Sony CPD-E530 Service Manual ▷ View online
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CPD-E530
4-089-777-11 (1)
Appendix
Preset mode timing table
If the input signal does not match one of the factory preset modes
above, the Generalized Timing Formula feature of this monitor
will automatically provide an optimal image for the screen as long
as the signal is GTF compliant.
above, the Generalized Timing Formula feature of this monitor
will automatically provide an optimal image for the screen as long
as the signal is GTF compliant.
No. Resolution
(dots
×
lines)
Horizontal
Frequency
Frequency
Vertical
Frequency
Frequency
Graphics
Mode
Mode
1
640
×
480
31.5 kHz
60 Hz
VGA-G
2
640
×
480
37.5 kHz
75 Hz
EVGA
3
640
×
480
43.3 kHz
85 Hz
VESA
4
720
×
400
31.5 kHz
70 Hz
VGA-Text
5
720
×
400
37.9 kHz
85 Hz
VESA
6
800
×
600
37.9 kHz
60 Hz
SVGA
7
800
×
600
46.9 kHz
75 Hz
VESA
8
800
×
600
53.7 kHz
85 Hz
VESA
9
832
×
624
49.7 kHz
75 Hz
Macintosh
16" Color
10 1024
×
768
48.4 kHz
60 Hz
VESA
11 1024
×
768
56.5 kHz
70 Hz
VESA
12 1024
×
768
60.0 kHz
75 Hz
EUVGA
13 1024
×
768
60.2 kHz
75 Hz
Macintosh
19" Color
14 1024
×
768
68.7 kHz
85 Hz
VESA
15 1152
×
864
67.5 kHz
75 Hz
VESA
16 1152
×
864
77.5 kHz
85 Hz
VESA
17 1152
×
870
68.7 kHz
75 Hz
Macintosh
21" Color
18 1280
×
960
60.0 kHz
60 Hz
VESA
19 1280
×
960
85.9 kHz
85 Hz
VESA
20 1280
×
1024
64.0 kHz
60 Hz
VESA
21 1280
×
1024
80.0 kHz
75 Hz
VESA
22 1280
×
1024
91.1 kHz
85 Hz
VESA
23 1600
×
1200
75.0 kHz
60 Hz
VESA
24 1600
×
1200
81.3 kHz
65 Hz
VESA
25 1600
×
1200
87.5 kHz
70 Hz
VESA
26 1600
×
1200
93.8 kHz
75 Hz
VESA
27 1600
×
1200
106.3 kHz
85 Hz
VESA
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CPD-E530
4-093-861-11 (1)
TCO’99 Eco-document
x
Congratulations!
You have just purchased a TCO’99 approved and labelled
product! Your choice has provided you with a product developed
for professional use. Your purchase has also contributed to
reducing the burden on the environment and also to the further
development of environmentally adapted electronics products.
product! Your choice has provided you with a product developed
for professional use. Your purchase has also contributed to
reducing the burden on the environment and also to the further
development of environmentally adapted electronics products.
x
Why do we have environmentally labelled
computers?
computers?
In many countries, environmental labelling has become an
established method for encouraging the adaptation of goods and
services to the environment. The main problem, as far as
computers and other electronics equipment are concerned, is that
environmentally harmful substances are used both in the products
and during their manufacture. Since it is not so far possible to
satisfactorily recycle the majority of electronics equipment, most
of these potentially damaging substances sooner or later enter
nature.
established method for encouraging the adaptation of goods and
services to the environment. The main problem, as far as
computers and other electronics equipment are concerned, is that
environmentally harmful substances are used both in the products
and during their manufacture. Since it is not so far possible to
satisfactorily recycle the majority of electronics equipment, most
of these potentially damaging substances sooner or later enter
nature.
There are also other characteristics of a computer, such as energy
consumption levels, that are important from the viewpoints of
both the work (internal) and natural (external) environments.
Since all methods of electricity generation have a negative effect
on the environment (e.g. acidic and climate-influencing
emissions, radioactive waste), it is vital to save energy.
Electronics equipment in offices is often left running
continuously and thereby consumes a lot of energy.
consumption levels, that are important from the viewpoints of
both the work (internal) and natural (external) environments.
