LTC3620 Datasheet, PDF(8/16 Page) Linear Technology – Ultralow Power 15mA Synchronous Step-Down Switching Regulator

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LTC3620 Datasheet, PDF (8/16 Pages) Linear Technology – Ultralow Power 15mA Synchronous Step-Down Switching Regulator

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LTC3620

OPERATION

The LTC3620 is a variable frequency buck switching regu-

lator with a maximum output current of 15mA. At high

loads the LTC3620 will supply constant peak current pulses

through the output inductor at a frequency dependent on

the load current.

A switching cycle is initiated by a pulse from the error

ampliï¬er, EAMP. The top FET is turned on and remains on

until the peak current threshold is sensed by ICMP (35mA

at full loads). When this occurs, the top FET it is turned off

and the bottom FET is turned on. The bottom FET remains

on until the inductor current drops to 0A, as sensed by the

reverse-current comparator, RCMP. The time interval before

another switching cycle is initiated is adjusted based on

the output voltage error, measured by the EAMP to be the

difference between VFB and the 0.6V reference.

As the load current decreases, the EAMP will decrease

the switching frequency to match the load, until the mini-

mum switching frequency (internally or externally set) is

reached. With the FMIN/MODE pin pulled low, the minimum

frequency is internally set to 50kHz. Further decreasing

the load will cause the phase frequency detector (PFD) to

decrease the peak inductor current in order to maintain

the switching frequency at 50kHz.

The minimum switching frequency can be externally set

by clocking the FMIN/MODE pin at the desired minimum

switching frequency. The load current below which the

switching frequency will be clamped is dependent on the

externally set frequency and the value of the inductor used.

A higher externally set minimum frequency will result in

a higher load current threshold below which the part will

lock to this minimum frequency. The relationship between

load current and minimum frequency is described by the

following equation:

( ) ( )( ) IMAX(LOCK) =

VIN fMIN (L)(35mA)2

2VOUT VIN â VOUT

The LTC3620 will switch at this externally set frequency

at load currents below this threshold; though in general,

neither this minimum nor this synchronization will be

maintained during load transients.

At very light loads, the minimum PFET on time will be

reached and the peak inductor current can no longer

be reduced. In this situation, the LTC3620 will resume

decreasing the regulator switching frequency to prevent

the output voltage from climbing uncontrollably.

For those applications which are not sensitive to the spectral

content of the output ripple, the minimum frequency clamp

can be defeated by pulling the FMIN/MODE pin high. In this

mode the inductor current peaks will be held at 35mA and

the switching frequency will decrease without limit.

1000

200kHz, EXTERNAL

FMIN/MODE = 0V

FMIN/MODE = VIN

100

0.01

TA = 25Â°C

VIN = 3.6V

VOUT = 1.1V

0.1

LOAD CURRENT (mA)

10 20

3620 F01

Figure 1. Switching Frequency vs Load Current, FMIN/MODE

3620f

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