MAX1822ESA Ver la hoja de datos (PDF) - Maxim Integrated
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MAX1822ESA Datasheet PDF : 10 Pages
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High-Side Power Supply
H-BRIDGE MOTOR CONTROL
+5V
8
1
C1
VCC
C3
10µF 4 D1
14
V+
S2 10
C1
0.047µF
C2
0.047µF
7 C1-
6
C2+
VOUT 5
MAX1822
2
C2-
GND
4
11
D2
S4 13
DG303
6
IN1
S3
9
IN2
GND D3
7
3
5
S1
D4
12
REVERSE
FORWARD
IRF541
IRF541
DC MOTOR
+5V
+
–
IRF541
IRF541
Figure 4. H-Bridge Motor Controller
internal switches during charge-pump cycles. This may
damage the device.
Output Protection
The MAX1822 is not internally short-circuit protected. In
applications where the output is susceptible to short
circuit, external output short-circuit protection must be
provided. Accomplish this by connecting a resistor
between VOUT and the load to limit output current to
less than 25mA. The resistor value is determined by the
following formula:
RCL ≥
VCC
25mA
Typical Applications
One MAX1822 Drives
Six High-Side Switches
Multiple subsystems or modules can be turned on and
off using a single MAX1822 and an open-drain hex
buffer such as the 74C906 (Figure 3). The drains of all
buffer outputs are pulled through resistors to the
MAX1822’s VOUT. The pullup resistance depends on
the number of channels being used with the MAX1822
and power-dissipation limitations. The minimum pullup
resistor value is determined by the number of channels
paralleled on each high-side power supply and the
high-side output current from the MAX1822 at a given
supply voltage, calculated as follows:
RMIN =
VOUT
x (number of channels)
IOUT
where VOUT is the high-side output voltage and IOUT is
the output current of the MAX1822.
For example, assuming an output current of 1mA and
six channels, as in Figure 3, the minimum pullup resis-
tor value that will not excessively load the MAX1822 is
about 100kΩ, assuming all six channels are pulled low
at the same time. The value of the pullup resistor also
affects the turn-on time of each FET, and hence the
amount of energy dissipated in the FET during turn-on.
The rate of rise of VGS is limited by the RC time con-
stant of the pullup resistor and FET gate capacitance;
waste power will be dissipated in the FET equal to
(ILOAD)2 x rDS during the RC time period.
H-Bridge Motor Driver
An H-bridge motor driver is shown in Figure 4. The
motor direction can be controlled by toggling between
IN1 and IN2 of the DG303 analog switch. Each switch
section turns on the appropriate FET pair, which pass-
es current through the motor in the desired direction.
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