TI1 LED171596ARSLR 96-led matrix driver for rgb and white led Datasheet

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LED171596A
SNVSAY2 – OCTOBER 2017
LED171596A 96-LED Matrix Driver for RGB and White LEDs
1 Features
3 Description
•
The LED171596A is an LED driver that can
individually control up to 96 LEDs. The driver has 9bit duty cycle and 8-bit current control of each lowside LED current sink. Each current sink can be
individually controlled through the I2C-compatible or
SPI interface.
•
•
•
24
–
–
–
High-Precision Current Sinks
60-mA Peak Current per Channel
Current Matching ±5%
Independent 9-Bit Duty Cycle PWM and 8-Bit
LED Current Control
– 7-V Tolerant
– ISET Resistor to Set Global Current
– Ghosting Cancellation
Four Low Resistance High Side Series Switches
– 1.5-A Current-Rated PMOS
I2C, SPI, and PWM Brightness Control Modes
Extensive Protection Features
– Open and Shorted LED Fault Detection
– Thermal Shutdown Protection
The individual LED brightness is internally multiplied
with a global brightness register value. This allows
the control of all the LEDs at once with a single
register or PWM input signal. This global brightness
control also passes through a brightness sloper
function to create optically smooth brightness
transitions without the need for multiple register
writes.
Device Information(1)
PART NUMBER
LED171596A
2 Applications
•
•
PACKAGE
VQFN (48)
BODY SIZE (NOM)
6.00 mm × 6.00 mm
(1) For all available packages, see the orderable addendum at
the end of the data sheet.
Control Panel Illumination
Local Dimming LED Backlight Drivers
space
space
space
Simplified Schematic
VDD
VDDIO
VDD
VLED
GND
ISET
VLED
VDDIO
LED_GND
EN
IFSEL_LATCH
GND
EPAD
INT
SCLK_SCL
MISO_ADDR
MOSI_SDA
SS_PWM
LED23
LED0
LED12
LED11
HS0
HS1
HS2
HS3
Copyright © 2016, Texas Instruments Incorporated
1
An IMPORTANT NOTICE at the end of this data sheet addresses availability, warranty, changes, use in safety-critical applications,
intellectual property matters and other important disclaimers. ADVANCE INFORMATION for pre-production products; subject to
change without notice.
ADVANCE INFORMATION
1
LED171596A
SNVSAY2 – OCTOBER 2017
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Table of Contents
1
2
3
4
5
6
Features ..................................................................
Applications ...........................................................
Description .............................................................
Revision History.....................................................
Pin Configuration and Functions .........................
Specifications.........................................................
6.1
6.2
6.3
6.4
6.5
6.6
6.7
6.8
6.9
7
1
1
1
2
3
5
8
8.1 Application Information.......................................... 144
8.2 Typical Application ............................................... 144
9
Absolute Maximum Ratings ..................................... 5
ESD Ratings.............................................................. 5
Recommended Operating Conditions....................... 5
Thermal Information ................................................. 6
Electrical Characteristics........................................... 6
Timing Requirements for EN, IFSEL_LATCH........... 8
Timing Requirements for SPI Interface..................... 8
Timing Requirements for I2C Interface ..................... 9
Typical Characteristics ............................................ 10
ADVANCE INFORMATION
Overview .................................................................
Functional Block Diagram .......................................
Feature Description.................................................
Device Functional Modes........................................
Programming...........................................................
Register Maps .........................................................
Power Supply Recommendations.................... 147
9.1 Power Start-up and Shutdown Sequence............. 147
9.2 VLED Input Supply Recommendations................. 147
9.3 VDD Input Supply Recommendations .................. 147
10 Layout................................................................. 148
10.1 Layout Guidelines ............................................... 148
10.2 Layout Example .................................................. 148
10.3 Thermal Information ............................................ 149
11 Device and Documentation Support ............... 150
11.1 Device Support....................................................
11.2 Related Documentation .....................................
11.3 Receiving Notification of Documentation
Updates..................................................................
11.4 Community Resources........................................
11.5 Trademarks .........................................................
11.6 Electrostatic Discharge Caution ..........................
11.7 Glossary ..............................................................
Detailed Description ............................................ 12
7.1
7.2
7.3
7.4
7.5
7.6
Application and Implementation ...................... 144
12
13
13
21
23
26
150
150
150
150
150
150
150
12 Mechanical, Packaging, and Orderable
Information ......................................................... 150
4 Revision History
2
DATE
REVISION
NOTES
October 2017
*
Initial release
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5 Pin Configuration and Functions
HS1
VLED
HS2
38
37
GND
1
36
GND
2
35
VDDIO
GND
3
34
MOSI_SDA
HS3
LED19
24
25
LED18
12
23
LED20
LED7
LED17
26
22
11
21
LED21
LED6
LED15
LED22
27
LED16
28
10
20
9
LED5
LED14
LED4
19
LED23
LED13
29
18
8
LED12
GND
LED3
17
30
LGND
7
16
VDD
LED2
LED11
31
15
6
LED10
INT
LED1
14
MISO_ADDR
32
13
33
5
LED9
4
LED8
ISET
LED0
ADVANCE INFORMATION
HS0
39
EN
43
40
SCLK_SCL
44
SS_PWM
GND
45
IFSEL_LATCH
GND
46
41
GND
47
42
GND
48
RSL Package
48-Pin VQFN With Thermal Pad
Top View
Copyright © 2016, Texas Instruments Incorporated
Pin Functions
PIN
NO.
NAME
TYPE
DESCRIPTION
1
GND
Ground
Connect to Ground.
2
GND
Ground
Connect to Ground.
3
GND
Ground
Connect to Ground.
4
ISET
Analog
Connection for external resistor to globally set the maximum current for
each current sink (RSET = 750/ILED_MAX)
5
LED0
Analog
Constant-current output
6
LED1
Analog
Constant-current output
7
LED2
Analog
Constant-current output
8
LED3
Analog
Constant-current output
9
LED4
Analog
Constant-current output
10
LED5
Analog
Constant-current output
11
LED6
Analog
Constant-current output
12
LED7
Analog
Constant-current output
13
LED8
Analog
Constant-current output
14
LED9
Analog
Constant-current output
15
LED10
Analog
Constant-current output
16
LED11
Analog
Constant-current output
17
LGND
Ground
LED-driver ground
18
LED12
Analog
Constant-current output
19
LED13
Analog
Constant-current output
20
LED14
Analog
Constant-current output
21
LED15
Analog
Constant-current output
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Pin Functions (continued)
PIN
TYPE
DESCRIPTION
NO.
NAME
22
LED16
Analog
Constant-current output
23
LED17
Analog
Constant-current output
24
LED18
Analog
Constant-current output
25
LED19
Analog
Constant-current output
26
LED20
Analog
Constant-current output
27
LED21
Analog
Constant-current output
28
LED22
Analog
Constant-current output
29
LED23
Analog
Constant-current output
30
GND
Ground
Ground for analog and digital circuitry
31
VDD
Power
3.3-V supply for analog and digital circuitry
Interrupt pin. Open drain output. Pull up to VDDIO
ADVANCE INFORMATION
32
INT
Output
33
MISO_ADDR
Input / Output
SPI master in, slave out, and I2C address select input
34
MOSI_SDA
Input / Output
SPI master out, slave in, and I2C data. When configured for I2C, pull up
to VDDIO required.
35
VDDIO
Power
Reference and power supply for logic pins
36
HS3
Analog
High-side PMOS switch output for LED group 3
37
HS2
Analog
High-side PMOS switch output for LED group 2
38
VLED
Power
Input pin for high-side switches
39
HS1
Analog
High-side PMOS switch output for LED group 1
40
HS0
Analog
High-side PMOS switch output for LED group 0
41
IFSEL_LATCH
Input
IFSEL = 1 selects I2C-compatible interface and IFSEL = 0 selects SPI
interface after EN pin set high. Optional latch input for brightness and
current register buffers when in normal mode.
42
SS_PWM
Input
SPI slave select and global PWM input
43
EN
Input
Enable (internally pulled low)
44
SCLK_SCL
Input
SPI serial clock and I2C clock input. When configured for I2C, pull up to
VDDIO required.
45
GND
Ground
Connect to Ground
46
GND
Ground
Connect to Ground
47
GND
Ground
Connect to Ground
48
GND
Ground
Connect to Ground
Exposed
Thermal Pad
4
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Must be connected to GND (pins 1, 2, 3, 30, 45, 46, 47 and 48), LGND
(pin 17) and common ground plane. See the Figure 310. Must be
soldered to achieve appropriate power dissipation and mechanical
reliability.
Copyright © 2017, Texas Instruments Incorporated
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6 Specifications
6.1 Absolute Maximum Ratings
over operating free-air temperature range (unless otherwise noted) (1)
Voltage on pins
MIN
MAX
VLED, LED0…LED23
–0.3
7
VDD, VDDIO, ISET
–0.3
3.6
EN, IFSEL_LATCH, SCLK_SCL, MISO_ADDR, MOSI_SDA, SS_PWM,
INT
–0.3
VDDIO
Continuous power dissipation
Thermal
V
Internally limited
Ambient temperature
–40
85
°C
Junction temperature
–40
125
°C
Maximum lead temperature (soldering)
SLMA002
Storage temperature, Tstg
–40
°C
150
°C
Stresses beyond those listed under Absolute Maximum Ratings may cause permanent damage to the device. These are stress ratings
only, which do not imply functional operation of the device at these or any other conditions beyond those indicated under Recommended
Operating Conditions. Exposure to absolute-maximum-rated conditions for extended periods may affect device reliability.
6.2 ESD Ratings
VALUE
V(ESD)
(1)
(2)
Electrostatic
discharge
Human-body model (HBM), per ANSI/ESDA/JEDEC JS-001 (1)
±2000
Charged-device model (CDM), per JEDEC specification JESD22-C101 (2)
±500
UNIT
V
JEDEC document JEP155 states that 500-V HBM allows safe manufacturing with a standard ESD control process. Pins listed as ±2000
V may actually have higher performance.
JEDEC document JEP157 states that 250-V CDM allows safe manufacturing with a standard ESD control process. Pins listed as ±500 V
may actually have higher performance.
6.3 Recommended Operating Conditions
over operating free-air temperature range (unless otherwise noted) (1)
MIN
TYP
VLED
LED0…LED23
VDD Operating
Voltage on pins
VDD Startup
VDDIO
(1)
Ambient temperature
UNIT
6.1
V
VLED
V
2.9
3.3
3.5
V
3
3.3
3.5
V
1.65
1.8/3.3
3.5
V
VDDIO
V
85
°C
EN, IFSEL_LATCH, SCLK_SCL, MISO_ADDR, MOSI_SDA,
SS_PWM, INT
Thermal
MAX
–40
In applications where high power dissipation and/or poor package thermal resistance is present, the maximum ambient temperature may
have to be derated. Maximum ambient temperature (TA-MAX) is dependent on the maximum operating junction temperature (TJ-MAX-OP =
125°C), the maximum power dissipation of the device in the application (PD-MAX), and the junction-to-ambient thermal resistance of the
part/package in the application (RθJA), as given by the following equation: TA-MAX = TJ-MAX-OP – (RθJA × PD-MAX).
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ADVANCE INFORMATION
(1)
UNIT
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6.4 Thermal Information
LED171596A
THERMAL METRIC (1)
RSL (VQFN)
UNIT
48 PINS
RθJA
Junction-to-ambient thermal resistance
30.2
°C/W
RθJC(top)
Junction-to-case (top) thermal resistance
15.9
°C/W
RθJB
Junction-to-board thermal resistance
5.1
°C/W
ΨθJT
Junction-to-top characterization parameter
0.2
°C/W
ΨθJB
Junction-to-board characterization parameter
5.0
°C/W
RθJC(bot)
Junction-to-case (bottom) thermal resistance
1.2
°C/W
(1)
For more information about traditional and new thermal metrics, see the Semiconductor and IC Package Thermal Metrics application
report.
6.5 Electrical Characteristics
Limits apply over the full ambient temperature range –40°C < TA < +85°C. Unless otherwise specified: VDD = 3.3 V, VDDIO =
3.3 VLED = 5 V, ILED_PK = 60 mA, CVLED = 10 µF, CVDD = 1 µF.
PARAMETER
TEST CONDITIONS
ADVANCE INFORMATION
MIN
TYP
MAX
3
3.3
3.5
2.9
3.3
3.5
UNIT
GENERAL
VDD
VDD supply votage
VDD IQ
Start-up
Normal Operation
Shutdown mode current
EN = L,
Standby mode current
EN = H, LEDs drivers disabled
Normal mode current
7
V
10
uA
9
mA
EN = H, 20-mA peak per LED, 100% duty
37
55
EN = H, 60-mA peak per LED, 100% duty
99
160
VDD rising, POR releases
2.81
2.88
2.95
VDD falling, POR activates
2.71
2.78
2.85
mA
VDDPOR
VDD power-on reset
threshold
TTSD
Thermal shutdown
threshold
150
°C
TTSD_THR
Thermal shutdown
hysteresis
20
°C
VDDIO
VDDIO supply voltage
VDDIO IQ
VDDIO supply current
6
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1.65
Serial interface idle
V
1.8/3.3
3.5
V
2
5
µA
Copyright © 2017, Texas Instruments Incorporated
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Electrical Characteristics (continued)
Limits apply over the full ambient temperature range –40°C < TA < +85°C. Unless otherwise specified: VDD = 3.3 V, VDDIO =
3.3 VLED = 5 V, ILED_PK = 60 mA, CVLED = 10 µF, CVDD = 1 µF.
PARAMETER
TEST CONDITIONS
MIN
TYP
MAX
UNIT
1
µA
60
63.6
mA
LED CURRENT SINK AND LED PWM
Leakage current
LED0 to LED23, VLED = 6.1 V
IMAX
LED sink current (peak)
LED0 to LED23, RISET = 12.5 kΩ
55.7
Output current accuracy
IOUT = 60 mA, PWM duty =100%
–7%
Output current matching
IOUT = 60 mA, PWM duty =100%
–5%
IACCURACY (1)
IMATCH
(2)
VSAT (3)
Saturation voltage
OUTPWMRES
LED PWM resolution
tRISE
LED output rise time
VLEDOPEN
LED open detection
threshold
VLEDSHORT
LED short detection
threshold
7%
5%
IOUT = 60 mA
215
405
600
IOUT = 20 mA
50
153
255
9
IOUT = 60 mA
V
bit
30
ns
drv_headroom[1:0] = 00b
0.075
0.27
0.5
drv_headroom[1:0] = 01b
0.36
VSAT+0.25
0.97
drv_headroom[1:0] = 10b
0.6
VSAT+0.5
1.22
drv_headroom[1:0] = 11b
0.85
VSAT+0.75
1.5
3.7
4
4.14
V
VLED = 5 V
V
ADVANCE INFORMATION
ILEAKAGE
HIGH SIDE SWITCH
VLED IQ
VLED Leakage
VDD = 0V, EN = L
1
µA
Shutdown mode current
VLED = 6.1 V, EN = L
6.8
14.8
28.7
µA
Normal mode current
VLED = 6.1 V, EN = H, ENABLES = 0x01,
LED_DRIVER_CONTROL =0x0
140
182
225
µA
LOGIC INPUT EN
VIL
Input low level
VIH
Input high level
II
Input current
RPD
Input resistor
0.2 ×
VDDIO
0.8 ×
VDDIO
VPIN ≤ VDDIO
V
V
0.7
3.6
6.5
µA
0.6
1
4.7
MΩ
LOGIC INPUT IFSEL_LATCH, SCLK_SCL, MOSI_SDA, MISO_ADDR, SS_PWM
VIL
Input low level
VIH
Input high level
II
Input current
0.2 ×
VDDIO
0.8 ×
VDDIO
VPIN ≤ VDDIO
V
V
−1
1
µA
20
kHz
LOGIC INPUT PWM
ƒPWM_IN
PWM input frequency
0.1
tON_OFF_MIN
PWM input minimum
on/off time
200
INPWMRES
PWM input resolution
ns
9
bits
LOGIC OUTPUT INT
VINTOL
Output low level
IINTLEAK
Output leakage current
IOUT = 3 mA
0.3
0.5
V
1
µA
0.5
V
LOGIC OUTPUT MISO
VSDOOL
(1)
(2)
(3)
Output low level
IOUT = 3 mA
0.3
Output Current Accuracy is the difference between the actual value of the output current and programmed value of this current.
Matching is the maximum difference from the average. For the constant current outputs on the part (LED0 to LED23), the following are
determined: the maximum output current (MAX), the minimum output current (MIN), and the average output current of all outputs (AVG).
Two matching numbers are calculated: (MAX-AVG)/AVG and (AVG-MIN)/AVG. The largest number of the two (worst case) is
considered the matching figure.
Saturation voltage is defined as the voltage when the LED current has dropped 10% from the value measured at 1 V.
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Electrical Characteristics (continued)
Limits apply over the full ambient temperature range –40°C < TA < +85°C. Unless otherwise specified: VDD = 3.3 V, VDDIO =
3.3 VLED = 5 V, ILED_PK = 60 mA, CVLED = 10 µF, CVDD = 1 µF.
PARAMETER
TEST CONDITIONS
VSDOOH
Output high level
IOUT = –2 mA
ISDOLEAK
Output leakage current
VPIN ≤ VDDIO
MIN
TYP
0.7 ×
VDDIO
0.9 ×
VDDIO
MAX
UNIT
V
1
µA
LOGIC OUTPUT SDA
VSDAOL
Output low level
IOUT = 3 mA
ISDALEAKAGE
Output leakage current
VSDA = VDDIO = 3.5 V
0.3
0.5
V
1
µA
6.6 Timing Requirements for EN, IFSEL_LATCH
MIN
ADVANCE INFORMATION
tEN
Time from EN rising edge until SPI or I2C first access
tDISABLE
EN low time for reset detection
tIFSEL_HOLD
IFSEL_LATCH hold time following EN rising edge
tLATCH
Minimum LATCH pulse width
TYP
MAX
UNIT
5
ms
0.125
ms
1
ms
500
ns
6.7 Timing Requirements for SPI Interface
MIN
t1
Cycle time
t2
TYP
MAX
UNIT
100
ns
Enable lead time
50
ns
t3
Enable lag time
50
ns
t4
Clock low time
45
ns
t5
Clock high time
45
ns
t6
Data setup time
20
ns
t7
Data hold time
20
t8
Disable time
t9
Data valid
t10
SS inactive time
50
Cb
Bus capacitance
5
8
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ns
30
ns
35
ns
40
pF
ns
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6.8 Timing Requirements for I2C Interface
MIN
TYP
MAX
UNIT
1
MHz
fscl
Clock frequency
1
Hold time (repeated) START condition
260
ns
2
Clock low time
500
ns
3
Clock high time
260
ns
4
Set-up time for repeated START condition
260
ns
5
Data hold time
0
ns
6
Data set-up time
7
Rise time of SDA and SCL
120
ns
8
Fall time of SDA and SCL
120
ns
9
Set-up time for STOP condition
260
10
Bus free time between a STOP and START condition
500
11
Data valid acknowledge time
50
450
ns
12
Data valid time
50
450
ns
50
ns
ns
ADVANCE INFORMATION
ns
SDA
10
8
7
6
7
8
2
1
SCL
1
5
3
4
9
Figure 1. I2C Timing
SS
10
2
1
4
3
5
SCLK
6
SDI
7
MSB IN
BIT 30
BIT 16
BIT 15
BIT 1
LSB IN
9
MSB OUT
SDO
ADDRESS
R/W
8
BIT 1
LSB OUT
DATA
Figure 2. SPI Timing
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6.9 Typical Characteristics
Unless specified otherwise, typical characteristics apply over the full ambient temperature range (–40°C < TA < +85°C), VDD =
3.3 V, VDDIO = 3.3 VLED = 5 V, ILED_PK = 60 mA, CVLED = 10 μF, CVDD = 1 μF,
2.95
102
100
2.9
UVLO HYST (mV)
UVLO THRESHOLD (V)
UVLO FALLING
UVLO RISING
2.85
98
96
2.8
94
2.75
-40 -20
0
20
92
-40 -20
40 60 80 100 120 140
TEMP (qC)
D002
ADVANCE INFORMATION
Figure 3. VDD UVLO Rising and Falling Thresholds
-40 C
25 C
85 C
125 C
520
VSAT (mV)
VSAT (mV)
500
480
460
440
420
400
380
360
0
2
4
6
260
250
240
230
220
210
200
190
180
170
160
150
140
130
120
8 10 12 14 16 18 20 22
LED CHANNEL
D007
ISET = 12.5 kΩ
4
6
8 10 12 14 16 18 20 22
LED CHANNEL
D008
Figure 6. VSAT vs LED Channel
600
VSAT_60mA
VSAT_20mA
550
500
HS RDSON (m:)
500
450
VSAT (mV)
2
ISET = 37.5 kΩ
Figure 5. VSAT vs LED Channel
550
40 60 80 100 120 140
TEMP (qC)
D003
-40 C
25 C
85 C
125 C
0
650
600
20
Figure 4. VDD UVLO Hysteresis
560
540
0
400
350
300
250
450
400
350
300
250
200
200
150
150
100
100
50
-40 -20
0
20
40 60 80 100 120 140
TEMP (qC)
D009
VLED = 6.1V
VLED = 4V
VLED = 1.8V
50
-40 -20
0
20
40 60 80 100 120 140
TEMP (°C)
D005
ISET = 12.5 kΩ and 37.5 kΩ
Figure 7. VSAT vs Temperature
10
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Figure 8. High Side Switch RDSON
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Typical Characteristics (continued)
Unless specified otherwise, typical characteristics apply over the full ambient temperature range (–40°C < TA < +85°C), VDD =
3.3 V, VDDIO = 3.3 VLED = 5 V, ILED_PK = 60 mA, CVLED = 10 μF, CVDD = 1 μF,
1.1
0.175
VIL
VIH
INPUT PIN THRESHOLD (V)
0.165
VDDIO_1.65V
VDDIO_TYP
VDDIO_3.5V
VOL (V)
0.155
0.145
0.135
0.125
1
0.9
0.8
0.7
0.115
0.105
-40 -20
0
20
0.6
-40 -20
40 60 80 100 120 140
TEMP (qC)
D010
0
20
40 60 80 100 120 140
TEMP (°C)
D014
Figure 9. VOL vs Temperature
ADVANCE INFORMATION
VDDIO = 1.65 V
Figure 10. VIH and VIL vs Temperature
1.9
INPUT PIN THRESHOLD (V)
VIL
VIH
1.8
1.7
1.6
1.5
1.4
-40 -20
0
20
40 60 80 100 120 140
TEMP (°C)
D015
VDDIO = 3.5 V
Figure 11. VIH and VIL vs Temperature
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7 Detailed Description
7.1 Overview
The LED171596A is a LED driver that can individually control up to 96 LEDs. To control the 96 LEDs in a 4 × 24
matrix the device uses four high-side PMOS switches and 24 low-side programmable current sinks. Each of the
low-side current sinks has independent 9-bit duty cycle and 8-bit current control. The individually duty and current
values can be controlled through the SPI or I2C-compatible interfaces.
The four high-side switches allow the LED171596A 15 mA (ILED_MAX /4).
The individual LED brightness is internally multiplied with a global brightness register value. This allows the
control of all the LEDs at once with a single master brightness register or PWM input signal. This master
brightness also passes through a brightness sloper function to create optically smooth brightness transitions
without the need for multiple register writes.
ADVANCE INFORMATION
Device control interface features:
• EN is an enable input for LED171596A
• INT is an open-drain interrupt output (indicating fault condition detection or sloper completion, for example)
• IFSEL_LATCH is a dual function pin which is used for selecting between I2C-compatible and SPI after rising
edge of EN pin then can be used to latch register changes.
•
– For interface selection the IFSEL pin status is checked after rising edge of EN pin. Note: IFSEL must be
static for tIFSEL_HOLD max time following EN rising edge.
– If IFSEL is pulled low (0) the 4-wire SPI interface is selected (SCLK, MISO, MOSI, and SS).
– If IFSEL is pulled high (1) the 2-wire I2C-compatible interface is selected.
– An optional PWM input is available at SS/PWM when I2C is selected.
– When I2C is selected, the ADDR pin is used to select between three alternate I2C slave addresses.
– In normal mode the pin functions as a LATCH signal to trigger updates of SRAM buffers.
– LATCH occurs on the rising edge. Minimum latch pulse length is tLATCH ns.
– Alternatively a LATCH register bit can be used instead of pin control. Wait for latch_busy to be cleared
in STATUS register before writing to SRAM when using LATCH register bit.
• ISET pin to set master LED current level for all LEDs.
Protection features of the LED171596A device include:
• Open-LED and shorted-LED detections
– When detected (unless masked), the INT pin goes low, and status registers show that LEDs are OPEN or
SHORT. Faulty LEDs can then be disabled via register bits, and fault status can be cleared.
• Thermal shutdown in case of die overtemperature
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7.2 Functional Block Diagram
VLED
VDD
TSD
GND
OSC
HS0
HS Switch 0
VDDIO
EN
IFSEL_LATCH
LOGIC
LED0
LED Driver 0
SCLK_SCL
IOs
LED23
LED Driver 23
MOSI_SDA
ADVANCE INFORMATION
MISO_ADDR
HS3
HS Switch 3
LED_GND
SS_PWM
EPROM
SRAM
ISET
INT
GND
GND
GND
GND
GND
GND
GND
EPAD
Copyright © 2016, Texas Instruments Incorporated
7.3 Feature Description
7.3.1 Control Interface
Register control interface is selected with IFSEL pin according to Table 1.
Table 1. Serial Control Interface Selection
IFSEL PIN
SERIAL INTERFACE
VDDIO (1)
I2C-compatible
GND (0)
SPI
The SPI interface of the LED171596A device supports up to 10 MHz using a 16-bit register addressing. In I2C
mode it supports up to 1-MHz fast-mode-plus specification. The I2C and SPI interfaces are available to use after
tEN , following the rising edge of the EN pin. Following start-up and IFSEL detection (tIFSEL_HOLD max), the LATCH
pin functionality is enabled to start SRAM buffer updates. The LATCH pulse duration must be at least tLATCH ns.
Alternatively, the LATCH register bit can also be used.
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7.3.2 LED Current Sinks
7.3.2.1 LED Output Current Setting
The RISET resistor is used to set the maximum LED current for all LED driver outputs. The LEDXX_CUR[7:0]
registers are used to individually adjust the current of each from zero to the maximum. Equation 1 is used to
calculate the current setting of an individual LED in this mode.
ILED(XX)
750
ledxx_cur[7 : 0]
u
RISET
255
(1)
For example, a 12.5-kΩ RISET results in a 60-mA maximum peak current. Each LEDXX_CUR LSB adjusts the
individual LED current by 235–µA steps. Smaller individual current adjustment steps are achieved when using a
lower maximum peak current (larger RISET value). For example, a 25-kΩ RISET results in a 30-mA maximum
peak current and 118-µA steps per LEDXX_CUR LSB.
7.3.2.2 LED PWM Frequency
ADVANCE INFORMATION
The LED171596A supports 10-kHz or 20-kHz pwm output frequency. The pwm frequency is configured using the
CONFIG_PWM register bit [4]. An internal 40-MHz oscillator is used for generating PWM outputs. When
CONFIG_PWM register bit 4 is high the reference clock is divided by 2.
7.3.2.3 LED Driver Group Turnon Delay
The 24 LED current sinks turn on in four different groups with a programmable delay between groups. The delay
is configured using the PWM_PHASE_SHIFT_CONFIG register bits [1:0] to select from 0, 1, 2, or 3 reference
clock delays. This delay reduces inrush currents and reduces maximum LED on-time. The first group consists of
LED0, 4, 8, 12, 16, and 20 which turn on with no delay and turn off up to 3 clocks before the maximum on-time.
The second group consists of LED1, 5, 9, 13, 17 and 21, which turn on and off up to 3 clocks after the first
group. The third group consists of LED2, 6, 10, 14, 18 and 22, which turn on and off up to 3 clocks after the
second group. The fourth group consists of LED3, 7, 11, 15, 19, and 23, which turn on and off up to 3 clocks
after the third group.
7.3.3 Brightness Control
The LED171596A supports individual brightness control for each LED through individual PWM duty cycle control
of LED0...LED95 via I2C/SPI registers. A master brightness register or PWM input is multiplied with each
individual (LEDXX_BRI[8:0]) brightness register to allow control of every LED at once.
7.3.3.1 Brightness Control Signal Path
There are several methods to control the brightness level of each LED:
7.3.3.1.1 Master Brightness Control Method
Using master brightness control through master_bri register or PWM input (selectable by register bit
enable_pwm_detector – PWM input is available only in I2C mode). Master brightness control affects all LEDs
simultaneously. Master brightness can change the LED brightness immediately or smoothly using the optional
sloper block. Master brightness change requires a single write transaction so bus traffic is very low. A LATCH
command is required if Master Brightness is controlled by register write (master_bri). The PWM input control can
change the master brightness immediately without need of a LATCH command.
The individual LED PWM duty cycle is calculated using Equation 2 and Equation 3:
When enable_pwm_detector = 0:
LEDxx PWM Brightness = ledxx_bri u master _ bri
(2)
When enable_pwm_detector = 1:
LEDxx PWM Brightness = ledxx_bri u PWM input duty cycle
(3)
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NOTE
If master sloper is enabled then actual brightness value is sloping towards new master
brightness value and thus takes time to reach the calculated value.
EN_PWM_DETECTOR
PWM
DETECTOR
SS_PWM
1
0
MASTER_SLOPE_SEL
MASTER_SLOPE_EN
MASTER
SLOPER
REGISTERS
MASTER
BRIGHTNESS
MATRIX_SLOPE_SEL
BUFFER
SLOPE_TARGET
MATRIX
SLOPER
LED00_SLOPE
...
...
LED95_SLOPE
e
n
MISO_ADDR
e
I2C/SPI
INTERFACE
LED_GRP1_BRI
LED_GRP2_BRI
LED_GRP3_BRI
LED00_GRPSEL
...
...
LED95_GRPSEL
11 10 01 00
LED DRIVER 00
LED_00_BRI
...
...
LED_95_BRI
LED DUTY
CYCLES
LED
SEQUENCER
LED_00_CUR
...
...
LED_95_CUR
PWM
GENERATOR
LED DRIVER 23
LED
CURRENTS
LATCH
IFSEL_LATCH
Copyright © 2016, Texas Instruments Incorporated
Figure 12. Brightness Path
7.3.3.1.2 Individual LED Brightness Control Method
Every LED has an individual brightness and current register that are used to change the LED brightness. The
brightness and current registers of each LED are individually addressable, so if only one LED brightness must be
changed then only one 9-bit register needs to be written. This reduces interface bus traffic compared to other
devices. If all LEDs must be updated then up to 96 × 9-bit brightness, and 96 × 8-bit current registers must be
written. A LATCH command is required to apply updated values.
7.3.3.1.3 Matrix Sloper Brightness Control Method
The matrix sloper block is used to control both up and down dimming for selected LEDs. LEDs are assigned to
the matrix sloper using their individual LEDXX_SLOPE bits. There are 4 states of how the sloper control affects
the selected LEDs:
1. LED or group of LEDs is not selected for dimming (brightness = 100%)
2. LED or group of LEDs is sloping toward target brightness value (100% → SLOPE_TARGET)
3. LED or group of LEDs is sloping toward 100% brightness value (SLOPE_TARGET → 100%)
4. LED or group of LEDs is kept at target value (SLOPE_TARGET)
The matrix sloper configuration starts by writing to the LEDxx_SLOPE registers (12 registers) for each LED.
Selected LEDs must all be starting from the same LEDxx_BRI value. SLOPE_TARGET value and sloper
duration registers are then configured. The LATCH signal (minimum tLATCH) or register bit triggers the start of
sloping. The INT signal is asserted when matrix sloper is done.
A special case is if one group of LEDs is dimming towards SLOPE_TARGET and the second group is dimming
toward 100% at the same time.
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SCK_SCL
MOSI_SDA
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BRIGHTNESS
100 %
LED1
80 %
LED2
60 %
LED3
40 %
20 %
TIME
LED1_GRPSEL = 1
LED2_GRPSEL = 2
LED1_GRP_BRI = 80%
LED2_GRP_BRI = 20%
LED1_SLOPE = 0,
LED2_SLOPE = 0,
LED3_SLOPE = 0
MASTER_BRI = 100%
MASTER_BRI = 0%
ADVANCE INFORMATION
LED1_SLOPE = 0,
LED2_SLOPE = 1,
LED3_SLOPE = 0
SLOPE_TARGET = 20%
LED1_SLOPE = 0,
LED2_SLOPE = 0,
LED3_SLOPE = 1
LED1_SLOPE = 1,
LED2_SLOPE = 0,
LED3_SLOPE = 0
LED1_SLOPE = 0,
LED2_SLOPE = 0,
LED3_SLOPE = 0
LED1_SLOPE = 0,
LED2_SLOPE = 1,
LED3_SLOPE = 1
LED1_SLOPE = 0,
LED2_SLOPE = 1,
LED3_SLOPE = 0
LED1_SLOPE = 1,
LED2_SLOPE = 0,
LED3_SLOPE = 0
LED3_BRI = 100%
LED2_BRI = 100%
LED1_BRI = 100%
INITIAL:
MASTER_BRI = 100 %
LED1_BRI = 80%,
LED2_BRI = 60%,
LED3_BRI = 40%
SLOPE_TARGET = 40%
Copyright © 2016, Texas Instruments Incorporated
Figure 13. Sloper Function
Figure 13 shows examples of how the matrix sloper is used to slope the brightness of LEDs 1, 2, and 3. Each
arrow represents brightness or configuration changes and a corresponding LATCH event. Figure 13 shows how
the matrix sloper function affects LED output brightness when the corresponding LEDX_SLOPE bit is set.
