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NIDL

NIDL evaluated the thin, large screen, flat panel Pioneer 50 inch plasma display
panel (PDP) to determine its usefulness to the display of images that are of
interest to imagery analysts and GI specialists. As NIDL’s ratings show, the
Pioneer PDP-502MX is not going to be useful as the primary imagery analysis
display on an IEC workstation. It fails many of the IEC requirements so we rate
it “F” for IEC workstation monoscopic and stereo applications. Rather, its
usefulness comes from its large, 50 inch diagonal size and its high pixel count
for a PDP, up to 1280 x 768 pixels in the 16:9 and 1024 x 768 pixels in the 4:3
format, that could make it appropriate for group conference discussions. The
Pioneer PDP-502MX has a relatively good gray scale capability; it can display
245 of 256 differences in input levels for a 7.94 bit depth. Its linearity surpasses
that we have measured for CRT monitors, and comes about because of its
precisely formed pixel structure. This pixel structure, like in LCD monitors, can
have several non-operating pixels. It has a very high (exceeds 60% over the
entire screen) and a very uniform 1-pixel-on/1-pixel-off contrast modulation for
both the horizontal and vertical directions. The PDP can have a maximum
luminance up to 40 fL for a small patch of white, and a minimum luminance of
0.2 fL. For full screen white, its luminance is 18 fL, limited by internal circuitry
to minimize panel heat generation and its luminance is more uniform than a
CRT monitor. The reflectivity and viewing angle are about the same as for a
CRT monitor. It has a capability to do stereo imaging at 43 Hz per eye, which is
on the borderline of visible flicker, and its dynamic range in stereo is good. The
extinction ratio is poor, and is probably limited by the long persistence of the
green phosphor. Most who have seen the Pioneer PDP-502MX would love to
have one, at least for football games. The price is about $18,000.

Evaluation of the
Pioneer PDP-502MX
4 x 3 Aspect Ratio, 50 inch Diagonal
Color Plasma Display Panel
National Information Display Laboratory
P. O. Box 8619
Princeton, NJ 08543-8619
Tel: (609) 951-0150
Fax: (609) 734-2313
e-mail: nidl@nidl.org
Publication No. 730081200-116

December 30, 2000
NOTICE:
The National Information Display Laboratory (NIDL) at the Sarnoff Corporation prepared this report. Neither the
NIDL nor any person acting on their behalf:
A. Makes any warranty or representation, expressed or implied, with respect to the use of any information contained
in this report, or that the use of any information, apparatus, method, or process disclosed in this report is free from
infringement of any third party rights; or
B. Makes any endorsement of any of the products reported on herein; or
C. Assumes any liabilities with respect to the use of, or for damages resulting from the use of, any information,
apparatus, method, or process disclosed in this report.

Report Documentation Page
Report Date
30 Dec 2000

Report Type
N/A

Dates Covered (from... to)
-

Title and Subtitle
Contract Number
Evaluation of the Pioneer PDP-502MX 4 x 3 Aspect Ratio,
Grant Number
50 Inch Diagonal Color Plasma Display Panel
Program Element Number
Author(s)

Project Number
Task Number
Work Unit Number

Performing Organization Name(s) and Address(es)
National Information Display Laboratory P.O. Box 8619
Princeton, NJ 08543-8619

Performing Organization Report Number

Sponsoring/Monitoring Agency Name(s) and
Address(es)

Sponsor/Monitor’s Acronym(s)
Sponsor/Monitor’s Report Number(s)

Distribution/Availability Statement
Approved for public release, distribution unlimited
Supplementary Notes
Per conversation with Ronald Enstrom this document is public release, The original document contains color
images.
Abstract
Subject Terms
Report Classification
unclassified

Classification of this page
unclassified

Classification of Abstract
unclassified

Limitation of Abstract
UU

Number of Pages
44

Pioneer PDP-502MX 50 inch Color Plasma Display Panel

-i-

CONTENTS
NIDL IEC Monitor Certification Report ............................................................. ii
Evaluation Datasheet............................................................................................ iii
Section I INTRODUCTION .................................................................................1
I.1 The Pioneer PDP-502MX Plasma Display Panel............................................2
Additional Information Supplied by Manufacturer ........................................3
I.2. Initial Monitor Set Up.....................................................................................4
I.3. Equipment .......................................................................................................4
Section II PHOTOMETRIC MEASUREMENTS..............................................5
II.1.
II.2.
II.3.
II.4.
II.5.
II.6.
II.8.
II.9.
II.10.
II.11.
II.12.
II.13.
II.14.
II.15.
II.16.
II.17.
II.18.
II.19.
II.20.

Dynamic range and Screen Reflectance ......................................................5
Maximum Luminance (Lmax) .....................................................................7
Luminance (Lmax) and Color Uniformity...................................................9
Halation ..................................................................................................... 11
Color Temperature .................................................................................... 13
Bit Depth ................................................................................................... 14
Luminance Step Response ........................................................................ 18
Addressability ........................................................................................... 21
Pixel Aspect Ratio..................................................................................... 22
Screen Size (Viewable Active Image) ...................................................... 23
Contrast Modulation and RAR ................................................................. 24
Pixel Density ............................................................................................. 27
Moiré ......................................................................................................... 28
Straightness ............................................................................................... 29
Refresh Rate .............................................................................................. 32
Extinction Ratio ........................................................................................ 33
Linearity .................................................................................................... 36
Jitter/Swim/Drift ....................................................................................... 39
Warm-up Period ........................................................................................ 41

Use or disclosure of data on this sheet is subject to the restrictions on the cover and title of this report.

ii-

NIDL

NIDL IEC Monitor Certification Report
The Pioneer PDP-502MX Plasma Display Panel
FINAL GRADES
Monoscopic Mode: F
Stereoscopic Mode: F
A = Substantially exceeds IEC Requirements; B = Meets IEC Requirements; C = Nearly
meets IEC Requirements; F = Fails to meet IEC Requirements in a substantial way.
NIDL evaluated the thin, large screen, flat panel Pioneer 50 inch plasma display panel (PDP) to
determine its usefulness to the display of images that are of interest to imagery analysts and GI
specialists. As NIDL’s ratings show, the Pioneer PDP-502MX is not going to be useful as the
primary imagery analysis display on an IEC workstation. It fails many of the IEC requirements so
we rate it “F” for IEC workstation monoscopic and stereo applications. Rather, its usefulness
comes from its large, 50 inch diagonal size and its high pixel count for a PDP, up to 1280 x 768
pixels in the 16:9 and 1024 x 768 pixels in the 4:3 format, that could make it appropriate for
group conference discussions. The Pioneer PDP-502MX has a relatively good gray scale
capability; it can display 245 of 256 differences in input levels for a 7.94 bit depth. Its linearity
surpasses that we have measured for CRT monitors, and comes about because of its precisely
formed pixel structure. This pixel structure, like in LCD monitors, can have several nonoperating pixels. It has a very high (exceeds 60% over the entire screen) and a very uniform 1pixel-on/1-pixel-off contrast modulation for both the horizontal and vertical directions. The PDP
can have a maximum luminance up to 40 fL for a small patch of white, and a minimum
luminance of 0.2 fL. For full screen white, its luminance is 18 fL, limited by internal circuitry to
minimize panel heat generation and its luminance is more uniform than a CRT monitor. The
reflectivity and the viewing angle are about the same as for a CRT monitor. It has a capability to
do stereo imaging at 43 Hz per eye, which is on the borderline of visible flicker, and its dynamic
range in stereo is good. The extinction ratio is poor, and is probably limited by the long
persistence of the green phosphor. Most who have seen the Pioneer PDP-502MX would love to
have one, at least for football games. The price is about $18,000.

Use or disclosure of data on this sheet is subject to the restrictions on the cover and title of this report.

Pioneer PDP-502MX 50 inch Color Plasma Display Panel

-iii-

Evaluation Datasheet
Pioneer PDP-502MX Plasma Display Panel Monitor
Mode

IEC Requirement

Measured Performance

Compliance

MONOSCOPIC
Addressability
Dynamic Range

1024 x 1024 min.
24.7dB

1024 x 768 *
19.2 dB

Fail
Fail

Luminance (Lmin)
Luminance (Lmax)

0.1 fL ± 4% min.
30 fL, min

0.210 fL
17.6 fL, full screen
40.1 fL 20% of screen size
4.4%
6.62% ± 0.3
6513
5.14%
7.94 effective bits
Smearing
0.006 delta u'v'

Fail
Fail

Uniformity (Lmax)
Halation
Color Temp
Reflectance
Bit Depth
Step Response
Uniformity (Chromaticity)
Pixel Aspect Ratio
Screen Size, viewable diagonal
Cm, Zone A, 7.6"
Cm, Zone A, 20.7”
Cm, Zone B
Pixel Density
Moiré, phosphor-to-pixel spacing
Straightness
Linearity
Jitter
Swim, Drift
Warm-up time, Lmin to +/- 50%
Warm-up time, Lmin to +/- 10%
Refresh
STEREOSCOPIC
Addressability
Lmin
Lmax
Dynamic range
Uniformity (Chromaticity)
Refresh rate
Extinction Ratio

20% max.
3.5% max.
6500 to 9300 K
Not specified
8-bit± 5 counts
No visible ringing
0.010 delta u'v' max.
± 0.005 delta u’v’
Square
H = V± 6%
17.5 to 24 inches
± 2 mm
25% min.
25% min.
20% min.
72 ppi min.
1.0 max
0.5% max
± 0.05 mm
1.0% max
± 0.05 mm
2 ± 2 mils max.
5 ± 2 mils max.
30 mins. Max
± 0.5 minute
60 mins. Max
± 0.5 minute
72 ±1 Hz min.
60 ±1 Hz absolute min.
1024 x 1024 min.
0.1 fL
6 fL min ± 4%
17.7 dB min
0.02 delta u'v' max
± 0.005 delta u’v’
60 Hz per eye, min
15:1 min

Pass
Fail
Pass
N/A
Fail
Fail
Pass

21.58 H x 20.32 V (mils)
H = V+ 6.2%
42 inches as tested
50 inches maximum
63%
62%
62%
30 H x 32 V ppi
1.0
0.05%

Fail

Pass
Pass
Pass
Fail
Pass
Pass

0.04%

Pass

0.74 mils
0.65 mils
<1.0 mins.

