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CS51033YD8 Fiches technique(PDF) 5 Page - Cherry Semiconductor Corporation

No de pièce CS51033YD8
Description  Fast PFET Buck Controller Does Not Require Compensation
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Fabricant  CHERRY [Cherry Semiconductor Corporation]
Site Internet  http://www.cherrycorp.com/
Logo CHERRY - Cherry Semiconductor Corporation

CS51033YD8 Fiches technique(HTML) 5 Page - Cherry Semiconductor Corporation

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Circuit Description: continued
Applications Information
Specifications
VIN = 3.3V +/- 10% (i.e. 3.63V max., 2.97V min.)
VOUT = 1.5V +/- 2%
IOUT = 0.3A to 3A
Output ripple voltage < 33mV.
FSW = 200kHz.
1) Duty Cycle Estimates
Since the maximum duty cycle, D, of the CS51033 is limited
to 80% min. it is best to estimate the duty cycle for the vari-
ous input conditions to see that the design will work over
the complete operating range.
The duty cycle for a buck regulator operating in a continu-
ous conduction mode is given by:
D =
Where VSAT is Rdson × IOUT Max.
In this case we can assume that VD = 0.6V and VSAT = 0.6V
so the equation reduces to:
VOUT + VD
VIN - VSAT
Designing a Power Supply with the CS51033
feedback to the VFB Comparator sets the GATE flip-flop dur-
ing COSC ’s charge cycle. Once the GATE flip-flop is set,
VGATE goes low and turns on the PFET. When VCS exceeds
2.4V, the CS charge sense comparator (A4) sets the VFB com-
parator reference to 1.25V completing the startup cycle.
Lossless Short Circuit Protection
The CS51033 has “Lossless” short circuit protection since
there is no current sense resistor required. When the voltage
at the CS pin (the fault timing capacitor voltage ) reaches
2.5V, the fault timing circuitry is enabled. During normal
operation the CS voltage is 2.6V. During a short circuit con-
dition or a transient condition, the output voltage moves
lower and the voltage at VFB drops. If VFB drops below
1.15V, the output of the fault comparator goes high and the
CS51033 goes into a fast discharge mode. The fault timing
capacitor, CS, discharges to 2.4V. If the VFB voltage is still
below 1.15V when the CS pin reaches 2.4V, a valid fault con-
dition has been detected. The slow discharge comparator
output goes high and enables gate G5 which sets the slow
discharge flip flop. The Vgate flip flop resets and the output
switch is turned off. The fault timing capacitor is slowly dis-
charged to 1.5V. The CS51033 then enters a normal startup
routine. If the fault is still present when the fault timing
capacitor voltage reaches 2.5V, the fast and slow discharge
cycles repeat as shown in figure 2.
If the VFB voltage is above 1.15V when CS reaches 2.4V a
fault condition is not detected, normal operation resumes
and CS charges back to 2.6V. This reduces the chance of
erroneously detecting a load transient as a fault condition.
Figure 2. Voltage on start capacitor (VGS ), the gate (VGATE ), and in the
feedback loop (VFB), during startup, normal and fault conditions.
Buck Regulator Operation
Figure 3. Buck regulator block diagram.
A block diagram of a typical buck regulator is shown in
Figure 3. If we assume that the output transistor is initially
off, and the system is in discontinuous operation, the induc-
tor current IL is zero and the output voltage is at its nominal
value. The current drawn by the load is supplied by the out-
put capacitor CO . When the voltage across CO drops below
the threshold established by the feedback resistors R1 and
R2 and the reference voltage VREF, the power transistor Q1
switches on and current flows through the inductor to the
output. The inductor current rises at a rate determined by
(VIN-VOUT)/Load. The duty cycle (or “on” time) for the
CS51033 is limited to 80%. If the output voltage remains
higher than nominal during the entire COSC charge time, the
Q1 does not turn on, skipping the pulse.
CHARGE PUMP CIRCUIT
(Refer to the CS51033 Application Diagram)
An external charge pump circuit is necessary when the input
voltage is below 5V to ensure that there is sufficient gate
drive voltage for the external FET. When VIN is applied,
capacitors C1 and C2 will be charged to a diodes drop below
VIN via diodes D2 and D4, respectively. When the PFET
turns on, its drain voltage will be approximately equal to
VIN. Since the voltage across C1 can not change instanta-
neously, D2 is reverse biased and the anode voltage rises to
approximately 2*3.3V-VD2. C1 transfers some of its stored
charge C2 via D3. After several cycles there is sufficient gate
drive voltage.
Control
Feedback
VIN
L
D1
R1
R2
RLOAD
CO
Q1
CIN
2.5V
0V
FAULT
NORMAL OPERATION
START
TSTART
td1
td2
tFAULT
tRESTART
tFAULT
S2
S2
S2
S3
S3
S3
S3
S1
S1
S1
2.6V
2.4V
1.5V
0V
1.25V
1.15V
VCS
VGATE
VFB


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