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7.3.3.1.4 Group Brightness Control Method
The group brightness control is used to select LEDs into 1 to 3 groups where each group has a separate register
for brightness control. Every LED has 2-bit selection register LEDxx_GRPSEL to select whether or not it belongs
to one of the three groups:
• 00 – Not a member of any group
• 01 – Member of group 1
• 10 – Member of group 2
• 11 – Member of group 3
The brightness level for each group is controllable with the LED_GRP1_BRI, LED_GRP2_BRI and
LED_GRP3_BRI registers. The matrix sloper does not affect any LEDs that are assigned to these three groups.
The master brightness register (MASTER_BRI) affects all LEDs regardless of group selection as shown in
Equation 4.
LEDxx PWM Brightness = ledgrp[1...3]_bri u ledxx_bri u master_bri
(4)
Two optional sloper functions create smooth transitions from one brightness value to another. One sloper
operates for master brightness changes, and the second sloper can be assigned to any individual LED or group
of LEDs using the LEDxx_slope bits.
Sloper transition time between two brightness values is programmed with register bits master_slope_select[1:0]
and matrix_slope_select[1:0]. For 2-ms and 10-ms durations the sloper is linear. For 50-ms and 200-ms
durations the sloper uses a curve-bending function to produce a brightness transition that appears visually
smoother. Further, a master_slope_en[0] bit is used to disable the function for the master sloper. To disable the
matrix sloper, all the LEDxx_slope bits can be set to 0. The sloper_matrix_done and sloper_master_done bits are
set once the sloper is complete.
The master sloper may be interrupted with a new brightness change, and it restarts from current brightness and
begins sloping to new brightness target. The matrix sloper must finish before being used again for a new
brightness level or different group of LEDs. While the matrix sloper is in progress any LEDs that were assigned
to the sloper continue to follow the sloper output and are not updated by a new LATCH event. All other registers
of LEDs not assigned to an in-progress matrix sloper can be updated and LATCHED normally.
Sloper Input
Time
Sloper Output
Linear Slope
Advanced Slope
Slope Time
Time
Figure 14. Master Sloper
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ADVANCE INFORMATION
7.3.3.2 Sloper
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Table 2, Table 3, and Table 4 show the available sloper settings for the master and matrix sloping functions.
Advanced sloping options are intended to create visually smooth brightness transitions while the linear sloping
options are intended to soften the load transient for the VLED supply when rapid brightness changes are
required.
Table 2. Master Slope Enable
master_slope-en[0]
0
master sloper disabled
1
master sloper enabled
Table 3. Master Slope Select
master_slope-sel[1:0]
00
2 ms + adv slope disabled
01
10 ms + adv slope disabled
10
50 ms + adv slope enabled
11
200 ms + adv slope enabled
ADVANCE INFORMATION
Table 4. Matrix Slope Select
matrix_slope-sel[1:0]
00
2 ms + adv slope disabled
01
10 ms + adv slope disabled
10
50 ms + adv slope enabled
11
200 ms + adv slope enabled
7.3.4 Protection and Fault Detection
The LED171596A includes fault detections for LED-open and LED-short conditions and die overtemperature.
Host can monitor the status of the faults via registers and the INT pin. Fault status and interrupt handling is
described in Interrupts section.
7.3.4.1 LED Faults
VLED - 1V
LED_SHORT
LEDx
DRV_HEADROOM]1:0]
LED_OPEN
Copyright © 2016, Texas Instruments Incorporated
Figure 15. LED-Open, LED-Short Detect Architecture
•
18
Thresholds
– LED short threshold = (VLED – 1 V) typical
– LED open threshold = 0.25 V typical (0.25 V, VSAT + 0.25 V, VSAT + 0.5 VSAT, VSAT + 0.75 V programmable
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with DRV_HEADROOM bits)
Detection
– The LED open and short comparators are sampled after a blanking window following the start of the PWM
cycle.
– The output of each comparator is held until latched by fault detection 6 μs after the start of the PWM cycle
when pwm_freq_sel = 1.
– The LED faults are evaluated over a detection window of 16 HS cycles to avoid false fault detection.
– In order for the LED fault condition to be detected it must be continuously present for one full detection
window.
– Because the fault condition can occur just following the first PWM cycle in a detection window the LED
fault detection can vary from 16 to 31 HS cycles (1.55 to 3.1 ms when pwm_freq_sel=1).
– LED open and short detection only performed when brightness is greater than 10 dec (> 500 ns on-time
pulse when pwm_freq_sel=1).
– Ghosting cancellation will be disabled for the phase where shorted LED has been detected and will remain
disabled until the LED fault has been cleared.
Action:
– LEDs do not disable automatically (user can program brightness to zero)
– LED_OPEN_INT_EN and LED_SHORT_INT_EN define whether fault/interrupt pin is set (default stored in
EPROM bits)
– Global LED Short and LED Open bits are set.
– 96 LED fault signals stored internally and can be read with the LEDXX_XX_OPEN and
LEDXX_XX_SHORT registers. Also, a global LED_OPEN and LED_SHORT bit is set when any of the
individual bits are set.
– o LED fault status cleared by writing CLEAR_LED_OPEN or CLEAR_LED_SHORT bits in the
INT_CLEAR register.
– The correct procedure for clearing faulty LED is to disable the failing LED by setting ledxx_xx_disable
bit = 1 in the LEDxx_xx_DISABLE register at least 3.1 ms before clearing the LED fault.
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detection window
(1.6ms)
PWM cycle
HS phase
0
1
2
3
0
1
2
3
0
1
2
3
0
1
2
3
0
1
2
3
0
1
2
3
0
1
2
3
0
1
2
3
0
1
2
HS cycle
(100us)
fault counter
0
1
15
0
1
2
15
0
1
LED[00] short
(fault sampled)
1
2
3
16
1
2
3
16
1
2
LED[24] short
(fault sampled)
LED[48] short
(fault sampled)
ADVANCE INFORMATION
LED[00] short flag
LED[24] short flag
LED[48] short flag
clear_led_short
HS ghost sw[0]
switching
disabled
switching
HS ghost sw[1]
switching
disabled
switching
HS ghost sw[2]
switching
HS ghost sw[3]
switching
Time durations for pwm_freq_sel = 1. When pwm_freq_sel = 0, all times are half as long.
Copyright © 2016, Texas Instruments Incorporated
Figure 16. Shorted LED detection timing with automatic ghost cancellation disable
7.3.4.2 Thermal Shutdown
If the die temperature of the LED171596A device reaches the thermal shutdown threshold TTSD (150°C nominal),
the LED outputs are forced into shutdown to protect the device from damage. TSD INT_STATUS bit is set. If the
MASK_TSD bit is zero then the interrupt pin is also pulled low. The device restarts the LED outputs when
temperature drops by TTSD_THR (20°C nominal).
The LED171596A device must not be started up if the ambient temperature is > 130°C. If this condition occurs,
the device trips a TSD fault immediately, and the EEPROM is not loaded to prevent data corruption. The INT pin
still goes low to indicate a TSD fault but the I2C and SPI interfaces are not fully operational. Once the
temperature drops below the TTSD trip level, the EEPROM is loaded and the device proceeds to STANDBY state
and normal operation.
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7.4 Device Functional Modes
RESET
EN (pin) =1
& TSD=0
DEVICE STARTUP
IFSEL DETECT
ADDR DETECT
EPROM LOAD
ADVANCE INFORMATION
EN (pin) =0
STANDBY
EN_BACKIGHT=1
& FAULT=0
NORMAL
EN_BACKIGHT=0
FAULT=1
EN=0
SHUTDOWN
Note: FAULT is set by TSD.
LED faults do not exit NORMAL state.
Copyright © 2016, Texas Instruments Incorporated
Figure 17. State Machine
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Device Functional Modes (continued)
7.4.1 Reset
The device is in reset when the EN pin is low for tDISABLE time. I2C/SPI interfaces are not active, and all the LED
drivers are disabled.
7.4.2 Device Start-Up
The supplies VDD, VDDIO and VLED should be applied according to where (t1 ≥ t2 ≥ 0 ms) provided that VDD >
VDDIO. The timing interval t3 is dependent on the rise time of VLED supply where VLED is up and stable (LED
Vf + VSAT volts) prior to EN set high. After EN pin goes high the LED171596A begins device start-up, which takes
tEN to complete. This includes checking the state of the address and IFSEL pins and loading the default
configuration values from EPROM. If thermal shutdown is asserted the EPROM is not loaded until the TSD
condition is cleared. The I2C and SPI interfaces are not available in this state.
STATE
DEVICE
STARTUP
RESET
STANDBY
NORMAL
ADVANCE INFORMATION
VLED
VDDIO
VDD
EN pin
EN_BACKLIGHT[0]
0
1
HS0-3
LED0-23
t1
t2
t3
Copyright © 2016, Texas Instruments Incorporated
Figure 18. Start-Up Sequence Diagram
7.4.3 Standby
In standby the LED171596A is ready to be configured by the host with SPI or I2C interfaces. All user accessible
registers can be read or written as applicable. If the EN pin goes low, the device exits to SHUTDOWN state.
7.4.4 Normal
In normal mode the LED matrix sequencer and LED drivers are enabled. LEDs are illuminated in this state, and
LED fault detection is active. If the EN_BACKLIGHT bit is written to 0 or if a TSD faults occur, the device exits
back to STANDBY state. If the EN pin goes low for tDISABLE time, the device will exit to SHUTDOWN state. All
brightness, current and sloper registers may be modified in this state. Avoid changes to matrix sequence
configuration registers to avoid any visual artifacts. See Programming for more details.
7.4.5 Shutdown
The LED171596A should be shut-down according to where EN_BACKLIGHT (bit) is set low prior to EN pin set
low (t1 ≥ t2 ≥ t3 ≥ 0 ms) provided that VDD > VDDPOR when EN pin set low. In SHUTDOWN the LED drivers are
disabled. The device is shut down and proceeds to RESET state.
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Device Functional Modes (continued)
STATE
NORMAL
STANDBY
SHUTDOWN
RESET
VLED
VDDIO
VDD
EN pin
EN_BACKLIGHT[0]
1
0
HS0-3
LED0-23
t2
t3
Figure 19. Shut-Down Sequence Diagram
7.5 Programming
7.5.1 Serial Interfaces
The LED171596A supports two serial interfaces: I2C and 16-bit SPI. Sampling of IFSEL_LATCH pin happens
after the rising edge of EN pin. After detection of the selected interface, the IFSEL_LATCH pin can be used to
latch written SRAM data to internal processing. The minimum pulse width for LATCH signal is 500 ns. Interface
selection for the IFSEL_LATCH pin is:
• 0 – SPI mode
• 1 – I2C-compatible mode
7.5.1.1 SPI Interface
In SPI mode host can address as many unique LED171596A devices as there are slave select pins on host. The
complete register space in LED171596A can be accessed using SPI interface. Rising edge of IFSEL_LATCH pin
or LATCH bit are used to latch written SRAM data to internal processing.
The LED171596A is compatible with SPI serial-bus specification and operates as a slave device. The
transmission consists of 32-bit write and read cycles. One cycle consists of 15-bit address (9 bits used), 1
read/write (R/W) bit and 16-bit data (9 bits used) to maintain compatibility with16-bit SPI.
The R/W bit high state defines a write cycle and low defines a read cycle. The MISO output is normally in a highimpedance state. When the slave-select pin SS for the device is active (that is, low) the MISO output is pulled
low for read only. During write cycle MISO stays in high-impedance state. This allows the host to write data to
multiple LED171596A slave devices simultaneously if the SS pin is pulled low on all devices. The address and
data bits are transmitted MSB first. The slave-select signal SS must be low during the cycle transmission. SS
resets the interface when high, and it has to be taken high between successive cycles, except when using autoincrement mode. Data is clocked in on the rising edge of the SCK clock signal, while data is clocked out on the
falling edge of SCK.
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ADVANCE INFORMATION
t1
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Programming (continued)
SS
1
2
3
4
5
6
7
8
1
2
3
4
5
6
7
8
1
2
3
4
5
6
7
8
1
2
3
4
5
6
7
8
1
2
3
4
5
6
7
8
1
2
3
4
5
6
7
8
SCK
MOSI
A8
A7
A6
A5
A4
A3
A2
A1
A0
W
D9
D8
D7
D6
9-bit ADDRESS
D5
D4
D3
D2
D1
D0
D9
D8
D7
D6
10-bit DATA1
D5
D4
D3
D2
D1
D0
10-bit DATA2
WRITE bit
Figure 20. SPI Write
SS
1
2
3
4
5
6
7
8
1
2
3
4
5
6
7
8
1
2
3
4
5
6
7
8
1
2
3
4
5
6
7
8
1
2
3
4
5
6
7
8
1
2
3
4
5
6
7
8
SCK
MOSI
A8
A7
A6
A5
A4
A3
A2
A1
A0
R
9-bit ADDRESS
READ bit
MISO
D9
D8
End of Tri-State
D7
D6
D5
D4
D3
D2
D1
D0
D9
D8
D7
D6
10-bit DATA1
D5
D4
D3
D2
D1
D0
10-bit DATA2
Figure 21. SPI Read
ADVANCE INFORMATION
7.5.1.2 I2C-Compatible Interface
Up to three LED171596A slave devices may share the same I2C bus. The first 8 bits of the I2C transaction are
divided into bits for the slave ID, one bit for the register address MSB, and the read/write bit. The MISO_ADDR
pin is used to select the unique I2C slave address for each device. Every device also uses a single common I2C
address so that host can write data to all devices at the same time. This option can be used to write LATCH
command to all devices simultaneously.
Upper 4 bits are fixed
Lower 2 bits are selected with
ADDR pin
One bit used for register
address MSB (bit 9)
0
1
0
ADDR
Pin [1]
1
ADDR
Pin [1]
Reg Addr MSB
R/W
Figure 22. I2C Slave Address Diagram
The LED171596A uses a 6-bit slave ID. The 4 upper bits of the slave ID are fixed to 0101 and the 2 lower bits
are defined by the status of the MISO_ADDR pin of each device. The MISO_ADDR pin can be tied to ground,
tied to VDDIO, or left unconnected to select between three unique device slave addresses.
Table 5. Slave Addresses
24
MISO_ADDR STATE
LOWER SLAVE ID BITS
BASE 8-BIT DEVICE
ADDRESS
GND
00
50h
VDDIO
01
54h
OPEN
10
58h
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This results in three unique slave IDs of 14h (010100), 15h(010101) and 16h (010110). The common slave ID
that all devices accept, regardless of MISO_ADDR pin state, is 17h (010111). The common slave ID allows
writing the same data to all devices simultaneously, but must not be use for reading. Figure 23 shows how three
LED171596A devices can be addressed with the same I2C interface.
VDDIO
VDDIO
Device #1
VDDIO
VDDIO
Device #2
Device #3
IFSEL_LATCH
IFSEL_LATCH
IFSEL_LATCH
MISO_ADDR
MISO_ADDR
MISO_ADDR
MOSI_SDA
MOSI_SDA
MOSI_SDA
SCK_SCL
SCK_SCL
SCK_SCL
HOST
Slave Address
010100
Slave Address
010101
Slave Address
010110
SDA
ADVANCE INFORMATION
SCL
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Figure 23. I2C Addresses Using Three LED171596A Devices
Table 6. I2C ADDRESS Detail Description
9-BIT REG ADDR MSB
R/W
8-BIT ADDRESS
0
UPPER 4 BITS OF SLAVE ID
1
0
1
SLAVE ID BITS FROM ADDR PIN
0
0
0
0
50h
0
1
0
1
0
0
0
1
51h
0
1
0
1
0
0
1
0
52h
0
1
0
1
0
0
1
1
53h
0
1
0
1
0
1
0
0
54h
0
1
0
1
0
1
0
1
55h
0
1
0
1
0
1
1
0
56h
0
1
0
1
0
1
1
1
57h
0
1
0
1
1
0
0
0
58h
0
1
0
1
1
0
0
1
59h
0
1
0
1
1
0
1
0
5Ah
0
1
0
1
1
0
1
1
5Bh
0
1
0
1
1
1
0
0
5Ch
0
1
0
1
1
1
1
0
5Eh
Common Slave ID Bits
1
2
ID5
ID4
3
4
5
6
ID3
ID2
ID1
ID0
7
8
1
9
2
3
4
5
6
7
8
1
9
2
3
4
5
6
7
8
10
9
11
12
13
14
15
16
17
18
19
35
36
SCL
SDA
A8
W
A
A7
A6
A5
6-bit SLAVE ID
A4
A3
A2
A1
A0
A
D9
D8
A
D7
D6
8-bit ADDRESS LSBs
D5
D4
D3
D2
D1
D0
A
D0
10-bit DATA1
A
10-bit DATA2
Register ADDRESS MSB bit
WRITE bit
Figure 24. I2C Write
1
2
ID5
ID4
3
4
5
6
ID3
ID2
ID1
ID0
7
8
1
9
2
3
4
5
6
7
8
9
10
1
2
ID5
ID4
3
4
5
6
ID3
ID2
ID1
ID0
7
8
9
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
35
36
SCL
SDA
6-bit SLAVE ID
A8
W
A
A7
A6
A5
A4
A3
A2
8-bit ADDRESS LSBs
Register ADDRESS MSB bit
A1
A0
A
A8
R
A
6-bit SLAVE ID
D9
D8
A
D7
D6
D5
D4
10-bit DATA1
D3
D2
D1
D0
A
D0
A
10-bit DATA2
Register ADDRESS MSB bit
WRITE bit
READ bit
Figure 25. I2C Read
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7.6 Register Maps
7.6.1 LED171596A_MAP Registers
Table 7 lists the memory-mapped registers for the LED171596A_MAP. All register offset addresses not listed in
Table 7 should be considered as reserved locations, and the register contents should not be modified.
Table 7. LED171596A_MAP Registers
Offset
ADVANCE INFORMATION
26
Acronym
Register Name
Section
0h
CONFIG_PWM
Go
1h
ENABLES
Go
2h
LATCH
Go
3h
STATUS
Go
4h
INT_STATUS
Go
5h
INT_MASK
Go
6h
INT_CLEAR
Go
8h
LED15_08_OPEN
Go
9h
LED23_16_OPEN
Go
Ah
LED31_24_OPEN
Go
Bh
LED39_32_OPEN
Go
Ch
LED47_40_OPEN
Go
Dh
LED55_48_OPEN
Go
Eh
LED63_56_OPEN
Go
Fh
LED71_64_OPEN
Go
10h
LED79_72_OPEN
Go
11h
LED87_80_OPEN
Go
12h
LED95_88_OPEN
Go
13h
LED07_00_SHORT
Go
14h
LED15_08_SHORT
Go
15h
LED23_16_SHORT
Go
16h
LED31_24_SHORT
Go
17h
LED39_32_SHORT
Go
18h
LED47_40_SHORT
Go
19h
LED55_48_SHORT
Go
1Ah
LED63_56_SHORT
Go
1Bh
LED71_64_SHORT
Go
1Ch
LED79_72_SHORT
Go
1Dh
LED87_80_SHORT
Go
1Eh
LED95_88_SHORT
Go
21h
LED_DRIVER_CONTROL
Go
100h
LED00_CUR
Go
101h
LED01_CUR
Go
102h
LED02_CUR
Go
103h
LED03_CUR
Go
104h
LED04_CUR
Go
105h
LED05_CUR
Go
106h
LED06_CUR
Go
107h
LED07_CUR
Go
108h
LED08_CUR
Go
109h
LED09_CUR
Go
10Ah
LED10_CUR
Go
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Table 7. LED171596A_MAP Registers (continued)
Acronym
10Bh
LED11_CUR
Register Name
Section
Go
10Ch
LED12_CUR
Go
10Dh
LED13_CUR
Go
10Eh
LED14_CUR
Go
10Fh
LED15_CUR
Go
110h
LED16_CUR
Go
111h
LED17_CUR
Go
112h
LED18_CUR
Go
113h
LED19_CUR
Go
114h
LED20_CUR
Go
115h
LED21_CUR
Go
116h
LED22_CUR
Go
117h
LED23_CUR
Go
118h
LED24_CUR
Go
119h
LED25_CUR
Go
11Ah
LED26_CUR
Go
11Bh
LED27_CUR
Go
11Ch
LED28_CUR
Go
11Dh
LED29_CUR
Go
11Eh
LED30_CUR
Go
11Fh
LED31_CUR
Go
120h
LED32_CUR
Go
121h
LED33_CUR
Go
122h
LED34_CUR
Go
123h
LED35_CUR
Go
124h
LED36_CUR
Go
125h
LED37_CUR
Go
126h
LED38_CUR
Go
127h
LED39_CUR
Go
128h
LED40_CUR
Go
129h
LED41_CUR
Go
12Ah
LED42_CUR
Go
12Bh
LED43_CUR
Go
12Ch
LED44_CUR
Go
12Dh
LED45_CUR
Go
12Eh
LED46_CUR
Go
12Fh
LED47_CUR
Go
130h
LED48_CUR
Go
131h
LED49_CUR
Go
132h
LED50_CUR
Go
133h
LED51_CUR
Go
134h
LED52_CUR
Go
135h
LED53_CUR
Go
136h
LED54_CUR
Go
137h
LED55_CUR
Go
138h
LED56_CUR
Go
139h
LED57_CUR
Go
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Table 7. LED171596A_MAP Registers (continued)
ADVANCE INFORMATION
28
Offset
Acronym
13Ah
LED58_CUR
Register Name
Section
Go
13Bh
LED59_CUR
Go
13Ch
LED60_CUR
Go
13Dh
LED61_CUR
Go
13Eh
LED62_CUR
Go
13Fh
LED63_CUR
Go
140h
LED64_CUR
Go
141h
LED65_CUR
Go
142h
LED66_CUR
Go
143h
LED67_CUR
Go
144h
LED68_CUR
Go
145h
LED69_CUR
Go
146h
LED70_CUR
Go
147h
LED71_CUR
Go
148h
LED72_CUR
Go
149h
LED73_CUR
Go
14Ah
LED74_CUR
Go
14Bh
LED75_CUR
Go
14Ch
LED76_CUR
Go
14Dh
LED77_CUR
Go
14Eh
LED78_CUR
Go
14Fh
LED79_CUR
Go
150h
LED80_CUR
Go
151h
LED81_CUR
Go
152h
LED82_CUR
Go
153h
LED83_CUR
Go
154h
LED84_CUR
Go
155h
LED85_CUR
Go
156h
LED86_CUR
Go
157h
LED87_CUR
Go
158h
LED88_CUR
Go
159h
LED89_CUR
Go
15Ah
LED90_CUR
Go
15Bh
LED91_CUR
Go
15Ch
LED92_CUR
Go
15Dh
LED93_CUR
Go
15Eh
LED94_CUR
Go
15Fh
LED95_CUR
Go
160h
LED00_BRI
Go
161h
LED01_BRI
Go
162h
LED02_BRI
Go
163h
LED03_BRI
Go
164h
LED04_BRI
Go
165h
LED05_BRI
Go
166h
LED06_BRI
Go
167h
LED07_BRI
Go
168h
LED08_BRI
Go
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Table 7. LED171596A_MAP Registers (continued)
Acronym
Register Name
Section
169h
LED09_BRI
Go
16Ah
LED10_BRI
Go
16Bh
LED11_BRI
Go
16Ch
LED12_BRI
Go
16Dh
LED13_BRI
Go
16Eh
LED14_BRI
Go
16Fh
LED15_BRI
Go
170h
LED16_BRI
Go
171h
LED17_BRI
Go
172h
LED18_BRI
Go
173h
LED19_BRI
Go
174h
LED20_BRI
Go
175h
LED21_BRI
Go
176h
LED22_BRI
Go
177h
LED23_BRI
Go
178h
LED24_BRI
Go
179h
LED25_BRI
Go
17Ah
LED26_BRI
Go
17Bh
LED27_BRI
Go
17Ch
LED28_BRI
Go
17Dh
LED29_BRI
Go
17Eh
LED30_BRI
Go
17Fh
LED31_BRI
Go
180h
LED32_BRI
Go
181h
LED33_BRI
Go
182h
LED34_BRI
Go
183h
LED35_BRI
Go
184h
LED36_BRI
Go
185h
LED37_BRI
Go
186h
LED38_BRI
Go
187h
LED39_BRI
Go
188h
LED40_BRI
Go
189h
LED41_BRI
Go
18Ah
LED42_BRI
Go
18Bh
LED43_BRI
Go
18Ch
LED44_BRI
Go
18Dh
LED45_BRI
Go
18Eh
LED46_BRI
Go
18Fh
LED47_BRI
Go
190h
LED48_BRI
Go
191h
LED49_BRI
Go
192h
LED50_BRI
Go
193h
LED51_BRI
Go
194h
LED52_BRI
Go
195h
LED53_BRI
Go
196h
LED54_BRI
Go
197h
LED55_BRI
Go
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Table 7. LED171596A_MAP Registers (continued)
Offset
ADVANCE INFORMATION
30
Acronym
Register Name
Section
198h
LED56_BRI
Go
199h
LED57_BRI
Go
19Ah
LED58_BRI
Go
19Bh
LED59_BRI
Go
19Ch
LED60_BRI
Go
19Dh
LED61_BRI
Go
19Eh
LED62_BRI
Go
19Fh
LED63_BRI
Go
1A0h
LED64_BRI
Go
1A1h
LED65_BRI
Go
1A2h
LED66_BRI
Go
1A3h
LED67_BRI
Go
1A4h
LED68_BRI
Go
1A5h
LED69_BRI
Go
1A6h
LED70_BRI
Go
1A7h
LED71_BRI
Go
1A8h
LED72_BRI
Go
1A9h
LED73_BRI
Go
1AAh
LED74_BRI
Go
1ABh
LED75_BRI
Go
1ACh
LED76_BRI
Go
1ADh
LED77_BRI
Go
1AEh
LED78_BRI
Go
1AFh
LED79_BRI
Go
1B0h
LED80_BRI
Go
1B1h
LED81_BRI
Go
1B2h
LED82_BRI
Go
1B3h
LED83_BRI
Go
1B4h
LED84_BRI
Go
1B5h
LED85_BRI
Go
1B6h
LED86_BRI
Go
1B7h
LED87_BRI
Go
1B8h
LED88_BRI
Go
1B9h
LED89_BRI
Go
1BAh
LED90_BRI
Go
1BBh
LED91_BRI
Go
1BCh
LED92_BRI
Go
1BDh
LED93_BRI
Go
1BEh
LED94_BRI
Go
1BFh
LED95_BRI
Go
1C0h
MASTER_BRI
Go
1C1h
LED07_00_DISABLE
Go
1C2h
LED15_08_DISABLE
Go
1C3h
LED23_16_DISABLE
Go
1C4h
LED31_24_DISABLE
Go
1C5h
LED39_32_DISABLE
Go
1C6h
LED47_40_DISABLE
Go
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Table 7. LED171596A_MAP Registers (continued)
Acronym
1C7h
LED55_48_DISABLE
Register Name
Section
Go
1C8h
LED63_56_DISABLE
Go
1C9h
LED71_64_DISABLE
Go
1CAh
LED79_72_DISABLE
Go
1CBh
LED87_80_DISABLE
Go
1CCh
LED95_88_DISABLE
Go
1CDh
SLOPERS_CONFIG
Go
1CEh
SLOPER_TARGET
Go
1CFh
LED07_00_SLOPE
Go
1D0h
LED15_08_SLOPE
Go
1D1h
LED23_16_SLOPE
Go
1D2h
LED31_24_SLOPE
Go
1D3h
LED39_32_SLOPE
Go
1D4h
LED47_40_SLOPE
Go
1D5h
LED55_48_SLOPE
Go
1D6h
LED63_56_SLOPE
Go
1D7h
LED71_64_SLOPE
Go
1D8h
LED79_72_SLOPE
Go
1D9h
LED87_80_SLOPE
Go
1DAh
LED95_88_SLOPE
Go
1DBh
LEDGRP1_BRI
Go
1DCh
LEDGRP2_BRI
Go
1DDh
LEDGRP3_BRI
Go
1DEh
LED04_00_GRPSEL
Go
1DFh
LED09_05_GRPSEL
Go
1E0h
LED14_10_GRPSEL
Go
1E1h
LED19_15_GRPSEL
Go
1E2h
LED24_20_GRPSEL
Go
1E3h
LED29_25_GRPSEL
Go
1E4h
LED34_30_GRPSEL
Go
1E5h
LED39_35_GRPSEL
Go
1E6h
LED44_40_GRPSEL
Go
1E7h
LED49_45_GRPSEL
Go
1E8h
LED54_50_GRPSEL
Go
1E9h
LED59_55_GRPSEL
Go
1EAh
LED64_60_GRPSEL
Go
1EBh
LED69_65_GRPSEL
Go
1ECh
LED74_70_GRPSEL
Go
1EDh
LED79_75_GRPSEL
Go
1EEh
LED84_80_GRPSEL
Go
1EFh
LED89_85_GRPSEL
Go
1F0h
LED94_90_GRPSEL
Go
1F1h
LED95_GRPSEL
Go
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7.6.1.1 CONFIG_PWM Register (Address = 0h) [reset = 1Fh]
CONFIG_PWM is shown in Figure 26 and described in Table 8.
Return to Summary Table.
Figure 26. CONFIG_PWM Register
15
14
13
12
11
10
RESERVED
R/W-0h
7
6
pwm_input_hysteresis
R/W-0h
5
enable_pwm_d
etector
R/W-0h
4
pwm_freq_sel
3
2
pwm_phase_shift_config
R/W-1h
R/W-3h
9
8
pwm_input_edg pwm_input_hys
e_sel
teresis
R/W-0h
R/W-0h
1
0
RESERVED
R/W-3h
Table 8. CONFIG_PWM Register Field Descriptions
Bit
Field
Type
Reset
RESERVED
R/W
0h
9
pwm_input_edge_sel
R/W
0h
PWM period is measured:
0 - from rising edge to rising edge
1 - from falling edge to falling edge
8-6
pwm_input_hysteresis
R/W
0h
PWM hysteresis selection sets the minimum allowable change to the
input.
Hysteresis is monitoring direction of change and if direction is
changing then hysteresis will apply.
If a smaller change is detected to opposite direction, it is ignored.
With hysteresis the constant changing between two brightness
values is avoided if there is small jitter in the input signal.
Hysteresis is selected with pwm_input_hysteresis bits in register
CONFIG_PWM.
Hysteresis is calculated from pwm detector 16-bit output value.
Using a higher hysteresis setting is recommended with high PWM
input frequencies.;
Hysteresis (decimal), calculated from 16 bit value
000 - off
001 - 15
010 - 31
011 - 63
100 - 127
101 - 255
110 - 511
111 - 1023
5
enable_pwm_detector
R/W
0h
PWM input detector enable
4
pwm_freq_sel
R/W
1h
PWM Frequency selector:
0 - 20 kHz
1 - 10 kHz
3-2
pwm_phase_shift_config
R/W
3h
PWM phaseshifting
00 - off
01 - 1 clock cycles
10 - 2 clock cycles
11 - 3 clock cycles
1-0
RESERVED
R/W
3h
NOTE: When updating other fields in this register the 2 lsb reset
value must be preserved!
15-10
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7.6.1.2 ENABLES Register (Address = 1h) [reset = 0h]
ENABLES is shown in Figure 27 and described in Table 9.
Return to Summary Table.
Figure 27. ENABLES Register
15
14
13
12
11
10
9
8
3
2
1
0
en_backlight
R/W-0h
RESERVED
R/W-0h
7
6
5
4
RESERVED
R/W-0h
Table 9. ENABLES Register Field Descriptions
Field
Type
Reset
15-1
RESERVED
R/W
0h
0
en_backlight
R/W
0h
Description
Enable LEDs
0 - LED driving disabled. Device stays in STANDBY state.
1 - LED driving enabled.
7.6.1.3 LATCH Register (Address = 2h) [reset = 0h]
LATCH is shown in Figure 28 and described in Table 10.
Return to Summary Table.
Figure 28. LATCH Register
15
14
13
12
11
10
9
8
3
2
1
0
latch
R-0/WSelfClr0h
RESERVED
R/W-0h
7
6
5
4
RESERVED
R/W-0h
Table 10. LATCH Register Field Descriptions
Bit
15-1
0
Field
Type
Reset
RESERVED
R/W
0h
latch
R0/WSelfClr
0h
Description
Latch SRAM data.
Writing 1 generates a latch pulse. Read returns always 0.
7.6.1.4 STATUS Register (Address = 3h) [reset = 0h]
STATUS is shown in Figure 29 and described in Table 11.
Return to Summary Table.
Figure 29. STATUS Register
15
14
13
12
11
10
9
8
RESERVED
R-0h
7
6
5
RESERVED
R-0h
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4
3
2
1
slope_matrix_b slope_master_b
usy
usy
R-0h
R-0h
0
latch_busy
R-0h
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Table 11. STATUS Register Field Descriptions
Bit
Field
Type
Reset
RESERVED
R
0h
2
slope_matrix_busy
R
0h
Matrix sloper status
0 - Matrix sloper ready
1 - Matrix sloper busy
1
slope_master_busy
R
0h
Master sloper status
0 - Master sloper ready
1 - Master sloper busy
0
latch_busy
R
0h
SRAM data latching status
0 - SRAM data latching ready
1 - SRAM data latching busy
15-3
Description
7.6.1.5 INT_STATUS Register (Address = 4h) [reset = 0h]
INT_STATUS is shown in Figure 30 and described in Table 12.
Return to Summary Table.
ADVANCE INFORMATION
Interrupt status bits are set by events and cleared by bits in INT_CLEAR register. Status bits show if an event
has occurred since the last clearing. Start of an unmasked event sets the INT pin. If INT pin is cleared while an
event is active, it stays cleared until some other event starts.
Figure 30. INT_STATUS Register
15
14
13
12
11
10
9
8
RESERVED
R-0h
7
RESERVED
6
led_open
5
led_short
4
RESERVED
3
tsd
R-0h
R-0h
R-0h
R-0h
R-0h
2
1
slope_matrix_d slope_master_d
one
one
R-0h
R-0h
0
latch_done
R-0h
Table 12. INT_STATUS Register Field Descriptions
Bit
Field
Type
Reset
RESERVED
R
0h
6
led_open
R
0h
LED open fault interrupt status
5
led_short
R
0h
LED short fault interrupt status
4
RESERVED
R
0h
3
tsd
R
0h
Thermal shutdown interrupt status
2
slope_matrix_done
R
0h
Matrix sloper interrupt status
1
slope_master_done
R
0h
Master sloper interrupt status
0
latch_done
R
0h
SRAM latching interrupt status
15-7
Description
7.6.1.6 INT_MASK Register (Address = 5h) [reset = 17h]
INT_MASK is shown in Figure 31 and described in Table 13.
