MAX8758ETG+T Maxim Integrated Products, MAX8758ETG+T Datasheet - Page 12
MAX8758ETG+T
Manufacturer Part Number
MAX8758ETG+T
Description
IC REG STEP UP 24-TQFN
Manufacturer
Maxim Integrated Products
Datasheet
1.MAX8758ETGT.pdf
(20 pages)
Specifications of MAX8758ETG+T
Applications
Converter, TFT, LCD
Voltage - Input
1.8 ~ 5.5 V
Number Of Outputs
1
Voltage - Output
5V
Operating Temperature
0°C ~ 85°C
Mounting Type
Surface Mount
Package / Case
24-TQFN Exposed Pad
Lead Free Status / RoHS Status
Lead free / RoHS Compliant
The internal n-channel power MOSFET reduces the
number of external components. The supply rail of the
internal gate driver is bootstrapped to the internal linear
regulator output to improve the efficiency at low-input
voltages. The external-capacitor, soft-start function
effectively controls inrush currents. The output voltage
can be set from V
voltage-divider.
Figure 3 is the block diagram of the step-up regulator.
The regulator controls the output voltage and the power
delivered to the output by modulating the duty cycle (D)
of the internal power MOSFET in each switching cycle.
The duty cycle of the MOSFET is approximated by:
where V
On the rising edge of the internal oscillator clock, the
controller sets a flip-flop, turning on the n-channel
MOSFET and applying the input voltage across the
inductor. The current through the inductor ramps up lin-
early, storing energy in its magnetic field. A transcon-
ductance error amplifier compares the FB voltage with
a 1.24V (typ) reference voltage. The error amplifier
changes the COMP voltage by charging or discharging
the COMP capacitor. The COMP voltage is compared
with a ramp, which is the sum of the current-sense sig-
nal and a slope compensation signal. Once the ramp
signal exceeds the COMP voltage, the controller resets
the flip-flop and turns off the MOSFET. Since the induc-
tor current is continuous, a transverse potential devel-
ops across the inductor that turns on the Schottky
diode (D1 in Figure 1). The voltage across the inductor
then becomes the difference between the output volt-
age and the input voltage. This discharge condition
forces the current through the inductor to ramp down,
transferring the energy stored in the magnetic field to
the output capacitor and the load. The MOSFET
remains off for the rest of the clock cycle.
Step-Up Regulator with Switch Control
and Operational Amplifier for TFT LCD
Table 2. Component Suppliers
12
Fairchild Semiconductor
Sumida
TDK
Toshiba
______________________________________________________________________________________
OUT
SUPPLIER
is the output voltage of the step-up regulator.
D
IN
≈
to 13V with an external resistive
V
OUT
V
OUT
−
V
IN
PWM Control Block
408-822-2000
847-545-6700
847-803-6100
949-455-2000
PHONE
The MAX8758 features bootstrapping operation. In nor-
mal operation, the internal linear regulator supplies
power to the internal circuitry. The input of the linear
regulator (OUT) should be directly connected to the
output of the step-up regulator. The step-up regulator is
enabled when the input voltage at OUT is above 1.75V,
SHDN is high, and the fault latch is not set.
After being enabled, the regulator starts open-loop
switching to generate the supply voltage for the linear
regulator with a controlled duty cycle. The internal ref-
erence block turns on when the LDO voltage exceeds
2.7V (typ). When the reference voltage reaches regula-
tion, the PWM controller and the current-limit circuit are
enabled and the step-up regulator enters soft-start.
Figure 3. Step-Up Regulator Block Diagram
OSCILLATOR
408-822-2102
847-545-6720
847-390-4405
949-859-3963
CLOCK
TO FAULT LOGIC
FAX
SLOPE COMP
COMPARATOR
COMPARATOR
COMPARATOR
FAULT
PWM
ILIM
LOGIC AND
DRIVER
Bootstrapping and Soft-Start
1.0V
www.fairchildsemi.com
www.sumida.com
www.component.tdk.com
www.toshiba.com/taec
∑
SOFT-
START
ERROR AMP
CURRENT
I
LIMIT
SENSE
WEBSITE
1.24V
LX
PGND
SS
FB
COMP
FREQ
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