HD6473887 Datasheet, PDF(386/523 Page) Renesas Technology Corp – Hitachi Single-Chip Microcomputer

English

English German Russian Spanish Italian Polish Chinese Japanese Korean French Portuguese	Language :

HD6473887 Datasheet, PDF (386/523 Pages) Renesas Technology Corp – Hitachi Single-Chip Microcomputer

◁

13.3.7 Boosting the LCD Drive Power Supply

When a large panel is driven, the on-chip power supply capacity may be insufficient. In this case,

the power supply impedance must be reduced. This can be done by connecting bypass capacitors

of around 0.1 to 0.3 ÂµF to pins V1 to V3, as shown in figure 13-17, or by adding a split-resistance

externally.

VCC

V0

V1

R

H8/3887 Series

V2

R

V3

R

VSS

R = several kâ¦ to

several Mâ¦

C= 0.1 to 0.3ÂµF

Figure 13-17 Connection of External Split-Resistance

13.3.8 Connection to HD66100

If the segments are to be expanded externally, an HD66100 should be connected. Connecting one

HD66100 provides 80-segment expansion. When carrying out external expansion, select the

external expansion signal function of pins SEG40 to SEG37 with the SGX bit in LPCR, and set bits

SGS3 to SGS0 to 0000. Data is output externally from SEG1 of the LCD RAM. SEG36 to SEG1

function as ports.

Figure 13-18 shows examples of connection to an HD66100. The output level is determined by a

combination of the data and the M pin output, but these combinations differ from those in the

HD66100. Table 13-3 shows the output levels of the LCD drive power supply, and figures 13-11

and 13-12 show the common and segment waveforms for each duty cycle.

When ACT is cleared to 0, operation stops with CL2 = 0, CL1 = 0, M = 0, and DO at the data value

(1 or 0) being output at that instant. In standby mode, the expansion pins go to the high-

impedance (floating) state.

369

▷