Return to Summary Table.
Interrupt mask bits mask the event for INT pin. Interrupt status bits are not affected by mask bits.
34
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Figure 31. INT_MASK Register
15
14
13
12
11
10
9
8
4
RESERVED
3
mask_tsd
R/W-1h
R/W-0h
2
mask_slope_m
atrix_done
R/W-1h
1
mask_slope_m
aster_done
R/W-1h
0
mask_latch_do
ne
R/W-1h
9
8
clear_int_pin
R-0/WSelfClr0h
RESERVED
R/W-0h
7
RESERVED
6
5
mask_led_open mask_led_short
R/W-0h
R/W-0h
R/W-0h
Table 13. INT_MASK Register Field Descriptions
15-7
Field
Type
Reset
Description
RESERVED
R/W
0h
6
mask_led_open
R/W
0h
LED open fault interrupt mask
5
mask_led_short
R/W
0h
LED short fault interrupt mask
4
RESERVED
R/W
1h
3
mask_tsd
R/W
0h
Thermal shutdown interrupt mask
2
mask_slope_matrix_done
R/W
1h
Matrix sloper interrupt mask
1
mask_slope_master_done R/W
1h
Master sloper interrupt mask
0
mask_latch_done
1h
SRAM latching interrupt mask
R/W
7.6.1.7 INT_CLEAR Register (Address = 6h) [reset = 0h]
INT_CLEAR is shown in Figure 32 and described in Table 14.
Return to Summary Table.
Interrupt clear bits. Writing 1 generates a clear pulse. Read returns always 0.
Figure 32. INT_CLEAR Register
15
14
13
12
RESERVED
R/W-0h
11
7
RESERVED
6
clear_led_open
5
clear_led_short
4
RESERVED
3
clear_tsd
R/W-0h
R-0/WSelfClr0h
R-0/WSelfClr0h
R/W-0h
R-0/WSelfClr0h
10
2
1
0
clear_slope_ma clear_slope_ma clear_latch_don
trix_done
ster_done
e
R-0/WSelfClrR-0/WSelfClrR-0/WSelfClr0h
0h
0h
Table 14. INT_CLEAR Register Field Descriptions
Bit
Field
Type
Reset
15-9
RESERVED
R/W
0h
8
clear_int_pin
R0/WSelfClr
0h
7
RESERVED
R/W
0h
6
clear_led_open
R0/WSelfClr
0h
LED open fault interrupt status clear
5
clear_led_short
R0/WSelfClr
0h
LED short fault interrupt status clear
4
RESERVED
R/W-0h
0h
3
clear_tsd
R0/WSelfClr
0h
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Description
INT pin clear
Thermal shutdown interrupt status clear
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Table 14. INT_CLEAR Register Field Descriptions (continued)
Bit
Field
Type
Reset
Description
2
clear_slope_matrix_done
R0/WSelfClr
0h
Matrix sloper interrupt status clear
1
clear_slope_master_done
R0/WSelfClr
0h
Master sloper interrupt status clear
0
clear_latch_done
R0/WSelfClr
0h
SRAM latching interrupt status clear
7.6.1.8 LED07_00_OPEN Register (Address = 7h) [reset = 0h]
LED07_00_OPEN is shown in Figure 33 and described in Table 15.
Return to Summary Table.
LED open fault status bits are set by starting LED open fault and cleared by clear_led_open bit in INT_CLEAR
register. Status bits show if LED open fault has occurred since the last clearing.
Figure 33. LED07_00_OPEN Register
15
14
13
12
ADVANCE INFORMATION
11
10
9
8
3
2
1
0
RESERVED
R-0h
7
6
5
4
led07_00_open
R-0h
Table 15. LED07_00_OPEN Register Field Descriptions
Field
Type
Reset
15-8
Bit
RESERVED
R
0h
7-0
led07_00_open
R
0h
Description
Open fault status for LEDs 0-7 (First matrix phase)
7.6.1.9 LED15_08_OPEN Register (Address = 8h) [reset = 0h]
LED15_08_OPEN is shown in Figure 34 and described in Table 16.
Return to Summary Table.
LED open fault status bits are set by starting LED open fault and cleared by clear_led_open bit in INT_CLEAR
register. Status bits show if LED open fault has occurred since the last clearing.
Figure 34. LED15_08_OPEN Register
15
14
13
12
11
10
9
8
3
2
1
0
RESERVED
R-0h
7
6
5
4
led15_08_open
R-0h
Table 16. LED15_08_OPEN Register Field Descriptions
Bit
36
Field
Type
Reset
15-8
RESERVED
R
0h
7-0
led15_08_open
R
0h
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Description
Open fault status for LEDs 8-15 (First matrix phase)
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7.6.1.10 LED23_16_OPEN Register (Address = 9h) [reset = 0h]
LED23_16_OPEN is shown in Figure 35 and described in Table 17.
Return to Summary Table.
LED open fault status bits are set by starting LED open fault and cleared by clear_led_open bit in INT_CLEAR
register. Status bits show if LED open fault has occurred since the last clearing.
Figure 35. LED23_16_OPEN Register
15
14
13
12
11
10
9
8
3
2
1
0
RESERVED
R-0h
7
6
5
4
led23_16_open
R-0h
Table 17. LED23_16_OPEN Register Field Descriptions
Field
Type
Reset
15-8
RESERVED
R
0h
7-0
led23_16_open
R
0h
Description
Open fault status for LEDs 16-23 (First matrix phase)
7.6.1.11 LED31_24_OPEN Register (Address = Ah) [reset = 0h]
LED31_24_OPEN is shown in Figure 36 and described in Table 18.
Return to Summary Table.
LED open fault status bits are set by starting LED open fault and cleared by clear_led_open bit in INT_CLEAR
register. Status bits show if LED open fault has occurred since the last clearing.
Figure 36. LED31_24_OPEN Register
15
14
13
12
11
10
9
8
3
2
1
0
RESERVED
R-0h
7
6
5
4
led31_24_open
R-0h
Table 18. LED31_24_OPEN Register Field Descriptions
Bit
Field
Type
Reset
15-8
RESERVED
R
0h
7-0
led31_24_open
R
0h
Description
Open fault status for LEDs 24-31 (Second matrix phase)
7.6.1.12 LED39_32_OPEN Register (Address = Bh) [reset = 0h]
LED39_32_OPEN is shown in Figure 37 and described in Table 19.
Return to Summary Table.
LED open fault status bits are set by starting LED open fault and cleared by clear_led_open bit in INT_CLEAR
register. Status bits show if LED open fault has occurred since the last clearing.
Figure 37. LED39_32_OPEN Register
15
14
13
12
11
10
9
8
RESERVED
R-0h
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6
5
4
3
2
1
0
led39_32_open
R-0h
Table 19. LED39_32_OPEN Register Field Descriptions
Field
Type
Reset
15-8
Bit
RESERVED
R
0h
7-0
led39_32_open
R
0h
Description
Open fault status for LEDs 32-39 (Second matrix phase)
7.6.1.13 LED47_40_OPEN Register (Address = Ch) [reset = 0h]
LED47_40_OPEN is shown in Figure 38 and described in Table 20.
Return to Summary Table.
LED open fault status bits are set by starting LED open fault and cleared by clear_led_open bit in INT_CLEAR
register. Status bits show if LED open fault has occurred since the last clearing.
Figure 38. LED47_40_OPEN Register
ADVANCE INFORMATION
15
14
13
12
11
10
9
8
3
2
1
0
RESERVED
R-0h
7
6
5
4
led47_40_open
R-0h
Table 20. LED47_40_OPEN Register Field Descriptions
Field
Type
Reset
15-8
Bit
RESERVED
R
0h
7-0
led47_40_open
R
0h
Description
Open fault status for LEDs 40-47 (Second matrix phase)
7.6.1.14 LED55_48_OPEN Register (Address = Dh) [reset = 0h]
LED55_48_OPEN is shown in Figure 39 and described in Table 21.
Return to Summary Table.
LED open fault status bits are set by starting LED open fault and cleared by clear_led_open bit in INT_CLEAR
register. Status bits show if LED open fault has occurred since the last clearing.
Figure 39. LED55_48_OPEN Register
15
14
13
12
11
10
9
8
3
2
1
0
RESERVED
R-0h
7
6
5
4
led55_48_open
R-0h
Table 21. LED55_48_OPEN Register Field Descriptions
Bit
38
Field
Type
Reset
15-8
RESERVED
R
0h
7-0
led55_48_open
R
0h
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Description
Open fault status for LEDs 48-55 (Third matrix phase)
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7.6.1.15 LED63_56_OPEN Register (Address = Eh) [reset = 0h]
LED63_56_OPEN is shown in Figure 40 and described in Table 22.
Return to Summary Table.
LED open fault status bits are set by starting LED open fault and cleared by clear_led_open bit in INT_CLEAR
register. Status bits show if LED open fault has occurred since the last clearing.
Figure 40. LED63_56_OPEN Register
15
14
13
12
11
10
9
8
3
2
1
0
RESERVED
R-0h
7
6
5
4
led63_56_open
R-0h
Table 22. LED63_56_OPEN Register Field Descriptions
Field
Type
Reset
15-8
RESERVED
R
0h
7-0
led63_56_open
R
0h
Description
Open fault status for LEDs 56-63 (Third matrix phase)
7.6.1.16 LED71_64_OPEN Register (Address = Fh) [reset = 0h]
LED71_64_OPEN is shown in Figure 41 and described in Table 23.
Return to Summary Table.
LED open fault status bits are set by starting LED open fault and cleared by clear_led_open bit in INT_CLEAR
register. Status bits show if LED open fault has occurred since the last clearing.
Figure 41. LED71_64_OPEN Register
15
14
13
12
11
10
9
8
3
2
1
0
RESERVED
R-0h
7
6
5
4
led71_64_open
R-0h
Table 23. LED71_64_OPEN Register Field Descriptions
Bit
Field
Type
Reset
15-8
RESERVED
R
0h
7-0
led71_64_open
R
0h
Description
Open fault status for LEDs 64-71 (Third matrix phase)
7.6.1.17 LED79_72_OPEN Register (Address = 10h) [reset = 0h]
LED79_72_OPEN is shown in Figure 42 and described in Table 24.
Return to Summary Table.
LED open fault status bits are set by starting LED open fault and cleared by clear_led_open bit in INT_CLEAR
register. Status bits show if LED open fault has occurred since the last clearing.
Figure 42. LED79_72_OPEN Register
15
14
13
12
11
10
9
8
RESERVED
R-0h
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5
4
3
2
1
0
led79_72_open
R-0h
Table 24. LED79_72_OPEN Register Field Descriptions
Field
Type
Reset
15-8
Bit
RESERVED
R
0h
7-0
led79_72_open
R
0h
Description
Open fault status for LEDs 72-79 (Fourth matrix phase)
7.6.1.18 LED87_80_OPEN Register (Address = 11h) [reset = 0h]
LED87_80_OPEN is shown in Figure 43 and described in Table 25.
Return to Summary Table.
LED open fault status bits are set by starting LED open fault and cleared by clear_led_open bit in INT_CLEAR
register. Status bits show if LED open fault has occurred since the last clearing.
Figure 43. LED87_80_OPEN Register
ADVANCE INFORMATION
15
14
13
12
11
10
9
8
3
2
1
0
RESERVED
R-0h
7
6
5
4
led87_80_open
R-0h
Table 25. LED87_80_OPEN Register Field Descriptions
Field
Type
Reset
15-8
Bit
RESERVED
R
0h
7-0
led87_80_open
R
0h
Description
Open fault status for LEDs 80-87 (Fourth matrix phase)
7.6.1.19 LED95_88_OPEN Register (Address = 12h) [reset = 0h]
LED95_88_OPEN is shown in Figure 44 and described in Table 26.
Return to Summary Table.
LED open fault status bits are set by starting LED open fault and cleared by clear_led_open bit in INT_CLEAR
register. Status bits show if LED open fault has occurred since the last clearing.
Figure 44. LED95_88_OPEN Register
15
14
13
12
11
10
9
8
3
2
1
0
RESERVED
R-0h
7
6
5
4
led95_88_open
R-0h
Table 26. LED95_88_OPEN Register Field Descriptions
Bit
40
Field
Type
Reset
15-8
RESERVED
R
0h
7-0
led95_88_open
R
0h
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Description
Open fault status for LEDs 88-95 (Fourth matrix phase)
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7.6.1.20 LED07_00_SHORT Register (Address = 13h) [reset = 0h]
LED07_00_SHORT is shown in Figure 45 and described in Table 27.
Return to Summary Table.
LED short fault status bits are set by starting LED short fault and cleared by clear_led_short bit in INT_CLEAR
register. Status bits show if LED short fault has occurred since the last clearing.
Figure 45. LED07_00_SHORT Register
15
14
13
12
11
10
9
8
3
2
1
0
RESERVED
R-0h
7
6
5
4
led07_00_short
R-0h
Table 27. LED07_00_SHORT Register Field Descriptions
Field
Type
Reset
15-8
RESERVED
R
0h
7-0
led07_00_short
R
0h
Description
Short fault status for LEDs 0-7 (First matrix phase)
7.6.1.21 LED15_08_SHORT Register (Address = 14h) [reset = 0h]
LED15_08_SHORT is shown in Figure 46 and described in Table 28.
Return to Summary Table.
LED short fault status bits are set by starting LED short fault and cleared by clear_led_short bit in INT_CLEAR
register. Status bits show if LED short fault has occurred since the last clearing.
Figure 46. LED15_08_SHORT Register
15
14
13
12
11
10
9
8
3
2
1
0
RESERVED
R-0h
7
6
5
4
led15_08_short
R-0h
Table 28. LED15_08_SHORT Register Field Descriptions
Bit
Field
Type
Reset
15-8
RESERVED
R
0h
7-0
led15_08_short
R
0h
Description
Short fault status for LEDs 8-15 (First matrix phase)
7.6.1.22 LED23_16_SHORT Register (Address = 15h) [reset = 0h]
LED23_16_SHORT is shown in Figure 47 and described in Table 29.
Return to Summary Table.
LED short fault status bits are set by starting LED short fault and cleared by clear_led_short bit in INT_CLEAR
register. Status bits show if LED short fault has occurred since the last clearing.
Figure 47. LED23_16_SHORT Register
15
14
13
12
11
10
9
8
RESERVED
R-0h
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5
4
3
2
1
0
led23_16_short
R-0h
Table 29. LED23_16_SHORT Register Field Descriptions
Field
Type
Reset
15-8
Bit
RESERVED
R
0h
7-0
led23_16_short
R
0h
Description
Short fault status for LEDs 16-23 (First matrix phase)
7.6.1.23 LED31_24_SHORT Register (Address = 16h) [reset = 0h]
LED31_24_SHORT is shown in Figure 48 and described in Table 30.
Return to Summary Table.
LED short fault status bits are set by starting LED short fault and cleared by clear_led_short bit in INT_CLEAR
register. Status bits show if LED short fault has occurred since the last clearing.
Figure 48. LED31_24_SHORT Register
ADVANCE INFORMATION
15
14
13
12
11
10
9
8
3
2
1
0
RESERVED
R-0h
7
6
5
4
led31_24_short
R-0h
Table 30. LED31_24_SHORT Register Field Descriptions
Field
Type
Reset
15-8
Bit
RESERVED
R
0h
7-0
led31_24_short
R
0h
Description
Short fault status for LEDs 24-31 (Second matrix phase)
7.6.1.24 LED39_32_SHORT Register (Address = 17h) [reset = 0h]
LED39_32_SHORT is shown in Figure 49 and described in Table 31.
Return to Summary Table.
LED short fault status bits are set by starting LED short fault and cleared by clear_led_short bit in INT_CLEAR
register. Status bits show if LED short fault has occurred since the last clearing.
Figure 49. LED39_32_SHORT Register
15
14
13
12
11
10
9
8
3
2
1
0
RESERVED
R-0h
7
6
5
4
led39_32_short
R-0h
Table 31. LED39_32_SHORT Register Field Descriptions
Bit
42
Field
Type
Reset
15-8
RESERVED
R
0h
7-0
led39_32_short
R
0h
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Description
Short fault status for LEDs 32-39 (Second matrix phase)
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7.6.1.25 LED47_40_SHORT Register (Address = 18h) [reset = 0h]
LED47_40_SHORT is shown in Figure 50 and described in Table 32.
Return to Summary Table.
LED short fault status bits are set by starting LED short fault and cleared by clear_led_short bit in INT_CLEAR
register. Status bits show if LED short fault has occurred since the last clearing.
Figure 50. LED47_40_SHORT Register
15
14
13
12
11
10
9
8
3
2
1
0
RESERVED
R-0h
7
6
5
4
led47_40_short
R-0h
Table 32. LED47_40_SHORT Register Field Descriptions
Field
Type
Reset
15-8
RESERVED
R
0h
7-0
led47_40_short
R
0h
Description
Short fault status for LEDs 40-47 (Second matrix phase)
7.6.1.26 LED55_48_SHORT Register (Address = 19h) [reset = 0h]
LED55_48_SHORT is shown in Figure 51 and described in Table 33.
Return to Summary Table.
LED short fault status bits are set by starting LED short fault and cleared by clear_led_short bit in INT_CLEAR
register. Status bits show if LED short fault has occurred since the last clearing.
Figure 51. LED55_48_SHORT Register
15
14
13
12
11
10
9
8
3
2
1
0
RESERVED
R-0h
7
6
5
4
led55_48_short
R-0h
Table 33. LED55_48_SHORT Register Field Descriptions
Bit
Field
Type
Reset
15-8
RESERVED
R
0h
7-0
led55_48_short
R
0h
Description
Short fault status for LEDs 48-55 (Third matrix phase)
7.6.1.27 LED63_56_SHORT Register (Address = 1Ah) [reset = 0h]
LED63_56_SHORT is shown in Figure 52 and described in Table 34.
Return to Summary Table.
LED short fault status bits are set by starting LED short fault and cleared by clear_led_short bit in INT_CLEAR
register. Status bits show if LED short fault has occurred since the last clearing.
Figure 52. LED63_56_SHORT Register
15
14
13
12
11
10
9
8
RESERVED
R-0h
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5
4
3
2
1
0
led63_56_short
R-0h
Table 34. LED63_56_SHORT Register Field Descriptions
Field
Type
Reset
15-8
Bit
RESERVED
R
0h
7-0
led63_56_short
R
0h
Description
Short fault status for LEDs 56-63 (Third matrix phase)
7.6.1.28 LED71_64_SHORT Register (Address = 1Bh) [reset = 0h]
LED71_64_SHORT is shown in Figure 53 and described in Table 35.
Return to Summary Table.
LED short fault status bits are set by starting LED short fault and cleared by clear_led_short bit in INT_CLEAR
register. Status bits show if LED short fault has occurred since the last clearing.
Figure 53. LED71_64_SHORT Register
ADVANCE INFORMATION
15
14
13
12
11
10
9
8
3
2
1
0
RESERVED
R-0h
7
6
5
4
led71_64_short
R-0h
Table 35. LED71_64_SHORT Register Field Descriptions
Field
Type
Reset
15-8
Bit
RESERVED
R
0h
7-0
led71_64_short
R
0h
Description
Short fault status for LEDs 64-71 (Third matrix phase)
7.6.1.29 LED79_72_SHORT Register (Address = 1Ch) [reset = 0h]
LED79_72_SHORT is shown in Figure 54 and described in Table 36.
Return to Summary Table.
LED short fault status bits are set by starting LED short fault and cleared by clear_led_short bit in INT_CLEAR
register. Status bits show if LED short fault has occurred since the last clearing.
Figure 54. LED79_72_SHORT Register
15
14
13
12
11
10
9
8
3
2
1
0
RESERVED
R-0h
7
6
5
4
led79_72_short
R-0h
Table 36. LED79_72_SHORT Register Field Descriptions
Bit
44
Field
Type
Reset
15-8
RESERVED
R
0h
7-0
led79_72_short
R
0h
Submit Documentation Feedback
Description
Short fault status for LEDs 72-79 (Fourth matrix phase)
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7.6.1.30 LED87_80_SHORT Register (Address = 1Dh) [reset = 0h]
LED87_80_SHORT is shown in Figure 55 and described in Table 37.
Return to Summary Table.
LED short fault status bits are set by starting LED short fault and cleared by clear_led_short bit in INT_CLEAR
register. Status bits show if LED short fault has occurred since the last clearing.
Figure 55. LED87_80_SHORT Register
15
14
13
12
11
10
9
8
3
2
1
0
RESERVED
R-0h
7
6
5
4
led87_80_short
R-0h
Table 37. LED87_80_SHORT Register Field Descriptions
Field
Type
Reset
15-8
RESERVED
R
0h
7-0
led87_80_short
R
0h
Description
Short fault status for LEDs 80-87 (Fourth matrix phase)
7.6.1.31 LED95_88_SHORT Register (Address = 1Eh) [reset = 0h]
LED95_88_SHORT is shown in Figure 56 and described in Table 38.
Return to Summary Table.
LED short fault status bits are set by starting LED short fault and cleared by clear_led_short bit in INT_CLEAR
register. Status bits show if LED short fault has occurred since the last clearing.
Figure 56. LED95_88_SHORT Register
15
14
13
12
11
10
9
8
3
2
1
0
RESERVED
R-0h
7
6
5
4
led95_88_short
R-0h
Table 38. LED95_88_SHORT Register Field Descriptions
Bit
Field
Type
Reset
15-8
RESERVED
R
0h
7-0
led95_88_short
R
0h
Description
Short fault status for LEDs 88-95 (Fourth matrix phase)
7.6.1.32 LED_DRIVER_CONTROL Register (Address = 21h) [reset = 34h]
LED_DRIVER_CONTROL is shown in Figure 57 and described in Table 39.
Return to Summary Table.
Figure 57. LED_DRIVER_CONTROL Register
15
14
13
12
11
10
9
2
drv_en_ghost_c
ancel
1
8
RESERVED
R/W-0h
7
6
RESERVED
5
hs_en_ghost_c
ancel
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4
3
drv_en_ghost_level
0
drv_headroom
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R/W-0h
R/W-1h
R/W-2h
R/W-1h
R/W-0h
Table 39. LED_DRIVER_CONTROL Register Field Descriptions
Bit
Field
Type
Reset
RESERVED
R/W
0h
5
hs_en_ghost_cancel
R/W
1h
Enable for high side switch ghost cancellation
0 - disabled
1 - enabled
4-3
drv_en_ghost_level
R/W
2h
Ghost cancellation strength select
00 - disabled
01 - weakest
10 - medium
11 - strongest
drv_en_ghost_cancel
R/W
1h
Enable for LED driver ghost cancellation
0 - disabled
1 - enabled
drv_headroom
R/W
0h
LED driver headroom select
00 - 250mV
01 - 0.9 * Vsat + 250mV
10 - 0.9 * Vsat + 500mV
11 - 0.9 * Vsat + 750mV
15-6
2
1-0
Description
ADVANCE INFORMATION
7.6.1.33 LED00_CUR Register (Address = 100h) [reset = CCh]
LED00_CUR is shown in Figure 58 and described in Table 40.
Return to Summary Table.
Figure 58. LED00_CUR Register
15
14
13
12
11
10
9
8
3
2
1
0
RESERVED
R/W-0h
7
6
5
4
led00_cur
R/W-CCh
Table 40. LED00_CUR Register Field Descriptions
Bit
Field
Type
Reset
15-8
RESERVED
R/W
0h
7-0
led00_cur
R/W
CCh
Description
LED00 driver linear current value
7.6.1.34 LED01_CUR Register (Address = 101h) [reset = CCh]
LED01_CUR is shown in Figure 59 and described in Table 41.
Return to Summary Table.
Figure 59. LED01_CUR Register
15
14
13
12
11
10
9
8
3
2
1
0
RESERVED
R/W-0h
7
6
5
4
led01_cur
R/W-CCh
46
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Table 41. LED01_CUR Register Field Descriptions
Field
Type
Reset
15-8
Bit
RESERVED
R/W
0h
7-0
led01_cur
R/W
CCh
Description
LED01 driver linear current value
7.6.1.35 LED02_CUR Register (Address = 102h) [reset = CCh]
LED02_CUR is shown in Figure 60 and described in Table 42.
Return to Summary Table.
Figure 60. LED02_CUR Register
15
14
13
12
11
10
9
8
3
2
1
0
RESERVED
R/W-0h
7
6
5
4
ADVANCE INFORMATION
led02_cur
R/W-CCh
Table 42. LED02_CUR Register Field Descriptions
Field
Type
Reset
15-8
Bit
RESERVED
R/W
0h
7-0
led02_cur
R/W
CCh
Description
LED02 driver linear current value
7.6.1.36 LED03_CUR Register (Address = 103h) [reset = CCh]
LED03_CUR is shown in Figure 61 and described in Table 43.
Return to Summary Table.
Figure 61. LED03_CUR Register
15
14
13
12
11
10
9
8
3
2
1
0
9
8
RESERVED
R/W-0h
7
6
5
4
led03_cur
R/W-CCh
Table 43. LED03_CUR Register Field Descriptions
Field
Type
Reset
15-8
Bit
RESERVED
R/W
0h
7-0
led03_cur
R/W
CCh
Description
LED03 driver linear current value
7.6.1.37 LED04_CUR Register (Address = 104h) [reset = CCh]
LED04_CUR is shown in Figure 62 and described in Table 44.
Return to Summary Table.
Figure 62. LED04_CUR Register
15
14
13
12
11
10
RESERVED
R/W-0h
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6
5
4
3
2
1
0
led04_cur
R/W-CCh
Table 44. LED04_CUR Register Field Descriptions
Field
Type
Reset
15-8
Bit
RESERVED
R/W
0h
7-0
led04_cur
R/W
CCh
Description
LED04 driver linear current value
7.6.1.38 LED05_CUR Register (Address = 105h) [reset = CCh]
LED05_CUR is shown in Figure 63 and described in Table 45.
Return to Summary Table.
Figure 63. LED05_CUR Register
15
14
13
12
11
10
9
8
3
2
1
0
RESERVED
R/W-0h
ADVANCE INFORMATION
7
6
5
4
led05_cur
R/W-CCh
Table 45. LED05_CUR Register Field Descriptions
Field
Type
Reset
15-8
Bit
RESERVED
R/W
0h
7-0
led05_cur
R/W
CCh
Description
LED05 driver linear current value
7.6.1.39 LED06_CUR Register (Address = 106h) [reset = CCh]
LED06_CUR is shown in Figure 64 and described in Table 46.
Return to Summary Table.
Figure 64. LED06_CUR Register
15
14
13
12
11
10
9
8
3
2
1
0
RESERVED
R/W-0h
7
6
5
4
led06_cur
R/W-CCh
Table 46. LED06_CUR Register Field Descriptions
Field
Type
Reset
15-8
Bit
RESERVED
R/W
0h
7-0
led06_cur
R/W
CCh
Description
LED06 driver linear current value
7.6.1.40 LED07_CUR Register (Address = 107h) [reset = CCh]
LED07_CUR is shown in Figure 65 and described in Table 47.
Return to Summary Table.
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Figure 65. LED07_CUR Register
15
14
13
12
11
10
9
8
3
2
1
0
RESERVED
R/W-0h
7
6
5
4
led07_cur
R/W-CCh
Table 47. LED07_CUR Register Field Descriptions
Field
Type
Reset
15-8
Bit
RESERVED
R/W
0h
7-0
led07_cur
R/W
CCh
Description
LED07 driver linear current value
7.6.1.41 LED08_CUR Register (Address = 108h) [reset = CCh]
LED08_CUR is shown in Figure 66 and described in Table 48.
ADVANCE INFORMATION
Return to Summary Table.
Figure 66. LED08_CUR Register
15
14
13
12
11
10
9
8
3
2
1
0
RESERVED
R/W-0h
7
6
5
4
led08_cur
R/W-CCh
Table 48. LED08_CUR Register Field Descriptions
Bit
Field
Type
Reset
15-8
RESERVED
R/W
0h
7-0
led08_cur
R/W
CCh
Description
LED08 driver linear current value
7.6.1.42 LED09_CUR Register (Address = 109h) [reset = CCh]
LED09_CUR is shown in Figure 67 and described in Table 49.
Return to Summary Table.
Figure 67. LED09_CUR Register
15
14
13
12
11
10
9
8
3
2
1
0
RESERVED
R/W-0h
7
6
5
4
led09_cur
R/W-CCh
Table 49. LED09_CUR Register Field Descriptions
Field
Type
Reset
15-8
Bit
RESERVED
R/W
0h
7-0
led09_cur
R/W
CCh
Copyright © 2017, Texas Instruments Incorporated
Description
LED09 driver linear current value
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7.6.1.43 LED10_CUR Register (Address = 10Ah) [reset = CCh]
LED10_CUR is shown in Figure 68 and described in Table 50.
Return to Summary Table.
Figure 68. LED10_CUR Register
15
14
13
12
11
10
9
8
3
2
1
0
RESERVED
R/W-0h
7
6
5
4
led10_cur
R/W-CCh
Table 50. LED10_CUR Register Field Descriptions
Bit
Field
Type
Reset
15-8
RESERVED
R/W
0h
7-0
led10_cur
R/W
CCh
Description
LED10 driver linear current value
ADVANCE INFORMATION
7.6.1.44 LED11_CUR Register (Address = 10Bh) [reset = CCh]
LED11_CUR is shown in Figure 69 and described in Table 51.
Return to Summary Table.
Figure 69. LED11_CUR Register
15
14
13
12
11
10
9
8
3
2
1
0
RESERVED
R/W-0h
7
6
5
4
led11_cur
R/W-CCh
Table 51. LED11_CUR Register Field Descriptions
Field
Type
Reset
15-8
Bit
RESERVED
R/W
0h
7-0
led11_cur
R/W
CCh
Description
LED11 driver linear current value
7.6.1.45 LED12_CUR Register (Address = 10Ch) [reset = CCh]
LED12_CUR is shown in Figure 70 and described in Table 52.
Return to Summary Table.
Figure 70. LED12_CUR Register
15
14
13
12
11
10
9
8
3
2
1
0
RESERVED
R/W-0h
7
6
5
4
led12_cur
R/W-CCh
50
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Table 52. LED12_CUR Register Field Descriptions
Field
Type
Reset
15-8
Bit
RESERVED
R/W
0h
7-0
led12_cur
R/W
CCh
Description
LED12 driver linear current value
7.6.1.46 LED13_CUR Register (Address = 10Dh) [reset = CCh]
LED13_CUR is shown in Figure 71 and described in Table 53.
Return to Summary Table.
Figure 71. LED13_CUR Register
15
14
13
12
11
10
9
8
3
2
1
0
RESERVED
R/W-0h
7
6
5
4
ADVANCE INFORMATION
led13_cur
R/W-CCh
Table 53. LED13_CUR Register Field Descriptions
Field
Type
Reset
15-8
Bit
RESERVED
R/W
0h
7-0
led13_cur
R/W
CCh
Description
LED13 driver linear current value
7.6.1.47 LED14_CUR Register (Address = 10Eh) [reset = CCh]
LED14_CUR is shown in Figure 72 and described in Table 54.
Return to Summary Table.
Figure 72. LED14_CUR Register
15
14
13
12
11
10
9
8
3
2
1
0
9
8
RESERVED
R/W-0h
7
6
5
4
led14_cur
R/W-CCh
Table 54. LED14_CUR Register Field Descriptions
Field
Type
Reset
15-8
Bit
RESERVED
R/W
0h
7-0
led14_cur
R/W
CCh
Description
LED14 driver linear current value
7.6.1.48 LED15_CUR Register (Address = 10Fh) [reset = CCh]
LED15_CUR is shown in Figure 73 and described in Table 55.
Return to Summary Table.
Figure 73. LED15_CUR Register
15
14
13
12
11
10
RESERVED
R/W-0h
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6
5
4
3
2
1
0
led15_cur
R/W-CCh
Table 55. LED15_CUR Register Field Descriptions
Field
Type
Reset
15-8
Bit
RESERVED
R/W
0h
7-0
led15_cur
R/W
CCh
Description
LED15 driver linear current value
7.6.1.49 LED16_CUR Register (Address = 110h) [reset = CCh]
LED16_CUR is shown in Figure 74 and described in Table 56.
Return to Summary Table.
Figure 74. LED16_CUR Register
15
14
13
12
11
10
9
8
3
2
1
0
RESERVED
R/W-0h
ADVANCE INFORMATION
7
6
5
4
led16_cur
R/W-CCh
Table 56. LED16_CUR Register Field Descriptions
Field
Type
Reset
15-8
Bit
RESERVED
R/W
0h
7-0
led16_cur
R/W
CCh
Description
LED16 driver linear current value
7.6.1.50 LED17_CUR Register (Address = 111h) [reset = CCh]
LED17_CUR is shown in Figure 75 and described in Table 57.
Return to Summary Table.
Figure 75. LED17_CUR Register
15
14
13
12
11
10
9
8
3
2
1
0
RESERVED
R/W-0h
7
6
5
4
led17_cur
R/W-CCh
Table 57. LED17_CUR Register Field Descriptions
Field
Type
Reset
15-8
Bit
RESERVED
R/W
0h
7-0
led17_cur
R/W
CCh
Description
LED17 driver linear current value
7.6.1.51 LED18_CUR Register (Address = 112h) [reset = CCh]
LED18_CUR is shown in Figure 76 and described in Table 58.
Return to Summary Table.
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Figure 76. LED18_CUR Register
15
14
13
12
11
10
9
8
3
2
1
0
RESERVED
R/W-0h
7
6
5
4
led18_cur
R/W-CCh
Table 58. LED18_CUR Register Field Descriptions
Field
Type
Reset
15-8
Bit
RESERVED
R/W
0h
7-0
led18_cur
R/W
CCh
Description
LED18 driver linear current value
7.6.1.52 LED19_CUR Register (Address = 113h) [reset = CCh]
LED19_CUR is shown in Figure 77 and described in Table 59.
