Meridian Audio Musical Instrument LD100 LD100U User Manual

The Faroudja  
LD100/LD100U Line Doubler  
Installation & Operation  
Instructions  
 
TORY  
Some Video History and the Faroudja Approach  
Faroudja Laboratories, located in northern Califor-  
nia’s Silicon Valley, was founded in 1971 by Yves  
and Isabell Faroudja to develop state-of-the-art of  
video processing technology. Over the last 20  
years, Faroudja Laboratories and its companion  
R&D center, Faroudja Research, have indeed devel-  
oped hundreds of advanced electronic processes  
to improve video enhancement, noise reduction  
and NTSC encoding/ decoding technologies. Many  
of these processes are used under license by  
the world’s leading electronics companies in a  
wide range of high performance video products.  
Faroudja professional video equipment is also  
currently hard at work in hundreds of television  
studios. Thus Faroudja technology is utilized and  
enjoyed in millions of American homes every day.  
nologies utilized in this extraordinary device and an  
explanation of the visual improvements it provides  
in home video playback systems.  
First, before we discuss the LD100, let’s take a  
quick look at the history of the current television  
standard. Today’s 525 line TV picture standard was  
actually developed in the 1940’s when broadcasts  
were only in black and white. Keep in mind that  
back then, the transistor had not yet been invented!  
In 1953, the National Television Systems Committee  
(NTSC) adopted what is still the present method of  
color TV broadcasting. It was designed to be fully  
compatible with the older technology of black and  
white transmission. Unfortunately, this need to main-  
tain compatibility with old technology led to  
unavoidable compromises in NTSC picture quality.  
Yves Faroudja has devoted his career and his com-  
pany to the goal of enabling home video systems to  
achieve the image quality of 35mm motion pictures.  
In pursuit of this goal, Faroudja Labs has made use  
of techniques from Faroudja professional video  
equipment and incorporated these in the LD100  
and LD100U line doublers.  
Today, thanks to the advent of new thinking and  
new technologies realized by industry pioneer Yves  
Faroudja, these compromises can be nearly  
eliminated. Faroudja’s unique approach focuses  
on critical problem areas in the NTSC and PAL  
broadcast format. With patented engineering and  
design work, Yves and Faroudja Laboratories have  
created an exceptional product that brings new lev-  
els of visual reality to the enjoyment of discerning  
video enthusiasts around the world.  
This booklet will provide the reader with a hands-  
on look at the LD100, its operation and benefits.  
Also supplied is an overview of the proprietary tech-  
2
 
LICENSEES AND AWARDS  
1987: SMPTE  
Licensees Around the World  
DAVID SARNOFF GOLD MEDAL AWARD  
Faroudja’s inventive approach to improving the qual-  
ity of video imaging has caught the eye of some of  
the world’s greatest high technology companies.  
The following list represents those that have recog-  
nized the value of Faroudja’s solutions to imaging  
problems and pay for the opportunity to incorporate  
this technology in their advanced video products (as  
of December 1993):  
for  
“Contributing in Optimizing NTSC Performances”  
1988: MONITOR AWARD  
for  
Excellence in Engineering  
NTSC Encoders and Decoders”  
Canon  
Conrac  
General Instrument  
Grass Valley  
Hitachi  
Microtime  
Mitsubishi  
NAC  
NEC  
Sanyo  
Sharp  
1989: BM/E AWARD  
for  
Excellence in Engineering”  
Ikegami  
1991: Technology Executive of the Year  
from Cable TV Business  
JVC  
Sony  
Toshiba  
Matsushita (Panasonic)  
1991: EMMY  
from The National Academy  
of Television Arts and Sciences  
for  
Awards and Achievements  
In just the last four years, Yves Faroudja and  
Faroudja Labs have garnered worldwide recognition  
and a number of industry awards. These honors are  
notable for several reasons. They are in response to  
the significant impact that Faroudja’s technology has  
made on the serious improvement of video quality.  
They are also a reflection of his long term dedication  
to continually improving and optimizing the perfor-  
mance of the NTSC video format.  
Techniques for Minimization of NTSC Artifacts  
Through Advanced Encoding Techniques”  
1992: VIDEO GRAND PRIX AWARD  
Audio/Video International  
LD100 Line Doubler “Advanced Technology Award”  
In chronological order, these awards and their spe-  
cific focus are listed including an EMMY in 1991 for  
minimizing artifacts in the NTSC broadcast encod-  
ing process.  
1993: VIDEO MAGAZINE  
Video Visionary  
LD100 Line Doubler “10 Best Products”  
3
 