Since all methods of electricity generation have a negative effect
on the environment (e.g. acidic and climate-influencing
emissions, radioactive waste), it is vital to save energy.
Electronics equipment in offices is often left running
continuously and thereby consumes a lot of energy.
x
What does labelling involve?
This product meets the requirements for the TCO’99 scheme
which provides for international and environmental labelling of
personal computers. The labelling scheme was developed as a
joint effort by the TCO (The Swedish Confederation of
Professional Employees), Svenska Naturskyddsforeningen (The
Swedish Society for Nature Conservation) and Statens
Energimyndighet (The Swedish National Energy
Administration).
which provides for international and environmental labelling of
personal computers. The labelling scheme was developed as a
joint effort by the TCO (The Swedish Confederation of
Professional Employees), Svenska Naturskyddsforeningen (The
Swedish Society for Nature Conservation) and Statens
Energimyndighet (The Swedish National Energy
Administration).
Approval requirements cover a wide range of issues:
environment, ergonomics, usability, emission of electric and
magnetic fields, energy consumption and electrical and fire
safety.
environment, ergonomics, usability, emission of electric and
magnetic fields, energy consumption and electrical and fire
safety.
The environmental demands impose restrictions on the presence
and use of heavy metals, brominated and chlorinated flame
retardants, CFCs (freons) and chlorinated solvents, among other
things. The product must be prepared for recycling and the
manufacturer is obliged to have an environmental policy which
must be adhered to in each country where the company
implements its operational policy.
and use of heavy metals, brominated and chlorinated flame
retardants, CFCs (freons) and chlorinated solvents, among other
things. The product must be prepared for recycling and the
manufacturer is obliged to have an environmental policy which
must be adhered to in each country where the company
implements its operational policy.
The energy requirements include a demand that the computer and/
or display, after a certain period of inactivity, shall reduce its
power consumption to a lower level in one or more stages. The
length of time to reactivate the computer shall be reasonable for
the user.
or display, after a certain period of inactivity, shall reduce its
power consumption to a lower level in one or more stages. The
length of time to reactivate the computer shall be reasonable for
the user.
Labelled products must meet strict environmental demands, for
example, in respect of the reduction of electric and magnetic
fields, physical and visual ergonomics and good usability.
example, in respect of the reduction of electric and magnetic
fields, physical and visual ergonomics and good usability.
Below you will find a brief summary of the environmental
requirements met by this product. The complete environmental
criteria document may be ordered from:
requirements met by this product. The complete environmental
criteria document may be ordered from:
TCO Development
SE-114 94 Stockholm, Sweden
Fax: +46 8 782 92 07
Email (Internet): development@tco.se
Current information regarding TCO’99 approved and labelled
products may also be obtained via the Internet, using the
address: http://www.tco-info.com/
products may also be obtained via the Internet, using the
address: http://www.tco-info.com/
x
Environmental requirements
Flame retardants
Flame retardants are present in printed circuit boards, cables,
wires, casings and housings. Their purpose is to prevent, or at
least to delay the spread of fire. Up to 30% of the plastic in a
computer casing can consist of flame retardant substances. Most
flame retardants contain bromine or chloride, and those flame
retardants are chemically related to another group of
environmental toxins, PCBs. Both the flame retardants containing
bromine or chloride and the PCBs are suspected of giving rise to
severe health effects, including reproductive damage in fish-
eating birds and mammals, due to the bio-accumulative*
processes. Flame retardants have been found in human blood and
researchers fear that disturbances in foetus development may
occur.
wires, casings and housings. Their purpose is to prevent, or at
least to delay the spread of fire. Up to 30% of the plastic in a
computer casing can consist of flame retardant substances. Most
flame retardants contain bromine or chloride, and those flame
retardants are chemically related to another group of
environmental toxins, PCBs. Both the flame retardants containing
bromine or chloride and the PCBs are suspected of giving rise to
severe health effects, including reproductive damage in fish-
eating birds and mammals, due to the bio-accumulative*
processes. Flame retardants have been found in human blood and
researchers fear that disturbances in foetus development may
occur.
