Revision History .......................................................................................................100
4
IND100130-53
Page 5
Contents of package
Note: Entries listed below are for Standard factory shipments. Customized factory shipments may deviate from this list.
ItemDescriptionIllustration
1 pcs of DP to DP (DisplayPort 1.2) Signal Cable.
DP 20P Male to DP 20P Male - Length 2.0m
VSD101004-1
TP52/TC11-1.8M
TP11/TC11-1.8M
MEDIA STD01
1 pcs of power cable European Type F “Schuko” to IEC.
Length 1.8m
1 pcs of power cable US Type B plug to IEC.
Length 1.8m
Documentation and Driver DVD/CD containing the user manual, including the Touch Screen
driver for units delivered with a factory mounted touch screen. For most recent drivers, please
visit “www.hatteland-display.com/archive”
In some cases (due to revisions) a provisonal CD (PRO02-xxx) may be delivered with the unit
instead.
Test Report
EN60945 Tested Bracket Kit suitable for console/panel mounting which contains:
3 x Mounting Bracket for top, left and right side
1 x Mounting Bracket for bottom side (terminal/connector plate area)
8 x M5x16 screws
8 x C-Washers
EUR TYPE F
US TYPE B
IEC
IEC
Menu browser
for Microsoft®
Windows®
Operating Systems
HD CMB SX2-E1
Terminal Block Connector Kit as follows (may in some cases be already factory mounted):
1 x 2-pin Terminal Block 5.08 for DC Power In
2 x 5-pin Terminal Block 3.81 for RS-422 / RS-485 / SCOM / Buzzer Module
Refer to “Conguring Housing / Terminal Block Connector” section for usage.
IP66 Mount Gasket (EPDM), for Flush/Console mount (L-shaped). Both L-shaped gaskets
are mounted on rear of unit as indicated.
Package may also include:
ItemDescriptionIllustration
VSD100913-1
2X-EA12
1 pcs of Touch Screen Cable (Black) USB Type A to Type A.
Length Approx 2m.
Only included in package if model is equipped with factory mounted Touch Screen
4 x ATEN LockPro HDMI/DP Cablelock
IND100131-35
5
Page 6
This page left intentionally blank
6
Page 7
General
7
Page 8
Hatteland Technology AS
About this manual
The manual contains electrical, mechanical and input/output signal specications. All specications in this manual,
due to manufacturing, new revisions and approvals, are subject to change without notice. However, the last updated
and revision date of this manual are shown both on the frontpage and also in the “Revision History” chapter. This
user manual is a standard/general manual that applies to all variations of its product family, i.e. deviation from actual
conguration may exist.
Furthermore, for third party datasheets and user manuals, please see dedicated “Documentation and Driver DVD”
delivered with the product or contact our sales/technical/helpdesk personnel for support.
About Hatteland Technology
Hatteland Technology is the leading technology provider of specialized display and computer products, delivering high
quality, unique and customized solutions to the international maritime, naval and industrial markets.
The company represents innovation and quality to the system integrators worldwide. Effective quality assurance and
investment in sophisticated in-house manufacturing methods and facilities enable us to deliver Type Approved and Mil
tested products. Our customer-oriented approach, technical knowledge and dedication to R&D, makes us a trusted
and preferred supplier of approved solutions, which are backed up by a strong service network.
www.hattelandtechnology.com
You will nd our website full of useful information to help you make an informed choice as to the right product for your
needs. You will nd detailed product descriptions and specications for the entire range on Displays, Computers and
Panel Computers, Military solutions as well as the range of supporting accessories. The site carries a wealth of
information regarding our product testing and approvals in addition to company contact information for our various
ofces around the world, the global service locations and the technical help desk, all ensuring the best possible
support wherever you, or your vessel, may be in the world.
Contact Information
Sales ofce, Frankfurt / Germany:
Hatteland Display GmbH
Head ofce, Aksdal / Norway:
Hatteland Technology AS
Eikeskogvegen 52
N-5570 Aksdal, Norway
Switchboard:
Tel: +47 4814 2200
mail@hattelandtechnology.com
Sales ofce, Oslo / Norway:
Hatteland Technology AS
Strandveien 35
N-1366 Lysaker
Norway
Switchboard:
Tel: +47 4814 2200
mail@hattelandtechnology.com
Sales ofce, Vista / USA:
Hatteland Display Inc
450 South Melrose Drive,
Suite #107
Vista, CA 92081
USA
Donna Pallonetti:
Tel: +1 858-282-0659
Fax: +1 858-408-1834
Mehdi Bounoua (Sales Director Europe, Middle East & Africa):
For an up-2-date list, please visit www.hatteland-display.com/locations
Werner Heisenberg Strasse 12,
D-63263 Neu-Isenburg, Germany
Uwe Scheumann:
Tel: +45 2463 9565
Elke Freisens:
Tel: +49 6102 370953
Goetz Vogelmann: (Sales Director ASIA)
Tel: +49 (0) 6102 37 09 54
Sales ofce, Aix-en-Provence / France:
Hatteland Display SAS
Actimart- 1140, rue Ampère, CS 80544
13594 Aix-en-Provence, Cedex 3
France
Tel : +33 6 88 33 64 93
IND100077-1
General
8
Page 9
Multi Vision Displays - Series X
Multi Vision Display (MVD) - Introduction
The Series X MVD provides unmatched viewing clarity in all light conditions. Its ultramodern approach represents
the pinnacle of maritime display technology, making it the most advanced platform for the development of a new
generation of sophisticated, function rich and user-friendly bridge technologies that demand only the best display
solutions to ensure increased navigational safety and efficiency on the bridge.
With Ultra High Definition resolution and superior brightness and contrast, the cutting-edge LED display technology
used in the Series X MVD enables the presentation of large amounts multi-application data on a single screen instead
of multiple displays. This enables technology developers and systems integrators to streamline console designs
and make operation of their complex vessel control solutions easier, while reducing installation costs and improving
reliability by using fewer overall components for bridge system development.
Approved for harsh maritime environments where reliability and long life time are key factors, the Series X MVD
display is a robust, flexible and ergonomic solution, suitable for a wide range of bridge applications including ECDIS,
radar, voyage planning, safety systems and tactical command & control platforms. Features include console or bracket
mounting, an optional 40 point Multi-touch interface, optical bonding, multi-data input, built in On-Screen Display
(OSD), full dimming and the option to be supplied calibrated for ECDIS.
• 4K UHD - DisplayPort (DP) & HDMI inputs
• LED Backlight Technology
• Full Dimming 100%
• Multi-Touch Option
• Superior Optical Bonding Option
• Resolution at 3840 x 2160 (4K)
• Console Mount Option
• VESA Mount Option
• Table / Ceiling Mount Option
• ECDIS & Radar Compliant
• EN60945 Tested and Type Approved
IND101057-15
General
9
Page 10
Product Labeling
Introduction
This section details the locations, content details and specications for factory mounted labels for all currently
available standard Hatteland Technology Maritime Multi Vision (MVD) models. This information will in most cases also
apply for most Customized Models as well, but may differ based on customer requirements, in that case, please refer
to the customized User Manual.
Label Size and Types
IDLabel LayoutDescriptionSpecication
Please note that typenumber shown
above is a generic sample only. May
not reect products mentioned in this
manual. Please review actual product
S/N label.
Type : Serial Number Label
Name : Label B
Size : 60mm wide x 20mm high (rectangle size)
Note: Text content of label will match specications
derived from Data Sheet.
Barcode type: CODE128 (used extensively world wide in shipping and packaging
industries. The symbology was formerly dened as ISO/IEC 15417:2007.)
Type : Touch Screen Label
Name : Label B
Size : 60mm wide x 20mm high (rectangle size)
Note: Only present if Touch Screen was part of factory
option order.
Note: Content on label will vary based on Touch Screen type and/or Touch Screen
Controller. Label shown to the right is for illustration purposes only!
Type : Warranty Label
Size : 30mm wide x 23mm high (oval size)
Silver with glue on back, nontearable and made for thermal
transfer printing.
Silver with glue on back, nontearable and made for thermal
transfer printing.
Tamper-proof sticker with glue on
back.
Type : Quality Control (QC) Label
Size : 30mm wide x 23mm high (oval size)
Ordinary sticker with glue on
back.
Warranty Label
If you are to perform service on a unit still under warranty, any warranty will be void if this label show signs of removal
attempts or damaged by screw driver. This label is located on the back of the product and covers a key screw. This is
to aid service departments in determining if there has been any unauthorized service on a unit still under warranty.
Quality Control (QC) Label
This label indicates that the unit is produced, tested and packed according to the manufacture’s QA specications. It
will include a Personal ID and signature by the personnel responsible for approving the unit in production, testing and
warehouse departments.
IND100077-167
10
Page 11
Product Labeling
Label Locations
Number ID and coloring based on “Label Size and Types“ table from previous page. All illustrations below are seen
from rear (and side where needed) with connectors facing down. Actual labels regarding its size and text orientation
vs product size is drawn in. Due to space restrictions on selected units, some labels will be rotated 90 degrees to t
properly. The arrangement of labels may be shifted/stacked differently as it is based on factory options, such as; Touch
Screen, but they will be grouped together where possible.
Label PositionsNotesApplies for Product
Warranty label covers screw.
Labels placed on rear.
- Serial Number Label
- Touch Screen Label (if applicable)
- QC Label
- Warranty Label
HD 32T22 MVD-MAx-AxGx
IND100077-167
11
Page 12
Touch screen products
Introduction to products with touch screen
Nearly all of our products with touch screen use Projected Capacitive Touch screen (PCTS), widely used with great
success on mobile phones and typical pad devices. PCTS can be equally effective also for marine applications.
One of the advantages of PCTS is that it has features seen in both resistive and surface capacitive touch screen
technologies.
Multitouch is dened as the ability to recognize two or more simultaneous touch points. Using projected capacitive
technology allows us to create a more intuitive form of human-device interaction. Touch interface gestures, supported by
projected capacitive sensors, can simplify the interface and provide an intuitive user experience that goes beyond the
typical "button replacement" found in most simple touch interfaces.
Please review the appropriate Product Datasheet (in this manual) to determine if PCTS are supported and/or its
advanced features of additional touch methods (example Tactor and Active Stylus Pen) are available.
The technical benets of PCTS are:
- Very good optical performance (same as surface capacitive)
- Environmentally strong, the touch sensor is inside the product (better than both surface capacitive and resistive)
- Supports Multitouch (Newer Operating System (OS) required in most cases.
- Excellent readability - light transmission of up to 91% through a standard sensor
- Stability - no drift, therefore no recalibration is required
- Pointing device - works with gloved and ungloved finger
- Resistance to contamination - by harsh cleaning fluids and other noxious substances
- Communicates via USB to external computer or internally
Comparisons between general Touch Technologies used by Hatteland Technology:
*Projected Capacitive (PCTS) / Water: Touch Screen Glass Surface can withstand drip and direct rain, but expect reduced capability, detection and
performance if unit are exposed to these factors while powered. Hatteland Technology recommends protecting the unit from direct rain or drips if
critical touch operations are to be performed. Take necessary steps (if detected or suspected) within the installation environment to prevent accidental
touch gestures or presses not performed intentionally by a human operator.
--++++----++---+---++++ *++++++++
Touchscreen
IND100110-12
12
Page 13
Touch screen products
Touch Screen Drivers
All units with Touch Screens are automatically detected by the Operating System via HID. There is no need to install
additional Third-Party touch screen drivers.
- Please use Windows® Generic HID driver, no specic driver needed to use multi-touch.
Microsoft® Windows® XP - For 32, 43 and 55 inch units:
- Multi-Touch Screen is not supported for this Operating System.
- Alternative Single Touch / Mouse Mode not supported.
Ref: OS End-of-Life: https://www.hatteland-display.com/mails/09_2016_eol.html
If you experience any deviation in the touch input accuracy, consider re-calibrating the touch screen for your system.
Please use the standard Operating System functionality to calibrate.
Example for Microsoft® Windows® 10 IoT:
1.Open Control Panel.
2.Click on Hardware and Sound.
3.Under “Tablet PC Settings,” click the Calibrate the screen for pen or touch input link.
4.Under “Display options,” select the display (if applicable).
5.Click the Calibrate button.
6.Select the Touch input option
Example for Microsoft® Windows® 7:
1: Open Control Panel
2: Open “Tablet PC Settings”
3: Under “Display options,” select your display.
4: Click the Calibrate button and follow instructions
5: To save settings, click “Apply” or “OK” on the “Table PC Settings” window.
Linux
- Please use Linux Generic Touch driver. Use kernel 4.10 or later.
Touch screen
IND100110-13
13
Page 14
This page left intentionally blank
14
Page 15
Installation
15
Page 16
General Installation Recommendations
ATTENTION!
IND100148-5 - Rev 05
To prevent damage to chassis and glass, pleasereview the illustrations !
Place horizontally on a smooth and clean surface (table with cloth)
Do not stress the corners, nor place it on a coarse and/or dirty surface
CORRECT HANDLING!
WRONG HANDLING!
CORRECT HANDLING!
WRONG HANDLING!
Applies for non-bonded product only: If exposed to humidityin combination with temperature variations, product mightshow condensation on the glass (inside and outside).
Inside condensation can be removed by power on theproduct and set brightness to 100%. During minutes theinternal temperature rise will remove condensation.
Humidity Exposure Notice!
Do not stress the corners, nor place it on a coarse and/or dirty surface
WRONG HANDLING!
WRONG HANDLING!
Applies for non-bonded product only: If exposed to humidityin combination with temperature variations, product mightshow condensation on the glass (inside and outside).
Inside condensation can be removed by power on theproduct and set brightness to 100%. During minutes theinternal temperature rise will remove condensation.
Humidity Exposure Notice!
First Things First!
Installation and mounting
1. Most of our products are intended for various methods of installation or mounting (panel mounting, bracket
mounting, ceiling/wall, console mounting etc.); for details, please see the relevant mechanical drawings.
2. Adequate ventilation is a necessary prerequisite for the life of the product. The air inlet and outlet openings must
denitely be kept clear; coverings which restrict ventilation are not permissible.
3. Generally, do not install the unit in a horizontal position (laying down), as this will cause heat to build up inside the
unit which will damage the LCD Panel. To prevent this problem we recommend installing the unit in a vertical
position (±30 degrees) to improve the airow through the unit.
4. To further improve the thermal situation we recommend to use forced air passing by the product. In some cases,
convection based cooling can create “heat zones” around the product. This may be required in high temperature
applications and also when there is reason to expect temperature problems due to non-optimal way of mounting.
5. Exposure to extreme direct sunlight can cause a considerable increase in the temperature of the unit, and might
under certain circumstances lead to overtemperature. This point should already be taken into consideration when
the bridge equipment is being planned (sun shades, distance from the windows, ventilation, etc.)
6. Space necessary for ventilation, for cable inlets, for the operating procedures and for maintenance, must be
provided.
7. If the push buttons of the product are not illuminated, an external, dimmable illumination (IEC 60945 Ed. 4, 4.2.2.3,
e.g. Goose neck light) is required for navigational use. The illumination shall be free from glare and adjustable to
extinction.
8. Information about necessary pull-relievers for cables is indicated in the Physical Connection section of this manual.
Attention must be paid to this information so that cable breaks will not occur, e.g. during service work.
IND100078-43
Installation
16
Page 17
General Installation Recommendations
9. Do not paint the product. The surface treatment inuences the excess heat transfer. Painting, labels or other
surface treatments that differ from the factory default, might cause overheating.
