Operations Manual
EL552.256-Q2
ICEBRITETM EL DISPLAY
The Definition of Quality
Contents
EL552.256-Q2 Display................................................................................................................2
Features ................................................................................................................................................2
Installing and Handling ................................................................................................................2
Mounting EL Displays ..........................................................................................................................3
Cable Length ........................................................................................................................................3
Cleaning ...............................................................................................................................................3
Avoiding Burn-In..................................................................................................................................4
Specifications ..............................................................................................................................4
Power-up Sequence...............................................................................................................................4
Connector .............................................................................................................................................5
DC/DC Converter (Power Supply).........................................................................................................6
Interface Information ............................................................................................................................6
Video Input Signals...........................................................................................................................6
Self-Test Mode......................................................................................................................................8
Optical..................................................................................................................................................9
Generating Grayscales ..........................................................................................................................9
Environmental ....................................................................................................................................10
Reliability ...........................................................................................................................................10
Safety and EMI Performance...............................................................................................................10
Mechanical Specifications...................................................................................................................11
Component Envelope..........................................................................................................................11
Description of Warranty ............................................................................................................13
Ordering Information .................................................................................................................13
Support and Service...................................................................................................................13
Figures
Figure 1. Power Supply and Logic Signal Sequencing..........................................................................4
Figure 2. Connectors............................................................................................................................5
Figure 3. Video Input Timing Diagram................................................................................................7
Figure 4. Pixel Location vs. Sequence of Data......................................................................................8
Figure 5. Display Dimensions ............................................................................................................12
Tables
Table 1. Video and DC Input Voltage Requirements............................................................................5
Table 2. Connector P0 Pinouts .............................................................................................................5
Table 3. Power Supply Input Voltages..................................................................................................6
Table 4. Video Input Descriptions........................................................................................................7
Table 5. Optical Specifications.............................................................................................................9
Table 6. Environmental Specifications...............................................................................................10
Table 7. Mechanical Specifications ....................................................................................................11
1
EL552.256-Q2 Operations Manual (OM410-00)
EL552.256-Q2
EL552.256-Q2 Display
The EL552.256-Q2 thin film electroluminescent (EL) display is a high-
performance alternative to lower resolution LCDs and VFDs and is the
ideal solution in demanding applications where superior visual
performance and environmental ruggedness are critical. The display
consists of an EL glass panel and control electronics assembled into a
space-saving, rugged package for easy mounting and a separate DC/DC
converter with interconnecting cable.
The EL552.256-Q2 display utilizes Planar’s proprietary Integral Contrast
TM
Enhancement (ICE ) technology to achieve unparalleled image quality
without the use of expensive filters. This small graphics display excels in
a wide range of ambient lighting environments while effectively
eliminating the blooming common to other high-bright displays.
The 4-bit LCD-type interface is TTL-compatible and is designed for
hardware compatibility with the SMOS 1353 or equivalent LCD
controller. Each of the 141,312 pixels has an aspect ratio of 1:1 and is
individually addressable to clearly display high information content
graphics and text.
Features
¨
Excellent visual performance:
High brightness and contrast
Wide viewing angle > 160°
¨
¨
¨
¨
¨
¨
Rapid display response < 1 ms
Low EMI emissions
Extremely rugged and durable
Reliable, long operating life with > 30,000 MTBF
Separate DC/DC converter
4-bit LCD-type interface
Installing and Handling
Do not drop, bend or flex the display. Do not allow objects to strike the surface of
the display.
CAUTION: The display uses CMOS and power MOSFET devices.
These components are electrostatic-sensitive. Unpack, assemble, and
examine this assembly in a static-controlled area only. When shipping,
use packing materials designed for protection of electrostatic-sensitive
components.
2
EL552.256-Q2 Operations Manual (OM410-00)
Mounting EL Displays
Properly mounted, EL displays can withstand high shock loads as well as severe
vibration found in demanding applications. However the glass panel used in an EL
display will break if subjected to bending stresses, high impact, or excessive loads.
CAUTION: To prevent injury in the event of glass breakage, the use of
an impact resistant shield or a protective overlay should be used on the
viewer side of the display.
