ADP8860 Analog Devices, ADP8860 Datasheet - Page 17
ADP8860
Manufacturer Part Number
ADP8860
Description
Charge Pump, 7-Channel Smart LED Driver with I2C Interface
Manufacturer
Analog Devices
Datasheet
1.ADP8860.pdf
(52 pages)
Specifications of ADP8860
Vin Range
2.4V to 5.5V
Vout (v)
4.3 to 5.5
Synchronous
No
Package
20-Lead WLCSP
Led Configuration
Parallel
Topology
Capacitive
I2c Support
Yes
Max Iout (ma)
60mA
Brightness Control
I2C
Peak Efficiency (%)
89%
Switching Frequency
1MHz
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BACKLIGHT MAXIMUM AND DIM SETTINGS
The backlight maximum and dim current settings are deter-
mined by a 7-bit code programmed by the user into the
registers previously listed in the Backlight Operating Levels
section. The 7-bit resolution allows the user to set the backlight
to one of 128 different levels between 0 mA and 30 mA. The
ADP8860 can implement two distinct algorithms to achieve a
linear and a nonlinear relationship between input code and
backlight current. The law bits in Register 0x04 are used to
change between these algorithms.
By default, the ADP8860 uses a linear algorithm (law = 00),
where the backlight current increases linearly for a
corresponding increase of input code. Backlight current (in
millamperes) is determined by the following equation:
where:
Code is the input code programmed by the user.
Full-Scale Current is the maximum sink current allowed per
LED (typically 30 mA).
The ADP8860 can also implement a nonlinear (square approxima-
tion) relationship between input code and backlight current
level. In this case (law = 01), the backlight current (in
milliamperes) is determined by the following equation:
Figure 30 shows the backlight current level vs. input code for
both the linear and square law algorithms.
AUTOMATED FADE IN AND FADE OUT
The LED drivers are easily configured for automated fade in
and fade out. Sixteen fade in and fade out rates can be selected
via the I
0.1 sec to 5.5 sec (per full-scale current, either 30 mA or 60 mA).
Backlight Current (mA) = Code × (Full-Scale Current/127) (2)
Backlight
30
25
20
15
10
5
0
2
0
C interface. Fade in and fade out rates range from
Current
Figure 30. Backlight Current vs. Input Code
32
(
mA
LINEAR
)
=
SINK CODE
⎛
⎜
⎜
⎝
Code
64
SQUARE
×
Full
−
96
Scale
127
Current
128
⎞
⎟
⎟
⎠
2
Rev. 0 | Page 17 of 52
(3)
Table 5. Available Fade In and Fade Out Rates
Code
0000
0001
0010
0011
0100
0101
0110
0111
1000
1001
1010
1011
1100
1101
1110
1111
The fade profile is based on the transfer law selected (linear,
square, Cubic 10, or Cubic 11) and the delta between the actual
current and the target current. Smaller changes in current
reduce the fade time. For linear and square law fades, the fade
time is given by
where the Fade Rate is shown in Table 5.
The Cubic 10 and Cubic 11 laws also use the square backlight
currents in Equation 3; however, the time between each step is
varied to produce a steeper slope at higher currents and a
shallower slope at lighter currents (see Figure 31).
BACKLIGHT TURN ON/TURN OFF/DIM
With the device in active mode (nSTBY = 1), the backlight can
be turned on using the BL_EN bit in Register 0x01. Before
turning on the backlight, the user chooses which level (daylight
(L1), office (L2), or dark (L3)) in which to operate, and ensures
that maximum and dim settings are programmed for that level.
Fade Time = Fade Rate × (Code/127)
30
25
20
15
10
5
0
Figure 31. Comparison of the Dimming Transfers Laws
0
Fade Rate (in sec per Full-Scale Current)
0.1 (disabled)
0.3
0.6
0.9
1.2
1.5
1.8
2.1
2.4
2.7
3.0
3.5
4.0
4.5
5.0
5.5
0.25
UNIT FADE TIME
SQUARE
0.50
LINEAR
CUBIC 10
0.75
CUBIC 11
ADP8860
1
.00
(4)
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