Inverto IDLB-STCF60-KULGO-LPS User manual
60,80,90,120 cm
Satellite Ku offset parabolic antenna
with Easy-fix arm
En
3
Languages
English 1
Deutsch 12
60,80,90,120cm
Ku offset parabolic antenna
with Easy-fix arm
Installation guide for models:
IDLB-STCF60-KULGO-LPS
IDLB-STCF80-KULGO-LPS
IDLB-STCF90-KULGO-LPS
IDLB-STC120-KULGO-LPS
IDLB-ALCF60-KUANO-LPS
IDLB-ALCF80-KUANO-LPS
IDLB-ALCF90-KUANO-LPS
En
1
Table of Contents
Safety
Installation guidelines
Grounding/Lightning protection
Installation site selection guidelines
Installation Mechanical guidelines
Installation
A. Fixing the Easy-x LNB Arm to Back Mount
B. Reector xation
C. LNB Holder xation
D. Fastening the U-Mount Clamp to the mast
E. Fixing the U-Mount Clamp to the Back-Mount
Specications
Accessories
Azimuth/Elevation table
2
3
3
4
4
5
5
6
7
8
9
10
11
24
2
Safety
The Inverto parabolic antennas are intended solely for the reception of satellite signals and for use only as a do-
mestic antenna. The antenna should have no more than 6m free mast length and a xed-end moment up to 1650
Nm. It is unsuitable for mounting on structures that are subject to vibration. Make absolutely sure that the values
for the maximum load listed in the Technical Data (on page 10) are complied with, if this load is exceeded the
mechanical integrity of the dish may be compromised.
Prior installation follow local safety regulations
Read the installation guide before mounting the satellite dish
Before you install, connect or use the parabolic antenna, make sure that you have read this installation guide and
comply with all of its requirements. Not doing so may result in:
• Risk of injury
• Malfunctions and loss of performance.
• Permanent damages to the antenna.
In such an event the manufacturer will not accept liability for malfunctions and damage arising!
BASIC SAFETY PRECAUTIONS
• Do not install the antenna in the vicinity of overhead power cables and maintain a clearance of at least
1m from all other electrical devices in all directions! If you or metal parts of the antenna touch any
electrical device there is a serious risk of a fatal electric shock!
• Never work on antenna systems during a thunderstorm or when a thunderstorm is approaching. There
is a risk of a fatal electric shock!
• Never install antennas on buildings with easily ammable roof coverings such as straw, reeds or similar
materials! This may cause a risk of re due to atmospheric over-voltages (static charges) or lightning
discharges (e.g. during thunderstorms).
• It is always recommended to have the installation work performed by a professional. This installation
guide assumes good craftsmanship capabilities and knowledge of the behavior of materials under the
effects of wind.
• The person doing the work must wear proper non-slip footwear, must not be subject to dizziness, must
be able to move around safely on the roof and have a secure standing and attachment position (if
necessary, wear a safety harness when on the roof).
• Make sure that the roof is able to bear your weight. Never walk on fragile or unstable surfaces! In case
of doubt, contact a qualied specialist installer or specialist roong contractor to nd an appropriate
installation location.
• Use safety harness that is in good condition. in case you have to work on high places.
• Ladders or other means of climbing used for installation must be in faultless condition (dry, clean and
non-slip).
• If there is a risk that passers-by may be injured by items falling from above during installation, you must
close off the risk area using barriers! Make sure that no-one is underneath the installation location.
• Avoid risk of death or injury due to falling from the roof, falling through the roof and falling parts, plus
the possibility of damage to the roof.
• The respective national safety regulations and current standards should be complied with.
• Any other use or failure to comply with these instructions will result in voiding of warranty coverage.
En
3
GROUNDING/LIGHTNING PROTECTION
Because of the serious consequences if the work is not done properly, grounding and lightning protection
work may be performed only by specially trained electricians!
Never perform grounding and lightning protection work if you are not a specialist with the appropriate
skills!
• The antenna must be erected to according to an industrial standard such as DIN EN 60728-11 and
grounded as specied.
• The grounding requirement is inapplicable only to those antennas: More than 2m below the edge of the
roof and at the same time less than 1.5m from buildings.
• For grounding, the mast must be connected by means of a suitable ground conductor to the lightning
protection system of the building, using the shortest route. If no lightning protection system is available:
to the building‘s ground conductor.