Pass
Pass
Pass

<1.0 min.

Pass

Set to 75Hz

Pass

1024 x 768 interlaced
1024 x 384 per eye
0.21 fL
2.26 fL
20.3 dB
0.007 delta u'v'

Fail
Fail
Fail
Pass
Pass

43 Hz per eye
1.6:1

Fail
Fail

Fail

* As tested in 4:3 mode. Native addressability is 1280 x 768 pixels in 16:9 mode.

Use or disclosure of data on this sheet is subject to the restrictions on the cover and title of this report.

Pioneer PDP-502MX 50 inch Color Plasma Display Panel

-1-

Section I INTRODUCTION
The National Information Display Laboratory (NIDL) was established in 1990 to bring together
technology providers - commercial and academic leaders in advanced display hardware, softcopy
information processing tools, and information collaboration and communications techniques with government users. The Sarnoff Corporation in Princeton, New Jersey, a world research
leader in high-definition digital TV, advanced displays, computing and electronics, hosts the
NIDL.
The present study evaluates a production unit of the Pioneer PDP-502MX Plasma Display Panel.
This report is intended for both technical users, such as system integrators, monitor designers,
and monitor evaluators, and non-technical users, such as image analysts, software developers, or
other users unfamiliar with detailed monitor technology.
The IEC requirements, procedures and calibrations used in the measurements are detailed in the
following:
•

NIDL Publication No. 0201099-091, Request for Evaluation Monitors for the National
Imagery & Mapping Agency (NIMA) Integrated Exploitation Capability (IEC), August 25,
1999.

Two companion documents that describe how the measurements are made are available from the
NIDL and the Defense Technology Information Center at http://www.dtic.mil:
•

NIDL Publication No. 171795-036 Display Monitor Measurement Methods under
Discussion by EIA (Electronic Industries Association) Committee JT-20 Part 1:
Monochrome CRT Monitor Performance Draft Version 2.0. (ADA353605)

•

NIDL Publication No. 171795-037 Display Monitor Measurement Methods under
Discussion by EIA (Electronic Industries Association) Committee JT-20 Part 2: Color CRT
Monitor Performance Draft Version 2.0. (ADA341357)

Other procedures are found in a recently approved standard available from the Video Electronics
Standards Association (VESA) at http://www.vesa.org:
•

VESA Flat Panel Display Measurements Standard, Version 1.0, May 15, 1998.

The IEC workstation provides the capability to display image and other geospatial data on either
monochrome or color monitors, or a combination of both. Either of these monitors may be
required to support stereoscopic viewing. Selection and configuration of these monitors will be
made in accordance with mission needs for each site. NIMA users will select from monitors
included on the NIMA-approved Certified Monitor List compiled by the NIDL. The color and
monochrome, monoscopic and stereoscopic, monitor requirements are listed in the Evaluation
Datasheet.

Use or disclosure of data on this sheet is subject to the restrictions on the cover and title of this report.

-2-

NIDL

I.1 The Pioneer PDP-502MX Plasma Display Panel
Pioneer’s Specifications
According to Pioneer, the specifications for the Pioneer PDP-502MX Plasma Display Panel are:
TYPE

VIDEO INPUT

PDP
Pixels
Pixel Pitch
Display Area
Aspect Ratio
Viewing Angle
Standards

Compatibility
Frequency
AUDIO
CONNECTORS

Speakers
Amplifier
Video
Audio
Controls

POWER

Input
Consumption
USER CONTROLS Side Panel
Remote
Picture Mode
Screen Mode
DIMENSIONS

External

WEIGHT

Net
With Stand
Temperature
Pressure
Humidity
US

OPERATING
RANGE
PRICE

256 gray scale, 16.7 million colors
1280 (Horizontal.) x 768 (Vertical.)
0.858mm (Hor/RGB trio) x 0.808mm (Ver)
50" diagonal viewable area
4:3 and 16:9
< 160 degrees horizontal, < 160 degrees vertical
Composite, Y/C & S-Video, RGBHV, Analog RGB
3.58 NTSC, PAL, SECAM, 4.43 NTSC, SDTV,
HDTV, VESA DDC 1/2B
PC, Mac®, 640 x 400 up to 1600 x 1280
Fhorizontal is 24.8-91.1kHz, Fvertical is 56-85Hz,
and 35.5 and 46.4 kHz, 43Hz interlace
Two 12-watt (optional on sides, adds 11 lbs. 14 oz.)
2W+2W Stereo
BNC, Mini DIN 4 pin, Mini D-sub 15 pin, BNC
(x5)
2 pin jacks for audio in, Stereo mini jack for audio
in, stereo mini jack for audio out
RS-232C D-sub, 9-pin, In/Out Mini-DIN, 6 pin;
In/Out Monaural mini-jack (x2)
100-120VAC 50/60Hz
470W, Standby: 0.6 W
Standby/On, Input, Menu, Set, Size, Display
Standby/On, Input, Menu, Adjust, Set, Size, Muting,
Volume, Display
Contrast, Bright, Color, Tint, Sharp, R Level, G
Level, B Level
H-Position, V-Position, V-Size, Clock Frequency,
Clock Phase
1218mm (W) x 714mm (H) x 98mm (D)
(47 31/32" x 28 1/8" x 3 7/8")
40.3Kg. (88.77 lbs.)
41.0Kg. (90.44 lbs.)
0 to 40° C, (32 to 104° F)
0.8 to 1.1 atmospheres
20% to 80%
$19,995

Use or disclosure of data on this sheet is subject to the restrictions on the cover and title of this report.

Pioneer PDP-502MX 50 inch Color Plasma Display Panel

-3-

Additional Information Supplied by Manufacturer
•

Pioneer PDP-502MX Flat Screen Plasma Display Panel (PDP). Large-screen PDP
units boast ultra-slim dimensions, are surprisingly light in weight and deliver superb
picture quality -- a combination of features that open up a host of opportunities in the
visual presentation field, especially in the current HDTV/DVD era. Pioneer's nextgeneration PDP technology has established itself as a core element in all kinds of public
display and visual communications systems. The PDP-502MX with its further improved
picture quality and durability represents a major triumph for Pioneer, which has continued
to lead the industry in developing and mass producing PDPs.

Newly Developed Panel Pushes the Previous Limits of Illumination Efficiency. New
True Matrix imaging technology makes on-screen images brighter than ever. Pioneer’s
newly developed Encased Cell Structure ensures superior illumination efficiency by
increasing phosphor surface area and eliminating light leakage from the neighboring above
and below cells, thereby improving clarity in the vertical direction. In addition, this
arrangement increases the amount of light produced resulting in brighter on-screen images.
• Black Stripes Greatly Improve Contrast, especially in Bright Locations. The new
black stripes on the panel's non-luminous front section reduce the amount of external light
reflected off the screen surface to effectively double the on-screen image contrast when the
display is used in bright locations. Thanks to this innovation, viewers can enjoy sharp
pictures, even under bright ambient lighting conditions, with no reduction in black
contrast.
• Improved Blue Phosphor Makes On-Screen Whites Even Whiter. Pioneer’s new
plasma display achieves more brilliant white reproduction thanks to the employment of an
improved blue phosphor that features an improved illumination efficiency balance. The
color temperature can be set by changing the color balance controls. * Our new phosphor
development brings enhanced white reproduction and sharper contrast to every image.
*These values have individually adjusted high and low levels. Once adjusted, color balance
settings can be set into one of two color memories for each type of input. All of these
adjustments can be done via a wireless remote or RS-232C control.
•

Use or disclosure of data on this sheet is subject to the restrictions on the cover and title of this report.

-4-

NIDL

I.2. Initial Monitor Set Up
Reference: Request for Evaluation Monitors, NIDL Pub. 0201099-091, Section 5, p 5.
All measurements will be made with the display commanded through a laboratory grade
programmable test pattern generator. The system will be operated in at least a 24 bit mode (as
opposed to a lesser or pseudo-color mode) for color and at least 8 bits for monochrome. As a first
step, refresh rate should be measured and verified to be at least 72 Hz. The screen should then be
commanded to full addressability and Lmin set to 0.1 fL. Lmax should be measured at screen
center with color temperature between D65 and D93 allowable and any operator adjustment of
gain allowable. If a value >35fL is not achieved (>30 fL for color), addressability should be
lowered. For a nominal 1600 by 1200 addressability, addressability should be lowered to 1280 by
1024 or to 1024 by 1024. For a nominal 2048 by 2560 addressability, addressabilities of 1200 x
1600 and 1024 x 1024 can be evaluated if the desired Lmax is not achieved at full addressability.

I.3. Equipment
Reference: Monochrome CRT Monitor Performance, Draft Version 2.0 Section 2.0, page 3.
The procedures described in this report should be carried out in a darkened environment such
that the stray luminance diffusely reflected by the screen in the absence of electron-beam
excitation is less than 0.003 cd/m2 (1mfL).
Instruments used in these measurements included:
•
Quantum Data 8701 400 MHz programmable test pattern signal generator
•
Quantum Data 903 250 MHz programmable test pattern signal generator
•
Photo Research SpectraScan PR-650 spectroradiometer
•
Photo Research SpectraScan PR-704 spectroradiometer
•
Minolta LS-100 Photometer
•
Minolta CA-100 Colorimeter
•
Graseby S370 Illuminance Meter
•
Microvision SuperSpot 100 Display Characterization System which included OM-1 optic
module (Two Dimensional photodiode linear array device, projected element size at
screen set to 1.3 mils with photopic filter) and Spotseeker 4-Axis Positioner
Microvision SuperSpot 220 with LCD Goniometer
Stereoscopic-mode measurements were attempted using the following commercially-available
stereo products:
•
StereoGraphics CE-3 CrystalEyes 3 eyewear and the ENT infrared emitter.

Use or disclosure of data on this sheet is subject to the restrictions on the cover and title of this report.

