LX1669 View Datasheet(PDF) - Microsemi Corporation
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Description
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LX1669 Datasheet PDF : 14 Pages
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PRODUCT DATABOOK 1996/1997
LX1669
PROGRAMMABLE DC:DC CONTROLLER
PRODUCTION DATA SHEET
T H E O R Y O F O P E R AT I O N
OVER-CURRENT PROTECTION (OCP) and HICCUP
The over-current protection function is tripped when the induc-
tor current exceeds its maximum limit. The current is sensed
with a resistor in series with the inductor. When the voltage
across the sensing resistor exceeds the 60mV threshold, the OCP
comparator outputs a signal to reset the PWM latch and to start
hiccup mode. The soft-start capacitor, CSS, is discharged slowly
(10 times slower than when being charged up by R ). When the
SS
voltage on the SS/ENABLE pin reaches a 0.3V threshold, hiccup
finishes and the circuit soft-starts again. During hiccup, the top
MOSFET is OFF and the bottom MOSFET remains ON.
Hiccup is disabled during the soft-start interval, allowing the
circuit to start up with the maximum current. If the rise speed
of the output voltage is too fast, the required charging current to
the output capacitor may be higher than the limit-current. In this
case, the peak inductor current is regulated to the limit-current
by the current-sense comparator. The top MOSFET is turned on
at the end of the controlled off-time and is turned off when the
inductor current reaches the limit. If the inductor current still
reaches its limit after the soft-start finishes, the hiccup is triggered
again. The hiccup ensures the average heat generation on both
MOSFET’s and the average current to be much less than that in
normal operation, if the output has a short circuit.
OVER-VOLTAGE PROTECTION (OVP)
The output voltage is inherently protected from an over-voltage
situation because of the peak-voltage control mechanism.
Whenever the V pin voltage is higher than the set voltage by
FB
40mV, the top MOSFET is turned off and the bottom MOSFET is
turned on. In the case that a fault condition occurs where the
OVER-VOLTAGE PROTECTION (OVP) (continued)
output voltage exceeds the 117% V threshold, the OVP
SET
comparator will pull up the OVP pin to 2 volts. The OVP pin has
a 40mA source current capability, so it can be used to trigger an
SCR crowbar or shut off the main power supply.
OFF-TIME CONTROL and SWITCHING FREQUENCY
An internal timer controls the off-time of the top MOSFET so that
the switching frequency is constant at 250kHz under steady-state
operation. The timer begins timing once the PWM latch is reset
and set the PWM flip-flop again when the off-time finishes. The
off-time is controlled to be:
T = 4µs(1-V /V )
OFF
OUT CC5
For a buck converter, the switching frequency is
fSW = (1- VOUT /VCC5 )/TOFF
Therefore, the switching frequency is nearly constant in steady
state operation. During transient loading, the top drive can
remain switched on or off until the output voltage is within
specification (see Figure 5) in order to reduce transient response
time.
POWER GOOD OUTPUT
An open-collector output, PWRGD, is provided to indicate the
status of the output voltages. PWRGD presents high impedance
when the switcher output voltage is within ±10% of its set
voltage. Otherwise, PWRGD presents a low impedance path to
ground.
Top FET Drive
Output Voltage
(2.8V Set Point)
13A Load Transient
(in 390ns)
VIN = 5V, VOUT = 2.8V, LOUT = 5µH, COUT = 3 x 1500µF, f = 200kHz
FIGURE 5 — Top FET Drive During Transient Load Conditions
8
Copyright © 1999
Rev. 1.0 4/99
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