Optical transmission technology

Transcription

G O I N G F U T U R E T O D AY.
Optical transmission technology
Solutions for FTTH/FTTB & hybrid networks
Perfect signal processing
Optical transmission solutions for fibre deep networks
FTTH and FTTB will be the dominating access technology in the future. All over the world the last mile to the customer is built more and more fibre
oriented. ASTRO has strong commitment to provide professional End-to-End fibre based solutions, with main focus on broadcasting for Satellite
& Video Networks, last mile data technologies and FTTH RF-Overlay devices. Combined with its professional head-end technology, ASTRO will
be able to supply complete network solutions from central station to final customer.
Based on different transmission technologies, such as RF-Overlay combined with Data solutions (GPON or Ethernet, optical satellite transmission
solutions for MDUs, DOCSIS compliant products, passive optical products, tools and CPEs), ASTRO has suitable products for a large scale of
different network providers, such as City Operators, Telcos, Cable Operators, Building Developers etc.
zz
Optical SAT-IF Distribution
zz
zz
19 inch Optical Transmitters
converting RF Signals to fiber links. Applications are long and short
distance transmission and FTTH/FTTB Networks for RF-Overlay
zz
19 inch Optical Amplifiers
link amplifiers for amplifying the 1550 nm optical broadcasting signal to the next optical HUB, or providing a multiport amplifier to
feed the signal to a large number of FTTH/FTTB customers
zz
Optical Splitters and Filters
such as optical splitters, optical multiplexers, optical filters
GPON OLTs and ONUs
used for transmission of high speed data via a Passive Optical
Network (PON) to a number of users, providing the great benefit
of fibre saving infrastructure, since all services (also TV broadcasting) are combined to one single fibre and the PON network can be
split to several cascaded optical splitters
for receiving several satellite positions or polarizations via a passive fibre optical network
zz
CPEs for Point-to-Point Ethernet (PtP)
The for
Direct
Digital®
Technology
developed
by ASTRO
providing
an optical
Ethernet PtP
link with RF-Overlay
to althe
lowscustomer
for outstanding signal parameters independent from
and aging.
Additional
ztemperature
z Optical Receivers
and Fibre
Nodes system ressources, maximum
flexibility
in
configuration
as well as high-end videofor FTTH/FTTB/FTTC applications, either for RF-Video-Overlay or
and DOCSIS
audioparameters
set new benchmarks.
compliant networks.
Index
A
AOV series..........................................................page 09
AOW PON series.................................................page 37
AOA series.........................................................page 64
AOA Mini-FC......................................................page 18
C
AOB 2................................................................page 11
CPE-HES 3106....................................................page 48
AOBB................................................................page 19
CPE-FWRIII.........................................................page 49
AOCWDM series................................................page 36
AOC series........................................................page 65
F
AOCC................................................................page 66
FBT-HES..............................................................page 48
AOCP.-125.........................................................page 66
FTTH Toolcase....................................................page 66
AOCP.-250.........................................................page 66
AOD series........................................................page 11
O
AOE quad / AOE quatro....................................page 08
OAMP series.......................................................page 28
AOF....................................................................page 11
ODMTX-1310 series............................................page 26
AOF 00..............................................................page 18
ODMTX-1550 series............................................page 24
AOFE.................................................................page 18
OEMTX-1550 series............................................page 22
AOFC series......................................................page 65
OFN50 series......................................................page 54
AOJK 4..............................................................page 19
OFN100 series....................................................page 56
AOPC Mini-SC...................................................page 19
OFN200 series....................................................page 58
AOPS.................................................................page 19
OFN400-FR.........................................................page 60
AOR 1................................................................page 19
OHPA series........................................................page 30
AOR 2................................................................page 19
OHPA-WDM series..............................................page 32
AORX 4 MS........................................................page 14
OLT-V5812G........................................................page 42
AORX 4 .............................................................page 14
OLT-V5824G........................................................page 44
AOS series.........................................................page 16
ONU H660RW.....................................................page 46
AOSPLC1 series................................................page 34
S
AOSPLC2 series................................................page 35
AOT series.........................................................page 17
SBF 4..................................................................page 10
AOTB series.......................................................page 64
AOTX 5..............................................................page 12
Where to find what?
q
q
37
04
Optical SAT-IF distribution
06
Opto/Electro converters
08
Optical splitters
09
OLT routers
42
Optical LNC
10
ONU routers
46
11
CPE switch/CPE router
Home fibre optical transmitter
12
Home fibre optical receivers
14
Fibre, connector, attenuators
q
Service Combiners
Why choose optical transmission?
q
q
q
q
RF-Overlay application solutions
38
FTTH data solutions
40
48-49
FTTH data application solutions
50
FTTH RF-Receivers and Fibre Nodes
52
Home fibre distribution splitters/taps
16-17
Compact FTTH receivers for CATV
54
Fibre, adapters, patchcords, cleaning tools
18-19
Compact receivers for CATV
56
20
Die-cast housing fibre nodes
58
22
Node with redundant forward/return path
60
Fibre nodes application solutions
62
RF-Video-Overlay & transmission
External modulated transmitters
Direct modulated transmitters
Optical Amplifiers
Splitters, Multiplexers, Demultiplexers 24
28
34
q
q
q
Optical accessories
Contact 64-66
68
3
Why choose optical transmission technology?
Advantages of optical fibre technology
zz highest bandwidth in signal transmission
zz simultaneous delivery of multiple services
zz signals can be transmitted with low attenuation via large distances; big housing estates can be supplied by
only one central antenna, placed at an unobtrusive location to provide aesthetically pleasing results
zz low installation effort by using ready-for-use cabling (less cabling reqired in comparison to coax technology)
zz good electromagnetic shielding: optical fibre can be placed side by side with electrical cable within one cable
conduit
zz best reliability; resistant against water (corrosion) and chemicals
zz resistant to invironmental influences
zz galvanic isolation of optical fibres makes potential equalisation dispensable (which is mandatory in coax
networks) zz LSZH (low smoke zero halogen) classification; low smoke zero halogen cable reduces the amount of toxic and
corrosive gas emitted during combustion
Optical transmission technology - how it works
Applying optical transmission technology to TV broadcasting and data communication can be done in different ways:
Optical Ethernet (example)
The principle of SAT distribution via optical fibre is quite simple: A special, optical LNC transforms the received signal
directly coming from the parabolic antenna into waves of
light. The distribution of that optical signal is then achieved
by the use of prefabricated, optical fibre, available in different
lengths. Further distribution of the optical signal can be done
by optical splitters so that a high signal level can be obtained
even over large distances. At the end of the line opto/electro
converters transform the optical signal back into a SAT-IF signal (see figure below).
Another way to distribute TV and data signals via optical fibre
is to send a signal coming from an optical head-end to an
optical transmitter which is then processed in a „Point Of Presence“ (POP) via an optical amplifier and optical splitters. An
incoming data signal - sent from an IP network via an access
switch - can then be transmitted to the end user together with
the optical signal via a two cable solution. As well,
both
signals can optionally be fed together via a WDM and sent to
the user via a one cable solution (see figure below).
LNC
Optical signal
Optical Splitter
Head-end
Optical Transmitter
Optical Fibre
Point of Presence (POP)
Optical Fibre
Optical Amplifier
Further Splitters
IP Network
Optical Splitter
Access Switch
Data signal
Optical Fibre
WDM
Optional one fibre solution
Coax Cable
O/E Converter
4
Multiswitch (optionally)
WDM
Optical transmission - a future technology
The change of infrastructure
Unlimited bandwidth capacity
As we know, the copper based networks have nearly
reached the edge of their life time. When we look back
in history, the first coaxial or twisted pair networks were
built in the 60ties or 70ties and many of them are still in
use. Since operators fear the cost of re-building the last
mile connecting the customer, many access networks
are still based on telephone wires or coax cable, which
were installed something like 30 to 40 years ago. In many
countries the fibre installation has already reached 100 %
of the last mile. This is due to the fact, that most of them
build the fibre in an aerial installation, which is the cheapest and fastest method to bring high performance
internet and broadcasting to the customers. In countries where underground installation is applied and this
is the required method to lay the cables or ducts, the
cost for replacing the old copper based networks and
providing a new pure fibre infrastructure (most likely with
Mini-Ducts) is still under discussion. Once the tube or
Mini-Duct pipes are installed, the providers are using this
fibre infrastructure with big success. One doesn‘t need
to be a fortune teller to predict that the fibre infrastructure
will be the final network topology for any provider in the
world, no matter there is underground or aerial installation. It is just a matter of time and of competition between
the network providers to speed up this scenario.
Unlike Coax or Twisted Pair Access Networks, fibre networks provide the huge benefit to have a nearly unlimited
bandwidth capacity and do not require any active equipment (like every 300 m using a coaxial amplifier). Selecting a pure fibre access technology and calculating
the energy saving aspect, the investment in building the
complete fibre based access network can be compensated with the saving in electrical energy over the lifetime
of the fibre network. Of course energy cost will be a main
factor in the future, and with the fibre infrastructure the
provider will have the huge benefit of a “zero energy network” from the last active point in the field towards the
final customer.
A mature concept
Another key issue is, that devices in optical transmission technology are getting more and more mature. The
first available optical transmission products and fibres
(around the 80ties) were simply too expensive to apply
this technology for the access network. Due to this fact
the expensive devices and fibres where mainly used in
fibre optical back bone environment (e.g. fibre optical
transmission for transatlantic communication or IP backbone).
Products for every application scenario
With devices from ASTRO, the customer gets the very best and most reliable technology with a cost efficient price/performance
ratio. The complete optical product portfolio will enable ASTRO’s customers to get the different optical solutions from one stop shop:
RF-Overlay and transmission
> page 06
> page 20
FTTH data solutions
FTTH RF-Receivers & Fibre Nodes
> page 40
> page 52
5
Using optical components for large distance transmission
To increase the signal range in SAT-IF distribution facilities or to increase the number of subscribers, the use of optical components
is mandatory. ASTRO offers an optical LNC, splitters and signal converters that transform the optical signal back into a standard RF
signal. By utilising this technology, it is possible to supply up to 32 reception points within a radius of up to 10 km with signals - a
teritorial dimension that could not be achieved with coaxial SAT-IF technology.
The main advantages of optical SAT-IF distribution are:
zz excellent signal quality and best reliability
zz up to 30 % less mounting effort compared to conventional coax multiswitch distribution
zz low error potential during installation process
zz independent subscriber access
Application example
AOV 4
AOV 4
AOV 4
AOV 4
AOV 4
AOE
quad
SBF 4
10 m
1 km
AOE
twin
AOV 2
100 m
AOE
twin
Power
Supply
AOV 4
AOV 4
AOV 4
AOV 4
AOV 4
Netzteil
AOE
quad
10 km
500 m
Components for building optical SAT-IF facilities
zz optical LNC
zz optical splitters
zz prefabricated, ready to use optical fibre
zz optical attenuators with different attenuation values
zz opto/electro converters for direct connection of a SAT receiver or a multiswitch
6
AOE
quattro
Diese Seite mache ich nach Rücksprache mit Herrn Baus fertig!
Was noch rein muss:
zz Unterschied zwischen den alten Produkten und Fracarro-Serie (evtl. auch
Anlagenbeispiel ähnlich wie linke Seite)
zz Teilweise FAQ-Rubrik (siehe unten)
Why monomode fibre is required in
optical CATV transmission?
FAQ
The optical signal in HFC networks is an analogue modulated signal. This means, the laser is being modulated depending on the RF signal at the input of the
transmitter which can consist of analogue PAL or digital QAM signals. As these signals are much more
sensitive against interferences than digital signals in
IP networks, the requirements on the optical fibre are
much higher. Most important parameter is the fibre
dispersion which indicates the scale of signal degradation passing the fibre. Due to physical reasons, monomode fibres are much better than multimode fibres
in terms of dispersion and therefore suitable to cross
long distances with high bandwidths.
