ltc3787gn Linear Technology Corporation, ltc3787gn Datasheet - Page 9

ltc3787gn

Manufacturer Part Number

ltc3787gn

Description

Ltc3787 - Polyphase Synchronous Boost Controller

Manufacturer

Linear Technology Corporation

Datasheet

1.LTC3787GN.pdf (36 pages)

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Meier Automation Equipment Co., Limited

Part Number:

LTC3787GN

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pin FuncTions

FREQ (Pin 1/Pin 4): Frequency Control Pin for the Internal

VCO. Connecting the pin to GND forces the VCO to a fixed

low frequency of 350kHz. Connecting the pin to INTV

forces the VCO to a fixed high frequency of 535kHz. The

frequency can be programmed from 50kHz to 900kHz

by connecting a resistor from the FREQ pin to GND. The

resistor and an internal 20μA source current create a volt-

age used by the internal oscillator to set the frequency.

Alternatively, this pin can be driven with a DC voltage to

vary the frequency of the internal oscillator.

PHASMD (Pin 2/Pin 5): This pin can be floated, tied to

SGND, or tied to INTV

between the rising edges of BG1 and BG2, as well as the

phase relationship between BG1 and CLKOUT.

CLKOUT (Pin 3/Pin 6): A Digital Output Used for Daisy-

chaining Multiple LTC3787 ICs in Multiphase Systems. The

PHASMD pin voltage controls the relationship between BG1

and CLKOUT. This pin swings between SGND and INTV

PLLIN/MODE (Pin 4/Pin 7): External Synchronization Input

to Phase Detector and Forced Continuous Mode Input.

When an external clock is applied to this pin, it will force

the controller into forced continuous mode of operation

and the phase-locked loop will force the rising BG1 signal

Typical perForMance characTerisTics

120

100

Maximum Current Sense

Threshold vs Duty Cycle

LIM

= INTV

= FLOAT

= GND

DUTY CYCLE (%)

to program the phase relationship

(QFN/SSOP)

3787 G25

100

Charge Pump Charging Current

vs Operating Frequency

BOOST

150

= 12V

OPERATING FREQUENCY (kHz)

– V

250

= 4.5V

350

450 550

to be synchronized with the rising edge of the external

clock. When not synchronizing to an external clock, this

input determines how the LTC3787 operates at light loads.

Pulling this pin to ground selects Burst Mode operation.

An internal 100k resistor to ground also invokes Burst

Mode operation when the pin is floated. Tying this pin

to INTV

Tying this pin to a voltage greater than 1.2V and less than

INTV

be done by adding a 100k resistor between the PLLIN/

MODE pin and INTV

SGND (Pin 5/Pin 8): Signal Ground. All small-signal

components and compensation components should

connect to this ground, which in turn connects to PGND

at a single point.

RUN (Pin 6/Pin 9): Run Control Input. Forcing this pin

below 1.28V shuts down the controller. Forcing this pin

below 0.7V shuts down the entire LTC3787, reducing

quiescent current to approximately 8µA. An external

resistor divider connected to V

for converter operation. Once running, a 4.5µA current is

sourced from the RUN pin allowing the user to program

hysteresis using the resistor values.

T = 25°C

T = –45°C

T = 130°C

– 1.3V selects pulse-skipping operation. This can

650 750

forces continuous inductor current operation.

3787 G26

Charge Pump Charging Current

vs Switch Voltage

SWITCH VOLTAGE (V)

can set the threshold

LTC3787

FREQ = INTV

FREQ = GND

3787fa

3787 G27

ltc3787gn Linear Technology Corporation, ltc3787gn Datasheet - Page 9

ltc3787gn

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