Stresses are often introduced when a display is mounted into a product. Ideally,
the mounting tabs of the display should be the only point of contact with the
system. Use a spacer or boss for support; failure to do so will bend the display and
cause the glass to break. The instrument enclosure or frame should not flex
or distort in such a way that during use the bending loads might be transferred to
the display. Mounting surfaces should be flat to within ±0.6 mm (±0.025"). Use
all the mounting holes provided. Failure to do so will impair the shock and
vibration resistance of the final installation.
The EL552.256-Q2 is a tab-mounted display. Use standoffs of appropriate length
to assure that screws through the mounting tabs do not introduce bending stresses
to the display. Do not deflect the ECB out of its normal plane. The EL552.256-Q2
mounting tabs were designed for a 3 mm screw. The EL552.256-Q2 NE display
does not have mounting tabs. Contact Planar Applications Engineering for
information on mounting the EL552.256-Q2 NE display.
WARNING: These products generate voltages capable of causing
personal injury (high voltage pulses up to 230 VAC ). Do not touch the
display electronics during operation.
Cable Length
A maximum cable length of 0.6 m (24 in.) is recommended. Longer cables may
cause data transfer problems between the data transmitted and the display input
connector. Excessive cable lengths can pick up unwanted EMI. There are third
party products which allow this maximum cable length to be exceeded. Contact
Planar Application Engineering for more information.
Cleaning
As with any glass or coated surface, care should be taken to minimize scratching.
Clean the display glass with mild, water-based detergents only. Apply the cleaner
sparingly to a soft cloth, then wipe the display. Disposable cleaning cloths are
recommended to minimize the risk of inadvertently scratching the display with
particles embedded in a re-used cloth.
EL552.256-Q2 Operations Manual (OM410-00)
3
EL552.256-Q2
Avoiding Burn-In
As with other light emitting displays, displaying fixed patterns on the screen can
cause burn-in, where luminance variations can be noticed. Use a screen saver or
image inversion to avoid causing burn-in on the display.
Specifications
The EL panel is a matrix structure with column and row electrodes arranged in
an X-Y formation. Light is emitted when an AC voltage of sufficient amplitude
is applied at a row-column intersection. The display operation is based on the
symmetric, line-at-a-time data addressing scheme.
Performance characteristics are guaranteed when measured at 25 °C with rated
input voltage unless otherwise specified. Planar does not recommend operation of
the display outside these specifications.
Power-up Sequence
This display requires simultaneous 12V and 5V input in addition to video signals
for proper operation. It is important that your design provides these signals
simultaneously. If these signals are not simultaneous, they must meet the
sequential timing shown in Figure 1 below.
5V
V
L
0V
Logic
Signals
³
t1 0
t1³ 0
0V
12V
V
H
³
³
t2 0
t2
0
0V
Figure 1. Power Supply and Logic Signal Sequencing
Note: To ensure the long-term reliability of the display, the proper power-
up sequence must be used and the minimum and maximum
specifications in this manual should be met without exception.
All internal high voltages are generated from the display supply voltage (VH). The
logic supply voltage (VL) should be present whenever video input signals or
4
EL552.256-Q2 Operations Manual (OM410-00)
VH is applied. The minimum and maximum specifications in Table 1 should be
met, without exception, to ensure the long-term reliability of the display. The video
inputs, shown in Table 2, pass from the video source to the display through the
DC/DC converter.
Table 1. Video Input Voltage Requirements
Description
Min.
--
Max.
5.5
0.9
5.0
-0.4
10
Units
V
Maximum input voltage
Low-level input voltage (VIL)
High-level input voltage (VIH)
Low-level input current (IIL)
High-level input current (IIH)
Output high voltage (@ Ioh=0.4mA)
Output low voltage (@ Iol=2.1mA)
-0.3
3.7
--
V
V
mA
mA
V
--
2.4
--
--
0.4
V
All inputs are CMOS with 130 W series resistors, except VS, which is 1K W.
Connector
The EL552.256-Q2 display package includes a DC/DC converter and a cable for
connecting it to the display. As shown in Figure 2, the display is connected to the
converter (Connector J1 to J3) with the supplied cable, then the converter has a
connector (Connector J0) for interfacing with the customer design.
DISPLAY
Connectors
CONVERTER
J0 J3
JO
J3
J1
T&B Ansley 609-1630
T&B Ansley 609-2630
T&B Ansley 609-2030
J1
Figure 2. Connectors
Both the J0 and the J3 are low-profile male PCB header connectors with dual-row
contacts on 0.00" centers. Video signals and +12 V DC power are connected to
Connector J0 on the DC/DC through a 16-pin T & B Ansley connector, part
number 609-1630 or equivalent with the pin assignment shown in Table 2.
