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CS51413GD8 Datasheet(PDF) 9 Page - ON Semiconductor

Part # CS51413GD8
Description  1.5 A, 260 kHz and 520 kHz, Low Voltage Buck Regulators with External Bias or Synchronization Capability
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Manufacturer  ONSEMI [ON Semiconductor]
Direct Link  http://www.onsemi.com
Logo ONSEMI - ON Semiconductor

CS51413GD8 Datasheet(HTML) 9 Page - ON Semiconductor

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CS51411, CS51412, CS51413, CS51414
http://onsemi.com
9
Some representative efficiency data is shown in Figure 10.
0
20
40
60
80
100
0
500
1000
1500
Vin = 5.5 V, Vout= 3.3 V
Vin = 7.5 V, Vout = 5.0 V
Vin = 15V, Vout = 12 V
Figure 10. Efficiency versus Output Current
IOUT, OUTPUT CURRENT (mA)
More detailed information is available in the ON
Semiconductor application note AND8276/D on V2 and the
CS5141x demonstration board number.
Error Amplifier
The CS5141X has a transconductance error amplifier,
whose noninverting input is connected to an Internal
Reference Voltage generated from the on−chip regulator. The
inverting input connects to the VFB pin. The output of the
error amplifier is made available at the VC pin. A typical
frequency compensation requires only a 0.1
mF capacitor
connected between the VC pin and ground, as shown in
Figure 1. This capacitor and error amplifier’s output
resistance (approximately 8.0 M
W) create a low frequency
pole to limit the bandwidth. Since V2 control does not require
a
high
bandwidth
error
amplifier,
the
frequency
compensation is greatly simplified.
The VC pin is clamped below Output High Voltage. This
allows the regulator to recover quickly from overcurrent or
short circuit conditions.
Oscillator and Sync Feature (CS51411 and CS51413 only)
The on−chip oscillator is trimmed at the factory and requires
no external components for frequency control. The high
switching frequency allows smaller external components to be
used, resulting in a board area and cost savings. The tight
frequency tolerance simplifies magnetic components election.
The switching frequency is reduced to 25% of the nominal
value when the VFB pin voltage is below Frequency Foldback
Threshold. In short circuit or overload conditions, this reduces
the power dissipation of the IC and external components.
An external clock signal can sync CS51411/CS51414 to a
higher frequency. The rising edge of the sync pulse turns on the
power switch to start a new switching cycle, as shown in
Figure 11. There is approximately 0.5
ms delay between the
rising edge of the sync pulse and rising edge of the VSW pin
voltage. The sync threshold is TTL logic compatible, and duty
cycle of the sync pulses can vary from 10% to 90%. The
frequency foldback feature is disabled during the sync mode.
Figure 11. A CS51411 Buck Regulator is Synced by an
External 350 kHz Pulse Signal
Power Switch and Current Limit
The collector of the built−in NPN power switch is
connected to the VIN pin, and the emitter to the VSW pin.
When the switch turns on, the VSW voltage is equal to the
VIN minus switch Saturation Voltage. In the buck regulator,
the VSW voltage swings to one diode drop below ground
when the power switch turns off, and the inductor current is
commutated to the catch diode. Due to the presence of high
pulsed current, the traces connecting the VSW pin, inductor
and diode should be kept as short as possible to minimize the
noise and radiation. For the same reason, the input capacitor
should be placed close to the VIN pin and the anode of the
diode.
The saturation voltage of the power switch is dependent
on the switching current, as shown in Figure 12.
Figure 12. The Saturation Voltage of the Power Switch
Increases with the Conducting Current
0
0.5
1.0
1.5
SWITCHING CURRENT (A)
0
0.1
0.2
0.3
0.4
0.5
0.6
0.7
Members of the CS5141X family contain pulse−by−pulse
current limiting to protect the power switch and external
components. When the peak of the switching current reaches
the Current Limit, the power switch turns off after the
Current Limit Delay. The switch will not turn on until the
next switching cycle. The current limit threshold is


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