LTC3860_15 Datasheet, PDF(14/36 Page) Linear Technology – Dual, Multiphase Step-Down Voltage Mode DC/DC Controller with Current Sharing

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LTC3860_15 Datasheet, PDF (14/36 Pages) Linear Technology – Dual, Multiphase Step-Down Voltage Mode DC/DC Controller with Current Sharing

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LTC3860

APPLICATIONS INFORMATION

Setting the Output Voltage

The LTC3860 regulates the FB pins to 0.6V. FB is con-

nected to VOUT or VSNSOUT (for remote output sensing)

via an external resistive divider as shown in Figure 3. The

divider sets the output voltage according to the following

equation:

VOUT

0.6V

â¢

ââ1+

RB â

RA â â

Care should be taken to place the output divider resistors

and the compensation components as close as possible

to the FB pin to minimize switching noise coupling into

the control signal path.

COMP

LTC3860

SGND

DIVIDER AND COMPENSATION

COMPONENTS PLACED NEAR

FB, SGND AND COMP PINS

VOUT

COUT

3860 F03

Figure 3. Output Divider and Compensation

Component Placement

Sensing the Output Voltage with a

Differential Ampliï¬er

When using the remote sense differential ampliï¬er, care

should be taken to route the VSNSP and VSNSN PCB traces

parallel to each other all the way to the terminals of the

output capacitor or remote sensing points on the board.

In addition, avoid routing these sensitive traces near any

high speed switching nodes in the circuit. Ideally, they

should be shielded by a low impedance ground plane to

maintain signal integrity.

When using a single LTC3860 to regulate two output

voltages, the negative terminal of VOUT2 should be

kelvin-connected to SGND and the differential ampliï¬er

should be used to remotely sense VOUT1. This will maxi-

mize output voltage accuracy for both channels.

Programming the Operating Frequency

The LTC3860 can be hard wired to one of two ï¬xed fre-

quencies, linearly programmed to any frequency between

250kHz and 1.25MHz or synchronized to an external

clock.

Table 1 in the Operation section shows how to connect the

CLKIN and FREQ pins to choose the mode of frequency

programming. In linear programming mode the frequency

of operation is given by the following equation:

Frequency ^ (RFREQ â 15kÎ©) â¢ 20Hz/Î©

Figure 4 shows operating frequency vs RFREQ.

1.7

1.5

1.3

1.1

0.9

0.7

0.5

0.3

0.1

20 40 60 80 100 120

RFREQ (kÎ©)

3860 F04

Figure 4. Operating Frequency vs RFREQ

Frequency Synchronization

The LTC3860 incorporates an internal phase-locked loop

(PLL) which enables synchronization of the internal os-

cillator (rising edge of PWM1) to an external clock from

250kHz to 1.25MHz.

Since the entire PLL is internal to the LTC3860, simply

applying a CMOS level clock signal to the CLKIN pin will

enable frequency synchronization. A resistor from FREQ

to GND is still required to set the free running frequency

close to the sync input frequency.

3860fc

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