Pioneer PDP-502MX 50 inch Color Plasma Display Panel

-5-

Section II PHOTOMETRIC MEASUREMENTS
II.1. Dynamic range and Screen Reflectance
References:

Request for Evaluation Monitors, NIDL Pub. 0201099-091, Section 5.6, p 6.
VESA Flat Panel Display Measurements Standard, Version 1.0, May 15, 199,
Section 308-1.

Full screen white-to-black dynamic range in a dark room in 1024 x 768 format is 19.2 dB limited
by the inability to reduce Lmin below 0.21 fL and the inability to increase Lmax beyond 17.6 fL.
Objective:

Measure the photometric output (luminance vs. input command level) at Lmax
and Lmin in both dark room and illuminated ambient conditions.

Equipment:

Photometer, Integrating Hemisphere Light Source or equivalent

Procedure:

Luminance at center of screen is measured for input counts of 0 and Max Count.
Test targets are full screen (flat fields) where full screen is defined addressability.
Set Lmin to 0.1 fL. For color monitors, set color temperature between D65 to D93.
Measure Lmax.
This procedure applies when intended ambient light level measured at the display
is 2fc or less. For conditions of higher ambient light level, Lmin and Lmax should
be measured at some nominal intended ambient light level (e.g., 18-20 fc for
normal office lighting with no shielding). This requires use of a remote spot
photometer following procedures outlined in reference 2, paragraph 308-2. This
will at best be only an approximation since specular reflections will not be
captured. A Lmin > 0.1 fL may be required to meet grayscale visibility
requirements.
According to the VESA directed hemispherical reflectance (DHR) measurement
method, total combined reflections due to specular, haze and diffuse components
of reflection arising from uniform diffuse illumination are simultaneously
quantified as a fraction of the reflectance of a perfect white diffuse reflector using
the set up depicted in figure II.1-1. Total reflectance was calculated from
measured luminances reflected by the screen (display turned off) when uniformly
illuminated by an integrating hemisphere simulated using a polystyrene icebox.
Luminance is measured using a spot photometer with 1° measurement field and an
illuminance sensor as depicted in Figure II.1-1. The measured values and
calculated reflectances are given in Table II.1-1.

Data:

Define dynamic range by:

DR=10log(Lmax/Lmin)

Use or disclosure of data on this sheet is subject to the restrictions on the cover and title of this report.

-6-

NIDL
Illuminance sensor
White polystyrene box

0°

8°
Monitor
under
test

Photometer
Halogen lamps, total four,
(1 each corner)
- Top View -

Figure II.1-1. Test setup according to VESA FPDM procedures for measuring
total reflectance of screen.
Table II.1-1. Directed Hemispherical Reflectance of Faceplate
VESA ambient contrast illuminance source (polystyrene box)
Ambient Illuminance
Reflected Luminance
Faceplate Reflectance

20.0 fc
1.03 fL
5.14 %

Ambient dynamic ranges of full screen white-to-black given in Table II.1-2 were computed for
various levels of diffuse ambient lighting using the measured value for DHR and the darkroom
dynamic range measurements. Full screen white-to-black dynamic range is 19.2 dB in a dark
room (the absolute threshold for IEC is 22 dB) and drops further when viewed in diffuse ambient
illumination.
Table II.1-2.Dynamic Range in Dark and Illuminated Rooms
Effect of ambient lighting on dynamic range is calculated by multiplying the measured
display faceplate reflectivity times the ambient illumination measured at the screen in foot candles added to the
minimum screen luminance, Lmin, where Lmin = 0.21 fL.
Ambient Illumination
0 fc (Dark Room)
1 fc
2 fc
3 fc
4 fc
5 fc
6 fc
7 fc
8 fc
9 fc
10 fc

Dynamic Range
19.2 dB
18.3 dB
17.5 dB
16.9 dB
16.3 dB
15.8 dB
15.4 dB
15.0 dB
14.6 dB
14.3 dB
14.0 dB

Use or disclosure of data on this sheet is subject to the restrictions on the cover and title of this report.

Pioneer PDP-502MX 50 inch Color Plasma Display Panel

-7-

II.2. Maximum Luminance (Lmax)
References:

Request for Evaluation Monitors, NIDL Pub. 0201099-091, Section 5.2, p 6.

The highest luminance for full screen at Lmax was 17.6 fL measured at screen center in 1024 x
768 format. The luminance of smaller white targets was much greater than full screen
luminance. Luminances as high as 40.1 fL were measured for small white patches that were
reduced to only 20% of the image area.
Objective:

Measure the maximum output display luminance.

Equipment:

Photometer

Procedure:

See dynamic range. Use the value of Lmax defined for the Dynamic Range
measurement.

Data:

The maximum output display luminance, Lmax, and associated CIE x, y
chromaticity coordinates (CIE 1976) were measured using a hand-held
colorimeter (Minolta CA-100). The correlated color temperature (CCT)
computed from the measured CIE x, y chromaticity coordinates was within range
specified by IEC (6500K and 9300K).
Table II.2-1. Maximum Luminance and Color of Full Screen White
Color and luminance (in fL) for Full screen at 100% Lmax taken at screen center.

Format
1024 x 768

CCT
6513

CIE x
0.312

CIE y
0.333

Luminance
17.6

Use or disclosure of data on this sheet is subject to the restrictions on the cover and title of this report.

-8-

NIDL
Luminance Loading
45
40
35

Luminance (fL)

30
25
20
15
10
5
0
0%

25%

50%

75%

100%

White Target Size (in Percentage of Total Image Area)

Figure II.2-1. The luminance of white varies inversely with the target size. The IEC
luminance requirement is for full screen.

Use or disclosure of data on this sheet is subject to the restrictions on the cover and title of this report.

Pioneer PDP-502MX 50 inch Color Plasma Display Panel

-9-

II.3. Luminance (Lmax) and Color Uniformity
Reference: Monochrome CRT Monitor Performance, Draft Version 2.0, Section 4.4, p. 28.
Maximum luminance (Lmax) varied by up to 4.4% across the screen. Chromaticity variations
were less than 0.006 delta u'v' units.
Objective:

Measure the variability of luminance and chromaticity coordinates of the white
point at 100% Lmax only and as a function of spatial position. Variability of
luminance impacts the total number of discriminable gray steps.

Equipment: • Video generator
• Photometer
• Spectroradiometer or Colorimeter
Test Pattern: Full screen flat field with visible edges at Lmin as shown in Figure II.3-1.
H
10% H
10D

12
Minor

Center

Full Screen Flat Field test pattern.
Figure II.3-1
Procedure:

10% V

Major

Nine screen test locations.
Figure II.3-2

Investigate the temporal variation of luminance and the white point as a function
of intensity by displaying a full flat field shown in Figure II.3-1 for video input
count levels corresponding Lmax. Measure the luminance and C.I.E. color
coordinates at center screen.
Investigate the temporal variation of luminance and the white point as a function
of spatial position by repeating these measurements at each of the locations
depicted in Figure II.3-2. Define color uniformity in terms of u´v´.

Data:

Tabulate the luminance and 1931 C.I.E. chromaticity coordinates (x, y) or
correlated color temperature of the white point at each of the nine locations
depicted in Figure II.3-2. Additionally, note the location of any additional points
that are measured along with the corresponding luminance values.

Use or disclosure of data on this sheet is subject to the restrictions on the cover and title of this report.

-10-

NIDL
Table II.3-1.Spatial Uniformity of Luminance and Color
Color and luminance (in fL) for Full screen taken at nine screen positions.

POSITION
center
2
3
4
6
8
9
10
12

1024 x 768
CIE x
0.312
0.314
0.314
0.317
0.313
0.316
0.312
0.316
0.314

CCT
6513
6420
6413
6273
6460
6338
6535
6338
6407

CENTER

CIE y
0.333
0.331
0.332
0.329
0.333
0.327
0.330
0.327
0.333

L, fL
17.6
18.2
17.8
18.1
18.1
17.8
17.5
17.4
18.1

Key to clock
positions used
in the tables

1024 x 768

u
c
(Ö
c

/HIW
7RS

&HQWHU
&HQWHU

5LJKW

%RWWRP

+;
0)

-o

/HIW
7RS

&HQWHU
&HQWHU

5LJKW
%RWWRP

Fig.II.3-3. Spatial Uniformity of Luminance and Chromaticity.
(Delta u'v' of 0.004 is just visible.)

Use or disclosure of data on this sheet is subject to the restrictions on the cover and title of this report.

Pioneer PDP-502MX 50 inch Color Plasma Display Panel

-11-

II.4. Halation
Reference: Monochrome CRT Monitor Performance, Draft Version 2.0 Section 4.6, page 48.
Halation was 6.62 % +/- 0.5% on a small black patch surrounded by a large full white area.
Objective:

Measure the contribution of halation to contrast degradation. Halation is a
phenomenon in which the luminance of a given region of the screen is increased
by contributions from surrounding areas caused by light scattering within the
phosphor layer and internal reflections inside the glass faceplate. The
mechanisms that give rise to halation, and its detailed non-monotonic dependence
on the distance along the screen between the source of illumination and the region
being measured have been described by E. B. Gindele and S.L. Shaffer. The
measurements specified below determine the percentage of light that is piped into
the dark areas as a function of the extent of the surrounding light areas.