Table 2. Connector P0 Pinouts
Pin
1
Function
VH (+12V)
VL (+5V)
VID2
Pin
2
Function
VH (+12V)
VL (+5V)
VID1
3
4
5
6
7
Ground
VS
8
Ground
Ground
Ground
Ground
VID3
9
10
12
14
16
11
13
15
HS
VCLK
VID0
EL552.256-Q2 Operations Manual (OM410-00)
5
EL552.256-Q2
DC/DC Converter (Power Supply)
The display comes with the PS512-6, which is an efficient multiple-output DC-to-
DC switching power supply assembly. The power supply provides the unique
voltage requirements for EL displays. Its input voltages are +12V only or both
+12V and +5V.
EXT.
INT.
A square-pin jumper (J4) is provided to select between
these two input configurations and is in the +5V
position when the product is shipped.
Default Jumper Setting
The following table shows the input voltage for the PS512-6 power supply for the
+12V and the +12V/+5V configurations.
Table 3. Power Supply Input Voltages
+12V and +5V Input
Description
Name
VH
VH max
IH max
VL
Min.
10.8
---
---
4.75
---
Max.
13.2
15.0
0.9
5.25
7.5
Units
VDC
VDC
A
VDC
VDC
A
Input voltage: nom. = 12.0 V
Input voltage: absolute max.
Input current: max.
Input voltage: nom. = 5.0 V
Input voltage: absolute max.
Input Current max
VI max
IL max
---
0.1
+12V Only Input
Description
Name
VH
VH max
IH max
Min.
10.8
---
Max.
13.2
15.0
1.0
Units
VDC
VDC
A
Input voltage: nom. = 12.0 V
Input voltage: absolute max.
Input current: max.
---
Interface Information
This Planar EL display incorporates an interface that is similar to many LCD
interfaces. This interface is supported by a variety of off-the shelf chip sets which
take care of all display control functionality, freeing the system processor for other
tasks. Designers should select the chip set that best suits their particular
architecture and price point.
Video Input Signals
The VS signal may be independently set to a CMOS low level at any time for
longer than one frame period. During the time of VS inactivity the display is
blank. Halting VS results in a standby condition to minimize power usage.
6
EL552.256-Q2 Operations Manual (OM410-00)
The end of the top line of a frame is marked by VS, vertical sync signal as shown
in Figure 3. The end of each row of data is marked by HS.
Horizontal Timing
HS
3
6
VCLK
4
5
7
8
VID 0-3
Pixels: w x y z
Pixels: a b c d
Vertical Timing
VS
10
9
11
1
2
HS
First Line
VID Data
Figure 3. Video Input Timing Diagram
Timing is compatible with LCD graphics controllers such as the SMOS and C&T
display controllers.
Table 4. Video Input Descriptions
Num Description
Symbol
tHSh
Min.
20
Typ.
Max.
Units
nsec
nsec
nsec
nsec
nsec
nsec
nsec
nsec
nsec
nsec
nsec
nsec
usec
tHS
1
2
3
4
5
6
HS high time
HS hold after VCLK
HS setup to VCLK
VID setup to VCLK
VID hold from VCLK
Video clock period
VCLK rise, fall time
VCLK low width
VCLK high width
VS setup to HS
tHShd
20
tHSsu
20
tVIDsu
tVIDhd
tVCLK
tVCLKrf
tVCLKl
tVCLKh
tVSsu
20
20
100
15
7
8
9
15
15
140
140
10 VS hold after HS
11
tVShd
12 HS period
VS period
tHS
tVS
fVS
32.5
256
50
Frame Rate
120
Hz
EL552.256-Q2 Operations Manual (OM410-00)
7
EL552.256-Q2
Input signals VID0 through VID3 contain the video data for the screen. As shown
in Figure 4, pixel information is supplied from left to right and from top to bottom,
four pixels at a time. Video data for one row is latched on the fall of HS.
