MAX1627ESA+T Maxim Integrated Products, MAX1627ESA+T Datasheet - Page 10
MAX1627ESA+T
Manufacturer Part Number
MAX1627ESA+T
Description
IC STP-DN DC-DC CTRL ADJ-V 8SOIC
Manufacturer
Maxim Integrated Products
Type
Step-Down (Buck)r
Datasheet
1.MAX1627ESA.pdf
(16 pages)
Specifications of MAX1627ESA+T
Internal Switch(s)
No
Synchronous Rectifier
No
Number Of Outputs
1
Voltage - Output
1.3 ~ 16 V
Current - Output
3A
Frequency - Switching
Up to 300kHz
Voltage - Input
3 ~ 16.5 V
Operating Temperature
-40°C ~ 85°C
Mounting Type
Surface Mount
Package / Case
8-SOIC (3.9mm Width)
Power - Output
471mW
Output Voltage
1.3 V to 16 V
Output Current
3 A
Input Voltage
3 V to 16.5 V
Mounting Style
SMD/SMT
Maximum Operating Temperature
+ 85 C
Minimum Operating Temperature
- 40 C
Lead Free Status / RoHS Status
Lead free / RoHS Compliant
With high inductor values, the MAX1626/MAX1627 will
begin continuous-conduction operation at a lower frac-
tion of the full load (see Detailed Description ). Low-value
inductors may be smaller and less expensive, but they
result in greater peak current overshoot due to current-
sense comparator propagation delay. Peak-current
overshoot reduces efficiency and could cause the exter-
nal components’ current ratings to be exceeded.
The inductor’s saturation and heating current ratings
must be greater than the peak switching current to pre-
vent overheating and core saturation. Saturation occurs
when the inductor’s magnetic flux density reaches the
maximum level the core can support, and inductance
starts to fall. The heating current rating is the maximum
DC current the inductor can sustain without overheating.
The peak switching current is the sum of the current limit
set by the current-sense resistor and overshoot during
current-sense comparator propagation delay.
1µs is the worst-case current-sense comparator propa-
gation delay.
Inductors with a core of ferrite, Kool Mu™, METGLAS™,
or equivalent, are recommended. Powder iron cores
are not recommended for use with high switching
frequencies. For optimum efficiency, the inductor wind-
ings’ resistance should be on the order of the current-
sense resistance. If necessary, use a toroid, pot-core,
5V/3.3V or Adjustable, 100% Duty-Cycle,
High-Efficiency, Step-Down DC-DC Controllers
KOOL Mu is a trademark of Magnetics.
METGLAS is a trademark of Allied Signal.
Table 1. Component Selection Guide
10
Surface Mount
Miniature
Through-Hole
Low-Cost
Through-Hole
PRODUCTION
______________________________________________________________________________________
METHOD
I
PEAK
=
Sumida
CDRH125-470 (1.8A)
CDRH125-220 (2.2A)
CoilCraft
DO3316-473 (1.6A)
DO3340-473 (3.8A)
Sumida
RCH875-470M (1.3A)
CoilCraft
PCH-45-473 (3.4A)
R
V
INDUCTORS
CS
CS
V
V
OUT
L
AVX
TPS series
Sprague
595D series
Sanyo
OS-CON series
low-ESR organic
semiconductor
Nichicon
PL series
low-ESR electrolytics
United Chemi-Con
LXF series
CAPACITORS
1 s
Motorola
MBRS340T3
Nihon
NSQ series
Motorola
1N5817 to
1N5823
or shielded-core inductor to minimize radiated noise.
Table 1 lists inductor types and suppliers for various
applications.
The MAX1626/MAX1627 drive P-channel enhancement-
mode MOSFETs. The EXT output swings from GND to
the voltage at V+. To ensure the MOSFET is fully on,
use logic-level or low-threshold MOSFETs when the
input voltage is less than 8V. Tables 1 and 2 list recom-
mended suppliers of switching transistors.
Four important parameters for selecting a P-channel
MOSFET are drain-to-source breakdown voltage, cur-
rent rating, total gate charge (Q
drain-to-source breakdown voltage rating should be at
least a few volts higher than V+. Choose a MOSFET
with a maximum continuous drain current rating higher
than the peak current limit:
The Qg specification should be less than 100nC to
ensure fast drain voltage rise and fall times, and reduce
power losses during transition through the linear region.
Q
charging the MOSFET gate. EXT pin rise and fall times
vary with different capacitive loads, as shown in the
Typical Operating Characteristics . R
as low as practical to reduce power losses while the
MOSFET is on. It should be equal to or less than the
current-sense resistor.
DIODES
g
specifies all of the capacitances associated with
I
D(MAX
Dale
WSL series
IRC
LRC series
IRC
OAR series
CURRENT-SENSE
RESISTORS
External Switching Transistor
)
I
LIM MAX
(
)
Siliconix
Little Foot series
Motorola
medium-power
surface-mount products
Motorola
Motorola
TMOS power MOSFETs
g
), and R
V
R
CS MAX
DS(ON)
SENSE
MOSFETS
(
DS(ON)
)
should be
. The
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