LT1377CS8 Linear Technology, LT1377CS8 Datasheet - Page 7
LT1377CS8
Manufacturer Part Number
LT1377CS8
Description
IC SWTCHNG REG 1.5A HI-EFF 8SOIC
Manufacturer
Linear Technology
Type
Step-Down (Buck), Step-Up (Boost), Inverting, Cuk, Flyback, Forward Converterr
Datasheet
1.LT1372CN8PBF.pdf
(12 pages)
Specifications of LT1377CS8
Internal Switch(s)
Yes
Synchronous Rectifier
No
Number Of Outputs
1
Voltage - Output
1.25 ~ 35 V
Current - Output
1.5A
Frequency - Switching
1MHz
Voltage - Input
2.7 ~ 25 V
Operating Temperature
0°C ~ 125°C
Mounting Type
Surface Mount
Package / Case
8-SOIC (3.9mm Width)
Lead Free Status / RoHS Status
Contains lead / RoHS non-compliant
Power - Output
-
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APPLICATIO S I FOR ATIO
Positive fixed voltage versions are available (consult
Linear Technology marketing).
Negative Output Voltage Setting
The LT1372/LT1377 develops a – 2.49V reference (V
from the NFB pin to ground. Output voltage is set by
connecting the NFB pin to an output resistor divider
(Figure 2). The – 30 A NFB pin bias current (I
cause output voltage errors and should not be ignored.
This has been accounted for in the formula in Figure 2. The
suggested value for R2 is 2.49k. The FB pin is normally left
open for negative output application. See Dual Polarity
Output Voltage Sensing for limitatins on FB pin loading
when using the NFB pin.
Dual Polarity Output Voltage Sensing
Certain applications benefit from sensing both positive
and negative output voltages. One example is the “Dual
Output Flyback Converter with Overvoltage Protection”
circuit shown in the Typical Applications section. Each
output voltage resistor divider is individually set as de-
scribed above. When both the FB and NFB pins are used,
the LT1372/LT1377 acts to prevent either output from
going beyond its set output voltage. For example in this
application, if the positive output were more heavily loaded
than the negative, the negative output would be greater
and would regulate at the desired set-point voltage. The
positive output would sag slightly below its set-point
voltage. This technique prevents either output from going
unregulated high at no load. Please note that the load on
the FB pin should not exceed 250 A when the NFB pin is
used. This situation occurs when the resistor dividers are
used at both FB and NFB. True load on FB is not the full
divider current unless the positive output is shorted to
ground. See Dual Output Flyback Converter application.
NFB
PIN
Figure 2. Negative Output Resistor Divider
V
NFR
I
NFB
–V
U
OUT
R1
R2
–V
R1 =
U
OUT
2.49
= V
R2
NFB
V
OUT
+ 30 10
W
1 +
– 2.49
R1
R2
– 6
+ I
NFB
(R1)
LT1372 • F02
U
NFB
) can
NFR
)
Shutdown and Synchronization
The dual function S/S pin provides easy shutdown and
synchronization. It is logic level compatible and can be
pulled high, tied to V
A logic low on the S/S pin activates shutdown, reducing
the part’s supply current to 12 A. Typical synchronization
range is from 1.05 to 1.8 times the part’s natural switching
frequency, but is only guaranteed between 600kHz and
800kHz (LT1372) or 1.2MHz and 1.6MHz (LT1377). At
start-up, the synchronization signal should not be applied
until the feedback pin is above the frequency shift voltage
of 0.7V. If the NFB pin is used, synchronization should not
be applied until the NFB pin is more negative than – 1.4V.
A 12 s resetable shutdown delay network guarantees the
part will not go into shutdown while receiving a synchro-
nization signal.
Caution should be used when synchronizing above 700kHz
(LT1372) or 1.4MHz (LT1377) because at higher sync
frequencies the amplitude of the internal slope compensa-
tion used to prevent subharmonic switching is reduced.
This type of subharmonic switching only occurs when the
duty cycle of the switch is above 50%. Higher inductor
values will tend to eliminate problems.
Thermal Considerations
Care should be taken to ensure that the worst-case input
voltage and load current conditions do not cause exces-
sive die temperatures. The packages are rated at 120 C/W
for SO (S8) and 130 C/W for PDIP (N8).
Average supply current (including driver current) is:
Switch power dissipation is given by:
Total power dissipation of the die is the sum of supply
current times supply voltage plus switch power:
I
I
DC = switch duty cycle
P
R
P
IN
SW
SW
D(TOTAL)
SW
= 4mA + DC (I
= switch current
= (I
= output switch “On” resistance
SW
= (I
)
2
IN
R
IN
SW
SW
V
or left floating for normal operation.
IN
/60 + I
) + P
DC
SW
SW
LT1372/LT1377
0.004)
7
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