SYSTEM DESCRIPTION  
The Faroudja System LD100 digital scan converter  
is a precision video instrument used to convert  
NTSC Composite, Y/C, or 525 line RGB or  
Component interlaced signals into 525 line progres-  
sive outputs. Using the LD100 digital scan converter  
will produce pictures with more details, remove  
unwanted picture artifacts and, when used with pro-  
jection systems, produce pictures of exceptional  
quality, giving a “cinema-like” feeling.  
position if the input loop is not used. The Y/C input  
uses a standard 4 pin S-VHS connector. This input  
is not available for a looped operation and is termi-  
nated internally. The RGB and Component inputs  
use BNC connectors. As with the video input, these  
inputs are loopable to other devices. Selectable 75  
Ohm terminations are provided. If the looped inputs  
are used, these cables should be kept short, (under  
6' in length) or a video distribution amplifier should  
be used. This allows the LD100 to keep the highest  
signal bandwidth possible without having the high  
frequency being attenuated in a long cable.  
Front panel features include Power, Input Select  
(Video, Y/C, RGB and Component), Brightness,  
Contrast, Color, Auto-Tint, Noise Reduction, Detail,  
AGC and Freeze. Input switch settings are memo-  
rized when the power is removed from the unit. This  
allows the LD100 to be interfaced into a system  
without the need to select the input when the sys-  
tem is powered up. During power up, the AGC  
switch is selected in the On mode with the Freeze  
switch selected OFF. The remaining controls may be  
left in factory preset or manually set by pulling out  
and rotating the control until the desired level is  
established.  
Output from the LD100 is provided on six BNC con-  
nectors as well as one 15 pin ‘D’ VGA connector.  
The BNC outputs provided are Red, Green, Blue,  
Horizontal Sync, Vertical Sync and Composite Sync.  
Interface to monitors/projectors can be of a 4 or 5  
wire connection. Note: 4 wire, meaning Red, Green,  
Blue and Composite Sync or 5 wire, meaning Red,  
Green, Blue, Horizontal Sync and Vertical Sync.  
There is no sync present on the Green output. The  
LD100 is capable of driving a monitor/projector  
using the BNC outputs as well as a VGA monitor  
using the 15 pin ‘D’ connector, at the same time.  
Inputs to the LD100 include: Composite Video, Y/C  
(S-VHS), RGB and Component (Y,R-Y,B-Y). The  
Video input may be connected by either a BNC con-  
nection or a video RCA type connection. These  
inputs are looped internally so that the signal may  
be used by other devices. A selectable 75 Ohm ter-  
minator switch is provided and should be in the ON  
The LD100 features a remote control interface that  
will allow control of all line doubler functions. The  
remote control uses a 25 pin female ‘D’ connector  
located on the rear panel. See appendix A for fur-  
ther information.  
4
 
SYSTEM DESCRIPTION  
Circuit Description  
When using the RGB or Component inputs, Sync is  
derived from the G or Y input signals unless sync is  
provided to the Composite Sync input. The  
Composite Sync input will override the sync from  
the G or Y inputs. The sync signal then feeds the  
LD100 systems clock generator and is used as a  
reference to generate Horizontal Sync, Vertical  
Sync, Composite Sync.  
Figure 1 is a block diagram of the LD100 showing  
signal flow and the location of front panel controls  
and switches. Composite Video and Y/C (S-VHS)  
inputs are connected to the units decoder with AGC  
control and converted to Y, R-Y and B-Y signals.  
The Y, (Luminance) output from the decoder enters  
the input switcher while the R-Y and B-Y signal  
enter the Chroma Enhancement block where the  
Tint phase can be adjusted when selected in the  
manual mode. The RGB input signals are trans-  
coded to Y, R-Y, and B-Y signals and fed to the  
input switcher. Component signals are fed directly  
to the input switcher.  
Inventory List  
1 LD100 Digital Scan Converter  
1 Installation/Operation Manual  
1 Warranty Card  
1 Power Cord  
The input switcher then selects the correct function  
and outputs the Y signal to the Luminance Line  
Doubler block. The Luminance Line Doubler block  
contains the Brightness, Contrast and Freeze con-  
trols while the R-Y and B-Y signals enter the  
Chroma Line Doubling block where the color level  
can be controlled along with the Freeze controls.  
The Line Doubled Luminance signal now enters the  
Luminance Detail and Noise Reduction block where  
the functions of Noise Reduction and Detail Level  
are controlled.  
2 Rack Mount Ears  
1 Rack Mount Screw Kit  
Caution Notes  
Do not connect the LD100 to a Monitor/  
Projector not capable of the correct scan  
rates. (31.5KHz)  
The Luminance signal from the Luminance Detail  
and Noise Reduction block along with the R-Y and  
B-Y signals from the Chroma Line Doubling block  
feed the output transcoder and are converted to  
RGB signals. These RGB signals are buffered and  
then sent to the rear panel outputs to both the BNC  
and VGA interface connectors.  
High Voltages are present inside. Opening  
the unit will void all warranties.  
No user serviceable parts inside.  
5
 