ADVANCE INFORMATION
Return to Summary Table.
Figure 77. LED19_CUR Register
15
14
13
12
11
10
9
8
3
2
1
0
RESERVED
R/W-0h
7
6
5
4
led19_cur
R/W-CCh
Table 59. LED19_CUR Register Field Descriptions
Bit
Field
Type
Reset
15-8
RESERVED
R/W
0h
7-0
led19_cur
R/W
CCh
Description
LED19 driver linear current value
7.6.1.53 LED20_CUR Register (Address = 114h) [reset = CCh]
LED20_CUR is shown in Figure 78 and described in Table 60.
Return to Summary Table.
Figure 78. LED20_CUR Register
15
14
13
12
11
10
9
8
3
2
1
0
RESERVED
R/W-0h
7
6
5
4
led20_cur
R/W-CCh
Table 60. LED20_CUR Register Field Descriptions
Field
Type
Reset
15-8
Bit
RESERVED
R/W
0h
7-0
led20_cur
R/W
CCh
Copyright © 2017, Texas Instruments Incorporated
Description
LED20 driver linear current value
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7.6.1.54 LED21_CUR Register (Address = 115h) [reset = CCh]
LED21_CUR is shown in Figure 79 and described in Table 61.
Return to Summary Table.
Figure 79. LED21_CUR Register
15
14
13
12
11
10
9
8
3
2
1
0
RESERVED
R/W-0h
7
6
5
4
led21_cur
R/W-CCh
Table 61. LED21_CUR Register Field Descriptions
Bit
Field
Type
Reset
15-8
RESERVED
R/W
0h
7-0
led21_cur
R/W
CCh
Description
LED21 driver linear current value
ADVANCE INFORMATION
7.6.1.55 LED22_CUR Register (Address = 116h) [reset = CCh]
LED22_CUR is shown in Figure 80 and described in Table 62.
Return to Summary Table.
Figure 80. LED22_CUR Register
15
14
13
12
11
10
9
8
3
2
1
0
RESERVED
R/W-0h
7
6
5
4
led22_cur
R/W-CCh
Table 62. LED22_CUR Register Field Descriptions
Field
Type
Reset
15-8
Bit
RESERVED
R/W
0h
7-0
led22_cur
R/W
CCh
Description
LED22 driver linear current value
7.6.1.56 LED23_CUR Register (Address = 117h) [reset = CCh]
LED23_CUR is shown in Figure 81 and described in Table 63.
Return to Summary Table.
Figure 81. LED23_CUR Register
15
14
13
12
11
10
9
8
3
2
1
0
RESERVED
R/W-0h
7
6
5
4
led23_cur
R/W-CCh
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Table 63. LED23_CUR Register Field Descriptions
Field
Type
Reset
15-8
Bit
RESERVED
R/W
0h
7-0
led23_cur
R/W
CCh
Description
LED23 driver linear current value
7.6.1.57 LED24_CUR Register (Address = 118h) [reset = CCh]
LED24_CUR is shown in Figure 82 and described in Table 64.
Return to Summary Table.
Figure 82. LED24_CUR Register
15
14
13
12
11
10
9
8
3
2
1
0
RESERVED
R/W-0h
7
6
5
4
ADVANCE INFORMATION
led24_cur
R/W-CCh
Table 64. LED24_CUR Register Field Descriptions
Field
Type
Reset
15-8
Bit
RESERVED
R/W
0h
7-0
led24_cur
R/W
CCh
Description
LED24 driver linear current value
7.6.1.58 LED25_CUR Register (Address = 119h) [reset = CCh]
LED25_CUR is shown in Figure 83 and described in Table 65.
Return to Summary Table.
Figure 83. LED25_CUR Register
15
14
13
12
11
10
9
8
3
2
1
0
9
8
RESERVED
R/W-0h
7
6
5
4
led25_cur
R/W-CCh
Table 65. LED25_CUR Register Field Descriptions
Field
Type
Reset
15-8
Bit
RESERVED
R/W
0h
7-0
led25_cur
R/W
CCh
Description
LED25 driver linear current value
7.6.1.59 LED26_CUR Register (Address = 11Ah) [reset = CCh]
LED26_CUR is shown in Figure 84 and described in Table 66.
Return to Summary Table.
Figure 84. LED26_CUR Register
15
14
13
12
11
10
RESERVED
R/W-0h
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6
5
4
3
2
1
0
led26_cur
R/W-CCh
Table 66. LED26_CUR Register Field Descriptions
Field
Type
Reset
15-8
Bit
RESERVED
R/W
0h
7-0
led26_cur
R/W
CCh
Description
LED26 driver linear current value
7.6.1.60 LED27_CUR Register (Address = 11Bh) [reset = CCh]
LED27_CUR is shown in Figure 85 and described in Table 67.
Return to Summary Table.
Figure 85. LED27_CUR Register
15
14
13
12
11
10
9
8
3
2
1
0
RESERVED
R/W-0h
ADVANCE INFORMATION
7
6
5
4
led27_cur
R/W-CCh
Table 67. LED27_CUR Register Field Descriptions
Field
Type
Reset
15-8
Bit
RESERVED
R/W
0h
7-0
led27_cur
R/W
CCh
Description
LED27 driver linear current value
7.6.1.61 LED28_CUR Register (Address = 11Ch) [reset = CCh]
LED28_CUR is shown in Figure 86 and described in Table 68.
Return to Summary Table.
Figure 86. LED28_CUR Register
15
14
13
12
11
10
9
8
3
2
1
0
RESERVED
R/W-0h
7
6
5
4
led28_cur
R/W-CCh
Table 68. LED28_CUR Register Field Descriptions
Field
Type
Reset
15-8
Bit
RESERVED
R/W
0h
7-0
led28_cur
R/W
CCh
Description
LED28 driver linear current value
7.6.1.62 LED29_CUR Register (Address = 11Dh) [reset = CCh]
LED29_CUR is shown in Figure 87 and described in Table 69.
Return to Summary Table.
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Figure 87. LED29_CUR Register
15
14
13
12
11
10
9
8
3
2
1
0
RESERVED
R/W-0h
7
6
5
4
led29_cur
R/W-CCh
Table 69. LED29_CUR Register Field Descriptions
Field
Type
Reset
15-8
Bit
RESERVED
R/W
0h
7-0
led29_cur
R/W
CCh
Description
LED29 driver linear current value
7.6.1.63 LED30_CUR Register (Address = 11Eh) [reset = CCh]
LED30_CUR is shown in Figure 88 and described in Table 70.
ADVANCE INFORMATION
Return to Summary Table.
Figure 88. LED30_CUR Register
15
14
13
12
11
10
9
8
3
2
1
0
RESERVED
R/W-0h
7
6
5
4
led30_cur
R/W-CCh
Table 70. LED30_CUR Register Field Descriptions
Bit
Field
Type
Reset
15-8
RESERVED
R/W
0h
7-0
led30_cur
R/W
CCh
Description
LED30 driver linear current value
7.6.1.64 LED31_CUR Register (Address = 11Fh) [reset = CCh]
LED31_CUR is shown in Figure 89 and described in Table 71.
Return to Summary Table.
Figure 89. LED31_CUR Register
15
14
13
12
11
10
9
8
3
2
1
0
RESERVED
R/W-0h
7
6
5
4
led31_cur
R/W-CCh
Table 71. LED31_CUR Register Field Descriptions
Field
Type
Reset
15-8
Bit
RESERVED
R/W
0h
7-0
led31_cur
R/W
CCh
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Description
LED31 driver linear current value
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7.6.1.65 LED32_CUR Register (Address = 120h) [reset = CCh]
LED32_CUR is shown in Figure 90 and described in Table 72.
Return to Summary Table.
Figure 90. LED32_CUR Register
15
14
13
12
11
10
9
8
3
2
1
0
RESERVED
R/W-0h
7
6
5
4
led32_cur
R/W-CCh
Table 72. LED32_CUR Register Field Descriptions
Bit
Field
Type
Reset
15-8
RESERVED
R/W
0h
7-0
led32_cur
R/W
CCh
Description
LED32 driver linear current value
ADVANCE INFORMATION
7.6.1.66 LED33_CUR Register (Address = 121h) [reset = CCh]
LED33_CUR is shown in Figure 91 and described in Table 73.
Return to Summary Table.
Figure 91. LED33_CUR Register
15
14
13
12
11
10
9
8
3
2
1
0
RESERVED
R/W-0h
7
6
5
4
led33_cur
R/W-CCh
Table 73. LED33_CUR Register Field Descriptions
Field
Type
Reset
15-8
Bit
RESERVED
R/W
0h
7-0
led33_cur
R/W
CCh
Description
LED33 driver linear current value
7.6.1.67 LED34_CUR Register (Address = 122h) [reset = CCh]
LED34_CUR is shown in Figure 92 and described in Table 74.
Return to Summary Table.
Figure 92. LED34_CUR Register
15
14
13
12
11
10
9
8
3
2
1
0
RESERVED
R/W-0h
7
6
5
4
led34_cur
R/W-CCh
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Table 74. LED34_CUR Register Field Descriptions
Field
Type
Reset
15-8
Bit
RESERVED
R/W
0h
7-0
led34_cur
R/W
CCh
Description
LED34 driver linear current value
7.6.1.68 LED35_CUR Register (Address = 123h) [reset = CCh]
LED35_CUR is shown in Figure 93 and described in Table 75.
Return to Summary Table.
Figure 93. LED35_CUR Register
15
14
13
12
11
10
9
8
3
2
1
0
RESERVED
R/W-0h
7
6
5
4
ADVANCE INFORMATION
led35_cur
R/W-CCh
Table 75. LED35_CUR Register Field Descriptions
Field
Type
Reset
15-8
Bit
RESERVED
R/W
0h
7-0
led35_cur
R/W
CCh
Description
LED35 driver linear current value
7.6.1.69 LED36_CUR Register (Address = 124h) [reset = CCh]
LED36_CUR is shown in Figure 94 and described in Table 76.
Return to Summary Table.
Figure 94. LED36_CUR Register
15
14
13
12
11
10
9
8
3
2
1
0
9
8
RESERVED
R/W-0h
7
6
5
4
led36_cur
R/W-CCh
Table 76. LED36_CUR Register Field Descriptions
Field
Type
Reset
15-8
Bit
RESERVED
R/W
0h
7-0
led36_cur
R/W
CCh
Description
LED36 driver linear current value
7.6.1.70 LED37_CUR Register (Address = 125h) [reset = CCh]
LED37_CUR is shown in Figure 95 and described in Table 77.
Return to Summary Table.
Figure 95. LED37_CUR Register
15
14
13
12
11
10
RESERVED
R/W-0h
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6
5
4
3
2
1
0
led37_cur
R/W-CCh
Table 77. LED37_CUR Register Field Descriptions
Field
Type
Reset
15-8
Bit
RESERVED
R/W
0h
7-0
led37_cur
R/W
CCh
Description
LED37 driver linear current value
7.6.1.71 LED38_CUR Register (Address = 126h) [reset = CCh]
LED38_CUR is shown in Figure 96 and described in Table 78.
Return to Summary Table.
Figure 96. LED38_CUR Register
15
14
13
12
11
10
9
8
3
2
1
0
RESERVED
R/W-0h
ADVANCE INFORMATION
7
6
5
4
led38_cur
R/W-CCh
Table 78. LED38_CUR Register Field Descriptions
Field
Type
Reset
15-8
Bit
RESERVED
R/W
0h
7-0
led38_cur
R/W
CCh
Description
LED38 driver linear current value
7.6.1.72 LED39_CUR Register (Address = 127h) [reset = CCh]
LED39_CUR is shown in Figure 97 and described in Table 79.
Return to Summary Table.
Figure 97. LED39_CUR Register
15
14
13
12
11
10
9
8
3
2
1
0
RESERVED
R/W-0h
7
6
5
4
led39_cur
R/W-CCh
Table 79. LED39_CUR Register Field Descriptions
Field
Type
Reset
15-8
Bit
RESERVED
R/W
0h
7-0
led39_cur
R/W
CCh
Description
LED39 driver linear current value
7.6.1.73 LED40_CUR Register (Address = 128h) [reset = CCh]
LED40_CUR is shown in Figure 98 and described in Table 80.
Return to Summary Table.
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Figure 98. LED40_CUR Register
15
14
13
12
11
10
9
8
3
2
1
0
RESERVED
R/W-0h
7
6
5
4
led40_cur
R/W-CCh
Table 80. LED40_CUR Register Field Descriptions
Field
Type
Reset
15-8
Bit
RESERVED
R/W
0h
7-0
led40_cur
R/W
CCh
Description
LED40 driver linear current value
7.6.1.74 LED41_CUR Register (Address = 129h) [reset = CCh]
LED41_CUR is shown in Figure 99 and described in Table 81.
ADVANCE INFORMATION
Return to Summary Table.
Figure 99. LED41_CUR Register
15
14
13
12
11
10
9
8
3
2
1
0
RESERVED
R/W-0h
7
6
5
4
led41_cur
R/W-CCh
Table 81. LED41_CUR Register Field Descriptions
Bit
Field
Type
Reset
15-8
RESERVED
R/W
0h
7-0
led41_cur
R/W
CCh
Description
LED41 driver linear current value
7.6.1.75 LED42_CUR Register (Address = 12Ah) [reset = CCh]
LED42_CUR is shown in Figure 100 and described in Table 82.
Return to Summary Table.
Figure 100. LED42_CUR Register
15
14
13
12
11
10
9
8
3
2
1
0
RESERVED
R/W-0h
7
6
5
4
led42_cur
R/W-CCh
Table 82. LED42_CUR Register Field Descriptions
Field
Type
Reset
15-8
Bit
RESERVED
R/W
0h
7-0
led42_cur
R/W
CCh
Copyright © 2017, Texas Instruments Incorporated
Description
LED42 driver linear current value
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7.6.1.76 LED43_CUR Register (Address = 12Bh) [reset = CCh]
LED43_CUR is shown in Figure 101 and described in Table 83.
Return to Summary Table.
Figure 101. LED43_CUR Register
15
14
13
12
11
10
9
8
3
2
1
0
RESERVED
R/W-0h
7
6
5
4
led43_cur
R/W-CCh
Table 83. LED43_CUR Register Field Descriptions
Bit
Field
Type
Reset
15-8
RESERVED
R/W
0h
7-0
led43_cur
R/W
CCh
Description
LED43 driver linear current value
ADVANCE INFORMATION
7.6.1.77 LED44_CUR Register (Address = 12Ch) [reset = CCh]
LED44_CUR is shown in Figure 102 and described in Table 84.
Return to Summary Table.
Figure 102. LED44_CUR Register
15
14
13
12
11
10
9
8
3
2
1
0
RESERVED
R/W-0h
7
6
5
4
led44_cur
R/W-CCh
Table 84. LED44_CUR Register Field Descriptions
Field
Type
Reset
15-8
Bit
RESERVED
R/W
0h
7-0
led44_cur
R/W
CCh
Description
LED44 driver linear current value
7.6.1.78 LED45_CUR Register (Address = 12Dh) [reset = CCh]
LED45_CUR is shown in Figure 103 and described in Table 85.
Return to Summary Table.
Figure 103. LED45_CUR Register
15
14
13
12
11
10
9
8
3
2
1
0
RESERVED
R/W-0h
7
6
5
4
led45_cur
R/W-CCh
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Table 85. LED45_CUR Register Field Descriptions
Field
Type
Reset
15-8
Bit
RESERVED
R/W
0h
7-0
led45_cur
R/W
CCh
Description
LED45 driver linear current value
7.6.1.79 LED46_CUR Register (Address = 12Eh) [reset = CCh]
LED46_CUR is shown in Figure 104 and described in Table 86.
Return to Summary Table.
Figure 104. LED46_CUR Register
15
14
13
12
11
10
9
8
3
2
1
0
RESERVED
R/W-0h
7
6
5
4
ADVANCE INFORMATION
led46_cur
R/W-CCh
Table 86. LED46_CUR Register Field Descriptions
Field
Type
Reset
15-8
Bit
RESERVED
R/W
0h
7-0
led46_cur
R/W
CCh
Description
LED46 driver linear current value
7.6.1.80 LED47_CUR Register (Address = 12Fh) [reset = CCh]
LED47_CUR is shown in Figure 105 and described in Table 87.
Return to Summary Table.
Figure 105. LED47_CUR Register
15
14
13
12
11
10
9
8
3
2
1
0
9
8
RESERVED
R/W-0h
7
6
5
4
led47_cur
R/W-CCh
Table 87. LED47_CUR Register Field Descriptions
Field
Type
Reset
15-8
Bit
RESERVED
R/W
0h
7-0
led47_cur
R/W
CCh
Description
LED47 driver linear current value
7.6.1.81 LED48_CUR Register (Address = 130h) [reset = CCh]
LED48_CUR is shown in Figure 106 and described in Table 88.
Return to Summary Table.
Figure 106. LED48_CUR Register
15
14
13
12
11
10
RESERVED
R/W-0h
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6
5
4
3
2
1
0
led48_cur
R/W-CCh
Table 88. LED48_CUR Register Field Descriptions
Field
Type
Reset
15-8
Bit
RESERVED
R/W
0h
7-0
led48_cur
R/W
CCh
Description
LED48 driver linear current value
7.6.1.82 LED49_CUR Register (Address = 131h) [reset = CCh]
LED49_CUR is shown in Figure 107 and described in Table 89.
Return to Summary Table.
Figure 107. LED49_CUR Register
15
14
13
12
11
10
9
8
3
2
1
0
RESERVED
R/W-0h
ADVANCE INFORMATION
7
6
5
4
led49_cur
R/W-CCh
Table 89. LED49_CUR Register Field Descriptions
Field
Type
Reset
15-8
Bit
RESERVED
R/W
0h
7-0
led49_cur
R/W
CCh
Description
LED49 driver linear current value
7.6.1.83 LED50_CUR Register (Address = 132h) [reset = CCh]
LED50_CUR is shown in Figure 108 and described in Table 90.
Return to Summary Table.
Figure 108. LED50_CUR Register
15
14
13
12
11
10
9
8
3
2
1
0
RESERVED
R/W-0h
7
6
5
4
led50_cur
R/W-CCh
Table 90. LED50_CUR Register Field Descriptions
Field
Type
Reset
15-8
Bit
RESERVED
R/W
0h
7-0
led50_cur
R/W
CCh
Description
LED50 driver linear current value
7.6.1.84 LED51_CUR Register (Address = 133h) [reset = CCh]
LED51_CUR is shown in Figure 109 and described in Table 91.
Return to Summary Table.
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Figure 109. LED51_CUR Register
15
14
13
12
11
10
9
8
3
2
1
0
RESERVED
R/W-0h
7
6
5
4
led51_cur
R/W-CCh
Table 91. LED51_CUR Register Field Descriptions
Field
Type
Reset
15-8
Bit
RESERVED
R/W
0h
7-0
led51_cur
R/W
CCh
Description
LED51 driver linear current value
7.6.1.85 LED52_CUR Register (Address = 134h) [reset = CCh]
LED52_CUR is shown in Figure 110 and described in Table 92.
ADVANCE INFORMATION
Return to Summary Table.
Figure 110. LED52_CUR Register
15
14
13
12
11
10
9
8
3
2
1
0
RESERVED
R/W-0h
7
6
5
4
led52_cur
R/W-CCh
Table 92. LED52_CUR Register Field Descriptions
Bit
Field
Type
Reset
15-8
RESERVED
R/W
0h
7-0
led52_cur
R/W
CCh
Description
LED52 driver linear current value
7.6.1.86 LED53_CUR Register (Address = 135h) [reset = CCh]
LED53_CUR is shown in Figure 111 and described in Table 93.
Return to Summary Table.
Figure 111. LED53_CUR Register
15
14
13
12
11
10
9
8
3
2
1
0
RESERVED
R/W-0h
7
6
5
4
led53_cur
R/W-CCh
Table 93. LED53_CUR Register Field Descriptions
Field
Type
Reset
15-8
Bit
RESERVED
R/W
0h
7-0
led53_cur
R/W
CCh
Copyright © 2017, Texas Instruments Incorporated
Description
LED53 driver linear current value
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7.6.1.87 LED54_CUR Register (Address = 136h) [reset = CCh]
LED54_CUR is shown in Figure 112 and described in Table 94.
Return to Summary Table.
Figure 112. LED54_CUR Register
15
14
13
12
11
10
9
8
3
2
1
0
RESERVED
R/W-0h
7
6
5
4
led54_cur
R/W-CCh
Table 94. LED54_CUR Register Field Descriptions
Bit
Field
Type
Reset
15-8
RESERVED
R/W
0h
7-0
led54_cur
R/W
CCh
Description
LED54 driver linear current value
ADVANCE INFORMATION
7.6.1.88 LED55_CUR Register (Address = 137h) [reset = CCh]
LED55_CUR is shown in Figure 113 and described in Table 95.
Return to Summary Table.
Figure 113. LED55_CUR Register
15
14
13
12
11
10
9
8
3
2
1
0
RESERVED
R/W-0h
7
6
5
4
led55_cur
R/W-CCh
Table 95. LED55_CUR Register Field Descriptions
Field
Type
Reset
15-8
Bit
RESERVED
R/W
0h
7-0
led55_cur
R/W
CCh
Description
LED55 driver linear current value
7.6.1.89 LED56_CUR Register (Address = 138h) [reset = CCh]
LED56_CUR is shown in Figure 114 and described in Table 96.
Return to Summary Table.
Figure 114. LED56_CUR Register
15
14
13
12
11
10
9
8
3
2
1
0
RESERVED
R/W-0h
7
6
5
4
led56_cur
R/W-CCh
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Table 96. LED56_CUR Register Field Descriptions
Field
Type
Reset
15-8
Bit
RESERVED
R/W
0h
7-0
led56_cur
R/W
CCh
Description
LED56 driver linear current value
7.6.1.90 LED57_CUR Register (Address = 139h) [reset = CCh]
LED57_CUR is shown in Figure 115 and described in Table 97.
Return to Summary Table.
Figure 115. LED57_CUR Register
15
14
13
12
11
10
9
8
3
2
1
0
RESERVED
R/W-0h
7
6
5
4
ADVANCE INFORMATION
led57_cur
R/W-CCh
Table 97. LED57_CUR Register Field Descriptions
Field
Type
Reset
15-8
Bit
RESERVED
R/W
0h
7-0
led57_cur
R/W
CCh
Description
LED57 driver linear current value
7.6.1.91 LED58_CUR Register (Address = 13Ah) [reset = CCh]
LED58_CUR is shown in Figure 116 and described in Table 98.
Return to Summary Table.
Figure 116. LED58_CUR Register
15
14
13
12
11
10
9
8
3
2
1
0
9
8
RESERVED
R/W-0h
7
6
5
4
led58_cur
R/W-CCh
Table 98. LED58_CUR Register Field Descriptions
Field
Type
Reset
15-8
Bit
RESERVED
R/W
0h
7-0
led58_cur
R/W
CCh
Description
LED58 driver linear current value
7.6.1.92 LED59_CUR Register (Address = 13Bh) [reset = CCh]
LED59_CUR is shown in Figure 117 and described in Table 99.
Return to Summary Table.
Figure 117. LED59_CUR Register
15
14
13
12
11
10
RESERVED
R/W-0h
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6
5
4
3
2
1
0
led59_cur
R/W-CCh
Table 99. LED59_CUR Register Field Descriptions
Field
Type
Reset
15-8
Bit
RESERVED
R/W
0h
7-0
led59_cur
R/W
CCh
Description
LED59 driver linear current value
7.6.1.93 LED60_CUR Register (Address = 13Ch) [reset = CCh]
LED60_CUR is shown in Figure 118 and described in Table 100.
Return to Summary Table.
Figure 118. LED60_CUR Register
15
14
13
12
11
10
9
8
3
2
1
0
RESERVED
R/W-0h
ADVANCE INFORMATION
7
6
5
4
led60_cur
R/W-CCh
Table 100. LED60_CUR Register Field Descriptions
Field
Type
Reset
15-8
Bit
RESERVED
R/W
0h
7-0
led60_cur
R/W
CCh
Description
LED60 driver linear current value
7.6.1.94 LED61_CUR Register (Address = 13Dh) [reset = CCh]
LED61_CUR is shown in Figure 119 and described in Table 101.
Return to Summary Table.
Figure 119. LED61_CUR Register
15
14
13
12
11
10
9
8
3
2
1
0
RESERVED
R/W-0h
7
6
5
4
led61_cur
R/W-CCh
Table 101. LED61_CUR Register Field Descriptions
Field
Type
Reset
15-8
Bit
RESERVED
R/W
0h
7-0
led61_cur
R/W
CCh
Description
LED61 driver linear current value
7.6.1.95 LED62_CUR Register (Address = 13Eh) [reset = CCh]
LED62_CUR is shown in Figure 120 and described in Table 102.
Return to Summary Table.
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Figure 120. LED62_CUR Register
15
14
13
12
11
10
9
8
3
2
1
0
RESERVED
R/W-0h
7
6
5
4
led62_cur
R/W-CCh
Table 102. LED62_CUR Register Field Descriptions
Field
Type
Reset
15-8
Bit
RESERVED
R/W
0h
7-0
led62_cur
R/W
CCh
Description
LED62 driver linear current value
7.6.1.96 LED63_CUR Register (Address = 13Fh) [reset = CCh]
LED63_CUR is shown in Figure 121 and described in Table 103.
ADVANCE INFORMATION
Return to Summary Table.
Figure 121. LED63_CUR Register
15
14
13
12
11
10
9
8
3
2
1
0
RESERVED
R/W-0h
7
6
5
4
led63_cur
R/W-CCh
Table 103. LED63_CUR Register Field Descriptions
Bit
Field
Type
Reset
15-8
RESERVED
R/W
0h
7-0
led63_cur
R/W
CCh
Description
LED63 driver linear current value
7.6.1.97 LED64_CUR Register (Address = 140h) [reset = CCh]
LED64_CUR is shown in Figure 122 and described in Table 104.
Return to Summary Table.
Figure 122. LED64_CUR Register
15
14
13
12
11
10
9
8
3
2
1
0
RESERVED
R/W-0h
7
6
5
4
led64_cur
R/W-CCh
Table 104. LED64_CUR Register Field Descriptions
Field
Type
Reset
15-8
Bit
RESERVED
R/W
0h
7-0
led64_cur
R/W
CCh
Copyright © 2017, Texas Instruments Incorporated
Description
LED64 driver linear current value
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7.6.1.98 LED65_CUR Register (Address = 141h) [reset = CCh]
LED65_CUR is shown in Figure 123 and described in Table 105.
Return to Summary Table.
Figure 123. LED65_CUR Register
15
14
13
12
11
10
9
8
3
2
1
0
RESERVED
R/W-0h
7
6
5
4
led65_cur
R/W-CCh
Table 105. LED65_CUR Register Field Descriptions
Bit
Field
Type
Reset
15-8
RESERVED
R/W
0h
7-0
led65_cur
R/W
CCh
Description
LED65 driver linear current value
ADVANCE INFORMATION
7.6.1.99 LED66_CUR Register (Address = 142h) [reset = CCh]
LED66_CUR is shown in Figure 124 and described in Table 106.
Return to Summary Table.
Figure 124. LED66_CUR Register
15
14
13
12
11
10
9
8
3
2
1
0
RESERVED
R/W-0h
7
6
5
4
led66_cur
R/W-CCh
Table 106. LED66_CUR Register Field Descriptions
Field
Type
Reset
15-8
Bit
RESERVED
R/W
0h
7-0
led66_cur
R/W
CCh
Description
LED66 driver linear current value
7.6.1.100 LED67_CUR Register (Address = 143h) [reset = CCh]
LED67_CUR is shown in Figure 125 and described in Table 107.
Return to Summary Table.
Figure 125. LED67_CUR Register
15
14
13
12
11
10
9
8
3
2
1
0
RESERVED
R/W-0h
7
6
5
4
led67_cur
R/W-CCh
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Table 107. LED67_CUR Register Field Descriptions
Field
Type
Reset
15-8
Bit
RESERVED
R/W
0h
7-0
led67_cur
R/W
CCh
Description
LED67 driver linear current value
7.6.1.101 LED68_CUR Register (Address = 144h) [reset = CCh]
LED68_CUR is shown in Figure 126 and described in Table 108.
Return to Summary Table.
Figure 126. LED68_CUR Register
15
14
13
12
11
10
9
8
3
2
1
0
RESERVED
R/W-0h
7
6
5
4
ADVANCE INFORMATION
led68_cur
R/W-CCh
Table 108. LED68_CUR Register Field Descriptions
Field
Type
Reset
15-8
Bit
RESERVED
R/W
0h
7-0
led68_cur
R/W
CCh
Description
LED68 driver linear current value
7.6.1.102 LED69_CUR Register (Address = 145h) [reset = CCh]
LED69_CUR is shown in Figure 127 and described in Table 109.
Return to Summary Table.
Figure 127. LED69_CUR Register
15
14
13
12
11
10
9
8
3
2
1
0
9
8
RESERVED
R/W-0h
7
6
5
4
led69_cur
R/W-CCh
Table 109. LED69_CUR Register Field Descriptions
Field
Type
Reset
15-8
Bit
RESERVED
R/W
0h
7-0
led69_cur
R/W
CCh
Description
LED69 driver linear current value
7.6.1.103 LED70_CUR Register (Address = 146h) [reset = CCh]
LED70_CUR is shown in Figure 128 and described in Table 110.
Return to Summary Table.
Figure 128. LED70_CUR Register
15
14
13
12
11
10
RESERVED
R/W-0h
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6
5
4
3
2
1
0
led70_cur
R/W-CCh
Table 110. LED70_CUR Register Field Descriptions
Field
Type
Reset
15-8
Bit
RESERVED
R/W
0h
7-0
led70_cur
R/W
CCh
Description
LED70 driver linear current value
7.6.1.104 LED71_CUR Register (Address = 147h) [reset = CCh]
LED71_CUR is shown in Figure 129 and described in Table 111.
Return to Summary Table.
Figure 129. LED71_CUR Register
15
14
13
12
11
10
9
8
3
2
1
0
RESERVED
R/W-0h
ADVANCE INFORMATION
7
6
5
4
led71_cur
R/W-CCh
Table 111. LED71_CUR Register Field Descriptions
Field
Type
Reset
15-8
Bit
RESERVED
R/W
0h
7-0
led71_cur
R/W
CCh
Description
LED71 driver linear current value
7.6.1.105 LED72_CUR Register (Address = 148h) [reset = CCh]
LED72_CUR is shown in Figure 130 and described in Table 112.
Return to Summary Table.
Figure 130. LED72_CUR Register
15
14
13
12
11
10
9
8
3
2
1
0
RESERVED
R/W-0h
7
6
5
4
led72_cur
R/W-CCh
Table 112. LED72_CUR Register Field Descriptions
Field
Type
Reset
15-8
Bit
RESERVED
R/W
0h
7-0
led72_cur
R/W
CCh
Description
LED72 driver linear current value
7.6.1.106 LED73_CUR Register (Address = 149h) [reset = CCh]
LED73_CUR is shown in Figure 131 and described in Table 113.
Return to Summary Table.
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Figure 131. LED73_CUR Register
15
14
13
12
11
10
9
8
3
2
1
0
RESERVED
R/W-0h
7
6
5
4
led73_cur
R/W-CCh
Table 113. LED73_CUR Register Field Descriptions
Field
Type
Reset
15-8
Bit
RESERVED
R/W
0h
7-0
led73_cur
R/W
CCh
Description
LED73 driver linear current value
7.6.1.107 LED74_CUR Register (Address = 14Ah) [reset = CCh]
LED74_CUR is shown in Figure 132 and described in Table 114.
ADVANCE INFORMATION
Return to Summary Table.
Figure 132. LED74_CUR Register
15
14
13
12
11
10
9
8
3
2
1
0
RESERVED
R/W-0h
7
6
5
4
led74_cur
R/W-CCh
Table 114. LED74_CUR Register Field Descriptions
Bit
Field
Type
Reset
15-8
RESERVED
R/W
0h
7-0
led74_cur
R/W
CCh
Description
LED74 driver linear current value
7.6.1.108 LED75_CUR Register (Address = 14Bh) [reset = CCh]
LED75_CUR is shown in Figure 133 and described in Table 115.
Return to Summary Table.
Figure 133. LED75_CUR Register
15
14
13
12
11
10
9
8
3
2
1
0
RESERVED
R/W-0h
7
6
5
4
led75_cur
R/W-CCh
Table 115. LED75_CUR Register Field Descriptions
Field
Type
Reset
15-8
Bit
RESERVED
R/W
0h
7-0
led75_cur
R/W
CCh
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Description
LED75 driver linear current value
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7.6.1.109 LED76_CUR Register (Address = 14Ch) [reset = CCh]
LED76_CUR is shown in Figure 134 and described in Table 116.
Return to Summary Table.
Figure 134. LED76_CUR Register
15
14
13
12
11
10
9
8
3
2
1
0
RESERVED
R/W-0h
7
6
5
4
led76_cur
R/W-CCh
Table 116. LED76_CUR Register Field Descriptions
Bit
Field
Type
Reset
15-8
RESERVED
R/W
0h
7-0
led76_cur
R/W
CCh
Description
LED76 driver linear current value
ADVANCE INFORMATION
7.6.1.110 LED77_CUR Register (Address = 14Dh) [reset = CCh]
LED77_CUR is shown in Figure 135 and described in Table 117.
Return to Summary Table.
Figure 135. LED77_CUR Register
15
14
13
12
11
10
9
8
3
2
1
0
RESERVED
R/W-0h
7
6
5
4
led77_cur
R/W-CCh
Table 117. LED77_CUR Register Field Descriptions
Field
Type
Reset
15-8
Bit
RESERVED
R/W
0h
7-0
led77_cur
R/W
CCh
Description
LED77 driver linear current value
7.6.1.111 LED78_CUR Register (Address = 14Eh) [reset = CCh]
LED78_CUR is shown in Figure 136 and described in Table 118.