7
OPTO/ELECTRO CONVERTERS
up to 4 receivers connectable
AOE quad
zz for conversion of optical signals into SAT-IF
frequency
zz application in union with optical LNC SBF 4
zz AOE quad: up to 4 receivers connectable
zz AOE quatro: up to 2 receivers connectable, one
polarisation per output; a conventional multiswitch
can be connected
zz external 20 V power supply unit
zz FC/PC input
zz 4 polarisations in one fibre optic cable
AOE quatro
up to 2 receivers connectable, one polarisation per output
Type
AOE quad
Order number
EAN-Code
AOE quatro
390 011
390 012
4026187130909
4026187130916
Input
Input frequency range, vertical
[GHz]
0,95…3
Input frequency range, horizontal
[GHz]
3,4…5,45
Opt. power, small PON-adjust. = min
[dBm]
-13
Opt. power, small PON-Einst. = max
[dBm]
0
Opt. power, large PON-adjustt. = min
[dBm]
-18
Opt. power, large PON-adjust. = max
[dBm]
Optics, input
-14
Satellite transponder
120
Output frequency range
Horizontal High band
[MHz]
1100 - 2150
Vertical High band
[MHz]
1100- 2150
Horizontal Low band
[MHz]
950 - 1950
Vertical Low band
[MHz]
950 - 1950
[Ω]
75
Impedance, nominal
Return loss (min.)
Output level (Popt = 0…-18 dB)
[dB]
10
[dBμV]
82 - 46
Common data
Outputs
switch
fix
Connectors at output
4xF
4xF
Current demand (12 VDC)
Power supply
8
[mA]
< 300
via receiver
via multiswitch
OPTICAL SPLITTERS
2 outputs
3 outputs
AOV 2
AOV 3
zz optical splitters with 2, 3, 4 or 8 outputs
zz FC/PC connectors
zz 1310 nm and 1550 nm wavelength supported
AOV 4
AOV 8
4 outputs
8 outputs
Type
Order number
EAN-Code
Outputs
Optical wavelength
[nm]
Wavelength bandwidth
[dB]
Tap loss
[dB]
Connectors
AOV 2
AOV 3
AOV 4
AOV 8
390 020
390 021
390 022
390 023
4026187130923
4026187130930
4026187130947
4026187130954
2
3
4
8
6,8
10,6
1310 und 1550
40
3,8
5,2
FC/PC
9
OPTICAL LNC
SBF 4
zz combines 4 SAT-IF bands to one optical
output signal (950 MHz - 5,45 GHz)
zz feeds up to 32 splitters with optical signals
(radius up to 10 km)
zz 40 mm Feedhorn
zz Stromversorgung über Standard 12 V
Anschluss (F-Typ)
zz Standard FC/PC Konnektor zum Anschluss
optischer Kabel
Type
SBF 4
Order number
390 000
EAN-Code
4026187130510
RF range
Input frequency range
[GHz]
10,7 - 12,75
[nm]
1310
[dBm]
7 (± 2 across the temperature range)
Noise figure
[dB]
typical 0,5 (max. 1,1 bei 25 °C)
Maximum gain
[dB]
72 (minimum gain 62)
L.O-frequency, vertical
[GHz]
9,75
L.O-frequency, horizontal
[GHz]
7,3
Optics
Wavelength
Common data
Optical output power at 25 °C
Image frequency suppression (minimum)
[dB]
40
Cross polarization discrimination
[dB]
typ. 30
Optical output
FC/PC
Connector at input, DC
F-jack
Feed-diameter
[mm]
40
Ambient temperature
[°C]
-30…60
[mA]
< 450
[V]
12
Power supply
Current demand
Voltage supply
10
OPTICAL FIBRE, OPTICAL CONNECTOR, OPTICAL ATTENUATOR
AOF ...
zz optical fibre including FC/PC connectors
zz warp resistant; low weight
zz Single Mode; 3 mm screening
Type
Order number
EAN-Code
Length
AOF 1
390 030
4026187130961
1m
AOF 3
390 031
4026187130978
3m
AOF 5
390 032
4026187130985
5m
AOF 10
390 033
4026187130992
10 m
AOF 15
390 034
4026187131005
15 m
AOF 20
390 035
402618713012
20 m
AOF 30
390 036
4026187131029
30 m
AOF 40
390 037
4026187131036
40 m
AOF 50
390 038
4026187131043
50 m
AOF 75
390 039
4026187131050
75 m
AOF 100
390 040
4026187131067
100 m
AOF 150
390 041
4026187131074
150 m
AOF 200
390 042
4026187131081
200 m
AOF 500
390 043
4026187130098
500 m
AOB 2
zz optical connector
Order number: 390 044
EAN-Code: 4026187131104
zz FC/PC to FC/PC
AOD ...
zz optical attenuator
zz for attenuation of signal level in optical SAT-IF
systems
Type; Value
EAN-Code
Order number
AOD 5; 5 dB
4026187131616
390 013
AOD 10; 10 dB
4026187131623
390 014
AOD 15; 15 dB
4026187131630
390 015
AOD 20; 20 dB
4026187131647
390 016
11
HOME FIBRE OPTICAL TRANSMITTER
AOTX 5
zz 5mW optical transmitter
zz
works in the second optical transmission window
(1310nm) and manages the SAT signals - from a
traditional LNC and dish combination - including
full bandwidth DTT
zz equipped with automatic gain control (AGC)
zz up to a maximum of 7 transmitters can easily be
connected together using the typical cascade
distribution infrastructure
zz serves up to 896 wall outlets per trunk
87.5
950
BLOCK DIAGRAM
950
950
950
AGC
2150
AGC
AGC
A
12
862
950
2150
2300 3550
3650 4850
2150
2150
O.L.
174
2150
5000 6200
f(MHz)
AGC
AGC
862
1310
nm
Type
AOTX 5
Order number
390 100
EAN-Code
4026187192099
SAT input
Frequency range
Return loss
[MHz]
950 - 2150
[dB]
10
Trunk loss
[dB]
2
Input level
[dBµV]
69 - 86
FM/DAB/TV input
Frequency range
[MHz]
87,5 - 862
Return loss
[dB]
10
Trunk insertion loss
[dB]
1
dBµV]
80 @ 10 channels
Operating wavelength
[nm]
1310
Power handling
[dBm]
7
[dB]
45
Overall level TV
Optical output
Return loss
Tespoint output
Connectors
1 x F-female (TV), 1 x F-female (SAT)
Frequency range FM/DAB/TV
[MHz]
87,5 - 862
Frequency range SAT
[MHz]
1100 - 2150
Return loss
[dB]
10
Signal level
[dBµV]
59
Power supply AC
[V]
184 - 264
Nominal frequency
[Hz]
50 - 60
Power consumption
[W]
15
Remote current supply LNC
[mA]
200 @ 14 V
Ambient temperature
[°C]
5 - 45
Common data
AGC dynamics
[dB]
20
Dimensions
[mm]
230 x 230 x 50 (W x H x D)
13
HOME FIBRE OPTICAL RECEIVERS
AORX 4 R
zz optical receiver
zz operating wavelength 1310 nm
zz AORX 4 R: 4 universal outputs for direct connection
to the TV
zz AORX 4 MS: five independent outputs (HL, VL, HH,
VH and TV) for multiswitch systems
zz frequency range 87 - 850 MHz (terrestrial),
950 - 2150 MHz (SAT)
zz SC/APC connectors
AORX 4 MS
Amp.
AORX 4 R
174
862
950
2150
3650 4850
5000 6200
User 1
(TV + SAT)
MATRIX
Transimpedance
User 2
(TV + SAT)
User 3
(TV + SAT)
User 4
Transimpedance
Amp.
AORX 4 MS
174
862
950
2150
3650 4850
5000 6200
14
To multiswitches
BLOCK DIAGRAM
(TV + SAT)
1310
nm
Type
AORX 4 R
Order number
390 114
EAN-Code
4026187192105
Optical input
[nm]
1310
Input power
[dBm]
-14…-8
Return loss
[dB]
45
[MHz]
87,5 - 862
Frequency range SAT
[MHz]
1100 - 2150
[dB]
10
Control voltage SAT (DC):
polarisation vertical
polarisation horizontal
low band
high band
[V]
[V]
[MHz]
[MHz]
'11,5 - 14
16 - 19
0
19,8 - 24,2 @ 0,4 - 0,8 Vp-p
Output level FM/DAB/TV (overall power)
[dBµV]
typical 77
Output level SAT (overall power)
[dBµV]
typical 80
Power supply AC
[V]
184 - 264
Nominal frequency
[Hz]
50 - 60
Power consumption
[W]
15
Ambient temperature
[°C]
5 - 45
Dimensions
[mm]
250 x 140 x 50 (W x H x D)
Output SAT/FM/DAB/TV
Return loss
Common data
Type
AORX 4 MS
Order number
390 116
EAN-Code
4026187192112
Optical input
[nm]
1310
Input power
[dBm]
-14…-8
Return loss
[dB]
45
Output SAT/FM/DAB/TV
[MHz]
87,5 - 862
Frequency range SAT
[MHz]
1100 - 2150
Return loss
[dB]
10
Current consumption SAT
[mA]
330 @18 V; 380 @ 14 V
Supply voltage (DC) SAT all outputs
[V]
14 / 18
Output level (overall power) TV
[dBµV]
82 @ 21 dB optical attenuation
Output level (overall power) SAT
[dBµV]
88 @ 21 dB optical attenuation
Power consumption
[W]
typical 7
Ambient temperature
[°C]
5 - 45
Dimensions
[mm]
250 x 140 x 50 (W x H x D)
Common data
15
HOME FIBRE DISTRIBUTION SPLITTERS
splitter with 2 outputs
AOS 24
zz small 3mm connector (MINI)
zz cap cover to protect the ferule of the fibres
zz compact housing (83 mm x 59 mm)
zz suitable for tree and star distribution
zz quick and easy to install
zz wide bandwidth 1260nm – 1590nm
AOS 48
splitter with 4 outputs
Type
AOS 24
AOS 48
390 121
390 122
EAN-Code
4026187192129
4026187192136
Inputs / Outputs
1 into 2 (50/50)
1 into 4
Order number
16
Maximum insertion loss
[dB]
[nm]
< 3,9
< 7,8
Optical return loss
[dB]
< 50
Ambient temperature
[°C]
-40 - 85
Maximum input power
[mW]
500
1260 - 1650
HOME FIBRE DISTRIBUTION TAPS
4 outputs
tap loss 15,5 dB
4 outputs
tap loss 13,7 dB
4 outputs
tap loss 11,4 dB
AOT 2/3
AOT 1/2
AOT 3/4
zz small 3mm connector (MINI)
zz cap cover to protect the ferule of the fibres
zz compact housing (83 mm x 59 mm)
zz suitable for tree and star distribution
zz quick and easy to install
zz wide bandwidth 1260nm – 1590nm
AOT 70/30
AOT 80/20
1 output
tap loss < 6,4 dB
AOT 90/10
1 output
tap loss < 12,7 dB
1 output
tap loss < 8,5 dB
Type
Order number
EAN-Code
AOT 1/2
AOT 2/3
AOT 3/4
AOT 70/30
AOT 80/20
390 125
390 126
390 127
390 131
390 132
390 133
4026187192143
4026187192150
4026187192167
4026187192174
4026187192181
4026187192198
1 (70/30)
1 (80/20)
1 (90/10)
< 8,5
< 12,7
Outputs
4
Tap loss
[dB]
Output uniformity
[dB]
< 15
<1
Tap output uniformity
[dB]
-
Maximum insertion loss
[dB]
-
Trunk line loss
[dB]
[nm]
Optical return loss
[dB]
< 50
Ambient temperature
[°C]
-40 - 85
Maximum input power
[mW]
500
< 3,8
< 13,7
< 3,1
< 11,4
< 6,4
AOT 90/10
< 0,6
< 1,2
< 2,1
< 2,5
< 1,5
< 0,8
1260 - 1650
17
OPTICAL FIBRE, OPTICAL ADAPTERS
AOF 00...