Equipment: •
•

Photometer
Video generator

Test Pattern:
Surround
(L white)

0.01% screen area
11-pixel square
(L black)

Figure II.4-1 Test pattern for measuring halation.
Procedure:

Note: The halation measurements require changing the setting of the
BRIGHTNESS control and will perturb the values of Lmax and Lmin that are
established during the initial monitor set-up. The halation measurements should
therefore be made either first, before the monitor setup, or last, after all other
photometric measurements have been completed.
Determine halation by measuring the luminance of a small square displayed at
Lblack (essentially zero) and at Lwhite when surrounded by a much larger square
displayed at Lwhite (approximately 75% Lmax).
Establish Lblack by setting the display to cutoff. To set the display to cut-off,
display a flat field using video input count level zero, and use a photometer to
monitor the luminance at center screen. Vary the BRIGHTNESS control until the
CRT beam is visually cut off, and confirm that the corresponding luminance
(Lstray) is essentially equal to zero. Fine tune the BRIGHTNESS control such that

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-12-

NIDL
CRT beam is just on the verge of being cut off. These measurements should be
made with a photometer that is sensitive at low light levels (below Lmin of the
display). Make no further adjustments or changes to the BRIGHTNESS control
or the photometer measurement field.
Next, decrease the video-input level to display a measured full-screen luminance
of 75% Lmax measured at screen center. Record this luminance (Lwhite).
The test target used in the halation measurements is a black (Lblack) square patch
of width equal to 0.01% of the area of addressable screen, the interior square as
shown in Figure II.4-1. The interior square patch is enclosed in a white (Lwhite)
background encompassing the remaining area of the image. The exterior surround
will be displayed at 75% Lmax using the input count level for Lwhite as determined
above. The interior square will be displayed at input digital count level zero.
Care must be taken during the luminance measurement to ensure that the
photometer's measurement field is less than one-half the size of the interior square
and is accurately positioned not to extend beyond the boundary of the interior
square. The photometer should be checked for light scattering or lens flare effects
which allow light from the surround to enter the photosensor. A black card with
aperture equal to the measurement field (one-half the size of the interior black
square) may be used to shield the photometer from the white exterior square while
making measurements in the interior black square.

Analysis:

Compute the percent halation for each test target configuration. Percent halation
is defined as:
% Halation = Lblack / (Lwhite - Lblack) x 100
Where,
Lblack= measured luminance of interior square
displayed at Lblack using input count level zero,
Lwhite= measured luminance of interior square
displayed at Lwhite using input count level
determined to produce a full screen luminance
of 75% Lmax .

Data: Table II.4-1 contains measured values of Lblack, Lwhite and percentage halation.
Table II.4-1 Halation for 1024 x 768 Addressability

Lblack
Lwhite
Halation

Reported Values
0.89 fL ± 4%
13.43 fL ± 4%
6.62% ± 0.5%

Range for 4% uncertainty
0.85 fL to 0.92 fL
12.88 fL to 13.98 fL
6.10 % to 7.18%

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Pioneer PDP-502MX 50 inch Color Plasma Display Panel

-13-

II.5. Color Temperature
Reference: Monochrome CRT Monitor Performance, Draft Version 2.0 Section 5.4, page 22.
The CCT of the measured white point lies within the boundaries accepted by IEC.
Objective:

Insure measured screen white of a color monitor has a correlated color
temperature (CCT) between 6500K and 9300K.

Equipment:

Colorimeter

Procedure:

Command screen to Lmax. Measure u’v’ chromaticity coordinates (CIE 1976).

Data:

Coordinates of screen white should be within 0.01 ∆u’v’ of the corresponding CIE
daylight, which is defined as follows: If the measured screen white has a CCT
between 6500 and 9300 K, the corresponding daylight has the same CCT as the
screen white. If the measured CCT is greater than 9300 K, the corresponding
daylight is D93. If the measured CCT is less than 6500 K, the corresponding
daylight is D65. The following equations were used to compute ∆u’v’ values
listed in table II.5.1:
1. Compute the correlated color temperature (CCT) associated with (x,y) by the
VESA/McCamy formula: CCT = 437 n^3 + 3601 n^2 + 6831 n + 5517,
where n = (x-0.3320)/(0.1858 - y). [This is on p. 227 of the FPDM standard]
2. If CCT < 6500, replace CCT by 6500. If CCT > 9300, replace CCT by 9300.
4. Use formulas 5(3.3.4) and 6(3.3.4) in Wyszecki and Stiles (pp.145-146 second
edition) to compute the point (xd,yd) associated with CCT.
• First, define u = 1000/CCT.
• If CCT < 7000, then xd = -4.6070 u^3 + 2.9678 u^2 + 0.09911 u +
• 0.244063.
• If CCT > 7000, then xd = -2.0064 u^3 + 1.9018 u^2 + 0.24748 u +
• 0.237040.
• In either case, yd = -3.000 xd^2 + 2.870 xd -0.275.
5. Convert (x,y) and (xd,yd) to u'v' coordinates:
• (u',v') = (4x,9y)/(3 + 12y - 2x)
• (u'd,v'd) = (4xd,9yd)/(3 + 12yd - 2xd)
6. Evaluate delta-u'v' between (u,v) and (ud,vd):
• delta-u'v' = sqrt[(u' - u'd)^2 + (v' - v'd)^2].
7. If delta-u'v' is greater than 0.01, display fails the test. Otherwise it passes the
test.
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-14-

NIDL
Correlated Color Temperature
Error bars denote delta u'v' = 0.010
0.48
0.47

9300 Limit
0.46
v'

6500 Limit

0.45

1024 x 767

0.44
0.43
0.17

0.18

0.19

0.20

0.21

0.22

Figure II.5-1 The CCT of the measured white point is within the boundaries required by IEC.
Table II.5-1 Delta u’v’ Distances between measured white points and
CIE coordinate values from D65 to D93.
1024 x 768
CIE x
CIE y
CIE u'
CIE v'
CCT
delta u'v'

0.312
0.333
0.196
0.470
6513
0.003

II.6. Bit Depth
Reference: Request for Evaluation Monitors, NIDL Pub. 0201099-091, Section 5.6, p 6.
Positive increases in luminance were measured for 245 of the 256 input levels for 7.94 effective
bits of gray scale. 223 of 256 input levels differed by at least 1 JND of luminance. Black level
clipping was observed for levels 000 through 003. White level saturation was observed for levels
245 through 255.

Objective:

Measure the number of bits of data that can be displayed as a function of the DAC
and display software.

Equipment:

Photometer

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Pioneer PDP-502MX 50 inch Color Plasma Display Panel

-15-

Test targets:

Targets are n four inch patches with command levels of all commandable levels;
e.g., 256 for 8 bit display. Background is commanded to 0.5* ((0.7 *P)+0.3*n)
where P = patch command level, n = number of command levels.

Procedure:

Measure patch center for all patches with Lmin and Lmax as defined previously.
Count number of monotonically increasing luminance levels. Use the
NEMA/DICOM model to define discriminable luminance differences. For color
displays, measure white values.

Data:

Define bit depth by log 2 (number of discrete luminance levels)
The number of bits of data that can be displayed as a function of the input signal
voltage level were verified through measurements of the luminance of white test
targets displayed using a Quantum Data 8701 test pattern generator and a Minolta
CA-100 colorimeter. Targets are n four-inch patches with command levels of all
commandable levels; e.g., 256 for 8 bit display. Background is commanded to
0.5* ((0.7 *P)+0.3*n) where P = patch command level, n = number of command
levels. The NEMA/DICOM model was used to define discriminable luminance
differences in JNDs.
Figure II.6-1 shows the System Tonal Transfer curve at center screen as a function
of input counts. The data for each of the 256 levels are listed in Tables II.6-1 and
II.6-2.
System Tonal Transfer Curve

Luminance, fL

40
30
20
10
0
0

100

150

200

250

300

Input Level of Target, 0 to 255 counts

Figure II.6-1. System Tonal Transfer at center screen as a function of input counts.

Use or disclosure of data on this sheet is subject to the restrictions on the cover and title of this report.

-16-

NIDL
Table II.6-1. System Tonal Transfer at center screen as a function of input counts.
Target levels 000 to 127.

Background
38
39
39
39
40
40
41
41
41
42
42
42
43
43
43
44
44
44
45
45
45
46
46
46
47
47
48
48
48
49
49
49
50
50
50
51
51
51
52
52
52
53
53
53
54
54
55
55
55
56
56
56
57
57
57
58
58
58
59
59
59
60
60
60

Target
0
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
21
22
23
24
25
26
27
28
29
30
31
32
33
34
35
36
37
38
39
40
41
42
43
44
45
46
47
48
49
50
51
52
53
54
55
56
57
58
59
60
61
62
63

L, fL
0.154
0.154
0.154
0.154
0.155
0.156
0.156
0.157
0.158
0.160
0.162
0.168
0.180
0.186
0.189
0.193
0.201
0.208
0.216
0.224
0.231
0.243
0.252
0.258
0.274
0.299
0.319
0.342
0.388
0.413
0.439
0.469
0.501
0.527
0.555
0.603
0.627
0.653
0.689
0.735
0.779
0.836
0.904
0.972
1.046
1.091
1.151
1.223
1.296
1.341
1.398
1.464
1.519
1.587
1.657
1.723
1.794
1.877
1.965
2.022
2.156
2.211
2.297
2.416

Diff, fL
0.000
0.000
0.000
0.000
0.001
0.001
0.000
0.001
0.001
0.002
0.002
0.006
0.012
0.006
0.003
0.004
0.008
0.007
0.008
0.008
0.007
0.012
0.009
0.006
0.016
0.025
0.020
0.023
0.046
0.025
0.026
0.030
0.032
0.026
0.028
0.048
0.024
0.026
0.036
0.046
0.044
0.057
0.068
0.068
0.074
0.045
0.060
0.072
0.073
0.045
0.057
0.066
0.055
0.068
0.070
0.066
0.071
0.083
0.088
0.057
0.134
0.055
0.086
0.119

Diff, JND
0
0
0
0
0
0
0
0
1
0
0
2
2
1
1
0
2
1
1
2
1
2
1
1
2
4
3
3
5
3
3
3
4
2
3
4
2
3
3
3
4
4
5
4
5
3
3
4
4
3
3
3
3
3
3
3
3
4
3
3
5
2
3
4

Background
61
61
62
62
62
63
63
63
64
64
64
65
65
65
66
66
66
67
67
67
68
68
69
69
69
70
70
70
71
71
71
72
72
72
73
73
73
74
74
74
75
75
76
76
76
77
77
77
78
78
78
79
79
79
80
80
80
81
81
81
82
82
83
83

Target
64
65
66
67
68
69
70
71
72
73
74
75
76
77
78
79
80
81
82
83
84
85
86
87
88
89
90
91
92
93
94
95
96
97
98
99
100
101
102
103
104
105
106
107
108
109
110
111
112
113
114
115
116
117
118
119
120
121
122
123
124
125
126
127

L, fL
2.463
2.592
2.646
2.784
2.836
2.912
3.044
3.097
3.196
3.275
3.364
3.488
3.569
3.666
3.813
3.928
4.074
4.192
4.302
4.419
4.585
4.676
4.797
4.976
5.055
5.186
5.338
5.456
5.595
5.747
5.864
5.936
6.091
6.258
6.414
6.546
6.692
6.926
7.081
7.288
7.526
7.672
7.776
7.982
8.172
8.382
8.546
8.684
8.892
9.048
9.274
9.393
9.524
9.712
9.894
10.100
10.320
10.510
10.620
10.740
10.960
11.220
11.480
11.640

Diff, fL
0.047
0.129
0.054
0.138
0.052
0.076
0.132
0.053
0.099
0.079
0.089
0.124
0.081
0.097
0.147
0.115
0.146
0.118
0.110
0.117
0.166
0.091
0.121
0.179
0.079
0.131
0.152
0.118
0.139
0.152
0.117
0.072
0.155
0.167
0.156
0.132
0.146
0.234
0.155
0.207
0.238
0.146
0.104
0.206
0.190
0.210
0.164
0.138
0.208
0.156
0.226
0.119
0.131
0.188
0.182
0.206
0.220
0.190
0.110
0.120
0.220
0.260
0.260
0.160

Diff, JND
2
4
2
4
2
2
4
2
2
3
2
3
3
2
4
3
3
3
2
3
4
1
3
4
1
3
3
2
3
2
2
2
2
3
3
2
2
4
2
4
3
2
2
3
2
3
2
2
3
2
2
2
1
3
2
2
3
2
1
1
3
3
2
2

Use or disclosure of data on this sheet is subject to the restrictions on the cover and title of this report.