• Connection to the lightning protection system should be made only by a qualied lightning protection
system installation engineer.
Suitable as ground conductors are:
• A single solid wire with a cross-section of at least 16 mm² copper, at least 25 mm² aluminium or at least
50 mm² steel.
Unsuitable as ground conductors are:
• The outer conductors of antenna cables
• Metallic domestic installations (such as the metal pipework of a water or heating system), since the
permanence of the electrical connection cannot be guaranteed.
• The protective ground conductor or neutral conductor of the mains power supply.
Routing of ground conductors
• Antenna cables and grounding conductors must not be routed through rooms used for storing easily
ammable substances (such as hay or straw) or in which an explosive atmosphere can develop (such
as gases, vapors).
• If the parabolic antenna is used in an integrated antenna system (e. g. a distribution system), the
grounding measures must also be designed in such a way that grounding protection is still maintained
if individual units are removed or replaced.
• Hazards may be caused not only by thunderstorms (lightning), but also by static charges and short
circuits in the connected units.
• For safety reasons therefore in general for all antenna systems an equipotential bonding conductor of
4 mm² copper should be provided.
• The cable screens of all coaxial antenna downlink cables must be connected to the mast with an
equipotential bonding conductor.
4
INSTALLATION SITE SELECTION GUIDELINES
It is essential to select the correct installation site. This determines whether your parabolic antenna can be erected
safely and perform optimally. When selecting the installation site, take account of special features of the structure
of the building. If the installation is at the edge of the roof or the building or on a cylindrical structure, DIN 1055,
parts 4 and 4131 specify the increased wind and vibration loadings that should be allowed for. The dynamic
properties of the antenna and the structure can mutually inuence each other and cause detrimental changes.
Disregarding these considerations can lead to excessive load or vibration fatigue stress. The parabolic antenna
need not necessarily be mounted on the roof, since the requirement is for an unobstructed (line of sight) “view” of
the satellite. For this reason, an appropriate installation site might also be found for instance in the garden, on the
terrace, on the face of the building or on a garage. In fact if other sites are possible, it is better to avoid the roof.
This will result in less work for you and will reduce the hazards associated with installation work on the roof! For
good reception, an unobstructed “view” to the south (+/- 20°) must be ensured, at an elevation of about 30°. The
following satellites are then available for selection:
10° East EUTELSAT W 1
13° East EUTELSAT HOTBIRD
16° East EUTELSAT W 2
19.2° East ASTRA 1 group
23.5° East ASTRA 3 group
28.2° East ASTRA 2 group
30° West HISPA-Sat
42° East TÜRKSAT
Please make sure that there are no obstacles between the parabolic antenna and the respective satellite (such as
trees, roofs, house eaves or other antennas). Such items can impair reception to the extent that during unfavorable
stormy weather the signal is lost altogether.
INSTALLATION MECHANICAL GUIDELINES
When installing the antenna carrier (mast or wall boom), ensure that it is standing upright. Otherwise, there may
be problems with the alignment of the antenna to the satellites.
Requirements on the antenna carrying structure
• Use only masts or support tubes that are specially designed for installation of antennas. Other tubes
generally do not have the strength required to withstand the forces of wind and weather.
• For mast installation, select a tube diameter between 35 and 60 mm of about 3mm thickness.
• Install the parabolic antenna as far down the mast as possible, so as to minimise the bending moment
at the clamping point.
• Under no circumstances exceed the maximum value for the loading on the mast or mast support, as
stated in the technical specications.
Note: If you arrange the structure differently you must calculate wind loading and bending moment at the
clamping point as specied in DIN EN 60728-11 (or have a specialist do the calculation for you).
En
5
Installation
A. FIXING THE EASY-FIX ARM TO BACK MOUNT
Insert the Easy-x LNB Arm (1) into the Back Mount (2) as shown in the drawing below. Make sure the rectangular
opening at the end of the Easy-x LNB Arm is located at the opposite end to the Back Mount and the Plastic
Prole Stopper (3) is inserted into the Easy-Fix LNB Arm and is facing the Back-Mount. Insert the Easy-Fix LNB
arm into the Back Mount until it clicks and use the supplied fastening M5x60 Screw (4) and M5 Nut (5) to secure
them together. 3
12
4
5
QuantityDescriptionNo.