zz optical fibre including FC/PC connectors
zz warp resistant; low weight
zz Single Mode; 3 mm screening
Type
Order number
EAN-Code
Length
AOF 0003
390 140
4026187192204
3m
AOF 0005
390 141
4026187192211
5m
AOF 0010
390 142
4026187192228
10 m
AOF 0025
390 143
4026187192235
25 m
AOF 0035
390 144
4026187192631
35 m
AOF 0050
390 145
4026187192648
50 m
AOF 0075
390 146
4026187192655
75 m
AOF 0100
390 147
4026187192242
100 m
AOFE ...
zz optical twin cable with 4 FC/PC plugs
zz for indoor and outdoor use
zz screening GI-5.75
Type
Order number
EAN-Code
Length
AOFE 3
390 045
4026187192518
3m
AOFE 25
390 046
4026187192525
5m
AOFE 50
390 047
4026187192532
10 m
AOFE 75
390 048
4026187192549
25 m
AOFE 100
390 049
4026187192556
35 m
AOFE 150
390 050
4026187192563
50 m
AOFE 200
390 051
4026187192570
75 m
AOFE 300
390 052
4026187192587
100 m
AOFE 400
390 053
4026187192594
75 m
AOFE 500
390 054
4026187192600
100 m
AOA Mini-FC
zz Mini-FC/PC adapter
Type; Value
EAN-Code
Order number
AOA 3; 3 dB
4026187192280
390 161
AOD 7; 7 dB
4026187192297
390 162
AOD 14; 14 dB
4026187192303
390 163
18
ADAPTER, PATCHCORD, PULL SCREW, CLEANING TOOLS
AOBB
zz Mini-jack/Mini-jack (3 mm diameter) adapter
EAN-Code: 4026187192259
AOJK 4
zz Optical jumper cable
EAN-Code: 4026187192310
zz SC/APC connectors on both siedes
zz length: 4 m
AOPC Mini-SC
EAN-Code: 4026187192273
zz Optical patchcord with Mini (3 mm diameter) and
SC/APC connectors
AOPS
EAN-Code: 4026187192273
zz Pull screw for optical Mini connectors with 3 mm
diameter
AOR 1
zz Cleaning rods (2,5 mm) for optical connectors
EAN-Code: 4026187141097
AOR 2
EAN-Code: 4026187141103
zz Cleaning set (fibre fabric and cleaning fluid) for
optical connectors
19
RF-Video-Overlay and transmission
Modern Access Networks - a case study in optical transmission
Data technologies for FTTH deployments
Modern Access Networks are built today as pure fibre optical installations. This is due to bandwidth requirements, which
are foreseen for todays and future applications and also the price benefit compared to a traditional coaxial or twisted pair
network. The fibre network is predicted to be sustainable in relation to bandwidth requirements for the next 3 - 5 decades
at least.
There are 2 different main stream data driving technologies in the market for pure FTTH deployments (and we talk here
about pure FTTH installation and not about hybrid technologies like VDSL, HFC, etc.):
zz Point-to-Point Ethernet (PtP-Ethernet)
zz Passive Optical Network Topologies (GPON/GEPON etc.)
Both technologies can be combined with the mature broadcast RF-Overlay technology, using a 3rd wavelength (1550
nm) or a separate fibre to the Customer Premise Equipment (CPE).
RF-Video-Overlay - how it works
IP
GPON with RF-Overlay
GPON
OLT
ONU
1490/1310nm
Amplifier
IP
Customer
1
RF
1490/1310 nm
WDM Filter
1550 nm
Customer IP
Customer
N
N
RF
50
nm
PON
15
IP
Broadcast Head-end
Satellite
Terrestrial
IP
DVB-T
anything
TV
Head-end
Ethernet
Access
Switch
PTP-Ethernet with RF-Overlay
- 2 fibre solution CPE
1490/1310 nm
RF
IP
Customer
1
RF
1
1550 nm
TX
1550 nm
1550 nm
Optical Splitter
Customer IP
Customer
N
N
RF
data on seperate fiber
50
15
Signal
Optical
Processing
Transmitter
1550 nm
& Combining
1490/1310 nm
Amplifier
nm
IP
Ethernet
Access
Switch
PTP-Ethernet with RF-Overlay
- 2 fiber solution -
1490/1310nm
CPE
IP
Customer
1
RF
Amplifier
1490/1310 nm
1550 nm
Optical Splitter
Customer IP
Customer
N
N
RF
with built-in N x WDM Filter
For RF-Overlay ASTRO provides all the key components, such as optical transmitters, optical amplifiers, passive optical
devices and also Customer Premise Equipment. In combination with the optical Data Access Solution such as GPON,
with the ASTRO products the provider is ready for both worlds, the IP future and the UHD future.
20
IPTV and the growth of bandwidth demand
RF-Overlay - a possible solution
Many „IP minded people“ predict, that future TV will be only
IP-based, since IP is dominanting. IPTV will be a big success
story in the coming years. There is no doubt about it, due to
several nice features like “on-demand” or using the standard
IP infrastructures for TV sets or Set Top Boxes. For providers
IPTV is a big advantage, when established a Peer to Peer Network with full control and monitoring of the final customers. For
example customer profile shaped commercials and other user
profile oriented advertisements can be offered. One more
big point pro IPTV is the direct contractual relation between
supplier and end user, as for broadcasting the supplier often
deals with the building developer or owners, but not with the
end user itself.
IPTV providers have to find a way to send this enlarged bandwidth for future TV standards through the IP traffic, without investing billions in the „IP backbone bottle neck“. One solution
could be using the RF-Overlay technology. RF-Overlay provides the video broadcasting pipe in parallel to the IP pipe. This
enables customers to enjoy the best of both worlds - the IPTV
and the broadcasting world. The big advantage for the provider is the relief of all the users using the broadcasting pipe
and not using the IP pipe for TV. This will safe a tremendous
capacity in the IP domain. One more benefit is: If one provider
invested already in a fibre network, it can easily be expanded
on relatively low budget with this broadcasting pipe.
When it comes to bandwidth requirements for future TV products, such as 4K or even 8K (UHDTV), up to now the only solution is to keep the IPTV bandwidth growing in the same scale
as required by the TV standard. The best video compression
technologies cannot compensate the increased bandwidth
requirements that much. This could cause a big competition in providing such Ultra High Definition TV between IPTV
providers and traditional broadcasting TV providers (such as
SAT- or Cable Operators). Traditional broadcasting operators
are using a Frequency Multiplex Technology, which provides
realtime UHD TV in a well-known and mature way to its users.
Thinking 4K UHD, we have to assume a poor IP realtime data
rate of around 40 Mbit/s (depending on the compression
codec). For 8K UHD a realtime data rate of something like 80
Mbit/s. This kind of TV usage could be easily broadcasted in
the Frequency Multiplex Method with mature digital TV standards such as DVB-C or DVB-T; a technology used by broadcasting operators since many years. Digital-TV with DVB-C or
DVB-C2 is for the Video-Overlay transparent to transmit via
a so called 3rd optical window (1550 nm) and does not affect any data service such as PtP-Ethernet or any PON based
technology. One example of use is that future major sport
events will be recorded and transmitted in 4K UHD TV. UHD
TV set sales are growing in double digits’ percentage each
year and in the next years most of the end users will have
the possibility to watch 4K or even 8K UHD TV on their TV
sets. Therefore the providers must be prepared to deliver high
bandwidth consuming TV streams in the near future.
AGC
HUB
Automatic Gain Control guarantees a constant RF output
power within a pre-defined optical input range. If the optical level at the input is within this AGC range, the RF
output is kept stable.
A HUB is a station where active transmission equipment
on the providers side is installed (e.g. optical amplifiers,
data transmission equipment etc).
CWDM
PON
Passive Optical Network. This is the fibre and splitter installation between HUB and subscriber. PON networks do
not need any active devices in the field. This networks
can be built also with cascaded splitters to bring the output ports of the splitting close to the subscriber.
This expression is often used for a Point-to-Point optical
ethernet network. For CATV distribution the signal normally will be splitted to each node, but for internet traffic
the second fibre (or single fibre, if WDM’ed to the CATV
signal) is directly connected to the access switch port in
the HUB.
Glossary
Coarse Wavelength Division Multiplexing; up to 18 different wavelengths can be multiplexed on one single fibre
using a CWDM filter. Wavelength range from 1270 nm
.. 1610 nm (Ch1 to Ch18) in distances of 20 nm. Center
Wavelength is nominal value +1 nm (e.g for 1270 nm the
center is 1271 nm, with a usable band of +/- 6,5 nm). Ch6
and Ch7 (1370 nm and 1390 nm) are normally not usable,
due to the OH-water peak of the fibre with high attenuation at this wavelength).
PtP
WDM pass-through
Fibre Nodes with WDM path-through can be used with
1550 nm wavelength for CATV reception and for optical
data bypass. Before the PIN diode for receiving CATV,
there is a Wavelength Division Filter, separating the 1550
nm from the other wavelength. The other wavelengths are
by-passed to a separate optical adapter. This technology
is often used for transmission of multiplexed signals for
CATV @ 1500 nm) and transparent data @ 1490 nm/1310
nm (optical ethernet or GPON/EPON).