Pioneer PDP-502MX 50 inch Color Plasma Display Panel

-17-

Table II.6-2. System Tonal Transfer at center screen as a function of input counts
Target levels 128 to 255.
Background
83
84
84
84
85
85
85
86
86
86
87
87
87
88
88
88
89
89
90
90
90
91
91
91
92
92
92
93
93
93
94
94
94
95
95
95
96
96
97
97
97
98
98
98
99
99
99
100
100
100
101
101
101
102
102
102
103
103
104
104
104
105
105
105

Target
128
129
130
131
132
133
134
135
136
137
138
139
140
141
142
143
144
145
146
147
148
149
150
151
152
153
154
155
156
157
158
159
160
161
162
163
164
165
166
167
168
169
170
171
172
173
174
175
176
177
178
179
180
181
182
183
184
185
186
187
188
189
190
191

L, fL
11.860
12.070
12.360
12.550
12.710
12.980
13.180
13.280
13.450
13.720
13.960
14.160
14.440
14.580
14.690
14.960
15.220
15.420
15.620
15.940
16.010
16.150
16.460
16.870
17.030
17.460
17.660
17.760
18.020
18.320
18.620
18.860
19.060
19.360
19.560
19.670
19.980
20.280
20.520
20.630
20.970
21.040
21.080
21.280
21.490
21.780
22.050
22.240
22.460
22.840
23.020
23.160
23.440
23.560
23.870
24.240
24.460
24.740
24.920
25.220
25.680
25.880
26.260
26.570

Diff, fL
0.220
0.210
0.290
0.190
0.160
0.270
0.200
0.100
0.170
0.270
0.240
0.200
0.280
0.140
0.110
0.270
0.260
0.200
0.200
0.320
0.070
0.140
0.310
0.410
0.160
0.430
0.200
0.100
0.260
0.300
0.300
0.240
0.200
0.300
0.200
0.110
0.310
0.300
0.240
0.110
0.340
0.070
0.040
0.200
0.210
0.290
0.270
0.190
0.220
0.380
0.180
0.140
0.280
0.120
0.310
0.370
0.220
0.280
0.180
0.300
0.460
0.200
0.380
0.310

Diff, JND
2
2
3
2
1
3
2
1
1
3
2
1
3
1
1
2
2
2
2
2
1
1
2
3
1
3
2
1
1
3
2
1
2
2
1
1
2
1
2
1
2
0
0
2
1
2
1
1
2
2
1
1
1
1
2
2
1
1
1
2
2
1
2
2

Background
106
106
106
107
107
107
108
108
108
109
109
109
110
110
111
111
111
112
112
112
113
113
113
114
114
114
115
115
115
116
116
116
117
117
118
118
118
119
119
119
120
120
120
121
121
121
122
122
122
123
123
123
124
124
125
125
125
126
126
126
127
127
127
128

Target
192
193
194
195
196
197
198
199
200
201
202
203
204
205
206
207
208
209
210
211
212
213
214
215
216
217
218
219
220
221
222
223
224
225
226
227
228
229
230
231
232
233
234
235
236
237
238
239
240
241
242
243
244
245
246
247
248
249
250
251
252
253
254
255

L, fL
26.80
27.04
27.28
27.64
27.76
28.34
28.54
28.66
28.76
28.96
29.08
29.24
29.58
29.87
30.16
30.42
30.72
30.86
31.16
31.44
31.76
31.88
32.16
32.43
32.66
32.78
33.27
33.56
33.62
33.86
34.18
34.32
34.68
34.94
35.23
35.37
35.58
35.72
36.02
36.30
36.36
36.45
36.77
37.09
37.30
37.42
37.56
37.60
37.72
37.88
37.90
38.32
38.40
38.40
38.44
38.50
38.52
38.47
38.48
38.47
38.44
38.51
38.44
38.47

Diff, fL
0.23
0.24
0.24
0.36
0.12
0.58
0.20
0.12
0.10
0.20
0.12
0.16
0.34
0.29
0.29
0.26
0.30
0.14
0.30
0.28
0.32
0.12
0.28
0.27
0.23
0.12
0.49
0.29
0.06
0.24
0.32
0.14
0.36
0.26
0.29
0.14
0.21
0.14
0.30
0.28
0.06
0.09
0.32
0.32
0.21
0.12
0.14
0.04
0.12
0.16
0.02
0.42
0.08
0.00
0.04
0.06
0.02
-0.05
0.01
-0.01
-0.03
0.07
-0.07
0.03

Diff, JND
1
1
1
2
1
2
1
1
0
1
1
1
1
1
2
1
1
1
1
1
2
0
1
1
1
1
2
1
0
1
2
0
2
1
1
0
1
1
1
1
0
0
2
1
1
0
1
0
0
1
0
1
1
0
0
0
0
0
0
0
0
0
0
0

Use or disclosure of data on this sheet is subject to the restrictions on the cover and title of this report.

-18-

NIDL

II.8. Luminance Step Response
Reference: Request for Evaluation Monitors, NIDL Pub. 0201099-091, Section 5.8, p 7.
Video artifacts in the form of smearing were observed. Abrupt luminance variations of 1% were
measured.
Objective:

Determine the presence of artifacts caused by undershoot or overshoot.

Equipment:

Test targets, SMPTE Test Pattern RP-133-1991, 2-D CCD array

Procedure:

Display a center box 15% of screen size at input count levels corresponding to
25%, 50%, 75%, and 100% of Lmax with a surround of count level 0. Repeat
using SMPTE Test pattern

Figure II.8-1. SMPTE Test Pattern.
Use or disclosure of data on this sheet is subject to the restrictions on the cover and title of this report.

Pioneer PDP-502MX 50 inch Color Plasma Display Panel
-19Data:
Define pass by absence of noticeable ringing, undershoot, overshoot, or streaking.
The test pattern shown in Figure II.8-1 was used in the visual evaluation of the
monitor. This test pattern is defined in SMPTE Recommended Practice RP-1331986 published by the Society of Motion Picture and Television Engineers
(SMPTE) for medical imaging applications. Referring to the large white-in-black
and black-in-white horizontal bars contained in the test pattern, RP133-1986,
paragraph 2.7 states “ These areas of maximum contrast facilitate detection of
mid-band streaking (poor low-frequency response), video amplifier ringing or
overshoot, deflection interference, and halo.” Video artifacts in the form of
smearing were observed in the Pioneer PDP-502MX Plasma Display Panel.
Another test pattern available on the Quantum Data 8701 400 MHz programmable
test pattern generator was displayed to further examine and quantify video
artifacts. The test pattern consists of black horizontal bars each 12 pixels in
height (approximately 3/8 inch) extending across the central portion of the screen
as shown in Figure II.8-2. Each black bar is surrounded by white. The black bar
displayed within a white surround introduces abrupt variations in video duty
cycle and challenges the display’s ability to regulate luminance over a range of
loading conditions. Nonuniformities on luminance of the white surround occurred
depending on the presence of the black bar. For example, luminance of the white
surround measured to the left and right of the black bar is approximately 1%
greater compared to the luminance above and below the black bar. This small
luminance difference appears as a discontinuity in the white surround and easily
visible.
Table II.8-1. Luminance Non-Uniformity of White with Black Bar
Left Side Luminance of White
Above black bar
20.34 fL
To the left of black bar
20.50 fL
Below black bar
20.30 fL
Nonuniformity
0.87%

Right Side Luminance of White
Above black bar
20.79 fL
To the right of black bar
21.03 fL
Below black bar
20.82 fL
Nonuniformity
1.06%

Use or disclosure of data on this sheet is subject to the restrictions on the cover and title of this report.

-20-

NIDL

Figure II.8-2. Quantum Data “bar BLACK” Test Target

Table II.8-2. Quantum Data “bar BLACK” Test Target Measured Luminance in fL.
24

3.288
3.361
3.367

3.352
3.432
3.373

20.18
20.19
20.13

20.49
20.83
20.56

20.58
20.54
20.44

20.1
20.42
20.07

19.78
1.589
20.1

19.99
1.552
20.13

Left side white-to-black leading transition of black bar.

20.03
1.503
20.26

20.29
1.558
20.37

20.49
20.42
20.85

20.75
21.1
20.74

20.82
21.2
20.94

21.11
21.39
20.75

3.569
3.606
3.159

3.5
3.513
3.484

Right side black-to-white trailing transition of black bar.

Use or disclosure of data on this sheet is subject to the restrictions on the cover and title of this report.