10. Expose to heavy vibration and acoustic noise might under certain circumstances affect functionality and expected
lifetime. This must be considered during system assembly and installation. Mounting position must be carefully
selected to avoid any exposure of amplied vibration.
Installation limitations
Due to environmental factors, please review the points noted below.
A: Glass Display Control™ (GDC) front glass touch buttons:
As this uses Projected Capacitive technology (instead of conventional hard physical buttons and knobs),
the touch controller can react and is sensitive to raindrops (for outdoor installations). To ensure that
raindrops do not stay on the unit’s at glass surface, please do not mount the unit in a vertical angle lower
than ±30 degrees, i.e. at mounting of the unit. This is to prevent accidental touches that are similar to a
human nger (cover area for a x period of seconds) as well as make sure the raindrops are “moving” and
runs down off the glass surface.
The angle could potentionally be lower as the On Screen Display (OSD) menu offers a "OSD Key utdoor"
function with 5 seconds delay before activation on front glass functions. Please review the "OSD Menu
Functions" to learn more. In certain situations this might help, but is only suggested as a trouble-shooting
tip during installation or during short-term observer use if found suitable. It should not be considered as a
dentive trusted solution.
B: Projected Capacitive Technology (PCTouch) MULTITOUCH and in general Touch Screen glass:
For all units with a factory mounted touch screen and for outdoor use especially, please review point A above
regarding standing raindrops. Only solution to this situation is not to mount the unit in a vertical angle lower
than ±30 degrees, i.e. at mounting of the unit to ensure touch screen is not activated and accidentally
automatically chooses functions in your running chart, radar or other software installed.
C: General rule for console mounted units:
To ensure proper cooling airow, long-life and stable operation for all units, please make sure that the
console casing has either fans or decent ventilation holes to prevent overheating inside the console due to
the combined temperature Display units together with other electronic instruments. A general rule is to make
sure the console casing is capable of expelling “worst case scenario” in respect of the “Max Power
Consumption” of all devices installed. Please review also point 2, 5, 6 and 9 (previous section) for additional
information and installation tips.
IND100078-43
Installation
17
Page 18
General Installation Recommendations
General mounting instructions
1. The useful life of the components of all Electronics Units generally decreases with increasing ambient temperature;
it is therefore advisable to install such units in air-conditioned rooms. If there are no such facilities these rooms
must at least be dry, adequately ventilated and kept at a suitable temperature in order to prevent the formation of
condensation inside the display unit.
2. With most Electronic Units, cooling takes place via the surface of the casing. The cooling must not be impaired by
partial covering of the unit or by installation of the unit in a conned cabinet.
3. In the area of the wheel house, the distance of each electronics unit from the magnetic standard compass or the
magnetic steering compass must not be less than the permitted magnetic protection distance. This distance is
measured from the centre of the magnetic system of the compass to the nearest point on the corresponding unit
concerned.
4. Units which are to be used on the bridge wing must be installed inside the “wing control console” protected against
the weather. In order to avoid misting of the viewing screen, a 25 ... 50 W console-heating (power depending on the
volume) is recommended.
5. When selecting the site of a display unit, the maximum cable lengths have to be considered.
6. When a product is being installed, the surface base or bulkhead must be checked to ensure that it is at in order to
avoid twisting of the unit when the xing screws are tightened, because such twisting would impair mechanical
functions. Any unevenness should be compensated for by means of spacing-washers.
7. Products with AC input shall be grounded to protective Earth (Safety Ground) when necessary via the bolt (usually
on terminal plate) available on the product.
Products with DC input shall be grounded to protective Earth (Safety Ground) via the bolt (usually on terminal
plate) available on the product.
A shorter and thicker cable gives better grounding. A 6mm² is recommended, but a 4mm² or even 2.5mm² can be
used for this purpose.
8. Transportation damage, even if apparently insignicant at rst glance, must immediately be examined and be
reported to the freight carrier. The moment of setting-to-work of the equipment is too late, not only for reporting the
damage but also for the supply of replacements.
9. The classication is only valid for approved mounting brackets provided by Hatteland Technology. The unit shall be
mounted stand-alone without any devices or loose parts placed at or nearby the unit. Any other type of mounting
might require test and re-classication.
IND100078-43
Installation
18
Page 19
General Installation Recommendations
Ergonomics
1. The front surface of the display glass has an anti-reective (AR) coating which can be scratched and damaged with
improper cleaning. It is recommended to use only 90+% pure Isopropyl alcohol (Isopropanol) and a soft fabric
cloth for this rst cleaning. Fold a cloth into a small pad, dampen the cloth with alcohol, and wipe the glass from
one edge to the other in one direction with one continuous motion. The product glass will require cleaning as
needed. The soft cloth & alcohol wipe is recommended to clean ngerprints and oils off the glass. Water stains
(including coffee, tea & coke) should be rst cleaned off the glass with a soft fabric cloth wet with water,
immediately followed with wiping using an alcohol wetted cloth.
2. Adjust the unit height so that the top of the screen is at or below eye level. Your eyes should look slightly
downwards when viewing the middle of the screen.
3. Adjust screen inclination to allow the angle of gaze to remain at the centre of the screen approximately
perpendicular to the line of gaze.
4. When products are to be operated both from a sitting position and from a standing position, a screen inclination of
about 30° to 40° (from a vertical plane) has turned out to be favourable.
5. The brightness of displays is limited. Sunlight passing directly through the bridge windows - or its reection - which
fall upon the screen workplaces must be reduced by suitable means (negatively inclined window surfaces,
venetian blinds, distance from the windows, dark colouring of the deckhead).
6. The use of ordinary commercial lter plates or lter lms is not permitted for items of equipment that require
approval (by optical effects, “aids” of that kind can suppress small radar targets, for example).
7. For ECDIS applications, the minimum recommended viewing distance are as follows:
(IEC62288, Part 7.5 Screen resolution)
32 inch = 634mm
IND100078-43
Installation
19
Page 20
General Installation Recommendations
Cables
Use only high quality shielded signal cables.
Maximum Cable Length
Any cable should generally be kept as short as possible to provide a high quality input/output. The maximum signal
cable length will depend not only on the signal resolution and frequency, but also on the quality of the signal output from
the computer/radar.
Cable Entries & Connectors (Marked area)
Illustration below for smallest/largest sizes only.
Bottom ViewBack View
IND100078-43
Installation
20
Page 21
General Installation Recommendations
Housing / Terminal Block Connector Overview
Housing / Terminal Block connectors are available in different sizes (example 2-pin, 4-pin, 5-pin) which plug into the
connector area of the unit. They are mounted by factory default and delivered with the unit. The housing / terminal
block connectors have steering rails, which ensures that it can not be mounted wrong. The color of these connectors
may vary between black, green and orange depending on manufacturer. You may use approved equivalents of these
connectors, but note that the warranty will be void if any damage would occur to either the unit’s original PCB terminal
socket connector or inside the unit (electronic components, boards etc.). The table below is applicable for any Series
X products, such as Display and Panel Computers, including newer type of Stand-Alone Computers.
IllustrationPinsManufacturer DetailsConnector used for module
2-pinMSTB 2,5/ 2-STF-5,08 BK
• DC Power IN (24VDC) - Single Input
Screwdriver: SZS 0,6x3,5, slotheaded.
Tightening torque min. 0.5 Nm.
Tightening torque max 0.6 Nm.
5-pinMC 1,5/ 5-STF-3,81
Screwdriver: SZS 0,4X2,5mm
VDE, slot-headed.
Tightening torque min. 0.22 Nm.
Tightening torque max 0.25 Nm.
Identi ed on Hatteland Technology product datasheet as:
Identi ed on Hatteland Technology product datasheet as:
“Terminal Block 3.81”
If your installation requires additional cable fasteners support, please visit and purchase directly from manufacturer:
Illustrations below are approximate, actual Housing may deviate slightly, but function remains the same.
Below is a brief illustration that might be useful during conguration and installation of such connectors. You will need
suitable pre-congured cable(s) and tools to congure the connector(s) and cable(s) that are present in your
installation environment. Below is a sample procedure for a 2-pin DC power connector. The procedure is the same for
other connectors of this type as listed in table above. Unit used as illustration below is for reference only.
FIG 3
FIG 1
FIG 1: Unscrew (from top) or make sure that the screw terminal (square area) is fully open, so you can secure the
inserted cables correctly to the loose housing connector (it may already be plugged into the unit as per factory
installation).
FIG 2
FIG 4
FIG 2: Insert cables* (from front) and screw / secure the cables by turning the screw on top of the housing to secure
the cables properly. Check that the cables are rmly in place and do not appear loose or fall out when pulling gently.
*Note: Required polarization verication (for instance -/+ for DC power input) should conform with the markings on
the connector area of the unit. Ignoring the markings on the unit or its add-on modules might damage the unit and/or
external equipment in which end, warranty will be void.
FIG 3: Plug the housing into the appropriate connector area of the unit (glass should be facing down) and check again
that the cables secured conforms with the markings on the connector area of the unit. Finalize the installation by
fastening the screws located in front on each side of the housing connector (FIG 4).
Connector / FunctionRecommended Cable Thickness
2-pin DC Power Input (Terminal Block 5.08) Minimum 20 AWG - Maximum 18 AWG
4-pin CAN (Terminal Block 3.81) Minimum 22 AWG - Maximum 20 AWG
5-pin NMEA COM (Terminal Block 3.81) Minimum 22 AWG - Maximum 18 AWG
5-pin DIO (Terminal Block 3.81) Minimum 22 AWG - Maximum 18 AWG
IND100210-21
Installation
22
Page 23
Installation Procedures
Panel Cutout / Console Mounting Bracket Kit for 32 inch
You need: Torx T25 tool, 1 pcs of HD CMB SX2-E1 kit (included in delivery). Brackets are EN60945 Tested.
Attention: A suitable pre-cut panel cutout should be made prior to mounting. Do not force the
unit into the panel cutout as it might break the outer glass or scratch the chassis on the unit. Make
sure that the panel cutout is not too tight for the unit. Please disconnect ALL cables before
proceeding. Please re-check the relevant and required panel cutout measurements if unsure.
▼ 1: Slide the unit into the cutout carefully. User
Controls and Connector Area should be facing
downwards.
▼ 3: Secure each bracket with the provided M5x16
screws and C-Washers as illustrated below. Make sure
you do it equally and even for all 4 sides. Use Torque
Force 3.75Nm, 2 screws and 2 washers pr. bracket.
Note the orientation of brackets before you begin.
▼ 2: Make sure you are aware that brackets should be
mounted on TOP, LEFT, RIGHT and BOTTOM sides.
Note that the [B] bracket is different than the [A] brackets
and mounted near the connectors. See closeup of details.
[A]
[A]
[B]
[A]
[A]
[B]
▼ 4: Review closeup of the mounting of brackets with
screws and C-Washers in place. Seen from bottom side.
Screw
Washer
Bracket
IND100078-44
Installation
23
Page 24
Installation Procedures
Mounting Bracket, Table / Desktop - 32 inch
Procedure suitable for: Series X Multi Vision Display (MVD) products. 32 inch used as example below.
You need:
- M3, M4, M5 Unbrako® Hex Key tool (not included with delivery).
- Fasteners (6 pcs M6) for mounting complete unit onto table or desktop location (not included with delivery).
- 1 pcs of HD TMB SX2-A2 Mounting Bracket Kit (including pre-mounted 6 x M6x6mm Set Socket Screws).
Attention: Please disconnect ALL cables before proceeding. Please review User Manual or visit
www.hatteland-display.com for Technical Drawings regarding measurements for both main unit and
Mounting Brackets.
▼ 1: Place the unit on a dry, at, clean, soft surface (i.e.
table) with the glass front facing down as illustrated.
Connector area should be facing downwards from you.
Seen from
above
Connector Area
▼ 3: First identify the M4 screws as indicated and
remove them fully (if present).
▼ 2: The two feet bracket pieces comes pre-mounted as shown
below. Both sides are identical. Prepare the drilling, location of
holes indicated in the footprint below. Drill 6 pcs of 6mm holes in
your table/desktop location.
▼ 4: Mount the two side bars as indicated wth 4 x M4x18mm
Socket Head DIN912, use Torque Force 2.0Nm.
IND100078-53
Connector Area
Installation
Connector Area
24
Page 25
Installation Procedures
▼ 5: Secure the two side bars further with 4 x M5x20mm as
indicated, use Torque Force 3.75Nm.
Connector Area
▼ 7: Mount the brackets onto unit as indicated with 2 pcs
M4x35 DIN912 screws (included) on both sides. Use Torque
Force 2.0Nm.
▼ 6: Identify the 3 x Set Socket Screw (M6x6mm) and slightly
loosen two of them, now tilt the upper part until you reach an
approximate position you need and tighten them slightly.
▼ 8: Please note the Factory Mounted Torx screws on both
bracket sides, THESE ARE NOT TO BE ADJUSTED OR
LOOSENED!
Connector Area
▼ 9: Fasten the complete unit to your table/desktop location, and tilt it into the desired position. Locate the Set Socket Screws
on both brackets decribed in step 6. Secure all 3 Set Top Screws on both sides, use Torque Force 7Nm on all. If you need to
re-adjust the tilting later, place your hand on top of the Display/Panel Computer unit to keep it steady, and loosen minimum two
of any Set Top Screws on both brackets, adjust unit into new tilting angle, and fasten the Set Top Screws again. Veriy that the
unit does not tilt by itself and appear xed in-place.
IND100078-53
Installation
25
Page 26
Physical Connections
Connection area
Reduce Cable Tension
To reduce tension on the cables you connect, secure them with
a cable tie to the available chassis hinges located below the
connectors.
Available connectors for current models with HDMI / DisplayPort signal inputs.
Please review “Hardware Code (HWxx) chapter in this manual for more information.
SCOM RS-232
Potentiometer PortGrounding Screw
USB Touch
Available connectors for HW00 models with DVI/VGA signal inputs.
Please review “Hardware Code (HWxx) chapter in this manual for more information.
3 x HDMI In (2 x 1.4+1 x 2.0)
DisplayPort (DP 1.2) In
Firmware Update
Power Input DCRJ45 NetworkSCOM RS-422/RS-485
Power Input AC
Potentiometer PortGrounding Screw
IND100133-63
SCOM RS-232
USB Touch
RJ45 NetworkSCOM RS-422/RS-485
DVI-D In
HDMI (2.0) In
DisplayPort (DP 1.2) In
VGA In
Firmware Update
Power Input DC
Power Input AC
26
Page 27
Physical Connections
POWER INPUT AC:
The internal AC power module supports both 100VAC/60Hz and 240VAC/50Hz power input.
POWER INPUT:
Connect your DC power cable to the 2-pin Terminal Block 5.08 connector. The internal DC power module supports
24VDC. For more information, please review “Housing Connector Overview” earlier in this manual.
Multi-power note: (For units supporting AC & DC input simultaneously)
The unit has a dual input power supply which will accept both AC and DC input. If both inputs are connected, the
unit will be powered by AC. If AC is disconnected it will automatically switch over to DC without affecting the operation
of the unit. This makes it possible to use AC power as primary power and a 24V battery as secondary power,
eliminating the need for expensive UPS systems.
