LTC3207 LINER [Linear Technology], LTC3207 Datasheet - Page 8
LTC3207
Manufacturer Part Number
LTC3207
Description
600mA Universal Multi-Output LED/CAM Driver
Manufacturer
LINER [Linear Technology]
Datasheet
1.LTC3207.pdf
(20 pages)
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OPERATION
LTC3207/LTC3207-1
Power Management
The LTC3207/LTC3207-1 use a switched capacitor charge
pump to boost CPO to as much as two times the input
voltage up to 5.05V. The part starts up in 1x mode. In
this mode, V
provides maximum effi ciency and minimum noise. The
LTC3207/LTC3207-1 will remain in 1x mode until an LED
current source drops out. Dropout occurs when a current
source voltage becomes too low for the programmed
current to be supplied. When dropout is detected, the
LTC3207/LTC3207-1 will switch into 1.5x mode. The CPO
voltage will then start to increase and will attempt to reach
1.5x V
the part to enter the 2x mode. The CPO voltage will attempt
to reach 2x V
A 2-phase non-overlapping clock activates the charge
pump switches. In the 2x mode, the fl ying capacitors are
charged on alternate clock phases from V
CPO voltage ripple. In 1.5x mode the fl ying capacitors are
charged in series during the fi rst clock phase and stacked
in parallel on V
of charging and discharging the fl ying capacitors continues
at a constant-frequency of 850kHz.
The current delivered by each LED current source is con-
trolled by an associated DAC. Each DAC is programmed
via the I
Soft-Start
Initially, when the part is in shutdown, a weak switch
connects V
the CPO output capacitor and to prevent large charging
currents from occurring.
The LTC3207/LTC3207-1 also employ a soft-start feature
on its charge pump to prevent excessive inrush current
and supply droop when switching into the step-up modes.
The current available to the CPO pin is increased linearly
over a typical period of 125µs. Soft-start occurs at the
start of both 1.5x and 2x mode changes.
8
BAT
2
C port.
up to 4.55V. Any subsequent dropout will cause
BAT
BAT
BAT
BAT
to CPO. This allows V
is connected directly to CPO. This mode
up to 5.05V.
during the second phase. This sequence
BAT
to slowly charge
BAT
to minimize
Charge Pump Strength
When the LTC3207/LTC3207-1 operate in either 1.5x
mode or 2x mode, the charge pump can be modeled as
a Thevenin-equivalent circuit to determine the amount of
current available from the effective input voltage and ef-
fective open-loop output resistance, R
R
switching term, 1/(2f
ances and the non-overlap period of the switching circuit.
However, for a given R
will be directly proportional to the advantage voltage of
1.5V
Consider the example of driving LEDs from a 3.1V supply.
If the LED forward voltage is 3.8V and the current sources
require 100mV, the advantage voltage for 1.5x mode is
3.1V • 1.5 – 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, for 1.5x mode the available current is
given by:
For 2x mode, the available current is given by:
Notice that the advantage voltage in this case is 3.1V • 2
– 3.8V – 0.1V = 2.3V. R
nifi cant overall increase in available current is achieved.
OL
I
I
OUT
OUT
is dependent on a number of factors, including the
BAT
– CPO for 1.5x mode and 2V
=
=
1 5 .
2
V
BAT
V
Figure 1. Equivalent Open-Loop
BAT
R
R
OL
−
OL
+
–
V
−
CPO
OSC
1.5V
V
OL
OL
CPO
, the amount of current available
BAT
• C
is higher in 2x mode but a sig-
R
OR 2V
OL
FLY
BAT
3207 F01
), internal switch resist-
BAT
CPO
+
–
– CPO for 2x mode.
OL
(Figure 1).
3207fc
(1)
(2)
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