TECHNICAL HIGHLIGHTS  
LD100 TECHNICAL HIGHLIGHTS – The LD100 is far more than simply a “line doubler”. It is a truly unique product in the  
world of high performance video. The LD100 is actually a complex image processor that consists of three distinct  
components – all utilizing patented Faroudja technologies and engineered into one chassis; the SuperNTSC  
decoder , the Faroudja proprietary line doubler, and Faroudja’s innovative bandwidth expansion circuit that  
allows for the sharpening of image details. Line doubling by itself is simple and inexpensive to achieve. But simply  
doubling the lines of information is worse than doing nothing at all because the visual result is a picture of lesser quality. To  
achieve film-like quality, a great deal more is required than just doubling the lines. The block diagram below provides a sim-  
ple view of Faroudja’s multi-faceted solution for perfect pictures. The technical and visual benefits of each of these special  
circuits are explained more fully below.  
SECTION A – The LD100 SuperNTSC Decoder: Elimi-  
nates COLOR BLURRING – The engineers of the 1940’s  
(and the 1950’s, before and during the development of  
color broadcasting), had no idea that video images would  
one day be blown up as large as they are today. They  
therefore designed the color section of the NTSC standard  
with severe bandwidth restrictions. This causes colors in  
various video images to “blur” and “smear”. These effects  
are further aggravated by storage media, such as VHS  
tapes, that further degrade the chroma or color signal. e.g.  
– note how deep reds smear on VHS tape images.  
DOT CRAWL and HANGING DOTS – This phenomena is  
easily seen with large, highly colored, stationary graphics  
like titles and credits. Dot crawl is a rapid upwards move-  
ment of colored dots on sharp vertical transitions. Hanging  
dots lie underneath all the colored horizontal transitions.  
Both of these color aberrations are artifacts that appear  
due to an imperfect color decoding process. The LD100  
has two separate and patented correction circuits that  
work to eliminate both of these distortions. The impact is  
color transitions that are clear, sharp and natural.  
SECTION B – THE LD100 Patented Line Doubler: elimi-  
nates VISIBLE SCAN LINES – The secret of the LD100’s  
uncanny ability to double the lines of information without  
adding digital artifacts is in its unique ability to detect  
motion and interpolate correctly to “fill in the blank lines”.  
The Faroudja LD100 does this better than any other line  
doubler thanks to its proprietary, patented circuitry. It is  
the only line doubler in existence that can detect the dif-  
ference between a film image that has been transferred to  
video or video image that emanates from a video camera.  
After detecting the image type, the LD100 adjusts its  
algorithm to compensate accordingly.  
The Faroudja LD100 utilizes proprietary circuitry to recre-  
ate and further correct color details. Technically, this is  
accomplished by making use of the sharper black and  
white transitions to develop a correction signal that is then  
used to sharpen the color transitions. The result is colors  
that are restored with sharp details and video images that  
retain their original crisp look.  
RAINBOW PATTERNS – When you notice the fine detail  
of a striped referees shirt rippling with colored rainbows as  
the camera pans by, you’ve seen video cross-color inter-  
ference.  
This is critical because today’s home theaters are primarily  
used to show films that were transferred to video whether  
on tape, laserdisc or off the air (virtually all prime time pro-  
grams are film transferred to video). The inability of other  
line doublers to detect motion correctly is what causes  
most of them to be unwatchable due to digital artifacts.  
The LD100 offers sharper, uniquely clean, artifact-free  
film-like images without visible scanning lines.  
This annoying artifact is caused by imperfect separation of  
the color (chroma), and black and white (luminance) sig-  
nals by the color decoder circuitry. Simple techniques  
used commonly to separate the two signals can be effec-  
tive most of the time, but occasionally are fooled by finer  
pitch detail areas like the referees shirt. The decoder in  
the LD100 has patented digital adaptive comb filter cir-  
cuitry that eliminates decoding errors of this type and  
enables the reproduction of sharper, cleaner color images.  
Historically speaking again, electrical engineers back in  
the 1940’s knew the resolution of a picture tube depends  
6
 
on two different mechanisms. Horizontal resolution is a  
function of bandwidth (frequency response) of the circuitry  
while vertical resolution is a function of the scanning fre-  
quency (the number of scan lines in each picture). Given  
these mechanisms and the average size picture tube  
being 8-10”, they designed the 525 line broadcast stan-  
dard so that viewers would not see the scan lines when  
watching TV. They had no idea that someday people  
would be projecting home theater video images with diag-  
onal screen sizes of 10’ and more.  
sources. The resultant picture is free of scan lines but dull,  
with a serious loss of definition. The solution is to expand  
the high frequencies without producing annoying and pic-  
ture degrading artifacts.  
The bandwith expansion circuitry in the LD100 is excep-  
tionally sophisticated, using Faroudja’s double differentia-  
tion techniques to sharpen the edges of both horizontal  
and vertical details. The result is a sharply detailed line  
doubled image that appears crisp and three dimensional  
with no visible negative side-effects. This process can  
effectively double the bandwidth and therefore the resolu-  
tion of the incoming signal.  
Based on those NTSC parameters, using a 10 ft. diagonal  
screen, would require the viewer to be located more than  
45 ft. from the screen to see the picture as it was intend-  
ed, without scan lines! Unfortunately, today’s large screen  
installations have scan lines that are quite visible, espe-  
cially with some of the latest high resolution monitors and  
projection televisions. The LD100 eliminates this problem  
by scan doubling, or digitally doubling the 525 lines to  
become 1050 lines. The result is the elimination of visible  
scan lines. The image produced by the LD100 is clearer,  
continuous and virtually film-like.  
FAROUDJA LD100 APPLICATIONS – While the techni-  
cal accomplishments of the LD100 represent years of  
intense research and development, its use is straightfor-  
ward and direct. The block diagram (above), illustrates a  
typical home theater system configuration and shows how  
the LD100 would be inserted in the signal path. Many  
entertainment sources benefit greatly by the LD100’s  
unique attributes; laserdisc, VHS video, S-VHS video,  
cable TV, broadcast TV, etc. The LD100 has proven to be  
an invaluable tool in other presentation disciplines where  
image quality is important – computer data displays, pro-  
fessional installations in boardrooms and media rooms,  
military installations, government agencies and academic  
uses in schools and colleges. From the quality of its indi-  
vidual parts to its state-of-the-art patented circuitry, the  
LD100 is truly in a class by itself. There is simply no finer  
video processor available . . . at any price!  
SECTION C – The LD100 Bandwidth Expansion Circuitry:  
SHARPENING OF THE IMAGE DETAILS – There is a  
major limitation with most contemporary NTSC program  
sources — lack of frequency response. The best video  
sources such as satellite dish reception and laserdiscs  
can provide acceptable resolution (400 plus lines of hori-  
zontal resolution). Other more common sources however,  
such as VHS tapes (230 lines), are clearly deficient. The  
problem is compounded when one doubles the scan lines  
and performs other signal processing. The lack of high  
frequency detail becomes very obvious with almost all  
NOTE: The LD100 (NTSC only version) operates properly  
with 50Hz 625 line component or RGB sources.  
7
 