21
EXTERNAL MODULATED TRANSMITTER, 1550 NM
output power 2 x 7 dBm
OEMTX-1550-07
zz
OEMTX-1550-08
for high performance long distance transmission
of analogue and digital broadcast signals; CATV
& HFC networks forward path transmission; RFoverlay transmission in FTTX networks; analogue
and digital transmission in RFoG networks; DWDM
utilized broadcast networks
OEMTX-1550-10
zz advanced SBS suppression, setting in 0.5dB steps
in range 13,0 dBm ..19,0 dBm
zz optical wavelength adjustable +/- 50 GHz
zz external modulator
zz 19 inch, 1 RU
zz SNMP / Web-Interface / LCD panel
zz automatic gain control or manual gain control
zz 2 redundant hot plug power supplies
zz optical output power 2 x 7,0 dBm / 2 x 8,0 dBm or
2 x 10,0 dBm (others on request)
zz very low power consumption
OEMTX
BLOCK DIAGRAM
PreAmp
RF In
Optical Out1
Optical Out2
Laser 1550 nm
22
External Modulator
1550
nm
Type
Order number
EAN-Code
OEMTX-1550-07
OEMTX-1550-08
OEMTX-1550-10
212 007
212 008
212 009
4026187193010
4026187193027
4026187193034
2 x 7,0
2 x 8,0
2 x 10,0
RF and optical characteristics
Optical output power
[dBm]
Optical input wavelength
[nm]
1550nm (or according ITU grid 1545 .. 1560 nm)
Relative intensity noise
[dB/Hz]
≤ -160
Laser linewidth
[MHz]
0,3
SBS suppression
[dBm]
13,0...19,0 in 0,5 dB steps
Modulation type
Wavelength adjustment range
Peak OMI/channel for PAL84 signal
external modulated
[GHz]
± 50
[%]
3
Number of optical output ports
Flatness over total frequency band
2
[dB]
Optical connector type
± 0,75
2 x SC/APC (other on request)
Frequency range
[MHz]
47 - 1006
RF input level range (AGC working range)
[dBµV]
78 - 96 (in AGC mode with modulated signal, AGC offset = 0)
Rated input RF signal level
[dBµV]
80
RF Input Impedance
[Ω]
75
RF input return loss
[dB]
≥ 16
CTB*
[dB]
≥ 65
CSO*
[dB]
≥ 63
C/N*
[dB]
≥ 53
Common data
Management
SNMP and web interface
Chassis type
1 RU, 19” rack mounted
Power supply
[pcs]
2 hot plug / AC or DC
AC Power supply
[VAC]
90 - 265
DC Power supply
[VDC]
-36 .. 72 (on request)
Power consumption
[W]
≤ 60
Dimensions (W x H x D)
[mm]
483 x 44 x 380 (1 RU)
Ambient temperature
[°C]
-5 .. +55 (ETSI EN 300019-3 Class 3.2)
Relative humidity
[%]
0 -95 no condensing
*) measured at 65km fibre length, one EDFA with 16dBm, optical receiver input level 0d Bm with 8 pA/Sqrt Hz, 42 analogue channels (CENELEC42)
23
DIRECT MODULATED TRANSMITTER, 1550 NM
ODMTX-1550-07
zz
for CATV & HFC networks forward path transmission; RF-overlay transmission in FTTX networks;
PAL and QAM transmission up to 30 km and more
over single mode fibres
zz pre-distortion circuit
zz built-in dispersion compensator, setting in 1 km
steps up to 50 km
zz high output power (10 dBm)
zz high linear DFB laser
BLOCK DIAGRAM
ODMTX
24
PreAmp
RF In
Optical Out
Laser
1550
nm
Type
ODMTX-1550-10
Order number
212 010
EAN-Code
4026187182839
[nm]
1550 ± 20
[dBm]
10
Laser type
DFB high performance laser
1
Modulation type
direct modulation
[%]
Flatness
3
1
[dB]
± 0,75
SC/APC (other on request)
Frequency range
[MHz]
47 - 1006
[dBµV]
72 - 85
RF input impedance
[Ω]
75
[dB]
≥ 16 (47 - 550 MHz)；≥ 14（550 - 1006 MHz）
CTB*
[dB]
≥ 65
CSO*
[dB]
≥ 60
C/N*
[dB]
≥ 51
AGC/MGC control range
[dB]
± 5 / ± 10
Common data
Management
Chassis type
Power supply
[pcs]
AC Power supply
[VAC]
150 - 265
DC Power supply
[VDC]
Power consumption
[W]
≤ 30
[mm]
483 x 44 x 380 (1 RU)
Ambient temperature
[°C]
-5 .. +55 (ETSI EN 300019-3 Class 3.2)
*) measured at 25km fibre length, optical receiver input level 0 dBm, 59 PAL channels up to 550 Mhz, 30 QAM channels -10dB below PAL
25
DIRECT MODULATED TRANSMITTER, 1310 NM
output power 7 dBm
ODMTX-1310-07
output power 13 dBm
output power 10 dBm
ODMTX-1310-10
ODMTX-1310-13
zz for CATV & HFC networks forward path transmission;
PAL and QAM transmission up to 30 km and more
over single mode fibres
zz output power 7 / 10 or 13 dBm (others on request)
zz high linear DFB lasers
zz SNMP / Web-Interface / touch screen color panel
zz outdoor version with die-cast housing optionally
available
BLOCK DIAGRAM
ODMTX
26
PreAmp
RF In
Optical Out
Laser
1550
nm
Type
Order number
EAN-Code
ODMTX-1310-07
ODMTX-1310-10
ODMTX-1310-13
212 011
212 012
212 013
4026187193041
4026187193065
4026187193072
7,0
10,0
13,0
[dBm]
[nm]
Laser type
DFB high performance laser
Modulation type
direct modulation
[%]
Flatness
1310 ± 20
3
1
[dB]
± 0,75
Frequency range
[MHz]
47 - 1006
[dBµV]
72 - 88
RF input impedance
[Ω]
75
[dB]
≥ 16 (47 - 550 MHz)；≥ 14（550 - 1006 MHz）
CTB*
[dB]
≥ 65
CSO*
[dB]
≥ 60
C/N*
[dB]
≥ 51
AGC/MGC control range
[dB]
± 5 / 0..10
Common data
Management
Chassis type
Power supply
[pcs]
AC Power supply
[VAC]
150 - 265
DC Power supply
[VDC]
Power consumption
[W]
≤ 30
[mm]
483 x 44 x 380 (1 RU)
Ambient temperature
[°C]
-5 .. +55 (ETSI EN 300019-3 Class 3.2)
*) measured at 10km fibre length, optical receiver input level -1 dBm, 59 PAL channels up to 550 Mhz, 30 QAM channels -10dB below PAL
27
OPTICAL AMPLIFIER, 1550 NM
OAMP 1..
1 output
zz amplifier for HFC & FTTH networks forward path
transmission, optical link amplification of PAL, NTSC
and QAM signals for HFC & FTTH networks
zz high reliability
zz various outputs and output powers from 1 x 13 dBm
to 4 x 17 dBm (total 24 dBm) available
zz outdoor version with extended temperature range
available on request
zz pump laser 980 nm and 1480 nm
zz temperature range -5 °C...+55 °C
zz 2 x hot plug power supplies AC or DC
OAMP 2..
2 outputs
zz low noise figure
OAMP 4..
BLOCK DIAGRAM
OAMP
28
Optical Out 1
Optical in
Optical Out 2
Optical Out n
4 outputs
1550
nm
Type
OAMP-113 OAMP-213 OAMP-413 OAMP-117 OAMP-217 OAMP-417 OAMP-120 OAMP-220
Order number
212 014
212 016
212 017
212 018
212 019
212 020
212 015
212 021
EAN-Code 4026187…
193089
193096
193102
193119
193126
182846
193133
193140
+13.0 ± 0,5
+13.0 ± 0,5
+13.0 ± 0,5
+17.0 ± 0,5
+17.0 ± 0,5
+17.0 ± 0,5
+20.0 ± 0,5
+20.0 ± 0,5
1
2
4
1
2
4
1
2
Optical output power (Ptot)
[dBm]
[nm]
1550 ± 15
Rated optical input power range
[dBm]
-3… +10
[dB]
≤5
Noise figure (Pin =0dBm, ʎ=1550nm)
1…8
Return loss at input
[dB]
≥ 45
Return loss output
[dB]
≥ 45
Optical Isolation input to output
[dB]
≥ 30
Optical output adjustable range
[dB]
-3 ..0
Common data
Management
Chassis type
Power supply
[pcs]
AC Power supply
[VAC]
150 - 265
DC Power supply
[VDC]
Power consumption
[W]
≤ 30
[mm]
483 x 44 x 380 (1 RU)
Ambient temperature
[°C]
-5 .. +55 (ETSI EN 300019-3 Class 3.2)
Other types than specified above available on request
29
OPTICAL AMPLIFIER, 1550 NM
OHPA-32..
32 outputs
zz distribution amplifier for HFC & FTTH networks
forward path transmission; PON and PtP FTTH
networks with RF-overlay
zz low noise figure
zz various outputs and output powers from 4 x 20 dBm
to 32 x 19 dBm available
zz 2 x hot plug power supplies AC or DC
zz ErYb doped double-clad technology
zz high stability and reliability
OHPA-0820
OHPA-16..
16 outputs
8 outputs
OHPA-0420
4 outputs
BLOCK DIAGRAM
OHPA
30
Optical Out 1
Optical Out 2
Optical in
PreAmp
Booster Amp
Optical Out n
1550
nm
Type
OHPA-1617
OHPA-1620
OHPA-3216
OHPA-3219
Order number
OHPA-0420 OHPA-0820
212 023
212 024
212 025
212 026
212 027
212 028
EAN-Code 4026187…
193157
193164
193171
193188
193195
193201
+20,0 ± 0,5
+20,0 ± 0,5
+17,0 ± 0,5
+20,0 ± 0,5
+16,0 ± 0,5
+19,0 ± 0,5
4
8
16
16
32
32
SC/APC
SC/APC
SC/APC
SC/APC
Input: SC/APC
Output: LC/APC or
SC/APC
Input: SC/APC
Output: LC/APC
or SC/APC
[dBm]
[nm]
1550 ± 15
[dBm]
-3… +10 (details see order information)
Output power variation
[dB]
± 0,5
[dB]
≤5
[dB]
≥ 45
Return loss output
[dB]
≥ 45
[dB]
-3 ..0
Laser switch off/on
by key lock on front for installation purposes
Common data
Management
Chassis type
Power supply
[pcs]
AC Power supply
[VAC]
150 - 265
DC Power supply
[VDC]
Power consumption
[W]
≤ 60
[mm]
483 x 44 x 380 (1 RU)
483 x 88 x 380 (2 RU)
Ambient temperature
[°C]
-10 .. +45
Maximum operating humidity
[%]
95% no condensing
Storage temperature range
[°C]
-30 .. +75
Maximum storage humidity
[%]
95% no condensing
31
OPTICAL AMPLIFIER WITH WDM, 1550 NM
OHPA-WDM-32185
zz
32 PON, 32 COM outputs
distribution amplifier for FTTH RF-overlay networks
forward path transmission; RF + G(E)PON services
combined on one single fiber for suppling triple
play services
zz 19“, 1-U / 2-U Rack mounted 1550nm optical ampli
fier, including WDM for GPON/EPON
zz various outputs, splits and output powers
zz WDM filter 1310 nm / 1490 nm + 1550 nm to com
bine DATA and RF inside the device
zz low noise figure
zz 2x hot plug power supplies AC or DC
zz high stability and reliability
zz ErYb doped double-clad technology
OHPA-WDM-0819
OHPA-WDM-1619
PON n
PON 2
PON 1
BLOCK DIAGRAM
OHPA-WDM
Optical Out 1
Optical Out 2
Optical in
Optical Out n
PreAmp
32
Booster Amp
WDM Filter
1550
nm
Type
OHPA-WDM-0819
OHPA-WDM-1619
OHPA-WDM-32185
Order number
212 029
212 032
212 033
EAN-Code 4026187…
193218
193225
193232
+19,0 ± 0,5
+19,0 ± 0,5
+18,5 ± 0,5
8 PON + 8 COM
16 PON + 16 COM
32 PON + 32 COM
1
1
1
Input: SC/APC
(G)PON: SC/PC
COM: SC/APC
Input: SC/APC
(G)PON: LC/PC
COM: LC/APC
Input: SC/APC
(G)PON: LC/PC
COM: LC/APC
[dBm]
Rack units
Optical input wavelength for RF
[nm]
1550 ± 15
[dBm]
-3… +10
[dB]
≤5
[dB]
≥ 45
Return loss output
[dB]
≥ 45
[dB]
-3 ..0
Laser switch off/on
by key lock on front for installation purposes
Common data
Management
Chassis type
Power supply
[pcs]
AC Power supply
[VAC]
150 - 265
DC Power supply
[VDC]
Power consumption
[W]
≤ 60
[mm]
483 x 44 x 380 (1 RU)
483 x 88 x 380 (2 RU)
Ambient temperature
[°C]
-10 .. +45
Maximum operating humidity
[%]
95% no condensing
Storage temperature range
[°C]
-30 .. +75
Maximum storage humidity
[%]
95% no condensing
33
OPTICAL PLC (PLANAR LIGHTWAVE CIRCUIT) SPLITTERS (1 INPUT)
picture shows AOSPLC-132
AOSPLC-1..