RS-422 / RS-485 COM I/O:
The COM (non-isolated RS-422/485) allows functionality to communicate with serial based equipment including
controlling internal buzzer externally. Connect and fasten your cables from your compatible external equipment to the
5-pin Terminal Block 3.81 connector. Please review the “Pinout Assignments” chapter as well as “Housing / Terminal
Block Connector Overview” in this manual for more information. One example of perheripal from Hatteland Technology
is the External Remote Controller (HD REM SX1-A1). This connector will allow remote control of the display unit to
control common functions like brightness, input source and more via the Serial Remote Control (SCOM).
Hatteland Technology’s Serial Remote Control Interface (SCOM) protocol document can be downloaded from:
(USER) POTENTIOMETER I/O:
Allows for controlling Brightness of the displayed image on screen by connecting an external remote control to the
D-SUB 9P connector (male) which has Potentiometer Analog Input, User Brightness (BRT), I2C and +5VDC & 12VDC
OUT functionality built in. Review the “Pin Assignments” chapter in this manual for more information on how to
activate this functionality.
IND100133-63
27
Page 28
Physical Connections
RS-232 SCOM I/O:
This D-SUB 9P connector (female) provides additional functionality for the unit. The Serial Remote Control (SCOM)
features a RS-232 (non-isolated) interface for controlling internal parameters like brightness. You can access most of
the parameters available in the OSD menu and with special commands control the unit externally. This COM can also
be used to upgrade the rmware for the graphic controller inside the unit which is available on request and through
service channels (for qualied personnell only). Fasten your external cable to the connector using the provided screws
on the cable housing.
Please review “Management Settings/Communication” in the “OSD Menu Functions” chapter for more information.
Hatteland Technology’s Serial Remote Control Interface (SCOM) protocol document can be downloaded from:
Supports 10/100/1000Mbps Ethernet (LAN). Suitable for twisted pair cables CAT.5E. Make sure the network cable
connector ”clicks” into the RJ-45 connector. This connector will allow remote control of the display unit to control
common functions like brightness, input source and more via the Serial Remote Control (SCOM).
Hatteland Technology’s Serial Remote Control Interface (SCOM) protocol document can be downloaded from:
Connect a TYPE A USB Cable between this connector and your PC. Port is USB2.0 (<5m).
GROUNDING SCREW:
Please review “General mounting instructions” in the “Installation” chapter, pt. 7 for more information.
HDMI IN:
Connect your HDMI (male) cable to (any) of the HDMI 19P connector(s) (female) of the unit. The HDMI connector(s)
has its own locking mechanism that locks the plug inserted. Make sure the plug “clicks” into place to verify a proper
and secure connection. HDMI1 = 2.0, HDMI2 and HDMI3 = 1.4. For additional secure mounting, consider using the
provided “ATEN LockPro HDMI/DP Cablelock”.
DisplayPort (DP) IN:
Connect your DP (male) cable to the DisplayPort (v1.2) 20P connector (female) of the unit. The DP connector has
its own locking mechanism that locks the plug inserted. Make sure the plug “clicks” into place to verify a proper and
secure connection. For additional secure mounting, consider using the provided “ATEN LockPro HDMI/DP Cablelock”.
28
IND100133-63
Page 29
Physical Connections
VGA IN (Analog):
Please review “Hardware Code (HWxx) chapter in this manual for more information.
Connect your VGA cable to the D-SUB 15P connectors (female). Secure the VGA cable to the hex spacers provided
on the unit and make sure you do not bend any of the pins inside the connector when connecting. Connect the other
end of the cable to the VGA connector on your equipment and secure it.
DVI-D IN:
Please review “Hardware Code (HWxx) chapter in this manual for more information.
Connect your DVI cable to any of the two DVI-D 24P Connector (female). Secure your DVI cable to the hex spacers
provided on the unit and make sure you do not bend any of the pins inside the connector. Connect the other end of the
cable to the DVI connector on your equipment and secure it.
Only available for HW00 models with DVI/VGA signal inputs.
Only available for HW00 models with DVI/VGA signal inputs.
FW (Firmware) Update:
Intended for on-site possibility to upgrade/service the internal Firmware inside the unit that could x issues or to
improve functions for either Video Controller, Touch Screen Controller or Glass Display Control™ (GDC). Upgrading
should only be performed by a skilled technician familiar with typical Firmware/Bios upgrading. Connect a TYPE A
USB Cable between this connector and your PC. Port is USB2.0 (<5m).
IND100133-63
29
Page 30
This page left intentionally blank
30
Page 31
Operation
31
Page 32
User Controls
USER CONTROLS OVERVIEW
The units are designed using Glass Display Control™ (GDC) touch technology to allow interactivity adjusting brilliance
(brightness) and control power on / off with the use of illuminated symbols. Note that these symbols are only visible
(backlight illuminated) when suitable power is connected. There are no physical moving knobs, potmeters, wheels or
push buttons available as everything is touch surface controlled by Projected Capacitive
technology, that allows a human nger (including several types of gloves) to control the unit.
Brightness &
Decrease/Increase
OSD Menu
Navigation
Back Forward
Light Sensor
Buzzer
Power ON/OFF:
This symbol and all text will illuminate in red when suitable power is connected and the unit is turned off. When the
unit is on and operating, this symbol will illuminate constantly either in yellow color (signal not recognized/not present
and no image on screen) or green color (signal detected and image on screen).
Power ON:
To turn the unit on, verify that the symbol is illuminated in red (indicates suitable power is connected) and touch the
power symbol and hold until the the symbol changes to green light/yellow light or a image appears on the screen.
Power OFF:
To turn the unit off, touch the power symbol and hold until it either illuminates/changes from green/yellow to red or the
image on screen disappears.
OSD Menu, Navigation:
If the OSD (On Screen Display) menu was activated (and is clearly visible on screen), both the “<” and “>” are used to
navigate and set options within the OSD menu
Action Indicators
Power On/Off + Status
ECDIS Status / Indicator
To access the main OSD menu, touch anywhere on the “MENU” circle symbol and the OSD menu will clearly be seen
as an overlay over the existing displayed image. The complete denition of all the menus and functions are available
in the “OSD MENU FUNCTIONS” chapter in this manual.
Operation
IND100064-53
32
Page 33
User Controls
Action Indicators:
SERVICE = Built in functionality to determine when the unit requires service in order to perform within preset
factory standards. This area will illuminate constantly until the unit is powered off.
Note that by touching this symbol no action will be performed or has been assigned.
Brightness Adjust:
Brilliance / Brightness adjustment of the displayed image is adjusted by touching the (-) or (+) illuminated symbols.
The entire area of text and symbols are visible as long as the unit is powered. Note that only the (-) and (+) are touch
sensitive while the “*” and “BRILLIANCE” symbols are not. The symbols (-) and (+) are also used to change values in
the OSD menu when its activated / function selected for adjusting.
ECDIS Status / Indicator: (optional factory standard)
For units that have been factory ECDIS calibrated the text “ECDIS” will illuminate in green constantly as long as the
unit is powered. The “+” and “-” symbols will illuminate in orange when the Brightness/Brillance is adjusted either
above or below ECDIS factory calibration point.
To be able to stay within ECDIS calibrated range, please assure that both the “+” and “-” are not illuminated in orange
color and that “ECDIS” text remains illuminated during operation. Note that by touching these symbols no action will
be performed or has been assigned.
Light Sensor:
Used to sense level of ambient light in the surrounding environment. The sensor data can be read by suitable software
through the Hatteland Technology SCOM functionality of the unit and thus can be used to control brightness remotely.
Note: This sensor is barely visible to the eye and lies under the glass. It has no illumination behind to indicate it’s
position. Touching or covering this area will naturally make the sensor data inaccurate and should be avoided!
Buzzer:
Only functional for units ordered with Buzzer functionality. Frequency range is 1500-2500Hz. The location of the
buzzer hole (physical hole in glass) is barely visible to the eye. Touching this area will naturally mute buzzer sound or
in some cases make it lower or change audible frequency. In no circumstances should this area be blocked by either
stickers or objects! Please review the “Pinout Assignments” chapter in this manual for controlling the Buzzer
functionality and review the Serial Remote Control Interface (SCOM) protocol document, located at:
In the following “On Screen Display (OSD)” menu chapter, these buttons are referenced as:
“MENU”
“(-) Brilliance (+)”
IND100064-53
“(<) Navigation (>)”
Operation
33
Page 34
OSD Menu Overview
On Screen Display (OSD) Menu Introduction
The OSD menu consists of single menu overlay with two columns which are Sub-Menu and Adjust Value / Choices
Menu which are easy to navigate through. All functions are explained in-depth later in this user manual. Prior to using
the OSD menu, you should be sure to familiarize yourself with how to physically access the menu, how to navigate
up/down/left/right, how to modify values, exiting menus and more. The OSD Menu overlay will appear over any signal
input and based on OSD settings either be position in center, become transparent depending on factory default setting
or by user’s own preference.
Please note: Factory default illustrations only! Available functions, icons and text may deviate slightly from actual OSD menu on
your product due to different OSD software congurations and customized solutions.
OSD Key Code (password) overview
During use/accessing the OSD menu, based on factory default or customized conguration, there might be a pop-up
requester asking for a Key Code (password) to gain further access to requested menu. These are 3 digits long.
KeycodeDescription
321Applies for “ECDIS Compliance” products. Code must be entered to get access to OSD MENU.
Congured in OSD parameter: “OSD Menu > OSD Lock Mode > Menu Protect”
362If OSD are in Basic Mode, entering code gets access to Advanced Mode.
Congured in OSD parameter: “OSD Menu > OSD Mode > Advanced”
---Service Mode - Only applicable for authorized service personnel.
Congured in OSD parameter: “OSD Menu > OSD Mode > Service”
User Controls
IND100064-47
34
Page 35
OSD Menu Overview
OSD Keycode / OSD Lock Mode
During use, a small requester may pop-up on screen asking you for a “Key Code”. This is a safety feature (due to
ECDIS Compliance) that might be predened in your setup. To quickly understand how to enter a code, navigate and
nally access the underlying main menu, simply follow the illustration below. The “Key Code” is by factory default
“321”. If the “Key Code” requester do not appear on screen, you can skip reading this section for now and proceed to
the next page.
Advanced
0 0 0
Active Display Area + Requester
1: Typical position of requester on screen.
Advanced
3 2 1
Close-up of Requester
4: Repeat step 2 and 3, until
“Key Code” reads “3 2 1” and nally touch
menu button to continue.
Advanced
0 0 0
Close-up of Requester
2: Enter rst number (from 0 to 9).
Use “Navigation/Hot Keys” touch buttons to
increase/decrease. Number change in real time.
Active Display Area + OSD Menu
5: The OSD menu appear
Advanced
3 2 0
Close-up of Requester
3: Now touch menu button to store rst
number and proceed to second number.
Current number will appear in red color
After the code is successfully entered you will gain access to the OSD Menu and a multitude of functions will be
available for adjusting or reviewing. Please proceed to the next page, where you will learn the differences between
“Basic” and “Advanced” menu modes and a complete map of all the underlying functions available within.
User Controls
IND100064-47
35
Page 36
OSD Menu Overview
OSD “Basic” and “Advanced” Menu modes (examples)
You may encounter two different menu size setups based on factory default or by customized preset conguration.
The “Basic” Menu mode offers easy and clear access to most commonly used functions. The “Advanced” Menu mode
offers more choices with technical information and is suited for technical minded users or specic conguration needs.
Example of BASIC MENU
DisplayPort Resolution: 3840x2160@60Hz
Image SettingsSelect source to AdjustMain Input
Color Mode SettingsBrightness128
PIP MenuContrast128
OSD MenuSaturation128
MiscellaneousHue128
Input Source SettingsSharpness128
CommunicationExit
Service Settings
Presets
Fault Status
Exit
Main Input:
Third Input:
Second Input:
Fourth Input:
Basic OSD Menu showing for example “Image Settings” chosen in the menu. The rst column is visible at all times, while the two next columns
will change based on contents of that submenu and adjustable values. The design and size of OSD menu area does not change in any setting.
In Basic Mode, certain settings have been locked (gray text) to allow only the most common basic functions available for user only.
Example of ADVANCED MENU
DisplayPort Resolution: 3840x2160@60Hz
Image SettingsSelect source to AdjustMain Input
Color Mode SettingsBrightness128
PIP MenuContrast128
OSD MenuSaturation128
MiscellaneousHue128
Input Source SettingsSharpness128
CommunicationExit
Service Settings
Presets
Fault Status
Exit
Main Input:
Third Input:
Second Input:
Fourth Input:
Advanced OSD Menu showing for example “Image Settings” chosen in the menu. The rst column is visible at all times, while the two next
columns will change based on contents of that submenu and adjustable values. The design and size of OSD menu area does not change in any
setting. In Advanced Mode, all settings are available (except those which are dependent on signal inputs or by product design).
User Controls
36
IND100064-47
Page 37
OSD Menu Overview
OSD Visual User Feedback (examples)
Throughout all OSD menus there are certain graphic elements you need to familiarize yourself with. These are to
visually indicate that a value can be increased/decreased, accessed, display a Slide Bar Meter or just for information
purposes only. All functions have text based, human readable text for clarity and uses no graphical icons. A Slider Bar
with number beside it will indicate the value has a minimum, current and max limit. All changes in values and lists
happen in real time as you touch the menu button and/or touch navigation buttons.
Image Settings
A round frame with text marked in red, means this is the currently
selected item in the menu with additional settings that can be adjusted
RS232128
A dot next to an item in the menu, means that this function is currently
active and set by user previously (stored setting).
Note: The examples above are the most common ones displayed.
PIP H. Position
Text marked in gray color means that the current function in menu is
either not enabled or is not available to adjust.
A Slider Bar meter indicates the minimum and maximum value for the
current function selected. The current value is written to the left.
User Controls
IND100064-47
37
Page 38
OSD Menu Overview
OSD Menu Structure
In this table all functions within menus and their submenus with choices are shown. Some functions may not be
available depending on chosen signal inputs or conguration. The lists below are the menu shown during a “FULL
MENU” mode. Functions with a “>” in the end, indicates a submenu or list of options will be displayed.
Image Settings
Main MenuSub MenuAdjust / Choices MenuNotes
Image Settings >Select Source to Adjust >- Main Input
Brightness >(Slider Bar)
Contrast >(Slider Bar)
Saturation >(Slider Bar)
Hue >(Slider Bar)
Sharpness >(Slider Bar)
Analog VGA Adjustment >- Auto Position
Auto Adjustment >- On
< Exit
- Second Input
- Third Input
- Fourth Input
For models with DVI/VGA.
- Auto Color
- H. Position
- V. Position
- Clock
- Phase
For models with DVI/VGA.