Pioneer PDP-502MX 50 inch Color Plasma Display Panel

-21-

II.9. Addressability
Reference: Monochrome CRT Monitor Performance, Draft Version 2.0, Section 6.1, page 67.
This monitor properly displayed all but 3 stuck pixels when operated in the native format of 1024
x 768 pixels (H x V).
Objective:

Define the number of addressable pixels in the horizontal and vertical dimension;
confirm that stated number of pixels is displayed.

Equipment:

Programmable video signal generator.
Test pattern with pixels lit on first and last addressable rows and columns and on
two diagonal lines beginning at upper left and lower right; H and V grille patterns
1-pixel-on/1-pixel-off.

Procedure:

The number of addressed pixels were programmed into the Quantum Data 8701
test pattern generator for 75 Hz for monoscopic mode and 120 Hz maximum
addressable for stereoscopic mode, where possible. All perimeter lines were
confirmed to be visible, with no irregular jaggies on diagonals and, for
monochrome monitors, no strongly visible moiré on grilles.

Data:

If tests passed, number of pixels in horizontal and vertical dimension. If test fails,
addressability unknown.
Table II.9-1 Addressabilities Tested
Monoscopic Mode
Stereo Mode*
1024 x 768 x 75 Hz
1024 x 768 x 85 Hz Interlaced
Non-Interlaced
(43 Hz per eye)
* Manufacturer states 91.1 kHz maximum scan rate, thus, 120 Hz vertical scan
rate is not achievable in stereo mode. Manufacturer states a maximum vertical
refresh rate of 85 Hz.

Use or disclosure of data on this sheet is subject to the restrictions on the cover and title of this report.

-22-

NIDL
824
0

400
741

409
448
474

768
1024

Figure II.9-1. Inoperative Stuck Pixels (at given x,y coordinates)

II.10.

Pixel Aspect Ratio

Reference: Request for Evaluation Monitors, NIDL Pub. 0201099-091, Section 5.10, p 8.
Pixel aspect ratio is within 6.21%.
Objective:

Characterize aspect ratio of pixels.

Equipment:

Test target, measuring tape with at least 1/16th inch increments

Procedure:

Display box of 400 x 400 pixels at input count corresponding to 50% Lmax and
background of 0. Measure horizontal and vertical dimension.
Alternatively, divide number of addressable pixels by the total image size to
obtain nominal pixel spacings in horizontal and vertical directions.

Data:

Define pass if H= V± 6% for pixel density <100 ppi and ± 10% for pixel density >
100 ppi.

Addressability (H x V)
H x V Image Size (inches)
H x V Pixel Spacing (mils)
H x V Pixel Aspect Ratio

Monoscopic Mode
1024 x 768
34.535 x 24.387
21.58 x 20.32
H = V + 6.21%

Use or disclosure of data on this sheet is subject to the restrictions on the cover and title of this report.

Pioneer PDP-502MX 50 inch Color Plasma Display Panel

II.11.

-23-

Screen Size (Viewable Active Image)

Reference: VESA Flat Panel Display Measurements Standard, Version 1.0, May 15, 1998,
Section 501-1.
Image size as tested in monoscopic mode (1024 x 768) was 42.278 inches in diagonal with an
aspect ratio of 4:3. Maximum viewable image size is 50 inches in diagonal and 16:9 aspect
ratio.
Objective:

Measure beam position on the LCD display to quantify width and height of active
image size visible by the user (excludes any overscanned portion of an image).

Equipment:

• Video generator
• Spatially calibrated CCD or photodiode array optic module
• Calibrated X-Y translation stage

Test Pattern: Use the three-line grille patterns in Figure II.11-1 for vertical and horizontal lines
each 1-pixel wide. Lines in test pattern are displayed at 100% Lmax must be
positioned along the top, bottom, and side edges of the addressable screen, as well
as along both the vertical and horizontal centerlines (major and minor axes).

1-pixel-wide lines displayed at 100% Lmax
Figure II.11-1 Three-line grille test patterns.
Procedure:

Use diode optic module to locate center of line profiles in conjunction with
calibrated X-Y translation to measure screen x,y coordinates of lines at the ends of
the major and minor axes.

Data:

Compute the image width defined as the average length of the horizontal lines
along the top, bottom and major axis of the screen. Similarly, compute the image
height defined as the average length of the vertical lines along the left side, right
side, and minor axis of the screen. Compute the diagonal screen size as the
square-root of the sum of the squares of the width and height.

Use or disclosure of data on this sheet is subject to the restrictions on the cover and title of this report.

-24-

NIDL

Table II.11-1. Image Size as tested.
Monoscopic Modes
Addressability (H x V)
1024 x 768
H x V Image Size (inches)
34.535 x 24.387
Diagonal Image Size (inches)
42.278

II.12.

Contrast Modulation and RAR

Reference: Monochrome CRT Monitor Performance, Draft Version 2.0, Section 5.2, page 57.
Contrast modulation (Cm) for 1-on/1-off grille patterns displayed at 50% Lmax exceeded Cm =
63% in Zone A of diameter 7.6 inches, and exceeded 62% for Zone A diameter of 20.7 inches
(40% of image area). CM exceeded 62% for zone B. The Resolution-Addressability-Ratio (RAR)
was 1.47 x 0.91 (H x V) based on measured linewidths.
Objective:

Quantify contrast modulation as a function of screen position.

Equipment:

• Video generator
• Spatially calibrated CCD or photodiode array optic module
• Photometer with linearized response

Procedure:

The maximum video modulation frequency for each format 1024 x 768 was
examined using horizontal and vertical grille test patterns consisting of alternating
lines with 1 pixel on, 1 pixel off. Contrast modulation was measured in both
horizontal and vertical directions at screen center and at eight peripheral screen
positions. The measurements should be along the horizontal and vertical axes and
along the diagonal from these axes. Use edge measurements no more than 10% of
screen size in from border of active screen. The input signal level was set so that
1-line-on/1-line-off horizontal grille patterns produced a screen area-luminance of
25% of maximum level, Lmax.
Zone A is defined as a 24 degree subtended circle from a viewing distance of 18
inches (7.6 inch circle). Zone B is the remainder of the display. Use edge
measurements no more than 10% of screen size in from border of active screen
area to define Cm for Zone B (remaining area outside center circle). Determine
Cm at eight points on circumference of circle by interpolating between center and
display edge measurements to define Cm for Zone A. If measurements exceed the
threshold, do not make any more measurements. If one or more measurements fail
the threshold, make eight additional measurements at the edge (but wholly within)
the defined circle.

Data:

Values of vertical and horizontal Cm for Zone A and Zone B are given in Table
II.12-1. The contrast modulation, Cm, is reported (the defining equation is given
below) for the 1-on/1-off grille patterns. The modulation is equal to or greater
than 63% in Zone A, and is equal to or greater than 62% in Zone B.
Use or disclosure of data on this sheet is subject to the restrictions on the cover and title of this report.

Pioneer PDP-502MX 50 inch Color Plasma Display Panel

-25-

Lpeak - Lvalley
Cm =
Lpeak + Lvalley
The sample contrast modulations shown in Figure II.12-1 for two different color
CRTs are not fully realized because of the presence of moiré caused by aliasing
between the image and the shadow mask. Because contrast modulation values are
calculated for the maximum peak and minimum valley luminance levels as
indicated in the sample data shown, they do not include the degrading effects of
aliasing.
120

200

150

100

0
0

250

500

250

Monitor A

Monitor B

105 - 24
Cm = -- = 63%
105 + 24

179 - 821
Cm = -- = 37%
179 + 821

500

Figure II.12-1. Contrast modulation for sample luminance profiles (1 pixel at input
level corresponding to 50% Lmax, 1 pixel at level 0 = Lmin) for monitors exhibiting
moiré due to aliasing.

Use or disclosure of data on this sheet is subject to the restrictions on the cover and title of this report.

-26-

NIDL
Table II.12-1. Contrast Modulation
Corrected for lens flare and Zone Interpolation

Zone A = 7.6-inch diameter circle for 24-degree subtended circle at 18-inches viewing distance

Top
Major
Bottom

Left
Minor
H-grille V-grille H-grille V-grille H-grille V-grille H-grille V-grille
78% 65%
79% 63%
76% 63%
77% 63%
77% 63%
76% 64%
76% 63%
76% 63%
76% 63%
76% 64%
77% 63%
77% 63%
78% 66%
78% 62%

Right
H-grille V-grille
79% 62%
77% 63%
79% 62%

Zone A = 20.7-inch diameter circle for 40% area

Top
Major
Bottom

Left
Minor
H-grille V-grille H-grille V-grille H-grille V-grille H-grille V-grille
78% 65%
79% 63%
77% 64%
79% 63%
78% 63%
76% 64%
76% 64%
76% 63%
77% 63%
77% 65%
78% 62%
78% 63%
78% 66%
78% 62%

Right
H-grille V-grille
79% 62%
77% 63%
79% 62%

Line Width
120

Line Width (mils)

100

V Line 5%
H Line 5%
V Line 10%
H Line 10%
V Line 50%
H Line 50%

80
60
40
20
0
0

Luminance

Figure II.12-2. Linewidth at 50% intensity level measured at screen center is used to compute
the Resolution-Addressability-Ratio (RAR) by dividing by the measured pixel spacing of 21.58 H
x 20.32 V mils. Thus, RAR averaged over the luminance range is 1.47 H x 0.91 V.

Use or disclosure of data on this sheet is subject to the restrictions on the cover and title of this report.

Pioneer PDP-502MX 50 inch Color Plasma Display Panel

II.13.

Pixel Density

Reference: Request for Evaluation Monitors, NIDL Pub. 0201099-091, Section 5.13, p 9.
Pixel density was 30 H x 32 V pixels per inch (ppi) as measured for a 400-pixel target.
Objective:

Characterize density of image pixels

Equipment:

Measuring tape with at least 1/16 inch increments

Procedure:

Measure H&V dimension of active image window and divide by vertical and
horizontal addressability

Data:

Define horizontal and vertical pixel density in terms of pixels per inch

Table II.13-1. Pixel-Density
Monoscopic Mode
H x V Addressability, Pixels
1024 x 768
H x V 400-Pixel Target Size, Inches
13.470 x 12.684
H x V Pixel Density, ppi
30 x 32

Use or disclosure of data on this sheet is subject to the restrictions on the cover and title of this report.

