Epson Research and Development
Page 11
Vancouver Design Center
Programming Notes and Examples
S1D13503
Issue Date: 01/01/30
X18A-G-002-06
AUX[05h]
0000 0000
•
bits 7-2: 0 = WF output toggles every frame (panel specific)
•
bits 1-0 = bits 9-8 of Total Display Line Count (panel specific,
see AUX[04h])
AUX[06h]
AUX[07h]
0000 0000
0000 0000
•
bits 15-0 of Screen 1 Display Start Address - normally Screen 1
Start Address = 0000h (application and panel specific)
bits 7-0 are in AUX[06h] and bits 15-8 are in AUX[07h]
when 0000h, Screen 1 Display Start Address is located at
D000:0000h, bank 0, on the S5U13503B00C
see Section 4.2.1,
“S5U13503B00C
Evaluation Board
Display Memory” on
page 36 and Section 4.1,
“Registers” on page 34
AUX[08h]
AUX[09h]
0000 0000
0000 0000
•
bits 15-0 of Screen 2 Display Start Address - normally Screen 2
Start Address = 0000h (application and panel specific)
bits 7-0 are in AUX[08h] and bits 15-8 are in AUX[09h]
when 0000h, Screen 1 Display Start Address is located at
D000:0000h, bank 0, on the S5U13503B00C
see Section 4.2.1,
“S5U13503B00C
Evaluation Board
Display Memory” on
page 36 and Section 4.1,
“Registers” on page 34
AUX[0Ah]
1110 1111
•
bits 7-0 = bits 7-0 of Screen 1 Display Line Count
bits 9-8 of Screen 1 Display Line Count in bits 1-0 of AUX[0Bh]
Screen 1 Display Line Count is typically the same as Total Display
Line Count (AUX[0Ah] = AUX[04h], bits 1-0 of AUX[0Bh] = bits
1-0 of AUX[05h])
see Section 5.4, “Split
Screen” on page 45
AUX[0Bh]
0000 0000
•
bits 7-2 = don’t care; recommend clearing bits
•
bits 1-0 = bits 9-8 of Screen 1 Display Line Count (application
specific, see AUX[0Ah])
AUX[0Ch]
0000 0000
normally programmed to 00h (panel specific)
•
bits 7-0 = use fixed default non-display period
AUX[0Dh]
0000 0000
normally programmed to 00h (normal)
•
bits 7-0 = no address pitch adjustment when 0
see Section 5.1, “Virtual
Displays” on page 40
AUX[0Eh]
0000 0000
select palette address
•
bits 7-6 = green bank 0 (application specific)
•
bits 5-4 = auto increment palette R/W access (application
specific)
•
bits 3-0 = palette address (application specific)
AUX[0Fh]
0000 0000
write Red data
•
bits 7-6 = red bank 0 (application specific)
•
bits 5-4 = blue bank 0 (application specific)
•
bits 3-0 = palette data (application specific)
AUX[0Fh]
0000 0000
write Green data
AUX[0Fh]
0000 0000
write Blue data
AUX[0Eh]
0000 0001
increment palette address
AUX[0Fh]
0000 0010
write Red data
AUX[0Fh]
0000 0010
write Green data
AUX[0Fh]
0000 0101
write Blue data
AUX[0Eh]
0000 0010
increment palette address
AUX
Register
Data
(in Binary)
Notes
See Also
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