INSTALLATION INSTRUCTIONS  
Figure 2  
Figure 3  
Unpacking  
to allow for proper cooling. It is also recommended  
that the rack be forced air cooled.  
Remove the LD100/LD100U from the shipping  
container and examine it for any signs of shipping  
damage or missing items, (check inventory list on  
page 5).  
Rear Panel I/O  
11. Video Termination Switch – Select ON when  
not looping the Video signal to other video  
devices, (75 Ohm).  
All shipping materials should be saved if the unit  
is to be moved or should need to be returned for  
service or repair.  
12. Video Input (BNC) – Composite Video Input  
13. Video Input (RCA) – Composite Video Input  
Installation  
14. Video Input (BNC) – Composite Video Input  
The LD100/LD100U is designed to be placed on the  
table or rack mounted. If the rack mounting installa-  
tion kit is to be used, the rack mount ears are  
installed by removing the 4 screws retaining the  
wood side panels and installing the rack mount ears  
using the 3 screws as shown in Figure 2. Remove  
the four feet from the unit. When installing the  
LD100 in a rack, it will be necessary to support the  
LD100/LD100U by using rack support rails supplied  
by the rack manufacturer.  
Loop  
15. Y/C Input (4 Pin) – Y/C, input internally termi-  
nated.  
16. R/R-Y Termination Switch – Select ON when  
not looping the R/V signal to other video  
devices, (75 Ohm).  
17. R/R-Y Input Loop (BNC) – Red/R-Y Input  
18. R/R-Y Input (BNC) – Red/R-Y Input  
19. G/Y Termination Switch – Select ON when  
not looping the G/Y signal to other video  
devices, (75 Ohm).  
Do not support the LD100/LD100U by the rack  
mount ears alone!  
Ventilation  
10. G/Y Input Loop (BNC) – Green/Y Input  
The LD100/LD100U will require that air flows freely  
in both the bottom and top vent holes. Blocking  
these holes will greatly reduce the reliability of the  
unit and lead to the possibility of overheating.  
11. G/Y Input (BNC) – Green/Y Input  
12. B/B-Y Termination Switch – Select ON when  
not looping the B/B-Y signal to other video  
devices, (75 Ohm).  
When the LD100/LD100U is rack mounted, a mini-  
mum of 1.25" (1 rack unit height) of free space is to  
be provided for both the top and bottom of the unit  
13. B/B-Y Input Loop (BNC) – Blue/B-Y Input  
14. B/B-Y Input (BNC) – Blue/B-Y Input  
8
 
Figure 4  
15. Sync Termination Switch – Select ON when  
15. not looping the Composite Sync signal to  
other video devices, (75 Ohm).  
Interface  
Figure 4 diagrams the installation of the LD100  
using inputs from:  
16. Sync Input Loop (BNC) – Composite Sync  
1. A composite source such as a Laser Disk Player,  
VCR or TV Receiver.  
Input Loop  
17. Sync Input (BNC) – Composite Sync Input  
18. Red Output (BNC) – Red Output 714mV  
19. Green Output (BNC) – Green Output 714mV  
20. Blue Output (BNC) – Blue Output 714mV  
2. A Y/C input such as a S-VHS VCR.  
3. An RGB input with sync on green or a  
Component input such as a Camera or Beta-SP  
recorder with sync on Y. If sync on green or sync  
on Y is not available then Sync can be interfaced  
using the Composite sync input.  
21. Horiz. Sync Output (BNC) – Horizontal Sync  
Output –4Vp-p, 31.5KHz/31.2KHz  
All input with the exception of the Y/C input have  
selectable 75 Ohm input termination switches.  
These switches are to be in the ON position unless  
the LD100 is being used in a looped configuration.  
Termination is then located at the last unit in the  
loop only.  
22. Vert. Sync Output (BNC) Vertical Sync  
Output –4Vp-p, 59.49Hz/50Hz  
23. Sync Output (BNC) – Composite Sync  
Output –4Vp-p  
24. VGA Interface Output – VGA Standard using  
Positive TTL Sync Levels. See appendix B for  
pinout information.  
Note: The diagram shows a 5 wire connection to  
the monitor/projector, i.e. Red, Green, Blue,  
Horizontal Sync and Vertical Sync. For monitors/  
projectors with a 4 wire input, use Red, Green, Blue  
and Composite Sync outputs.  
25. Remote Control Interface – See appendix A  
for interface diagrams.  
26. Power Input – 100-250 VAC, 50/60Hz, 60W  
The monitor/projector will be terminated at 75 Ohm  
either internally or by switches located on the moni-  
tor/projector.  
9
 