-27-

-28-

NIDL

II.14.

Moiré

Reference: Request for Evaluation Monitors, NIDL Pub. 0201099-091, Section 5.14, p 9.
The Pioneer PDP-502MX Plasma Display Panel shows no moiré when operated using a one-toone pixel mapping between input signal and the native addressable pixels. As tested in 1024 x
768 mode, only 80% of the available 1280 x 768 total pixels were addressed leaving the side
edges of the screen dark.
Objective:

Determine lack of moiré.

Equipment

Loupe with scale graduated in 0.001 inch or equivalent

Procedure

Measure phosphor pitch in vertical and horizontal dimension at screen center. For
aperture grille screens, vertical pitch will be 0. Define pixel size by 1/pixel
density.

Data:

Define value of phosphor: pixel spacing. Value <1 passes, but <0.6 preferred.

Table II.14-1. Phosphor-to-Pixel-Spacing Ratios
Monoscopic Mode
Addressability
1024 x 768
Phosphor Trio Spacing (H x V)
21.8 x 20.5 mils
Pixel Spacing (H x V)
21.8 x 20.5 mils
Phosphor-to-Pixel-Spacing
1.0

Use or disclosure of data on this sheet is subject to the restrictions on the cover and title of this report.

Pioneer PDP-502MX 50 inch Color Plasma Display Panel

II.15.

-29-

Straightness

Reference: Monochrome CRT Monitor Performance, Draft Version 2.0, Section 6.1 Waviness,
page 67.
Deviation from straightness did not exceed 0.05% of the total image height or width.
Note: Because this plasma panel is a fixed pixel display, the straightness measurement serves
more as a test of the measurement equipment.

Objective:

Measure beam position on the CRT display to quantify effects of waviness which
causes nonlinearities within small areas of the display distorting nominally
straight features in images, characters, and symbols.

Equipment:

• Video generator
• Spatially calibrated CCD or photodiode array optic module
• Calibrated X-Y translation stage

Test Pattern: Use the three-line grille patterns in Figure II.15-1 for vertical and horizontal lines
each 1-pixel wide. Lines in test pattern are displayed at 100% Lmax must be
positioned along the top, bottom, and side edges of the addressable screen, as well
as along both the vertical and horizontal centerlines (major and minor axes).

1-pixel-wide lines displayed at 100% Lmax
Figure II.15-1 Three-line grille test patterns.

Use or disclosure of data on this sheet is subject to the restrictions on the cover and title of this report.

-30-

NIDL
+y
A

E
B

H
-x

+x
Center screen
(x=0, y=0)

D
G
-y
5% of total width
Total width of addressable screen

Figure II.15-2 Measurement locations for waviness along horizontal lines. Points
A, B, C, D are extreme corner points of addressable screen. Points E, F, G, H are the
endpoints of the axes.
Procedure:

Use diode optic module to locate center of line profiles in conjunction with
calibrated X-Y translation to measure screen x,y coordinates along the length of a
nominally straight line. Measure x,y coordinates at 5% addressable screen
intervals along the line. Position vertical lines in video to land at each of three (3)
horizontal screen locations for determining waviness in the horizontal direction.
Similarly, position horizontal lines in video to land at each of three (3) vertical
screen locations for determining waviness in the vertical direction.

Data:

Tabulate x,y positions at 5% addressable screen increments along nominally
straight lines at top and bottom, major and minor axes, and left and right sides of
the screen as shown in Table II.15-I. Figure II.15-3 shows the results in graphical
form.

Use or disclosure of data on this sheet is subject to the restrictions on the cover and title of this report.

Pioneer PDP-502MX 50 inch Color Plasma Display Panel
Table II.15-1. Straightness
Tabulated x,y positions at 5% addressable screen increments
along nominally straight lines.
Bottom
Major
Minor
Left Side
Right Side

Top
x
-17281
-14400
-12800
-11200
-9600
-8000
-6400
-4800
-3200
-1600
0
1600
3200
4800
6400
8000
9600
11200
12800
14400
17268

-31-

y
12231
12227
12224
12221
12218
12218
12217
12216
12215
12215
12215
12216
12217
12218
12219
12220
12222
12224
12226
12227
12230

x
-17296
-14400
-12800
-11200
-9600
-8000
-6400
-4800
-3200
-1600
0
1600
3200
4800
6400
8000
9600
11200
12800
14400
17204

y
-12153
-12156
-12159
-12161
-12164
-12165
-12165
-12166
-12166
-12166
-12166
-12166
-12165
-12164
-12163
-12161
-12160
-12158
-12156
-12156
-12153

x
-17295
-14400
-12800
-11200
-9600
-8000
-6400
-4800
-3200
-1600
0
1600
3200
4800
6400
8000
9600
11200
12800
14400
17261

y
13
10
7
4
1
0
0
-1
0
0
0
0
1
1
2
4
6
8
9
10
12

x
6
6
5
5
4
2
0
-4
-6
-5
-1
-1
0
0
-1
-2
-3
-1
0
1
0

y
12217
10800
9600
8400
7200
6000
4800
3600
2400
1200
0
-1200
-2400
-3600
-4800
-6000
-7200
-8400
-9600
-10800
-12170

x
-17283
-17285
-17285
-17285
-17287
-17290
-17294
-17298
-17298
-17296
-17294
-17294
-17294
-17294
-17295
-17296
-17297
-17296
-17294
-17294
-17295

y
12232
10800
9600
8400
7200
6000
4800
3600
2400
1200
0
-1200
-2400
-3600
-4800
-6000
-7200
-8400
-9600
-10800
-12156

x
17267
17265
17265
17264
17264
17262
17258
17256
17256
17258
17260
17261
17261
17261
17261
17260
17260
17262
17265
17265
17264

y
12230
10800
9600
8400
7200
6000
4800
3600
2400
1200
0
-1200
-2400
-3600
-4800
-6000
-7200
-8400
-9600
-10800
-12157

1024 x 768

Figure II.15-3 Waviness of Pioneer PDP-502MX Plasma Display Panel in 1024 x 768 mode.
Departures from straight lines are exaggerated on a 10X scale. Error bars are +/- 0.5% of total
screen size.

Use or disclosure of data on this sheet is subject to the restrictions on the cover and title of this report.

-32-

NIDL

II.16.

Refresh Rate

Reference: Request for Evaluation Monitors, NIDL Pub. 0201099-091, Section 5.16, p 9.
Vertical refresh rate for 1024 x 768 format was set to 75 Hz for monoscopic mode, and limited to
43 Hz per eye for stereo mode. The PDP panel cannot achieve the necessary 120 Hz refresh rate
required to achieve 60 Hz per eye for stereo.
Objective:

Define vertical and horizontal refresh rates.

Equipment:

Programmable video signal generator.

Procedure:

The refresh rates were programmed into the Quantum Data 8701 test pattern
generator for 72 Hz minimum for monoscopic mode and 120 Hz minimum for
stereoscopic mode, where achievable.

Data:

Report refresh rates in Hz.

Addressability
Vertical Scan
Horizontal Scan

Table II.16-1 Refresh Rates as Tested
Monoscopic Mode
Stereo Mode
1024 x 768
1024 x 768 Interlaced
1024 x 384 per eye
75 Hz
43 Hz per eye *
63.98 kHz
91.1 kHz

* Manufacturer states 91.1 kHz maximum scan rate, thus, 120 Hz vertical scan rate is not
achievable in stereo mode. Manufacturer states a maximum vertical refresh rate of 85 Hz.

Use or disclosure of data on this sheet is subject to the restrictions on the cover and title of this report.

Pioneer PDP-502MX 50 inch Color Plasma Display Panel

II.17.

-33-

Extinction Ratio

Reference: Request for Evaluation Monitors, NIDL Pub. 0201099-091, Section 5.17, p10.
Stereo extinction ratio averaged 1.6 to 1 (1.5 left, 1.6 right) at screen center. Luminance of
white varied by up to 8.0% across the screen. Chromaticity variations of white were less than
0.007 delta u'v' units. Dynamic Range is 20.3 dB with 2.26 fL Lmax measured through the stereo
viewing system.
Objective:

Measure stereo extinction ratio

Equipment:

Two “stereo” pairs with full addressability. One pair has left center at command
level of 255 (or Cmax) and right center at 0. The other pair has right center at
command level of 255 (or Cmax) and left center at 0.
Stereoscopic-mode measurements were made using commercially available
wireless CrystalEyes active LC shutter glasses from StereoGraphics Corporation.

Procedure:

If possible, calibrate monitor to 0.1 fL Lmin and 35 fL Lmax (no ambient).
Measure ratio of Lmax to Lmin on both left and right side images through the
stereo system.

Data:

Extinction ratio (left) = L (left,on, white/black)/left,off, black/white)
L(left,on, white/black) ~ trans(left,on)*trans(stereo)*L(max)*Duty(left)
+ trans(left,off)*trans (stereo)*L(min)*Duty (right)
Use left,off/right,on to perform this measurement
Extinction ratio (right) = L (right,on,white/black)/right,off, black/white)
L(right,on, white/black) ~ trans(right,on)*trans(stereo)*L(max)*Duty(right)
+ trans(right,off)*trans (stereo)*L(min)*Duty (left)
Use left,on/right,off to perform this measurement
Stereo extinction ratio is average of left and right ratios defined above.
Table II.17-1. Luminance and Chromaticity of White (Stereoscopic Mode)
Lmin, Average Left, Right, center
Lmax, Average Left, Right, center
Dynamic Range, center
Uniformity, Luminance
Uniformity, Chromaticity

0.021 fL
2.26 fL
20.3 dB
8.0 %
0.007 u'v'

Use or disclosure of data on this sheet is subject to the restrictions on the cover and title of this report.

NIDL

Left Eye, Black/White
1
0.8
0.6
0.4
0.2
0
Left
Top

Center
Center

Right Eye, Black/White

Luminance [fL]

-34-

1.5
1
0.5
0

Right
Bottom

Left

Center

Top

Center

Right
Bottom

Fig.II.17-1. Spatial Uniformity of luminance in stereo mode when displaying black to the left
eye while displaying white to the right eye.