AOSPLC-1xx
zz for FTTH networks, CATV & HFC networks, PON
network structures, optical data networks with
single mode fibre
1
IN
zz silica optical waveguide technology
zz very accurate channel to channel uniformity
zz low polarization dependent loss
n
zz wide operation wavelength (1260 ..1650 nm)
zz very high reliability and stability
zz 19 inch, LGX or mini module
AOSPLC-2xx
IN 1
Type
zz any HRL connector type
zz compliance to Telcordia GR-1209-CORE and
Telcordia GR-1221-CORE RoHS
1
IN 2
AOSPLC-102
AOSPLC-104
AOSPLC-108
AOSPLC-116
AOSPLC-132
AOSPLC-164
Order number
212 710
212 711
212 712
212 713
212 714
212 715
EAN-Code 4026187…
193713
193720
193737
193744
193751
193768
1x2
1x4
1x8
1 x 16
1 x 32
1 x 64
n
Optical characteristics
Splitting Ratio
Coupler/Connector type
[nm]
1260 .. 1650
Fiber type
G657A
Insertion loss
[dB]
3,8
7,1
10,2
13,5
16,5
20,5
Uniformity loss
[dB]
0,4
0,6
0,8
1,2
1,5
2
Polarization dependent loss
[dB]
0,2
0,2
0,2
0,25
0,3
0,35
Return loss
[dB]
55
55
55
55
55
55
Directivity
[dB]
55
55
55
55
55
55
Wavelength dependent loss
[dB]
0,3
0,3
0,3
0,3
0,5
0,5
Temperature stability (-40..85 °C)
[dB]
0,4
0,4
0,4
0,5
0,5
0,5
Dimension for 19” (L x W x H)
(other compact or LGX housing
on request)
[mm]
483 x 150 x 45
483 x 150 x 45
483 x 150 x 45
483 x 150 x 45
483 x 150 x 45
483 x 150 x 45 (LC)
483 x 150 x 90 (SC)
Ambient temperature
[°C]
Common data
34
0 .. 65
AOSPLC-1xx
1
OPTICAL PLC (PLANAR
LIGHTWAVE CIRCUIT) SPLITTERS (2 INPUTS)
IN
picture shows AOSPLC-232
AOSPLC-2..
n
AOSPLC-2xx
IN 1
zz for FTTH networks, CATV & HFC networks, PON
network structures, optical data networks with
single mode fibre
1
zz silica optical waveguide technology
zz very accurate channel to channel uniformity
IN 2
zz low polarization dependent loss
n
zz wide operation wavelength (1260 ..1650 nm)
Type
AOSPLC-232
AOSPLC-264
Order number
AOSPLC-202
212 716
AOSPLC-204 AOSPLC-208 AOSPLC-216
212 717
212 718
212 719
212 720
212 721
EAN-Code 4026187…
193775
193782
193799
193805
193812
193829
2x2
2x4
2x8
2 x 16
2 x 32
2 x 64
Splitting Ratio
[nm]
1260 .. 1650
Fiber type
G657A
Insertion loss
[dB]
4
7,6
11
14,4
17,5
21
Uniformity loss
[dB]
0,6
1
1,2
1,5
1,8
2,2
[dB]
0,2
0,2
0,2
0,3
0,4
0,4
Return loss
[dB]
55
55
55
55
55
55
Directivity
[dB]
55
55
55
55
55
55
Wavelength dependent loss
[dB]
0,3
0,4
0,5
0,5
0,5
0,5
Temperature stability (-40..85 °C)
[dB]
0,4
0,4
0,4
0,5
0,5
0,5
Dimension for 19” (L x W x H)
(other compact or LGX housing
on request)
[mm]
483 x 150x45
483 x 150 x 45
483 x 150 x 45
483 x 150 x 45
483 x 150 x 45
483 x 150 x 45 (LC)
483 x 150 x 90 (SC)
Ambient temperature
[°C]
Common data
0 .. 65
35
CWDM MULTIPLEXER AND DEMULTIPLEXER
picture shows AOCWDM-08Mux
AOCWDM-..
zz for CWDM Systems, CATV & HFC networks, PON
network structures
AOCWDM
zz low Insertion Loss
Demultiplexer
Multiplexer
zz high isolation, low PDL
λ1
λ1
λ2
λ2
λn
λn
zz very good channel to channel uniformity
zz wide operation wavelength (1260 -1620 nm)
zz wide operating temperature range
Type
Order number
EAN-Code
AOCWDM-02Mux
AOCWDM-02DeMux
AOCWDM-04Mux
AOCWDM-04DeMux
AOCWDM-08Mux
AOCWDM-08DeMux
AOCWDM-16Mux
AOCWDM-16DeMux
212 743
212 744
212 745
212 746
212 747
212 748
212 749
212750
4026187193836
4026187193843
4026187193850
4026187193867
4026187193874
4026187193881
4026187193898
4026187193904
λ1, λ2 <--> Line
λ1 .. λ4 <--> Line
λ1 .. λ8 <--> Line
λ1 .. λ16 <--> Line
CWDM Mulitplexer / De Multiplexer
(Wavelenght Range:
1270 nm,129 0nm …1590nm,1610nm)
Center wavelength
Passband
ITU, ITU+1
λ ± 6,5
nm
nm
1260..1620 or 1460..1620
Fiber type
single mode fiber
Channel space
nm
typical insertion loss (single module)
dB
1
1,7
20
2,1
4
typical insertion loss
(Mux-DeMux pair without connectors)
dB
≤ 2,3
≤ 3,0
≤ 3,6
≤ 6,0
0,5
0,5
483 x 150 x 45
483 x 150 x 45
Isolation adjacent channel
dB
Isolation non adjacent channel
dB
30
Ripple
dB
dB
0,2
Return loss
dB
45
Directivity
dB
50
Ambient temperature
°C
0 .. 65
Maximum optical power
mW
500
50
0,3
0,4
Common data
Dimension for 19” version (L x W x H)
(other compact or LGX housing on
request)
mm
483 x 150 x 45
Multiplexer /DeMultiplexer with 1310nm upgrade channel on request
36
483 x 150 x 45
SERVICE COMBINER FOR CATV AND PON SIGNALS
AOW-PON..
picture shows AOW-PON04
AOW-PONxx
1310/1490
1550
COM 1
zz optical service combiner for RF-overlay to be injec
ted in PON based data networks
1310/1490
1550
COM 2
zz for FTTH networks, G(E)PON networks with service
injection of RF-overlay; PON based data network
structures with TV broadcast
1310/1490
1550
COM 3
zz 4, 8 or 16 G(E)PON links combined with 1550 nm
RF-overlay
zz wide operating temperature range
1310/1490
1550
COM n
zz 19 inch rack mount
Type
AOW-PON04
Order number
AOW-PON08
AOW-PON16
212 740
212 741
212 742
4026187192853
4026187193911
4026187193928
Number of PON ports
(in/out 1310/1490 nm)
4
8
16
Number of CATV input ports (1550 nm)
4
8
16
Number of COM ports
(1310/1490/1550 nm)
4
8
16
EAN-Code
Coupler/Connector type CATV & COM
SC/APC (others on request)
Coupler/Connector type PON
SC/PC (others on request)
Operating Wavelength Pass Band
(CATV)
nm
1539 ..1565
Operating Wavelength Reflect Band
(PON Data In/Out)
nm
PON US: 1270 .. 1350 / PON DS: 1480 .. 1505
Insertion loss reflect
dB
≤ 0.6
Insertion Loss pass
dB
≤ 1.0
Return loss
dB
≥ 45
Isolation pass band
dB
≥ 35
Isolation reflect band
dB
≥ 15
Directivity
dB
≥ 55
Dimension for 19” version (L x W x H)
(other housing type on request)
mm
483 x 150 x 45
Ambient temperature
°C
-5 +65
Common data
37
RF-Video-Overlay application solutions
Broadcasting with 1310 nm optical transmission
Broadcasting with 1310nm optical Transmission
ODMTX-1310
AOSPLC
Distance
up to 20km
Optical receiver
1
2
RF in
Optical receiver
N-1
N
Head-end
(direct mod. Transmitter)
Splitting
Optical receiver
Broadcasting with 1550 nm amplified transmission (long haul with external modulated tran
Broadcasting with 1550nm amplified Transmission
OEMTX-1550
OAMP
Long distance
fibre link
OAMP
RF in
Head-end
(external mod. transmitter
+ link amplifer)
38
Repeater
station
RF-Video-Overlay application solutions
Broadcasting with 1550 nm amplified optical transmission
Broadcasting with 1550nm amplified optical Transmission
(short haul with direct modulated Transmitter)
ODMTX-1550
OAMP
Distance
up to 20km
AOSPLC
OHPA
1
2
RF in
N-1
N
Head-end
(direct mod. transmitter &
link amplifer)
distribution
amplifier
Optical receiver
1
2
N-1
N
Optical receiver
Splitting
Optical receiver
nsmitter)
n (long haul with external modulated Transmitter)
AOSPLC
Long distance
fibre link
OHPA
1
2
N-1
N
Distribution
amplifier
Optical receiver
1
2
N-1
N
Optical receiver
Splitting
Optical receiver
39
FTTH data solutions
GPON - a new broadband access network technology
Gigabit PON is an attractive FTTH broadband access network
technology, because it meets the needs of all kinds of carriers
world-wide. Gigabit PON, also known as GPON, is a method saving fibre infrastructure capacities with a WDM multiplexing technology for up- and downstreaming data over a single fibre, but
delivering high speed IP traffic over the Passive Optical Network
(PON). With GPON the fibre splitting infrastructure can be cascaded, unlike in ethernet based Point-to-Point data transmission.
This enables a huge benefit in less fibre termination, since only
one fibre needs to connect to the central side equipment, whereas with optical ethernet every single user needs to have a fibre
termination in the central station. The GPON technology brings
the optical fibre ports (splitter output ports) close to the users.
Therefore, it is more easy to spread from the last splitting point
to each individual end user. GPON can be seen as the optical
counterpart to a coaxial distribution, where the coaxial splitters
ports are close to the end users too. Ethernet technology has its
electrical counterpart in a DSL like point-to-point structure, where
each user needs a dedicated link to a central station.
GPON downstream data packets travel in a broadcast manner
from the Optical Line Termination (OLT - located in the central
side) to the Optical Network Units (ONU – located in the end user
premise). Meaning each ONU connected to the same PON network receives the package, but only the targeted one take the
information inside. In upstream the data packets are transmitted
in a Time Division Multiple Access (TDMA) manner.
There is always a discussion about security and traffic capacity
in GPON, since GPON is a shared medium between several data
terminals. Similar to DOCSIS, GPON provides an encryption, so
that nobody can interfere in the traffic or read the information out
of the optical lines (e.g tapping the fibre etc). The OLT port bandwidth is shared between either 32 or 64 ONUs, but gives enough
capacity to any of the users. For example, each of the users can
have on long term 80 Mb/s in realtime (theoretically), which is
enough to let the users watch an 8K UHD IP-TV movie in realtime
and still have lots of capacity for other services. There will be no
put-through bottleneck in the GPON access platform. It is more
likely that the IP backbone is not capable to feed such bandwidth.
All the above leads to the point, that GPON is one of the dominant access technologies in the world telecommunication market.
For many years this technology was only applied by big Telcos,
but nowadays it is also more and more adopted for smaller networks, since installation benefits and price/performance ratio are
outstanding.
TV broadcasting could be easily implemented, since the GPON
structure fits very well to the standard broadcasting structure.
With GPON the optical wavelength for data is well selected
(downstream 1490 nm / upstream 1310 nm) so that the RF-Overlay technology can be inserted with a 3rd wavelength of 1550 nm
very easy by using an external WDM filter. The frequently preferred choice is, that the broadcasting multiport amplifier provides
the built-in WDM filters, so that each GPON port is connected with
one fibre to the Multiport Amplifier. It is then passed to the optical
network and its splitting makes the optical cabling even easier.
Best in class devices
Glossary
With its GPON products ASTRO provides “best in class” devices, with references of installations scaling from big nationwide Telcos
to smaller Multi Dwelling Units (MDU).
40
PON
GPON
Passive Optical Network, comprising fibers and splitters,
patch cords and optical termination boxes
Gigabit Passive Optical Network, comprising of OLT and
ONUs, connected via a passive optical splitting network
OLT
WDM
OLT- Optical Line Termination is the central side equipment, providing one or multiple ports for connecting the
end user equipment over the PON Network
Wavelength Division Multiplexing, combing with an optical filter different wavelengths on one single fiber
ONU
ONU- Optical Network Unit is the end customer premise equipment. This provides an optical link towards the
OLT and one or more Data interfaces towards the home
network. VoIP, POTS and Wireless can be also included,
depending the type of the ONU device.
TDMA
Time Division Multiple Access, is a method, which grants
an ONU a certain time used to transmit upstream data.
During this small period no other ONU can transmit connected to the same OLT Port. This is to avoid data collision.
