ltc3850gn-2 Linear Technology Corporation, ltc3850gn-2 Datasheet - Page 11

ltc3850gn-2

Manufacturer Part Number

ltc3850gn-2

Description

Dual, 2-phase Synchronous Step-down Switching Controller

Manufacturer

Linear Technology Corporation

Datasheet

1.LTC3850GN-2.pdf (36 pages)

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Company:

Meier Automation Equipment Co., Limited

Part Number:

LTC3850GN-2

Manufacturer:

LTNEAR

Quantity:

20 000

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OPERATION

mode of operation, tie the MODE/PLLIN pin to INTV

select Burst Mode operation, ﬂ oat the MODE/PLLIN pin.

When a controller is enabled for Burst Mode operation,

the peak current in the inductor is set to approximately

one-third of the maximum sense voltage even though

the voltage on the I

average inductor current is higher than the load current,

the error ampliﬁ er EA will decrease the voltage on the I

pin. When the I

sleep signal goes high (enabling “sleep” mode) and both

external MOSFETs are turned off.

In sleep mode, the load current is supplied by the output

capacitor. As the output voltage decreases, the EA’s output

begins to rise. When the output voltage drops enough, the

sleep signal goes low, and the controller resumes normal

operation by turning on the top external MOSFET on the

next cycle of the internal oscillator. When a controller is

enabled for Burst Mode operation, the inductor current is

not allowed to reverse. The reverse current comparator

inductor current reaches zero, preventing it from revers-

ing and going negative. Thus, the controller operates in

discontinuous operation. In forced continuous operation,

the inductor current is allowed to reverse at light loads or

under large transient conditions. The peak inductor current

is determined by the voltage on the I

mal operation. In this mode, the efﬁ ciency at light loads is

lower than in Burst Mode operation. However, continuous

mode has the advantages of lower output ripple and less

interference with audio circuitry.

When the MODE/PLLIN pin is connected to INTV

LTC3850-2 operates in PWM pulse-skipping mode at

light loads. At very light loads, the current comparator

external top MOSFET to stay off for the same number of

cycles (i.e., skipping pulses). The inductor current is not

allowed to reverse (discontinuous operation). This mode,

like forced continuous operation, exhibits low output ripple

as well as low audio noise and reduced RF interference

as compared to Burst Mode operation. It provides higher

low current efﬁ ciency than forced continuous mode, but

not nearly as high as Burst Mode operation.

CMP

REV

) turns off the bottom external MOSFET just before the

may remain tripped for several cycles and force the

voltage drops below 0.5V, the internal

pin indicates a lower value. If the

pin, just as in nor-

, the

. To

Frequency Selection and Phase-Locked Loop

(FREQ/PLLFLTR and MODE/PLLIN Pins)

The selection of switching frequency is a trade-off between

efﬁ ciency and component size. Low frequency operation

increases efﬁ ciency by reducing MOSFET switching losses,

but requires larger inductance and/or capacitance to main-

tain low output ripple voltage. The switching frequency

of the LTC3850-2’s controllers can be selected using the

FREQ/PLLFLTR pin. If the MODE/PLLIN pin is not being

driven by an external clock source, the FREQ/PLLFLTR

pin can be used to program the controller’s operating

frequency from 250kHz to 780kHz.

A phase-locked loop (PLL) is available on the LTC3850-2

to synchronize the internal oscillator to an external clock

source that is connected to the MODE/PLLIN pin. The

controller is operating in forced continuous mode when

it is synchronized. A series R-C should be connected

between the FREQ/PLLFLTR pin and SGND to serve as

the PLL’s loop ﬁ lter.

Power Good (PGOOD Pin)

The PGOOD pin is connected to an open drain of an internal

N-channel MOSFET. The MOSFET turns on and pulls the

PGOOD pin low when either V

±7.5% of the 0.8V reference voltage. The PGOOD pin is

also pulled low when either RUN pin is below 1.2V or when

the LTC3850-2 is in the soft-start or tracking phase. When

the V

MOSFET is turned off and the pin is allowed to be pulled

up by an external resistor to a source of up to 6V. The

PGOOD pin will ﬂ ag power good immediately when both

an internal 17μs power bad mask when either V

out of the ±7.5% window.

Output Overvoltage Protection

An overvoltage comparator, OV, guards against transient

overshoots (> 7.5%) as well as other more serious con-

ditions that may overvoltage the output. In such cases,

the top MOSFET is turned off and the bottom MOSFET is

turned on until the overvoltage condition is cleared.

pins are within the ±7.5% window. However, there is

pin voltage is within the ±7.5% requirement, the

pin voltage is not within

LTC3850-2

goes

38502f

ltc3850gn-2 Linear Technology Corporation, ltc3850gn-2 Datasheet - Page 11

ltc3850gn-2

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