1Aluminium LNB Arm1
1Galvanized Steel Back Mount2
1Plastic prole Stopper3
1Oval Head Screw M5x604
1M5 Nut5
Completed assembly view
6
B. REFLECTOR FIXATION
Pass the Easy-x LNB Arm through the Reector (6) and use the supplied four pairs of M8x15 Screws (7) and M8
Nuts (8) to secure them together (90/120cm model includes six pairs).
8
76
QuantityDescriptionNo.
1Coated Reector6
4
(6 for 90/120cm reector)
M8x15 Square Foot Screw7
4
(6 for 90/120cm reector)
M8 Flange Nut8
Completed assembly view
En
7
C. LNB HOLDER FIXATION
Place the LNB (not supplied) inside the LNB Holder (9) as shown in the drawing below.
9
Close the two parts of the LNB Holder as shown in the drawing below.
Secure the 2 parts of the LNB Holder using the supplied Screw (10).
10
8
Slide the LNB Holder into the prole of the Easy-Fix LNB Arm until it clicks.
QuantityDescriptionNo.
1LNB Holder9
1LNB Holder screw with nut10
D. FASTENING THE U-MOUNT CLAMP TO THE MAST
Hold the U-Mount Clamp(11) and pass the U-Bolts (12) until they are positioned as shown in the drawing below.
Place the two Mast-Clamps (13) at the ends of the U-Bolts and screw on the for supplied M8 Nuts (14).
Later on when you wish to fasten the U-Mount Clamp and Mast-Clamps to the mast, use a size 13 wrench to do so.
14
11
12
13
QuantityDescriptionNo.
1Galvanized Steel U-Mount Clamp11
2U-Bolt M8x30012
2Galvanized Steel Mast-Clamp13
4M8 Flange Nut14
Completed assembly view
En
9
E. FIXING THE U-MOUNT CLAMP TO THE BACK-MOUNT
Attach the U-Mount Clamp to the Back Mount as shown in the drawing below and use the supplied two M8x70
Heavy Hex Flange Screws (15) and M8 Flange Nuts (16) to fasten them together. You may use the elevation
marks in order to set the desired elevation degree.
15
16
QuantityDescriptionNo.
2M8x70 Heavy Hex Flange Screw15
2M8 Flange Nut16
Completed assembly view
10
Technical Specifications
IDLB-STCF60-KULGO-LPS
IDLB-ALCF60-KUANO-LPS
IDLB-STCF80-KULGO-LPS
IDLB-ALCF80-KUANO-LPS
Reector:
Type Offset Offset
Offset Angle 26 ° 26 °
Reception Frequency 10.70 - 12.75 Ghz 10.70 - 12.75 Ghz
Antenna Gain (Ku-Band) 36 dBi - 37dBi 37dBi - 38dBi
Material Zinc Phosphate Steel / Aluminium Zinc Phosphate Steel / Aluminium
Finish Coat Polyester Powder Coating Polyester Powder Coating
Color Light grey (RAL-7035) Light grey (RAL-7035)
Small Axis Diameter 60 cm 70 cm
Long Axis Diameter 66 cm 78 cm
LNB Holder diameter 40ø mm 40ø mm
F/D 0.6 0.6
LNB Arm Aluminum Aluminum
Operational Temp. -40° + 60° -40° + 60°
Operation Wind 90 km/H 90 km/H
Survival Wind 150 km/H 150 km/H
Mount:
Material Galvanized Steel Galvanized Steel
Finish Coat (Optional) Polyester Powder Coating Polyester Powder Coating
Azimuth Alignment 0° - 360° 0° - 360°
Elevation Alignment 0° - 90° 0° - 90°
Mast diameter 35 - 60mm 35 - 60mm
En
11
IDLB-STCF90-KULGO-LPS
IDLB-ALCF90-KUANO-LPS
IDLB-STC120-KULGO-LPS
Offset Offset
26 ° 26 °
10.70 - 12.75 Ghz 10.70 - 12.75 GHz
38dBi - 39dBi 42.3 dBi
Zinc Phosphate Steel / Aluminium Zinc Phosphated Steel
Polyester Powder Coating Polyester Powder Coating
Light grey (RAL-7035) Light grey (RAL-7035)
87 cm 106 cm
97 cm 118.5 cm
40ø mm 40 mm
0.6 0.5
Aluminum Aluminum
-40° + 60° -40° + 60°
90 km/H 90 km/H
150 km/H 150 km/H
Galvanized Steel Galvanized Steel
Polyester Powder Coating Polyester Powder Coating
0° - 360° 0° - 360°
0° - 90° 0° -90°
35 - 60mm 35 - 60mm
12
Accessories
For multifeed installations we recommend using our patented MutliConnect system.
