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2014-07-02 - Tiny Gecko Family - d0034_Rev1.20
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1/2 bias and duplex multiplexing - LCD_SEG0-LCD_COM0
• DC voltage = 0 (over one frame)
• V
RMS
= 0.79 × V
LCD_OUT
• The LCD display pixel that is connected to LCD_SEG0 and LCD_COM0 will be ON with this waveform.
Figure 29.9. LCD 1/2 Bias and Duplex Multiplexing - LCD_SEG0-LCD_COM0
V
LC0
(V
LCD
)
V
LC3
(V
SS
)
- V
LC0
(V
LCD
)
Fram e St art
Fram e End
V
LC1
(1/ 2V
LCD
)
- V
LC1
(1/ 2V
LCD
)
1/2 bias and duplex multiplexing - LCD_SEG0-LCD_COM1
• DC voltage = 0 (over one frame)
• V
RMS
= 0.35 × V
LCD_OUT
• The LCD display pixel that is connected to LCD_SEG0 and LCD_COM0 will be OFF with this waveform
Figure 29.10. LCD 1/2 Bias and Duplex Multiplexing - LCD_SEG0-LCD_COM1
V
LC0
(V
LCD
)
V
LC3
(V
SS
)
- V
LC0
(V
LCD
)
Fram e St art
Fram e End
V
LC1
(1/ 2V
LCD
)
- V
LC1
(1/ 2V
LCD
)
29.3.3.3 Waveforms with 1/3 Bias and Duplex Multiplexing
In this mode, each frame is divided into 4 periods. LCD_COM[1:0] lines can be multiplexed with all
segment lines. Figures show 1/3 bias and duplex multiplexing (waveforms show two frames).
Figure 29.11. LCD 1/3 Bias and Duplex Multiplexing - LCD_COM0
V
LC0
(V
LCD
)
V
LC1
(2/ 3V
LCD
)
V
LC3
(V
SS
)
V
LC2
(1/ 3V
LCD
)
Fram e St art
Fram e End
Summary of Contents for EFM32TG
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