Return to Summary Table.
Figure 136. LED78_CUR Register
15
14
13
12
11
10
9
8
3
2
1
0
RESERVED
R/W-0h
7
6
5
4
led78_cur
R/W-CCh
74
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Table 118. LED78_CUR Register Field Descriptions
Field
Type
Reset
15-8
Bit
RESERVED
R/W
0h
7-0
led78_cur
R/W
CCh
Description
LED78 driver linear current value
7.6.1.112 LED79_CUR Register (Address = 14Fh) [reset = CCh]
LED79_CUR is shown in Figure 137 and described in Table 119.
Return to Summary Table.
Figure 137. LED79_CUR Register
15
14
13
12
11
10
9
8
3
2
1
0
RESERVED
R/W-0h
7
6
5
4
ADVANCE INFORMATION
led79_cur
R/W-CCh
Table 119. LED79_CUR Register Field Descriptions
Field
Type
Reset
15-8
Bit
RESERVED
R/W
0h
7-0
led79_cur
R/W
CCh
Description
LED79 driver linear current value
7.6.1.113 LED80_CUR Register (Address = 150h) [reset = CCh]
LED80_CUR is shown in Figure 138 and described in Table 120.
Return to Summary Table.
Figure 138. LED80_CUR Register
15
14
13
12
11
10
9
8
3
2
1
0
9
8
RESERVED
R/W-0h
7
6
5
4
led80_cur
R/W-CCh
Table 120. LED80_CUR Register Field Descriptions
Field
Type
Reset
15-8
Bit
RESERVED
R/W
0h
7-0
led80_cur
R/W
CCh
Description
LED80 driver linear current value
7.6.1.114 LED81_CUR Register (Address = 151h) [reset = CCh]
LED81_CUR is shown in Figure 139 and described in Table 121.
Return to Summary Table.
Figure 139. LED81_CUR Register
15
14
13
12
11
10
RESERVED
R/W-0h
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6
5
4
3
2
1
0
led81_cur
R/W-CCh
Table 121. LED81_CUR Register Field Descriptions
Field
Type
Reset
15-8
Bit
RESERVED
R/W
0h
7-0
led81_cur
R/W
CCh
Description
LED81 driver linear current value
7.6.1.115 LED82_CUR Register (Address = 152h) [reset = CCh]
LED82_CUR is shown in Figure 140 and described in Table 122.
Return to Summary Table.
Figure 140. LED82_CUR Register
15
14
13
12
11
10
9
8
3
2
1
0
RESERVED
R/W-0h
ADVANCE INFORMATION
7
6
5
4
led82_cur
R/W-CCh
Table 122. LED82_CUR Register Field Descriptions
Field
Type
Reset
15-8
Bit
RESERVED
R/W
0h
7-0
led82_cur
R/W
CCh
Description
LED82 driver linear current value
7.6.1.116 LED83_CUR Register (Address = 153h) [reset = CCh]
LED83_CUR is shown in Figure 141 and described in Table 123.
Return to Summary Table.
Figure 141. LED83_CUR Register
15
14
13
12
11
10
9
8
3
2
1
0
RESERVED
R/W-0h
7
6
5
4
led83_cur
R/W-CCh
Table 123. LED83_CUR Register Field Descriptions
Field
Type
Reset
15-8
Bit
RESERVED
R/W
0h
7-0
led83_cur
R/W
CCh
Description
LED83 driver linear current value
7.6.1.117 LED84_CUR Register (Address = 154h) [reset = CCh]
LED84_CUR is shown in Figure 142 and described in Table 124.
Return to Summary Table.
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Figure 142. LED84_CUR Register
15
14
13
12
11
10
9
8
3
2
1
0
RESERVED
R/W-0h
7
6
5
4
led84_cur
R/W-CCh
Table 124. LED84_CUR Register Field Descriptions
Field
Type
Reset
15-8
Bit
RESERVED
R/W
0h
7-0
led84_cur
R/W
CCh
Description
LED84 driver linear current value
7.6.1.118 LED85_CUR Register (Address = 155h) [reset = CCh]
LED85_CUR is shown in Figure 143 and described in Table 125.
ADVANCE INFORMATION
Return to Summary Table.
Figure 143. LED85_CUR Register
15
14
13
12
11
10
9
8
3
2
1
0
RESERVED
R/W-0h
7
6
5
4
led85_cur
R/W-CCh
Table 125. LED85_CUR Register Field Descriptions
Bit
Field
Type
Reset
15-8
RESERVED
R/W
0h
7-0
led85_cur
R/W
CCh
Description
LED85 driver linear current value
7.6.1.119 LED86_CUR Register (Address = 156h) [reset = CCh]
LED86_CUR is shown in Figure 144 and described in Table 126.
Return to Summary Table.
Figure 144. LED86_CUR Register
15
14
13
12
11
10
9
8
3
2
1
0
RESERVED
R/W-0h
7
6
5
4
led86_cur
R/W-CCh
Table 126. LED86_CUR Register Field Descriptions
Field
Type
Reset
15-8
Bit
RESERVED
R/W
0h
7-0
led86_cur
R/W
CCh
Copyright © 2017, Texas Instruments Incorporated
Description
LED86 driver linear current value
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7.6.1.120 LED87_CUR Register (Address = 157h) [reset = CCh]
LED87_CUR is shown in Figure 145 and described in Table 127.
Return to Summary Table.
Figure 145. LED87_CUR Register
15
14
13
12
11
10
9
8
3
2
1
0
RESERVED
R/W-0h
7
6
5
4
led87_cur
R/W-CCh
Table 127. LED87_CUR Register Field Descriptions
Bit
Field
Type
Reset
15-8
RESERVED
R/W
0h
7-0
led87_cur
R/W
CCh
Description
LED87 driver linear current value
ADVANCE INFORMATION
7.6.1.121 LED88_CUR Register (Address = 158h) [reset = CCh]
LED88_CUR is shown in Figure 146 and described in Table 128.
Return to Summary Table.
Figure 146. LED88_CUR Register
15
14
13
12
11
10
9
8
3
2
1
0
RESERVED
R/W-0h
7
6
5
4
led88_cur
R/W-CCh
Table 128. LED88_CUR Register Field Descriptions
Field
Type
Reset
15-8
Bit
RESERVED
R/W
0h
7-0
led88_cur
R/W
CCh
Description
LED88 driver linear current value
7.6.1.122 LED89_CUR Register (Address = 159h) [reset = CCh]
LED89_CUR is shown in Figure 147 and described in Table 129.
Return to Summary Table.
Figure 147. LED89_CUR Register
15
14
13
12
11
10
9
8
3
2
1
0
RESERVED
R/W-0h
7
6
5
4
led89_cur
R/W-CCh
78
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Table 129. LED89_CUR Register Field Descriptions
Field
Type
Reset
15-8
Bit
RESERVED
R/W
0h
7-0
led89_cur
R/W
CCh
Description
LED89 driver linear current value
7.6.1.123 LED90_CUR Register (Address = 15Ah) [reset = CCh]
LED90_CUR is shown in Figure 148 and described in Table 130.
Return to Summary Table.
Figure 148. LED90_CUR Register
15
14
13
12
11
10
9
8
3
2
1
0
RESERVED
R/W-0h
7
6
5
4
ADVANCE INFORMATION
led90_cur
R/W-CCh
Table 130. LED90_CUR Register Field Descriptions
Field
Type
Reset
15-8
Bit
RESERVED
R/W
0h
7-0
led90_cur
R/W
CCh
Description
LED90 driver linear current value
7.6.1.124 LED91_CUR Register (Address = 15Bh) [reset = CCh]
LED91_CUR is shown in Figure 149 and described in Table 131.
Return to Summary Table.
Figure 149. LED91_CUR Register
15
14
13
12
11
10
9
8
3
2
1
0
9
8
RESERVED
R/W-0h
7
6
5
4
led91_cur
R/W-CCh
Table 131. LED91_CUR Register Field Descriptions
Field
Type
Reset
15-8
Bit
RESERVED
R/W
0h
7-0
led91_cur
R/W
CCh
Description
LED91 driver linear current value
7.6.1.125 LED92_CUR Register (Address = 15Ch) [reset = CCh]
LED92_CUR is shown in Figure 150 and described in Table 132.
Return to Summary Table.
Figure 150. LED92_CUR Register
15
14
13
12
11
10
RESERVED
R/W-0h
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6
5
4
3
2
1
0
led92_cur
R/W-CCh
Table 132. LED92_CUR Register Field Descriptions
Field
Type
Reset
15-8
Bit
RESERVED
R/W
0h
7-0
led92_cur
R/W
CCh
Description
LED92 driver linear current value
7.6.1.126 LED93_CUR Register (Address = 15Dh) [reset = CCh]
LED93_CUR is shown in Figure 151 and described in Table 133.
Return to Summary Table.
Figure 151. LED93_CUR Register
15
14
13
12
11
10
9
8
3
2
1
0
RESERVED
R/W-0h
ADVANCE INFORMATION
7
6
5
4
led93_cur
R/W-CCh
Table 133. LED93_CUR Register Field Descriptions
Field
Type
Reset
15-8
Bit
RESERVED
R/W
0h
7-0
led93_cur
R/W
CCh
Description
LED93 driver linear current value
7.6.1.127 LED94_CUR Register (Address = 15Eh) [reset = CCh]
LED94_CUR is shown in Figure 152 and described in Table 134.
Return to Summary Table.
Figure 152. LED94_CUR Register
15
14
13
12
11
10
9
8
3
2
1
0
RESERVED
R/W-0h
7
6
5
4
led94_cur
R/W-CCh
Table 134. LED94_CUR Register Field Descriptions
Field
Type
Reset
15-8
Bit
RESERVED
R/W
0h
7-0
led94_cur
R/W
CCh
Description
LED94 driver linear current value
7.6.1.128 LED95_CUR Register (Address = 15Fh) [reset = CCh]
LED95_CUR is shown in Figure 153 and described in Table 135.
Return to Summary Table.
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Figure 153. LED95_CUR Register
15
14
13
12
11
10
9
8
3
2
1
0
RESERVED
R/W-0h
7
6
5
4
led95_cur
R/W-CCh
Table 135. LED95_CUR Register Field Descriptions
Field
Type
Reset
15-8
Bit
RESERVED
R/W
0h
7-0
led95_cur
R/W
CCh
Description
LED95 driver linear current value
7.6.1.129 LED00_BRI Register (Address = 160h) [reset = 1FFh]
LED00_BRI is shown in Figure 154 and described in Table 136.
ADVANCE INFORMATION
Return to Summary Table.
Figure 154. LED00_BRI Register
15
14
13
12
RESERVED
R/W-0h
11
10
9
8
led00_bri
R/W-1FFh
7
6
5
4
3
2
1
0
led00_bri
R/W-1FFh
Table 136. LED00_BRI Register Field Descriptions
Bit
Field
Type
Reset
15-9
RESERVED
R/W
0h
8-0
led00_bri
R/W
1FFh
Description
PWM Brightness of LED00
7.6.1.130 LED01_BRI Register (Address = 161h) [reset = 1FFh]
LED01_BRI is shown in Figure 155 and described in Table 137.
Return to Summary Table.
Figure 155. LED01_BRI Register
15
14
13
12
RESERVED
R/W-0h
11
10
9
8
led01_bri
R/W-1FFh
7
6
5
4
3
2
1
0
led01_bri
R/W-1FFh
Table 137. LED01_BRI Register Field Descriptions
Field
Type
Reset
15-9
Bit
RESERVED
R/W
0h
8-0
led01_bri
R/W
1FFh
Copyright © 2017, Texas Instruments Incorporated
Description
PWM Brightness of LED01
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7.6.1.131 LED02_BRI Register (Address = 162h) [reset = 1FFh]
LED02_BRI is shown in Figure 156 and described in Table 138.
Return to Summary Table.
Figure 156. LED02_BRI Register
15
14
13
12
RESERVED
R/W-0h
11
10
9
8
led02_bri
R/W-1FFh
7
6
5
4
3
2
1
0
led02_bri
R/W-1FFh
Table 138. LED02_BRI Register Field Descriptions
Bit
Field
Type
Reset
15-9
RESERVED
R/W
0h
8-0
led02_bri
R/W
1FFh
Description
PWM Brightness of LED02
ADVANCE INFORMATION
7.6.1.132 LED03_BRI Register (Address = 163h) [reset = 1FFh]
LED03_BRI is shown in Figure 157 and described in Table 139.
Return to Summary Table.
Figure 157. LED03_BRI Register
15
14
13
12
RESERVED
R/W-0h
11
10
9
8
led03_bri
R/W-1FFh
7
6
5
4
3
2
1
0
led03_bri
R/W-1FFh
Table 139. LED03_BRI Register Field Descriptions
Field
Type
Reset
15-9
Bit
RESERVED
R/W
0h
8-0
led03_bri
R/W
1FFh
Description
PWM Brightness of LED03
7.6.1.133 LED04_BRI Register (Address = 164h) [reset = 1FFh]
LED04_BRI is shown in Figure 158 and described in Table 140.
Return to Summary Table.
Figure 158. LED04_BRI Register
15
14
13
12
RESERVED
R/W-0h
11
10
9
8
led04_bri
R/W-1FFh
7
6
5
4
3
2
1
0
led04_bri
R/W-1FFh
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Table 140. LED04_BRI Register Field Descriptions
Field
Type
Reset
15-9
Bit
RESERVED
R/W
0h
8-0
led04_bri
R/W
1FFh
Description
PWM Brightness of LED04
7.6.1.134 LED05_BRI Register (Address = 165h) [reset = 1FFh]
LED05_BRI is shown in Figure 159 and described in Table 141.
Return to Summary Table.
Figure 159. LED05_BRI Register
15
14
13
12
RESERVED
R/W-0h
11
10
9
8
led05_bri
R/W-1FFh
7
6
5
4
3
2
1
0
ADVANCE INFORMATION
led05_bri
R/W-1FFh
Table 141. LED05_BRI Register Field Descriptions
Field
Type
Reset
15-9
Bit
RESERVED
R/W
0h
8-0
led05_bri
R/W
1FFh
Description
PWM Brightness of LED05
7.6.1.135 LED06_BRI Register (Address = 166h) [reset = 1FFh]
LED06_BRI is shown in Figure 160 and described in Table 142.
Return to Summary Table.
Figure 160. LED06_BRI Register
15
14
13
12
RESERVED
R/W-0h
11
10
9
8
led06_bri
R/W-1FFh
7
6
5
4
3
2
1
0
9
8
led07_bri
R/W-1FFh
led06_bri
R/W-1FFh
Table 142. LED06_BRI Register Field Descriptions
Field
Type
Reset
15-9
Bit
RESERVED
R/W
0h
8-0
led06_bri
R/W
1FFh
Description
PWM Brightness of LED06
7.6.1.136 LED07_BRI Register (Address = 167h) [reset = 1FFh]
LED07_BRI is shown in Figure 161 and described in Table 143.
Return to Summary Table.
Figure 161. LED07_BRI Register
15
14
13
Copyright © 2017, Texas Instruments Incorporated
12
RESERVED
R/W-0h
11
10
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6
5
4
3
2
1
0
led07_bri
R/W-1FFh
Table 143. LED07_BRI Register Field Descriptions
Field
Type
Reset
15-9
Bit
RESERVED
R/W
0h
8-0
led07_bri
R/W
1FFh
Description
PWM Brightness of LED07
7.6.1.137 LED08_BRI Register (Address = 168h) [reset = 1FFh]
LED08_BRI is shown in Figure 162 and described in Table 144.
Return to Summary Table.
Figure 162. LED08_BRI Register
ADVANCE INFORMATION
15
14
13
12
RESERVED
R/W-0h
11
10
9
8
led08_bri
R/W-1FFh
7
6
5
4
3
2
1
0
led08_bri
R/W-1FFh
Table 144. LED08_BRI Register Field Descriptions
Field
Type
Reset
15-9
Bit
RESERVED
R/W
0h
8-0
led08_bri
R/W
1FFh
Description
PWM Brightness of LED08
7.6.1.138 LED09_BRI Register (Address = 169h) [reset = 1FFh]
LED09_BRI is shown in Figure 163 and described in Table 145.
Return to Summary Table.
Figure 163. LED09_BRI Register
15
14
13
12
RESERVED
R/W-0h
11
10
9
8
led09_bri
R/W-1FFh
7
6
5
4
3
2
1
0
led09_bri
R/W-1FFh
Table 145. LED09_BRI Register Field Descriptions
Field
Type
Reset
15-9
Bit
RESERVED
R/W
0h
8-0
led09_bri
R/W
1FFh
Description
PWM Brightness of LED09
7.6.1.139 LED10_BRI Register (Address = 16Ah) [reset = 1FFh]
LED10_BRI is shown in Figure 164 and described in Table 146.
Return to Summary Table.
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Figure 164. LED10_BRI Register
15
14
13
12
RESERVED
R/W-0h
11
10
9
8
led10_bri
R/W-1FFh
7
6
5
4
3
2
1
0
led10_bri
R/W-1FFh
Table 146. LED10_BRI Register Field Descriptions
Field
Type
Reset
15-9
Bit
RESERVED
R/W
0h
8-0
led10_bri
R/W
1FFh
Description
PWM Brightness of LED10
7.6.1.140 LED11_BRI Register (Address = 16Bh) [reset = 1FFh]
LED11_BRI is shown in Figure 165 and described in Table 147.
ADVANCE INFORMATION
Return to Summary Table.
Figure 165. LED11_BRI Register
15
14
13
12
RESERVED
R/W-0h
11
10
9
8
led11_bri
R/W-1FFh
7
6
5
4
3
2
1
0
led11_bri
R/W-1FFh
Table 147. LED11_BRI Register Field Descriptions
Bit
Field
Type
Reset
15-9
RESERVED
R/W
0h
8-0
led11_bri
R/W
1FFh
Description
PWM Brightness of LED11
7.6.1.141 LED12_BRI Register (Address = 16Ch) [reset = 1FFh]
LED12_BRI is shown in Figure 166 and described in Table 148.
Return to Summary Table.
Figure 166. LED12_BRI Register
15
14
13
12
RESERVED
R/W-0h
11
10
9
8
led12_bri
R/W-1FFh
7
6
5
4
3
2
1
0
led12_bri
R/W-1FFh
Table 148. LED12_BRI Register Field Descriptions
Field
Type
Reset
15-9
Bit
RESERVED
R/W
0h
8-0
led12_bri
R/W
1FFh
Copyright © 2017, Texas Instruments Incorporated
Description
PWM Brightness of LED12
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7.6.1.142 LED13_BRI Register (Address = 16Dh) [reset = 1FFh]
LED13_BRI is shown in Figure 167 and described in Table 149.
Return to Summary Table.
Figure 167. LED13_BRI Register
15
14
13
12
RESERVED
R/W-0h
11
10
9
8
led13_bri
R/W-1FFh
7
6
5
4
3
2
1
0
led13_bri
R/W-1FFh
Table 149. LED13_BRI Register Field Descriptions
Bit
Field
Type
Reset
15-9
RESERVED
R/W
0h
8-0
led13_bri
R/W
1FFh
Description
PWM Brightness of LED13
ADVANCE INFORMATION
7.6.1.143 LED14_BRI Register (Address = 16Eh) [reset = 1FFh]
LED14_BRI is shown in Figure 168 and described in Table 150.
Return to Summary Table.
Figure 168. LED14_BRI Register
15
14
13
12
RESERVED
R/W-0h
11
10
9
8
led14_bri
R/W-1FFh
7
6
5
4
3
2
1
0
led14_bri
R/W-1FFh
Table 150. LED14_BRI Register Field Descriptions
Field
Type
Reset
15-9
Bit
RESERVED
R/W
0h
8-0
led14_bri
R/W
1FFh
Description
PWM Brightness of LED14
7.6.1.144 LED15_BRI Register (Address = 16Fh) [reset = 1FFh]
LED15_BRI is shown in Figure 169 and described in Table 151.
Return to Summary Table.
Figure 169. LED15_BRI Register
15
14
13
12
RESERVED
R/W-0h
11
10
9
8
led15_bri
R/W-1FFh
7
6
5
4
3
2
1
0
led15_bri
R/W-1FFh
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Table 151. LED15_BRI Register Field Descriptions
Field
Type
Reset
15-9
Bit
RESERVED
R/W
0h
8-0
led15_bri
R/W
1FFh
Description
PWM Brightness of LED15
7.6.1.145 LED16_BRI Register (Address = 170h) [reset = 1FFh]
LED16_BRI is shown in Figure 170 and described in Table 152.
Return to Summary Table.
Figure 170. LED16_BRI Register
15
14
13
12
RESERVED
R/W-0h
11
10
9
8
led16_bri
R/W-1FFh
7
6
5
4
3
2
1
0
ADVANCE INFORMATION
led16_bri
R/W-1FFh
Table 152. LED16_BRI Register Field Descriptions
Field
Type
Reset
15-9
Bit
RESERVED
R/W
0h
8-0
led16_bri
R/W
1FFh
Description
PWM Brightness of LED16
7.6.1.146 LED17_BRI Register (Address = 171h) [reset = 1FFh]
LED17_BRI is shown in Figure 171 and described in Table 153.
Return to Summary Table.
Figure 171. LED17_BRI Register
15
14
13
12
RESERVED
R/W-0h
11
10
9
8
led17_bri
R/W-1FFh
7
6
5
4
3
2
1
0
9
8
led18_bri
R/W-1FFh
led17_bri
R/W-1FFh
Table 153. LED17_BRI Register Field Descriptions
Field
Type
Reset
15-9
Bit
RESERVED
R/W
0h
8-0
led17_bri
R/W
1FFh
Description
PWM Brightness of LED17
7.6.1.147 LED18_BRI Register (Address = 172h) [reset = 1FFh]
LED18_BRI is shown in Figure 172 and described in Table 154.
Return to Summary Table.
Figure 172. LED18_BRI Register
15
14
13
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12
RESERVED
R/W-0h
11
10
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6
5
4
3
2
1
0
led18_bri
R/W-1FFh
Table 154. LED18_BRI Register Field Descriptions
Field
Type
Reset
15-9
Bit
RESERVED
R/W
0h
8-0
led18_bri
R/W
1FFh
Description
PWM Brightness of LED18
7.6.1.148 LED19_BRI Register (Address = 173h) [reset = 1FFh]
LED19_BRI is shown in Figure 173 and described in Table 155.
Return to Summary Table.
Figure 173. LED19_BRI Register
ADVANCE INFORMATION
15
14
13
12
RESERVED
R/W-0h
11
10
9
8
led19_bri
R/W-1FFh
7
6
5
4
3
2
1
0
led19_bri
R/W-1FFh
Table 155. LED19_BRI Register Field Descriptions
Field
Type
Reset
15-9
Bit
RESERVED
R/W
0h
8-0
led19_bri
R/W
1FFh
Description
PWM Brightness of LED19
7.6.1.149 LED20_BRI Register (Address = 174h) [reset = 1FFh]
LED20_BRI is shown in Figure 174 and described in Table 156.
Return to Summary Table.
Figure 174. LED20_BRI Register
15
14
13
12
RESERVED
R/W-0h
11
10
9
8
led20_bri
R/W-1FFh
7
6
5
4
3
2
1
0
led20_bri
R/W-1FFh
Table 156. LED20_BRI Register Field Descriptions
Field
Type
Reset
15-9
Bit
RESERVED
R/W
0h
8-0
led20_bri
R/W
1FFh
Description
PWM Brightness of LED20
7.6.1.150 LED21_BRI Register (Address = 175h) [reset = 1FFh]
LED21_BRI is shown in Figure 175 and described in Table 157.
Return to Summary Table.
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Figure 175. LED21_BRI Register
15
14
13
12
RESERVED
R/W-0h
11
10
9
8
led21_bri
R/W-1FFh
7
6
5
4
3
2
1
0
led21_bri
R/W-1FFh
Table 157. LED21_BRI Register Field Descriptions
Field
Type
Reset
15-9
Bit
RESERVED
R/W
0h
8-0
led21_bri
R/W
1FFh
Description
PWM Brightness of LED21
7.6.1.151 LED22_BRI Register (Address = 176h) [reset = 1FFh]
LED22_BRI is shown in Figure 176 and described in Table 158.
ADVANCE INFORMATION
Return to Summary Table.
Figure 176. LED22_BRI Register
15
14
13
12
RESERVED
R/W-0h
11
10
9
8
led22_bri
R/W-1FFh
7
6
5
4
3
2
1
0
led22_bri
R/W-1FFh
Table 158. LED22_BRI Register Field Descriptions
Bit
Field
Type
Reset
15-9
RESERVED
R/W
0h
8-0
led22_bri
R/W
1FFh
Description
PWM Brightness of LED22
7.6.1.152 LED23_BRI Register (Address = 177h) [reset = 1FFh]
LED23_BRI is shown in Figure 177 and described in Table 159.
Return to Summary Table.
Figure 177. LED23_BRI Register
15
14
13
12
RESERVED
R/W-0h
11
10
9
8
led23_bri
R/W-1FFh
7
6
5
4
3
2
1
0
led23_bri
R/W-1FFh
Table 159. LED23_BRI Register Field Descriptions
Field
Type
Reset
15-9
Bit
RESERVED
R/W
0h
8-0
led23_bri
R/W
1FFh
Copyright © 2017, Texas Instruments Incorporated
Description
PWM Brightness of LED23
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7.6.1.153 LED24_BRI Register (Address = 178h) [reset = 1FFh]
LED24_BRI is shown in Figure 178 and described in Table 160.
Return to Summary Table.
Figure 178. LED24_BRI Register
15
14
13
12
RESERVED
R/W-0h
11
10
9
8
led24_bri
R/W-1FFh
7
6
5
4
3
2
1
0
led24_bri
R/W-1FFh
Table 160. LED24_BRI Register Field Descriptions
Bit
Field
Type
Reset
15-9
RESERVED
R/W
0h
8-0
led24_bri
R/W
1FFh
Description
PWM Brightness of LED24
ADVANCE INFORMATION
7.6.1.154 LED25_BRI Register (Address = 179h) [reset = 1FFh]
LED25_BRI is shown in Figure 179 and described in Table 161.
Return to Summary Table.
Figure 179. LED25_BRI Register
15
14
13
12
RESERVED
R/W-0h
11
10
9
8
led25_bri
R/W-1FFh
7
6
5
4
3
2
1
0
led25_bri
R/W-1FFh
Table 161. LED25_BRI Register Field Descriptions
Field
Type
Reset
15-9
Bit
RESERVED
R/W
0h
8-0
led25_bri
R/W
1FFh
Description
PWM Brightness of LED25
7.6.1.155 LED26_BRI Register (Address = 17Ah) [reset = 1FFh]
LED26_BRI is shown in Figure 180 and described in Table 162.
Return to Summary Table.
Figure 180. LED26_BRI Register
15
14
13
12
RESERVED
R/W-0h
11
10
9
8
led26_bri
R/W-1FFh
7
6
5
4
3
2
1
0
led26_bri
R/W-1FFh
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Table 162. LED26_BRI Register Field Descriptions
Field
Type
Reset
15-9
Bit
RESERVED
R/W
0h
8-0
led26_bri
R/W
1FFh
Description
PWM Brightness of LED26
7.6.1.156 LED27_BRI Register (Address = 17Bh) [reset = 1FFh]
LED27_BRI is shown in Figure 181 and described in Table 163.
Return to Summary Table.
Figure 181. LED27_BRI Register
15
14
13
12
RESERVED
R/W-0h
11
10
9
8
led27_bri
R/W-1FFh
7
6
5
4
3
2
1
0
ADVANCE INFORMATION
led27_bri
R/W-1FFh
Table 163. LED27_BRI Register Field Descriptions
Field
Type
Reset
15-9
Bit
RESERVED
R/W
0h
8-0
led27_bri
R/W
1FFh
Description
PWM Brightness of LED27
7.6.1.157 LED28_BRI Register (Address = 17Ch) [reset = 1FFh]
LED28_BRI is shown in Figure 182 and described in Table 164.
Return to Summary Table.
Figure 182. LED28_BRI Register
15
14
13
12
RESERVED
R/W-0h
11
10
9
8
led28_bri
R/W-1FFh
7
6
5
4
3
2
1
0
9
8
led29_bri
R/W-1FFh
led28_bri
R/W-1FFh
Table 164. LED28_BRI Register Field Descriptions
Field
Type
Reset
15-9
Bit
RESERVED
R/W
0h
8-0
led28_bri
R/W
1FFh
Description
PWM Brightness of LED28
7.6.1.158 LED29_BRI Register (Address = 17Dh) [reset = 1FFh]
LED29_BRI is shown in Figure 183 and described in Table 165.
Return to Summary Table.
Figure 183. LED29_BRI Register
15
14
13
Copyright © 2017, Texas Instruments Incorporated
12
RESERVED
R/W-0h
11
10
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6
5
4
3
2
1
0
led29_bri
R/W-1FFh
Table 165. LED29_BRI Register Field Descriptions
Field
Type
Reset
15-9
Bit
RESERVED
R/W
0h
8-0
led29_bri
R/W
1FFh
Description
PWM Brightness of LED29
7.6.1.159 LED30_BRI Register (Address = 17Eh) [reset = 1FFh]
LED30_BRI is shown in Figure 184 and described in Table 166.
Return to Summary Table.
Figure 184. LED30_BRI Register
ADVANCE INFORMATION
15
14
13
12
RESERVED
R/W-0h
11
10
9
8
led30_bri
R/W-1FFh
7
6
5
4
3
2
1
0
led30_bri
R/W-1FFh
Table 166. LED30_BRI Register Field Descriptions
Field
Type
Reset
15-9
Bit
RESERVED
R/W
0h
8-0
led30_bri
R/W
1FFh
Description
PWM Brightness of LED30
7.6.1.160 LED31_BRI Register (Address = 17Fh) [reset = 1FFh]
LED31_BRI is shown in Figure 185 and described in Table 167.
Return to Summary Table.
Figure 185. LED31_BRI Register
15
14
13
12
RESERVED
R/W-0h
11
10
9
8
led31_bri
R/W-1FFh
7
6
5
4
3
2
1
0
led31_bri
R/W-1FFh
Table 167. LED31_BRI Register Field Descriptions
Field
Type
Reset
15-9
Bit
RESERVED
R/W
0h
8-0
led31_bri
R/W
1FFh
Description
PWM Brightness of LED31
7.6.1.161 LED32_BRI Register (Address = 180h) [reset = 1FFh]
LED32_BRI is shown in Figure 186 and described in Table 168.
Return to Summary Table.
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Figure 186. LED32_BRI Register
15
14
13
12
RESERVED
R/W-0h
11
10
9
8
led32_bri
R/W-1FFh
7
6
5
4
3
2
1
0
led32_bri
R/W-1FFh
Table 168. LED32_BRI Register Field Descriptions
Field
Type
Reset
15-9
Bit
RESERVED
R/W
0h
8-0
led32_bri
R/W
1FFh
Description
PWM Brightness of LED32
7.6.1.162 LED33_BRI Register (Address = 181h) [reset = 1FFh]
LED33_BRI is shown in Figure 187 and described in Table 169.
ADVANCE INFORMATION
Return to Summary Table.
Figure 187. LED33_BRI Register
15
14
13
12
RESERVED
R/W-0h
11
10
9
8
led33_bri
R/W-1FFh
7
6
5
4
3
2
1
0
led33_bri
R/W-1FFh
Table 169. LED33_BRI Register Field Descriptions
Bit
Field
Type
Reset
15-9
RESERVED
R/W
0h
8-0
led33_bri
R/W
1FFh
Description
PWM Brightness of LED33
7.6.1.163 LED34_BRI Register (Address = 182h) [reset = 1FFh]
LED34_BRI is shown in Figure 188 and described in Table 170.
Return to Summary Table.
Figure 188. LED34_BRI Register
15
14
13
12
RESERVED
R/W-0h
11
10
9
8
led34_bri
R/W-1FFh
7
6
5
4
3
2
1
0
led34_bri
R/W-1FFh
Table 170. LED34_BRI Register Field Descriptions
Field
Type
Reset
15-9
Bit
RESERVED
R/W
0h
8-0
led34_bri
R/W
1FFh
Copyright © 2017, Texas Instruments Incorporated
Description
PWM Brightness of LED34
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7.6.1.164 LED35_BRI Register (Address = 183h) [reset = 1FFh]
LED35_BRI is shown in Figure 189 and described in Table 171.
Return to Summary Table.
Figure 189. LED35_BRI Register
15
14
13
12
RESERVED
R/W-0h
11
10
9
8
led35_bri
R/W-1FFh
7
6
5
4
3
2
1
0
led35_bri
R/W-1FFh
Table 171. LED35_BRI Register Field Descriptions
Bit
Field
Type
Reset
15-9
RESERVED
R/W
0h
8-0
led35_bri
R/W
1FFh
Description
PWM Brightness of LED35
ADVANCE INFORMATION
7.6.1.165 LED36_BRI Register (Address = 184h) [reset = 1FFh]
LED36_BRI is shown in Figure 190 and described in Table 172.
Return to Summary Table.
Figure 190. LED36_BRI Register
15
14
13
12
RESERVED
R/W-0h
11
10
9
8
led36_bri
R/W-1FFh
7
6
5
4
3
2
1
0
led36_bri
R/W-1FFh
Table 172. LED36_BRI Register Field Descriptions
Field
Type
Reset
15-9
Bit
RESERVED
R/W
0h
8-0
led36_bri
R/W
1FFh
Description
PWM Brightness of LED36
7.6.1.166 LED37_BRI Register (Address = 185h) [reset = 1FFh]
LED37_BRI is shown in Figure 191 and described in Table 173.
Return to Summary Table.
Figure 191. LED37_BRI Register
15
14
13
12
RESERVED
R/W-0h
11
10
9
8
led37_bri
R/W-1FFh
7
6
5
4
3
2
1
0
led37_bri
R/W-1FFh
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Table 173. LED37_BRI Register Field Descriptions
Field
Type
Reset
15-9
Bit
RESERVED
R/W
0h
8-0
led37_bri
R/W
1FFh
Description
PWM Brightness of LED37
7.6.1.167 LED38_BRI Register (Address = 186h) [reset = 1FFh]
LED38_BRI is shown in Figure 192 and described in Table 174.