Luminance [fL]

Left Eye, White/Black
2
1.5
1
0.5
0
Left
Top

Center
Center

Right
Bottom

Right Eye, White/Black

0.8
0.6
0.4
0.2
0
Left
Top

Center
Center

Right
Bottom

Fig.II.17-2. Spatial Uniformity of luminance in stereo mode when displaying white to the left
eye while displaying black to the right eye.

Use or disclosure of data on this sheet is subject to the restrictions on the cover and title of this report.

Pioneer PDP-502MX 50 inch Color Plasma Display Panel

Right Eye

2.0

Extinction Ratio

Extinction ratio

Left Eye

-35-

1.5
1.0
0.5
0.0

2.0
1.5
1.0
0.5
0.0

Left

Center

Right

Left

Center

Right

Top

Center

Bottom

Top

Center

Bottom

Fig.II.17-3. Spatial Uniformity of extinction ratio in stereo mode.

/HIW
7RS

&HQWHU
&HQWHU

5LJKW

/HIW

%RWWRP

7RS

&HQWHU
&HQWHU

5LJKW
%RWWRP

Fig.II.17-4 Spatial uniformity of chromaticity of white in stereo mode.

Use or disclosure of data on this sheet is subject to the restrictions on the cover and title of this report.

-36-

NIDL

II.18.

Linearity

Reference: Monochrome CRT Monitor Performance, Draft Version 2.0, Section 6.2, page 73.
The maximum nonlinearity of the displayed pixels was measured to be 0.04% of full screen.
Note: Because this plasma panel is a fixed pixel display, the linearity measurement serves more
as a test of the measurement equipment.
Objective:

Measure the relation between the actual position of a pixel on the screen and the
commanded position to quantify effects of raster nonlinearity. Nonlinearity of
scan degrades the preservation of scale in images across the display.

Equipment:

• Video generator
• Spatially calibrated CCD or photodiode array optic module
• Calibrated X-Y translation stage

Test Pattern:

Use grille patterns of single-pixel horizontal lines and single-pixel vertical lines
displayed at 100% Lmax. Lines are equally spaced in addressable pixels.
Spacing must be constant and equal to approximately 5% screen width and
height to the nearest addressable pixel as shown in Figure II.18-1.
5% screen
height

5% screen
width
V-grille

1-pixel wide lines
H-grille

Figure II.18-1. Grille patterns for measuring linearity
Procedure:

The linearity of the raster scan is determined by measuring the positions of lines
on the screen. Vertical lines are measured for the horizontal scan, and horizontal
lines for the vertical scan. Lines are commanded to 100% Lmax and are equally
spaced in the time domain by pixel indexing on the video test pattern. Use optic
module to locate center of line profiles in conjunction with x,y-translation stage
to measure screen x,y coordinates of points where video pattern vertical lines
intersect horizontal centerline of screen and where horizontal lines intersect
vertical centerline of the CRT screen as shown in Figure II.18-2.

Use or disclosure of data on this sheet is subject to the restrictions on the cover and title of this report.

Pioneer PDP-502MX 50 inch Color Plasma Display Panel

-37-

Center screen
(x=0, y=0)

5% of total addressable width
Total width of addressable screen

Figure II.18-2. Measurement locations for horizontal linearity along the major axis of the
display. Equal pixel spacings between vertical lines in the grille pattern are indicated by the
dotted lines. The number of pixels per space is nominally equivalent to 5% of the addressable
screen size.
Data:

Tabulate x, y positions of equally spaced lines (nominally 5% addressable screen
apart) along major (horizontal centerline) and minor (vertical centerline) axes of
the raster. If both scans were truly linear, the differences in the positions of
adjacent lines would be a constant. The departures of these differences from
constancy impact the absolute position of each pixel on the screen and are, then,
the nonlinearity. The degree of nonlinearity may be different between left and
right and between top and bottom. The maximum horizontal and vertical
nonlinearities (referred to full screen size) are listed in table II.18-1. The
complete measured data are listed in table II.18-2 and shown graphically in
Figures II.18-3.

Use or disclosure of data on this sheet is subject to the restrictions on the cover and title of this report.

-38-

NIDL
Table II.18-1. Maximum Horizontal and Vertical Nonlinearities

Format
1024 x 768

Left Side
0.01%

Right Side
0.04%

Top
0.04%

Bottom
0.04%

Table II.18-2. Horizontal and Vertical Nonlinearities Data
Vertical Lines
x-Position (mils)

Horizontal lines
y-Position (mils)

Left Side

Right Side

Top

Bottom

-16888
-15198
-13508
-11821
-10136
-8449
-6760
-5071
-3381
-1691
0

16890
15195
13501
11811
10122
8432
6743
5055
3369
1687
0

12089
10876
9668
8461
7256
6048
4839
3630
2418
1208
0

-12071
-10862
-9654
-8447
-7238
-6033
-4825
-3617
-2412
-1208
0

0.03%
0.01%
-0.01%
-0.03%
-0.05%
-20

-10

Pixel Position from center (inches)

Figure. II.18-3

Vertical pixel position accuracy
relative to center
Deviation in percentage of
Screen

Deviation in percentage of
Screen

Horizontal Pixel position accuracy
relative to center
0.05%

0.05%
0.04%
0.03%
0.02%
0.01%
0.00%
-0.01%
-0.02%
-0.03%
-0.04%
-0.05%
-20
-10
0
10
20
Pixel Position from center (inches)

Horizontal and Vertical Linearity Characteristics.

Use or disclosure of data on this sheet is subject to the restrictions on the cover and title of this report.

Pioneer PDP-502MX 50 inch Color Plasma Display Panel

II.19.

-39-

Jitter/Swim/Drift

Reference: Monochrome CRT Monitor Performance, Draft Version 2.0 Section 6.4, p80.
Maximum jitter and swim/drift was 0.74 mils and 0.65 mils, respectively.
Objective:

Measure amplitude and frequency of variations in beam spot position of the CRT
display. Quantify the effects of perceptible time varying raster distortions: jitter,
swim, and drift. The perceptibility of changes in the position of an image depends
upon the amplitude and frequency of the motions, which can be caused by
imprecise control electronics or external magnetic fields.

Equipment:

• Video generator
• Spatially calibrated CCD or photodiode array optic module
• Calibrated X-Y translation stage

Test Pattern:

Use the three-line grille patterns in Figure II.19-1 for vertical and horizontal
lines each 1-pixel wide. Lines in test pattern must be positioned along the top,
bottom, and side edges of the addressable screen, as well as along both the
vertical and horizontal centerlines (major and minor axes).

V-grille for measuring horizontal motion, H-grille for measuring vertical motion
1-pixel wide lines
Three-line grille test patterns.
Figure II.19-1
Procedure:

With the monitor set up for intended scanning rates, measure vertical and
horizontal line jitter (0.01 to 2 seconds), swim (2 to 60 seconds) and drift (over
60 seconds) over a 2.5 minute duration as displayed using grille video test
patterns. Generate a histogram of raster variance with time. The measurement
interval must be equal to a single field period.
Optionally, for multi-sync monitors measure jitter over the specified range of
scanning rates. Some monitors running vertical scan rates other than AC line
frequency may exhibit increased jitter.

Use or disclosure of data on this sheet is subject to the restrictions on the cover and title of this report.

-40-

NIDL
Measure and report instrumentation motion by viewing Ronchi ruling or
illuminated razor edge mounted to the top of the display. It may be necessary to
mount both the optics and the monitor on a vibration-damped surface to reduce
vibrations.

Data:

Tabulate motion as a function of time in x-direction at top-left corner screen
location. Repeat for variance in y-direction. Tabulate maximum motions (in mils)
with display input count level corresponding to Lmax for jitter (0.01 to 2 seconds),
swim (2 to 60 seconds) and drift (over 60 seconds) over a 2.5 minute duration.
The data are presented in Table II.19-1. Both the monitor and the Microvision
equipment sit on a vibration-damped aluminum-slab measurement bench. The
motion of the test bench was a factor of 10 times smaller than the CRT raster
motion.
Table II.19-1. Jitter/Swim/Drift
Time scales: Jitter 2 sec., Swim 10 sec., and Drift 60 sec.

1024 x 768 x 75hz
H-lines

V-lines

10D corner Max Motions

Black
Tape

Jitter
Swim
Drift

0.874
0.893
0.901

1.75
1.78
1.78

Max
Motions
Jitter
Swim
Drift

0.538
0.587
0.587

1.01
1.13
1.15

Less Tape Motion
Jitter
Swim
Drift

0.34
0.31
0.31

0.74
0.65
0.63

maximum
s
0.74
0.65
0.63

Use or disclosure of data on this sheet is subject to the restrictions on the cover and title of this report.

Pioneer PDP-502MX 50 inch Color Plasma Display Panel

II.20.

-41-

Warm-up Period

Reference: Request for Evaluation Monitors, NIDL Pub. 0201099-091, Section 5.20, p. 10.
Less than a minute warm-up was necessary for luminance to be stable to within 10% of Lmin =
0.234 fL
Objective:

Define warm-up period

Equipment:

Photometer, test target (full screen 0 count)

Procedure:

Turn monitor off for three-hour period. Turn monitor on and measure center of
screen luminance (Lmin as defined in Dynamic range measurement) at 1-minute
intervals for first five minutes and five-minute intervals thereafter. Discontinue
when three successive measurements are ± 10% of Lmin.

Data:

Pass if Lmin within ± 50% in 30 minutes and ±10% in 60 minutes.
The luminance of the screen (commanded to the minimum input level, 0 for
Lmin) was monitored for 120 minutes after a cold start. Measurements were
taken every minute. Figure II.20-1 shows the data for 1024 x 768 format in
graphical form. The luminance remains very stable after 53 minutes.
Lmin Warm Up Characteristic
0.25

Lumiance, fL

Less than 1 minute to -10% final Lmin
0.2

0.15
Less than 1 minute to -50% final Lmin
0.1
1

100

1000

Time after power ON, minutes

Figure II.20.1. Luminance (fL) as a function of time (in minutes) from a cold start with an input
count of 0. (Note suppressed zero on luminance scale).

Use or disclosure of data on this sheet is subject to the restrictions on the cover and title of this report.

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