Datasheet
LM3691
SNVS506I –MAY 2008–REVISED MAY 2013
www.ti.com
Internal Synchronous Rectification
While in PWM mode, the LM3691 uses an internal NFET as a synchronous rectifier to reduce rectifier forward
voltage drop and associated power loss. Synchronous rectification provides a significant improvement in
efficiency whenever the output voltage is relatively low compared to the voltage drop across an ordinary rectifier
diode.
Current Limiting
A current limit feature allows the LM3691 to protect itself and external components during overload conditions.
PWM mode implements current limit using an internal comparator that trips at 1500 mA (typ). If the output is
shorted to ground and output voltage becomes lower than 0.3V (typ.), the device enters a timed current limit
mode where the switching frequency will be one fourth, and NFET synchronous rectifier is disabled, thereby
preventing excess current and thermal runaway.
ECO OPERATION
Setting mode pin low places the LM3691 in Auto mode. By doing so the part switches from ECO (ECOnomy)
state to FPWM (Forced Pulse Width Modulation) state based on output load current. At light loads (less than 50
mA), the converter enters ECO mode. In this mode the part operates with low Iq. During ECO operation, the
converter positions the output voltage slightly higher (+30 mV typ.) than the nominal output voltage in FPWM
operation. Because the reference is set higher, the output voltage increases to reach the target voltage when the
part goes from sleep state to switching state. Once this voltage is reached the converter enters sleep mode,
thereby reducing switching losses and improving light load efficiency. The output voltage ripple is slightly higher
in ECO mode (30 mV peak–peak ripple typ.).
Figure 46. Typical ECO Operation
FORCED PWM MODE
Setting Mode pin high (>1.2V) places the LM3691 in Forced PWM. The part is in forced PWM regardless of the
load.
SHUTDOWN MODE
Setting the EN input pin low (<0.4V) places the LM3691 in shutdown mode. During shutdown the PFET switch,
NFET switch, reference, control and bias circuitry of the LM3691 are turned off. Setting EN high (>1.2V) enables
normal operation. When turning on the device with EN soft-start is activated. EN pin should be set low to turn off
the LM3691 during system power up and under-voltage conditions when the supply is less than 2.3V. Do not
leave the EN pin floating.
SOFT-START
The LM3691 has a soft-start circuit that limits in-rush current during startup. Output voltage increase rate is 30
mV/µsec (at V
OUT
= 1.8V typ.) during soft-start.
14 Submit Documentation Feedback Copyright © 2008–2013, Texas Instruments Incorporated
Product Folder Links: LM3691