LT3468ES5-1 Linear Technology, LT3468ES5-1 Datasheet - Page 7
LT3468ES5-1
Manufacturer Part Number
LT3468ES5-1
Description
Manufacturer
Linear Technology
Datasheet
1.LT3468ES5-1.pdf
(12 pages)
Specifications of LT3468ES5-1
Operating Temperature (max)
85C
Operating Temperature (min)
-40C
Pin Count
5
Mounting
Surface Mount
Package Type
TSOT-23
Case Length
2.9mm
Screening Level
Industrial
Lead Free Status / RoHS Status
Not Compliant
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APPLICATIO S I FOR ATIO
OPERATIO
The LT3468/LT3468-1/LT3468-2 are designed to charge
photoflash capacitors quickly and efficiently. The opera-
tion of the part can be best understood by referring to
Figure 1. When the CHARGE pin is first driven high, a one
shot sets both SR latches in the correct state. The power
NPN device, Q1, turns on and current begins ramping up
in the primary of transformer T1. Comparator A1 monitors
the switch current and when the peak current reaches 1.4A
(LT3468), 1A(LT3468-2) or 0.7A (LT3468-1), Q1 is turned
off. Since T1 is utilized as a flyback transformer, the
flyback pulse on the SW pin will cause the output of A3 to
be high. The voltage on the SW pin needs to be at least
36mV higher than V
During this phase, current is delivered to the photoflash
capacitor via the secondary and diode D1. As the second-
ary current decreases to zero, the SW pin voltage will begin
to collapse. When the SW pin voltage drops to 36mV
above V
will go low. This fires a one shot which turns Q1 back on.
This cycle will continue to deliver power to the output.
Output voltage detection is accomplished via R2, R1, Q2,
and comparator A2 (V
R2 are sized so that when the SW voltage is 31.5V above
V
latch. This disables Q1 and halts power delivery. NPN
transistor Q3 is turned on pulling the DONE pin low,
Choosing The Right Device (LT3468/LT3468-1/
LT3468-2)
The only difference between the three versions of the
LT3468 is the peak current level. For the fastest possible
charge time, use the LT3468. The LT3468-1 has the lowest
peak current capability, and is designed for applications
that need a more limited drain on the batteries. Due to the
lower peak current, the LT3468-1 can use a physically
smaller transformer. The LT3468-2 has a current limit in
between that of the LT3468 and the LT3468-1.
Transformer Design
The flyback transformer is a key element for any LT3468/
LT3468-1/LT3468-2 design. It must be designed carefully
IN
, the output of A2 goes high which resets the master
IN
or lower, the output of A3 (DCM Comparator)
U
U
IN
OUT
for this to happen.
Comparator). Resistors R1 and
U
W
U
indicating that the part has finished charging. Power
delivery can only be restarted by toggling the CHARGE pin.
The CHARGE pin gives full control of the part to the user.
The charging can be halted at any time by bringing the
CHARGE pin low. Only when the final output voltage is
reached will the DONE pin go low. Figure 2 shows these
various modes in action. When CHARGE is first brought
high, charging commences. When CHARGE is brought
low during charging, the part goes into shutdown and
V
again, charging resumes. When the target V
reached, the DONE pin goes low and charging stops.
Finally the CHARGE pin is brought low again so the part
enters shutdown and the DONE pin goes high.
and checked that it does not cause excessive current or
voltage on any pin of the part. The main parameters that
need to be designed are shown in Table 1.
The first transformer parameter that needs to be set is the
turns ratio N. The LT3468/LT3468-1/LT3468-2 accom-
plish output voltage detection by monitoring the flyback
waveform on the SW pin. When the SW voltage reaches
31.5V higher than the V
delivery. Thus, the choice of N sets the target output
voltage as it changes the amplitude of the reflected voltage
from the output to the SW pin. Choose N according to the
following equation:
OUT
N
Figure 2. Halting the Charging Cycle with the CHARGE Pin
LT3468/LT3468-1/LT3468-2
=
no longer rises. When CHARGE is brought high
V
OUT
100V/DIV
31 5 .
V
CHARGE
5V/DIV
5V/DIV
V
V
DONE
OUT
+ 2
LT3468-2
V
C
IN
OUT
= 3.6V
= 50µF
IN
voltage, the part will halt power
1s/DIV
3468 F02
OUT
voltage is
346812fa
7
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