LINE DOUBLER OPERATING INSTRUCTIONS  
For reasons of clarity, this technical overview has been written specifically for the LD100. This description  
applies as well to the LD100U, with the following exceptions:  
1. The LD100U accepts PAL and NTSC signals and switches automatically to the proper standard.  
2. Tint control is not operational with PAL sources.  
1
2
3
4
5
6
7
8
9
10  
11  
12 13  
The LD100 Control panel  
4) use of this input is computers (running at 15.75  
kHz). Press to select the RGB video input.  
Selecting a push button control lights the adjacent  
LED to indicate activation or selection of that partic-  
ular function.  
5) Component Input – Component Inputs are  
more commonly used in the broadcast studio or  
post-production environment. The video signal  
in its component form (Y, R-Y, B-Y) is carried in  
a 3-wire cable with BNC type connectors (e.g.  
MII™, D1, Betacam™, Betacam SP™, etc.).  
Press to select the Component video input.  
1) Power ON/OFF – Press the button and the LED  
lights green to indicate POWER ON. When the  
LD100 powers up it is automatically set to oper-  
ate just as it was when it was last turned off. The  
Detail Enhancement circuits are automatically  
engaged at turn on.  
PICTURE CONTROLS (4)  
1) Power ON/OFF - OFF – Another push on the  
switch and the power is cut off extinguishing the  
green LED. The Freeze Circuit is automatically  
disengaged, if in use, upon turn off.  
The four rotary-style picture controls, BRIGHT-  
NESS, CONTRAST, COLOR and TINT, are factory  
preset when pushed in. When pulled out they  
become active for manual adjustment. Pushing the  
knob back in after manual adjustment gives you the  
opportunity to compare your setting to the factory  
preset(s).  
INPUT SELECTION SWITCHES (4)  
2) Video – refers to any composite NTSC video  
input - (e.g. VCR’s, laserdisc players, cable  
boxes, etc.) Press to select the Video input.  
The rotary control format allows for a high degree of  
tactile feedback when one is adjusting the picture  
functions. Additionally, these controls provide a  
wider range of adjustment than those typically found  
on monitors and televisions.  
3) Y/C – Y/C refers to any Super-VHS (S-VHS or  
Hi-8) inputs - (e.g. laserdisc players, S-VHS or  
Hi-8 video tape recorders, satellite receivers, etc.)  
Press to select the Y/C input. Using the Y/C input  
on the LD100 allows one to realize all the benefits  
of maintaining the separation of the luminance  
(picture) and chrominance (color) signal through  
the video signal processing chain, thus avoiding  
rainbow patterns due to cross color interference.  
In addition, automatic chroma level and phase con-  
trols (ACC and APC) are provided. As a conse-  
quence, all source-to-source variations in chroma  
phase and level are corrected.  
When the signal is fed to a monitor through the RGB  
inputs the monitor color and tint controls are  
typically bypassed. Incorporating the LD100 in such  
a system, with its broad range controls, restores  
and enhances this control flexibility.  
4) RGB – RGB refers to the incoming video signal  
being broken down to the individual red, green  
and blue format more typically found in the pro-  
fessional and broadcast area. The most common  
10  
 
Every LD100 is subjected to an intense battery of QC and environmental tests. Then  
each unit is re-tested and re-calibrated for optimum performance. The component  
parts used in the LD100 are the finest available, ensuring long term consistent per-  
formance and reliability. This unique, quality oriented “Faroudja touch” can also  
be seen in the design of many of the LD100’s controls and features.  
6) Brightness Level – Known as “Set-up” in the  
broadcast industry, the BRIGHTNESS control is  
used to set up the background black level. Pull  
the knob out and turn fully counter clockwise  
until the picture goes dark. Then rotate the con-  
trol clockwise until the black areas in the picture  
just begin to go gray. Turn the control back  
counter clockwise until the gray just goes to  
black. This is the optimum setting.  
IMAGE SHARPNESS CONTROLS (2)  
The two rotary-style Image Sharpness controls,  
NOISE REDUCTION and DETAIL LEVEL, work  
together to sharpen edge transitions for a “punchi-  
er” picture. The proprietary bandwith expansion cir-  
cuitry contained in the LD100 is critical to its spec-  
tacular performance. Typical line doublers produce a  
flat, soft picture. The LD100’s Image Sharpness cir-  
cuitry improves the sharp line and edge transitions  
making for clearer, more vivid video images. This is  
accomplished with the two controls working in tan-  
dem, without adding video noise or digital artifacts  
which could otherwise degrade the picture.  
7) Contrast Level – As the BRIGHTNESS control  
sets the background black level, the CONTRAST  
control sets the foreground white level. First set  
the BRIGHTNESS level as above, then pull out  
and rotate the CONTRAST level clockwise, start-  
ing at the full counter clockwise position, until the  
white areas of the picture are clearly obvious.  
10) Noise Reduction – After setting the detail level  
(11), the noise reduction control is then used to  
remove any residual noise that may be added  
during the Image Sharpness process.  
8) Color level – With the Color control pressed in,  
the LD100 uses its internal AGC, (Automatic  
Gain Control) to set the color level. Pull the knob  
out and starting from the full counter-clockwise  
position, rotate clockwise for increased color sat-  
uration. This is a subjective setting, there is no  
right or wrong. Simply adjust for the most pleas-  
ing color level.  
11) Detail Level To set the detail level start full  
counter clockwise and add detail until the edge  
transitions just begin to sharpen.  
12) Digital Filter – The Digital Filter eliminates  
compression artifacts generated by video  
sources transmitted via a digital compressed  
path and should not be used with conventional  
video sources.  
9) Tint – Also known as “Hue” or “Phase”, pull the  
knob out to adjust to your personal taste, partic-  
ularly in flesh tones. Adjusting the tint control  
shifts the picture towards the green or red areas  
of the color spectrum. Tint is only active in the  
video or Y/C input modes. With the control  
pressed in, the LD100 is in the Auto-Tint mode.  
The Auto-Tint mode is achieved by using internal  
phase comparison techniques to automatically  
display colors as intended.  
13) Freeze On/Off – Press to capture the current  
picture displayed on the screen. Press again to  
return to normal, active video. The freeze mode  
digitally captures the incoming video signal and  
holds it for critical viewing and adjustment. This  
feature allows you to optimize the LD100 pic-  
ture controls on a still, constant image of your  
choosing.  
MII is a registered trademark of Panasonic. Betacam and Betacam SP are registered trademarks of Sony.  
11  
 
