LTC3251/
LTC3251-1.2/LTC3251-1.5
U
(Refer to Block Diagram)
OPERATIO
The LTC3251 family of parts use a dual phase switched
capacitor charge pump to step down VIN to a regulated
output voltage. Regulation is achieved by sensing the
output voltage through an external resistor divider and
modulating the charge pump output current based on the
errorsignal. A2-phasenonoverlappingclockactivatesthe
two charge pumps. The two charge pumps work in paral-
lel, but out of phase from each other. On the first phase of
the clock, current is transferred from VIN, through the
external flying capacitor 1, to VOUT via the switches of
ChargePump1.NotonlyiscurrentbeingdeliveredtoVOUT
on the first phase, but the flying capacitor is also being
charged. On the second phase of the clock, flying capaci-
tor 1 is connected from VOUT to ground, transferring the
chargestoredduringthefirstphaseoftheclocktoVOUT via
the switches of Charge Pump 1. Charge Pump 2 operates
in the same manner, but with the phases of the clock
reversed. This dual phase architecture achieves extremely
low output and input noise by providing constant charge
Short-Circuit/Thermal Protection
The LTC3251 family has built-in short-circuit current
limiting as well as overtemperature protection. During
short-circuit conditions, internal circuitry automatically
limits the output current to approximately 800mA. At
higher temperatures, or in cases where internal power
dissipation causes excessive self heating on chip (i.e.,
output short circuit), the thermal shutdown circuitry will
shut down the charge pumps when the junction tempera-
ture exceeds approximately 160°C. It will re-enable the
charge pumps once the junction temperature drops back
toapproximately150°C. TheLTC3251willcycleinandout
of thermal shutdown without latch-up or damage until the
overstress condition is removed. Long term overstress
(IOUT > 650mA and/or TJ > 125°C) should be avoided as it
candegradetheperformanceorshortenthelifeofthepart.
Soft-Start
To prevent excessive current flow at VIN during start-up,
the LTC3251 family has built-in soft-start circuitry. Soft-
start is achieved by increasing the amount of current
available to the output charge storage capacitor linearly
over a period of approximately 500µs. Soft-start is en-
abled whenever the device is brought out of shutdown,
and is disabled shortly after regulation is achieved.
transfer from VIN to VOUT
.
Using this method of switching, only half of the output
current is delivered from VIN, thus achieving twice the
efficiency over a conventional LDO. A spread spectrum
oscillator, which utilizes random switching frequencies
between 1MHz and 1.6MHz, sets the rate of charging and
discharging of the flying capacitors. The LTC3251-1.2/
LTC3251-1.5 MODE pin can be used to disable spread
spectrum operation which causes switching to occur at
1.6MHz. The part also has two types of low current Burst
Mode operation to improve efficiency even at light loads.
Spread Spectrum Operation
Switchingregulatorscanbeparticularlytroublesomewhere
electromagnetic interference (EMI) is concerned. Switch-
ingregulatorsoperateonacycle-by-cyclebasistotransfer
power to an output. In most cases the frequency of
operation is either fixed or is a constant based on the
output load. This method of conversion creates large
componentsofnoiseatthefrequencyofoperation(funda-
mental) and multiples of the operating frequency (har-
monics). Figure 1a shows a conventional buck switching
converter.Figures1band1caretheinputandoutputnoise
spectrums for the buck converter of Figure 1 with VIN =
3.6V, VOUT = 1.5V and IOUT = 500mA.
In shutdown mode, all circuitry is turned off and the
LTC3251 family draws only leakage current from the VIN
supply. Furthermore, VOUT is disconnected from VIN. The
MD0 and MD1 pins are CMOS inputs with threshold
voltages of approximately 0.8V to allow regulator control
with low voltage logic levels. The MODE pin is also CMOS,
but has a threshold of about 1/2 • VIN. The LTC3251 family
is in shutdown when a logic low is applied to both mode
pins.SinceMD0,MD1andMODEpinsarehighimpedance
CMOS inputs, they should never be allowed to float.
Always drive MD0, MD1 and Mode with valid logic levels.
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