LTC3205 LINER [Linear Technology], LTC3205 Datasheet - Page 7
LTC3205
Manufacturer Part Number
LTC3205
Description
Multidisplay LED Controller
Manufacturer
LINER [Linear Technology]
Datasheet
1.LTC3205.pdf
(16 pages)
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OPERATIO
Power Management
To optimize efficiency, the power management section of
the LTC3205 provides two methods of supplying power to
the CPO pin: 1:1 direct connect mode or 2:3 boost mode.
When either the main or sub displays of the LTC3205 are
enabled, the power management system connects the CPO
pin directly to V
supplied at V
the programmed current, the system will remain in this
“direct connect” mode providing maximum efficiency.
Internal circuits monitor all MAIN and SUB current sources
for the onset of “dropout,” the point at which the current
sources can no longer supply programmed current. As the
battery voltage falls, the LED with the largest forward volt-
age will reach the “drop out” threshold first. When any of
the four main or two sub display LEDs reach the dropout
threshold, the LTC3205 will switch to boost mode and au-
tomatically soft-start the 2:3 boost charge pump. The con-
stant frequency charge pump is designed to minimize the
amount of noise generated at the V
The 2:3 step-up charge pump uses a patented constant
frequency architecture to combine the best efficiency with
the maximum available power at the lowest noise level.
If the red, green or blue LEDs are programmed to be on at
any duty cycle, the charge pump runs continuously.
Soft-Start
To prevent excessive inrush current and supply droop
when switching into step-up mode, the LTC3205 employs
a soft-start feature on its charge pump. The current
available to the CPO pin is increased linearly over a period
of 1.2ms.
Charge Pump Strength
When the LTC3205 operates in 2:3 boost mode, the
charge pump can be modeled as a Thevenin-equivalent
circuit to determine the amount of current available from
the effective input voltage, 1.5V
loop output resistance, R
R
switching term, 1/(2f
tances and the nonoverlap period of the switching circuit.
OL
is dependent on a number of factors including the
IN
IN
is high enough to power all of the LEDs with
with a low impedance switch. If the voltage
U
OSC
OL
• C
(Figure 1).
FLY
IN
), internal switch resis-
and the effective open-
IN
supply.
However, for a given R
will be directly proportional to the advantage voltage 1.5V
– V
a 3.1V supply. If the LED forward voltage is 3.8V and the
current sources require 100mV, the advantage voltage is
3.1V • 1.5V – 3.8V – 0.1V or 750mV. Notice that if the input
voltage is raised to 3.2V, the advantage voltage jumps to
900mV—a 20% improvement in available strength.
From Figure 1, the available current is given by:
Typical values of R
shown in Figure 2.
Zero Shutdown Current
Although the LTC3205 is designed to have very low shut-
down current, it will draw about 400nA on V
shutdown. For applications that require zero shutdown
current, the DV
V
IN
I
CPO
OUT
current to very near zero. Internal logic ensures that the
. Consider the example of driving white LEDs from
1 5 .
3.2
3.0
2.8
2.6
2.4
2.2
2.0
Figure 1. Equivalent Open-Loop Circuit
Figure 2. Typical R
–40
V
V
V
C
CC
IN
R
IN
CPO
IN
OL
= 3V
= C
pin can be grounded. This will reduce the
–
= 4.2V
–15
CPO
V
OL
CPO
= C
TEMPERATURE ( C)
OL
as a function of temperature are
FLY1
10
, the amount of current available
+
–
= C
1.5V
R
OL
OL
FLY2
IN
3205 F01
35
vs Temperature
= 1 F
CPO
60
+
–
LTC3205
3205 F02
85
IN
when in
7
3205f
IN
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