LTC3722EGN-1#PBF Linear Technology, LTC3722EGN-1#PBF Datasheet - Page 24
LTC3722EGN-1#PBF
Manufacturer Part Number
LTC3722EGN-1#PBF
Description
IC CTLR PWM CURRENT-MODE 24SSOP
Manufacturer
Linear Technology
Datasheet
1.LTC3722EGN-1PBF.pdf
(28 pages)
Specifications of LTC3722EGN-1#PBF
Pwm Type
Current Mode, Full Bridge
Number Of Outputs
1
Frequency - Max
1MHz
Duty Cycle
98.5%
Voltage - Supply
3.8 V ~ 10.3 V
Buck
No
Boost
No
Flyback
No
Inverting
No
Doubler
No
Divider
Yes
Cuk
No
Isolated
Yes
Operating Temperature
-40°C ~ 85°C
Package / Case
24-SSOP
Frequency-max
1MHz
Lead Free Status / RoHS Status
Lead free / RoHS Compliant
Available stocks
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LTC3722-1/LTC3722-2
operaTion
loop is very helpful tool to quickly evaluate the frequency
response of various compensation networks.
Polymer Electrolytic (see Figure 13) 1/(2πC
low frequency pole. 1/(2πC
zero. The zero frequency should coincide with the worst-
case lowest output pole frequency. The pole frequency
and mid frequency gain (R
that the loop crosses over zero dB with a –1 slope at a
frequency lower than (f
cally display the frequency response. An optional higher
frequency pole set by CP2 and R
switching frequency noise.
Aluminum Electrolytic (see Figure 13) the goal of this
compensator will be to cross over the output minimum
pole frequency. Set a low frequency pole with C
at a frequency that will cross over the loop at the output
pole minimum F , place the zero formed by C
the output pole F .
Synchronous Rectification
The LTC3722-1/LTC3722-2 produces the precise timing
signals necessary to control current doubler secondary side
synchronous MOSFETs on OUTE and OUTF . Synchronous
rectifiers are used in place of Schottky or Silicon diodes
on the secondary side of the power supply. As MOSFET
R
provements can be realized with synchronous rectification,
provided that the MOSFET switch timing is optimized. An
additional benefit realized with synchronous rectifiers is
bipolar output current capability. These characteristics
DS(ON)
R
L
Figure 13. Compensation for Polymer Electrolytic
ESR
levels continue to drop, significant efficiency im-
C
O
V
OUT
R
R
D
I
2.5V
REF
LT1431 OR EQUIVALENT
AMP AND REFERENCE
PRECISION ERROR
R
f
SW
+
–
C
P2
/8). Use a bode plot to graphi-
F
OPTIONAL
C
/R
R
C
C
F
COLL
I
) sets the low frequency
) should be set such so
f
is used to attenuate
V
OUT
OPTO
C
C
R
C
and R
372212 F13
I
) sets a
and R
COMP
f
IN
at
improve transient response, particularly overshoot, and
improve ZVS ability at light loads.
Programming the Synchronous Rectifier Turn-Off Delay
The LTC3722-1/LTC3722-2 controllers include a feature to
program the turn-off edge of the secondary side synchro-
nous rectifier MOSFETs relative to the beginning of a new
primary side power delivery pulse. This feature provides
optimized timing for the synchronous MOSFETs which
improves efficiency. At higher load currents it becomes
more advantageous to delay the turn-off of the synchro-
nous rectifiers until the transformer core has been reset
to begin the new power pulse. This allows for secondary
freewheeling current to flow through the synchronous
MOSFET channel instead of its body diode.
The turn-off delay is programmed with a resistor from
SPRG to GND (see Figure 14). The nominal regulated
voltage on SPRG is 2V. The external resistor programs a
current which flows out of SPRG. The delay can be adjusted
from approximately 20ns to 200ns, with resistor values of
10k to 200k. Do not leave SPRG floating. The amount of
delay can also be modulated based on an external current
source that sinks current out of SPRG. Care must be taken
to limit the current out of SPRG to 350µA or less.
Current Doubler
The current doubler secondary employs two output induc-
tors that equally share the output load current. The trans-
former secondary is not center-tapped. This configuration
provides 2x higher output current capability compared to
similarly sized single output inductor modules, hence the
name. Each output inductor is twice the inductance value
as the equivalent single inductor configuration and the
transformer turns ratio is one-half that of a single inductor
R
SPRG
SPRG
Figure 14. Synchronous Delay Circuitry
V
+
–
2V
+
–
TURN-OFF
SYNC OUT
372212 F14
372212fa
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