RT9379 RICHTEK [Richtek Technology Corporation], RT9379 Datasheet - Page 7
RT9379
Manufacturer Part Number
RT9379
Description
6 Channels 150mA x1/x1.5/x2 Charge Pump White LED Driver
Manufacturer
RICHTEK [Richtek Technology Corporation]
Datasheet
1.RT9379.pdf
(9 pages)
Available stocks
Company
Part Number
Manufacturer
Quantity
Price
Part Number:
RT9379BGQW
Manufacturer:
RICHTEK/立锜
Quantity:
20 000
Applications Information
The RT9379 uses a fractional switched capacitor charge
pump to power up to six white LEDs with a programmable
current for uniform intensity. The part integrates current
sources and automatic mode selection charge pump. It
maintains the high efficiency by utilizing an x1/x1.5/x2
fractional charge pump and current sources. The small
equivalent x1 mode open loop resistance and ultra-low
dropout voltage of current source extend the operating
time of x1 mode and optimize the efficiency in white LED
applications.
Input UVLO
The input operating voltage range of the LED driver is from
2.8V to 4.5V. An input capacitor at the VIN pin could reduce
ripple voltage. It is recommended to use a ceramic 1μF or
larger capacitance as the input capacitor. The RT9379
provides an under voltage lockout (UVLO) function to
prevent it from unstable issue when startup. The UVLO
threshold of input rising voltage is set at 2V typically with
a hysteresis of 100mV.
Soft Start
The charge pump employs a soft start feature to limit the
inrush current. The soft-start circuit prevents the excessive
inrush current and input voltage drop. The soft-start clamps
the input current in a typical period of 50us.
Mode Decision
The RT9379 uses a smart mode selection method to decide
the working mode for optimizing the efficiency. Mode
decision circuit senses the output and LED voltage for
up/down selection. The RT9379 automatically switches
to x1.5 or x2 mode whenever the dropout condition is
detected from the current source and returns to x1 mode
whenever the dropout condition releases.
LED connection
The RT9379 supports up to 6 white LEDs. The 6 LEDs
are connected from VIN to pin1, 2, 3, 14, 15 and 16
respectively. If the LED is not used, the LED pin should
be connected to VIN directly.
DS9379-01 April 2011
Capacitors Selection
To get the better performance of the RT9379, the selection
of peripherally appropriate capacitor and value is very
important. These capacitors determine some parameters
such as input/output ripple voltage, power efficiency and
maximum supply current by charge pump. To reduce the
input and output ripple effectively, the low ESR ceramic
capacitors are recommended. For LED driver applications,
the input voltage ripple is more important than output
ripple. Input ripple is controlled by input capacitor C
increasing the value of input capacitance can further reduce
the ripple. Practically, the input voltage ripple depends on
the power supply impedance. The flying capacitor C
and C
charge pump to influence the overall efficiency of the
system. The lower value will improve efficiency. However,
it will limit the LED's current at low input voltage. For 6
X25mA load over the entire input range of 2.8V to 4.5V, it
is recommended to use a 1uF ceramic capacitor on the
flying capacitor C
Brightness Control
The RT9379 implements a PWM dimming method to
control the brightness of white LEDs. When an external
PWM signal is connected to the EN pin, brightness of
white LED is adjusted by the duty cycle. The suggested
PWM dimming frequency range is from 1kHz to 200kHz.
Thermal Considerations
For continuous operation, do not exceed absolute
maximum operation junction temperature. The maximum
power dissipation depends on the thermal resistance of
IC package, PCB layout, the rate of surroundings airflow
and temperature difference between junction to ambient.
The maximum power dissipation can be calculated by
following formula :
P
Where T
temperature, T
the junction to ambient thermal resistance.
For recommended operating conditions specification of
D(MAX)
FLY2
= ( T
J(MAX)
determine the supply current capability of the
J(MAX)
A
is the ambient temperature and the θ
is the maximum operation junction
FLY1
− T
and C
A
) / θ
JA
FLY2
.
RT9379
www.richtek.com
JA
FLY1
IN
is
7
,
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