GPON technology at a glance
GPON supported features
Here‘s a short overview of the main features GPON technology has to offer.
zz Triple play services
zz Long reach up to 20 km over single mode PON structure
zz Splitting one GPON OLT optical link port to up to typical 32 (also 64/128) ONUs
zz Downlink data rate on one OLT downlink port of 2,5 Gb/s (broadcast transmission)
zz Uplink data rate 1,5 Gb/s from ONU to OLT (TDMA transmission)
zz All traffic between OLT and ONU is encrypted using AES128
zz Bandwidth scheduler based on services
zz … and many other features
GPON - how it works
Cluster of 8 customers
ONU
Customer
1
ONU
IP
Customer 2
IP
ONU
IP
Customer 8
ONU
IP
Customer
9
ONU
Customer 10
IP
ONU
Customer 16
IP
IP (N x Gigabit Links)
GPON
OLT
1490 nm down
2,5 Gb/s
ONU
Customer
17
ONU
IP
Customer 18
1310 nm up
1,25 Gb/s
IP
ONU
Customer 24
IP
ONU
Customer 25
ONU
Customer 25
IP
ONU
Customer 28
IP
IP
ONU
Customer 28
IP
ASTRO provides ONUs with integrated RF-port for RF broadcasting in parallel to the high speed IP traffic. VoIP is also an integral
part of the ONUs.
41
FTTH data solutions
GPON OLT ROUTER
OLT-V5812G
4 ports
zz 4 port optical line transmission for DATA Service
Dasan Networks INC
zz for Triple Play FTTH GPON OLT Data service to
ONUs
zz perfect device for small to medium sized data
networks for FTTH and SOHO based on GPON
standard
zz 36 Gbps switching capacity
zz 26.8 Mpps forwarding rate
zz 4 x 2.5 Gbps (down) / 1.25 Gbps (up)
zz easy to install due to compact size
zz cost-effective at thinly populated regions
zz selective interfaces for different network requirements
zz 8 x 10/100/1000 uplink combo-type ports
zz reliable FTTx service with redundant power system
for AC and DC or mixed
42
Type
OLT-V5812G
Order number
212 803
EAN-Code
4026187193942
Specification
Flash memory
[MB]
40
SDRAM
[MB]
512
GPON interface
4 x GPON (SFP, SC/PC type)
Uplink port
8 x GE Combo [100/1000Base-X (SFP) or 10/100/1000Base-T (RJ45)]
MGMT port
1 x 10/100Base-TX (RJ45)
Console port
1 x Console (RS232)
MAC table
16K
VLAN
4K
Switching Capacity
[Gbps]
36
Put through
[Mpps]
26,8
Operating temperature
[°C]
0 .. 50
Operating humidity
[%]
5 .. 90 (non-condensing)
Power supply
AC type: 100 - 240 VAC 50/60 Hz DC type: -48/60 VDC
[mm]
432 x 43 x 320
Features
Layer 2
Standard Ethernet bridging; 16K MAC entries; 4K VLANs
Spanning Tree(STP/RSTP/MSTP
802.3ad Link Aggregation based on MAC; Flow Control
Layer 3
Static routing; RIPv1/v2, OSPFv2, BGPv4, VRRP
QoS
Rate Limit per port; Scheduling(SP, WRR, DRR)
Queues per Port (4)"
Multicast
Quality of Service
Multicast
IGMP snooping
HW-based internal IEEE 802.1p (CoS); Strict Priority (SP)
802.1Q (VLAN tag) QoS mapping, ToS/CoS; 8 queues per port
IGMPv1/v2/v3; IGMP snooping; IGMP filtering and throttling
GPON
Support 4K port-ID and 1K allocation-ID
Support ITU-T G.984.4 ONT management & Control Interface(OMC)
Remote ONT/ONU management; Automatic ONT ranging
GPON OLT compliant with ITU-T G.984
Security
Secure Shell (SSH) v1/v2; 802.1x RADIUS, TACACS+ authentication
Storm Control
Management
Serial / Telnet (CLI); SNMPv1/v2/v3
DHCP server, relay agent with option82
Remote Monitoring (RMON); Syslog; Port Mirroring
43
FTTH data solutions
GPON OLT ROUTER
OLT-V5824G
8 ports
zz 4 port optical line transmission for DATA Service
Dasan Networks INC
zz for Triple Play FTTH GPON OLT Data service to
ONUs
zz perfect device for small to medium sized data
networks for FTTH and SOHO based on GPON
standard
zz 96 Gbps switching capacity
zz 71 Mpps forwarding rate
zz 8 x 2.5 Gbps (down) / 1.25 Gbps (up)
zz easy to install due to compact size
zz cost-effective at thinly populated regions
zz 8 x 10/100/1000 ethernet combo-type ports
zz 2 x 10GE (SFP+) uplink ports
zz reliable FTTx service with redundant power system
for AC and DC or mixed
44
Type
OLT-V5824G
Order number
212 804
EAN-Code
4026187193959
Specification
Flash Memory
[MB]
SDRAM
[MB]
GPON interface
40
512
4 x GPON (SFP, SC/PC type)
Uplink port
8 x GE Combo [100/1000Base-X (SFP) or 10/100/1000Base-T (RJ45)]
MGMT port
1 x 10/100Base-TX (RJ45)
Console port
1 x Console (RS232)
MAC table
16K
VLAN
4K
Switching capacity
[Gbps]
36
Put through
[Mpps]
26,8
Ambient temperature
[°C]
0 .. 50
Operating humidity
[%]
5 .. 90 (non-condensing)
Power voltage
AC type: 100 - 240 VAC 50/60 Hz DC type: -48/60 VDC
[mm]
432 x 43 x 320
Features
MAC address
32K MAC entries
VLAN
Max. VLANs: 4K (1~4094) Up to 4K stacked VLANs
IP scalability
Max. No. of L3 Route Entries IPv4, (IPv6) : 8K(4K)
Equipment performance
Ethernet switching
Link aggregation (uplink)
Link Aggregation Control Protocol (LACP)
VLAN handling
Hierarchical functions
Ethernet multicast / broadcast
GPON basic functions
GPON advanced functions
IP functions
Cold Startup Time: max. 2 min
Switching / Bridging acc. to 802.1D and 802.1Q Packet Format: Ethernet-II and 802.3
Address Learning with Auto Aging Jumbo Frames up to 9k; Configurable Aging Time Automatic and manual Auto-negotiation
Link Aggregation (LAG) acc. to 802.3ad No. of LAG Groups: 12; No. of LAG Ports per Group: 8
MAC Address based LACP IP Packet based (Address based) LACP
Untagged Port Configuration: VLAN can be set by Port; VLAN Tagging: VLAN-ID can be set by IP TOS/DSCP
tagged and untagged frames at mixed at uplink port (outgoing); VLAN can be set by MAC Address List
VLAN Duplication based on IGMP VLAN can be set by IP Source Address / Subnet
VLAN Stripping VLAN can be set by IP Destination Address / Subnet; Independent VLAN Learning (IVL); Tagged User Frames; Port Isolation
VLAN Stacking per port (.1Q in .1Q); (VLAN can be set by port)
Configurable Ethernet type for VLAN; VLAN Stacking (.1Q in .1Q) (single tagging / stripping)
Ethernet multicast configurable limit for multicast traffic on uplink (with activation / deactivation possibility)
Block unknown multicast flow based on system basis configurable limit for broadcast traffic on uplink (with activation / deactivation possibility); block unknown multicast flow
based on port basis
ITU-T Rec. G.984.3 AMD 2; ITU-T G.984.4 ONT Management & Control Interface (OMCI)
G-PON OLT compliant with ITU-T G.984; automatic ONT ranging
1K of T-CONT ID; 4K of GEM Port-ID; 4K of MAC Entry
Max Splitter Ratio : 128; Max Transmission Distance: 60km T-CONT Type (Type1 ~ Type5)
classification/tagging per DSCP/COS; FEC for upstream/downstream; key-exchange for encryption; ONU auto-discovery; ONU authentication
ONU encryption; ONU upgrade; remote ONT/ONU management
IPv6 H/W ready; IPv4 routing; IP forwarding (static routing)
OSPF v2; BGP v4; VRRP; OSPF ECMP (equal cost multi-path protocol); policy-based routing
IP multicasting
IGMP v1/v2/v3 IGMP; filtering (filtering of join and leave messages)
IGMP snooping with single VLAN tagged; IGMP filtering and throttling
IGMP snooping; IGMP proxy; IGMP v1/v2 proxy with single VLAN tagged
IGMP termination; IP Multicast Routing Protocols (PIM-SM)
PIM-SSM(Source Specific Multicast); RFC 1112 IGMP v1
IGMP v3; RFC 2236 IGMP v2; RFC 2362 PIM-SM
IGMP monitoring (in meaning of IGMP querier,same features as 3089); IGMP termination
Layer 3 - routing
RFC 2328 OSPF v2 (including MDS authentication); RFC 1587 OSPF NSSA option
RFC 1765 OSPF database overflow; RFC 2370 OSPF Opaque LSA option
RFC 1771 Border Gateway Protocol 4; RFC 1965 autonomous system confederations for BGP
RFC 1966 BGP route reflection; RFC 1997 BGP communities attribute
RFC 1745 BGP/OSPF interaction; RFC 2385 TCP MDS authentication for BGP v4
Management - SNMP & MIBs & Others
Security
RFC 1155 structure of MGMT information (SMI v1)
RFC 1901 - 1907 SNMP Version 2c, SMIv2 and Revised MIB-II; RFC 1493 Bridge-MIB (D-Bridge)
RFC 1354 IP v4 Forwarding Table MIB; RFC 1757 RMON 4 Groups: Stats, History, Alarms,and Events
RFC 2922 Physical Topology MIB; Siemens Enterprise MIB (SLE)
RFC 2934 PIM MIB; RFC 1157 SNMP v1/v2c; RFC 854 Telnet
RFC-1212, RFC-1213, RFC-1215 MIP-II & TRAPs; RFC 2030 Simple Network Time Protocol v4 (SNTP)
RFC 1492 TACACS+; radius client; RFC 2138 RADIUS authentication ; RFC 2267 network ingress filtering
45
FTTH data solutions
GPON ONU ROUTER
ONU-H660RW
zz optical network termination for DATA & Video service
Dasan Networks INC
zz for Triple Play FTTH service termination of CATV and
data service over one fibre connection;
residential and SOHO customers
zz GPON Data Service & RF overlay optical receiver in
one box – all services over one single fibre connection
zz CATV Port, 2x FXS POTS, 4 high speed data inter
faces (10/100/1000), WLAN
zz very high data rate: downstream 2,5 Gbps,
upstream 1,25 Gbps
zz full triple play service: VoiP, data & video
zz wire speed L2 switch
zz L3 routing gateway with port forwarding
zz NAPT and NAT address translation
zz PPPoE client
backside
46
IP head-end: 20 x IP/COFDM, 12 x IP in / IP out Descrambling
Type
ONU-H660RW
Order number
212 805
EAN-Code
4026187193966
Physical interface
Optical interface
GPON interface data rate
GPON Link budget
Optical input sensitivity @1550nm for CATV
SC/APC
[Gbps]
Upstream 1,25Gbps / Downstream 2.5
[dB]
28 for GPON wavelength 1310 nm / 1490 nm (GPON B+ standard)
[dBm]
AGC range -7...0 @1550 nm
Customer data ports
4 x RJ 45 - 10/100/1000Base-T
Voice Ports
2 x RJ11 – 2 x FXS for phone servce
RF interface
F-female, 47 ..1000 Hz, RF Level typ. 74dBµV/Channel
(@ optical input in AGC range -8..0 dBm and PAL84)
System Specification
128MB flash memory; 128MB SDRAM