The MultiConnect is an innovative system that was designed to give a multi-feed solution for new or existing
installation scenarios that are using standard and common universal satellite dish antennas.
For existing installations, for the rst time in this market the user can keep his existing satellite dish that used to
hold a single LNB and convert it into a multi-feed installation. In the case of a new installation the MultiConnect
allows the user to purchase a standard and common dish antenna instead of the more expensive proprietary
designated ones. When upgrading an existing installation, MultiConnect prevents the need to replace the existing
dish (available in approx. 90% of the relevant households today) leading apart from the obvious scal advantages
also to environmental ones out of prevention of material loss.
The MultiConnect solution takes into account all the aspects and needs associated with such a technically
complicated installation. The novelty in the system’s design lies in the incorporation of an embedded rail/hinge
mechanism at the back of every LNB unit. This allows any of the system’s LNBs to act as a structural carrier for
the rest of the system’s elements and at the same time to provide unique adjustment capabilities of each LNB in
the system supporting 8 different movement directions (i.e. up/down, left/right along the metal arch, left/right of the
LNB alone, to control its angle in relation to the dish, left/right around the LNBs feed axis and forward/backward for
the center LNB resulting in the movement of the entire system).
The entire system is assembled using only 3 bolts and the same bolts are also used to adjust the LNB’s position
and lock it in its optimal position for best signal reception performance. No tools are required throughout the entire
installation process.
On the technological side, the LNBs of the system use a compact slim feed technology which incorporates the use
of advanced dielectric materials. The slim feed (“narrow neck”) of the LNBs allows them to be positioned closely
next to each – in fact as close as a 3 degrees angle thus supporting reception of satellites that are typically too
close in their orbital position to be received when using standard neck LNBs.
The MultiConnect system has been granted patent rights in Germany and is in the process of being granted Patent
for the rest of the EU.
Inverto also offers an extensive range of LNBs for any type and scenario of installation.
For more information on the MultiConnect system or other LNB models, please, visit our web
site at: www.inverto.tv
En
13
14
60,80,90,120cm Offset-Antenne
mit Easy-fix Arm
Installationshandbuch für die Modelle:
IDLB-STCF60-KULGO-LPS
IDLB-STCF80-KULGO-LPS
IDLB-STCF90-KULGO-LPS
IDLB-STC120-KULGO-LPS
IDLB-ALCF60-KUANO-LPS
IDLB-ALCF80-KUANO-LPS
IDLB-ALCF90-KUANO-LPS
De
15
Inhaltsübersicht
Sicherheit
Installationshinweise
:Grundlegende Sicherheitsvorkehrungen
Erdung der Satellitenschüssel /Blitzschutz
Hinweise zum Montagestandort
Montagehinweise
Installation
A. Befestigung des EasyFix-Arms am Rückenteil
B. Befestigung des Reektors
C. Befestigung der LNB-Halterung
D. Befestigung der U-förmigen Mastklemme am Mast
E. Befestigung der U-förmigen Mastklemme am Rückenteil
Technische Daten
Zubehör
Azimut-/Elevationstabelle
14
14
14
15
16
16
17
17
18
19
20
21
22
23
24
16
Sicherheit
Satellitenanlagen von Inverto dienen ausschließlich dem Empfang von Satellitensignalen und dürfen nur als Haus-
haltsantennen verwendet werden. Die Satellitenschüssel sollte maximal 6 Meter freier Mastlänge und ein Einspan-
nmoment bis zu 1650 Nm aufweisen. Die Anlage ist nicht für die Montage an Gebäude, die anfällig für Erschütter-
ungen sind, entwickelt. Berücksichtigen Sie unbedingt die Angaben über die Grenzlast in den Technischen Daten
(S.10). Sollte diese Last überschritten werden, können Teile der Satellitenanlage abbrechen.
