Siemens DLR1414, DLO1414, DLG1414 Datasheet

)

.

Tolerance: XXX±.01 (.254)

Dimensions in inches (mm)

RED

DLR1414

FEATURES

• Dot Matrix Replacement for DL1414T

• 0.145" High, Dot Matrix Character

• 128 Special ASCII Characters for English,
German, Italian, Swedish, Danish, and Norwe­gian Languages

• Wide Viewing Angle: X Axis ± 50 ° , Y Axis ± 75 °

• Close Vertical Row Spacing, 0.800" Centers

• Fast Access Time, 110 ns at 25 ° C

• Compact Size for Hand Held Equipment

• Built- in Memory

• Built-in Character Generator

• Built-in Multiplex and LED Drive Circuitry

• Direct Access to Each Digit Independently
and Asynchronously

• TTL Compatible, 5 Volt Power

• Low Power Consumption, 20 mA per Charac­ter Typical

• Intensity Coded for Display Uniformity

• Extended Operating Temperature Range:
–40 ° C to +85 ° C

• End Stackable, 4-Character Package

HIGH EFFICIENCY RED

GREEN

DLO1414
DLG1414

.145" 4-character 5 x 7 Dot Matrix

Alphanumeric Intelligent Display

with Memory/Decoder/Driver

0200 (.51)

.0220

(.56)

Part Number

Pin Indicator

.050 (1.27) 4 pl.

.160±.020
(4.06±.51)

.095 (2.41)

ref.

DESCRIPTION

The DLR/DLO/DLG1414 is a four digit 5x7 dot matrix display module with a
built-in CMOS integrated circuit. This display is a drop-in dot matrix replace­ment for the DL1414T with segmented characters.

The integrated circuit contains memory, ASCII ROM decoder, multiplex cir­cuitry and drivers. Data entry is asynchronous and random. A display system
can be built using any number of DLX1414s since each character in any
DLX1414 can be addressed independently and will continue to display the
character last stored until replaced by another.

System interconnection is very straightforward. The least significant two
address bits (A0, A1) are normally connected to the like named inputs of all
displays in the system. Data lines are connected to all DLX1414s directly
and in parallel as is the write line (WR
write only memory.

The DLX1414 has several features superior to competitive devices. The
character set consists of 128 special ASCII characters for English, German,
Italian, Swedish, Danish, and Norwegian.

See Appnotes 18, 19, 22, and 23 for additional information.

.1750
(4.45)

.700 max.

(17.78)

Luminous
Intensity
Code

DLX 1414

SIEMENS YYWW

.0920
(2.34)

.1440
(3.66)

.010 (.25) 4 pl.

.240 (6.10)

Z

EIA Date Code

.100 (2.54) 10 pl.

.018 (.46) 12 pl.

at Seating Plane

). The display then will behave as a

.240

(6.10)

ref.

.800

(20.32)

max.

.070 (1.78) ± .003 (.08) 4 pl.

.210

(5.33)

.600±.020

(15.24±.51)

.012 (.30)
± .002 (.05
12 pl.

2–1

A

D

V
V

V
V

V
V

Maximum Ratings

DC Supply Voltage....................... –0.5 to +7.0 Vdc

Input Voltage Levels Relative

to GND (all inputs).............–0.5 to V

Operating Temperature..................–40 °

Storage Temperature....................–40 °

+0.5 Vdc

CC

C to +85 ° C

C to +100 ° C

Maximum Solder Temperature........063" (1.59 mm)

below Seating Plane, t<5 sec....................260 °

Relative Humidity at 85 °

C ................................85%

C

Optical Characteristics

Spectral Peak Wavelength

Red...................................................660 nm typ.

High Efficiency Red (HER) ...............630 nm typ.

Green................................................565 nm typ.

Viewing Angle (off normal axis)

Horizontal..................................................... ±

50 °

Vertical......................................................... ± 75 °

Character Height...........................................0.145"

Time Averaged Luminous Intensity

(100% brightness, V

CC

=5 V)

Red............................................50 µ

HER............................................60 µ

Green.........................................70 µ

1

cd/LED typ.
cd/LED typ.

cd/LED typ.

LED to LED Intensity Matching ...........1.8:1.0 max.

LED to LED Hue Matching at V

(Green only) ..................................... ±

Note 1: Peak luminous intensity values can be calculated

by multiplying these values by 7.

CC

=5 V

2 nm max.

Figure 1. Top view

12 11 10 9 8 7

digit digit digit digit
3 2 1 0

1 2 3 4 5 6

Pin Function Pin Function

1 D5 Data Input 7 GND
2 D4 Data Input 8 D0 Data Input (LSB)
3WR Write 9 D1 Data Input
4 A1 Digit Select 10 D2 Data Input
5 A0 Digit Select 11 D3 Data Input
6V

CC

Figure 2. Timing characteristics (V

0, A1

T

AS

0-D6

WR

Note: These waveforms are not edge triggered.

12 D6 Data Input (MSB)

=4.5 V)

CC

T

AH

T

T

ACC

T

DS

W

T

DH

2.0

0.8

2.0

0.8

2.0

0.8

DC Characteristics

Parameter

Min. Typ. Max. Min. Typ. Max. Min. Typ. Max.

I

4 Digits on

CC

20 dots/digit
I

Blank 2.8 4.0 2.3 3.0 2.0 2.5 mA V

CC

I

(all inputs) 30 60 120 25 50 100 20 40 80 mA V

IL

V

2.0 2.0 2.0 VV

IH

V

0.8 0.8 0.8 V V

IL

V

CC

4.5 5.0 5.5 4.5 5.0 5.5 4.5 5.0 5.5 V

–40 ° C +25 ° C +85 ° C

Units Conditions

90 120 80 105 70 95 mA V

=5 V

CC

=WR=5 V,

CC

V

=0 V

IN

=0.8 V, V

IN

=5 V ± 0.5 V

CC

=5 V ± 0.5 V

CC

CC

=5 V

AC Characteristics

Guaranteed Minimum Timing Parameters at V

Parameter Symbol –40 ° C +25 ° C +85 ° C Units

Address Set Up Time T
Address Hold Time T
Write Time T
Data Set Up Time T
Data Hold Time T
Access Time

Note: 1. T

(1)

=Set Up Time + Write Time + Hold Time.

ACC

T

AS
AH
W
DS
DH
ACC

10 10 10 ns
20 30 40 ns
60 70 90 ns
20 30 50 ns
20 30 40 ns
90 110 140 ns

=5.0 V ± 0.5 V

CC

2–2

DLR/DLO/DLG1414