TROUBLESHOOTING  
Problem  
Solution  
No power light  
Unit not turned on  
Unit not plugged in  
Fuse blown  
No power at plug  
No picture  
Video source not selected  
No video source connected or operating  
Projector/Monitor not turned on  
Projector/Monitor not connected correctly  
Bad video cable  
Unit in freeze mode  
Check brightness and contrast levels  
Colors bleeding  
Check LD100 termination  
Check projector/monitor termination  
Contrast set too high  
Color set too high  
Picture not stable  
Check interface cables  
Sync cables are swapped or not connected  
Input source not selected correctly  
Check input terminations  
Set Sync to STD.  
Projector Fast/Slow Horizontal time constant. Should be set to fast.  
Incorrect colors  
Tint in manual mode  
Defective output cable  
RGB cables are swapped  
Check projector/monitor termination  
Input source not selected correctly  
No burst on input  
RGB or Y,R-Y, B-Y Inputs not terminated.  
Picture washed out  
Composite input not terminated  
NOTE: To make sure that an input source is not the cause of a problem for a composite source, turn the ter-  
mination switch off and connect a composite monitor to the composite input Loop input. For a R,G,B input  
source, turn the three termination switches off and connect a R,G,B monitor to the R,G,B input Loop input.  
To make sure that a projector is not the cause of a problem, connect a VGA monitor to the 15pin VGA output  
connector and check the display to see if it is correct and if the projector is the problem. If the monitor display  
shows the same problem as the projector display, then the line doubler has a problem and you should contact  
our Technical Support Department.  
12  
 
APPENDIX A  
LD100/LD100U Remote Control Operation  
CABLE SPECIFICATION: Computer Interface  
Overview  
Remote control of the LD100 / LD100U Line  
Doubler is provided by an RS-232 serial interface  
connector located on the rear panel of the unit. A  
external controller such as a computer or integrated  
system controller with an RS-232 interface may be  
used to control all user accessible functions of the  
Line Doubler.  
LD100/LD100U  
Line Doubler  
DATA TERMINAL or  
IBM PC  
DB25 (FEMALE)  
20 TxD  
DB25 (MALE)  
RxD 2  
TxD 3  
30 RxD  
GROUND 7  
70 GROUND  
40 RTS  
RS-232 controllable functions include: Video, Y/C  
(S-VHS), RGB, Component (YUV), Brightness,  
Contrast, Color, Tint, Noise Reduction, Detail Level,  
Auto-Tint, Digital Filter On/Off, Freeze On/Off, Echo  
On/Off, Help, Status and Return to Factory Preset.  
50 CTS  
60 DSR  
20 DTR  
CABLE SPECIFICATION: AMX AXC-232 Interface  
Communication Settings  
LD100/LD100U  
Line Doubler  
AMX AXC-232  
INTERFACE  
Communication with the LD100 Line Doubler is  
accomplished by setting the following conditions:  
9600, No Parity, 8 Data Bits and 1 Stop Bit. The fac-  
tory BUAD rate is set at 9600, but rates of 1200,  
2400 and 4800 are also available.  
DB25 (MALE)  
RxD 2  
3 TxD  
TxD 3  
2 RxD  
Baud Rate Selection  
GROUND 7  
1 GROUND  
To change the RS-232 BAUD rate, remove the top  
cover of the LD100 Line Doubler. A 4 switch Dip  
switch is located on the front panel. Set the switch-  
es from the table shown below. If the BAUD rate is  
changed, the LD100 MUST be powered off and  
then on for the new BAUD rate to take effect.  
CABLE SPECIFICATION:  
CRESTRON CNCOMH-2/CNMS Interface  
LD100/LD100U  
Line Doubler  
CRESTON CNCOMH-2  
INTERFACE  
DB25 (MALE)  
RxD 2  
3 TxD  
2 RxD  
DIP Switch Settings  
TxD 3  
Rate  
1
2
3
4
GROUND 7  
5 GROUND  
1200  
2400  
4800  
*9600  
ON  
OFF  
ON  
OFF  
ON  
ON  
OFF  
OFF  
ON  
ON  
ON  
ON  
ON  
ON  
ON  
ON  
* = Factory Preset  
INSTALLATION  
Interface to the LD100 Line Doubler is done by  
using a 3 wire interface. Interface schematics for the  
IBM-PC™, AMX™ and CRESTRON™ controllers  
are shown to the right.  
13  
 
APPENDIX A  
Programming the LD100  
Variable Adjustment Commands:  
Command Line  
The LD100 is programmed by means of a  
“Command Line”, which is an ASCII string of up to  
255 characters that contains one or more individual  
instructions to the LD100. The Command Line  
offers the best compromise between manual opera-  
tion via a data terminal and automatic control via a  
controller.  
B or b  
C or c  
K or k  
T or t  
Adjust Brightness Level  
This command is follow by an integer  
between 0(minimum) and 255(maximum).  
Example B1 or B12 or B123, ect.  
Adjust Contrast Level  
This command is follow by an integer  
between 0(minimum) and 255(maximum).  
Example C1 or C12 or C123, ect.  
Command Line Entry  
Adjust Color Level  
A Command Line can be entered in either upper or  
lower case by means of a data terminal or other  
controller. The Echo Mode determines the response  
of the LD100 to the incoming data stream. If the  
Echo Mode is ON (E1 command), the entered char-  
acters are echoed back to the host, and any mes-  
sage are sent in its entirety. IF Echo Mode is OFF  
(E0 command), no characters are sent to host.  
This command is follow by an integer  
between 0(minimum) and 255(maximum).  
Example K1 or K12 or K123, ect.  
Adjust Tint Phase  
This command is follow by an integer  
between 1(minimum) and 255(maximum).  
If the command T0 is entered, the Auto-  
Tint mode is active where as numbers  
from 1 to 255 are used, the Auto-Tint  
Function is bypassed. Example T1 or T12  
or T123, ect.  
Command Syntax  
Commands consist of a header followed by a key-  
word followed by additional parameters if needed.  
The header is used to identify the product, in the  
case the header is: LD100, . Keywords are single  
characters followed by integers (if needed). All com-  
mands must be separated by a comma ‘,’. White  
spaces are ignored and may be used. All com-  
mands strings are terminated by a CARRIAGE  
RETURN (0x0d). Commands may in entered in any  
order as the user see fit.  
N or n Adjust Noise Reduction Level  
This command is follow by an integer  
between 0(minimum) and 255(maximum).  
Example N1 or N12 or N123, ect.  
D or d  
Adjust Detail Level  
This command is follow by an integer  
between 0(minimum) and 255(maximum).  
Example D1 or D12 or D123, ect.  
Switch Commands:  
Commands  
A or a  
Digital Filter On / Off  
Source Input Select Commands:  
This command is followed by an integer of  
0 for off and 1 for on.  
V or v  
Y or y  
R or r  
X or x  
Select Video Input Mode  
This command is a single character  
command.  
F or f  
Freeze Mode On / Off  
This command is followed by an integer of  
0 for off and 1 for on.  
Select Y/C Input Mode  
This command is a single character  
command.  
Other Commands:  
E or e  
Echo Function  
This command is followed by an integer of  
0 for off and 1 for on.  
Select RGB Input Mode  
This command is a single character  
command.  
P or p  
This command is a single character com-  
mand. This will return the LD100 to it’s  
factory preset condition.  
Select Component (YUV) Mode  
This command is a single character  
command.  
14  
 