Informieren Sie sich vor Montage über die lokalen Sicherheitsvorschriften
Lesen Sie vor der Montage der Satellitenschüssel das Installationshandbuch
Lesen sie das Installationshandbuch und beachten Sie die dort gegebenen Anweisungen, bevor Sie die
Satellitenschüssel montieren, anschließen oder In Betrieb nehmen. Der Hersteller übernimmt keine Verantwortung
für Schäden, die durch Nichtbeachtung der Anweisungen entstehen.
Falls Sie die Anweisungen nicht beachten, kann dies schwerwiegende Folgen nach sich ziehen:
• Verletzungs- und Lebensgefahr
• Funktionsstörungen oder Leistungseinbußen der Satellitenschüssel
• Dauerhafte Schäden an der Satellitenschüssel
GRUNDLEGENDE SICHERHEITSVORKEHRUNGEN:
• Bringen Sie die Satellitenschüssel auf keinen Fall in der Nähe von Überlandleitungen an. Halten Sie
ringsum einen Abstand von mindestens einem Meter zu allen anderen elektrischen Gerätschaften ein.
Falls Sie selbst oder Metallteile der Satellitenschüssel mit elektrischen Gerätschaften in Berührung
kommen, besteht Lebensgefahr.
• Arbeiten Sie niemals an der Satellitenschüssel während eines Gewitters oder während ein Gewitter im
Anzug ist. Es besteht Lebensgefahr!
• Wählen Sie für die Montage keine Gebäude mit leicht entammbarer Dacheindeckung wie Stroh,
Ried oder ähnlichen Materialien! Hier besteht die Gefahr von atmosphärischen Überspannungen
(elektrostatische Entladung) oder Blitzentladungen (z.B. während Gewittern).
• Es wird empfohlen, die Installation von einem Fachmann durchführen zu lassen. Das vorliegende
Installationshandbuch geht davon aus, dass die Person, die die Satellitenschüssel anschließt, über
solide handwerkliche Fähigkeiten verfügt, und, dass sie das Verhalten von Materialien unter der
Einwirkung von Wind einzuschätzen weiß.
• Die Person, die die Installation durchführt, sollte unbedingt festes und rutschsicheres Schuhwerk
tragen, sollte schwindelfrei sein, sollte sich sicher auf dem Dach bewegen können und einen festen
Stand und Halt bei der Montage der Satellitenschüssel haben (sichern Sie sich im Zweifelsfall mit
einem Sicherheitsgurt bei Ihrer Arbeit auf dem Dach).
• Überzeugen Sie sich davon, dass das Dach für Ihr Gewicht ausgelegt ist. Meiden Sie unbedingt
einsturzgefährdete Oberächen! Falls Sie sich diesbezüglich nicht sicher sind, kontaktieren Sie
bitte einen qualizierten Installateur oder ein spezialisiertes Dachdeckerunternehmen, um einen
passenden Standort für die Montage zu nden.
• Falls Sie auf einem erhöhtem Standort arbeiten, benutzen Sie bitte einen Sicherheitsgurt, der sich in
gutem Zustand bendet.
• Leitern oder andere Steigvorrichtungen, die für die Montage verwendet werden, müssen sich in
tadellosem Zustand benden, d.h. sie müssen trocken, sauber und rutschfest sein.
• Falls die Gefahr besteht, dass Passanten von herabstürzenden Teilen verletzt werden können,
müssen Sie die Gefahrenzone absperren! Gehen Sie sicher, dass sich keine Menschen unterhalb des
Montagestandorts benden.
This manual suits for next models
6
Table of contents
Other Inverto Antenna manuals
Popular Antenna manuals by other brands
Sirius Satellite Radio
Sirius Satellite Radio SIR-WRR1 user guide
MFJ
MFJ 1789 instruction manual
Steren
Steren ANT-9033 quick start guide
Gotting
Gotting HG G-98780-A Device description
Radio Shack
Radio Shack Omnidirectional Outdoor FM Antenna owner's manual
Alpha Antenna
Alpha Antenna Vertical Antenna user guide
Matchmaster
Matchmaster Digimatch 01MM-DC21A installation instructions
Mohu
Mohu Leaf metro instructions
2J Antennas
2J Antennas 2194 Series instruction manual
Buffalo
Buffalo WLE-NDR Quick setup guide
H3C
H3C ANT-5010Y Yagi manual
TERK Technologies
TERK Technologies AM/FM Tower Powered Indoor Antenna owner's manual