Return to Summary Table.
Figure 192. LED38_BRI Register
15
14
13
12
RESERVED
R/W-0h
11
10
9
8
led38_bri
R/W-1FFh
7
6
5
4
3
2
1
0
ADVANCE INFORMATION
led38_bri
R/W-1FFh
Table 174. LED38_BRI Register Field Descriptions
Field
Type
Reset
15-9
Bit
RESERVED
R/W
0h
8-0
led38_bri
R/W
1FFh
Description
PWM Brightness of LED38
7.6.1.168 LED39_BRI Register (Address = 187h) [reset = 1FFh]
LED39_BRI is shown in Figure 193 and described in Table 175.
Return to Summary Table.
Figure 193. LED39_BRI Register
15
14
13
12
RESERVED
R/W-0h
11
10
9
8
led39_bri
R/W-1FFh
7
6
5
4
3
2
1
0
9
8
led40_bri
R/W-1FFh
led39_bri
R/W-1FFh
Table 175. LED39_BRI Register Field Descriptions
Field
Type
Reset
15-9
Bit
RESERVED
R/W
0h
8-0
led39_bri
R/W
1FFh
Description
PWM Brightness of LED39
7.6.1.169 LED40_BRI Register (Address = 188h) [reset = 1FFh]
LED40_BRI is shown in Figure 194 and described in Table 176.
Return to Summary Table.
Figure 194. LED40_BRI Register
15
14
13
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12
RESERVED
R/W-0h
11
10
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6
5
4
3
2
1
0
led40_bri
R/W-1FFh
Table 176. LED40_BRI Register Field Descriptions
Field
Type
Reset
15-9
Bit
RESERVED
R/W
0h
8-0
led40_bri
R/W
1FFh
Description
PWM Brightness of LED40
7.6.1.170 LED41_BRI Register (Address = 189h) [reset = 1FFh]
LED41_BRI is shown in Figure 195 and described in Table 177.
Return to Summary Table.
Figure 195. LED41_BRI Register
ADVANCE INFORMATION
15
14
13
12
RESERVED
R/W-0h
11
10
9
8
led41_bri
R/W-1FFh
7
6
5
4
3
2
1
0
led41_bri
R/W-1FFh
Table 177. LED41_BRI Register Field Descriptions
Field
Type
Reset
15-9
Bit
RESERVED
R/W
0h
8-0
led41_bri
R/W
1FFh
Description
PWM Brightness of LED41
7.6.1.171 LED42_BRI Register (Address = 18Ah) [reset = 1FFh]
LED42_BRI is shown in Figure 196 and described in Table 178.
Return to Summary Table.
Figure 196. LED42_BRI Register
15
14
13
12
RESERVED
R/W-0h
11
10
9
8
led42_bri
R/W-1FFh
7
6
5
4
3
2
1
0
led42_bri
R/W-1FFh
Table 178. LED42_BRI Register Field Descriptions
Field
Type
Reset
15-9
Bit
RESERVED
R/W
0h
8-0
led42_bri
R/W
1FFh
Description
PWM Brightness of LED42
7.6.1.172 LED43_BRI Register (Address = 18Bh) [reset = 1FFh]
LED43_BRI is shown in Figure 197 and described in Table 179.
Return to Summary Table.
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Figure 197. LED43_BRI Register
15
14
13
12
RESERVED
R/W-0h
11
10
9
8
led43_bri
R/W-1FFh
7
6
5
4
3
2
1
0
led43_bri
R/W-1FFh
Table 179. LED43_BRI Register Field Descriptions
Field
Type
Reset
15-9
Bit
RESERVED
R/W
0h
8-0
led43_bri
R/W
1FFh
Description
PWM Brightness of LED43
7.6.1.173 LED44_BRI Register (Address = 18Ch) [reset = 1FFh]
LED44_BRI is shown in Figure 198 and described in Table 180.
ADVANCE INFORMATION
Return to Summary Table.
Figure 198. LED44_BRI Register
15
14
13
12
RESERVED
R/W-0h
11
10
9
8
led44_bri
R/W-1FFh
7
6
5
4
3
2
1
0
led44_bri
R/W-1FFh
Table 180. LED44_BRI Register Field Descriptions
Bit
Field
Type
Reset
15-9
RESERVED
R/W
0h
8-0
led44_bri
R/W
1FFh
Description
PWM Brightness of LED44
7.6.1.174 LED45_BRI Register (Address = 18Dh) [reset = 1FFh]
LED45_BRI is shown in Figure 199 and described in Table 181.
Return to Summary Table.
Figure 199. LED45_BRI Register
15
14
13
12
RESERVED
R/W-0h
11
10
9
8
led45_bri
R/W-1FFh
7
6
5
4
3
2
1
0
led45_bri
R/W-1FFh
Table 181. LED45_BRI Register Field Descriptions
Field
Type
Reset
15-9
Bit
RESERVED
R/W
0h
8-0
led45_bri
R/W
1FFh
Copyright © 2017, Texas Instruments Incorporated
Description
PWM Brightness of LED45
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7.6.1.175 LED46_BRI Register (Address = 18Eh) [reset = 1FFh]
LED46_BRI is shown in Figure 200 and described in Table 182.
Return to Summary Table.
Figure 200. LED46_BRI Register
15
14
13
12
RESERVED
R/W-0h
11
10
9
8
led46_bri
R/W-1FFh
7
6
5
4
3
2
1
0
led46_bri
R/W-1FFh
Table 182. LED46_BRI Register Field Descriptions
Bit
Field
Type
Reset
15-9
RESERVED
R/W
0h
8-0
led46_bri
R/W
1FFh
Description
PWM Brightness of LED46
ADVANCE INFORMATION
7.6.1.176 LED47_BRI Register (Address = 18Fh) [reset = 1FFh]
LED47_BRI is shown in Figure 201 and described in Table 183.
Return to Summary Table.
Figure 201. LED47_BRI Register
15
14
13
12
RESERVED
R/W-0h
11
10
9
8
led47_bri
R/W-1FFh
7
6
5
4
3
2
1
0
led47_bri
R/W-1FFh
Table 183. LED47_BRI Register Field Descriptions
Field
Type
Reset
15-9
Bit
RESERVED
R/W
0h
8-0
led47_bri
R/W
1FFh
Description
PWM Brightness of LED47
7.6.1.177 LED48_BRI Register (Address = 190h) [reset = 1FFh]
LED48_BRI is shown in Figure 202 and described in Table 184.
Return to Summary Table.
Figure 202. LED48_BRI Register
15
14
13
12
RESERVED
R/W-0h
11
10
9
8
led48_bri
R/W-1FFh
7
6
5
4
3
2
1
0
led48_bri
R/W-1FFh
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Table 184. LED48_BRI Register Field Descriptions
Field
Type
Reset
15-9
Bit
RESERVED
R/W
0h
8-0
led48_bri
R/W
1FFh
Description
PWM Brightness of LED48
7.6.1.178 LED49_BRI Register (Address = 191h) [reset = 1FFh]
LED49_BRI is shown in Figure 203 and described in Table 185.
Return to Summary Table.
Figure 203. LED49_BRI Register
15
14
13
12
RESERVED
R/W-0h
11
10
9
8
led49_bri
R/W-1FFh
7
6
5
4
3
2
1
0
ADVANCE INFORMATION
led49_bri
R/W-1FFh
Table 185. LED49_BRI Register Field Descriptions
Field
Type
Reset
15-9
Bit
RESERVED
R/W
0h
8-0
led49_bri
R/W
1FFh
Description
PWM Brightness of LED49
7.6.1.179 LED50_BRI Register (Address = 192h) [reset = 1FFh]
LED50_BRI is shown in Figure 204 and described in Table 186.
Return to Summary Table.
Figure 204. LED50_BRI Register
15
14
13
12
RESERVED
R/W-0h
11
10
9
8
led50_bri
R/W-1FFh
7
6
5
4
3
2
1
0
9
8
led51_bri
R/W-1FFh
led50_bri
R/W-1FFh
Table 186. LED50_BRI Register Field Descriptions
Field
Type
Reset
15-9
Bit
RESERVED
R/W
0h
8-0
led50_bri
R/W
1FFh
Description
PWM Brightness of LED50
7.6.1.180 LED51_BRI Register (Address = 193h) [reset = 1FFh]
LED51_BRI is shown in Figure 205 and described in Table 187.
Return to Summary Table.
Figure 205. LED51_BRI Register
15
14
13
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12
RESERVED
R/W-0h
11
10
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6
5
4
3
2
1
0
led51_bri
R/W-1FFh
Table 187. LED51_BRI Register Field Descriptions
Field
Type
Reset
15-9
Bit
RESERVED
R/W
0h
8-0
led51_bri
R/W
1FFh
Description
PWM Brightness of LED51
7.6.1.181 LED52_BRI Register (Address = 194h) [reset = 1FFh]
LED52_BRI is shown in Figure 206 and described in Table 188.
Return to Summary Table.
Figure 206. LED52_BRI Register
ADVANCE INFORMATION
15
14
13
12
RESERVED
R/W-0h
11
10
9
8
led52_bri
R/W-1FFh
7
6
5
4
3
2
1
0
led52_bri
R/W-1FFh
Table 188. LED52_BRI Register Field Descriptions
Field
Type
Reset
15-9
Bit
RESERVED
R/W
0h
8-0
led52_bri
R/W
1FFh
Description
PWM Brightness of LED52
7.6.1.182 LED53_BRI Register (Address = 195h) [reset = 1FFh]
LED53_BRI is shown in Figure 207 and described in Table 189.
Return to Summary Table.
Figure 207. LED53_BRI Register
15
14
13
12
RESERVED
R/W-0h
11
10
9
8
led53_bri
R/W-1FFh
7
6
5
4
3
2
1
0
led53_bri
R/W-1FFh
Table 189. LED53_BRI Register Field Descriptions
Field
Type
Reset
15-9
Bit
RESERVED
R/W
0h
8-0
led53_bri
R/W
1FFh
Description
PWM Brightness of LED53
7.6.1.183 LED54_BRI Register (Address = 196h) [reset = 1FFh]
LED54_BRI is shown in Figure 208 and described in Table 190.
Return to Summary Table.
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Figure 208. LED54_BRI Register
15
14
13
12
RESERVED
R/W-0h
11
10
9
8
led54_bri
R/W-1FFh
7
6
5
4
3
2
1
0
led54_bri
R/W-1FFh
Table 190. LED54_BRI Register Field Descriptions
Field
Type
Reset
15-9
Bit
RESERVED
R/W
0h
8-0
led54_bri
R/W
1FFh
Description
PWM Brightness of LED54
7.6.1.184 LED55_BRI Register (Address = 197h) [reset = 1FFh]
LED55_BRI is shown in Figure 209 and described in Table 191.
Figure 209. LED55_BRI Register
15
14
13
12
RESERVED
R/W-0h
11
10
9
8
led55_bri
R/W-1FFh
7
6
5
4
3
2
1
0
led55_bri
R/W-1FFh
Table 191. LED55_BRI Register Field Descriptions
Bit
Field
Type
Reset
15-9
RESERVED
R/W
0h
8-0
led55_bri
R/W
1FFh
Description
PWM Brightness of LED55
7.6.1.185 LED56_BRI Register (Address = 198h) [reset = 1FFh]
LED56_BRI is shown in Figure 210 and described in Table 192.
Return to Summary Table.
Figure 210. LED56_BRI Register
15
14
13
12
RESERVED
R/W-0h
11
10
9
8
led56_bri
R/W-1FFh
7
6
5
4
3
2
1
0
led56_bri
R/W-1FFh
Table 192. LED56_BRI Register Field Descriptions
Field
Type
Reset
15-9
Bit
RESERVED
R/W
0h
8-0
led56_bri
R/W
1FFh
Copyright © 2017, Texas Instruments Incorporated
Description
PWM Brightness of LED56
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ADVANCE INFORMATION
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7.6.1.186 LED57_BRI Register (Address = 199h) [reset = 1FFh]
LED57_BRI is shown in Figure 211 and described in Table 193.
Return to Summary Table.
Figure 211. LED57_BRI Register
15
14
13
12
RESERVED
R/W-0h
11
10
9
8
led57_bri
R/W-1FFh
7
6
5
4
3
2
1
0
led57_bri
R/W-1FFh
Table 193. LED57_BRI Register Field Descriptions
Bit
Field
Type
Reset
15-9
RESERVED
R/W
0h
8-0
led57_bri
R/W
1FFh
Description
PWM Brightness of LED57
ADVANCE INFORMATION
7.6.1.187 LED58_BRI Register (Address = 19Ah) [reset = 1FFh]
LED58_BRI is shown in Figure 212 and described in Table 194.
Return to Summary Table.
Figure 212. LED58_BRI Register
15
14
13
12
RESERVED
R/W-0h
11
10
9
8
led58_bri
R/W-1FFh
7
6
5
4
3
2
1
0
led58_bri
R/W-1FFh
Table 194. LED58_BRI Register Field Descriptions
Field
Type
Reset
15-9
Bit
RESERVED
R/W
0h
8-0
led58_bri
R/W
1FFh
Description
PWM Brightness of LED58
7.6.1.188 LED59_BRI Register (Address = 19Bh) [reset = 1FFh]
LED59_BRI is shown in Figure 213 and described in Table 195.
Return to Summary Table.
Figure 213. LED59_BRI Register
15
14
13
12
RESERVED
R/W-0h
11
10
9
8
led59_bri
R/W-1FFh
7
6
5
4
3
2
1
0
led59_bri
R/W-1FFh
102
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Table 195. LED59_BRI Register Field Descriptions
Field
Type
Reset
15-9
Bit
RESERVED
R/W
0h
8-0
led59_bri
R/W
1FFh
Description
PWM Brightness of LED59
7.6.1.189 LED60_BRI Register (Address = 19Ch) [reset = 1FFh]
LED60_BRI is shown in Figure 214 and described in Table 196.
Return to Summary Table.
Figure 214. LED60_BRI Register
15
14
13
12
RESERVED
R/W-0h
11
10
9
8
led60_bri
R/W-1FFh
7
6
5
4
3
2
1
0
Table 196. LED60_BRI Register Field Descriptions
Field
Type
Reset
15-9
Bit
RESERVED
R/W
0h
8-0
led60_bri
R/W
1FFh
Description
PWM Brightness of LED60
7.6.1.190 LED61_BRI Register (Address = 19Dh) [reset = 1FFh]
LED61_BRI is shown in Figure 215 and described in Table 197.
Return to Summary Table.
Figure 215. LED61_BRI Register
15
14
13
12
RESERVED
R/W-0h
11
10
9
8
led61_bri
R/W-1FFh
7
6
5
4
3
2
1
0
9
8
led62_bri
R/W-1FFh
led61_bri
R/W-1FFh
Table 197. LED61_BRI Register Field Descriptions
Field
Type
Reset
15-9
Bit
RESERVED
R/W
0h
8-0
led61_bri
R/W
1FFh
Description
PWM Brightness of LED61
7.6.1.191 LED62_BRI Register (Address = 19Eh) [reset = 1FFh]
LED62_BRI is shown in Figure 216 and described in Table 198.
Return to Summary Table.
Figure 216. LED62_BRI Register
15
14
13
Copyright © 2017, Texas Instruments Incorporated
12
RESERVED
R/W-0h
11
10
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led60_bri
R/W-1FFh
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6
5
4
3
2
1
0
led62_bri
R/W-1FFh
Table 198. LED62_BRI Register Field Descriptions
Field
Type
Reset
15-9
Bit
RESERVED
R/W
0h
8-0
led62_bri
R/W
1FFh
Description
PWM Brightness of LED62
7.6.1.192 LED63_BRI Register (Address = 19Fh) [reset = 1FFh]
LED63_BRI is shown in Figure 217 and described in Table 199.
Return to Summary Table.
Figure 217. LED63_BRI Register
ADVANCE INFORMATION
15
14
13
12
RESERVED
R/W-0h
11
10
9
8
led63_bri
R/W-1FFh
7
6
5
4
3
2
1
0
led63_bri
R/W-1FFh
Table 199. LED63_BRI Register Field Descriptions
Field
Type
Reset
15-9
Bit
RESERVED
R/W
0h
8-0
led63_bri
R/W
1FFh
Description
PWM Brightness of LED63
7.6.1.193 LED64_BRI Register (Address = 1A0h) [reset = 1FFh]
LED64_BRI is shown in Figure 218 and described in Table 200.
Return to Summary Table.
Figure 218. LED64_BRI Register
15
14
13
12
RESERVED
R/W-0h
11
10
9
8
led64_bri
R/W-1FFh
7
6
5
4
3
2
1
0
led64_bri
R/W-1FFh
Table 200. LED64_BRI Register Field Descriptions
Field
Type
Reset
15-9
Bit
RESERVED
R/W
0h
8-0
led64_bri
R/W
1FFh
Description
PWM Brightness of LED64
7.6.1.194 LED65_BRI Register (Address = 1A1h) [reset = 1FFh]
LED65_BRI is shown in Figure 219 and described in Table 201.
Return to Summary Table.
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Figure 219. LED65_BRI Register
15
14
13
12
RESERVED
R/W-0h
11
10
9
8
led65_bri
R/W-1FFh
7
6
5
4
3
2
1
0
led65_bri
R/W-1FFh
Table 201. LED65_BRI Register Field Descriptions
Field
Type
Reset
15-9
Bit
RESERVED
R/W
0h
8-0
led65_bri
R/W
1FFh
Description
PWM Brightness of LED65
7.6.1.195 LED66_BRI Register (Address = 1A2h) [reset = 1FFh]
LED66_BRI is shown in Figure 220 and described in Table 202.
Figure 220. LED66_BRI Register
15
14
13
12
RESERVED
R/W-0h
11
10
9
8
led66_bri
R/W-1FFh
7
6
5
4
3
2
1
0
led66_bri
R/W-1FFh
Table 202. LED66_BRI Register Field Descriptions
Bit
Field
Type
Reset
15-9
RESERVED
R/W
0h
8-0
led66_bri
R/W
1FFh
Description
PWM Brightness of LED66
7.6.1.196 LED67_BRI Register (Address = 1A3h) [reset = 1FFh]
LED67_BRI is shown in Figure 221 and described in Table 203.
Return to Summary Table.
Figure 221. LED67_BRI Register
15
14
13
12
RESERVED
R/W-0h
11
10
9
8
led67_bri
R/W-1FFh
7
6
5
4
3
2
1
0
led67_bri
R/W-1FFh
Table 203. LED67_BRI Register Field Descriptions
Field
Type
Reset
15-9
Bit
RESERVED
R/W
0h
8-0
led67_bri
R/W
1FFh
Copyright © 2017, Texas Instruments Incorporated
Description
PWM Brightness of LED67
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7.6.1.197 LED68_BRI Register (Address = 1A4h) [reset = 1FFh]
LED68_BRI is shown in Figure 222 and described in Table 204.
Return to Summary Table.
Figure 222. LED68_BRI Register
15
14
13
12
RESERVED
R/W-0h
11
10
9
8
led68_bri
R/W-1FFh
7
6
5
4
3
2
1
0
led68_bri
R/W-1FFh
Table 204. LED68_BRI Register Field Descriptions
Bit
Field
Type
Reset
15-9
RESERVED
R/W
0h
8-0
led68_bri
R/W
1FFh
Description
PWM Brightness of LED68
ADVANCE INFORMATION
7.6.1.198 LED69_BRI Register (Address = 1A5h) [reset = 1FFh]
LED69_BRI is shown in Figure 223 and described in Table 205.
Return to Summary Table.
Figure 223. LED69_BRI Register
15
14
13
12
RESERVED
R/W-0h
11
10
9
8
led69_bri
R/W-1FFh
7
6
5
4
3
2
1
0
led69_bri
R/W-1FFh
Table 205. LED69_BRI Register Field Descriptions
Field
Type
Reset
15-9
Bit
RESERVED
R/W
0h
8-0
led69_bri
R/W
1FFh
Description
PWM Brightness of LED69
7.6.1.199 LED70_BRI Register (Address = 1A6h) [reset = 1FFh]
LED70_BRI is shown in Figure 224 and described in Table 206.
Return to Summary Table.
Figure 224. LED70_BRI Register
15
14
13
12
RESERVED
R/W-0h
11
10
9
8
led70_bri
R/W-1FFh
7
6
5
4
3
2
1
0
led70_bri
R/W-1FFh
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Table 206. LED70_BRI Register Field Descriptions
Field
Type
Reset
15-9
Bit
RESERVED
R/W
0h
8-0
led70_bri
R/W
1FFh
Description
PWM Brightness of LED70
7.6.1.200 LED71_BRI Register (Address = 1A7h) [reset = 1FFh]
LED71_BRI is shown in Figure 225 and described in Table 207.
Return to Summary Table.
Figure 225. LED71_BRI Register
15
14
13
12
RESERVED
R/W-0h
11
10
9
8
led71_bri
R/W-1FFh
7
6
5
4
3
2
1
0
Table 207. LED71_BRI Register Field Descriptions
Field
Type
Reset
15-9
Bit
RESERVED
R/W
0h
8-0
led71_bri
R/W
1FFh
Description
PWM Brightness of LED71
7.6.1.201 LED72_BRI Register (Address = 1A8h) [reset = 1FFh]
LED72_BRI is shown in Figure 226 and described in Table 208.
Return to Summary Table.
Figure 226. LED72_BRI Register
15
14
13
12
RESERVED
R/W-0h
11
10
9
8
led72_bri
R/W-1FFh
7
6
5
4
3
2
1
0
9
8
led73_bri
R/W-1FFh
led72_bri
R/W-1FFh
Table 208. LED72_BRI Register Field Descriptions
Field
Type
Reset
15-9
Bit
RESERVED
R/W
0h
8-0
led72_bri
R/W
1FFh
Description
PWM Brightness of LED72
7.6.1.202 LED73_BRI Register (Address = 1A9h) [reset = 1FFh]
LED73_BRI is shown in Figure 227 and described in Table 209.
Return to Summary Table.
Figure 227. LED73_BRI Register
15
14
13
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12
RESERVED
R/W-0h
11
10
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led71_bri
R/W-1FFh
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6
5
4
3
2
1
0
led73_bri
R/W-1FFh
Table 209. LED73_BRI Register Field Descriptions
Field
Type
Reset
15-9
Bit
RESERVED
R/W
0h
8-0
led73_bri
R/W
1FFh
Description
PWM Brightness of LED73
7.6.1.203 LED74_BRI Register (Address = 1AAh) [reset = 1FFh]
LED74_BRI is shown in Figure 228 and described in Table 210.
Return to Summary Table.
Figure 228. LED74_BRI Register
ADVANCE INFORMATION
15
14
13
12
RESERVED
R/W-0h
11
10
9
8
led74_bri
R/W-1FFh
7
6
5
4
3
2
1
0
led74_bri
R/W-1FFh
Table 210. LED74_BRI Register Field Descriptions
Field
Type
Reset
15-9
Bit
RESERVED
R/W
0h
8-0
led74_bri
R/W
1FFh
Description
PWM Brightness of LED74
7.6.1.204 LED75_BRI Register (Address = 1ABh) [reset = 1FFh]
LED75_BRI is shown in Figure 229 and described in Table 211.
Return to Summary Table.
Figure 229. LED75_BRI Register
15
14
13
12
RESERVED
R/W-0h
11
10
9
8
led75_bri
R/W-1FFh
7
6
5
4
3
2
1
0
led75_bri
R/W-1FFh
Table 211. LED75_BRI Register Field Descriptions
Field
Type
Reset
15-9
Bit
RESERVED
R/W
0h
8-0
led75_bri
R/W
1FFh
Description
PWM Brightness of LED75
7.6.1.205 LED76_BRI Register (Address = 1ACh) [reset = 1FFh]
LED76_BRI is shown in Figure 230 and described in Table 212.
Return to Summary Table.
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Figure 230. LED76_BRI Register
15
14
13
12
RESERVED
R/W-0h
11
10
9
8
led76_bri
R/W-1FFh
7
6
5
4
3
2
1
0
led76_bri
R/W-1FFh
Table 212. LED76_BRI Register Field Descriptions
Field
Type
Reset
15-9
Bit
RESERVED
R/W
0h
8-0
led76_bri
R/W
1FFh
Description
PWM Brightness of LED76
7.6.1.206 LED77_BRI Register (Address = 1ADh) [reset = 1FFh]
LED77_BRI is shown in Figure 231 and described in Table 213.
Figure 231. LED77_BRI Register
15
14
13
12
RESERVED
R/W-0h
11
10
9
8
led77_bri
R/W-1FFh
7
6
5
4
3
2
1
0
led77_bri
R/W-1FFh
Table 213. LED77_BRI Register Field Descriptions
Bit
Field
Type
Reset
15-9
RESERVED
R/W
0h
8-0
led77_bri
R/W
1FFh
Description
PWM Brightness of LED77
7.6.1.207 LED78_BRI Register (Address = 1AEh) [reset = 1FFh]
LED78_BRI is shown in Figure 232 and described in Table 214.
Return to Summary Table.
Figure 232. LED78_BRI Register
15
14
13
12
RESERVED
R/W-0h
11
10
9
8
led78_bri
R/W-1FFh
7
6
5
4
3
2
1
0
led78_bri
R/W-1FFh
Table 214. LED78_BRI Register Field Descriptions
Field
Type
Reset
15-9
Bit
RESERVED
R/W
0h
8-0
led78_bri
R/W
1FFh
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Description
PWM Brightness of LED78
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7.6.1.208 LED79_BRI Register (Address = 1AFh) [reset = 1FFh]
LED79_BRI is shown in Figure 233 and described in Table 215.
Return to Summary Table.
Figure 233. LED79_BRI Register
15
14
13
12
RESERVED
R/W-0h
11
10
9
8
led79_bri
R/W-1FFh
7
6
5
4
3
2
1
0
led79_bri
R/W-1FFh
Table 215. LED79_BRI Register Field Descriptions
Bit
Field
Type
Reset
15-9
RESERVED
R/W
0h
8-0
led79_bri
R/W
1FFh
Description
PWM Brightness of LED79
ADVANCE INFORMATION
7.6.1.209 LED80_BRI Register (Address = 1B0h) [reset = 1FFh]
LED80_BRI is shown in Figure 234 and described in Table 216.
Return to Summary Table.
Figure 234. LED80_BRI Register
15
14
13
12
RESERVED
R/W-0h
11
10
9
8
led80_bri
R/W-1FFh
7
6
5
4
3
2
1
0
led80_bri
R/W-1FFh
Table 216. LED80_BRI Register Field Descriptions
Field
Type
Reset
15-9
Bit
RESERVED
R/W
0h
8-0
led80_bri
R/W
1FFh
Description
PWM Brightness of LED80
7.6.1.210 LED81_BRI Register (Address = 1B1h) [reset = 1FFh]
LED81_BRI is shown in Figure 235 and described in Table 217.
Return to Summary Table.
Figure 235. LED81_BRI Register
15
14
13
12
RESERVED
R/W-0h
11
10
9
8
led81_bri
R/W-1FFh
7
6
5
4
3
2
1
0
led81_bri
R/W-1FFh
110
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Table 217. LED81_BRI Register Field Descriptions
Field
Type
Reset
15-9
Bit
RESERVED
R/W
0h
8-0
led81_bri
R/W
1FFh
Description
PWM Brightness of LED81
7.6.1.211 LED82_BRI Register (Address = 1B2h) [reset = 1FFh]
LED82_BRI is shown in Figure 236 and described in Table 218.
Return to Summary Table.
Figure 236. LED82_BRI Register
15
14
13
12
RESERVED
R/W-0h
11
10
9
8
led82_bri
R/W-1FFh
7
6
5
4
3
2
1
0
Table 218. LED82_BRI Register Field Descriptions
Field
Type
Reset
15-9
Bit
RESERVED
R/W
0h
8-0
led82_bri
R/W
1FFh
Description
PWM Brightness of LED82
7.6.1.212 LED83_BRI Register (Address = 1B3h) [reset = 1FFh]
LED83_BRI is shown in Figure 237 and described in Table 219.
Return to Summary Table.
Figure 237. LED83_BRI Register
15
14
13
12
RESERVED
R/W-0h
11
10
9
8
led83_bri
R/W-1FFh
7
6
5
4
3
2
1
0
9
8
led84_bri
R/W-1FFh
led83_bri
R/W-1FFh
Table 219. LED83_BRI Register Field Descriptions
Field
Type
Reset
15-9
Bit
RESERVED
R/W
0h
8-0
led83_bri
R/W
1FFh
Description
PWM Brightness of LED83
7.6.1.213 LED84_BRI Register (Address = 1B4h) [reset = 1FFh]
LED84_BRI is shown in Figure 238 and described in Table 220.
Return to Summary Table.
Figure 238. LED84_BRI Register
15
14
13
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12
RESERVED
R/W-0h
11
10
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led82_bri
R/W-1FFh
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6
5
4
3
2
1
0
led84_bri
R/W-1FFh
Table 220. LED84_BRI Register Field Descriptions
Field
Type
Reset
15-9
Bit
RESERVED
R/W
0h
8-0
led84_bri
R/W
1FFh
Description
PWM Brightness of LED84
7.6.1.214 LED85_BRI Register (Address = 1B5h) [reset = 1FFh]
LED85_BRI is shown in Figure 239 and described in Table 221.
Return to Summary Table.
Figure 239. LED85_BRI Register
ADVANCE INFORMATION
15
14
13
12
RESERVED
R/W-0h
11
10
9
8
led85_bri
R/W-1FFh
7
6
5
4
3
2
1
0
led85_bri
R/W-1FFh
Table 221. LED85_BRI Register Field Descriptions
Field
Type
Reset
15-9
Bit
RESERVED
R/W
0h
8-0
led85_bri
R/W
1FFh
Description
PWM Brightness of LED85
7.6.1.215 LED86_BRI Register (Address = 1B6h) [reset = 1FFh]
LED86_BRI is shown in Figure 240 and described in Table 222.
Return to Summary Table.
Figure 240. LED86_BRI Register
15
14
13
12
RESERVED
R/W-0h
11
10
9
8
led86_bri
R/W-1FFh
7
6
5
4
3
2
1
0
led86_bri
R/W-1FFh
Table 222. LED86_BRI Register Field Descriptions
Field
Type
Reset
15-9
Bit
RESERVED
R/W
0h
8-0
led86_bri
R/W
1FFh
Description
PWM Brightness of LED86
7.6.1.216 LED87_BRI Register (Address = 1B7h) [reset = 1FFh]
LED87_BRI is shown in Figure 241 and described in Table 223.
Return to Summary Table.
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Figure 241. LED87_BRI Register
15
14
13
12
RESERVED
R/W-0h
11
10
9
8
led87_bri
R/W-1FFh
7
6
5
4
3
2
1
0
led87_bri
R/W-1FFh
Table 223. LED87_BRI Register Field Descriptions
Field
Type
Reset
15-9
Bit
RESERVED
R/W
0h
8-0
led87_bri
R/W
1FFh
Description
PWM Brightness of LED87
7.6.1.217 LED88_BRI Register (Address = 1B8h) [reset = 1FFh]
LED88_BRI is shown in Figure 242 and described in Table 224.
Figure 242. LED88_BRI Register
15
14
13
12
RESERVED
R/W-0h
11
10
9
8
led88_bri
R/W-1FFh
7
6
5
4
3
2
1
0
led88_bri
R/W-1FFh
Table 224. LED88_BRI Register Field Descriptions
Bit
Field
Type
Reset
15-9
RESERVED
R/W
0h
8-0
led88_bri
R/W
1FFh
Description
PWM Brightness of LED88
7.6.1.218 LED89_BRI Register (Address = 1B9h) [reset = 1FFh]
LED89_BRI is shown in Figure 243 and described in Table 225.
Return to Summary Table.
Figure 243. LED89_BRI Register
15
14
13
12
RESERVED
R/W-0h
11
10
9
8
led89_bri
R/W-1FFh
7
6
5
4
3
2
1
0
led89_bri
R/W-1FFh
Table 225. LED89_BRI Register Field Descriptions
Field
Type
Reset
15-9
Bit
RESERVED
R/W
0h
8-0
led89_bri
R/W
1FFh
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Description
PWM Brightness of LED89
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7.6.1.219 LED90_BRI Register (Address = 1BAh) [reset = 1FFh]
LED90_BRI is shown in Figure 244 and described in Table 226.
Return to Summary Table.
Figure 244. LED90_BRI Register
15
14
13
12
RESERVED
R/W-0h
11
10
9
8
led90_bri
R/W-1FFh
7
6
5
4
3
2
1
0
led90_bri
R/W-1FFh
Table 226. LED90_BRI Register Field Descriptions
Bit
Field
Type
Reset
15-9
RESERVED
R/W
0h
8-0
led90_bri
R/W
1FFh
Description
PWM Brightness of LED90
ADVANCE INFORMATION
7.6.1.220 LED91_BRI Register (Address = 1BBh) [reset = 1FFh]
LED91_BRI is shown in Figure 245 and described in Table 227.
Return to Summary Table.
Figure 245. LED91_BRI Register
15
14
13
12
RESERVED
R/W-0h
11
10
9
8
led91_bri
R/W-1FFh
7
6
5
4
3
2
1
0
led91_bri
R/W-1FFh
Table 227. LED91_BRI Register Field Descriptions
Field
Type
Reset
15-9
Bit
RESERVED
R/W
0h
8-0
led91_bri
R/W
1FFh
Description
PWM Brightness of LED91
7.6.1.221 LED92_BRI Register (Address = 1BCh) [reset = 1FFh]
LED92_BRI is shown in Figure 246 and described in Table 228.
Return to Summary Table.
Figure 246. LED92_BRI Register
15
14
13
12
RESERVED
R/W-0h
11
10
9
8
led92_bri
R/W-1FFh
7
6
5
4
3
2
1
0
led92_bri
R/W-1FFh
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Table 228. LED92_BRI Register Field Descriptions
Field
Type
Reset
15-9
Bit
RESERVED
R/W
0h
8-0
led92_bri
R/W
1FFh
Description
PWM Brightness of LED92
7.6.1.222 LED93_BRI Register (Address = 1BDh) [reset = 1FFh]
LED93_BRI is shown in Figure 247 and described in Table 229.
