ltc3862gn-1 Linear Technology Corporation, ltc3862gn-1 Datasheet - Page 20
ltc3862gn-1
Manufacturer Part Number
ltc3862gn-1
Description
Multi-phase Current Mode Step-up Dc/dc Controller
Manufacturer
Linear Technology Corporation
Datasheet
1.LTC3862GN-1.pdf
(40 pages)
Available stocks
Company
Part Number
Manufacturer
Quantity
Price
Part Number:
LTC3862GN-1
Manufacturer:
LINEAR/凌特
Quantity:
20 000
LTC3862-1
the slope compensation is too low the converter can
suffer from excessive jitter or, worst case, sub-harmonic
oscillation. When excess slope compensation is applied to
the internal current sense signal, the phase margin of the
control loop suffers. Figure 11 illustrates inductor current
waveforms for a properly compensated loop.
The LTC3862-1 contains a patented circuit whereby most
of the applied slope compensation is recovered, in order
to provide a SENSE
a strong function of the duty cycle. This sense threshold
is, however, a function of the programmed slope gain, as
shown in Figure 12. The data sheet typical specifi cation of
75mV for SENSE
ized slope gain of 1.00 at low duty cycle. For applications
where the normalized slope gain is not 1.00, use Figure 12
to determine the correct value of the sense resistor.
OPERATION
20
Figure 12. Effect of Slope Gain on the Peak SENSE Threshold
1A/DIV
1A/DIV
1A/DIV
2V/DIV
I
V
LOAD
OUT
I
I
L1
L2
Figure 11. Inductor Current Waveforms for a
Properly Compensated Control Loop
80
75
70
65
60
55
50
45
40
35
30
V
V
IN
OUT
0
= 24V
= 72V
10
+
minus SENSE
20
+
30
to SENSE
DUTY CYCLE (%)
40
SLOPE = 1
20μs/DIV
50
SLOPE = 1.66
60
–
–
SLOPE = 0.625
is measured at a normal-
70
threshold which is not
80
38621 F12
90
100
38621 F11
Programmable Blanking and the Minimum On-Time
The BLANK pin on the LTC3862-1 allows the user to pro-
gram the amount of leading edge blanking at the SENSE
pins. Connecting the BLANK pin to SGND results in a
minimum on-time of 210ns, fl oating the pin increases
this time to 290ns, and connecting the BLANK pin to the
3V8 supply results in a minimum on-time of 375ns. The
majority of the minimum on-time consists of this leading
edge blanking, due to the inherently low propagation delay
of the current comparator (25ns typ) and logic circuitry
(10ns to 15ns).
The purpose of leading edge blanking is to fi lter out noise on
the SENSE pins at the leading edge of the power MOSFET
turn-on. During the turn-on of the power MOSFET the gate
drive current, the discharge of any parasitic capacitance
on the SW node, the recovery of the boost diode charge,
and parasitic series inductance in the high di/dt path all
contribute to overshoot and high frequency noise that could
cause false-tripping of the current comparator. Due to the
wide range of applications the LTC3862-1 is well-suited
to, fi xing one value of the internal leading edge blanking
time would have required the longest delay time to have
been used. Providing a means to program the blank time
allows users to optimize the SENSE pin fi ltering for each
application. Figure 13 illustrates the effect of the program-
mable leading edge blank time on the minimum on-time
of a boost converter.
Programmable Maximum Duty Cycle
In order to maintain constant frequency and a low output
ripple voltage, a single-ended boost (or fl yback or SEPIC)
converter is required to turn off the switch every cycle
for some minimum amount of time. This off-time allows
the transfer of energy from the inductor to the output
capacitor and load, and prevents excessive ripple current
and voltage. For inductor-based topologies like boost and
SEPIC converters, having a maximum duty cycle as close
as possible to 100% may be desirable, especially in low
V
based solutions, having a maximum duty cycle near 100%
is undesirable, due to the need for V • sec reset during the
primary switch off-time.
IN
to high V
OUT
applications. However, for transformer-
38621f
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