MAX618EEE(1999) Просмотр технического описания (PDF) - Maxim Integrated
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MAX618EEE Datasheet PDF : 14 Pages
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28V, PWM, Step-Up DC-DC Converter
OPEN-DRAIN 100k
LOGIC
ON/OFF
CONTROL
MAX618
VL
SHDN
SYSTEM
LOGIC SUPPLY
MAX618
IN
VL
SYSTEM LOGIC
ON/OFF
CONTROL
SHDN
Figure 5. Adding On/Off Control to Circuit of Figure 1 or 4
Figure 6. Adding On/Off Control to Circuit of Figure 3
Shutdown Mode
In shutdown mode (SHDN = 0), the MAX618’s feed-
back and control circuit, reference, and internal biasing
circuitry turn off and reduce the IN supply current to
3µA (10µA max). When in shutdown, a current path
remains from the input to the output through the exter-
nal inductor and diode. Consequently, the output falls
to VIN less one diode drop in shutdown.
SHDN may not exceed VL. For always-on operation,
connect SHDN to VL. To add on/off control to the circuit
of Figure 1 or 4, pull SHDN to VL with a resistor (10kΩ
to 100kΩ) and drive SHDN with an open-drain logic
gate or switch as shown in Figure 5. Alternatively, the
circuit of Figure 3 allows direct SHDN drive by any
logic-level gate powered from the same supply that
powers VL and IN, as shown in Figure 6.
__________________Design Procedure
The MAX618 operates in a number of DC-DC converter
configurations including step-up, SEPIC, and flyback.
The following design discussion is limited to step-up
converters.
Setting the Output Voltage
Two external resistors (R1 and R2) set the output volt-
age. First, select a value for R2 between 10kΩ and
200kΩ. Calculate R1 with:
R1= R2
VOUT
VFB
− 1
where VFB is 1.5V.
Determining the Inductor Value
The MAX618’s high switching frequency allows the use
of a small value inductor. The recommended inductor
value is proportional to the output voltage and is given
by the following:
⋅ L
=
VOUT
7 105
After solving for the above equation, round down as
necessary to select a standard inductor value.
When selecting an inductor, choose one rated to
250kHz, with a saturation current exceeding the peak
inductor current, and with a DC resistance under
200mΩ. Ferrite core or equivalent inductors are gener-
ally appropriate (see MAX618 EV kit data sheet).
Calculate the peak inductor current with the following
equation:
( ) ILX(PEAK) =
IOUT
VOUT
VIN
+
2µs
VIN
L
VOUT − VIN
VOUT
Note that the peak inductor current is internally limited
to 2A.
Diode Selection
The MAX618’s high switching frequency demands a
high-speed rectifier. Schottky diodes are preferred for
most applications because of their fast recovery time
and low forward voltage. Make sure that the diode’s
peak current rating exceeds the 2A peak switch cur-
rent, and that its breakdown voltage exceeds the out-
put voltage.
_______________________________________________________________________________________ 9
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