FSES0765RG データシートの表示(PDF) - Fairchild Semiconductor
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FSES0765RG Datasheet PDF : 18 Pages
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FSES0765RG
Functional Description
1. Startup : In previous generations of Fairchild Power
Switches (FPSTM) the Vcc pin had an external start-up
resistor to the DC input voltage line. In this generation the
startup resistor is replaced by an internal high voltage current
source. At startup, an internal high voltage current source
supplies the internal bias and charges the external capacitor
(Cvcc) that is connected to the Vcc pin as illustrated in figure
4. When Vcc reaches 12V, the FPS begins switching and the
internal high voltage current source is disabled. Then, the
FPS continues its normal switching operation and the power
is supplied from the auxiliary transformer winding unless
Vcc goes below the stop voltage of 9V.
CVcc
VDC
2.1 Pulse-by-pulse Current Limit: Because current mode
control is employed, the peak current through the Sense FET
is limited by the inverting input of the PWM comparator
(Vfb*) as shown in figure 5. Assuming that the 0.9mA
current source flows only through the internal resistor (2.5R
+R= 2.8 kΩ), the cathode voltage of diode D2 is about 2.5V.
Since diode D1 is blocked when the feedback voltage (Vfb)
exceeds 2.5V, the maximum voltage of the cathode of D2 is
clamped at this voltage, thus clamping Vfb*. Therefore, the
peak value of the SenseFET current is limited.
2.2 Leading Edge Blanking (LEB) : At the instant the
internal Sense FET is turned on, there usually exists a high
current spike through the Sense FET, caused by primary-side
capacitance and secondary-side rectifier reverse recovery.
Excessive voltage across the Rsense resistor would lead to
incorrect feedback operation in the current mode PWM
control. To counter this effect, the FPS employs a leading
edge blanking (LEB) circuit. This circuit inhibits the PWM
comparator for a short time (TLEB) after the Sense FET is
turned on.
Vcc
3
9V/12V
Vcc good
6 Vstr
Istart
Vref
Internal
Bias
Figure 4. Internal Startup Circuit
Vcc Vref
Idelay
IFB
Vo
Vfb
4
H11A817A
CB
OSC
D1 D2
2.5R
KA431
+
Vfb* R
-
SenseFET
Gate
driver
VSD
OLP
Rsense
Figure 5. Pulse Width Modulation (PWM) Circuit
2. Feedback Control : FSES0765RG employs current mode
control, as shown in figure 5. An opto-coupler (such as the
H11A817A) and shunt regulator (such as the KA431) are
typically used to implement the feedback network.
Comparing the feedback voltage with the voltage across the
Rsense resistor plus an offset voltage makes it possible to
control the switching duty cycle. When the reference pin
voltage of the KA431 exceeds the internal reference voltage
of 2.5V, the H11A817A LED current increases, thus pulling
down the feedback voltage and reducing the duty cycle. This
event typically happens when the input voltage is increased
or the output load is decreased.
3. Protection Circuits : The FSES0765RG has several self
protective functions such as over load protection (OLP),
abnormal over current protection (AOCP), over voltage
protection (OVP) and thermal shutdown (TSD). Because
these protection circuits are fully integrated into the IC
without requiring external components, the reliability can be
improved without increasing cost. Once the fault condition
occurs, switching is terminated and the Sense FET remains
off. This causes Vcc to fall. When Vcc reaches the UVLO
stop voltage, 9V, the protection is reset and the internal high
voltage current source charges the Vcc capacitor via the Vstr
pin. When Vcc reaches the UVLO start voltage,12V, the FPS
resumes its normal operation. In this manner, the auto-restart
can alternately enable and disable the switching of the power
Sense FET until the fault condition is eliminated (see figure
6).
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