EN5360 データシートの表示(PDF) - Unspecified
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EN5360 Datasheet PDF : 11 Pages
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Rev 1.0 – July 2005
EN5360
Power Up Sequencing
The sequencing of AVIN, PVIN and ENABLE should
meet the following requirements:
1. ENABLE should not be asserted before PVIN.
2. PVIN should not be applied before AVIN.
Note that tying AVIN, PVIN and ENABLE together
and brought up at the same time does meet these
requirements.
POK Operation
The POK signal is an open drain signal from the
converter indicating the output voltage is within the
specified range. The POK signal will be a logic high
when the output voltage is within 90% - 120% of the
programmed output voltage. If the output voltage goes
outside of this range, the POK signal will be a logic
low until the output voltage has returned to within this
range. In the event of an over-voltage condition the
POK signal will go low and will remain in this
condition until the output voltage has dropped to 95%
of the programmed output voltage before returning to
the high state (see also Over Voltage Protection)
Over-Current Protection
The cycle-by-cycle current limit function is achieved
by sensing the current flowing through the sense P-
MOSFET and a signal generated by a differential
amplifier with a preset over-current threshold. During
a particular cycle, if the over-current threshold is
exceeded, the power P-MOSFET is turned off and the
power N-MOSFET is turned on to protect the P-
MOSFET. If the over-current condition is removed,
the over-current protection circuit will enable the
PWM operation. If the over-current condition persists,
the converter will eventually go through a full soft-
start cycle. This circuit is designed to provide high
noise immunity.
It is possible to raise the over-current set-point by
~50% by connecting a 4.99kΩ resistor between ROCP
and GND.
Over-Voltage Protection
When the output voltage exceeds 120% of the
programmed output voltage, the PWM operation
stops, the lower N-MOSFET is turned on and the
POK signal goes low. When the output voltage drops
below 95% of the programmed output voltage, normal
PWM operation resumes and POK returns to its high
state.
Thermal Overload Protection
Thermal shutdown will disable operation once the
Junction temperature exceeds approximately 160ºC.
Once the junction temperature drops by approx 25ºC,
the converter will re-start with a normal soft-start.
Input Under-voltage Operation
Circuitry is provided to ensure that when the input
voltage is below the specified voltage range, the
operation of the converter is controlled and
predictable. Circuits for hysteresis, input de-glitch and
output leading edge blanking are included to ensure
high noise immunity and prevent false tripping.
Compensation
The EN5360 is internally compensated through the
use of a type 3 compensation network and is
optimized for use with about 50µF of output
capacitance and will provide excellent loop bandwidth
and transient performance for most applications. (See
the section on Capacitor Selection for details on
recommended capacitor types.) In some cases
modifications to the compensation may be required.
For more information, contact Enpirion Applications
Engineering support.
Layout Considerations
The EN5360 Layout Guidelines application note
provides more details on specific layout
recommendations for this part. The following are
general layout guidelines to consider.
The CMOS chip inside the EN5360 has two grounds:
AGND for the controller, and PGND for the power
stage. These two grounds need to be connected
outside the package at one point through a low-
impedance trace. The connection should be made such
that the impedance between the connection point and
the AGND pad on the package is minimized. Since
the internal voltage sensing circuit is based on AGND,
the connection of the two grounds should also be
made such that the best voltage regulation can be
achieved. The soft-start capacitor, the voltage
programming resistors, and any other external control
component should be tied to AGND.
The placement of the input decoupling capacitors and
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