Return to Summary Table.
Figure 247. LED93_BRI Register
15
14
13
12
RESERVED
R/W-0h
11
10
9
8
led93_bri
R/W-1FFh
7
6
5
4
3
2
1
0
Table 229. LED93_BRI Register Field Descriptions
Field
Type
Reset
15-9
Bit
RESERVED
R/W
0h
8-0
led93_bri
R/W
1FFh
Description
PWM Brightness of LED93
7.6.1.223 LED94_BRI Register (Address = 1BEh) [reset = 1FFh]
LED94_BRI is shown in Figure 248 and described in Table 230.
Return to Summary Table.
Figure 248. LED94_BRI Register
15
14
13
12
RESERVED
R/W-0h
11
10
9
8
led94_bri
R/W-1FFh
7
6
5
4
3
2
1
0
9
8
led95_bri
R/W-1FFh
led94_bri
R/W-1FFh
Table 230. LED94_BRI Register Field Descriptions
Field
Type
Reset
15-9
Bit
RESERVED
R/W
0h
8-0
led94_bri
R/W
1FFh
Description
PWM Brightness of LED94
7.6.1.224 LED95_BRI Register (Address = 1BFh) [reset = 1FFh]
LED95_BRI is shown in Figure 249 and described in Table 231.
Return to Summary Table.
Figure 249. LED95_BRI Register
15
14
13
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12
RESERVED
R/W-0h
11
10
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led93_bri
R/W-1FFh
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6
5
4
3
2
1
0
led95_bri
R/W-1FFh
Table 231. LED95_BRI Register Field Descriptions
Field
Type
Reset
15-9
Bit
RESERVED
R/W
0h
8-0
led95_bri
R/W
1FFh
Description
PWM Brightness of LED95
7.6.1.225 MASTER_BRI Register (Address = 1C0h) [reset = 0h]
MASTER_BRI is shown in Figure 250 and described in Table 232.
Return to Summary Table.
Figure 250. MASTER_BRI Register
ADVANCE INFORMATION
15
14
13
12
RESERVED
R/W-0h
11
10
9
8
master_bri
R/W-0h
7
6
5
4
3
2
1
0
master_bri
R/W-0h
Table 232. MASTER_BRI Register Field Descriptions
Field
Type
Reset
15-9
Bit
RESERVED
R/W
0h
8-0
master_bri
R/W
0h
Description
Master Brightness of all LEDs
7.6.1.226 LED07_00_DISABLE Register (Address = 1C1h) [reset = 0h]
LED07_00_DISABLE is shown in Figure 251 and described in Table 233.
Return to Summary Table.
Figure 251. LED07_00_DISABLE Register
15
14
13
12
11
10
9
8
4
3
led07_00_disable
R/W-0h
2
1
0
RESERVED
R/W-0h
7
6
5
Table 233. LED07_00_DISABLE Register Field Descriptions
Field
Type
Reset
15-8
Bit
RESERVED
R/W
0h
7-0
led07_00_disable
R/W
0h
Description
LED disable bits for LEDs 0-7:
0=Enable
1=Disable
7.6.1.227 LED15_08_DISABLE Register (Address = 1C2h) [reset = 0h]
LED15_08_DISABLE is shown in Figure 252 and described in Table 234.
Return to Summary Table.
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Figure 252. LED15_08_DISABLE Register
15
14
13
12
11
10
9
8
4
3
led15_08_disable
R/W-0h
2
1
0
RESERVED
R/W-0h
7
6
5
Table 234. LED15_08_DISABLE Register Field Descriptions
Field
Type
Reset
15-8
Bit
RESERVED
R/W
0h
7-0
led15_08_disable
R/W
0h
Description
LED disable bits for LEDs 8-15:
0=Enable
1=Disable
7.6.1.228 LED23_16_DISABLE Register (Address = 1C3h) [reset = 0h]
ADVANCE INFORMATION
LED23_16_DISABLE is shown in Figure 253 and described in Table 235.
Return to Summary Table.
Figure 253. LED23_16_DISABLE Register
15
14
13
12
11
10
9
8
4
3
led23_16_disable
R/W-0h
2
1
0
RESERVED
R/W-0h
7
6
5
Table 235. LED23_16_DISABLE Register Field Descriptions
Bit
Field
Type
Reset
15-8
RESERVED
R/W
0h
7-0
led23_16_disable
R/W
0h
Description
LED disable bits for LEDs 16-23:
0=Enable
1=Disable
7.6.1.229 LED31_24_DISABLE Register (Address = 1C4h) [reset = 0h]
LED31_24_DISABLE is shown in Figure 254 and described in Table 236.
Return to Summary Table.
Figure 254. LED31_24_DISABLE Register
15
14
13
12
11
10
9
8
4
3
led31_24_disable
R/W-0h
2
1
0
RESERVED
R/W-0h
7
6
5
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Table 236. LED31_24_DISABLE Register Field Descriptions
Field
Type
Reset
15-8
Bit
RESERVED
R/W
0h
7-0
led31_24_disable
R/W
0h
Description
LED disable bits for LEDs 24-31:
0=Enable
1=Disable
7.6.1.230 LED39_32_DISABLE Register (Address = 1C5h) [reset = 0h]
LED39_32_DISABLE is shown in Figure 255 and described in Table 237.
Return to Summary Table.
Figure 255. LED39_32_DISABLE Register
15
14
13
12
11
10
9
8
4
3
led39_32_disable
R/W-0h
2
1
0
RESERVED
R/W-0h
ADVANCE INFORMATION
7
6
5
Table 237. LED39_32_DISABLE Register Field Descriptions
Field
Type
Reset
15-8
Bit
RESERVED
R/W
0h
7-0
led39_32_disable
R/W
0h
Description
LED disable bits for LEDs 39-32:
0=Enable
1=Disable
7.6.1.231 LED47_40_DISABLE Register (Address = 1C6h) [reset = 0h]
LED47_40_DISABLE is shown in Figure 256 and described in Table 238.
Return to Summary Table.
Figure 256. LED47_40_DISABLE Register
15
14
13
12
11
10
9
8
4
3
led47_40_disable
R/W-0h
2
1
0
RESERVED
R/W-0h
7
6
5
Table 238. LED47_40_DISABLE Register Field Descriptions
Bit
118
Field
Type
Reset
15-8
RESERVED
R/W
0h
7-0
led47_40_disable
R/W
0h
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Description
LED disable bits for LEDs 40-47:
0=Enable
1=Disable
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7.6.1.232 LED55_48_DISABLE Register (Address = 1C7h) [reset = 0h]
LED55_48_DISABLE is shown in Figure 257 and described in Table 239.
Return to Summary Table.
Figure 257. LED55_48_DISABLE Register
15
14
13
12
11
10
9
8
4
3
led55_48_disable
R/W-0h
2
1
0
RESERVED
R/W-0h
7
6
5
Table 239. LED55_48_DISABLE Register Field Descriptions
Field
Type
Reset
15-8
RESERVED
R/W
0h
7-0
led55_48_disable
R/W
0h
Description
LED disable bits for LEDs 48-54:
0=Enable
1=Disable
ADVANCE INFORMATION
Bit
7.6.1.233 LED63_56_DISABLE Register (Address = 1C8h) [reset = 0h]
LED63_56_DISABLE is shown in Figure 258 and described in Table 240.
Return to Summary Table.
Figure 258. LED63_56_DISABLE Register
15
14
13
12
11
10
9
8
4
3
led63_56_disable
R/W-0h
2
1
0
RESERVED
R/W-0h
7
6
5
Table 240. LED63_56_DISABLE Register Field Descriptions
Field
Type
Reset
15-8
Bit
RESERVED
R/W
0h
7-0
led63_56_disable
R/W
0h
Description
LED disable bits for LEDs 56-63:
0=Enable
1=Disable
7.6.1.234 LED71_64_DISABLE Register (Address = 1C9h) [reset = 0h]
LED71_64_DISABLE is shown in Figure 259 and described in Table 241.
Return to Summary Table.
Figure 259. LED71_64_DISABLE Register
15
14
13
12
11
10
9
8
4
3
led71_64_disable
R/W-0h
2
1
0
RESERVED
R/W-0h
7
6
5
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Table 241. LED71_64_DISABLE Register Field Descriptions
Field
Type
Reset
15-8
Bit
RESERVED
R/W
0h
7-0
led71_64_disable
R/W
0h
Description
LED disable bits for LEDs 64-71:
0=Enable
1=Disable
7.6.1.235 LED79_72_DISABLE Register (Address = 1CAh) [reset = 0h]
LED79_72_DISABLE is shown in Figure 260 and described in Table 242.
Return to Summary Table.
Figure 260. LED79_72_DISABLE Register
15
14
13
12
11
10
9
8
4
3
led79_72_disable
R/W-0h
2
1
0
RESERVED
R/W-0h
7
6
5
ADVANCE INFORMATION
Table 242. LED79_72_DISABLE Register Field Descriptions
Field
Type
Reset
15-8
Bit
RESERVED
R/W
0h
7-0
led79_72_disable
R/W
0h
Description
LED disable bits for LEDs 72-79:
0=Enable
1=Disable
7.6.1.236 LED87_80_DISABLE Register (Address = 1CBh) [reset = 0h]
LED87_80_DISABLE is shown in Figure 261 and described in Table 243.
Return to Summary Table.
Figure 261. LED87_80_DISABLE Register
15
14
13
12
11
10
9
8
4
3
led87_80_disable
R/W-0h
2
1
0
RESERVED
R/W-0h
7
6
5
Table 243. LED87_80_DISABLE Register Field Descriptions
Bit
Field
Type
Reset
15-8
RESERVED
R/W
0h
7-0
led87_80_disable
R/W
0h
Description
LED disable bits for LEDs 80-87:
0=Enable
1=Disable
7.6.1.237 LED95_88_DISABLE Register (Address = 1CCh) [reset = 0h]
LED95_88_DISABLE is shown in Figure 262 and described in Table 244.
Return to Summary Table.
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Figure 262. LED95_88_DISABLE Register
15
14
13
12
11
10
9
8
4
3
led95_88_disable
R/W-0h
2
1
0
9
8
RESERVED
R/W-0h
7
6
5
Table 244. LED95_88_DISABLE Register Field Descriptions
Field
Type
Reset
15-8
Bit
RESERVED
R/W
0h
7-0
led95_88_disable
R/W
0h
Description
LED disable bits for LEDs 88-95:
0=Enable
1=Disable
SLOPERS_CONFIG is shown in Figure 263 and described in Table 245.
Return to Summary Table.
Figure 263. SLOPERS_CONFIG Register
15
14
13
12
11
10
RESERVED
R/W-15h
7
6
RESERVED
5
4
3
matrix_slope_sel
2
1
master_slope_sel
R/W-2h
R/W-2h
R/W-0h
0
master_slope_e
n
R/W-1h
Table 245. SLOPERS_CONFIG Register Field Descriptions
Field
Type
Reset
15-5
Bit
RESERVED
R/W
0h
Description
4-3
matrix_slope_sel
R/W
2h
Timing configuration of Matrix Sloper:
00=2ms (Advanced Sloper off),
01=10ms (Advanced Sloper off),
10=50ms (Advanced Sloper on),
11=200ms (Advanced Sloper on)
2-1
master_slope_sel
R/W
2h
Timing configuration of Master Sloper:
00=2ms (Advanced Sloper off),
01=10ms (Advanced Sloper off),
10=50ms (Advanced Sloper on),
11=200ms (Advanced Sloper on)
0
master_slope_en
R/W
1h
Enable of Master Brightness Sloper
7.6.1.239 SLOPER_TARGET Register (Address = 1CEh) [reset = 0h]
SLOPER_TARGET is shown in Figure 264 and described in Table 246.
Return to Summary Table.
Figure 264. SLOPER_TARGET Register
15
14
13
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12
RESERVED
R-0h
11
10
9
8
sloper_target
0h
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ADVANCE INFORMATION
7.6.1.238 SLOPERS_CONFIG Register (Address = 1CDh) [reset = 15h]
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6
5
4
3
2
1
0
sloper_target
0h
Table 246. SLOPER_TARGET Register Field Descriptions
Field
Type
Reset
15-9
Bit
RESERVED
R
0h
8-0
sloper_target
0h
Description
Target brightness of Matrix Sloper
7.6.1.240 LED07_00_SLOPE Register (Address = 1CFh) [reset = 0h]
LED07_00_SLOPE is shown in Figure 265 and described in Table 247.
Return to Summary Table.
Figure 265. LED07_00_SLOPE Register
15
14
13
12
11
10
9
8
3
2
1
0
RESERVED
R/W-0h
ADVANCE INFORMATION
7
6
5
4
led07_00_slope
R/W-0h
Table 247. LED07_00_SLOPE Register Field Descriptions
Field
Type
Reset
15-8
Bit
RESERVED
R/W
0h
7-0
led07_00_slope
R/W
0h
Description
Matrix Sloper selection bits for LEDs 0-7:
0=LED is not part of sloping,
1=LED is part of sloping
7.6.1.241 LED15_08_SLOPE Register (Address = 1D0h) [reset = 0h]
LED15_08_SLOPE is shown in Figure 266 and described in Table 248.
Return to Summary Table.
Figure 266. LED15_08_SLOPE Register
15
14
13
12
11
10
9
8
3
2
1
0
RESERVED
R/W-0h
7
6
5
4
led15_08_slope
R/W-0h
Table 248. LED15_08_SLOPE Register Field Descriptions
Bit
122
Field
Type
Reset
15-8
RESERVED
R/W
0h
7-0
led15_08_slope
R/W
0h
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Description
Matrix Sloper selection bits for LEDs 8-15:
0=LED is not part of sloping,
1=LED is part of sloping
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7.6.1.242 LED23_16_SLOPE Register (Address = 1D1h) [reset = 0h]
LED23_16_SLOPE is shown in Figure 267 and described in Table 249.
Return to Summary Table.
Figure 267. LED23_16_SLOPE Register
15
14
13
12
11
10
9
8
3
2
1
0
RESERVED
R/W-0h
7
6
5
4
led23_16_slope
R/W-0h
Table 249. LED23_16_SLOPE Register Field Descriptions
Field
Type
Reset
15-8
RESERVED
R/W
0h
7-0
led23_16_slope
R/W
0h
Description
Matrix Sloper selection bits for LEDs 16-23:
0=LED is not part of sloping,
1=LED is part of sloping
ADVANCE INFORMATION
Bit
7.6.1.243 LED31_24_SLOPE Register (Address = 1D2h) [reset = 0h]
LED31_24_SLOPE is shown in Figure 268 and described in Table 250.
Return to Summary Table.
Figure 268. LED31_24_SLOPE Register
15
14
13
12
11
10
9
8
3
2
1
0
RESERVED
R/W-0h
7
6
5
4
led31_24_slope
R/W-0h
Table 250. LED31_24_SLOPE Register Field Descriptions
Field
Type
Reset
15-8
Bit
RESERVED
R/W
0h
7-0
led31_24_slope
R/W
0h
Description
Matrix Sloper selection bits for LEDs 24-31:
0=LED is not part of sloping,
1=LED is part of sloping
7.6.1.244 LED39_32_SLOPE Register (Address = 1D3h) [reset = 0h]
LED39_32_SLOPE is shown in Figure 269 and described in Table 251.
Return to Summary Table.
Figure 269. LED39_32_SLOPE Register
15
14
13
12
11
10
9
8
3
2
1
0
RESERVED
R/W-0h
7
6
5
4
led39_32_slope
R/W-0h
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Table 251. LED39_32_SLOPE Register Field Descriptions
Field
Type
Reset
15-8
Bit
RESERVED
R/W
0h
7-0
led39_32_slope
R/W
0h
Description
Matrix Sloper selection bits for LEDs 32-39:
0=LED is not part of sloping,
1=LED is part of sloping
7.6.1.245 LED47_40_SLOPE Register (Address = 1D4h) [reset = 0h]
LED47_40_SLOPE is shown in Figure 270 and described in Table 252.
Return to Summary Table.
Figure 270. LED47_40_SLOPE Register
15
14
13
12
11
10
9
8
3
2
1
0
RESERVED
R/W-0h
7
6
5
4
ADVANCE INFORMATION
led47_40_slope
R/W-0h
Table 252. LED47_40_SLOPE Register Field Descriptions
Field
Type
Reset
15-8
Bit
RESERVED
R/W
0h
7-0
led47_40_slope
R/W
0h
Description
Matrix Sloper selection bits for LEDs 40-47:
0=LED is not part of sloping,
1=LED is part of sloping
7.6.1.246 LED55_48_SLOPE Register (Address = 1D5h) [reset = 0h]
LED55_48_SLOPE is shown in Figure 271 and described in Table 253.
Return to Summary Table.
Figure 271. LED55_48_SLOPE Register
15
14
13
12
11
10
9
8
3
2
1
0
RESERVED
R/W-0h
7
6
5
4
led55_48_slope
R/W-0h
Table 253. LED55_48_SLOPE Register Field Descriptions
Bit
Field
Type
Reset
15-8
RESERVED
R/W
0h
7-0
led55_48_slope
R/W
0h
Description
Matrix Sloper selection bits for LEDs 48-55:
0=LED is not part of sloping,
1=LED is part of sloping
7.6.1.247 LED63_56_SLOPE Register (Address = 1D6h) [reset = 0h]
LED63_56_SLOPE is shown in Figure 272 and described in Table 254.
Return to Summary Table.
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Figure 272. LED63_56_SLOPE Register
15
14
13
12
11
10
9
8
3
2
1
0
RESERVED
R/W-0h
7
6
5
4
led63_56_slope
R/W-0h
Table 254. LED63_56_SLOPE Register Field Descriptions
Field
Type
Reset
15-8
Bit
RESERVED
R/W
0h
7-0
led63_56_slope
R/W
0h
Description
Matrix Sloper selection bits for LEDs 56-63:
0=LED is not part of sloping,
1=LED is part of sloping
7.6.1.248 LED71_64_SLOPE Register (Address = 1D7h) [reset = 0h]
ADVANCE INFORMATION
LED71_64_SLOPE is shown in Figure 273 and described in Table 255.
Return to Summary Table.
Figure 273. LED71_64_SLOPE Register
15
14
13
12
11
10
9
8
3
2
1
0
RESERVED
R/W-0h
7
6
5
4
led71_64_slope
R/W-0h
Table 255. LED71_64_SLOPE Register Field Descriptions
Bit
Field
Type
Reset
15-8
RESERVED
R/W
0h
7-0
led71_64_slope
R/W
0h
Description
Matrix Sloper selection bits for LEDs 64-71:
0=LED is not part of sloping,
1=LED is part of sloping
7.6.1.249 LED79_72_SLOPE Register (Address = 1D8h) [reset = 0h]
LED79_72_SLOPE is shown in Figure 274 and described in Table 256.
Return to Summary Table.
Figure 274. LED79_72_SLOPE Register
15
14
13
12
11
10
9
8
3
2
1
0
RESERVED
R/W-0h
7
6
5
4
led79_72_slope
R/W-0h
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Table 256. LED79_72_SLOPE Register Field Descriptions
Field
Type
Reset
15-8
Bit
RESERVED
R/W
0h
7-0
led79_72_slope
R/W
0h
Description
Matrix Sloper selection bits for LEDs 72-79:
0=LED is not part of sloping,
1=LED is part of sloping
7.6.1.250 LED87_80_SLOPE Register (Address = 1D9h) [reset = 0h]
LED87_80_SLOPE is shown in Figure 275 and described in Table 257.
Return to Summary Table.
Figure 275. LED87_80_SLOPE Register
15
14
13
12
11
10
9
8
3
2
1
0
RESERVED
R/W-0h
ADVANCE INFORMATION
7
6
5
4
led87_80_slope
R/W-0h
Table 257. LED87_80_SLOPE Register Field Descriptions
Field
Type
Reset
15-8
Bit
RESERVED
R/W
0h
7-0
led87_80_slope
R/W
0h
Description
Matrix Sloper selection bits for LEDs 80-87:
0=LED is not part of sloping,
1=LED is part of sloping
7.6.1.251 LED95_88_SLOPE Register (Address = 1DAh) [reset = 0h]
LED95_88_SLOPE is shown in Figure 276 and described in Table 258.
Return to Summary Table.
Figure 276. LED95_88_SLOPE Register
15
14
13
12
11
10
9
8
3
2
1
0
RESERVED
R/W-0h
7
6
5
4
led95_88_slope
R/W-0h
Table 258. LED95_88_SLOPE Register Field Descriptions
Bit
126
Field
Type
Reset
15-8
RESERVED
R/W
0h
7-0
led95_88_slope
R/W
0h
Submit Documentation Feedback
Description
Matrix Sloper selection bits for LEDs 88-95:
0=LED is not part of sloping,
1=LED is part of sloping
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7.6.1.252 LEDGRP1_BRI Register (Address = 1DBh) [reset = 0h]
LEDGRP1_BRI is shown in Figure 277 and described in Table 259.
Return to Summary Table.
Figure 277. LEDGRP1_BRI Register
15
14
13
12
RESERVED
R/W-0h
11
10
9
8
ledgrp1_bri
R/W-0h
7
6
5
4
3
2
1
0
ledgrp1_bri
R/W-0h
Table 259. LEDGRP1_BRI Register Field Descriptions
Field
Type
Reset
15-9
RESERVED
R/W
0h
8-0
ledgrp1_bri
R/W
0h
Description
Brightness of Group #1 LEDs
7.6.1.253 LEDGRP2_BRI Register (Address = 1DCh) [reset = 0h]
LEDGRP2_BRI is shown in Figure 278 and described in Table 260.
Return to Summary Table.
Figure 278. LEDGRP2_BRI Register
15
14
13
12
RESERVED
R/W-0h
11
10
9
8
ledgrp2_bri
R/W-0h
7
6
5
4
3
2
1
0
ledgrp2_bri
R/W-0h
Table 260. LEDGRP2_BRI Register Field Descriptions
Field
Type
Reset
15-9
Bit
RESERVED
R/W
0h
8-0
ledgrp2_bri
R/W
0h
Description
Brightness of Group #2 LEDs
7.6.1.254 LEDGRP3_BRI Register (Address = 1DDh) [reset = 0h]
LEDGRP3_BRI is shown in Figure 279 and described in Table 261.
Return to Summary Table.
Figure 279. LEDGRP3_BRI Register
15
14
13
12
RESERVED
R/W-0h
11
10
9
8
ledgrp3_bri
R/W-0h
7
6
5
4
3
2
1
0
ledgrp3_bri
R/W-0h
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Table 261. LEDGRP3_BRI Register Field Descriptions
Field
Type
Reset
15-9
Bit
RESERVED
R/W
0h
8-0
ledgrp3_bri
R/W
0h
Description
Brightness of Group #3 LEDs
7.6.1.255 LED04_00_GRPSEL Register (Address = 1DEh) [reset = 0h]
LED04_00_GRPSEL is shown in Figure 280 and described in Table 262.
Return to Summary Table.
Figure 280. LED04_00_GRPSEL Register
15
14
13
12
11
10
9
RESERVED
R/W-0h
7
6
5
led03_grp
R/W-0h
8
led04_grp
R/W-0h
4
led02_grp
R/W-0h
3
2
led01_grp
R/W-0h
1
0
led00_grp
R/W-0h
ADVANCE INFORMATION
Table 262. LED04_00_GRPSEL Register Field Descriptions
Bit
Field
Type
Reset
RESERVED
R/W
0h
9-8
led04_grp
R/W
0h
Group selection for LED04:
00=No member of grouping,
01=Member of Group #1,
10=Member of Group #2,
11=Member of Group #3
7-6
led03_grp
R/W
0h
Group selection for LED03:
00=No member of grouping,
01=Member of Group #1,
10=Member of Group #2,
11=Member of Group #3
5-4
led02_grp
R/W
0h
Group selection for LED02:
00=No member of grouping,
01=Member of Group #1,
10=Member of Group #2,
11=Member of Group #3
3-2
led01_grp
R/W
0h
Group selection for LED01:
00=No member of grouping,
01=Member of Group #1,
10=Member of Group #2,
11=Member of Group #3
1-0
led00_grp
R/W
0h
Group selection for LED00:
00=No member of grouping,
01=Member of Group #1,
10=Member of Group #2,
11=Member of Group #3
15-10
Description
7.6.1.256 LED09_05_GRPSEL Register (Address = 1DFh) [reset = 0h]
LED09_05_GRPSEL is shown in Figure 281 and described in Table 263.
Return to Summary Table.
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Figure 281. LED09_05_GRPSEL Register
15
14
13
12
11
10
9
RESERVED
R/W-0h
7
6
5
4
led08_grp
R/W-0h
8
led09_grp
R/W-0h
3
led07_grp
R/W-0h
2
1
led06_grp
R/W-0h
0
led05_grp
R/W-0h
Table 263. LED09_05_GRPSEL Register Field Descriptions
Field
Type
Reset
RESERVED
R/W
0h
Description
9-8
led09_grp
R/W
0h
Group selection for LED09:
00=No member of grouping,
01=Member of Group #1,
10=Member of Group #2,
11=Member of Group #3
7-6
led08_grp
R/W
0h
Group selection for LED08:
00=No member of grouping,
01=Member of Group #1,
10=Member of Group #2,
11=Member of Group #3
5-4
led07_grp
R/W
0h
Group selection for LED07:
00=No member of grouping,
01=Member of Group #1,
10=Member of Group #2,
11=Member of Group #3
3-2
led06_grp
R/W
0h
Group selection for LED06:
00=No member of grouping,
01=Member of Group #1,
10=Member of Group #2,
11=Member of Group #3
1-0
led05_grp
R/W
0h
Group selection for LED05:
00=No member of grouping,
01=Member of Group #1,
10=Member of Group #2,
11=Member of Group #3
ADVANCE INFORMATION
Bit
15-10
7.6.1.257 LED14_10_GRPSEL Register (Address = 1E0h) [reset = 0h]
LED14_10_GRPSEL is shown in Figure 282 and described in Table 264.
Return to Summary Table.
Figure 282. LED14_10_GRPSEL Register
15
14
13
12
11
10
9
RESERVED
R/W-0h
7
6
5
led13_grp
R/W-0h
Copyright © 2017, Texas Instruments Incorporated
4
led12_grp
R/W-0h
8
led14_grp
R/W-0h
3
2
led11_grp
R/W-0h
1
0
led10_grp
R/W-0h
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Table 264. LED14_10_GRPSEL Register Field Descriptions
Bit
Field
Type
Reset
RESERVED
R/W
0h
9-8
led14_grp
R/W
0h
Group selection for LED14:
00=No member of grouping,
01=Member of Group #1,
10=Member of Group #2,
11=Member of Group #3
7-6
led13_grp
R/W
0h
Group selection for LED13:
00=No member of grouping,
01=Member of Group #1,
10=Member of Group #2,
11=Member of Group #3
5-4
led12_grp
R/W
0h
Group selection for LED12:
00=No member of grouping,
01=Member of Group #1,
10=Member of Group #2,
11=Member of Group #3
3-2
led11_grp
R/W
0h
Group selection for LED11:
00=No member of grouping,
01=Member of Group #1,
10=Member of Group #2,
11=Member of Group #3
1-0
led10_grp
R/W
0h
Group selection for LED10:
00=No member of grouping,
01=Member of Group #1,
10=Member of Group #2,
11=Member of Group #3
15-10
Description
ADVANCE INFORMATION
7.6.1.258 LED19_15_GRPSEL Register (Address = 1E1h) [reset = 0h]
LED19_15_GRPSEL is shown in Figure 283 and described in Table 265.
Return to Summary Table.
Figure 283. LED19_15_GRPSEL Register
15
14
13
12
11
10
9
RESERVED
R/W-0h
7
6
5
led18_grp
R/W-0h
8
led19_grp
R/W-0h
4
led17_grp
R/W-0h
3
2
led16_grp
R/W-0h
1
0
led15_grp
R/W-0h
Table 265. LED19_15_GRPSEL Register Field Descriptions
Bit
15-10
9-8
130
Field
Type
Reset
RESERVED
R/W
0h
led19_grp
R/W
0h
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Description
Group selection for LED19:
00=No member of grouping,
01=Member of Group #1,
10=Member of Group #2,
11=Member of Group #3
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Bit
Field
Type
Reset
Description
7-6
led18_grp
R/W
0h
Group selection for LED18:
00=No member of grouping,
01=Member of Group #1,
10=Member of Group #2,
11=Member of Group #3
5-4
led17_grp
R/W
0h
Group selection for LED17:
00=No member of grouping,
01=Member of Group #1,
10=Member of Group #2,
11=Member of Group #3
3-2
led16_grp
R/W
0h
Group selection for LED16:
00=No member of grouping,
01=Member of Group #1,
10=Member of Group #2,
11=Member of Group #3
1-0
led15_grp
R/W
0h
Group selection for LED15:
00=No member of grouping,
01=Member of Group #1,
10=Member of Group #2,
11=Member of Group #3
ADVANCE INFORMATION
Table 265. LED19_15_GRPSEL Register Field Descriptions (continued)
7.6.1.259 LED24_20_GRPSEL Register (Address = 1E2h) [reset = 0h]
LED24_20_GRPSEL is shown in Figure 284 and described in Table 266.
Return to Summary Table.
Figure 284. LED24_20_GRPSEL Register
15
14
13
12
11
10
9
RESERVED
R/W-0h
7
6
5
led23_grp
R/W-0h
8
led24_grp
R/W-0h
4
led22_grp
R/W-0h
3
2
1
led21_grp
R/W-0h
0
led20_grp
R/W-0h
Table 266. LED24_20_GRPSEL Register Field Descriptions
Bit
Field
Type
Reset
RESERVED
R/W
0h
9-8
led24_grp
R/W
0h
Group selection for LED24:
00=No member of grouping,
01=Member of Group #1,
10=Member of Group #2,
11=Member of Group #3
7-6
led23_grp
R/W
0h
Group selection for LED23:
00=No member of grouping,
01=Member of Group #1,
10=Member of Group #2,
11=Member of Group #3
5-4
led22_grp
R/W
0h
Group selection for LED22:
00=No member of grouping,
01=Member of Group #1,
10=Member of Group #2,
11=Member of Group #3
15-10
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Description
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Table 266. LED24_20_GRPSEL Register Field Descriptions (continued)
Bit
Field
Type
Reset
Description
3-2
led21_grp
R/W
0h
Group selection for LED21:
00=No member of grouping,
01=Member of Group #1,
10=Member of Group #2,
11=Member of Group #3
1-0
led20_grp
R/W
0h
Group selection for LED20:
00=No member of grouping,
01=Member of Group #1,
10=Member of Group #2,
11=Member of Group #3
7.6.1.260 LED29_25_GRPSEL Register (Address = 1E3h) [reset = 0h]
LED29_25_GRPSEL is shown in Figure 285 and described in Table 267.
Return to Summary Table.
Figure 285. LED29_25_GRPSEL Register
ADVANCE INFORMATION
15
14
13
12
11
10
9
RESERVED
R/W-0h
7
6
5
led28_grp
R/W-0h
8
led29_grp
R/W-0h
4
led27_grp
R/W-0h
3
2
led26_grp
R/W-0h
1
0
led25_grp
R/W-0h
Table 267. LED29_25_GRPSEL Register Field Descriptions
Bit
15-10
132
Field
Type
Reset
Description
RESERVED
R/W
0h
9-8
led29_grp
R/W
0h
Group selection for LED29:
00=No member of grouping,
01=Member of Group #1,
10=Member of Group #2,
11=Member of Group #3
7-6
led28_grp
R/W
0h
Group selection for LED28:
00=No member of grouping,
01=Member of Group #1,
10=Member of Group #2,
11=Member of Group #3
5-4
led27_grp
R/W
0h
Group selection for LED27:
00=No member of grouping,
01=Member of Group #1,
10=Member of Group #2,
11=Member of Group #3
3-2
led26_grp
R/W
0h
Group selection for LED26:
00=No member of grouping,
01=Member of Group #1,
10=Member of Group #2,
11=Member of Group #3
1-0
led25_grp
R/W
0h
Group selection for LED25:
00=No member of grouping,
01=Member of Group #1,
10=Member of Group #2,
11=Member of Group #3
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7.6.1.261 LED34_30_GRPSEL Register (Address = 1E4h) [reset = 0h]
LED34_30_GRPSEL is shown in Figure 286 and described in Table 268.
Return to Summary Table.
Figure 286. LED34_30_GRPSEL Register
15
14
13
12
11
10
9
RESERVED
R/W-0h
7
6
5
4
led33_grp
R/W-0h
8
led34_grp
R/W-0h
3
led32_grp
R/W-0h
2
1
led31_grp
R/W-0h
0
led30_grp
R/W-0h
Table 268. LED34_30_GRPSEL Register Field Descriptions
15-10
Field
Type
Reset
Description
RESERVED
R/W
0h
9-8
led34_grp
R/W
0h
Group selection for LED34:
00=No member of grouping,
01=Member of Group #1,
10=Member of Group #2,
11=Member of Group #3
7-6
led33_grp
R/W
0h
Group selection for LED33:
00=No member of grouping,
01=Member of Group #1,
10=Member of Group #2,
11=Member of Group #3
5-4
led32_grp
R/W
0h
Group selection for LED32:
00=No member of grouping,
01=Member of Group #1,
10=Member of Group #2,
11=Member of Group #3
3-2
led31_grp
R/W
0h
Group selection for LED31:
00=No member of grouping,
01=Member of Group #1,
10=Member of Group #2,
11=Member of Group #3
1-0
led30_grp
R/W
0h
Group selection for LED30:
00=No member of grouping,
01=Member of Group #1,
10=Member of Group #2,
11=Member of Group #3
ADVANCE INFORMATION
Bit
7.6.1.262 LED39_35_GRPSEL Register (Address = 1E5h) [reset = 0h]
LED39_35_GRPSEL is shown in Figure 287 and described in Table 269.