- Off
Color Mode Settings
Main MenuSub MenuAdjust / Choices MenuNotes
Color Mode Settings >Color Temperature >- 9300K
Gamma >- No Calibration
Red Gain >(Slider Bar)
Green Gain >(Slider Bar)
Blue Gain >(Slider Bar)
Gamma Reset >- On
< Exit
- 8000K
- 6500K
- User
- Calibration DisplayPort
- Calibration HDMI
- Off
For models with DVI/VGA:
- No Calibration
- Calibration DVI
- Calibration VGA
- Calibration DisplayPort
- Calibration HDMI
User Controls
IND100064-47
38
Page 39
OSD Menu Overview
PIP Menu
Main MenuSub MenuAdjust / Choices MenuNotes
PIP Menu >PIP Mode >- PIP Off
PIP Child Size >(Slider Bar)
PIP H. Position(Slider Bar)
PIP V. Position(Slider Bar)
Swap Source(Automatic Action)
< Exit
OSD Menu
Main MenuSub MenuAdjust / Choices MenuNotes
OSD Menu >OSD Language >- English
OSD H. Position >(Slider Bar)
OSD V. Position >(Slider Bar)
OSD Timeout (sec) >(Slider Bar)
OSD Transparent >(Slider Bar)
OSD Mode >- Basic
OSD Lock Mode >- Normal
OSD Key Outdoor >- On
< Exit
- PIP Child
- PIP Split
- PIP Wide
- Triple PIP
- Quad PIP
- Français > (French)
- Deutsch > (German)
- Italiano > (Italian)
- Norsk > (Norwegian)
- 日本語 > (Japanese)
- 簡體中文 > (Simplied Chinese)
- Advanced
- Service
- Menu Protect
- Full Protect
- Off
User Controls
IND100064-47
39
Page 40
OSD Menu Overview
Miscellaneous
Main MenuSub MenuAdjust / Choices MenuNotes
Miscellaneous >Aspect Ratio >- Full
GDC Sensitivity >(Slider Bar)
Power Plan >- Enable
LAN/Sleep-Mode >- Enable
Touch Power >- DisplayPort
External Power Button >- Enable
DDC/CI >- DisplayPort
Key 1 >- Black Level
Key 2 >- Black Level
< Exit
- 16:9
- 4:3
- 1:1
- Native
- Disable
- Disable
- HDMI1
- HDMI2
- HDMI3
- Disable
- Signal
- Active
- Disable
- HDMI1
- HDMI2
- HDMI3
- Disable
- Signal
- Active
- PIP Child Size
- Main Source
- Second Source
- PIP Mode
- Graphic Scaling
- Swap Source
- Test Pattern
- OSD Language
- No Function
- PIP Child Size
- Main Source
- Second Source
- PIP Mode
- Graphic Scaling
- Swap Source
- Test Pattern
- OSD Language
- No Function
For models with DVI/VGA:
- DisplayPort
- HDMI
- DVI
- VGA
- Disable
- Signal
- Active
For models with DVI/VGA:
- DisplayPort
- HDMI
- DVI
- VGA
- Disable
- Signal
- Active
User Controls
IND100064-47
40
Page 41
OSD Menu Overview
Input Source Settings
Main MenuSub MenuAdjust / Choices MenuNotes
Input Source Settings >Main Input >- DisplayPort
- HDMI1
- HDMI2
- HDMI3
Second Input >- DisplayPort
- HDMI1
- HDMI2
- HDMI3
Third Input >- DisplayPort
- HDMI1
- HDMI2
- HDMI3
Fourth Input >- DisplayPort
- HDMI1
- HDMI2
- HDMI3
Auto Source >- On
- Off
< Exit
For models with DVI/VGA:
- DisplayPort
- HDMI
- DVI
- VGA
For models with DVI/VGA:
- DisplayPort
- HDMI
- DVI
- VGA
For models with DVI/VGA:
- DisplayPort
- HDMI
- DVI
- VGA
For models with DVI/VGA:
- DisplayPort
- HDMI
- DVI
- VGA
Communication
Main MenuSub MenuAdjust / Choices MenuNotes
Communication >RS232 >(Automatic Action)
2-wire RS485 >(Automatic Action)
4-wire RS485/422 >(Automatic Action)
USB >(Automatic Action)
Address RS >(Slider Bar)
Auto IP Address >- Enable
Fixed IP Address >(Number Input, xxx.xxx.xxx.xxx)
< Exit
- Disable
Service Settings
Main MenuSub MenuAdjust / Choices MenuNotes
Service Settings >Video Scaler Firmware:(Text only)
uC Firmware:(Text only)
Current Temperature:(Text only)
Test Pattern >- Enable
Burn In >- Enable
< Exit
- Disable
- Disable
User Controls
IND100064-47
41
Page 42
OSD Menu Overview
Presets
Main MenuSub MenuAdjust / Choices MenuNotes
Presets >Save >- User1
Load >- Default
Recall >(Automatic Action)
< Exit
Fault Status
Main MenuSub MenuAdjust / Choices MenuNotes
Fault Status >NVRAM(Text only)
Ethernet(Text only)
GDC(Text only)
Temperature Sensor(Text only)
Video Scaler(Text only)
MAC Eeprom(Text only)
< Exit
- User2
- User3
- User4
- User5
- User1
- User2
- User3
- User4
- User5
User Controls
IND100064-47
42
Page 43
OSD Menu Functions
On Screen Display (OSD) Menu Functions
The following section covers all possible settings that are user adjustable via easy understandable menus,
text and navigation. To simplify reading the menu choices, “Exit” has been left out of description in this
chapter intentionally. Whenever “Exit” is available, you can exit current menu and go back to the previous
one visited. When there are no more previous menus available, the OSD menu overlay will be shut off and
hidden. All settings are saved real-time or when you exit any menu (including time out of menu visibility).
The number shown in the “|------x------” line gives the indication of the submenu level where the function is
located (also reference to the table in the previous chapter). It requires the user to touch the “MENU”
symbol to enter that submenu.
Please note: Available functions described may deviate slightly from actual OSD menu on your unit.
This is due to different OSD software congurations and customized solutions. Shown here are factory standards.
NOTE: Certain menus have different Signal Input references due to Hardware Code changes in July 2019. Please review “Hardware Code
(HWxx) chapter in this manual for more information. The available choices for the affected menus are listed as “*For current models” / “*For
Image Settings
HW00 models”, where appropriate.
Lets you congure various visual preferences for any signal input, including activated Picture-in-Picture
(PIP) sources available and if congured by user. The contents of this submenu and choices are listed
below.
|---2---
The possible signal source inputs are; “Main Input”, “Second Input”, “Third Input” and “Fourth Input”.
Note: Any of the inputs may have been congured as either listed below* depending on factory
defaults and user preferences. To set the category for a chosen input, review the “Input Source
Settings” later in this manual.
* For current models: “DisplayPort”, “HDMI1”, “HDMI2” or “HDMI3”.
* For HW00 models: “DisplayPort”, “HDMI”, “DVI” or “VGA”.
|---2---
Increase/decrease the black level saturation of the TFT panel electronically by controlling the
voltage level in real-time of the current selected source signal. Window overlays (PIP/PBP) and the
OSD Menu overlay will be unaffected. This will be independent of the actual adjustment done by the
front user controls like potmeters or buttons. A visual slider in the OSD menu will show the current
value.
● Note: Value adjustable from 0 to 255. 128 is factory default.
Image Settings > Select Source to Adjust
Image Settings > Brightness
|---2---
Increase/decrease the contrast of the panel electronically by controlling the voltage level in real-time
of the current selected source signal. Window overlays (PIP/PBP) and the OSD Menu overlay will
be unaffected. A visual slider in the OSD menu will show the current value.
● Note: Value adjustable from 0 to 255. 128 is factory default.
IND100064-48
Image Settings > Contrast
User Controls
43
Page 44
OSD Menu Functions
|---2---
Increase/decrease the overall video color saturation/color amount of the current selected source
signal. Note that this function can also make noisy color signals appear crisper/clearer if adjusted to
gray scales.
● Note: Value adjustable from 0 to 255. 128 is factory default.
|---2---
Allows you to adjust/shift the main color properties of all Red, Green, Blue and Yellow (unique hues)
values. This can be useful in certain cases whose output may have shifted or seems to be “out of
phase”, where for instance blue seems more dominant than green, red and yellow-ish colors. By
using HUE one can shift the entire color range of all components left or right in the spectrum.
● Note: Value adjustable from 0 to 255. 128 is factory default.
|---2---
Increase/decrease the overall image sharpness. This affects the active display area, and applies to
all signal inputs and window overlays (PIP/PBP). Use it to increase the visual quality of signals from
older equipment or improve electronically weak signals.
Image Settings > Saturation
Image Settings > Hue
Image Settings > Sharpness
● Note: Value adjustable from 0 to 255. 128 is factory default.
|---2---
This function is not available with typical Digital Signals (DisplayPort, HDMI and DVI). For VGA it
allows you to adjust signals Horizontally (left/right) and Vertically (up/down) within the TFT panel
Active Area, in addition Clock and Phase can also be adjusted (if there seems to be a “water fall /
rolling bars” effect present in the active display area).
● Note: This function can move information in the image outside the visible TFT Active Area, so use caution when
modifying this parameter. Try to determine the max end of borders (look at each corner) of the image before you
proceed using this function.
|--------3--------
Will automatically t the currently displayed full screen signal and center it based on the
active area of the TFT display. This function relies on properties of the incoming signal.
Image Settings > Analog VGA Adjustment
NOTE: This menu/sub-menu is only available/visible for HW00 models with DVI/VGA signal inputs.
Please review “Hardware Code (HWxx) chapter in this manual for more information.
Image Settings > Analog VGA Adjustment > Auto Position
User Controls
IND100064-48
44
Page 45
OSD Menu Functions
|--------3--------
Will automatically adjust the color balance of the currently displayed full screen signal. This
function will analyze the incoming signal strength for RGB values and adjust it for “best eye
visuality”. Colors are automatically calculated based on an overall coloring model to attempt
a more true, relevant and correct look. In general, you should display an image on screen
while performing this action that contains variations of Red, Green, Blue, Black, White, Gray
colors to get the best optimal balance of the current signal. An example is a test pattern
image, similar to the picture illustrated later in the manual (see “Service - Test Pattern”)
|--------3--------
“H Position” = Move image within the TFT panel active area Horizontally (left/right),
values from 0 to 255.
● Note: Default value is centered inside the active TFT panel area.
|--------3--------
“V.Position” = Move image within the TFT panel active area Vertically (up/down),
values from 0 to 255.
● Note: Default value is centered inside the active TFT panel area.
Image Settings > Analog VGA Adjustment > Auto Color
Image Settings > Analog VGA Adjustment > H. Position
Image Settings > Analog VGA Adjustment > V. Position
|--------3--------
Adjust the horizontal frequency (clock) of the analog signal to improve visibility of the entire
image. When it is adjusted, you will notice that the image will appear to be stretched and
might in some situations start to icker/scroll, at which point you must reverse the last
adjustment to stop it from ickering/scrolling anymore. This function can be used for older
signals that is not automatically detected by the internal display controller.
To adjust the Clock and Phase to an optimal setting it is recommended to display an image
with alternating white and black lines by stepped by 1 pixels either vertically or horizontally.
It is suggested to use a dedicated and external test pattern while adjusting. Values from 0 to
255.
|--------3--------
Fine tune the data sampling position of the signal (impacts on image quality). This function
will remove small transparent defects in typical characters where a portion seems to be more
faint then the nearby black pixels. The faint pixels are always visible as a line from top to
bottom (vertically). Note that this function is automatic and does not allow for manual values.
It is suggested to use a dedicated and external test pattern while adjusting. Values from 0 to
255.
Image Settings > Analog VGA Adjustment > Clock
Image Settings > Analog VGA Adjustment > Phase
User Controls
IND100064-48
45
Page 46
OSD Menu Functions
|---2---
Will auto adjust everything regarding Position, Clock, Phase and Color Attributes depending on what
the detected signal feed contains. This function has additional conrmation to prevent accidental or
unintended usage.
Choices as follows:
“On” = Activates the Automatic Adjustment.
“Off” = Deactivate the Automatic Adjustment
Image Settings > Auto Adjustment
NOTE: This menu/sub-menu is only available/visible for HW00 models with DVI/VGA signal inputs.
Please review “Hardware Code (HWxx) chapter in this manual for more information.
User Controls
IND100064-48
46
Page 47
OSD Menu Functions
Color Mode Settings
Lets you adjust the color temperature (Kelvin degrees) of the image. This applies to the Main Source signal.
Window overlays (PIP/PBP) and OSD Menu overlay will be unaffected. Lower values make the image
appear warmer, while higher values will make it appear cooler. The contents of this submenu and choices
are listed below.
Illustration (does not appear in menu): The Kelvin color temperature scale (approximate and symbolic):
1800K 4000K 5500K 8000K 12000K 16000K
|---2---
Set to either “9300K” (Cool, a blueish white), “8000K” (Neutral, a white close to natural light),
“6500K” (Warn, a reddish white) or “User”, (only available when Advanced Menu Mode is active).
|--------3--------
Allows individual adjustment of Red, Green and Blue color gains. The selected setting will
be saved for each signal input.
● Note: Value adjustable from 0 to 255. 128 is factory default.
|---2---
This will activate the stored gamma curve color compensation as well as the LED indicators or
backlight brilliance used with ECDIS. Set to either as listed below* where these represents the two
storage locations for compensation data. When either of them are active, they will override the color
temperature setting for the signal channel. Different signal channels can be set to different settings
that will be saved.
This function is suitable for use with external equipment. Color temperature will be disabled.
Color Mode Settings > Color Temperature
Color Mode Settings > Color Temperature > User
Color Mode Settings > Gamma
● Note: Default is No Calibration with Gamma 2.2 and 140nits.
* For current models: “No Calibration”, “Calibration DisplayPort” or “Calibration HDMI”.
* For HW00 models: “No Calibration”, “Calibration DVI”, “Calibration RGB”, “Calibration DisplayPort” or “Calibration HDMI”
|---2---
Increase or Decrease the overall gain for the displayed image on screen affecting values RGB,
where R=RED intensity in specic is adjusted (GB values are not affected).
● Note: Value adjustable from 0 to 255. 128 is factory default.
IND100064-48
Color Mode Settings > Red Gain
User Controls
47
Page 48
OSD Menu Functions
|---2---
Increase or Decrease the overall gain for the displayed image on screen affecting values RGB,
where G=GREEN intensity in specic is adjusted (RB values are not affected).
● Note: Value adjustable from 0 to 255. 128 is factory default.
|---2---
Increase or Decrease the overall gain for the displayed image on screen affecting values RGB,
where B=BLUE intensity in specic is adjusted (RG values are not affected).
● Note: Value adjustable from 0 to 255. 128 is factory default.
|---2---
This will restore the original factory default setting, where “No Calibration” prole is automatically
chosen and Gamma=2.2 with 140nits.
Settings as follows:
Color Mode Settings > Green Gain
Color Mode Settings > Blue Gain
Color Mode Settings > Gamma Reset
“On” = Executes Gamma Reset and sets to “No Calibration”
“Off” = No function executed
User Controls
IND100064-48
48
Page 49
OSD Menu Functions
PIP Menu
Lets you adjust how the Picture-in-Picture (PIP) display mode is set up. The default position of the
rectangle is set to the upper left corner of the Active Display area. Note that this requires a valid incoming
signal to be present in either signal inputs. The contents of this submenu and choices are listed below.
Since several sources can be used as PIP overlay, each available PIP overlay can be congured. To
choose the specic PIP overlay to be adjusted, see earlier reference in the manual under “Image Settings >
Select Source to Adjust” function.
|---2---
Settings as follows:
“PIP Off” = Picture in Picture is inactive and the other PIP settings can not be accessed.
PIP Menu > PIP Mode
“PIP Child”
2
1
“PIP Split”
1
“PIP Wide”
1
2
2
The Second Signal Source will be displayed in a small frame as an
overlay over the Main Source signal. Other PIP settings can now be
adjusted.
The Main Source and Second signal sources are shown side-by-side
with the Main Source to the left and the Second Source to the right.
Other PIP settings can now be adjusted.
