S1D10605 Epson Electronics America, Inc., S1D10605 Datasheet - Page 282

S1D10605

Manufacturer Part Number

S1D10605

Description

S1d15000 Series Lcd Driver With Ram

Manufacturer

Epson Electronics America, Inc.

Datasheet

1.S1D10605.pdf (612 pages)

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Display Data RAM

The display data RAM is a RAM that stores the dot data

for the display. It has a 65 (8 page

structure. It is possible to access the desired bit by

specifying the page address and the column address.

Because, as is shown in Figure 3, the D7 to D0 display

data from the MPU corresponds to the liquid crystal

display common direction, there are few constraints at

The Page Address Circuit

As shown in Figure 6-4, page address of the display data

RAM is specified through the Page Address Set

Command. The page address must be specified again

when changing pages to perform access.

Page address 8 (D3, D2, D1, D0 = 1, 0, 0, 0) is the page

for the RAM region used only by the indicators, and

only display data D0 is used.

The Column Addresses

As is shown in Figure 4, the display data RAM column

address is specified by the Column Address Set

command. The specified column address is incremented

(+1) with each display data read/write command. This

allows the MPU display data to be accessed continuously.

Moreover, the incrementation of column addresses stops

with 83H. Because the column address is independent

of the page address, when moving, for example, from

page 0 column 83H to page 1 column 00H, it is necessary

to respecify both the page address and the column

address.

Furthermore, as is shown in Table 4, the ADC command

(segment driver direction select command) can be used

to reverse the relationship between the display data

RAM column address and the segment output. Because

of this, the constraints on the IC layout when the LCD

module is assembled can be minimized.

Rev. 2.4a

—

Display data RAM

8 bit +1) 132 bit

EPSON

Figure 3

the time of display data transfer when multiple S1D15605

series chips are used, thus and display structures can be

created easily and with a high degree of freedom.

Moreover, reading from and writing to the display

RAM from the MPU side is performed through the I/O

buffer, which is an independent operation from signal

reading for the liquid crystal driver. Consequently, even

if the display data RAM is accessed asynchronously

during liquid crystal display, it will not cause adverse

effects on the display (such as flickering).

The Line Address Circuit

The line address circuit, as shown in Table 4, specifies

the line address relating to the COM output when the

contents of the display data RAM are displayed. Using

the display start line address set command, what is

normally the top line of the display can be specified (this

is the COM0 output when the common output mode is

normal, and the COM63 output for S1D15605 Series,

COM47 output for S1D15606 Series, COM31 output for

the S1D15607 Series, COM53 output for S1D15608

and COM51 output for S1D15609

output mode is reversed. The display area is a 65 line area

for the S1D15605 Series, a 49 line are for the S1D15606,

a 33 line area for the S1D15607 Series , 55 line area for

the S1D15608

S1D15609

If the line addresses are changed dynamically using the

display start line address set command, screen scrolling,

page swapping, etc. can be performed.

SEG

Output

ADC “0” 0 (H)

(D0) “1” 83 (H)

COM0

COM1

COM2

COM3

COM4

—

*****

Liquid crystal display

SEG0

*****

from the display start line address.

Table 4

Column Address

and 53 line area for the

*****

S1D15605 Series

) when the common

SEG 131

83 (H)

0 (H)

*****

8–27

S1D10605 Epson Electronics America, Inc., S1D10605 Datasheet - Page 282

S1D10605

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