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LTC3577-3 Datasheet, PDF (36/52 Pages) Linear Technology – Highly Integrated Portable Product PMIC
LTC3577-3/LTC3577-4
OPERATION
The PWM mode, if enabled, is set up using 3 values,
PWMNUM [3:0] and PWMDEN [3:0] in the I2C “LED PWM
Register” and PWMCLK, set by PWMC2 and PWMC1 in
the I2C “LED Control Register.”
Duty Cycle = PWMNUM
PWMDEN
Frequency = PWMCLK
PWMDEN
Table 6. PWM Clock Frequency
PWMC2
PWMC1
0
0
0
1
1
0
1
1
PWMCLK
8.77kHz
4.39kHz
2.92kHz
2.19kHz
Using the PWM control, a 4-bit internally generated PWM is
possible as additional dimming. Using these control bits a
number of PWM duty cycles and frequencies are available
in the 100Hz to 500Hz range. This range was selected to
be below the audio range and above the frequency where
the PWM is visible.
For example, given PWMC2 = 1, PWMC1 = 0,
PWMNUM[3:0] = 0111 and PWMDEN[3:0] = 1100 then
the duty cycle will be 58.3% and PWM frequency will be
243Hz.
If PWMNUM is set to 0 then the duty cycle will be 0% and
the current sink will effectively be off. If PWMNUM is ever
programmed to a value larger than PWMDEN the duty
cycle will be 100% and the current sink will effectively be
constant. PWMDEN and PWMNUM may both be changed
to result in 73 different duty cycle possibilities and 41 dif-
ferent PWM frequencies between 8.77kHz and 100Hz.
When PWM mode is enabled a small (2μA) standby current
source is always enabled on the LED pin. The purpose of
this is to have some current flowing in the LED’s at all times.
This helps to reduce the magnitude of the voltage swing
on the LED pin as the current is pulsed on and off.
Fixed Boost Output
Setting MD1 to 1 and MD2 to 0 selects the fixed high
voltage boost mode. This mode can be used to generate
output voltages at or greater than VOUT. When configured
as a boost converter the ILED pin becomes the feedback
pin, and the boost will regulate the output voltage such
that the voltage on the ILED pin is 800mV.
Figure 12 shows a fixed 12V output generated using the
boost converter in the fixed high voltage boost mode. Any
output voltage up to 40V may be programmed by select-
ing appropriate values for the R1 and R2 voltage divider
from the equation:
VBOOST
=
0.8V
•
⎛
⎝⎜
R1
R2
+
⎞
1⎠⎟
Values for R2 should be kept below 24.3k to keep the pole
at the ILED pin beyond cross over.
The boost is designed primarily as a high voltage and high
duty cycle converter. When operating with a lower boost
ratio, a larger output capacitor, 10μF, should be used. Op-
erating with a very low duty cycle will cause cycle skipping
which will increase ripple.
C1
22μF
VOUT
ILED_FS
39
3
LTC3577-3/
LTC3577-4 18
SW
19
SW 20
SW
L4
10μH
LPS4018-103ML
D12
ZLLS400
R1
ILED 22 800mV VREF
301k
R2
LED_OV 9
21.5k
357734 F12
BOOST
C2
10μF
10V
Figure 12. Fixed 12V/75mA Boost Output Application
36
357734fa