Note: Both sources will be stretched to ll screen. If aspect ratio is
needed, consider PIP Wide function below, or set the sources to match
50% resolution of the native display. Example: If native TFT panel has
3840 x 2160 resolution, sources must be set to 1920 (wide) x 2160
(height) to appear correctly (aspect ratio).
The Main Source and Second signal sources are shown side-by-side in
widescreen mode with the Main Source to the left and the Second to the
right. Other PIP settings can now be adjusted.
“Triple PIP”
2
1
3
“Quad PIP”
1
3
If Touch Screen is present on unit and operational during any PIP modes:
Touch always on = in this all touch signal is broadcasted to connected computer unit independently of
active graphical inputs.
Touch active = broadcast touch signal when main source is active.
2
4
User Controls
IND100064-48
The Main Source, Second and Third signal sources are shown as
row/column style. Other PIP settings can now be adjusted.
Note: Only 1920x1080 signals are accepted. Main source will be
stretched to ll screen. If aspect ratio is needed set the Main Source to
1920 (wide) x 2160 (height) to appear correctly (aspect ratio).
The Main Source, Second, Third and Fourth signal sources are shown
row/ column style. Other PIP settings can now be adjusted. Since there
are no Main Source under these overlays in this setting, the Main Source
is now part of a 2-by-2 visible setup (usually located in the top left corner)
displaying 4 x true 1920x1080 (Full HD) signals at the same time.
49
Page 50
OSD Menu Functions
|---2---
Adjust the size (H and V proportionally) for the currently selected PIP Source, values from 1 to 7.
PIP Menu > PIP Child Size
Note: Example shows calculation and approximate size in mm and precise pixels assuming a FHD
1920x1080 was used as PIP Source. PIP size is dependent on incoming PIP source signal, such as
its resolution and aspect ratio will both affect sizes in mm and pixels in comparsion to illustration
below. However, the visual appearance between each step is relative to example below. All mm
values are rounded up to nearest. Deviation is +/- 1mm. PIP Position in H. and V. are 0 in this
example.
55 inch panel:
STEP VALUEin MMin Pixels
1 (Min Size)239 x 135 768 x 432
2300 x 169 960 x 540
3361 x 204 1154 x 648
4422 x 238 1344 x 756
5483 x 273 1534 x 864
6544 x 307 1728 x 972
7 (max size)
1/4 of Native TFT
605 x 340 1920 x 1080
32 inch panel:
1
2
3
STEP VALUEin MMin Pixels
1 (Min Size)140 x 80 768 x 432
2176 x 100 960 x 540
4
5
6
7
3212 x 120 1154 x 648
4248 x 140 1344 x 756
5284 x 160 1534 x 864
6319 x 180 1728 x 972
7 (max size)
1/4 of Native TFT
355 x 200 1920 x 1080
User Controls
IND100064-48
50
Page 51
OSD Menu Functions
|---2---
Adjust the Horizontal (left/right) position for the currently selected PIP Source, values from 0 to 255.
|---2---
Adjust the Vertical (up/down) position for the currently selected PIP Source, values from 0 to 255.
|---2---
Swaps the Primary source signal with Secondary source signal including adjustments you may have
made, meaning that whatever is in Main Source will become the contents of the dened PIP
rectangle, and contents of the PIP rectangle to become full screen.
PIP Menu > PIP H. Position
PIP Menu > PIP V. Position
PIP Menu > Swap Source
User Controls
IND100064-48
51
Page 52
OSD Menu Functions
OSD Menu
Allows you to customize the visual appearance of the On Screen Display (OSD) menu and its behavior.
The contents of this submenu and choices are listed below.
|---2---
Available OSD language to be used for all text and warnings that may appear.
Settings as follows:
“English” = Display OSD in English.
“Français” = Display OSD in French.
“Deutsch” = Display OSD in German.
“Italiano” = Display OSD in Italian.
“Norsk” = Display OSD in Norwegian.
“日本語 “ = Display OSD in Japanese.
“簡體中文” = Display OSD in Simplied Chinese.
● Note: Current selected language is shown in green color. Default language is English.
|---2---
Place the OSD menu overlay Horizontally (left/right), values from 0 to 255.
● Note: Default value is 128 (50% half of current resolution)
OSD Menu > OSD Language
OSD Menu > OSD H. Position
|---2---
Place the OSD menu overlay Vertically (up/down), values from 0 to 255.
● Note: Default value is 128 (50% half of current resolution)
|---2---
Adjust the timeout in seconds that the OSD menu overlay is automatically exited and hidden from
view. This timeout is counted from last activity (navigation or adjusting parameters). The value is
adjustable from 5 to 30 seconds.
● Note: Default timeout value is 10 seconds.
OSD Menu > OSD V. Position
OSD Menu > OSD Timeout (sec)
User Controls
IND100064-48
52
Page 53
OSD Menu Functions
|---2---
Adjust the alpha blend also known as transparency of the OSD Menu overlay. It means that all
signal inputs and PIP/PBP images show through the OSD Menu. It is used when important
information on the display is necessary to be visible at all times.
● Note: Level adjustable from 0 to 7. 0 is factory default (no transparency/solid background color).
|---2---
Conguring the OSD Menu access based on most common functions to service/trouble-shooting.
Settings as follows:
“Basic” = A few functions are not visible/available in this state. For most uses this
is the preferred setting and are safe for the display functionality and
continuous trusted operation on the unit.
“Advanced” = All functions and parameters are visible/available in this state. Some of the
settings adjusted could impact on display functionality and image quality.
Only experienced and qualied personnel should access and change
parameters when in this mode. Also, more technical details about signals,
frequency will be available.
OSD Menu > OSD Transparent
OSD Menu > OSD Mode
“Service” = Only applicable for authorized service personnel.
● Note: Learn how to navigate and enter the correct code, by reading the “OSD Keycode / OSD Lock Mode”
introduction section in the previous chapter.
● Note: When requesting “Advanced” mode from “Basic” mode, the user is required to enter a key code.
This code is factory preset to “362”. You can enter the code by using navigation and “MENU” to confirm. After a
successful entering of the key code, the OSD menu will always be in this state during powered on. After a
power off and on to the unit, the OSD Mode will be reverted back to “Basic” mode.
User Controls
IND100064-48
53
Page 54
OSD Menu Functions
|---2---
To prevent accidental or unwanted user intervention, you can set the behavior of how the OSD
menu is accessible by the user including adjusting brightness via the “(-) Brilliance (+)” symbols.
Normally by factory default accessible by touching the “MENU” symbol.
Settings as follows:
“Normal” = Default accessible pop-up by touching the “MENU” symbol.
For Non-ECDIS Compliant usage.
“Menu Protect” = Ask for key code rst (321) when the “MENU” symbol is touched on
the front glass and before the OSD menu will appear.
Required for ECDIS Compliance usage.
“Full Protect” = When activated: You will have to touch the “MENU” symbol for 5
seconds after which the key code requester will appear. Note that
only the “MENU” symbol will activate the password request, all other
touches on other symbols are ignored. After key code was entered
and accepted, the OSD menu will appear in which case you have
“x” seconds to use brilliance and power functions before all functions are deactivated again and returns to “Advanced Mode”.
OSD Menu > OSD Lock Mode
“x” value is dened as OSD Timeout (sec) value.
● Note: Learn how to navigate and enter the correct code, by reading the “OSD Keycode / OSD Lock Mode”
introduction section earlier in this chapter.
|---2---
To prevent accidental activation of Glass Display Control™ (GDC) touch functions, you can add an
extra layer of security on how “sensitve” the touch detection operates. This applies for “MENU”,
“(-) Brilliance (+)” and “Power Off” functions. The OSD Key Outdoor function is especially effective if
the unit is located in a outside environment where rain drops could potentially trigger touch button
functions.
Settings as follows:
“On” = Touch symbols responds when you press and hold it for 5 seconds.
“Off” = All touch symbols operates normally.
OSD Menu > OSD Key Outdoor
User Controls
IND100064-48
54
Page 55
OSD Menu Functions
Miscellaneous
Allows you to adjust various settings for interaction/communication and behavior. The contents of this
submenu and choices are listed below.
|---2---
Allows you to scale the currently displayed full screen signal in various ways.
Settings as follows:
“Full” = Zoom current full screen signal to ll the entire active display
area. Aspect ratio is ignored, which means that picture may
appear distorted or stretched.
“16:9” = Default setting. Ensures a widescreen aspect ratio true to
the actual properties of the screen.
“4:3” = Shows the incoming signal as 4:3 scaling. Note: On a
widescreen physical size, the image on screen will have
black borders on each side and the image on screen may
appear distorted or compressed in height.
“1:1” = Zoom current screen signal to ll the entire active display
area as 1:1 native pixel resolution. Example; if the incoming
signal is a 1920x1080, on a 3840x2160 unit, the incoming
signal will be shown 50% less in size and centered on
screen. Aspect ratio is kept unchanged.
Miscellaneous > Aspect Ratio
“Native” = Size in respect of native TFT LCD resolution.
User Controls
IND100064-48
55
Page 56
OSD Menu Functions
|---2---
The touch enabled symbols known as GDC (Glass Display Control™) can be adjusted in sensitivity.
It basically means that a small value requires a larger area to be covered longer over time, while a
large value will require less smaller area to be covered in less time. If you set the value too low or
too high, you may feel a difference in either increased responsiveness or the lack of such. By
factory default, the most optimal value has been preset.
Values from 0 to 255.
● Note: Default is model dependent and set by factory. Note that the difference between 0 and 255 is minimal,
as it is not suitable to go beyond a fair responsiveness that could cause accidental triggering of functions to
occur by nearby objects touching the glass (i.e. rain drops for instance, washing glass with cloth).
● Caution: If the sensitivity value was set very low, you may experience an increased occurrence of non-
responsiveness which also affects accessing the correct menu function in order to re-adjust this value. It is
therefore suggested as a last resort solution to reset this value via SCOM (Serial/Ethernet Communication)
functionality instead by sending a “Reset Factory Default” (or “Load User Default”+Slot Number, if available
and previously stored by using “Save User Default”+Slot Number) commands if you are unable to navigate
the OSD menu.
|---2---
This setting will allow you to control the overall power mode in Power off mode.
Miscellaneous > GDC Sensitivity
Miscellaneous > Power Plan
Settings as follows:
“Enable” = Enabled power off mode.
“Disable” = Disabled power off mode.
● Note: Factory Default set to “Disable”
|---2---
This setting will allow you to control the power mode of Ethernet port in Power off mode.
Settings as follows:
“Enable” = Enabled in power off mode.
“Disable” = Disabled in power off mode.
● Note: Factory Default set to “Enable”
Miscellaneous > Lan/Sleep Mode
User Controls
IND100064-48
56
Page 57
OSD Menu Functions
|---2---
This setting will allow you to lter the signal processing from touch screen to reach the computer.
For instance, if user only want touch screen to be active when DisplayPort signal is dened as Main
Input, but disallows touch screen processing on other signal inputs, the non-touch screen enabled
signal inputs would require the user to operate elements on screen either with keyboard, mouse or
just for information purposes only with no user interaction possible via touch screen.
Settings as follows (applies to dened Main Source Input):
Note:
Touch is enabled only when choice is Main Input:
For current models: “DisplayPort”, “HDMI1”, “HDMI2” or “HDMI3”
For HW00 models: “DisplayPort”, “HDMI”, “DVI” or “VGA”. Touch is enabled when choice is Main Input.
+ Additional settings:
“Signal” = Touch is enabled when any input is active as Main Input. “Active” = Touch is always enabled, even if there are no image on screen.
Display unit may be powered off, but require power cable connected
as well as a powered on computer. Signals from touch screen will
still reach the computer.
Miscellaneous > Touch Power
|---2---
This setting will allow you to manually enable the use of an external power button to turn off the
Display unit. Please review the Pinout Assignments (Potentiometer Control 9-pin DSUB MALE
Connector) for connectivity.
Settings as follows:
“Enable” = Key press from External power button detection enabled.
“Disable” = Key press from External power button detection disabled.
|---2---
This setting will allow user to enable and set which signal input where DDC/CI display control
communication will occur. For more information about DDC/CI, please review the “Operation
Advanced (DDC/CI) Control Overview” chapter in this manual.
The possible choices are listed below* (enabled on any input source that appear as Main Input)
* For current models: “DisplayPort”, “HDMI1”, “HDMI2” or “HDMI3”.
* For HW00 models: “DisplayPort”, “HDMI”, “DVI” or “VGA”.
Miscellaneous > External Power Button
Miscellaneous > DDC/CI
User Controls
IND100064-48
57
Page 58
OSD Menu Functions
|---2---
Assign a commonly used OSD menu function to the available touch enabled “Hot Keys” (<) and (>)
which are located on the User Controls. The following functions are available to assign and most of
them have a negative and positive counting logic. All of these functions are described before and
after this segment in the manual.
Settings as follows (for both “Key1” and “Key2”):
“Black Level” = Increase/Decrease Brightness of the TFT panel (not backlight).
Reference in user manual: “Image Settings / Brightness”
“PIP Child Size”= Increase/Decrease the size of the Picture-In-Picture overlay.
Reference in user manual: “PIP Menu / PIP Child Size”
“Main Source” = Flip up/down through the available signal sources (to full screen) dened as
Main Input.
Reference in user manual: “PIP Menu / Swap Source”
“Second Source” = Flip up/down through the available signal sources (to PIP/PBP) dened as
Second, Third and Fourth Inputs
Reference in user manual: “PIP Menu / Swap Source”
Miscellaneous > Key 1 / Key 2
“PIP Mode” = Flip up/down through the PIP/PBP functions.
Reference in user manual: “PIP Menu / PIP Mode”
“Graphic Scaling”= Flip up/down through the scaling methods available.
Reference in user manual: “OSD Miscellaneous / Aspect Ratio”
“Swap Source” = Loops through all the sources available dened as Main, Second, Third and
Fourth input.
Reference in user manual: “Input Source Settings”
“Test Pattern”= Display the internal test image overriding any signal inputs. Both Hot Keys performs the same action.
Reference in user manual: “Service Settings / Test Pattern”
“OSD Language”= Flip up/down through available languages (real-time changes).
Reference in user manual: “OSD Menu > OSD Language”
“No Function”= Nothing will be activated when user touches Hot Keys on front glass. Both Hot Keys performs the same action.
● Note: Default Hot Keys are assigned to “No Function”
User Controls
IND100064-48
58
Page 59
OSD Menu Functions
Input Source Settings
Allows you to assign the OSD named inputs to a physical reference to the available signal sources
connected to the unit. The contents of this submenu and choices are listed below. Note: Switch time
between sources is ~5 sec.
|---2---
Input Source Settings > Main Input
Whatever chosen as “Main Input” will be used as reference throughout the OSD Menu.
Available sources are as listed below*
* For current models: “DisplayPort”, “HDMI1”, “HDMI2” or “HDMI3”.
* For HW00 models: “DisplayPort”, “HDMI”, “DVI” or “VGA”.
|---2---
Input Source Settings > Second Input
Whatever chosen as “Second Input” will be used as reference throughout the OSD Menu.
Available sources are as listed below*
* For current models: “DisplayPort”, “HDMI1”, “HDMI2” or “HDMI3”.
* For HW00 models: “DisplayPort”, “HDMI”, “DVI” or “VGA”.
|---2---
Input Source Settings > Third Input
Whatever chosen as “Third Input” will be used as reference throughout the OSD Menu.
Available sources are as listed below*
* For current models: “DisplayPort”, “HDMI1”, “HDMI2” or “HDMI3”.