GPON Interface Capacity: Up 1.25Gbps / Down 2,5 Gbps
System
ITU-T G.984.x compliant, Forward Error Correction (FEC)
Multiple T-CONTs/GEM ports per device
Flexible mapping between GEM port and T-CONT
Priority queues and scheduling on Upstream
Activation with automatic discovered serial number and password; Dying Gasp
GPON ONT
L2 Switch
Untagged port configuration; IEEE802.1D and IEEE802.1Q bridging
Standard ethernet bridging; Spanning tree protocol
MAC address learning with auto aging (Up to 4K MAC addresses)
Multicast
IGMP snooping
Quality of Service
HW-based internal IEEE 802.1p (CoS); Strict Priority (SP)
802.1Q (VLAN tag) QoS mapping, ToS/CoS; 8 queues per port
Management
ITU_T 984.4 compliant OMCI interface; EEE802.3x flow control
LED indications for maintenance; Web-based management
ONT service provisioning (on the OLT-side)
VLAN
VLAN port filtering; Destination address port filtering
Wireless LAN
IEEE802.11b/g/n compliant; Multiple SSIDs; Up to 32 devices can accessed simultaneously
64/128bit wireless encryption protocol (WEP); Bandwidth: 2.4GHz
Two Transmit and Two Receive path (2T2R); 2x2 MIMO
Max. data rate : 54Mbps in 802.11g; Supports MCS0 /7 /8 /15 modulation and coding rate
Supports 20 MHz and 40 MHz channels; Security: WEP, WPA-PSK (TKIP) &
WPA2-PSK (AES); Wi-Fi positioning system (WPS)
VOIP features
SIP (RFC3261/3262/3264); 5-REN per POTS; RTP, RTCP (RFC3550/3551)
DTMF dialing / Pulse dialing; Multiple codecs: G.711, G.723.1, G729
T.38 FAX mode; Echo cancellation
PPPoE client: multiple clients per RG ONT, Automatically initiating the session,
automatically keep alive; DHCP server / client
DNS Relay server (DNS relay, DNS transparent); NAT and NAPT; NAT session up to 16K Port forwarding;
Integrated stateful packet inspection firewall with AC
Residential Gateway Unit Features
(L3 Routing mode)
Common data
Dimensions
Environmental Conditions
Power supply (AC/DC adapter)
[mm]
190 x 66 x 150 (W x H x D, antennas folded)
Operating temperature: -5 - 50 °C
Storage temperature -30 - 60°C
Operating humidity 20 - 90% (non-condensing)
Input: 100 - 240 VAC, 50/60 Hz
Output: 12 VDC / 1,5A
47
FTTH data solutions
FTTH POINT TO POINT ETHERNET CPE SWITCH
CPE-HES3106
zz IGMP snooping, Q-in-Q VALN
zz optical network termination for DATA & video service
for Point to Point based networks
zz
for SOHO & residential termination with Point to Point
ethernet optical networks combined with RF-Overlay; FTTH CPE with network management for automatic service deployment
zz fully managed switch
zz customer ports: CATV port, 5 x GBE high speed
data interfaces (10/100/1000)
zz automatic DHCP configuration based on providers
settings in configuration file
zz SNMP power down trap
zz dual rate WAN interface with autosensing function
zz RF port for broadcast TV
zz optional cable tray for fiber termination
FBT-HES
Suitable fibre tray:
EAN-Code: 4026187193539
zz uplink GBE dual rate 100/1000 Base-X with SFP or
SFF (fixed)
Type
CPE-HES3106
Order number
212 802
EAN-Code
4026187193935
Physical interface
SFP slot for BIDI or
SFF single mode BIDI TX: 1310nm / RX: 1550nm / 10 km / SC/APC
Optical Data Uplink interface
Optical uplink data rate
100/1000 Base-X dual rate / autosensing
LAN Ethernet Ports
5 x 10/100/1000Base-T / RJ45
CATV optical input Port coupler
CATV optical wavelength
CATV optical Input level (AGC-range)
SC/APC
nm
1260 -1610
dB
AGC range -6.0 .. 0.0 @1550nm
CATV RF frequency range
MHz
45 .. 1000
CATV RF level (OMI=3.5%, opt. in=
-6.0dBm)
dBµV
88
Store and Forward Switching Mechanism; Auto Crossover for MDI/MDI-X in TP port
Auto Negotiation in TP port; Half/Full Duplex Mode Operation
Jumbo Frame: 9K bytes; MAC Address Table: 2K
n-Blocking Switching Fabric: 12Gbps; VLAN ID: 4K
Hardware
Forward Rate
10M: 14,880/14,880pps; 00M: 148,800/148,800pps; 1000M:1,488,000/1,488,000pps
LEDs
Power, LAN, F/O, Status
IPv4/IPv6 dual stack; Stateless Address Auto configuration (SLAAC)
Web Management; Telnet CLI; SNMP Management / SNMP v1/v2c
DHCP Client / DHCP Auto Provision / DHCPv6; Power Down Trap
FTP/TFTP Firmware Upgrade; Loop Detection; Network Time Protocol (NTP)
Network Management
Port Based VLAN; Q-in-Q Double Tag; IEEE802.1q Tag Based VLAN
Support 128 VLAN Groups; QoS Based on P-bit, VLAN & DSCP
Bandwidth Control; IGMP Snooping v1/v2
Switch Features
Common Data
Dimensions
[mm]
Weight
[kg]
0,68
[C°]
Operation: 0 - 50; Storage Temperature: -20 - 60
Humidity: 5% ~ 90%, non-condensing
Ambient temperature
Power supply (AC/DC Adapter)
48
180x 130 x 30 (W x D x H); with Fiber Tray: 180 x 180 x 42
AC input: 100VAC~240VAC /
Frequency range: 50~60 Hz
DC output rating: 12V / 1,5A
Power Consumption: AC side: 11,45 W (Max.) / DC side: 6,78 W (Max.)
FTTH data solutions
FTTH POINT TO POINT ETHERNET CPE ROUTER
CPE-FWRIII
zz uplink GBE dual rate 100/1000 Base-X with SFP or
SFF (fixed) / SFP version with dual personality ports
SFP and 10/100/1000Base-T
zz optical network termination for DATA & video service
for Point to Point based networks
zz
for SOHO & residential termination with Point to Point
ethernet optical networks combined with RF-Overlay; FTTH CPE with network management for automatic service deployment
zz WIFI; RF port for broadcast TV
zz DHCP auto provisioning, TR069 and SNMP
zz power down trap
zz optional cable tray for fibre termination
zz fully managed NAT/Bridge hybrid device
zz customer ports: CATV port, 5 x GBE high speed
data interfaces (10/100/1000)
FBT-HES
Suitable fibre tray:
EAN-Code: 4026187193539
zz dual rate for easy upgrade for 100 to 1000Mbps
networks
Type
CPE-FWRIII
Order number
212 490
EAN-Code
4026187193379
Physical interface
SFP slot for BIDI or
SFF single mode BIDI TX:1310nm/RX:1550nm / 10 km / SC/APC
Optical Data Uplink interface
Optical uplink data rate
100/1000 Base-X dual rate / autosensing
LAN Ethernet Ports
4 x 10/100/1000Base-T / RJ45
CATV optical input Port coupler
SC/APC
CATV optical wavelength
nm
1260 -1610
CATV optical Input level (AGC-range)
dB
AGC range -6.0 .. 0.0 @1550nm
CATV RF frequency range
MHz
45 .. 1000
CATV RF level (OMI=3.5%, opt. in =
-6.0 dBm)
dBµV
88
Hardware
Forward Rate
LEDs
Layer 2 Switching
Layer Routing
Security
WIFI
Store and Forward Switching Mechanism; Auto Crossover for MDI/MDI-X in TP Port
Auto Negoriation in TP Port; Half/Full Duplex Mode Operation
9K Bytes Jumbo Frame; 1K MAC Address Table; Priority Queues: 4 Queues
10M: 14,880/14,880pps; 100M: 148,800/148,800pps; 1000M:1,488,000/1,488,000pps
Power, Status, WAN, LAN1-4, Wi-Fi, WPS LED
ON/OFF Control Button
PPPoE Client; IEEE802.1p Priority/802.1Q Tag VLAN
QoS; Bandwidth Control; IGMP Snooping v1/v2
NAT/Bridge Hybrid Mode; RIP v1/v2*; DHCP Client & Server; DNS Client & DDNS; DMZ Host; IGMP Proxy
Firewall; Packet/URL Filter; VPN Pass Through (IPSec., PPTP, L2TP); Attack Detection & Blocking; Upn
Wireless AP Mode; IEEE 802.11n; WiFi Protected Setup(WPS)
64/128-bit WEP, WPA, WPA2 Data Encryption; MAC Access Control for WiFi Link
Network Management
IPv4/IPv6 dual stack; Stateless Address Auto configuration (SLAAC)
Web Management; Telnet CLI; SNMP Management / SNMP v1/v2c
DHCP Client / DHCP Auto Provision / DHCPv6
Power Down Trap; FTP/TFTP Firmware Upgrade
Loop Detection; Network Time Protocol (NTP)
Switch Features
Port Based VLAN; Q-in-Q Double Tag; IEEE802.1q Tag Based VLAN
Support 128 VLAN Groups; QoS Based on P-bit, VLAN & DSCP
Bandwidth Control; IGMP Snooping v1/v2
49
GPON
network with RF overlay (external service combiner)
GPON Network with RF-Overlay (external Service Combiner)
FDN50-WF
GPON OLT
Uplink
MNGMT
UPLINK Ports
1310/1490 nm
AOW-PON
AOSPLC
1550 nm &
1310/1490 nm
1
2
W
D
M
Splitting
W
D
M
1
2
1550 nm
FDN50-WD
1550 nm &
1310/1490 nm
W
D
M
N-port
Broadcast
N-1
N
W
D
M
OHPA
RF Out
1550 pass
CATV Receiver
(with Blockfilter)
8 Port GPON OLT GPON Ports
RF Out
1310/1490
pass
CATV Receiver
(with GPON pass)
W
D
M
N-1
N
1550 nm in
1
2
3
4
GPON
GPON
Splitting
GPON
GPON
1310/1490 nm
GPON ONU
(Data only)
W
D
M
Distribution HUB
(Multiport EDFA, GPON OLT and service combiner)
RF Out
GPON
To further service areas
Ethernet
GPON ONU
RF Out
Ethernet
GPON
Wifi
ONU-H660RW
GPON Network with RF-Overlay (internal Service Combiner)
GPON network with RF overlay (internal service combiner)
FDN50-WF
RF Out
1550 pass
CATV Receiver
GPON OLT
(with Blockfilter)
GPON Ports
MNGMT
Uplink
UPLINK Ports
AOSPLC
1310/1490 nm
1550 nm &
1310/1490 nm
OHPA -WDM
Broadcast
1550 nm in
FDN50-WD
1
2
1
2
N-1
N
Splitting
1550 nm &
1310/1490 nm
RF Out
1310/1490
pass
CATV Receiver
(with GPON pass)
1
2
3
4
GPON
GPON
Splitting
GPON
GPON
1310/1490 nm
N-1
N
GPON ONU
(Data only)
Distribution HUB
(Multiport EDFA with WDM, GPON OLT)
RF Out
GPON
To further service areas
Ethernet
GPON ONU
RF Out
Ethernet
GPON
Wifi
ONU-H660RW
50
PtP ethernet with RF overlay
RF-Overlay
SFU - CATV & Ethernet
Ethern.
Ethernet
Ethernet Switch
SFP 100/1000 Base-BX
Uplink-SFP
Uplink
SFU - CATV & Ethernet
AOSPLC
GPON ONU
Ethern.
1
2
OHPA
N-port
Wifi
Ethernet
N-1
N
Broadcast
1
2
1550nm in
N-1
N
Multiport EDFA
Splitter
1550nm
MDU - CATV & Ethernet
Distribution HUB
CATV receiver
Ethernet switch
51
52
Diese Doppelseite wird von Herrn Mundinger mit Leben gefüllt!
Was rein muss:
zz Hauptanwendungsgebiete (mit Anwendungsskizze)
zz besondere Alleinstellungsmerkmale der Geräte (falls vorhanden)
zz irgendwelche Qualitätskriterien (Garantieleistungen?)
zz FAQ-Rubrik mit häufig gestellten Fragen (siehe unten)
???
