Epson S1D13705 Computer Monitor User Manual


 
EPSON Research and Development Page 13
Vancouver Design Center
S5U13704/5 - TMPR3912/22U CPU Module
Issue Date: 01/03/07 X00A-G-004-02
4.2.2 Standard Epson LCD Connector, J4
A shrouded 40-pin header, J4, is also added to the CPU module to connect to LCD panels.
This header is the standard LCD connector used on Epson Research and Development
evaluation boards and can be used to directly connect LCD panels to the S1D13704/5
controller. All LCD signals are buffered to allow 3.3V or 5.0V logic LCD panels to be
connected. Jumper, JP9, selects between these two types of panels.
A positive power supply for panels requiring a positive bias voltage is supplied to header
J4, by the LCD module through the 50-pin LCD module connector, J3. No negative power
supply is available on the LCD module, therefore only panels which have their own bias
voltage supply, or those that use a positive supply, can be connected to J4. The LCD
module can only support these panels as well.
Header, J4, and its associated buffers and components have been left unpopulated on the
CPU module. These parts can be added by the user if desired.
4.3 LCD Controller
4.3.1 S1D13704 vs. S1D13705
The LCD controller used in conjunction with the TMPR3912/22U microprocessor can
either be a S1D13704 or a S1D13705. If a S1D13704 is used, jumper JP7 must be set to
position 1 2. This setting allows CNF4 to be configured for the S1D13704. CNF4 controls
the polarity of the LCDPWR signal and can be set either high or low with jumper, JP11. If
a S1D13705 is used, jumper JP7 must be set to position 2 3. This setting allows pin 45 of
the LCDC to be used as address bit, AB16, which is needed on the S1D13705 to accom-
modate the larger display memory
.
4.3.2 LCDPWR Polarity
The power supply on the LCD module used LCDON, an active low signal to turn on the
supply. This signal is connected to LCDPWR. Since LCDPWR is configurable on the
S1D13704 and is set active high on the S1D13705, a facility must be provided to invert this
signal if it is active high so that LCDON will be the right polarity to turn on the LCD power
supply. Jumper, JP10 must be set to position 1 2 if LCDPWR is active low and to position
2 3 if LCDPWR is active high.
4.3.3 S1D13704\75 Chip Select
Minimal glue logic is used on the CPU module to provide the chip select signal, CS#, for
the LCDC. A simple AND gate activates the S1D13704/5 whenever the PC Card slot #1
is accessed, whether it be memory space or attribute space.