the VDD voltage (which is the LDO output voltage) is less
than 0.75V, the LDO initiates a current-limited start-up
(typically 65mA) to charge the output capacitors while
protecting from a short circuit event. When VDD is greater
than 0.75V but still less than 90% of its final value (as
sensed at the FBL pin), the LDO current limit is increased
to ~115mA. When VDD has reached 90% of the final value
(as sensed at the FBL pin), the LDO current limit is increased
to ~200mA and the LDO output is quickly driven to the
nominal value by the internal LDO regulator. It is recom-
mended that during LDO start-up to hold the PWM
switching off until the LDO has reached 90% of the final
value. This prevents overloading the current-limited LDO
output during the LDO start-up.
Due to the initial current limitations on the LDO during
power up (Figure 11), any external load attached to the
VDD pin must be limited to 20mA before the LDO has
reached 90% of it final regulation value.
VVLDO Final
90% of
VVLDO Final
0.7V
Voltage regulating
with ~ 200mA
current limit
Constant current
startup @ ~ 115mA
Short-circuit Protection @ ~ 65mA
Figure 11 — LDO Start-Up
LDO Switch-Over Operation
The switch-over function is provided to increase efficiency
by using the more efficient DC-DC converter to power the
LDO output, avoiding the less efficient LDO regulator
when possible. The switch-over function connects the
VDD pin directly to the VOUT pin using an internal switch.
When the switch-over is complete the LDO is turned off,
which results in power savings and maximizes efficiency.
If the LDO output is used to bias the SC403B, then after
switch-over the device is self-powered from the switching
regulator with the LDO turned off.
The switch-over logic waits for 32 switching cycles before
it starts the switch-over. When the LDO is already in regu-
lation and the DC-DC converter is later enabled, as soon as
the PGOOD output goes high, the 32 cycles are started.
The voltages at the VDD and VOUT pins are then com-
pared; if the two voltages are within ±300mV of each
other, the VDD pin connects to the VOUT pin using an
internal switch, and the LDO is turned off.
Switch-over Limitations on VOUT, ENL, and VDD
Because the internal switch-over circuit always compares
the VOUT and VDD pins at start-up, there are limitations
on permissible combinations of these pins. Consider the
case where VOUT is programmed to 3.0V and VLDO is pro-
grammed to 3.3V. After start-up, the device would connect
VOUT to VDD and disable the LDO, since the two voltages
are within the ±300mV switch-over window. To avoid
unwanted switch-over, the minimum difference between
the voltages for VOUT and VLDO should be ±500mV.
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