HCMS-39X2 Datasheet, PDF(10/22 Page) Agilent(Hewlett-Packard) – 3.3 V High Performance CMOS 5x7 AlphaNumeric Displays

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HCMS-39X2 Datasheet, PDF (10/22 Pages) Agilent(Hewlett-Packard) – 3.3 V High Performance CMOS 5x7 AlphaNumeric Displays

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Display Overview

The HCMS-39XX series is a

family of LED displays driven by

on-board CMOS ICs. The LEDs

are configured as 5x7 font

characters and are driven in

groups of 4 characters per IC.

Each IC consists of a 160-bit shift

7-bit Control Words, and refresh

circuitry. The Dot Register

contents are mapped on a one-to-

one basis to the display. Thus, an

individual Dot Register bit

uniquely controls a single LED.

Eight-character displays have two

ICs that are cascaded. The Data

Out line of the first IC is

internally connected to the Data

In line of the second IC forming a

320-bit Dot Register. The

displayâs other control and power

lines are connected directly to

both ICs.

Reset

Reset initializes the Control

Registers (sets all Control

places the display in the sleep

mode. The Reset pin should be

connected to the system power

on reset circuit. The Dot

Registers are not cleared upon

power-on or by Reset. After

power-on, the Dot Register

contents are random; however,

Reset will put the display in sleep

mode, thereby blanking the

LEDs. The Control Register and

the Control Words are cleared to

all zeros by Reset.

To operate the display after being

Reset, load the Dot Register with

logic lows. Then load Control

Word 0 with the desired

brightness level and set the sleep

mode bit to logic high.

Dot Register

The Dot Register holds the

pattern to be displayed by the

LEDs. Data is loaded into the Dot

procedure shown in Table 1 and

Figure 5.

First RS is brought low, then CE

is brought low. Next, each

successive rising CLK edge will

shift in the data at the DIN pin.

Loading a logic high will turn the

corresponding LED on; a logic

low turns the LED off. When all

160 bits have been loaded (or

320 bits in an 8-digit display), CE

is brought to logic high.

When CLK is next brought to

logic low, new data is latched into

the display dot drivers. Loading

data into the Dot Register takes

place while the previous data is

displayed and eliminates the need

to blank the display while loading

data.

Table 1. Register Truth Table

Function

CLK

Select Dot Register

Not Rising

Load Dot Register

DIN = HIGH LED = âONâ

DIN = LOW LED = âOFFâ

Copy Data from Dot Register to Dot Latch

Select Control Register

Load Control Register[1,3]

Latch Data to Control Word[2]

Not Rising

Notes:

1. BIT D0 of Control Word 1 must have been previously set to Low for serial mode or High for simultaneous mode.

2. Selection of Control Word 1 or Control Word 0 is set by D7 of the Control Shift Register. The unselected control word retains its previous value.

3. Control Word data is loaded Most Significant Bit (D7) first.

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