Texas Instruments LP8556TM-Evaluation module LP8556TM-EVM/NOPB LP8556TM-EVM/NOPB Datenbogen
Produktcode
LP8556TM-EVM/NOPB
7.4. LED Driver Configuration
The LED driver can control the power to the LEDs using PWM dimming, pure current control, or an adaptive
combination of the two. See the Adaptive Dimming Control and Brightness control sections of the datasheet
for descriptions. The appropriate registers must be set once brightness and dimming control method is
selected. The PWM_DIRECT bit in CFG5 may be set for direct control of the PWM output or the
BRT_MODE must be selected in the Device Control register at 01h. Note if using I2C Control, the backlight
is turned on and off using the BL_CTL bit in the Device Control Register at 01h.
combination of the two. See the Adaptive Dimming Control and Brightness control sections of the datasheet
for descriptions. The appropriate registers must be set once brightness and dimming control method is
selected. The PWM_DIRECT bit in CFG5 may be set for direct control of the PWM output or the
BRT_MODE must be selected in the Device Control register at 01h. Note if using I2C Control, the backlight
is turned on and off using the BL_CTL bit in the Device Control Register at 01h.
7.4.1. Setting the Maximum LED Current
Using Resistor Config: The desired maximum LED current can be set using an external resistor on the
RSET pin. The ISET_EN bit must be set in the CFG2 register. The maximum current will then depend on
the value set in the CURRENT_MAX bits in CFG1.
RSET pin. The ISET_EN bit must be set in the CFG2 register. The maximum current will then depend on
the value set in the CURRENT_MAX bits in CFG1.
Using I2C Control: The desired maximum LED current is set in the CURRENT_MAX bits of CFG1. The
CURRENT value in CFG0 can be used for finer adjustments of the maximum current. The ISET_EN bit in
CFG2 is reset to zero.
CURRENT value in CFG0 can be used for finer adjustments of the maximum current. The ISET_EN bit in
CFG2 is reset to zero.
7.4.2. PWM Output Frequency
Using Resistor Config: The PWM output is set by the resistor on the FSET pin. The PWM_FSET_EN bit
must be set in the CFG2 register. Note the BOOST _FSET_EN bit must also be set as the boost output
frequency is also set by the resistor on the FSET pin. Note the BL_ON bit must be set to insure the
backlight comes on during operation. See the datasheet table titled Setting Switching and PWM Dimming
Frequency with an External Resistor.
Using I2C Control: The desired PWM output frequency is programmed in the PWM_FREQ bits of the
CFG6 register. The bits BOOST_FSET_EN and PWM_FSET_EN must be reset to zero in CFG2.
must be set in the CFG2 register. Note the BOOST _FSET_EN bit must also be set as the boost output
frequency is also set by the resistor on the FSET pin. Note the BL_ON bit must be set to insure the
backlight comes on during operation. See the datasheet table titled Setting Switching and PWM Dimming
Frequency with an External Resistor.
Using I2C Control: The desired PWM output frequency is programmed in the PWM_FREQ bits of the
CFG6 register. The bits BOOST_FSET_EN and PWM_FSET_EN must be reset to zero in CFG2.
7.4.3. Adaptive Dimming Settings
The PWM TO I THRESHOLD bits of the CFG4 register set the point for the transition between current
dimming and PWM output dimming. Setting these bits to values above 0Ah will force PWM output dimming
to always occur as shown in the top diagram of the Adaptive Dimming Control section of the datasheet.
Setting these bits to 00h will select current dimming across the entire range as shown in the bottom
diagram. An intermediate value will select the transition point to occur between 10% and 50%.
dimming and PWM output dimming. Setting these bits to values above 0Ah will force PWM output dimming
to always occur as shown in the top diagram of the Adaptive Dimming Control section of the datasheet.
Setting these bits to 00h will select current dimming across the entire range as shown in the bottom
diagram. An intermediate value will select the transition point to occur between 10% and 50%.
7.4.4. Brightness Control Mode
Using Resistor Config: The brightness control mode is defaulted to PWM only (00) in the Device Control
register. This allows the blocks in the PWM Brightness Control Signal Path as shown in Figure 1 of the
data sheet to be used in controlling the output. To bypass theses blocks and connect the PWM input of the
LP8556 to the LED driver output set the PWM_DIRECT bit of CFG5 to one. Note if PWM_DIRECT is set to
one, the phase-shift and output curve shaping features are not available. The desired output brightness is
control by the configuration acting upon the PWM signal at the input pin.
Using I2C Control: The brightness control mode is set in the Device Control register bits BRT_MODE.
The PWM_DIRECT bit of CFG5 may be set in EPROM to use direct mode to bypass the PWM Brightness
Control Signal Path as shown in Figure 1 of the data sheet.
Note if PWM_DIRECT is set to one, the phase-shift and output curve shaping features are not available. If
BRT_MODE is other than 00b, then the desired brightness value is written to the Brightness Control
register at address 00h. If BRT_MODE is 10b or 11b then the output brightness is a combination of the
Brightness Control Register setting and the PWM signal at the input pin.