The relevant TCO’99 demand requires that plastic components
weighing more than 25 grams must not contain flame retardants
with organically bound bromine or chlorine. Flame retardants are
allowed in the printed circuit boards since no substitutes are
available.
weighing more than 25 grams must not contain flame retardants
with organically bound bromine or chlorine. Flame retardants are
allowed in the printed circuit boards since no substitutes are
available.
Cadmium**
Cadmium is present in rechargeable batteries and in the colour-
generating layers of certain computer displays. Cadmium
damages the nervous system and is toxic in high doses. The
relevant TCO’99 requirement states that batteries, the colour-
generating layers of display screens and the electrical or
electronics components must not contain any cadmium.
generating layers of certain computer displays. Cadmium
damages the nervous system and is toxic in high doses. The
relevant TCO’99 requirement states that batteries, the colour-
generating layers of display screens and the electrical or
electronics components must not contain any cadmium.
Mercury**
Mercury is sometimes found in batteries, relays and switches. It
damages the nervous system and is toxic in high doses. The
relevant TCO’99 requirement states that batteries may not contain
any mercury. It also demands that mercury is not present in any of
the electrical or electronics components associated with the
labelled unit.
damages the nervous system and is toxic in high doses. The
relevant TCO’99 requirement states that batteries may not contain
any mercury. It also demands that mercury is not present in any of
the electrical or electronics components associated with the
labelled unit.
CFCs (freons)
The relevant TCO’99 requirement states that neither CFCs nor
HCFCs may be used during the manufacture and assembly of the
product. CFCs (freons) are sometimes used for washing printed
circuit boards. CFCs break down ozone and thereby damage the
ozone layer in the stratosphere, causing increased reception on
earth of ultraviolet light with e.g. increased risks of skin cancer
(malignant melanoma) as a consequence.
HCFCs may be used during the manufacture and assembly of the
product. CFCs (freons) are sometimes used for washing printed
circuit boards. CFCs break down ozone and thereby damage the
ozone layer in the stratosphere, causing increased reception on
earth of ultraviolet light with e.g. increased risks of skin cancer
(malignant melanoma) as a consequence.
Lead**
Lead can be found in picture tubes, display screens, solders and
capacitors. Lead damages the nervous system and in higher doses,
causes lead poisoning. The relevant TCO’99 requirement permits
the inclusion of lead since no replacement has yet been developed.
capacitors. Lead damages the nervous system and in higher doses,
causes lead poisoning. The relevant TCO’99 requirement permits
the inclusion of lead since no replacement has yet been developed.
* Bio-accumulative is defined as substances which accumulate
within living organisms.
** Lead, Cadmium and Mercury are heavy metals which are Bio-
accumulative.
Sony Corporation Printed in USA
01GB01COV-AEP.book Page ii Thursday, April 11, 2002 10:20 AM
PRINTING THE SERVICE MANUAL
The PDF of this service manual is not designed to be printed from cover to cover. The pages vary in size, and must therefore be printed in sections
based on page dimensions.
based on page dimensions.
NON-SCHEMATIC PAGES
Data that does NOT INCLUDE schematic diagrams are formatted to 8.5 x 11 inches and can be printed on standard letter-size and/or A4-sized paper.
SCHEMATIC DIAGRAMS
The schematic diagram pages are provided in two ways, full size and tiled. The full-sized schematic diagrams are formatted on paper sizes between
8.5” x 11” and 18” x 30” depending upon each individual diagram size. Those diagrams that are LARGER than 11” x 17” in full-size mode have been
tiled for your convience and can be printed on standard 11” x 17” (tabloid-size) paper, and reassembled.
8.5” x 11” and 18” x 30” depending upon each individual diagram size. Those diagrams that are LARGER than 11” x 17” in full-size mode have been
tiled for your convience and can be printed on standard 11” x 17” (tabloid-size) paper, and reassembled.
TO PRINT
FULL SIZE
SCHEMATIC DIAGRAMS
If you have access to a large paper plotter or printer capable of outputting the full-sized diagrams, output as follows:
1) Note the page size(s) of the schematics you want to output as indicated in the middle window at the bottom of the viewing screen.
