LTC1628IG-SYNC#TR Linear Technology, LTC1628IG-SYNC#TR Datasheet - Page 13
LTC1628IG-SYNC#TR
Manufacturer Part Number
LTC1628IG-SYNC#TR
Description
IC REG SW 2PH SYNC STPDWN 28SSOP
Manufacturer
Linear Technology
Type
Step-Down (Buck)r
Datasheet
1.LTC1628CG-SYNCPBF.pdf
(32 pages)
Specifications of LTC1628IG-SYNC#TR
Internal Switch(s)
No
Synchronous Rectifier
Yes
Number Of Outputs
2
Voltage - Output
Adj to 0.8V
Current - Output
3A
Frequency - Switching
140kHz ~ 310kHz
Voltage - Input
3.5 ~ 30 V
Operating Temperature
-40°C ~ 85°C
Mounting Type
Surface Mount
Package / Case
28-SSOP
Lead Free Status / RoHS Status
Contains lead / RoHS non-compliant
Power - Output
-
Available stocks
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Manufacturer
Quantity
Price
APPLICATIO S I FOR ATIO
Figure 1 on the first page is a basic LTC1628-SYNC
application circuit. External component selection is driven
by the load requirement, and begins with the selection of
R
and D1 are selected. Finally, C
The circuit shown in Figure 1 can be configured for
operation up to an input voltage of 28V (limited by the
external MOSFETs).
R
R
The LTC1628-SYNC current comparator has a maximum
threshold of 75mV/R
range of SGND to 1.1(INTV
threshold sets the peak of the inductor current, yielding a
maximum average output current I
value less half the peak-to-peak ripple current, ∆I
Allowing a margin for variations in the LTC1628-SYNC and
external component values yields:
When using the controller in very low dropout conditions,
the maximum output current level will be reduced due to
the internal compensation required to meet stability crite-
rion for buck regulators operating at greater than 50%
duty factor. A curve is provided to estimate this reduction
in peak output current level depending upon the operating
duty factor.
Operating Frequency
The LTC1628-SYNC uses a constant frequency phase-
lockable architecture with the frequency determined by an
internal capacitor. This capacitor is charged by a fixed
current plus an additional current which is proportional to
the voltage applied to the PLLFLTR pin. Refer to Phase-
Locked Loop and Frequency Synchronization in the Appli-
cations Information section for additional information.
A graph for the voltage applied to the PLLFLTR pin vs
frequency is given in Figure 5. As the operating frequency
SENSE
SENSE
SENSE
R
SENSE
and the inductor value. Next, the power MOSFETs
Selection For Output Current
is chosen based on the required output current.
=
50
I
MAX
mV
U
SENSE
U
and an input common mode
CC
). The current comparator
IN
and C
W
MAX
OUT
equal to the peak
are selected.
U
L
.
is increased the gate charge losses will be higher, reducing
efficiency (see Efficiency Considerations). The maximum
switching frequency is approximately 310kHz.
Inductor Value Calculation
The operating frequency and inductor selection are inter-
related in that higher operating frequencies allow the use
of smaller inductor and capacitor values. So why would
anyone ever choose to operate at lower frequencies with
larger components? The answer is efficiency. A higher
frequency generally results in lower efficiency because of
MOSFET gate charge losses. In addition to this basic
trade-off, the effect of inductor value on ripple current and
low current operation must also be considered.
The inductor value has a direct effect on ripple current. The
inductor ripple current ∆I
tance or frequency and increases with higher V
Accepting larger values of ∆I
inductances, but results in higher output voltage ripple
and greater core losses. A reasonable starting point for
setting ripple current is ∆I
occurs at the maximum input voltage.
∆I
L
=
Figure 5. PLLFLTR Pin Voltage vs Frequency
( )( )
f L
2.5
2.0
1.5
1.0
0.5
1
0
120
V
OUT
OPERATING FREQUENCY (kHz)
170
⎛
⎜
⎝
1
–
L
L
V
LTC1628-SYNC
=0.3(I
V
OUT
220
decreases with higher induc-
IN
L
⎞
⎟
⎠
MAX
allows the use of low
270
). The maximum ∆I
1628 F05
320
IN
13
:
1628syncfa
L
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