APPENDIX A  
ST or st This command will return a string showing  
the current settings of the LD100.  
Example:  
LD100:B###,C###,K###,T###,N###,D###,V,T1,A1,F0  
(Y)  
(R)  
(X)  
Freeze  
Digital Filter  
Auto-Tint  
Input Select  
Detail Level  
Noise Level  
Tint Level  
Color Level  
Contrast Level  
Brightness Level  
Header  
HELP or help This command will return a list of  
commands used for the LD100  
Line Doubler.  
LD100 Local / Remote Operation  
The LD100 stores all of it’s settings in a Non-volatile  
ram and will return to the last known settings when  
the unit is power up. The only exception is the  
Freeze function. The Freeze function will be set off  
during the power up cycle.  
Command String Examples:  
Commands can be as simple as:  
LD100,B150(CR)  
to complex as  
When a command is received via the RS-232, only  
those functions are placed in the remote mode. If a  
pot function is set via the remote, it can be returned  
back to local mode by adjusting that function on the  
front panel. This is accomplished by creating a win-  
dow around that function when in remote mode. If  
that function is turned beyond the window setpoint,  
that function is returned to local mode and becomes  
active again.  
LD100,D240,N20,C150,B102,V,T0,A1,F0(CR)  
Note (CR) = Carriage Return (OxOd) or ASCII 13  
15  
 
APPENDIX B  
VGA Connector Pinout  
Function  
Red Video  
Pin  
1
2
Green Video  
3
Blue Video  
4
Not Used  
5
Ground  
6
Red Return (Ground)  
Green Return (Ground)  
Blue Return (Ground)  
Composite Sync  
Composite Sync Return (Ground)  
Not Used  
7
8
9
10  
11  
12  
13  
14  
15  
Not Used  
Figure 8  
Horizontal Sync  
Vertical Sync  
Not Used  
APPENDIX C  
Cable Lengths and Distribution Amplifiers  
Cable Type  
Maximum Length  
To aid in achieving the bet results from your installa-  
tion, we suggest the following minimum standards  
for cable runs when an LD100 is used.  
Mini BNC cables, 75 ohm  
1.15nS/Foot propagation  
100 Feet  
RG-59/U type cable, 75 ohm  
150 Feet  
200 Feet  
To preserve the video quality of the LD100, the  
signal path should be no more than –3db down at  
25 MHz through a 75 ohm cable. Any distribution  
amplifier should have a bandwidth no less than  
–3db down at 25 MHz.  
75 ohm precision video cable  
Belden 8281  
15 pin, high resolution VGA cables  
utilizing individual high resolution  
mini-coax cables for each signal from  
LD100 to monitor.  
25 Feet  
The following cable lengths are the maximum rec-  
ommended continuous lengths of 75 ohm coax  
cable with BNC connectors on each end as well as  
15 pin VGA cable (when using the VGA output).  
16  
 
