LTC3786 LINER [Linear Technology], LTC3786 Datasheet - Page 22

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LTC3786

Manufacturer Part Number
LTC3786
Description
Multi-Phase Current Mode Step-Up DC/DC Controller
Manufacturer
LINER [Linear Technology]
Datasheet

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LTC3862-2
In order to satisfy these different applications require-
ments, the LTC3862-2 has a simple way to program the
maximum duty cycle. Connecting the D
limits the maximum duty cycle to 96%. Floating this pin
limits the duty cycle to 84% and connecting the D
to the 3V8 supply limits it to 75%. Figure 14 illustrates
the effect of limiting the maximum duty cycle on the SW
node waveform of a boost converter.
operaTion
22
200mA/DIV
200mA/DIV
200mA/DIV
INDUCTOR
INDUCTOR
INDUCTOR
CURRENT
SW NODE
CURRENT
SW NODE
CURRENT
SW NODE
20V/DIV
20V/DIV
20V/DIV
5V/DIV
5V/DIV
5V/DIV
GATE
GATE
GATE
Figure 13. Leading Edge Blanking Effects
on the Minimum On-Time
MINIMUM ON-TIME AT LIGHT LOAD WITH BLANK = SGND
MINIMUM ON-TIME AT LIGHT LOAD WITH BLANK = FLOAT
MINIMUM ON-TIME AT LIGHT LOAD WITH BLANK = 3V8
V
V
MEASURED ON-TIME = 210ns
V
V
MEASURED ON-TIME = 290ns
V
V
MEASURED ON-TIME = 375ns
IN
OUT
IN
OUT
IN
OUT
= 36V
= 36V
= 36V
= 72V
= 72V
= 72V
500ns/DIV
500ns/DIV
500ns/DIV
MAX
38622 F13
pin to SGND
MAX
pin
The LTC3862-2 contains an oscillator that runs at 12× the
programmed switching frequency, in order to provide for
2-, 3-, 4-, 6- and 12-phase operation. A digital counter is
used to divide down the fundamental oscillator frequency in
order to obtain the operating frequency of the gate drivers.
Since the maximum duty cycle limit is obtained from
this digital counter, the percentage maximum duty cycle
does not vary with process tolerances or temperature.
Figure 14. SW Node Waveforms with Different Duty Cycle Limits
INDUCTOR
INDUCTOR
INDUCTOR
CURRENT
SW NODE
SW NODE
CURRENT
SW NODE
CURRENT
20V/DIV
20V/DIV
20V/DIV
1A/DIV
1A/DIV
1A/DIV
96% MAXIMUM DUTY CYCLE WITH D
84% MAXIMUM DUTY CYCLE WITH D
75% MAXIMUM DUTY CYCLE WITH D
1µs/DIV
1µs/DIV
1µs/DIV
MAX
MAX
MAX
= SGND
= FLOAT
= 3V8
38622 F14
38622f

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