Datasheet
LM25037, LM25037-Q1
SNVS572D –JULY 2008–REVISED MARCH 2013
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ERROR AMPLIFIER
An internal high gain error amplifier is provided within the LM25037. The amplifier’s non-inverting reference is
tied to a 1.25V reference. In non-isolated applications the power converter output is connected to the FB pin via
the voltage setting resistors and loop compensation is connected between the COMP and FB pins. A typical
gain/phase plot is shown in Typical Performance Characteristics.
For most isolated applications the error amplifier function is implemented on the secondary side. Since the
internal error amplifier is configured as an open drain output, it can be disabled by connecting FB to ground. The
internal 5K pull-up resistor connected between the COMP pin and the 5V reference can be used as the pull-up
for an opto-coupler or other isolation device .
CYCLE-BY-CYCLE CURRENT LIMIT
The CS pin is to be driven by a signal representative of the transformer primary current. The current sense signal
can be generated by using a sense resistor or a current sense transformer. If the voltage sensed at the CS pin
exceeds 0.255V, the current sense comparator terminates the output driver pulse. If the high current condition
persists, the controller operates in a cycle-by-cycle current limit mode with duty cycle determined by the current
sense comparator instead of the PWM comparator. Cycle-by-cycle current limiting may eventually trigger the
hiccup mode restart cycle; depending on the configuration of the RES pin (see OVERLOAD PROTECTION
TIMER below). To suppress noise, a small R-C filter connected to the CS pin and located near the controller is
recommended. An internal 21Ω MOSFET discharges the external current sense filter capacitor at the conclusion
of every cycle. The discharge MOSFET remains on for an additional 65 ns after either OUTA or OUTB driver
switches high to blank leading edge transients in the current sensing circuit. Discharging the CS pin filter each
cycle and blanking leading edge spikes reduces the filtering requirements and improves the current sense
response time. The current sense comparator is very fast and may respond to short duration noise pulses.
Layout considerations are critical for the current sense filter and sense resistor. The capacitor associated with the
CS filter must be placed very close to the device and connected directly to the CS and AGND pins. If a sense
resistor located in the source of the main MOSFET switch is used for current sensing, a low inductance type of
resistor is required. When designing with a current sense resistor, all the noise sensitive, low power ground
connections should be connected together near the AGND pin, and a single connection should be made to the
power ground (sense resistor ground point).
OVERLOAD PROTECTION TIMER
The LM25037provides a current limit restart timer to disable the outputs and force a delayed restart (hiccup
mode) if a current limit condition is repeatedly sensed. The number of cycle-by-cycle current limit events required
to trigger the restart is programmed by the external capacitor at the RES pin. During each PWM cycle, the
LM25037 either sources to or sinks current from the RES pin capacitor. If no current limit is detected during a
cycle, a 8 µA discharge current sink is enabled to pull the RES pin towards ground. If a current limit is detected,
the 8 µA sink current is disabled and an 18 µA current source causes the voltage at the RES pin to gradually
increase. The LM25037 protects the converter with cycle-by-cycle current limiting while the voltage at RES pin
increases. If the RES voltage reaches the 2.0V threshold, the following restart sequence occurs (also see
Figure 15):
• The RES capacitor and SS capacitors are fully discharged.
• The soft-start current source is reduced from 100 µA to 1 µA.
• The SS capacitor voltage slowly increases. When the SS voltage reaches ≊1V, the PWM comparator will
produce the first narrow output pulse. After the first pulse occurs, the SS source current reverts to the normal
100 µA level. The SS voltage increases at its normal rate, gradually increasing the duty cycle of the output
drivers.
• If the overload condition persists after restart, cycle-by-cycle current limiting will begin to increase the voltage
on the RES capacitor again, repeating the hiccup mode sequence.
• If the overload condition no longer exists after restart, the RES pin will be held at ground by the 8 µA current
sink and normal operation resumes.
The overload timer function is very versatile and can be configured for the following modes of protection:
1. Cycle-by-cycle only: The hiccup mode can be completely disabled by connecting a zero to 50 kΩ resistor
from the RES pin to AGND. In this configuration, the cycle-by-cycle protection will limit the output current
indefinitely and no hiccup sequences will occur.
2. Hiccup only: The timer can be configured for immediate activation of a hiccup sequence upon detection of
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