LTC1698ES Linear Technology, LTC1698ES Datasheet - Page 11
LTC1698ES
Manufacturer Part Number
LTC1698ES
Description
IC PREC RECT CONTROLLER 16-SOIC
Manufacturer
Linear Technology
Datasheet
1.LTC1698ES.pdf
(24 pages)
Specifications of LTC1698ES
Pwm Type
Current Mode
Number Of Outputs
1
Frequency - Max
400kHz
Voltage - Supply
6 V ~ 12.6 V
Buck
Yes
Boost
No
Flyback
No
Inverting
No
Doubler
No
Divider
No
Cuk
No
Isolated
Yes
Operating Temperature
-40°C ~ 85°C
Package / Case
16-SOIC (3.9mm Width)
Frequency-max
400kHz
Lead Free Status / RoHS Status
Contains lead / RoHS non-compliant
Duty Cycle
-
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Company
Part Number
Manufacturer
Quantity
Price
Part Number:
LTC1698ES
Manufacturer:
LTNEAR
Quantity:
20 000
Part Number:
LTC1698ES#PBF
Manufacturer:
LINEAR/凌特
Quantity:
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Part Number:
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APPLICATIO S I FOR ATIO
drivers TG and BG go high. The pulse transformer T2
generates a negative slew at the SYNC pin and forces the
secondary MOSFET driver FG to go high and CG to go low.
When TG and BG go low, SG goes high and the secondary
controller forces CG high and FG low.
For a given pulse transformer, a bigger capacitor C
generates a higher and wider SYNC pulse. The peak of this
pulse should be much higher than the SYNC threshold.
Amplitudes greater than 5V help to speed up the SYNC
comparator and reduce the SYNC to FG and CG drivers
propagation delay. The minimum pulse width is 75ns.
Overshoot during the pulse transformer reset interval
must be minimized and kept below the minimum com-
parator thresholds of 1V. The amount of overshoot can
be reduced by having a smaller reset resistor R
nonisolated applications, the SYNC input can be driven
directly by a square pulse. To reduce the propagation
delay, make the positive and negative magnitude of the
square wave much greater than the 2.2V maximum
threshold.
In addition to the simple driver synchronization, the sec-
ondary controller requires a driver disable signal. Loss of
synchronization while CG is high will cause Q4 to dis-
charge the output capacitor. This produces a negative
output voltage transient and possible damage to the load
circuitry connected to V
the LTC1698 comes with a unique adaptive time-out
circuit. It works well within the 50kHz to 400kHz frequency
range. At every positive SYNC pulse, the internal timer
resets. If the SYNC signal is missing, the internal timer
loses its reset command, and eventually exceeds the
internal time-out limit. This forces both the FG and CG
drivers to go low immediately.
The time-out duration varies linearly with the LT3781
primary controller clocking frequency. Upon power up,
the time-out circuitry takes a few clock cycles to adapt to
the input clock frequency. During this time interval, the
drivers pulse width might be prematurely terminated, and
the inductor current flows through the MOSFETs body
diode. Once the LTC1698 timer locks to the clocking
frequency, the LTC1698 drivers follow the SYNC signal
without fail. Figure 5 shows the SYNC time-out wave-
U
OUT
U
. To overcome this problem,
W
U
SYNC
. For
SG
(INTERNAL)
(INTERNAL)
forms. The time-out circuit guarantees that if the SYNC
pulse is missing for more than one period, both the
drivers will be shut down preventing the output voltage
from going below ground. The wide synchronization
frequency range adds flexibility to the forward converter
and allows this converter chip set to meet different
application requirements.
Under normal operating conditions, the time-out circuitry
adapts to the switching frequency within a few cycles.
Once synchronized, internal circuitry ensures the maxi-
mum time that the Catch FET (Q4) could be left turned on
is typically just over one switching period. This is particu-
larly important with high output voltages that can generate
significant negative output inductor currents if the Catch
FET Q4 is left on. Poor feedback loop performance includ-
ing output voltage overshoot can cause the primary con-
troller to interrupt the synchronization pulse train. While
this generally is not a problem, it is possible that low
frequency interruptions could lead to a time-out period
longer than a switching period, limited only by the internal
timer clamp (50 s typical).
Output Voltage Programming
The switching regulator output voltage is programmed
through a resistor feedback network (R1 and R2 in
Figure 1) connected to V
value, the divider output is regulated to the error amplifier
threshold of 1.233V.
The output voltage is thus set according to the relation:
V
DISDRI
RESET
SYNC
OUT
SG
CG
FG
= 1.233 • (1 + R2/R1)
Figure 5. SYNC Time-Out Waveforms
FB
. If the output is at its nominal
LTC1698
11
1698 F05
1698f
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