MAX5051AUI+ Maxim Integrated Products, MAX5051AUI+ Datasheet - Page 14
MAX5051AUI+
Manufacturer Part Number
MAX5051AUI+
Description
IC PWR SPLY CNTRLR 28-TSSOP
Manufacturer
Maxim Integrated Products
Datasheet
1.MAX5051AUI.pdf
(21 pages)
Specifications of MAX5051AUI+
Pwm Type
Voltage Mode
Number Of Outputs
1
Frequency - Max
500kHz
Duty Cycle
48%
Voltage - Supply
11 V ~ 76 V
Buck
No
Boost
Yes
Flyback
Yes
Inverting
No
Doubler
No
Divider
No
Cuk
No
Isolated
Yes
Operating Temperature
-40°C ~ 125°C
Package / Case
28-TSSOP Exposed Pad, 28-eTSSOP, 28-HTSSOP
Frequency-max
500kHz
Lead Free Status / RoHS Status
Lead free / RoHS Compliant
diode is a high-voltage, small-signal Schottky type. It
may be helpful to connect a resistor in series with this
diode to minimize noise as well as reduce the peak
charging currents. As in any other switching power-
supply circuit, the gate-drive loops must be kept to a
minimum. Plan PC board layout with the critical current
carrying loops of the circuit as a starting point.
The MAX5051 has additional (LXH and LXL) outputs to
make the driving of secondary-side synchronous recti-
fiers possible with a signal from the primary. These sig-
nals lead in time, the actual gate drive applied to the
main power FETs, and allow the secondary-side syn-
chronous FETs to be commutated in advance of the
power pulse. The synchronizing pulse is generated
approximately 90ns ahead of the main pulse that drives
the two power FETs.
Synchronization is accomplished by connecting a small
pulse transformer between LXH and LXL, along with
some clamp diodes (D1 and D2 in Figure 4). This is a
small integrated two-switch driver configuration that
allows for full recovery of the stored energy in the mag-
netizing inductance of the pulse transformer, thereby
significantly reducing the running bias current of the
controller. It also allows for correct transfer of DC levels
without requiring series capacitors with large time con-
stants, assuring correct drive levels for the secondary
circuit.
Select a pulse transformer, T1, so the current buildup in
its magnetizing inductance is low enough not to create
a significant voltage droop across the internal driver
FETs. Use the following formula to calculate the
Parallelable, Clamped Two-Switch
Power-Supply Controller IC
Figure 4. Secondary-Side Synchronous Rectifier Driver Using
Pulse Transformer
14
______________________________________________________________________________________
MAX5051
Secondary-Side Synchronization
LXVDD
PGND
REG5
LXH
LXL
T1: PULSE ENGINEERING, PE-68386.
D1, D2: CENTRAL SEMICONDUCTOR, CMOSH-3.
D1
4.7Ω
R1
D2
C1
1µF
T1
1N4148
D3
R2
2kΩ
approximate value of the primary magnetizing induc-
tance of T1:
where R
side pulse transformer driver on-resistances, f
switching frequency, L
magnetizing inductance, t
drains of these FETs (typically < 40ns), and C
total drain-source capacitance (approximately 10pF).
Alternatively, a high-speed optocoupler (Figure 5) can
be used instead of the pulse transformer. The look-
ahead pulse accommodates the propagation delays of
the high-speed optocoupler as well as the delays
through the gate drivers of the secondary-side FETs.
Choose optocouplers with propagation delays of less
than 50ns.
The error amplifier in the MAX5051 has an uncommitted
inverting input (FB) and output (COMP). Use this ampli-
fier when secondary isolation is not required. COMP
can then be directly connected to CON (the input of the
PWM comparator). The noninverting input of the error
amplifier is connected to the soft-start generator and is
also available externally at CSS. A capacitor connected
to CSS is slewed linearly during initial startup with the
70µA internal current source (see Figure 2). This pro-
vides a linearly increasing reference to the noninverting
input of the error amplifier forcing the output voltage
also to slew proportionally. This method of soft-start is
superior to other methods because the loop is always
Figure 5. Secondary-Side Synchronous Rectifier Driver Using
High-Speed Optocoupler
Error Amplifier And Reference Soft-Start
MAX5051
dsLXH
2 5
.
LXVDD
PGND
R
REG5
and R
LXH
LXL
dsLXH
4.7Ω
dsLXL
R1
f
+
s
R2
2kΩ
M
R
dsLXL
is the pulse transformer primary
are the internal high- and low-
s
C1
1µF
is the transition time at the
560Ω
R3
≤
L
M
HIGH-SPEED
≤
U2
PS9715
OPTO
16
C
t
s
ds s
f
5V
ds
s
C2
is the
is the
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