* For HW00 models: “DisplayPort”, “HDMI”, “DVI” or “VGA”.
|---2---
Input Source Settings > Fourth Input
Whatever chosen as “Fourth Input” will be used as reference throughout the OSD Menu.
Available sources are as listed below*
* For current models: “DisplayPort”, “HDMI1”, “HDMI2” or “HDMI3”.
* For HW00 models: “DisplayPort”, “HDMI”, “DVI” or “VGA”.
|---2---
Input Source Settings > Auto Source
Turns on or off the internal automatic detection of incoming signals and when found stops and show
this signal source on the screen. If no source is connected physically, the function will loop through
all inputs forever. Available sources are as listed below:*
* For current models: “DisplayPort”, “HDMI1”, “HDMI2” or “HDMI3”.
* For HW00 models: “DisplayPort”, “HDMI”, “DVI” or “VGA”.
Settings as follows:
“On” = Loops until a valid signal source is found and stops. “On” is Factory default.
“Off” = No automatic detection loop will occur. User has to set manually.
Unit will enter Sleep mode.
● Switch time for next source is ~5 sec.The longest auto detection time is ~1minute from 1st source to last source.
User Controls
59
IND100064-48
Page 60
OSD Menu Functions
Communication
The unit allows for remote control (adjust brightness for example) and/or accessing internal information
about the unit such as type number, serial number and more. To setup this feature, you rst need to
congure the Serial, USB or Ethernet protocol properly to match your external equipment specications.
The contents of this submenu and choices are listed below.
A more detailed description of the SCOM (Serial/Ethernet Communication) can be found here:
Review also the “Pinout Assignments” chapter in this manual for additional help during preparation and/or
installation of external equipment intended to communicate with.
Settings as follows:
“RS232” = Sets the SCOM communication to standard RS-232 protocol.
“2-wire RS-485” = Sets the SCOM communication to RS-485 protocol (Half duplex).
“4-wire RS485/422” = Sets the SCOM communication to RS-485/422 protocol (Full duplex).
“USB” = Sets the SCOM communication to standard USB protocol.
“Address RS” = Set the global unique channel / port ID for the unit (range 0-254).
“Auto IP Address” = Enable or Disable the discovery to assign IP Adress Automatically.
“Fixed IP Address” = You can set the IP address manually (xxx.xxx.xxx.xxx).
● Note: Default mode is “RS232” protocol.
User Controls
IND100064-48
60
Page 61
OSD Menu Functions
Service Settings
Will show various technical and unit related information, such as; Firmware versions, activation for the
internal Test Pattern image useful for trouble-shooting. Some of these functions are static information while
others are accessible. Whenever you are in contact with helpdesk or service, they might require you to read
back some of these values in order to precisely pinpoint any problem/question you should have with the
unit or its functionality.
Information blocks as follows:
“Video Scaler Firmware” = Displays the rmware version of the video controller.
Example: “FW300001-0A21”
“uC Firmware” = Displays the rmware version of the touch enabled buttons.
Example: “FW100002-TA09”
“Current Temperature” = Shows the internal temperature measured by onchip sensor.
Example: “+042..”, in Celsius Degrees.
|---2-- Will show the internal test pattern with greyscales, colors and raster patterned boxes to check for
deviations in the TFT panel/display controller behavior. It is independent of any current resolution
or specications found in the signal inputs. The test pattern is generated internally in the display
controller and is sent 1:1 directly to the TFT panel. It can be useful during trouble-shooting
situations to determine the source of a display or connectivity problem regarding external
equipment. The unit will show a Test Pattern even if no signal cable is connected or any valid
signal source is detected.
To activate this function, touch the “MENU” button.
Service Settings > Test Pattern
● Note: This function will not inform/report any deviations directly, you need to have the required technical
expertise to interpret the test pattern displayed.
User Controls
IND100064-48
61
Page 62
OSD Menu Functions
|---2---
Used to Warm up the panel with full-screen solid color. For internal testing purposes only.
Please contact your nearest Hatteland Technology ofce, or Service Partner before using this
setting.
Service Settings > Burn In
User Controls
IND100064-48
62
Page 63
OSD Menu Functions
Preset
Allows Memory Presets (Recall/Save/Load) for OSD menu settings and overlays user have dened. The
contents of this submenu and choices are listed below.
|---2---
Allows you to save current state of all functions and values to user dened presets.
Choices as follows:
“User 1” = Save all OSD settings to User 1 slot.
“User 2” = Save all OSD settings to User 2 slot.
“User 3” = Save all OSD settings to User 3 slot.
“User 4” = Save all OSD settings to User 4 slot.
“User 5” = Save all OSD settings to User 5 slot.
|---2---
Allows you to load previous states of all functions and values to user dened presets.
Choice as follows:
“Default” = Reset back to initial values as they appeared when menu
was accessed before any user interaction in the menu was noticed.
“User 1” = Load all OSD settings from User 1 slot.
“User 2” = Load all OSD settings from User 2 slot.
“User 3” = Load all OSD settings from User 3 slot.
“User 4” = Load all OSD settings from User 4 slot.
“User 5” = Load all OSD settings from User 5 slot.
Preset > Save
Preset > Load
|---2---
Press “MENU” button to reset back to factory defaults. Will override and restore all previous
modied settings.
IND100064-48
Preset > Recall
User Controls
63
Page 64
OSD Menu Functions
Fault Status
Will show detected Fault Status by measuring various internal values for the items monitored.
Status is stated as either “OK” or “FAULT”. The contents of this submenu and choices are listed below.
Fault Status as follows:
“NVRAM” = Status on Non-volatile random-access memory which is used to
store parameters and settings.
“Ethernet” = Status on Ethernet/LAN communication chip controller.
“GDC” = Status on User Controls button controller.
“Temperature Sensor” = Status on internal temperature measured by on-chip sensor.
“Video Scaler” = Status on on-board Digital Visual Interface graphics chip processor.
“MAC Eeprom” = Status of the storage of the Ethernet Port MAC Address.
User Controls
IND100064-48
64
Page 65
Operation Advanced
(DDC/CI)
65
Page 66
Operation Advanced (DDC/CI) Control Overview
Introduction
DDC/CI (Display Data Channel/Command Interface) species a means for a computer to send commands to the
unit's Display Video Controller to programmatically adjust parameters of the display instead of pressing physical
buttons or navigate through an OSD menu. Specic commands to control units are dened in a separate ofcial
Monitor Control Command Set (MCCS) industry standard. The signal inputs supported are DVI, HDMI, DisplayPort
(DP) and VGA.
To determine if your unit has the DDC/CI commands supported as described in this chapter, please review
the "On Screen Display (OSD) Menu" chapter (Service section) in this manual.
It is expected that the user has previous experience of the DDC/CI protocol and how to implement the commands in
their own control applications. A suitable starting point for sending commands, are the GUI operated (or command
line version) of softMCCS software, reference: http://www.entechtaiwan.com/lib/softmccs.shtm
The listed DDC/CI commands below are equivalent to the same functions available in the well implemented Hatteland
Technology Serial/Ethernet Communication Control Interface (SCOM) protocol, where specied, reference:
Min-Max Range:
0-255 (0x00-0xFF)
During Read reply, these
values will be present.
Read/Write support.
D6 = Command ID
Where xx is:
0x01 = On
0x02 = Standby
0x03 = Standby
0x04 = Standby
0x05 = OFF
0x3F = Read Command:
Modes are described in
INB100018-6 (SCOM)
document.
Read/Write support.
E2 = Command ID
Where xx = 0 to 255
Min-Max Range:
0-255 (0x00-0xFF)
During Read reply, these
values will be present.
Read/Write support.
BRT
PWR
BRU
IND100064-52
66
Page 67
Operation Advanced (DDC/CI) Control Overview
DescriptionSyntax and FunctionalityDetails and ValuesVia SCOM
Color Mode:
Kelvin Color
Tempearture
(0x14)
Set/Write Color Temperature:
[S] <6E:w> 51 84 03 14 00 ww xx [P]
Reply of successfull request:
[S] <6F:r> xx 80 BE*[P]
Read Color Temperature Value:
[S] <6E:w> 51 82 01 14 A8 [P]
Reply of successfull request:
[S] <6F:r> 6E 88 02 00 14 00 00 0E 00 yy zz*[P]
14 = Command ID
Where Write ww xx
05 A9 = 6500
07 AB = 8000
08 A4 = 9300
Where Read yy zz
05 AB = 6500
07 A9 = 8000
08 A6 = 9300
Read/Write support.
MCC:
(Color Temperature
Select)
Gamma
Calibration
(0x14)
Buzzer Control
(0xE5)
Set/Write Calibration:
[S] <6E:w> 51 84 03 14 00 ww xx [P]
Reply of successfull request:
[S] <6F:r> xx 80 BE*[P]
Read Calibration:
[S] <6E:w> 51 82 01 14 A8 [P]
Reply of successfull request:
[S] <6F:r> 6E 88 02 00 14 00 00 0E 00 yy zz*[P]
Write/Turn ON:
[S] <6E:w> 51 84 03 E5 00 FF 5C [P]
Reply of successfull request:
[S] <6F:r> 5C 80 BE*[P]
Write/Turn oFF:
[S] <6E:w> 51 84 03 E5 00 00 5D [P]
Reply of successfull Turn OFF request:
[S] <6F:r> 5D 80 BE*[P]
14 = Command ID
Where Write ww xx
0C A0 = VGA
0D A1 = DVI
0E A2 = DP
0F A3 = HDMI
Where Read yy zz
0C A2 = VGA
0D A3 = DVI
0E A4 = DP
0F A5 = HDMI
Read/Write support.
E5 = Command ID
Where FF = Turn On
Where 00 = Turn Off
Write Support only.
MCC:
(Gamma
(Calibration))
BZZ
IND100064-52
67
Page 68
Operation Advanced (DDC/CI) Control Overview
DescriptionSyntax and FunctionalityDetails and ValuesVia SCOM
Touch Power Mode
(0xE6)
Write/Set Power Mode:
[S] <6E:w> 51 84 03 E6 00 xx A1 [P]
Reply of successfull request:
[S] <6F:r> 5C 80 BE*[P]
Read Power Mode:
[S] <6E:w> 51 82 01 E6 5A [P]
Reply of successfull request :
[S] <6F:r> 6E 88 02 00 E6 01 00 FF 00 FF 53*[P]
E6 = Command ID
Where xx is:
0xFF = Always Active
0xFE = Only active when display is
on and has an active input
signal
0x00 = Only active if selected source
is active AND Selected
Source="DVI-I_1"
0x01 = Only active if selected source
is active AND Selected
Source="DVI-I_2"
0x02 = Only active if selected source
is active AND Selected
Source="DVI3"
0x03 = Only active if selected source
is active AND Selected
Source="DVI4"
0x10 = Only active if selected source
is active AND Selected
Source="RGB_1"
0x11 = Only active if selected source
is active AND Selected
Source="RGB_2"
0x12 = Only active if selected source
is active AND Selected
Source="RGB_3"
0x13 = Only active if selected source
is active AND Selected
Source="RGB_4"
0x20 = Only active if selected source
is active AND Selected
Source="CVIDEO1"
0x21 = Only active if selected source
is active AND Selected
Source="CVIDEO2"
0x22 = Only active if selected source
is active AND Selected
Source="CVIDEO3"
0x23 = Only active if selected source
is active AND Selected
Source="CVIDEO4"
0x30 = Only active if selected source
is active AND Selected
Source="DP1"
0x31 = Only active if selected source
is active AND Selected
Source="DP2"
0x32 = Only active if selected source
is active AND Selected
Source="DP3"
0x33 = Only active if selected source
is active AND Selected
Source="DP4"
0x3F = Read Command
Recommended for optimal picture quality. Review Timing Table in User Manual.
*
Power Specifications:
Multi-power Supply:
• 100&240VAC - 50/60Hz + 24 VDC
Note: You may connect either AC power or DC power or both. In case both sources
are connected, power will be sourced from the AC input. If AC input is lost, there will
be a uninterrupted switch-over to DC input.
Power Consumption:
• Operating: 65W (typ) - 100W (max)
Physical Considerations:
• W:758.00 [29.84''] x H:500.00 [19.69''] x D:64.00 [2.52''] mm [inch]
• Weight: Approx. 17.0kg / 37.4lbs
Signal Terminals:
• HDMI 1.4 Input : 2 x 19p HDMI (female) - Max 3840x2160@30Hz
• HDMI 2.0 Input : 1 x 19p HDMI (female) - Max 3840x2160@60Hz
Even though the test conditions for bridge units provide for a maximum
operating temperature of 55°C, continuous operation of all electronic
components should, if possible, take place at ambient temperatures of only
25°C. This is a necessary prerequisite for long life and low service costs.
: 1 x 20p DisplayPort (female) - Max 3840x2160@60Hz
Note: Max Cable length: <3m
User Brightness (BRT), I2C and +5VDC & 12VDC OUT
Available Accessories:
• HD CMB SX2-E1 : 1 x Console Mount Kit. EN60945 Tested
• HD TMB SX2-A2 : 1 x Table Mount Bracket. EN60945 Tested
• HD VED SX2-G1 : 1 x VESA Adapter. EN60945 Tested
• HD REM SX1-A1 : 1 x External Remote Control, EN60945 Tested
• P019761: 1 x IP66 Mount Gasket (EPDM),for Flush/Console mount
Please see user manual/datasheet for more information
Recommended for optimal picture quality. Review Timing Table in User Manual.
Power Specifications:
Multi-power Supply:
• 100&240VAC - 50/60Hz + 24 VDC
Note: You may connect either AC power or DC power or both. In case both sources
are connected, power will be sourced from the AC input. If AC input is lost, there will
be a uninterrupted switch-over to DC input.
Power Consumption:
• Operating: 65W (typ) - 100W (max)
Physical Considerations:
• W:758.00 [29.84''] x H:500.00 [19.69''] x D:64.00 [2.52''] mm [inch]
• Weight: Approx. 17.0kg / 37.4lbs
Signal Terminals:
• DVI-D Input: 1 x 24p DVI (female) - Max 3840x2160@30Hz
• VGA Input: 1 x 15p HD D-SUB (female) - Max 1920x1200@60Hz
• HDMI 2.0 Input : 1 x 19p HDMI (female) - Max 3840x2160@60Hz
• DP 1.2 Input: 1 x 20p DisplayPort (female) - Max 3840x2160@60Hz
Even though the test conditions for bridge units provide for a maximum
operating temperature of 55°C, continuous operation of all electronic
components should, if possible, take place at ambient temperatures of only
25°C. This is a necessary prerequisite for long life and low service costs.
User Brightness (BRT), I2C and +5VDC & 12VDC OUT
Available Accessories:
• HD CMB SX2-E1 : 1 x Console Mount Kit. EN60945 Tested
• HD TMB SX2-A2 : 1 x Table Mount Bracket. EN60945 Tested
• HD VED SX2-G1 : 1 x VESA Adapter. EN60945 Tested
• HD REM SX1-A1 : 1 x External Remote Control, EN60945 Tested
• P019761: 1 x IP66 Mount Gasket (EPDM),for Flush/Console mount
Please see user manual/datasheet for more information
• Tactor (Rotation Angle Value, X/Y Position, 1 x Button) supported Model
• Active Stylus Pen Supported Model
A P P R O V A L S & C E R T I F I C A T E S
IEC 60945 4th (EN 60945:2002) IACS E10 EU RO MR - Mutual Recognition (covers DNV, BV, ABS, GL, NK and LRS certificates)
HW00 version
IND100129-193
These products have been tested / type approved by the following classification societies:
71
Page 72
This page left intentionally blank
72
Page 73
Technical Drawings
73
Page 74
Technical Drawings - HD 32T22 MVD-MAx-AxGx
Hatteland Technology AS
N-5570 Aksdal
Eikeskogvegen 52
Dimensions might be shown with or without decimals and indicated as mm [inches]. Tolerance on drawings is +/- 1mm. For accurate measurements, check relevant DWG file.
