MAX1842EEE Maxim Integrated Products, MAX1842EEE Datasheet - Page 14
MAX1842EEE
Manufacturer Part Number
MAX1842EEE
Description
DC/DC Switching Regulators
Manufacturer
Maxim Integrated Products
Datasheet
1.MAX1742EEE.pdf
(16 pages)
Specifications of MAX1842EEE
Case
ssop
Dc
02+
Lead Free Status / Rohs Status
Lead free / RoHS Compliant
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1A/2.7A, 1MHz, Step-Down Regulators with
Synchronous Rectification and Internal Switches
The constant-current source stops charging once the
voltage across the soft-start capacitor reaches 1.8V
(Figure 5).
For applications requiring occasional short bursts of
high output current (up to 2.7A), the MAX1842 provides
a higher current-limit threshold. When using the
MAX1842, choose external components capable of
withstanding its higher peak current limit.
The MAX1842 is capable of delivering large output cur-
rents for limited durations, and its thermal characteris-
tics allow it to operate at continuously higher output
currents. Figure 6 shows its maximum recommended
continuous output current versus ambient temperature.
Figure 7 shows the maximum recommended burst cur-
rent versus the output current duty cycle at high tem-
peratures.
Figure 7 assumes that the output current is a square
wave with a 100Hz frequency. The duty cycle is
defined as the duration of the burst current divided by
the period of the square wave. This figure shows the
limitations for continuous bursts of output current.
Note that if the thermal limitations of the MAX1842 are
exceeded, it will enter thermal shutdown to prevent
destructive failure.
The operating frequency of the MAX1742/MAX1842 is
determined primarily by t
V
f
V
However, as the output current increases, the voltage
drop across the NMOS and PMOS switches increases
and the voltage across the inductor decreases. This
causes the frequency to drop. The change in frequency
can be approximated with the following formula:
where R
(90mΩ typ).
Good layout is necessary to achieve the MAX1742/
MAX1842s’ intended output power level, high efficiency,
and low noise. Good layout includes the use of a ground
plane, careful component placement, and correct rout-
ing of traces using appropriate trace widths. The follow-
ing points are in order of decreasing importance:
14
PWM
OUT
NMOS
Frequency Variation with Output Current
______________________________________________________________________________________
as shown in the following formula:
= (V
)]
PMOS
Δf
Extended Current Limit (MAX1842)
IN
PWM
- V
is the resistance of the internal MOSFETs
= -I
OUT
Circuit Layout and Grounding
OUT
- V
x R
PMOS
OFF
PMOS
) / [t
(set by R
/ (V
OFF
IN
(V
x t
TOFF
IN
OFF
), V
- V
)
PMOS
IN
, and
+
1) Minimize switched-current and high-current ground
2) Connect the input filter capacitor less than 5mm
Figure 6. MAX1842 Maximum Recommended Continuous
Output Current vs. Temperature
Figure 7. MAX1842 Maximum Recommended Burst Current vs.
Burst Current Duty Cycle
loops. Connect the input capacitor’s ground, the out-
put capacitor’s ground, and PGND. Connect the
resulting island to GND at only one point.
away from IN. The connecting copper trace carries
large currents and must be at least 1mm wide,
preferably 2.5mm.
2.70
2.65
2.60
2.55
2.50
2.45
2.40
2.35
2.30
2.7
2.6
2.5
2.4
2.3
2.2
MAXIMUM RECOMMENDED BURST CURRENT
MAXIMUM RECOMMENDED CONTINUOUS
25
0
OUTPUT CURRENT vs. TEMPERATURE
I
FROM 1A TO THE BURST CURRENT
vs. BURST CURRENT DUTY CYCLE
OUT
35
IS A 100Hz SQUARE WAVE
20
TEMPERATURE (°C)
45
DUTY CYCLE (%)
MAX1842
T
40
A
= +85°C
55
60
65
T
80
A
75
= +55°C
85
100
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