MAX1776EUA 查看數據表(PDF) - Maxim Integrated
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MAX1776EUA Datasheet PDF : 13 Pages
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24V, 600mA Internal Switch, 100% Duty Cycle,
Step-Down Converter
Pin Description
PIN
NAME
FUNCTION
1
FB
Dual-Mode Feedback Input. Connect to GND for the preset 5V output. Connect to a resistive divider
between OUT and GND to adjust the output voltage between 1.25V and VIN.
2
GND Ground
3
ILIM
Peak Current Control Input. Connect to IN or GND to set peak current limit. ILIM and ILIM2 together set
the peak current limit. See Setting Current Limit.
4
LX
Inductor Connection. Connect LX to external inductor and diode as shown in Figure 1.
5
IN
Input Supply Voltage. Input voltage range is 4.5V to 24V.
6
ILIM2
Peak Current Control Input 2. Connect to IN or GND. ILIM and ILIM2 together set the peak current limit.
See Setting Current Limit.
7
SHDN Shutdown Input. A logic low shuts down the MAX1776 and reduces the supply current to 3µA. LX is high
impedance in shutdown. Connect to IN for normal operation.
8
OUT
Regulated Output Voltage High-Impedance Sense Input. Internally connected to a resistive divider.
Do not connect for output voltages higher than 5.5V. Connect to GND when not used.
Detailed Description
The MAX1776 step-down converter is designed primar-
ily for battery-powered devices and notebook comput-
ers. The unique current-limited control scheme
provides high efficiency over a wide load range.
Operation up to 100% duty cycle allows the lowest pos-
sible dropout voltage, increasing the usable supply
voltage range. Under no load, the MAX1776 draws only
15µA, and in shutdown mode, it draws only 3µA to fur-
ther reduce power consumption and extend battery life.
Additionally, an internal 24V switching MOSFET, inter-
nal current sensing, and a high switching frequency
minimize PC board space and component costs.
INPUT
4.5V TO 24V
CIN
J1
J2
IN
LX
SHDN
J3
ILIM
ILIM2
MAX1776
OUT
J4
GND
FB
L1
D1
OUTPUT
5V
COUT
CIN: 10µF, 25V CERAMIC
NOTE: HIGH-CURRENT PATHS SHOWN WITH BOLD LINES.
SEE TABLE 3 FOR OTHER COMPONENT VALUES
Current-Limited Control Architecture
The MAX1776 uses a proprietary current-limited control
scheme with operation to 100% duty cycle. This DC-DC
converter pulses as needed to maintain regulation,
resulting in a variable switching frequency that increas-
es with the load. This eliminates the high supply cur-
rents associated with conventional constant-frequency
pulse-width-modulation (PWM) controllers that switch
the MOSFET unnecessarily.
When the output voltage is too low, the error comparator
sets a flip-flop, which turns on the internal P-channel
MOSFET and begins a switching cycle (Figure 2). As
shown in Figure 3, the inductor current ramps up linear-
ly, storing energy in a magnetic field while charging the
output capacitor and servicing the load. The MOSFET
turns off when the peak current limit is reached, or when
the maximum on-time of 10µs is exceeded and the out-
put voltage is in regulation. If the output is out of regula-
tion and the peak current is never obtained, the
MOSFET remains on, allowing a duty cycle up to 100%.
This feature ensures the lowest possible dropout volt-
age. Once the MOSFET turns off, the flip-flop resets, the
inductor current is pulled through D1, and the current
through the inductor ramps back down, transferring the
stored energy to the output capacitor and load. The
MOSFET remains off until the 0.42µs minimum off-time
expires, and the output voltage drops out of regulation.
Figure 1. Typical Application Circuit
8 _______________________________________________________________________________________
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