IND100132-305
74
This document is the property of Hatteland Technology AS. This document and any authorized reproduction thereof, must not be used in any way against the interest of Hatteland Technology AS.
Any authorized reproduction, in whole or in part, must include this legend. Hatteland Technology AS Proprietary information. Not to be distributed to any third party without written permission.
Page 75
Technical Drawings - HD 32T22 MVD-MAx-AxGx
Hatteland Technology AS
N-5570 Aksdal
Eikeskogvegen 52
Dimensions might be shown with or without decimals and indicated as mm [inches]. Tolerance on drawings is +/- 1mm. For accurate measurements, check relevant DWG file.
HW00 version
IND100132-446
75
This document is the property of Hatteland Technology AS. This document and any authorized reproduction thereof, must not be used in any way against the interest of Hatteland Technology AS.
Any authorized reproduction, in whole or in part, must include this legend. Hatteland Technology AS Proprietary information. Not to be distributed to any third party without written permission.
Page 76
This page left intentionally blank
76
Page 77
Technical Drawings - Accessories
77
Page 78
Technical Drawings - HD TMB SX2-A2
Dimensions might be shown with or without decimals and indicated as mm [inches]. Tolerance on drawings is +/- 1mm. For accurate measurements, check relevant DWG file.
Table Mounting Bracket 32 inch - EN60945
IND100132-307
78
This document is the property of Hatteland Technology AS. This document and any authorized reproduction thereof, must not be used in any way against the interest of Hatteland Technology AS.
Any authorized reproduction, in whole or in part, must include this legend. Hatteland Technology AS Proprietary information. Not to be distributed to any third party without written permission.
Page 79
Technical Drawings - HD VED SX2-G1
Dimensions might be shown with or without decimals and indicated as mm [inches]. Tolerance on drawings is +/- 1mm. For accurate measurements, check relevant DWG file.
VESA Adapter 32 inch
IND100132-306
79
This document is the property of Hatteland Technology AS. This document and any authorized reproduction thereof, must not be used in any way against the interest of Hatteland Technology AS.
Any authorized reproduction, in whole or in part, must include this legend. Hatteland Technology AS Proprietary information. Not to be distributed to any third party without written permission.
Page 80
Technical Drawings - HD CMB SX2-E1
Dimensions might be shown with or without decimals and indicated as mm [inches]. Tolerance on drawings is +/- 1mm. For accurate measurements, check relevant DWG file.
Console Mount Kit 32 inch
IND100132-308
80
This document is the property of Hatteland Technology AS. This document and any authorized reproduction thereof, must not be used in any way against the interest of Hatteland Technology AS.
Any authorized reproduction, in whole or in part, must include this legend. Hatteland Technology AS Proprietary information. Not to be distributed to any third party without written permission.
Page 81
Technical Drawings - HD CMB SX2-E1
See next page
Dimensions might be shown with or without decimals and indicated as mm [inches]. Tolerance on drawings is +/- 1mm. For accurate measurements, check relevant DWG file.
Console Mounting 32 inch
IND100132-308
81
This document is the property of Hatteland Technology AS. This document and any authorized reproduction thereof, must not be used in any way against the interest of Hatteland Technology AS.
Any authorized reproduction, in whole or in part, must include this legend. Hatteland Technology AS Proprietary information. Not to be distributed to any third party without written permission.
Page 82
Technical Drawings - HD CMB SX2-E1
Dimensions might be shown with or without decimals and indicated as mm [inches]. Tolerance on drawings is +/- 1mm. For accurate measurements, check relevant DWG file.
Flush Mounting 32 inch
IND100132-308
82
This document is the property of Hatteland Technology AS. This document and any authorized reproduction thereof, must not be used in any way against the interest of Hatteland Technology AS.
Any authorized reproduction, in whole or in part, must include this legend. Hatteland Technology AS Proprietary information. Not to be distributed to any third party without written permission.
Page 83
Technical Drawings - HD REM SX1-A1
Dimensions might be shown with or without decimals and indicated as mm [inches]. Tolerance on drawings is +/- 1mm. For accurate measurements, check relevant DWG file.
For External Mounting
IND100132-287
83
This document is the property of Hatteland Technology AS. This document and any authorized reproduction thereof, must not be used in any way against the interest of Hatteland Technology AS.
Any authorized reproduction, in whole or in part, must include this legend. Hatteland Technology AS Proprietary information. Not to be distributed to any third party without written permission.
Page 84
Technical Drawings - IP66 Mount Gasket (EPDM)
Hatteland Technology AS
N-5570 Aksdal
Eikeskogvegen 52
Dimensions might be shown with or without decimals and indicated as mm [inches]. Tolerance on drawings is +/- 1mm. For accurate measurements, check relevant DWG file.
P019761
IND100132-451
84
This document is the property of Hatteland Technology AS. This document and any authorized reproduction thereof, must not be used in any way against the interest of Hatteland Technology AS.
Any authorized reproduction, in whole or in part, must include this legend. Hatteland Technology AS Proprietary information. Not to be distributed to any third party without written permission.
Page 85
Appendixes
85
Page 86
Hardware Code (HWxx) Overview
Introduction
Hardware Code (HW00, HW01 etc.) are a series of technical and mechanical improvements engineered for
our Maritime Multi Vision (MVD) display range and are valid for all 32 and 55 inch units. In this document
we shall explain the differences between pre-HW01 (HW00) and HW01.
The process of implementing HW01 for the units was initiated from Q3 2019.
The user manual will still keep specications and technical drawings etc. available for pre-HW01 (marked
with HW00) units to support those who do not have the HW01 products installed. The HW01 code is
basically a enhancement of our current product range, but the type numbers stays the same and the
pre-HW01 (HW00) units are not ofcially obsoleted and are still supported by Hatteland Technology.
All current type approvals, testing and certicates are valid. Additionally the HW01 solution is tested
according to IEC60945 and IACS E10.
----------------------------------------------FROM THE OFFICIAL ECN-------------------------------------------------
Hardware change / upgrade for 32 and 55 inch units:
We will upgrade all our 32 and 55 inch units with digital inputs only, having the same input specications as
our 43 inch display.
Change(s) applies for the following Hatteland Technology Product(s):
- HD 32T22 MVD-xxx-xxxx
- HD 55T22 MVD-xxx-xxxx
Note: Customized models are ALSO affected by this Engineering Change Notication.
Effective from:
1 July 2019
Change(s):
- Modication made to the internal scaler board, removing RGB and DVI-D inputs.
- Modication made to the internal scaler board, adding 2x HDMI 1.4.
- New inputs will be 2x HDMI 1.4, 1x HDMI 2.0 and 1x DP 1.2.
- Modication made to video scaler rmware to reect the hardware changes described above.
How to identify pre-HW01 (HW00) and HW01 differences?
The newer HW01 units are at rst glance 90% physically the same as the pre-HW01 units. To quickly nd
out if your unit is pre-HW01 (HW00) based, the unit has 1 x DVI + VGA connnectors, while for the HW01
unit, there is no DVI/VGA connectors available, but 3 x HDMI and 1 x DisplayPort (DP) instead. If you
download or have electronic versions of the user manuals, datasheets or technical drawings “HW00” will be
present as written text on either the document itself or as part of the lename. “HW01” is not written on any
document or lenames (except for this document).
Filename examples: (note that “HW00” or “hw00” is always present)
“ds_hd32t22mvd-max-axgx_hw00.pdf” (PDF datasheet pre-HW01 (HW00))
“a009487_hd32t22mvd-ma1-axgx_hw00.pdf” (PDF technical pre-HW01 (HW00))
“32.0 inch Multi Vision Display (MVD) (HW00)” (Typical written title name/indentication in data sheet/user manual)
Appendix
IND100104-10
86
Page 87
Hardware Code (HWxx) Overview
Mechanical and Technical differences
Listed here are the differences between pre-HW01 and HW01 products. The area of noticable differences
is cleary marked with red circles.
CHANGES FOR SIGNAL INPUT CONNECTORS (32 inch used as example, same for 55 inch)
Signal Inputs area
DVI-D HDMI DP VGA
pre-HW01 (HW00)
HW01
Signal Inputs area
HDMI HDMI HDMI DP
AVAILABLE SIGNAL PARAMETERS REVISED IN OSD MENU (32/55 INCH UNITS)
DisplayPort Resolution: 3840x2160@60Hz
Image SettingsSelect source to AdjustMain Input
Color Mode SettingsBrightness128
PIP MenuContrast128
OSD MenuSaturation128
MiscellaneousHue128
Input Source SettingsSharpness128
CommunicationAnalog VGA Adjustment
Service SettingsAuto AdjustmentOn
PresetsExit
Fault Status
Exit
Main Input:
Third Input:
Second Input:
Fourth Input:
DisplayPort Resolution: 3840x2160@60Hz
Image SettingsSelect source to AdjustMain Input
Color Mode SettingsBrightness128
PIP MenuContrast128
OSD MenuSaturation128
MiscellaneousHue128
Input Source SettingsSharpness128
CommunicationExit
Service Settings
Presets
Fault Status
Exit
Main Input:
Third Input:
Second Input:
Fourth Input:
Example from OSD
Image Settings menu shows “Analog VGA Adjustments”
and “Auto Adjustment”. Additionally within other menus; “DVI”,
and “VGA” function is mentioned/active.
pre-HW01 (HW00)
Appendix
IND100104-10
Example from OSD
Image Settings menu with removed “Analog VGA Adjustments”
and “Auto Adjustment”. These only apply for Analog Signals.
Additionally within other menus; “DVI”, “VGA” is removed, and
replaced with “HDMI1”, “HDMI2” and “HDMI3”.
Connectors illustrated here are either standard by factory default or may be available (through factory customization).
Note that some combinations may not be possible due to space restrictions. List also valid for customized models. All
pin out assignments are seen from users Point of View (POV) while looking straight at the connector. Please review
the dedicated datasheet or technical drawings for your actual unit to identify and determine the presence of desired
connector. Detailed information about Housing Connectors (terminal blocks) can be found earlier in this manual.
18/24/24+5 pin DVI-D, DVI-I, Single Link, Dual Link Combined Female
1 2 3 4 5 6 7 8 C1 C2
9 10 11 12 13 14 15 16 C5
17 18 19 20 21 22 23 24 C3 C4
PIN 01 T.M.D.S. Data2 - (Digital - RED link 1)
PIN 02 T.M.D.S. Data2 + (Digital + RED link 1)
PIN 03 T.M.D.S. Data2/4 Shield
PIN 04 T.M.D.S. Data4 - (Digital - GREEN link 2)
PIN 05 T.M.D.S. Data4 + (Digital + GREEN link 2)
PIN 06 DDC Clock
PIN 07 DDC Data
PIN 08 Analog Vertical Sync (DVI-I only)
PIN 09 T.M.D.S. Data1 - (Digital - GREEN link 1)
PIN 10 T.M.D.S. Data1 + (Digital + GREEN link 1)
PIN 11 T.M.D.S. Data1/3 Shield
PIN 12 T.M.D.S. Data3 - (Digital - BLUE link 2)
PIN 13 T.M.D.S. Data3 + (Digital + BLUE link 2)
PIN 14 +5V Power (for standby mode)
PIN 15 Ground (for +5V and analog sync)
PIN 16 Hot Plug Detect
PIN 17 T.M.D.S. Data0 - (Digital - BLUE link 1) and digital sync.
PIN 18 T.M.D.S. Data0 + (Digital + BLUE link 1) and digital sync.
PIN 19 T.M.D.S. Data0/5 Shield
PIN 20 T.M.D.S. Data5 - (Digital - RED link 2)
PIN 21 T.M.D.S. Data5 + (Digital - RED link 2)
PIN 22 T.M.D.S. Clock Shield
PIN 23 T.M.D.S. Clock + (Digital clock + (Links 1 and 2)
PIN 24 T.M.D.S. Clock - (Digital clock - (Links 1 and 2)
PIN C1 Analog RED
PIN C2 Analog GREEN
PIN C3 Analog BLUE
PIN C4 Analog Horizontal Sync.
PIN C5 Analog Ground (return for RGB signals)
DDC = Display Data Channel.
T.M.D.S = Transition Minimized Differential Signal
PIN C1,C2,C3,C4 = Only present on DVI-I connectors.
NOTE: Connector shows a DUAL LINK design, but some units may not support it.
Only units with 1920x1200 or more in resolution require / support DUAL LINK.
2-pin DC Power Input,
Pin 2: Negative -Pin 1: Positive +
Analog RGB/VGA, 15-pin DSUB High Density Female
Onboard or via DVI-4 adapter
5 4 3 2 1
10 9 8 7 6
15 14 13 12 11
PIN 01 REDRed, analog
PIN 02 GREENGreen, analog
PIN 03 BLUEBlue, analog
PIN 04 ID2/RESReserved for monitor ID bit 2 (grounded)
PIN 05 GNDDigital ground
PIN 06 RED_RTNAnalog ground red
PIN 07 GREEN_RTN Analog ground green
PIN 08 BLUE_RTNAnalog ground blue
PIN 09 KEY/PWR+5V power supply for DDC (optional)
PIN 10 GNDDigital ground
PIN 11 ID0/RESReserved for monitor ID bit 0 (grounded)
PIN 12 ID1/SDADDC serial data
PIN 13 HSYNC.Horizontal sync or composite sync, input
PIN 14 VSYNC.Vertical sync, input
PIN 15 ID3/SCLDDC serial clock
In order to activate the external Power ON/OFF control it must be enabled:
Via OSD Menu: “OSD Miscellaneous>External Power Button” and set to Enable.orVia SCOM (Serial Communication Control Interface): “MCC” - OSD Control Functionality -> “External Power Button (0x74)”.
Usage for SCOM: Review the dedicated Technical Manual available from our website: https://www.hatteland-display.com/pdfget/inb100018-6.php
**Buzzer - External Drive Logic:
• Able to supply 12VDC+-5%@100mA
• Short circuit protected at <500mA
• <50VDC from ground of Display unit (Our input is isolated, this is layout limitation)
• Our input is classied as signal input, not power.
Notes:
Unit may have several physical connectors available for Buzzer control. Please only use RS-232 or RS-485 pins to control Buzzer, not both at the same time.
Series X (G1 - Generation 1):
• External drive logic can drive the buzzer even when the Display Unit is off.