2) Go to the File menu and select Print Set-up. Choose the printer name and driver for your large format printer. Con fi rm that the printer settings
are set to output the indicated page size or larger.
3) Close the Print Set Up screen and return to the File menu. Select “Print...” Input the page number of the schematic(s) you want to print in the
print range window. Choose OK.
TO PRINT
TILED VERSIO
N OF SCHEMATICS
Schematic pages that are larger than 11” x 17” full-size are provided in a 11” x 17” printable tiled format near the end of the document. These can be
printed to tabloid-sized paper and assembled to full-size for easy viewing.
printed to tabloid-sized paper and assembled to full-size for easy viewing.
If you have access to a printer capable of outputting the tabloid size (11” x 17”) paper, then output the tiled version of the diagram as follows:
1) Note the page number(s) of the schematics you want to output as indicated in the middle window at the bottom of the viewing screen.
2) Go to the File menu and select Print Set-up. Choose the printer name and driver for your printer. Con fi rm that the plotter settings are set to output
11” x 17”, or tabloid size paper in landscape (
) mode.
3) Close the Print Set Up screen and return to the File menu. Select “Print...” Input the page number of the schematic(s) you want to print in the
print range window. Choose OK.
TO PRINT
SPECIFIC SECTIONS
OF A SCHEMATIC
To print just a particular section of a PDF, rather than a full page, access the Graphics Select tool in the Acrobat Reader tool bar.
1) To view the Graphics Select Tool, press and HOLD the mouse button over the Text Select Tool which looks like:
This tool will expand to reveal to additional tools.
Choose the Graphics Select tool by placing the cursor over the button on of the far right that looks like:
Choose the Graphics Select tool by placing the cursor over the button on of the far right that looks like:
2) After selecting the Graphics Select Tool, place your cursor in the document window and the cursor will change to a plus (+) symbol. Click and
drag the cursor over the area you want to print. When you release the mouse button, a marquee (or dotted lined box) will be displayed outlining
the area you selected.
the area you selected.
3) With the marquee in place, go to the fi le menu and select the “Print...” option. When the print window appears, choose the option under the section
called “Print Range” which says “Selected Graphic”.
Select OK and the output will print only the area that you outlined with the marquee.
(continued
>)
T
ON-SCREEN SEARCH OPTION
All of the text within the service manual PDF is content searchable. This means that you can enter any text, word, phrase or reference number that
appears in the manual, and the PDF software will search, fi nd and move the cursor to the location where you requested text fi rst appears. This feature
can be particularly useful in locating components on a specifi c schematic or printed wire circuit board (PWB) diagrams.
appears in the manual, and the PDF software will search, fi nd and move the cursor to the location where you requested text fi rst appears. This feature
can be particularly useful in locating components on a specifi c schematic or printed wire circuit board (PWB) diagrams.
Follow these steps to effectively locate a component on a schematic diagram:
1) Locate the schematic you want to search by clicking on the corresponding bookmark on the left side of the screen. The view on the right of the
screen will then jump to the desired schematic page.
2) Magnify the diagram to at least 400% before conducting a component search. This will enable you to easily view the reference number when
it is highlighted on screen. To do this, click on the magnifying glass button on the tool bar at the top of the screen. Move the cursor over the
diagram and RIGHT click you mouse. Select the 400% magnifi cation option on the pop-up menu. Click on the button with the icon of the open
hand to deactivate the magnifi cation tool
diagram and RIGHT click you mouse. Select the 400% magnifi cation option on the pop-up menu. Click on the button with the icon of the open
hand to deactivate the magnifi cation tool
3) Search the diagram (or the entire manual) by clicking on the binocular button tool at the top of the screen. The “Find” window will appear and
allow you to type in your desired text. Type in a reference designator, such as R502, and click on the “Find” button. If the component is not on the
diagram, but is listed anywhere else in the manual, the cursor will jump to the fi rst location the text is found in the fi le. To fi nd another instance of
that same text, click on the binocular button again and select “Find Again.”
diagram, but is listed anywhere else in the manual, the cursor will jump to the fi rst location the text is found in the fi le. To fi nd another instance of
that same text, click on the binocular button again and select “Find Again.”