1,2,3,4
5,6,7,8
9,10,11,12 13,14,15,16
549, 550, 551, 552
Row 1
EL Panel
(Front)
5
1
2
3
4
9
549
550
551
552
13
14
VID3
VID2
VID1
VID0
10
6
7
8
15
16
11
12
Figure 4. Pixel Location vs. Sequence of Data
Self-Test Mode
The display will enter the self-test mode if all seven video inputs (VCLK, HS, VS,
and VID0 through VID3) are high for longer then 2.5 seconds at power up. The
self-test scans at 100 Hz with a diagonal pattern that changes back and forth every
2.5 seconds from 3 pixels on/1 pixel off to 1 pixel on/3 pixels off.
After the self-test, turn the display off and wait at least 15 seconds before
reapplying power to allow the internal capacitors to completely discharge. When
you turn the display on again, apply video signals in less than 2.5 seconds after
power up to enter normal operation.
8
EL552.256-Q2 Operations Manual (OM410-00)
Optical
Table 5. Optical Specifications
Luminance
Lon (areal), min
Lon (areal), typ
Loff (pixel), max
34.5 cd/m²
50 cd/m²
0.2 cd/m²
screen center, 120 Hz frame rate
screen center, 120 Hz frame rate
5 points: center plus four corners measured
1.0 ± 0.025" from adjacent display edges, 120 Hz
Non-uniformity
All pixels fully lit
26%
Maximum difference two of five points, using
the formula:
LNU%=[1- (min_lum/max_lum)] x 100
Luminance Variation (Temperature)
Maximum
Across operating temperature range
±15%
Luminance Variation (Time)
Maximum
<10%
15,000 hours at 25 °C ambient
Viewing Angle
Minimum
>160°
Contrast Ratio
Minimum
Typical
20:1
40:1
@ 500 lux ambient, 120 Hz frame rate
Generating Grayscales
Some applications may benefit by using grayscales. The Q2 has a maximum
frame rate frequency of 120 Hz. Using the higher frame rate, combined with
flat panel controllers designed for this faster display, it is possible to generate
usable grays through frame rate control and dithering. Video controllers from
manufacturers such as C&T, SMOS, and Cirrus Logic use these methods with
proprietary algorithms to generate grayscales.
The response time of electroluminescent displays is much faster than LCDs,
therefore not all possible grayscales generated by the video controller are
actually usable. Many of the grayscales may flicker or swim. Careful testing is
necessary to select appropriate grayscales for an application, especially when the
electroluminescent displays are driven at less than their maximum frame rate.
For additional information, refer to Planar Application Note 119, Generating
Grayscales, or contact Planar’s Application Engineering.
EL552.256-Q2 Operations Manual (OM410-00)
9
EL552.256-Q2
Environmental
Table 6. Environmental Specifications
Operating
Non-operating
0 to +65 °C
-40 °C to +75 °C
Temperature*
Humidity
Non-condensing
to 93% RH max @40 ºC,
per IEC 68-2-3
Altitude
Tested per IEC 68-2-13
16,000 ft. (4.8 km)
58,000 ft. (17.7 km)
Vibration (random)
(Operating/non-
operating)
0.02 g2/Hz at 20-500 Hz for 30 minutes on each
axis, per IEC 68-2-36, test Fdb.
Mechanical Shock
Operating/non-operating
50 g with 11 ms duration, half sine wave, 3
shocks on each of 6 surfaces, per IEC 68-2-27,
test Ea.
* The EL display will function at operating survival temperatures (-20 to +70 °C) for a
24-hour period and incur no damage, but may not meet some specifications above the
+65°C operating limit.
Reliability
The display mean time between failure (MTBF) is demonstrated to be greater than
30,000 hours at 25 °C ambient with a 90% confidence level.
Safety and EMI Performance
The display will not inhibit the end product from obtaining UL1950, CSA950,
or IEC 601-1 safety certification.
When housed in a suitable enclosure, the display is capable of being operated in a
final product that complies with CISPR 11 level B, IEC 801-2 (ESD), and IEC
801-3 (EMI susceptibility).
10 EL552.256-Q2 Operations Manual (OM410-00)
Mechanical Specifications
Table 7. Mechanical Specifications
Display External Dimensions
Height
w/o mounting tabs
Width
109.73 (4.32)
98.68 (3.885)
176.78 (6.96)
16.26 (0.64)
millimeters (inches)
Depth*
DC/DC Converter Dimensions
Height
Width
Length
19.05 (0.750)
50.8 (2.0)
133.35 (5.250)
Display Weight
262 grams (0.6 lbs.), nominal
9.33 grams (0.187 lbs.)
