MAX782CBX Maxim Integrated Products, MAX782CBX Datasheet - Page 21
MAX782CBX
Manufacturer Part Number
MAX782CBX
Description
DC/DC Switching Controllers
Manufacturer
Maxim Integrated Products
Datasheet
1.MAX782CBX.pdf
(32 pages)
Specifications of MAX782CBX
Number Of Outputs
2
Output Voltage
3.3 V
Output Current
18 A
Input Voltage
5.5 V to 30 V
Mounting Style
SMD/SMT
Package / Case
SSOP-36
Maximum Operating Temperature
+ 70 C
Minimum Operating Temperature
0 C
Case
SSOP36
Dc
97+
Available stocks
Company
Part Number
Manufacturer
Quantity
Price
Part Number:
MAX782CBX
Manufacturer:
MAXIM/美信
Quantity:
20 000
5. Keep the gate connections to the MOSFETs short for
6. To achieve good shielding, it is best to keep all
7. Connect the GND and PGND pins directly to the
8. Connect the bypass capacitor C2 very close (less
9. Minimize the capacitance at the transformer sec-
The layout for the evaluation board is shown in the
Evaluation Kit section. It provides an effective, low-
noise, high-efficiency example.
A “power-ready” signal can be generated from one of
the comparator outputs by connecting one of the sup-
plies (e.g., the +5V output – see Figure 6) through a
high-resistance voltage divider to the comparator input.
The threshold for the +5V-output comparator is set by
R1 and R2 according to the formula: V
+ R2) / R2. For example, choosing R1 = 1MΩ and R2 =
604kΩ sets the nominal threshold to 4.38V.
If the power-ready signal is required to indicate when
both the +3.3V and the +5V supplies have come up,
use the MAX707 supervisory circuit shown in Figure 7.
The threshold for the +3.3V-line comparator is set by
R1 and R2 according to the formula: V
+ R2) / R2. For example, choosing R1 = 1.2MΩ and R2
= 1MΩ sets the nominal threshold to 2.75V. The thresh-
old for the +5V supply is preset inside the MAX707,
and is typically 4.65V. The reset outputs remain assert-
ed while either supply line is below its threshold, and
for at least 140ms after both lines are fully up.
If sequencing of the +3.3V and +5V supplies is critical,
several approaches are possible. For example, the
SS3 and SS5 capacitors can be sized to ensure that
the two supplies come up in the desired order. This
technique requires that the SS capacitors be selected
specifically for each individual situation, because the
loading on each supply affects its power-up speed.
low inductance (less than 20mm long and more than
0.5mm wide) to ensure clean switching.
high-voltage switching signals (MOSFET gate dri-
ves DH3 and DH5, BST3 and BST5, and the two LX
nodes) on one side of the board and all sensitive
nodes (CS3, CS5, FB3, FB5 and REF) on the other
side.
ground plane, which should ideally be an inner layer
of a multilayer board.
than 10mm) to the VL pin.
ondary. Place D5 and C12 very close to each other
and to the secondary, then route the output to the IC’s
VDD pin with a short trace. Bypass with 0.1µF close
to the VDD pin if this trace is longer than 50mm.
Power-Ready and Power Sequencing
______________________________________________________________________________________
Controller for Notebook Computers
TH
TH
= 1.65V x (R1
= 1.25V x (R1
Triple-Output Power-Supply
Another approach uses the “power-ready” comparator
output signal (see Figure 6) from one supply as a con-
trol input to the ON_ pin of the other supply.
Figure 6. Power-Ready Signal for the +5V Supply
Figure 7. Power-Ready Signal Covers Both +3.3V and +5V
Supplies with External Voltage Monitor IC (MAX707)
1.24M
1M
R2
R1
+3.3V
SUPPLY
604k
+5V
SUPPLY
1M
+5V
SUPPLY
PFI
R2
R1
GND
V
4.65V
FB5
1.25V
D_
CC
1.65V
RESET
GND
MAX782
MAX707
RESET
RESET
MR
PFO
Q_
+5V
POWER-READY
POWER READY
POWER READY
21
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