Return to Summary Table.
Figure 287. LED39_35_GRPSEL Register
15
14
13
12
11
10
9
RESERVED
R/W-0h
7
6
5
led38_grp
R/W-0h
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4
led37_grp
R/W-0h
8
led39_grp
R/W-0h
3
2
led36_grp
R/W-0h
1
0
led35_grp
R/W-0h
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Table 269. LED39_35_GRPSEL Register Field Descriptions
Bit
Field
Type
Reset
RESERVED
R/W
0h
9-8
led39_grp
R/W
0h
Group selection for LED39:
00=No member of grouping,
01=Member of Group #1,
10=Member of Group #2,
11=Member of Group #3
7-6
led38_grp
R/W
0h
Group selection for LED38:
00=No member of grouping,
01=Member of Group #1,
10=Member of Group #2,
11=Member of Group #3
5-4
led37_grp
R/W
0h
Group selection for LED37: 00=No member of grouping, 01=Member
of Group #1, 10=Member of Group #2, 11=Member of Group #3
3-2
led36_grp
R/W
0h
Group selection for LED36:
00=No member of grouping,
01=Member of Group #1,
10=Member of Group #2,
11=Member of Group #3
1-0
led35_grp
R/W
0h
Group selection for LED35:
00=No member of grouping,
01=Member of Group #1,
10=Member of Group #2,
11=Member of Group #3
15-10
Description
ADVANCE INFORMATION
7.6.1.263 LED44_40_GRPSEL Register (Address = 1E6h) [reset = 0h]
LED44_40_GRPSEL is shown in Figure 288 and described in Table 270.
Return to Summary Table.
Figure 288. LED44_40_GRPSEL Register
15
14
13
12
11
10
9
RESERVED
R/W-0h
7
6
5
led43_grp
R/W-0h
8
led44_grp
R/W-0h
4
led42_grp
R/W-0h
3
2
led41_grp
R/W-0h
1
0
led40_grp
R/W-0h
Table 270. LED44_40_GRPSEL Register Field Descriptions
Bit
Field
Type
Reset
RESERVED
R/W
0h
9-8
led44_grp
R/W
0h
Group selection for LED44:
00=No member of grouping,
01=Member of Group #1,
10=Member of Group #2,
11=Member of Group #3
7-6
led43_grp
R/W
0h
Group selection for LED43:
00=No member of grouping,
01=Member of Group #1,
10=Member of Group #2,
11=Member of Group #3
15-10
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Description
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Table 270. LED44_40_GRPSEL Register Field Descriptions (continued)
Bit
Field
Type
Reset
Description
5-4
led42_grp
R/W
0h
Group selection for LED42:
00=No member of grouping,
01=Member of Group #1,
10=Member of Group #2,
11=Member of Group #3
3-2
led41_grp
R/W
0h
Group selection for LED41:
00=No member of grouping,
01=Member of Group #1,
10=Member of Group #2,
11=Member of Group #3
1-0
led40_grp
R/W
0h
Group selection for LED40:
00=No member of grouping,
01=Member of Group #1,
10=Member of Group #2,
11=Member of Group #3
ADVANCE INFORMATION
7.6.1.264 LED49_45_GRPSEL Register (Address = 1E7h) [reset = 0h]
LED49_45_GRPSEL is shown in Figure 289 and described in Table 271.
Return to Summary Table.
Figure 289. LED49_45_GRPSEL Register
15
14
13
12
11
10
9
RESERVED
R/W-0h
7
6
5
led48_grp
R/W-0h
8
led49_grp
R/W-0h
4
led47_grp
R/W-0h
3
2
1
led46_grp
R/W-0h
0
led45_grp
R/W-0h
Table 271. LED49_45_GRPSEL Register Field Descriptions
Bit
Field
Type
Reset
RESERVED
R/W
0h
9-8
led49_grp
R/W
0h
Group selection for LED49:
00=No member of grouping,
01=Member of Group #1,
10=Member of Group #2,
11=Member of Group #3
7-6
led48_grp
R/W
0h
Group selection for LED48: 00=No member of grouping, 01=Member
of Group #1, 10=Member of Group #2, 11=Member of Group #3
5-4
led47_grp
R/W
0h
Group selection for LED47:
00=No member of grouping,
01=Member of Group #1,
10=Member of Group #2,
11=Member of Group #3
3-2
led46_grp
R/W
0h
Group selection for LED46:
00=No member of grouping,
01=Member of Group #1,
10=Member of Group #2,
11=Member of Group #3
15-10
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Table 271. LED49_45_GRPSEL Register Field Descriptions (continued)
Bit
Field
Type
Reset
Description
1-0
led45_grp
R/W
0h
Group selection for LED45:
00=No member of grouping,
01=Member of Group #1,
10=Member of Group #2,
11=Member of Group #3
7.6.1.265 LED54_50_GRPSEL Register (Address = 1E8h) [reset = 0h]
LED54_50_GRPSEL is shown in Figure 290 and described in Table 272.
Return to Summary Table.
Figure 290. LED54_50_GRPSEL Register
15
14
13
12
11
10
9
RESERVED
R/W-0h
7
6
5
ADVANCE INFORMATION
led53_grp
R/W-0h
8
led54_grp
R/W-0h
4
led52_grp
R/W-0h
3
2
led51_grp
R/W-0h
1
0
led50_grp
R/W-0h
Table 272. LED54_50_GRPSEL Register Field Descriptions
Bit
Field
Type
Reset
RESERVED
R/W
0h
9-8
led54_grp
R/W
0h
Group selection for LED54:
00=No member of grouping,
01=Member of Group #1,
10=Member of Group #2,
11=Member of Group #3
7-6
led53_grp
R/W
0h
Group selection for LED53:
00=No member of grouping,
01=Member of Group #1,
10=Member of Group #2,
11=Member of Group #3
5-4
led52_grp
R/W
0h
Group selection for LED52:
00=No member of grouping,
01=Member of Group #1,
10=Member of Group #2,
11=Member of Group #3
3-2
led51_grp
R/W
0h
Group selection for LED51:
00=No member of grouping,
01=Member of Group #1,
10=Member of Group #2,
11=Member of Group #3
1-0
led50_grp
R/W
0h
Group selection for LED50:
00=No member of grouping,
01=Member of Group #1,
10=Member of Group #2,
11=Member of Group #3
15-10
Description
7.6.1.266 LED59_55_GRPSEL Register (Address = 1E9h) [reset = 0h]
LED59_55_GRPSEL is shown in Figure 291 and described in Table 273.
Return to Summary Table.
136
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Figure 291. LED59_55_GRPSEL Register
15
14
13
12
11
10
9
RESERVED
R/W-0h
7
6
5
4
led58_grp
R/W-0h
8
led59_grp
R/W-0h
3
led57_grp
R/W-0h
2
1
led56_grp
R/W-0h
0
led55_grp
R/W-0h
Table 273. LED59_55_GRPSEL Register Field Descriptions
Field
Type
Reset
RESERVED
R/W
0h
Description
9-8
led59_grp
R/W
0h
Group selection for LED59:
00=No member of grouping,
01=Member of Group #1,
10=Member of Group #2,
11=Member of Group #3
7-6
led58_grp
R/W
0h
Group selection for LED58:
00=No member of grouping,
01=Member of Group #1,
10=Member of Group #2,
11=Member of Group #3
5-4
led57_grp
R/W
0h
Group selection for LED57:
00=No member of grouping,
01=Member of Group #1,
10=Member of Group #2,
11=Member of Group #3
3-2
led56_grp
R/W
0h
Group selection for LED56:
00=No member of grouping,
01=Member of Group #1,
10=Member of Group #2,
11=Member of Group #3
1-0
led55_grp
R/W
0h
Group selection for LED55:
00=No member of grouping,
01=Member of Group #1,
10=Member of Group #2,
11=Member of Group #3
ADVANCE INFORMATION
Bit
15-10
7.6.1.267 LED64_60_GRPSEL Register (Address = 1EAh) [reset = 0h]
LED64_60_GRPSEL is shown in Figure 292 and described in Table 274.
Return to Summary Table.
Figure 292. LED64_60_GRPSEL Register
15
14
13
12
11
10
9
RESERVED
R/W-0h
7
6
5
led63_grp
R/W-0h
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4
led62_grp
R/W-0h
8
led64_grp
R/W-0h
3
2
led61_grp
R/W-0h
1
0
led60_grp
R/W-0h
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Table 274. LED64_60_GRPSEL Register Field Descriptions
Bit
Field
Type
Reset
RESERVED
R/W
0h
9-8
led64_grp
R/W
0h
Group selection for LED64:
00=No member of grouping,
01=Member of Group #1,
10=Member of Group #2,
11=Member of Group #3
7-6
led63_grp
R/W
0h
Group selection for LED63:
00=No member of grouping,
01=Member of Group #1,
10=Member of Group #2,
11=Member of Group #3
5-4
led62_grp
R/W
0h
Group selection for LED62:
00=No member of grouping,
01=Member of Group #1,
10=Member of Group #2,
11=Member of Group #3
3-2
led61_grp
R/W
0h
Group selection for LED61:
00=No member of grouping,
01=Member of Group #1,
10=Member of Group #2,
11=Member of Group #3
1-0
led60_grp
R/W
0h
Group selection for LED60:
00=No member of grouping,
01=Member of Group #1,
10=Member of Group #2,
11=Member of Group #3
15-10
Description
ADVANCE INFORMATION
7.6.1.268 LED69_65_GRPSEL Register (Address = 1EBh) [reset = 0h]
LED69_65_GRPSEL is shown in Figure 293 and described in Table 275.
Return to Summary Table.
Figure 293. LED69_65_GRPSEL Register
15
14
13
12
11
10
9
RESERVED
R/W-0h
7
6
5
led68_grp
R/W-0h
8
led69_grp
R/W-0h
4
led67_grp
R/W-0h
3
2
led66_grp
R/W-0h
1
0
led65_grp
R/W-0h
Table 275. LED69_65_GRPSEL Register Field Descriptions
Bit
15-10
9-8
138
Field
Type
Reset
RESERVED
R/W
0h
led69_grp
R/W
0h
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Description
Group selection for LED69:
00=No member of grouping,
01=Member of Group #1,
10=Member of Group #2,
11=Member of Group #3
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Bit
Field
Type
Reset
Description
7-6
led68_grp
R/W
0h
Group selection for LED68:
00=No member of grouping,
01=Member of Group #1,
10=Member of Group #2,
11=Member of Group #3
5-4
led67_grp
R/W
0h
Group selection for LED67:
00=No member of grouping,
01=Member of Group #1,
10=Member of Group #2,
11=Member of Group #3
3-2
led66_grp
R/W
0h
Group selection for LED66:
00=No member of grouping,
01=Member of Group #1,
10=Member of Group #2,
11=Member of Group #3
1-0
led65_grp
R/W
0h
Group selection for LED65:
00=No member of grouping,
01=Member of Group #1,
10=Member of Group #2,
11=Member of Group #3
ADVANCE INFORMATION
Table 275. LED69_65_GRPSEL Register Field Descriptions (continued)
7.6.1.269 LED74_70_GRPSEL Register (Address = 1ECh) [reset = 0h]
LED74_70_GRPSEL is shown in Figure 294 and described in Table 276.
Return to Summary Table.
Figure 294. LED74_70_GRPSEL Register
15
14
13
12
11
10
9
RESERVED
R/W-0h
7
6
5
led73_grp
R/W-0h
8
led74_grp
R/W-0h
4
led72_grp
R/W-0h
3
2
1
led71_grp
R/W-0h
0
led70_grp
R/W-0h
Table 276. LED74_70_GRPSEL Register Field Descriptions
Bit
Field
Type
Reset
RESERVED
R/W
0h
9-8
led74_grp
R/W
0h
Group selection for LED74:
00=No member of grouping,
01=Member of Group #1,
10=Member of Group #2,
11=Member of Group #3
7-6
led73_grp
R/W
0h
Group selection for LED73:
00=No member of grouping,
01=Member of Group #1,
10=Member of Group #2,
11=Member of Group #3
5-4
led72_grp
R/W
0h
Group selection for LED72:
00=No member of grouping,
01=Member of Group #1,
10=Member of Group #2,
11=Member of Group #3
15-10
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Table 276. LED74_70_GRPSEL Register Field Descriptions (continued)
Bit
Field
Type
Reset
Description
3-2
led71_grp
R/W
0h
Group selection for LED71:
00=No member of grouping,
01=Member of Group #1,
10=Member of Group #2,
11=Member of Group #3
1-0
led70_grp
R/W
0h
Group selection for LED70:
00=No member of grouping,
01=Member of Group #1,
10=Member of Group #2,
11=Member of Group #3
7.6.1.270 LED79_75_GRPSEL Register (Address = 1EDh) [reset = 0h]
LED79_75_GRPSEL is shown in Figure 295 and described in Table 277.
Return to Summary Table.
Figure 295. LED79_75_GRPSEL Register
ADVANCE INFORMATION
15
14
13
12
11
10
9
RESERVED
R/W-0h
7
6
5
led78_grp
R/W-0h
8
led79_grp
R/W-0h
4
led77_grp
R/W-0h
3
2
led76_grp
R/W-0h
1
0
led75_grp
R/W-0h
Table 277. LED79_75_GRPSEL Register Field Descriptions
Bit
15-10
140
Field
Type
Reset
Description
RESERVED
R/W
0h
9-8
led79_grp
R/W
0h
Group selection for LED79:
00=No member of grouping,
01=Member of Group #1,
10=Member of Group #2,
11=Member of Group #3
7-6
led78_grp
R/W
0h
Group selection for LED78:
00=No member of grouping,
01=Member of Group #1,
10=Member of Group #2,
11=Member of Group #3
5-4
led77_grp
R/W
0h
Group selection for LED77:
00=No member of grouping,
01=Member of Group #1,
10=Member of Group #2,
11=Member of Group #3
3-2
led76_grp
R/W
0h
Group selection for LED76:
00=No member of grouping,
01=Member of Group #1,
10=Member of Group #2,
11=Member of Group #3
1-0
led75_grp
R/W
0h
Group selection for LED75:
00=No member of grouping,
01=Member of Group #1,
10=Member of Group #2,
11=Member of Group #3
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7.6.1.271 LED84_80_GRPSEL Register (Address = 1EEh) [reset = 0h]
LED84_80_GRPSEL is shown in Figure 296 and described in Table 278.
Return to Summary Table.
Figure 296. LED84_80_GRPSEL Register
15
14
13
12
11
10
9
RESERVED
R/W-0h
7
6
5
4
led83_grp
R/W-0h
8
led84_grp
R/W-0h
3
led82_grp
R/W-0h
2
1
led81_grp
R/W-0h
0
led80_grp
R/W-0h
Table 278. LED84_80_GRPSEL Register Field Descriptions
15-10
Field
Type
Reset
Description
RESERVED
R/W
0h
9-8
led84_grp
R/W
0h
Group selection for LED84:
00=No member of grouping,
01=Member of Group #1,
10=Member of Group #2,
11=Member of Group #3
7-6
led83_grp
R/W
0h
Group selection for LED83:
00=No member of grouping,
01=Member of Group #1,
10=Member of Group #2,
11=Member of Group #3
5-4
led82_grp
R/W
0h
Group selection for LED82:
00=No member of grouping,
01=Member of Group #1,
10=Member of Group #2,
11=Member of Group #3
3-2
led81_grp
R/W
0h
Group selection for LED81:
00=No member of grouping,
01=Member of Group #1,
10=Member of Group #2,
11=Member of Group #3
1-0
led80_grp
R/W
0h
Group selection for LED80:
00=No member of grouping,
01=Member of Group #1,
10=Member of Group #2,
11=Member of Group #3
ADVANCE INFORMATION
Bit
7.6.1.272 LED89_85_GRPSEL Register (Address = 1EFh) [reset = 0h]
LED89_85_GRPSEL is shown in Figure 297 and described in Table 279.
Return to Summary Table.
Figure 297. LED89_85_GRPSEL Register
15
14
13
12
11
10
9
RESERVED
R/W-0h
7
6
5
led88_grp
R/W-0h
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4
led87_grp
R/W-0h
8
led89_grp
R/W-0h
3
2
led86_grp
R/W-0h
1
0
led85_grp
R/W-0h
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Table 279. LED89_85_GRPSEL Register Field Descriptions
Bit
Field
Type
Reset
RESERVED
R/W
0h
9-8
led89_grp
R/W
0h
Group selection for LED89: 00=No member of grouping, 01=Member
of Group #1, 10=Member of Group #2, 11=Member of Group #3
7-6
led88_grp
R/W
0h
Group selection for LED88:
00=No member of grouping,
01=Member of Group #1,
10=Member of Group #2,
11=Member of Group #3
5-4
led87_grp
R/W
0h
Group selection for LED87:
00=No member of grouping,
01=Member of Group #1,
10=Member of Group #2,
11=Member of Group #3
3-2
led86_grp
R/W
0h
Group selection for LED86:
00=No member of grouping,
01=Member of Group #1,
10=Member of Group #2,
11=Member of Group #3
1-0
led85_grp
R/W
0h
Group selection for LED85:
00=No member of grouping,
01=Member of Group #1,
10=Member of Group #2,
11=Member of Group #3
15-10
Description
ADVANCE INFORMATION
7.6.1.273 LED94_90_GRPSEL Register (Address = 1F0h) [reset = 0h]
LED94_90_GRPSEL is shown in Figure 298 and described in Table 280.
Return to Summary Table.
Figure 298. LED94_90_GRPSEL Register
15
14
13
12
11
10
9
RESERVED
R/W-0h
7
6
5
led93_grp
R/W-0h
8
led94_grp
R/W-0h
4
led92_grp
R/W-0h
3
2
led91_grp
R/W-0h
1
0
led90_grp
R/W-0h
Table 280. LED94_90_GRPSEL Register Field Descriptions
Bit
Field
Type
Reset
RESERVED
R/W
0h
9-8
led94_grp
R/W
0h
Group selection for LED94:
00=No member of grouping,
01=Member of Group #1,
10=Member of Group #2,
11=Member of Group #3
7-6
led93_grp
R/W
0h
Group selection for LED93:
00=No member of grouping,
01=Member of Group #1,
10=Member of Group #2,
11=Member of Group #3
15-10
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Table 280. LED94_90_GRPSEL Register Field Descriptions (continued)
Bit
Field
Type
Reset
Description
5-4
led92_grp
R/W
0h
Group selection for LED92:
00=No member of grouping,
01=Member of Group #1,
10=Member of Group #2,
11=Member of Group #3
3-2
led91_grp
R/W
0h
Group selection for LED91:
00=No member of grouping,
01=Member of Group #1,
10=Member of Group #2,
11=Member of Group #3
1-0
led90_grp
R/W
0h
Group selection for LED90:
00=No member of grouping,
01=Member of Group #1,
10=Member of Group #2,
11=Member of Group #3
ADVANCE INFORMATION
7.6.1.274 LED95_GRPSEL Register (Address = 1F1h) [reset = 0h]
LED95_GRPSEL is shown in Figure 299 and described in Table 281.
Return to Summary Table.
Figure 299. LED95_GRPSEL Register
15
14
13
12
11
10
9
3
2
1
8
RESERVED
R/W-0h
7
6
5
4
RESERVED
R/W-0h
0
led95_grp
R/W-0h
Table 281. LED95_GRPSEL Register Field Descriptions
Field
Type
Reset
15-2
Bit
RESERVED
R/W
0h
1-0
led95_grp
R/W
0h
Copyright © 2017, Texas Instruments Incorporated
Description
Group selection for LED95:
00=No member of grouping,
01=Member of Group #1,
10=Member of Group #2,
11=Member of Group #3
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8 Application and Implementation
NOTE
Information in the following applications sections is not part of the TI component
specification, and TI does not warrant its accuracy or completeness. TI’s customers are
responsible for determining suitability of components for their purposes. Customers should
validate and test their design implementation to confirm system functionality.
8.1 Application Information
The LED171596A is an LED driver that can individually control up to 96 LEDs. The maximum LED current for all
LED driver outputs is configured by the value of RISET resistor and LEDXX_CUR[7:0] registers. Refer to
Table 283 for RISET current calculation.
8.2 Typical Application
VLED
VLED
ADVANCE INFORMATION
GND
GND
GND
GND
GND
GND
GND
CVLED
VDD
VDD
CVDD
GND
VDDIO
VDDIO
ISET
EN
IFSEL_LATCH
RISET
INT
SCLK_SCL
MISO_ADDR
MOSI_SDA
SS_PWM
LED_GND
EPAD
LED23
LED0
LED22
LED1
LED21
LED2
LED20
LED3
LED19
LED4
LED18
LED5
LED17
LED6
LED16
LED7
LED15
LED8
LED14
LED9
LED13
LED10
LED11
LED12
HS0
HS1
HS2
HS3
Copyright © 2016, Texas Instruments Incorporated
Figure 300. Typical Application
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Typical Application (continued)
8.2.1 Design Requirements
The following design guideline provides a component selection to operate the device within the recommended
operating conditions.
Table 282. List of Components
REFERENCE
DESCRIPTION
PART NUMBER
MANUFACTURER
IC
96-Channel LED Driver, QFN
LED171596A
Texas Instruments
Kemet
CVLED
CAP, CERM, 10 µF, 10 V
C0805C106K8RACTU
CVDD
CAP, CERM, 10 µF, 6.3 V
C1608JB0J106K080AB
TDK
RISET
RES, 12.4k, 1%, 0.1 W, 0603
CRCW060312K4FKEA
Vishay-Dale
8.2.2 Detailed Design Procedure
The default value of LEDXX_CUR[7:0] registers is 0xCC or 80% of peak current. Using this value the required
RISET value for 2.48 mA average LED current is shown in Table 283.
ISET (mA)
RISET
CALCULATED
(kΩ)
RISET STANDARD
VALUE
(kΩ)
LEDXX_CUR
PEAK ILED CURRENT
(mA)
AVERAGE ILED
CURRENT
(mA)
10
60
60.4
0xCC
9.93
2.48
ADVANCE INFORMATION
Table 283. RISET Example Calculation
8.2.3 Application Curves
Figure 301. High Side Switch Sequence
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Figure 302. HS0 to HS1 Transition
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Figure 303. HS1 to HS2 Transition
Figure 304. HS2 to HS3 Transition
ADVANCE INFORMATION
146
Figure 305. HS3 to HS0 Transition
Figure 306. LED PWM Phase Shift 0
Figure 307. LED PWM Phase Shift 1
Figure 308. LED PWM Phase Shift 2
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9 Power Supply Recommendations
9.1 Power Start-up and Shutdown Sequence
The preferred power start-up sequence for the LED171596A is to apply VDD first then VDDIO followed by VLED
while keeping EN input low where t1 ≥ t2 ≥ 0 (refer to ). The VDD and VDDIO supplies can be applied
simultaneously provided that VDD ≥ VDDIO in transition. The preferred power shutdown sequence is the exact
opposite of start-up, EN set low then VLED removed followed by VDDIO removed and finally VDD removed
where t1 ≥ t2 ≥ t3 ≥ 0 (refer to ).
9.2 VLED Input Supply Recommendations
The LED171596A is designed to operate from a 0-V to 6.1-V VLED voltage supply. The VLED supply must be
well regulated and able to provide the peak current required by the LED configuration without voltage drop under
load transients (start-up or rapid brightness change). The resistance of the input supply rail must be low enough
such that the input current transient does not cause the VLED supply voltage to droop below LED Vf + VSAT
voltage. TI recommends bulk decoupling located close to the VLED pin to minimize the impact of the VLED input
supply rail resistance.
9.3 VDD Input Supply Recommendations
The LED171596A is designed to operate from a 2.9-V to 3.5-V VDD voltage supply. This input supply must be
well regulated and be able to provide the peak current required by the LED configuration. The resistance of the
VDD supply rail must be low enough such that the input current transient does not cause the LED171596A VIN
supply voltage to droop below the maximum VDDPOR voltage. Additional bulk decoupling located close to the
VDD bypass capacitor may be required to minimize the impact of the VDD input supply rail resistance.
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ADVANCE INFORMATION
Figure 309. LED PWM Phase Shift 3
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10 Layout
10.1 Layout Guidelines
See Figure 310 for the recommended layout of the LED171596A, which is designed for common system ground
connections. Therefore, connect GND and LGND pins to the exposed thermal pad and the system ground. The
GND plane connections to CVLED and GND pins must be on TOP layer copper with multiple vias connecting to
system ground plane keeping traces as short as wide as possible.
Provide low inductive and resistive paths for loops with high di/dt. Therefore, paths conducting the switched load
current (VLED, HS3, HS2, HS1 and HS0) must be as short and wide as possible. Parallel wiring over long
distances, as well as narrow traces, must be avoided. Loops that conduct an alternating current must outline an
area as small as possible, as this area is proportional to the energy radiated.
The exposed thermal pad must be soldered to the circuit board for mechanical reliability and to achieve
appropriate power dissipation.
10.2 Layout Example
GND
45
44
Short wide paths on high di/dt node (GND, VLED).
Keep current loops as short as possible.
37
38
39
40
41
42
43
VLED
GND
SW
47
46
SW
48
CVLED
VIN
1
36
VIN
2
35
3
34
4
33
5
32
6
31
VDD
7
30
GND
8
29
Connect all GND pins to
Thermal Pad and system
ground (GND plane).
24
23
22
21
20
19
VDDIO
LGND
18
25
17
26
12
16
27
11
15
28
14
9
10
13
ADVANCE INFORMATION
TOP Layer GND plane connecting GND to CVLED.
Connect to VLED rail and system ground using
multiple vias to reduce via inductance and
resistance.
Copyright © 2016, Texas Instruments Incorporated
Figure 310. Layout Example
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10.3 Thermal Information
Implementation of integrated circuits in low-profile and fine-pitch surface-mount packages typically requires
special attention to power dissipation. Many system-dependent issues such as thermal coupling, airflow, added
heat sinks and convection surfaces, and the presence of other heat-generating components affect the power
dissipation limits of a given component.
Three basic approaches for enhancing thermal performance are:
• Improving the power dissipation capability of the PCB design
• Improving the thermal coupling of the component to the PCB by soldering the exposed thermal pad
• Introducing airflow in the system
The LED171596A is designed for a maximum operating junction temperature (TJ) of 125°C. Therefore, the
maximum output power is limited by the power losses that can be dissipated over the actual thermal resistance,
given by the package and the surrounding PCB structures. Because the thermal resistance of the package is
fixed, increasing the size of the surrounding copper area and improving the thermal connection to the device can
reduce the thermal resistance. To get an improved thermal behavior, TI recommends using top-layer metal to
connect the device with wide and thick metal lines. Internal ground layers can connect to vias directly under the
device for improved thermal performance.
If short circuit or overload conditions are present, the device is protected by limiting internal power dissipation.
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ADVANCE INFORMATION
For more details on how to use the thermal parameters, see Thermal Characteristics of Linear and Logic
Packages Using JEDEC PCB Designs and Semiconductor and IC Package Thermal Metrics.
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11 Device and Documentation Support
11.1 Device Support
11.1.1 Third-Party Products Disclaimer
TI'S PUBLICATION OF INFORMATION REGARDING THIRD-PARTY PRODUCTS OR SERVICES DOES NOT
CONSTITUTE AN ENDORSEMENT REGARDING THE SUITABILITY OF SUCH PRODUCTS OR SERVICES
OR A WARRANTY, REPRESENTATION OR ENDORSEMENT OF SUCH PRODUCTS OR SERVICES, EITHER
ALONE OR IN COMBINATION WITH ANY TI PRODUCT OR SERVICE.
11.2 Related Documentation
For additional information, see the following:
• Thermal Characteristics of Linear and Logic Packages Using JEDEC PCB Designs
• Semiconductor and IC Package Thermal Metrics
11.3 Receiving Notification of Documentation Updates
ADVANCE INFORMATION
To receive notification of documentation updates, navigate to the device product folder on ti.com. In the upper
right corner, click on Alert me to register and receive a weekly digest of any product information that has
changed. For change details, review the revision history included in any revised document.
11.4 Community Resources
The following links connect to TI community resources. Linked contents are provided "AS IS" by the respective
contributors. They do not constitute TI specifications and do not necessarily reflect TI's views; see TI's Terms of
Use.
TI E2E™ Online Community TI's Engineer-to-Engineer (E2E) Community. Created to foster collaboration
among engineers. At e2e.ti.com, you can ask questions, share knowledge, explore ideas and help
solve problems with fellow engineers.
Design Support TI's Design Support Quickly find helpful E2E forums along with design support tools and
contact information for technical support.
11.5 Trademarks
E2E is a trademark of Texas Instruments.
All other trademarks are the property of their respective owners.
11.6 Electrostatic Discharge Caution
These devices have limited built-in ESD protection. The leads should be shorted together or the device placed in conductive foam
during storage or handling to prevent electrostatic damage to the MOS gates.
11.7 Glossary
SLYZ022 — TI Glossary.
This glossary lists and explains terms, acronyms, and definitions.
12 Mechanical, Packaging, and Orderable Information
The following pages include mechanical, packaging, and orderable information. This information is the most
current data available for the designated devices. This data is subject to change without notice and revision of
this document. For browser-based versions of this data sheet, refer to the left-hand navigation.
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PACKAGE OPTION ADDENDUM
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15-Nov-2017
PACKAGING INFORMATION
Orderable Device
Status
(1)
Package Type Package Pins Package
Drawing
Qty
Eco Plan
Lead/Ball Finish
MSL Peak Temp
(2)
(6)
(3)
Op Temp (°C)
Device Marking
(4/5)
LED171596ARSLR
PREVIEW
VQFN
RSL
48
2500
TBD
Call TI
Call TI
-40 to 85
PED171596ARSLR
ACTIVE
VQFN
RSL
48
2500
TBD
Call TI
Call TI
-40 to 85
(1)
The marketing status values are defined as follows:
ACTIVE: Product device recommended for new designs.
LIFEBUY: TI has announced that the device will be discontinued, and a lifetime-buy period is in effect.
NRND: Not recommended for new designs. Device is in production to support existing customers, but TI does not recommend using this part in a new design.
PREVIEW: Device has been announced but is not in production. Samples may or may not be available.
OBSOLETE: TI has discontinued the production of the device.
(2)
RoHS: TI defines "RoHS" to mean semiconductor products that are compliant with the current EU RoHS requirements for all 10 RoHS substances, including the requirement that RoHS substance
do not exceed 0.1% by weight in homogeneous materials. Where designed to be soldered at high temperatures, "RoHS" products are suitable for use in specified lead-free processes. TI may
reference these types of products as "Pb-Free".
RoHS Exempt: TI defines "RoHS Exempt" to mean products that contain lead but are compliant with EU RoHS pursuant to a specific EU RoHS exemption.
Green: TI defines "Green" to mean the content of Chlorine (Cl) and Bromine (Br) based flame retardants meet JS709B low halogen requirements of <=1000ppm threshold. Antimony trioxide based
flame retardants must also meet the <=1000ppm threshold requirement.
(3)
MSL, Peak Temp. - The Moisture Sensitivity Level rating according to the JEDEC industry standard classifications, and peak solder temperature.
(4)
There may be additional marking, which relates to the logo, the lot trace code information, or the environmental category on the device.
(5)
Multiple Device Markings will be inside parentheses. Only one Device Marking contained in parentheses and separated by a "~" will appear on a device. If a line is indented then it is a continuation
of the previous line and the two combined represent the entire Device Marking for that device.
(6)
Lead/Ball Finish - Orderable Devices may have multiple material finish options. Finish options are separated by a vertical ruled line. Lead/Ball Finish values may wrap to two lines if the finish
value exceeds the maximum column width.
Important Information and Disclaimer:The information provided on this page represents TI's knowledge and belief as of the date that it is provided. TI bases its knowledge and belief on information
provided by third parties, and makes no representation or warranty as to the accuracy of such information. Efforts are underway to better integrate information from third parties. TI has taken and
continues to take reasonable steps to provide representative and accurate information but may not have conducted destructive testing or chemical analysis on incoming materials and chemicals.
TI and TI suppliers consider certain information to be proprietary, and thus CAS numbers and other limited information may not be available for release.
In no event shall TI's liability arising out of such information exceed the total purchase price of the TI part(s) at issue in this document sold by TI to Customer on an annual basis.
Addendum-Page 1
Samples
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DIRECT, SPECIAL, COLLATERAL, INDIRECT, PUNITIVE, INCIDENTAL, CONSEQUENTIAL OR EXEMPLARY DAMAGES IN
CONNECTION WITH OR ARISING OUT OF TI RESOURCES OR USE THEREOF, AND REGARDLESS OF WHETHER TI HAS BEEN
ADVISED OF THE POSSIBILITY OF SUCH DAMAGES.
Unless TI has explicitly designated an individual product as meeting the requirements of a particular industry standard (e.g., ISO/TS 16949
and ISO 26262), TI is not responsible for any failure to meet such industry standard requirements.
Where TI specifically promotes products as facilitating functional safety or as compliant with industry functional safety standards, such
products are intended to help enable customers to design and create their own applications that meet applicable functional safety standards
and requirements. Using products in an application does not by itself establish any safety features in the application. Designers must
ensure compliance with safety-related requirements and standards applicable to their applications. Designer may not use any TI products in
life-critical medical equipment unless authorized officers of the parties have executed a special contract specifically governing such use.
Life-critical medical equipment is medical equipment where failure of such equipment would cause serious bodily injury or death (e.g., life
support, pacemakers, defibrillators, heart pumps, neurostimulators, and implantables). Such equipment includes, without limitation, all
medical devices identified by the U.S. Food and Drug Administration as Class III devices and equivalent classifications outside the U.S.
TI may expressly designate certain products as completing a particular qualification (e.g., Q100, Military Grade, or Enhanced Product).
Designers agree that it has the necessary expertise to select the product with the appropriate qualification designation for their applications
and that proper product selection is at Designers’ own risk. Designers are solely responsible for compliance with all legal and regulatory
requirements in connection with such selection.
Designer will fully indemnify TI and its representatives against any damages, costs, losses, and/or liabilities arising out of Designer’s noncompliance with the terms and provisions of this Notice.
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