59.2% nominal
DC/DC Converter Weight
Fill Factor
Active Area
Width
67.564 (2.660)
Height
Diagonal
145.745 (5.738)
6.33"
millimeters (inches)
Pixel Size
Width
Height
0.203 (0.008)
0.203 (0.008)
millimeters (inches)
Pixel Pitch
Width
Height
0.264 (0.0104)
0.264 (0.0104)
millimeters (inches)
* Without DC/DC Converter
Component Envelope
The component envelope shown in Figure 5 illustrates the distance components
extend behind the display. Tall components do not necessarily fill this area. Planar
reserves the right to relocate components within the constraints of the component
envelope without prior customer notification. For this reason, Planar advises users
to design enclosure components to be outside the component envelope.
An air gap of at least 5 mm is recommended to dissipate heat from display
components. Device designers will need to consider their specific system
requirements to determine the necessary spacing.
EL552.256-Q2 Operations Manual (OM410-00)
11
EL552.256-Q2
Dimensions of the display are in millimeters; inches are in brackets. Dimensions of the DC/DC
Converter are in inches; millimeters in brackets. Some hidden lines are omitted for clarity.
Figure 5. Display Dimensions
Note: The dimensions in this drawing are approximate. Please contact Planar
Applications Engineering to request the actual drawing prior to beginning your design.
12 EL552.256-Q2 Operations Manual (OM410-00)
Description of Warranty
This description is not the full warranty, and should not be construed as a substitute for the full warranty.
A copy of the full warranty is available upon request.
Planar warrants that the goods it sells will be free of defects in materials and workmanship, and that these
goods will substantially conform to the specifications furnished by Planar, and to any drawings or
specifications furnished to the Seller by the Buyer if approved by the Seller. This warranty is effective only
if Planar receives notice of such defect or non-conformance during the period of warranty, which begins the
day of delivery.
The goods Planar sells are warranted for a period of one year unless otherwise agreed to by Planar and the
Buyer. The Buyer must return the defective or non-conforming goods, upon request, to Planar not later
than 30 days after Planar’s receipt of notice of the alleged defect or non-compliance. Buyer shall prepay
transportation charges, and Planar shall pay for return of the goods to the Buyer. No goods are to be
returned to Planar without prior permission.
The warranty does not apply in cases of improper or inadequate maintenance by the Buyer, unauthorized
modification of the goods, operation of the goods outside their environmental specifications, neglect or
abuse of the goods, or modification or integration with other goods not covered by a Planar warranty when
such modification or integration increases the likelihood of damage of the goods.
Ordering Information
Product
Part Number
Description
EL552.256-Q2
996-0245-02
EL552.256-Q2 ICEBrite display, operating
temperature range 0 to +65 °C.
EL552.256-Q2 NE
996-0245-03
EL552.256-Q2 flat panel display assembly with
mounting tabs removed.
Design and specifications are subject to change without notice.
Planar Systems continues to provide optional, and in many cases custom, features to address the specific
customer requirements. Consult Planar Sales for pricing, lead time and minimum quantity requirements.
Support and Service
Planar Systems, Inc. is a US company based in Beaverton, Oregon and Espoo, Finland, with a world-wide
sales distribution network. Full application engineering support and service are available to make the
integration of Planar displays as simple and quick as possible for our customers.
RMA Procedure: For a Returned Material Authorization number, please contact Planar Systems, Inc.
with the model number(s) and serial number(s). When returning goods for repair, please include a brief
description of the problem, and mark the outside of the shipping container with the RMA number.
North & South America OEM Sales
Europe & Asia-Pacific OEM Sales
Federal & End-User System Sales
Planar Systems, Inc.
1400 NW Compton Drive
Beaverton, OR 97006-1992
Planar Systems, Inc.
P.O. Box 46
Olarinluoma 9
Planar Advance, Inc.
P.O. Box 4001
13950 Karl Braun Drive
Beaverton, OR 97076-4001
FIN-02201 Espoo, Finland
Tel. (503) 690-1100
Fax (503) 690-1493
Tel. +358-9-42 0010
Fax +358-9-422 143
Tel. (503) 614-4111
Fax (503) 614-4101
Visit the Planar website at h ttp :/ / www.p la n a r.com for Application Notes and other Operating Manuals
OM410-00
|