HCMS-xxxx Hewlett-Packard, HCMS-xxxx Datasheet - Page 11

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HCMS-xxxx

Manufacturer Part Number

HCMS-xxxx

Description

High Performance CMOS 5 x 7 Alphanumeric Displays

Manufacturer

Hewlett-Packard

Datasheet

1.HCMS-XXXX.pdf (16 pages)

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Sleep mode (Control Word 0, bit

D

Display Oscillator and the LED

pixel drivers. This mode is used

when the IC needs to be powered

up, but does not need to be

active. Current draw in sleep

mode is nearly zero. Data in the

Dot Register and Control Words

are retained during sleep mode.

Control Word 1

Loading the Control Register with

D

Word 1. This Control Word

performs two functions: serial/

simultaneous data out mode and

external oscillator prescale select

(see Table 2).

Serial/Simultaneous Data

Output D

Bit D

switch the mode of D

serial and simultaneous data entry

during Control Register writes.

The default mode (logic low) is

the serial D

mode, D

last bit (D

Register.

Storing a logic high to bit D

changes D

mode which affects the Control

Register only. In simultaneous

mode, D

to D

multiple ICs to have their Control

Registers written to simul-

taneously. For example, for N ICs

in the serial mode, N * 8 clock

pulses are needed to load the

6

7

= Low) turns off the Internal

= logic high selects Control

IN

0

. This arrangement allows

of control word 1 is used to

OUT

OUT

7

OUT

) of the Control Shift

OUT

0

is connected to the

is logically connected

to simultaneous

mode. In serial

OUT

between

0

same data in all Control Registers.

In the simultaneous mode, N ICs

only need 8 clock pulses to load

the same data in all Control

Registers. The propagation delay

from the first IC to the last is

N * t

External Oscillator

Prescaler Bit D

Bit D

to scale the frequency of an

external Display Oscillator. When

this bit is logic low, the external

Display Oscillator directly sets the

internal display clock rate. When

this bit is a logic high, the

external oscillator is divided by 8.

This scaled frequency then sets

the internal display clock rate. It

takes 512 cycles of the display

clock (or 8 x 512 = 4096 cycles

of an external clock with the

divide by 8 prescaler) to com-

pletely refresh the display once.

Using the prescaler bit allows the

designer to use a higher external

oscillator frequency without extra

circuitry.

This bit has no affect on the

internal Display Oscillator

Frequency.

Bits D

These bits must always be pro-

grammed to logic low.

Cascaded ICs

Figure 3 shows how two ICs are

connected within an HCMS-29XX

display. The first IC controls the

four left-most characters and the

second IC controls the four

DOUTP

1

of Control Word 1 is used

2

-D

.

6

1

11

right-most characters. The Dot

Registers are connected in series

to form a 320-bit dot shift

register. The location of pixel 0

has not changed. However, Dot

Shift Register bit 0 of IC2

becomes bit 160 of the 320-bit

dot shift register.

The Control Registers of the two

ICs are independent of each

other. This means that to adjust

the display brightness the same

control word must be entered into

both ICs, unless the Control

Registers are set to simultaneous

mode.

Longer character string systems

can be built by cascading multiple

displays together. This is

accomplished by creating a five

line bus. This bus consists of CE,

RS, BL, Reset, and CLK. The

display pins are connected to the

corresponding bus line. Thus, all

CE pins are connected to the CE

bus line. Similarly, bus lines for

RS, BL, Reset, and CLK are

created. Then D

the right-most display. D

this display is connected to the

next display. The left-most display

receives its D

the display to its right. D

the left-most display is not used.

Each display may be set to use its

internal oscillator, or the displays

may be synchronized by setting

up one display as the master and

the others as slaves. The slaves

are set to receive their oscillator

input from the master’s oscillator

output.

IN

from the D

IN

is connected to

OUT

OUT

OUT

from

from

of

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