LTC1702IGN#TR Linear Technology, LTC1702IGN#TR Datasheet - Page 19
LTC1702IGN#TR
Manufacturer Part Number
LTC1702IGN#TR
Description
IC REG SW DUAL SYNC 2PH 24SSOP
Manufacturer
Linear Technology
Series
PolyPhase®r
Type
Step-Down (Buck)r
Datasheet
1.LTC1702CGN.pdf
(36 pages)
Specifications of LTC1702IGN#TR
Internal Switch(s)
No
Synchronous Rectifier
Yes
Number Of Outputs
2
Current - Output
1A, 25A
Frequency - Switching
550kHz
Voltage - Input
3 ~ 7 V
Operating Temperature
-40°C ~ 85°C
Mounting Type
Surface Mount
Package / Case
24-SSOP
Lead Free Status / RoHS Status
Contains lead / RoHS non-compliant
Voltage - Output
-
Power - Output
-
Available stocks
Company
Part Number
Manufacturer
Quantity
Price
APPLICATIONS
the single case (Figure 7)! The peak current deltas are still
only 10A, requiring the same 0.01Ω ESR rating. As long as
the capacitor we chose for the single side application can
support the slightly higher 4.8A
the second channel without changing the input capacitor
at all. As a general rule, an input bypass capacitor capable
of supporting the larger output current channel can sup-
port both channels running simultaneously (see the
2-Phase Operation section for more details).
from C
turns on and the total current is 13A (time point B).
Shortly thereafter, TG1 turns off and the current drops to
10A (time point C). Finally, TG2 turns off and the current
spends a short time at 0 before TG1 turns on again (time
point D).
Now we can calculate the RMS current. Using the same
waveform we used to calculate the average DC current,
subtract the average current from each of the DC values.
Square each current term and multiply the squares by the
same period percentages we used to calculate the aver-
age DC current. Sum the results and take the square root.
The result is the approximate RMS current as seen by the
input capacitor with both sides of the LTC1702 at full load.
Actual RMS current will differ due to inductor ripple cur-
rent and resistive losses, but this approximate value is
adequate for input capacitor calculation purposes.
I
AVG
IN
=
–2.2
– 5.2
(time point A). 50% of the way through, TG2
(
(
7.8
4.8
3
10
0
A
Figure SB2. AC Current Calculation
0
A
• .
0 5
• .
0 16
U
)
+
50%
)
A
(
13
+
INFORMATION
(
U
A
0
TIME
A
• .
16% 16% 18%
0 16
• .
B
0 18
RMS
C
)
W
+
)
current, we can add
D
=
5 18
1702 SB2
.
A
U
If the circuit is likely to spend time with one side operating
and the other side shut down, the RMS current will need
to be calculated for each possible case (side 1 on, side 2
off; side 1 off, side 2 on; both sides on). The capacitor
must be sized to withstand the largest RMS current of the
three—sometimes this occurs with one side shut down!
Consider the case where both sides are operating at the
same load, with a 50% duty cycle at each side. The RMS
current with both sides running is near zero, while the
RMS current with one side active is 1/2 the total load
current of that side. The 2-phase, 5V to 2.5V circuit in the
applications section takes advantage of this phenom-
enon, allowing it to supply 40A of output current with only
120µF of input capacitance (and only 40µF of output
capacitance!).
Tantalum capacitors are a popular choice as input capaci-
tors for LTC1702 applications, but they deserve a special
caution here. Generic tantalum capacitors have a destruc-
tive failure mechanism when they are subjected to large
RMS currents (like those seen at the input of a LTC1702).
At some random time after they are turned on, they can
blow up for no apparent reason. The capacitor manufac-
turers are aware of this and sell special “surge tested”
Side only
Side only
I
I
I
I
I
RMS
AVE
RMS
AVE
RMS
1
2
1
2
1
2
=
=
=
=
=
=
= 4 4 66
4 55
:
:
.
(
(
(
(
3
10
– .
4 82
.
(
(
A
2 18
.
1 0 67
6 8
A
2
A
.
• .
A
RMS
• .
0 67
• .
2
2
RMS
0 32
2
• .
• .
0 16
• .
0 32
)
0 5
>
)
)
+
+
+
4 55
)
(
)
)
0
(
.
(
+
+
+
–
0
A
(
(
2
(
A
7 82
– .
• .
– .
A
2
.
5 18
0 33
• .
3 2
RMS
• .
0 68
0 33
2
2
2
)
• .
• .
=
)
0 16
• .
0 68
)
=
0 18
2 01
=
.
3 2
LTC1702
1 42
.
)
)
.
+
)
A
A
A
RMS
19
1702fa
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