Potentiometer Control, 9-pin DSUB Male
5 4 3 2 1
9 8 7 6
PIN 01 +5V+5V out
PIN 02 PWRPower On / Off
PIN 03 Res.Reserved, do not connect
PIN 04 ArefFor potentiometer
PIN 05 +12V+12V out
PIN 06 BRT_POT Potentiometer in
PIN 07 BRT –Button in
PIN 08 BRT+Button in
PIN 09 GNDGround
Potentiometer shall be 10kΩ LINEAR. Connect like the illustrations shown below:
Fig #1
Fig #2
10-pin RS-422 / RS-485 Module
“RS-422/RS-485 SCOM + Buzzer”
(Internal Buzzer can be controlled externally)
2 4 6 8 10
1 3 5 7 9
PIN 01*RxD+Receive Data Positive
PIN 02GNDGround
PIN 03*RxD-Receive Data Negative
PIN 04+5V+5V Out
PIN 05*TxD+Transmit Data Positive
PIN 06** BUZ-Buzzer Control Negative
PIN 07*TxD-Transmit Data Negative
PIN 08** BUZ+Buzzer Control Positive
PIN 09GNDR Ground 100Ω
PIN 10GNDGround
*Pin 1,3,5,7 = RS-485 Full Duplex (4-wire)
*Pin 5,7 = RS-485 Half Duplex (2-wire)
**See notes in blue.
Suggested “Buzzer” Control Logic inside
Computer/System:
Internal SideExternal Side
The BRT+ and BRT- can be used for controlling the brilliance by using external
system should be low pass lter or else the power
ripple may cause radiated emission to fail.
Use a cable that contains at least 2 wires (not 2
single wires). Test connection (beep) with Voltage
Meter. Wires may be combined if using RS-422/485
Series X (G2 - Generation 2) / MVD Series:
Note:
as possible pig tail.
COM as well.
• Display Unit needs external power connected
to turn buzzer on. (Any logic power state).
Appendix
IND100241-29
90
Page 91
Pinout Assignments
Serial COM RS-232 non-isolated, 9-pin DSUB Female
5 4 3 2 1
9 8 7 6
PIN 01** BUZ+Buzzer Control Positive IN*
PIN 02 TxDTransmit Data
PIN 03 RxDReceive Data
PIN 04 DTRData Terminal Ready
PIN 05 GNDGround
PIN 06 DSRData Set Ready
PIN 07 RTSRequest To Send
PIN 08 CTSClear To Send
PIN 09** BUZ-Buzzer Control Negative IN*
RS232-Wake On Ring is not enabled. **See notes in blue.
Suggested “Buzzer” Control Logic inside Computer/System:
Internal SideExternal Side
+12V
Logic Control
GND
NPN
Transistor
Rating:
500mA
20-pin DisplayPort (DP) Female
19 17 15 13 11 9 7 5 3 1
20 18 16 14 12 10 8 6 4 2
PIN 01ML_Lane 0 (p) - Lane 0 (positive)
PIN 02GND - Ground
PIN 03ML_Lane 0 (n) - Lane 0 (negative)
PIN 04ML_Lane 1 (p) - Lane 1 (positive)
PIN 05GND - Ground
PIN 06ML_Lane 1 (n) - Lane 1 (negative)
PIN 07ML_Lane 2 (p) - Lane 2 (positive)
PIN 08GND - Ground
PIN 09ML_Lane 2 (n) - Lane 2 (negative)
PIN 10ML_Lane 3 (p) - Lane 3 (positive)
PIN 11GND - Ground
PIN 12ML_Lane 3 (n) - Lane 3 (negative)
PIN 13* CONFIG1 - connected to Ground*
PIN 14* CONFIG2 - connected to Ground*
PIN 15AUX CH (p) - Auxiliary Channel (positive)
PIN 16GND - Ground
PIN 17AUX CH (n) - Auxiliary Channel (negative)
PIN 18Hot Plug - Hot Plug Detect
PIN 19Return - Return for Power
PIN 20DP_PWR - Power for connector (3.3 V 500 mA)
*Pins 13 and 14 may either be directly connected to ground or
connected to ground through a pulldown device. This is the pinout for
source-side connector, the sink-side connector pinout will have lanes
0–3 reversed in order; i.e., lane 3 will be on pin 1(n) and 3(p) while
lane 0 will be on pin 10(n) and 12(p).
19-pin HDMI Female
19 17 15 13 11 9 7 5 3 1
Pin 1 on your Connector
Pin 1
Pin 9
9-pin DSUB Female Add
Note Orientation! Back Shell
Note: Requires soldering and assembly. It is expected that the
technician has experience in electronics, soldering and assembling cables and
connectors.Use a cable that contains at least 2 wires (not 2 single wires). Heat
Shrink Tubes must be applied to soldered wire/pins. Test connection (beep)
with Voltage Meter. Wires may be combined if using RS-232 COM as well.
Return Channel)
PIN 15 SCL (I²C Serial Clock for DDC)
PIN 16 SDA (I²C Serial Data for DDC)
PIN 17 Ground (for DDC, CEC, ARC and HEC)
PIN 18 +5 V (min. 0.055 A)
Hot Plug Detect (all versions)
HEAC- (HDMI 1.4+, optional, HDMI
PIN 19
Ethernet Channel and Audio Return
Channel
IND100241-29
Appendix
91
Page 92
Pinout Assignments
External Power ON/OFF Control, 9-pin DSUB Male
5 4 3 2 1
9 8 7 6
PIN 01 +5V+5V out
PIN 02 PWRPower On / Off
PIN 03 Res.Reserved, do not connect
PIN 04 ArefFor potentiometer
PIN 05 +12V+12V out
PIN 06 BRT_POT Potentiometer in
PIN 07 BRT –Button in
PIN 08 BRT+Button in
PIN 09 GNDGround
External Power Button must be of “Push Button” type.
Instant-On. To turn off unit, Press & Hold down for 3 seconds.
Building your own Push Button for External Power Button:
Note: Requires soldering and assembly. It is expected that the
technician has experience in electronics, soldering and assembling
cables and connectors.
Cable
Pin 1 on your Connector
Pin 2
External Push Button 9-pin DSUB Female Add
Note: Example only Note Orientation! Back Shell
Use a cable that contains at least 2 wires (not 2 single wires). Heat Shrink
Tubes must be applied to soldered wire/pins. Test connection (beep) with
In order to activate the external Power ON/OFF control it must be enabled:
Via OSD Menu: “OSD Miscellaneous>External Power Button” and set to Enable.
or
Via SCOM (Serial Communication Control Interface):
“MCC” - OSD Control Functionality -> “External Power Button (0x74)”.
Usage for SCOM: Review the dedicated Technical Manual available from our
website: https://www.hatteland-display.com/pdfget/inb100018-6.php
Pin 9
IND100241-29
Appendix
92
Page 93
Basic Trouble-shooting
GENERAL ISSUES FOR TFT PANEL BASED PRODUCTS
Note: Applies for a range of various products. This is only meant as a general guide.
NO PICTURE / LED BEHAVIOUR:
If there is no light at all in the LED at the FRONT, check power cables. If the LED in front is green, then check if the
brightness is set/adjusted to max brightness. Lack of image is most likely to be caused by incorrect connection, lack of
power or wrong BIOS settings.
SCROLLING / UNSTABLE IMAGE:
Signal cable may not be completely connected to computer or TFT display. Check the pin assignments and signal
timings of the display and your video card with respect to recommended timing and pin assignments. Make sure that
the video card is compatible and that it is properly seated / installed on the computer.
DISPLAY AREA IS NOT CENTERED / SIZED CORRECTLY
Make sure that a supported video mode has been selected on the display, or on the video card / system. If it is
impossible to position the image correctly, i.e. the image adjustment controls will not move the image far enough, then
test it again using another graphics card for the PC system. This situation may occur with a custom graphics card that
is not close to standard timings or if something is in the graphics line that may be affecting the signal, such as a signal
splitter (please note that normally a signal splitter will not have any adverse effect). If it is impossible to change to the
correct resolution/color depth, check if you have the right graphics driver installed in your system.
IMAGE APPEARANCE:
A faulty TFT panel can have black lines, pixel errors, failed sections, ickering or ashing image. Incorrect graphic
card refresh rate, resolution or interlaced mode will probably cause the image to be the wrong size, it may scroll,
icker badly or possibly even no image is present. Sparkling on the display may be a faulty TFT panel signal cable,
and it needs service attention.
VGA Signal Only: Horizontal interference can usually be corrected by adjusting the PHASE (OSD menu).
Vertical interference can usually be corrected by adjusting the FREQUENCY (OSD menu).
DEW CONDENSATION BEHIND GLASS:
Note that this problem will not occur on bonded products. For non-bonded products, do the following:
Power on the TFT product and set brightness to 100%. Turn off any automatic screensavers on PC or similar. During
minutes the dew will be gone. To speed up the process, use a fan heater for a reasonable time. Do not overheat the
unit.
(Applies not to warranty/normal service/repair of products)
Hatteland Technology referenced as “manufacturer” in this document.
Before returning goods, please contact your system supplier before sending anything directly to manufacturer. When
you return products after loan, test, evaluation or products subject for credit, you must ensure that all accessories
received from our warehouse are returned. This applies to cables, powermodules and additional equipment except
screws or similar, user manual, datasheets or other written paper documents. Furthermore, the product must not have
any minor / medium or severe scratches, chemical spills or similar on the backcover, front frame or glass.
This is required in order to credit the invoice 100%. Missing parts will not be subject for credit, and you will not get
total credit for returned product. You will either be charged separately, or the amount is withdrawn from the credit. If
you decide to ship the missing items later on, you will get 100% credit for that particular invoice or items received at
manufacturer incoming goods control. Please contact our service/sales department if additional questions or review
the following links at bottom of page for more information online.
Handling and packing units for return/credit
To prevent damage during shipping and transportation, respect the guidelines below.
Make sure you surround the product with the following material (whenever possible):
Use the original packaging from manufacturer, rm foam material, bubble wrap, lots of PadPack paper
or foam chips/polyester wrapped in sealed plastic bags. Please make sure that the unit is protected
with a surrounding plastic bag to prevent dust accumulation around the unit.
If you do not have the original packaging or are uncertain as to how to secure the unit properly,
please consider seeking advice from nearby shipping or transportation ofces, if in doubt!
Do not under any circumstances use loose foam chips, expanded polyester, clothes, cardboard with
sharp edges/spikes, too little or nothing to secure the unit inside the box. Do not use cardboard
boxes that are clearly too weak or not suitable for securing the unit properly during overseas shipment.
As of January 2015, Hatteland Technology AS’ “Terms of Sales and Delivery” and “Warranty Terms” have been
substituted by the updated ”General terms and conditions for sale of goods and performance of additional services”
(the “General Terms and Conditions”).
Further, from January 2015 onward, the previous “Terms of Sales and Delivery” and “Warranty Terms”, as well as
other standard terms and conditions, policies and instructions issued by Hatteland Technology AS, will be removed
from the User Manuals.
Instead, the updated General Terms and Conditions and the other standard terms and conditions, policies and
instructions issued by Hatteland Technology AS will be available via our website only.
Please visit https://www.hatteland-display.com/terms to review the latest revision of this documentation.
Long Term Storage Recommendations
For Minimum storage life for Hatteland Technology products,Storage Conditions,
Periodic maintenance - test procedure, please visit:
Control the goods immediately by receipt. Examine the quantity against the invoice/packinglist/shipping documents. Look for outward defects on
the packing which may indicate damage on or loss of contents. Control the container and the seals for any defects.
2) SECURING EVIDENCE
When defects on the goods have been found, evidence must be secured, and seller must be informed. Call the transporter and point out the
defects. Add a description of the defects on the goods receipt, the forwarder’s copy of the way-bill or on the driving slip.
3) RESCUE
Try to restrict the damage and the loss. Seller will compensate expenses incurred due to reasonable security efforts in addition to damage and loss.
4) COMPLAINT
Immediately write a complaint to the transporter or his agent. Immediately forward the complaint to the transporter or his agent, and hold the
transporter responsible for the defects. The complaint must be sent at the latest:
- for carriage by sea: within 3 days
- for overland / air transportation within 7 days
5) DOCUMENTATION
For any claims the following documentation is required and must forwarded to the company or their agent: invoice, way-bill and/or bill of landing,
and/or statement of arrival, inspection document, besides a copy of the letter of complaint to the transporter.
IND100077-7
Appendix
96
Page 97
Pixel Defect Policy
PIXEL DEFECT POLICY
Dot-defects (Bright or dark spots on the panel)
Due to the effect that dot failures are part of the TFT technology such failure occurrence cannot be prevented basically. Even though dot defects
usually occur during production process, new defects can appear within the lifespan of a TFT display. Neither the production at LCD-supplier nor
the use of an LCD-Monitor after shipment can be inuenced by Hatteland Technology. Hence Hatteland Technology cannot be made responsible
for such dot failures. However Hatteland Technology understands and accepts the responsibility towards the customers for the delivery of new
displays, therefore accepts a limitation on dot defects occurrence on new displays delivered to the customer.
PRINCIPLES
a. One pixel consists of 3 dots (Red, Green and Blue)
b. Dot defects are differentiated between:
• Bright dot defects: Spot on the panel appear as pixels or sub pixels that are always lit. Non-extinguishing dot.
• Dark dot defects: Spot on the panel appear as pixels or sub pixels that are always dark (off). Non-lightening dot.
c. Inspector observes the LCD from normal direction at a distance of 50cm above the worktable. Dark dots are
counted under entire white screen. Bright dots are counted under entire black screen.
d. Dot failures within tolerances below do not qualify for warranty claims.
PIXEL DEFECT TOLERANCES
Bright dot
≤ 4 dots
Two adjacent bright dots * ≤ 2
Distance between 2 dot defects * ≥ 15mm
Dark dots ≤ 8
Total number of bright or dark dot defects. * ≤ 8
* 1 or 2 adjacent dot defects considered as 1 defect.
EXTRAORDINARY CIRCUMSTANCES
Possible cases which cannot be inuenced either by customer or Hatteland Technology.
Examples for extraordinary circumstances:
• Allocation from LCD-Supplier
• Outstanding high number of LCD-panels with bright dots but within LCD-suppliers Specication.
• Sharply increased demand by customer
In such cases a mutual agreement is inevitable.
Examples:
• Acceptance of bright dots in “non-critical” display areas.
• Acceptance of bright dots with dened color.
Last Revised April 2019
IND100351-2
Appendix
97
Page 98
Notes
General Notes:
- The unit is type approved according to EN60945 4th, 4.4, equipment category b) protected from the weather.
- Other type approvals applies for the different products.
Please see the appropriate “Specications” page in this manual for more information.
- Use of brilliance may inhibit visibility of information at night.
IND100077-160
Appendix
98
Page 99
User Notes
IND100077-24
Appendix
99
Page 100
Revision History
Rev.ByDateNotes
00_01SE7 Jun 2017Release for internal review.
01WJ
KKK
02BB
KKK
03BBSE26 Mar 2018 Revised Contents of Package (USB cable)
04FGSE18 May 2018 Revised ”PIP Child Size” (steps corrected to 1-7) + added illustration and example of sizes, page 47
12 Oct 2017 Final version 1 for internet release
BB
FG
WC
SE
15 Mar 2018 General updates performed throughout the user manual based on latest company prole
18 Dec 2018 General updates performed throughout the entire manual after internal reviews
VM
SE
12 Aug 2019 Updated with latest company prole, revised various grammar, several improvements performed through
YS
VM
SE
Revised Hot-key details, page 54,55
the entire user manual.
Changed previous 32 inch model to HW00 and added new model throughout the user manual, ref:
https://www.hatteland-display.com/mails/08_2019_ecn.html
Added information for differences HW00 (pre-ECN) and HW01 (after ECN effective date), page 86,87
IND100077-168
Appendix
100
Loading...
+ hidden pages
You need points to download manuals.
1 point = 1 manual.
You can buy points or you can get point for every manual you upload.