SPECIFICATIONS  
LD100 Specifications  
LD100U Specifications  
INPUT SIGNALS (NTSC)  
Video  
525 Line 2:1 Interlace  
1Vp-p, Negative Sync  
714mV Luminance  
INPUT SIGNALS (NTSC)  
Video  
525 Line 2:1 Interlace  
1Vp-p, Negative Sync  
714mV Luminance  
Y/C  
Y/C (3.58) Non-Composite  
700m/Vp-p Y  
Y/C  
Y/C (3.58) Non-Composite  
700m/Vp-p Y  
286mVp-p C (Burst)  
700mVp-p Non-Composite,  
1Vp-p Composite  
286mVp-p C (Burst)  
700mVp-p Non-Composite,  
1Vp-p Composite  
RGB  
RGB  
Component  
Y(1V w/Sync), R-Y(714mV),  
B-Y(714mV)  
YUV  
Y(1V w/Sync), R-Y(714mV),  
B-Y(714mV)  
Composite Sync  
Negative, > 4Vp-p Composite  
Composite Sync  
Negative, > 4Vp-p Composite  
INPUT SIGNALS (PAL)  
Video  
625 Line 2:1 Interlace  
1Vp-p, Negative Sync  
700mV Luminance  
Y/C (4.43) Non-Composite  
700m/Vp-p Y  
286mVp-p C (Burst)  
700mVp-p Non-Composite,  
1Vp-p Composite  
Y(1V w/Sync), U(700mV),  
V(700mV)  
OUTPUT SIGNALS (NTSC)  
525 Line Progressive  
Scan/1050 Line per Frame  
Non-composite, Positive,  
714mVp-p  
59.94Hz, Negative, 4Vp-p,  
75 Ohm  
31.5KHz, Negative, 4Vp-p,  
75 Ohm  
31.5KHz/59.94Hz, Negative,  
4Vp-p, 75 Ohm  
R, G, B  
Y/C  
Vertical Sync  
Horizontal Sync  
Composite Sync  
VGA Standard  
RGB  
YUV  
Composite Sync  
Negative, > 4Vp-p Composite  
15 Pin ‘D’ Connector,  
VGA Standard  
OUTPUT SIGNALS (NTSC)  
525 Line Progressive  
Scan/1050 Line per Frame  
Non-composite, Positive,  
714mVp-p  
59.94Hz, Negative, 4Vp-p,  
75 Ohm  
31.5KHz, Negative, 4Vp-p,  
75 Ohm  
31.5KHz/59.94Hz, Negative,  
4Vp-p, 75 Ohm  
LUMINANCE  
Input Conditions  
Output Conditions  
R, G, B  
Low-Pass Filter: -3db @ 11MHz  
Low-Pass Filter: -3db @ 22MHz  
Vertical Sync  
Horizontal Sync  
Composite Sync  
VGA Standard  
CHROMINANCE  
Input Conditions  
Output Conditions  
Low-Pass Filter: -3db @ 6MHz  
Low-Pass Filter: -3db @ 12MHz  
PROPAGATION DELAY  
POWER CONSUMPTION  
1 Field + 2.5 Lines  
15 Pin ‘D’ Connector,  
VGA Standard  
100-250 VAC, 50/60Hz,  
60W, Auto Ranging  
OUTPUT SIGNALS (PAL)  
625 Line Progressive  
Scan/1250 Line per Frame  
Non-composite, Positive,  
700mVp-p  
50Hz, Negative, 4Vp-p, 75 Ohm  
31.2KHz, Negative, 4Vp-p,  
75 Ohm  
FUSE  
2 Amp, Slo-Blow AGC-2A  
R, G, B  
DIMENSIONS  
17"W* x 3.5"H x 21"D  
(43.1cm x 8.9cm x 53.3 cm)  
Vertical Sync  
Horizontal Sync  
WEIGHT  
22 lbs. (9.8Kg)  
Composite Sync  
VGA Standard  
31.2KHz/50Hz, Negative,  
4Vp-p, 75 Ohm  
15 Pin ‘D’ Connector,  
VGA Standard  
NOTE: 625 lines 50Hz component or RGB signals are  
usable with the LD100. Outputs are identical to those of  
the LD100U in that mode.  
LUMINANCE  
Input Conditions  
Output Conditions  
Low-Pass Filter: -3db @ 11MHz  
Low-Pass Filter: -3db @ 22MHz  
CHROMINANCE  
Input Conditions  
Output Conditions  
Low-Pass Filter: -3db @ 6MHz  
Low-Pass Filter: -3db @ 12MHz  
PROPAGATION DELAY  
1 Field + 2.5 Lines (NTSC)  
1 Field +3.5 Lines (PAL)  
POWER CONSUMPTION  
100-250 VAC, 50/60Hz,  
60W, Auto Ranging  
FUSE  
2 Amp, Slo-Blow AGC-2A  
DIMENSIONS  
17"W* x 3.5"H x 21"D  
(43.1cm x 8.9cm x 53.3 cm)  
WEIGHT  
22 lbs. (9.8Kg)  
*19" (48.26cm) with rack mount ears  
*19" (48.26cm) with rack mount ears  
Design and specifications are subject to change without notice.  
Design and specifications are subject to change without notice.  
17  
 
WARRANTY INFORMATION  
All FAROUDJA Laboratories products are warranted to the original purchase against  
defective materials and workmanship under normal use and service for a period of one  
(1) year from the date of shipment. This warranty shall be of no force and effects if mod-  
ifications have been made by the purchaser or its agents or employees or if damage  
results from connecting the product to incompatible equipment or power. This warranty  
will also be void if the product is not returned to FAROUDJA Laboratories in the original  
shipping container.  
The purchaser’s sole remedy with respect to the breach of this warranty is for the sell-  
ing distributor to repair or replace, at its option, those products which the selling distrib-  
utor determines to have breached this warranty within the specified period.  
Any claims under this warranty should be made by telephone or in writing to the selling  
distributor or FAROUDJA Laboratories. No products should be returned to the selling  
distributor or to FAROUDJA Laboratories without its prior consent, and then, only with  
freight prepaid. FAROUDJA Laboratories will prepay the return shipment.  
Specifications and price change privileges are reserved.  
THIS WARRANTY IS IN LIEU OF ALL OTHER WARRANTIES EXPRESSED OR  
IMPLIED INCLUDING, WITHOUT LIMITATIONS, ANY IMPLIED WARRANTY FOR  
MERCHANTABILITY OR FITNESS FOR A PARTICULAR PURPOSE.  
FAROUDJA Laboratories  
750 Palomar Ave., Sunnyvale, California 94086  
Tel: 408-735-1492 Fax: 408-735-8571  
18  
 

Kyocera Printer KM C830 User Manual
Lennox Hearth Indoor Fireplace C160 User Manual
LG Electronics Blu ray Player GR D270 User Manual
Liebherr Freezer CS 1400 7082 663 00 User Manual
Life Fitness Elliptical Trainer X30 0000 01 User Manual
Linksys Switch EZXS55W v2 User Manual
Listen Technologies Stereo Receiver AO 6004 User Manual
Marshall electronic Musical Instrument Amplifier MC 0105 User Manual
Memorex TV DVD Combo MVD2019 User Manual
Midland Radio Two Way Radio GXT500 Series User Manual