FAQ
53
COMPACT FTTH OPTICAL CATV RECEIVERS
with pass through port for GPON/EPON data
OFN50-WD
zz
nodes for termination of RF-Overlay broadcasting for
GPON/EPON or PtP networks; unidirectional
Networks for TV broadcasting; CATV network
service extension with GPON/EPON data service
(connected to the CATV receiver with pass through
port the ONU)
zz versions with GPON/EPON block or path trhough
filter which enables to receive CATV @ 1550 nm on
a data network
zz variable attenuator 20 dB to adjust RF output level
as desired
zz compact housing
zz very low noise current (highest picture quality on
low optical input levels)
OFN50-C
OFN50-WF
with blocking filter for GPON/EPON data
OFN50-C
Optical in
RF-Port
Optical Receiver
BLOCK DIAGRAM
OFN50-WF
1550nm
Optical in
RF-Port
Block Filter
Optical Receiver
OFN50-WD
1550nm
Optical in
W
D
M
RF-Port
Optical Receiver
54
1310nm/1490nm
GPON/EPON
Pass through
PON
Type
OFN50-C
Order number
EAN-Code
Optical node type
OFN50-WF
OFN50-WD
212 113
212 114
212 115
4026187192907
4026187192914
4026187192921
Optical compact receiver for CATV
Optical compact receiver with blocking Optical compact receiver with pass through
filter for GPON/EPON data
port for GPON/EPON data
[nm]
Optical input power
[dBm]
-10… +2
Optical return loss
[dB]
> 45
1100…1600
SC/APC
Fibre type
1530…1620
SC/APC
CATV: 1530 .. 1620
PON: 1310/1490
COM: SC/APC
PON: SC/PC
Single mode 9/125
RF characteristics
Frequency range
Flatness
RF level (OMI 3,5 %)
[MHz]
45…1006
[dB]
± 0,75
[dBµV]
≥ 78 @ -6 dBm
Output return loss
[dB]
> 14
Output Impedance
[Ω]
75
Manual RF adjustment
[dB]
0…-20
CSO for Cenelec 42
[dB]
> 60 @-6 dBm
CTB
[dB]
> 60 @-6 dBm
[pA/SQRT(Hz)]
4,5
[VDC]
12
Receiver Noise Current
Common data
Power plug
Housing
compact housing
Power consumption
[W]
≤3
Dimension (L x W x H)
[mm]
109 x 80 x 26
Ambient temperature
[°C]
-20…+55
55
COMPACT RECEIVERS FOR CATV
OFN100-F
zz nodes for deep fibre CATV, HFC and FTTH networks,
termination of RF-Overlay TV broadcasting for
GPON/EPON or PtP networks
zz frequency range 45 - 1006MHz
zz automatic adjustable gain control up to -9 dBm
optical input
OFN100-FS
with WDM pass through
OFN100-FW
with link redundancy
zz high RF output level due to GaAS powered double
amplifier stage
zz WDM option for GPON/EPON pass through
zz attenuation and equalizer setting via on board
display with push buttons
OFN100-FR-1310
receiver & return path transmitter
OFN100-FS
OFN100-F
Optical Receiver 1
Optical Receiver
Optical in
Optical in
RF-Port
BLOCK DIAGRAM
RF-Port
RF-Switch
Optical in
OFN100-FR
Optical Receiver 2
Optical Receiver
OFN100-FW
Optical in
H
Optical
Receiver
RF-Port
1550nm
L
Optical in
W
D
M
RF-Port
Optical Out 1
Laser
56
1310nm/1490nm
GPON/EPON
Pass through
WDM
option
Type
OFN100-F
Order number
212 116
EAN-Code
Optical node type
OFN100-FW
OFN100-FS
OFN100-FR-1310
212 117
212 118
212 119
4026187192938
4026187192945
4026187192952
4026187192969
Forward path only
Forward path with WDM
passthrough for G(E) PON
networks
Redundant forward path
Forward path with return
transmitter as described below
1100…1600
1530…1610
1100…1600
1100…1600
Optical input wavelength for CATV
[nm]
Optical input power
[dBm]
-9… +2
AGC range
[dB]
adjustable -9/-8/-7…+2
Optical return loss
[dB]
> 45
SC/APC; other on request
Fibre type
Single mode 9/125
RF characteristics
Frequency range
Flatness
Output return loss
[MHz]
45…1006
45…1006
[dB]
± 0,75
[dBµV]
≥ 102
[dB]
> 16
Output Impedance
[Ω]
75
Electronic control EQ range
[dB]
0…15
Electronic control ATT range
[dB]
0…15
RF testpoint
85…1006
85…1006
≤8
≤ 10
-20
Common data
Power supply
[VAC]
150…265
Chassis type
diecast housing
Power consumption
[W]
≤8
≤8
[mm]
190 x 110 x 52
Ambient temperature
[°C]
-40…+60
Relative humidity
[%]
maximum 95, non condensing
C/N
[nm]
≥ 51
CTB
[dBm]
≥ 60
CSO
[dB]
≥ 60
Link performance*
Return path (only OFN100-FR)
Optical wavelength
[nm]
[dBm]
-
-
-
1310 (CWDM on request)
-
-
-
0
Transmission mode
-
-
-
constant or burst mode
-
-
-
Fibre type
-
-
-
Single mode 9/125
5-65
Frequency range
[MHz]
-
-
-
Flatness in band
[dB]
-
-
-
±1
[dBµV]
-
-
-
75 - 85
[Ω]
-
-
-
75
RF input level
Impedance
*) Cenelec42, Link length 20 km@1550 nm, optical in 0dBm, AGC -9 dBm, RF output level 102 dBµV, EQ = 0
57
DIE-CAST HOUSING FIBRE NODES
OFN200-F
forward path only
zz node for deep fibre CATV & HFC networks; termina
tion of RF-overlay TV broadcasting for GPON/EPON
or PtP networks
zz frequency range 45 - 1006 MHz
zz automatic adjustable gain control
zz high RF output level due to GaAS power double
amplifier stage
zz WDM option for GPON/EPON pass through
zz optical link redundancy with optional second
RX/RF-switch
OFN200-FS
redundant forward path
OFN200-FR-1310
with pluggable return path
OFN200-FS
OFN200-F
Optical Receiver
Optical in
RF-Port
BLOCK DIAGRAM
Optical Receiver 1
Optical in
OFN200-FR
RF-Port
Optical Receiver
Optical in
H
L
Optical Out 1
Laser
58
RF-Switch
Optical in
RF-Port
Optical Receiver 2
WDM
option
Type
Order number
EAN-Code
Optical node type
OFN200-F
OFN200-FS
212 120
212 121
OFN200-FR-1310
212 122
4026187192976
4026187192983
4026187192990
Forward path only
(no pluggable return module)
(with RF swich, no pluggable return
module)
Forward path with pluggable
return module as described below
[nm]
Optical input power
[dBm]
1100…1600
-9… +2
AGC range
[dB]
Optical return loss
[dB]
> 45
Fibre type
Single mode 9/125
RF characteristics
Frequency range
Flatness
[MHz]
45…1006
45…1006
[dB]
± 0,75
[dBµV]
≥ 108
Output return loss
[dB]
> 16
Output Impedance
[Ω]
75
[dB]
0…15
[dB]
0…15
RF testpoint
[dB]
-20
[VAC]
Mains: 150…265; Remote: 35…90
85…1006
Common data
Power supply
Chassis type
diecast housing
Power consumption
[W]
≤ 14
≤ 14
[mm]
220 x 205 x 65
Ambient temperature
[°C]
-40…+60
C/N
[nm]
≥ 51
CTB
[dBm]
≥ 67
CSO
[dB]
≥ 62
≤ 30
Link performance*
Return path (only OFN200-FR)
Optical wavelength
[nm]
-
-
[dBm]
-
-
0
Transmission mode
-
-
-
-
Fibre type
-
-
Single mode 9/125
Frequency range
[MHz]
-
-
5-65
Flatness in band
[dB]
-
-
±1
[dBµV]
-
-
72 - 85
[Ω]
-
-
75
RF input level
Impedance
59
FIBRE NODE WITH REDUNDANT FORWARD AND RETURN PATH
OFN400-FR
zz Broadcasting and Docsis optical Fibre node for
CATV & HFC networks
zz frequency range 45 - 1006 MHz
zz 2 optical forward path receviers, redundant via
RF switch
zz 2 optical return path transmitters, segmentation
or redundancy feature
zz power supply redundancy
zz automatic adjustable gain control
zz high RF output level due to GaAS power double
amplifier stage
zz
flexible setting for 2 or 4 RF output ports
zz SNMP monitoring option
zz local compact CMTS (C-CMTS) interface
OFN400-FR
H
Optical In 1
RF-Port 1
L
Optical In 2
RF-Switch
H
BLOCK DIAGRAM
Optical Receiver
Segmentation
Option for one Output
RF-Port 2
L
Optical Out 1
Redundancy
H
RF-Port 3
Optical Out 2
L
Optical Transmitter
Single Return TX
H
RF-Port 4
Option for one Output
L
60
SNMP
option
Type
OFN400-FR
Order number
212 123
EAN-Code
4026187193003
Optical node type
2x2 full redundant 4 port fiber node
[nm]
1100…1600
Optical input power
[dBm]
-8… +2
AGC range
[dB]
Optical return loss
[dB]
> 45
Fibre type
Single mode 9/125
RF characteristics
Frequency range
[MHz]
87…1006
[dB]
± 0,75
[dBµV]
≥ 108 (4 Ports output)
≥ 112 (2 Ports output)
Output return loss
[dB]
> 16
Output Impedance
[Ω]
75
[dB]
0…15
[dB]
0…15
RF testpoint
[dB]
-20
[VAC]
redundant mains: 150 .. 250 or
redundant remote power: 35 .. 90
Flatness
Common data
Power supply
Chassis type
diecast housing
Power consumption
[W]
≤ 70
[mm]
360 x 330 x 155
Ambient temperature
[°C]
-40…+60
C/N
[nm]
≥ 51
CTB
[dBm]
≥ 60
CSO
[dB]
≥ 60
Link performance*
Return path (2 modules for redundancy or segmentation)
Optical wavelength
[nm]
[dBm]
@ 1310 nm: 0
Transmission mode
SC/APC other on request
Fibre type
Single mode fiber 9/125
Frequency range
[MHz]
5 - 65
Flatness in band
[dB]
±1
[dBµV]
72 - 85
[Ω]
75
RF input level
Impedance
61
Fibre Node application solutions
FTTB - Broadcast TV and IP to Metro Building over one fiber Service Area
FTTB - Broadcast TV and IP to metro building via one fibre
TV
Twisted pair or fiber
TV
Coax infrastructure
TV
TV
TV
TV
CATV 1550nm
Data 1490nm
Data 1310nm
1310/1490 DATA
OFN50-WD or OFN100-FW
DSLAM with fiber frontend,
or 1000BaseBX- Switch
or GPON ONU
Forward path redundancy with OFN100-FS or OFN200-FS
Forward Path Redundancy with OFN100-FS or OFN200-FS
service area
OFN100-RF / OFN200-FS
Coax
Forward path
TV broadcast
Forward path protection
Fiber domain
62
Coax domain Service Area 2
Fibre Node application solutions
FTTB - TV broadcast
+ DOCSIS
(CWDM
path)
FTTB – TV Broadcast
+ DOCSIS (CWDM
Return return
Path)
CATV:1310nm or 1550nm
H
Return: CWDM λ1
L
OFN200-FR
AOSPLC
1
2
Broadcast 1310/1550nm
H
Return: CWDM λ2
L
OFN200-FR
N-1
N
Splitter
AOCWDM
Data De-Multiplexer
1310nm
H
Return: CWDM λ3
L
OFN200-FR
CWDM
CWDM
N x Upstream
AOCWDM
Multiplexer
Data 1310nm
Data 1490nm
H
Return: CWDM λn
L
OFN200-FR
Forward
path
andReturn
returnChannel
ReturnSegmentation
channel segmentation
Forward
Pathredundancy
Redundancy and
with OFN400 with OFN400
service area 1
Fibre Node
OFN400
Forward path
Return - service area 1
Return - service area 2
H
L
H
L
TV broadcast & DOCSIS
H
L
H
L
service area 2
up to 4 high power coax outputs
flexible Return path concept
TV broadcast & DOCSIS
Fibre domain
Coax domain
63
Optical accessories
OPTICAL TERMINAL BOXES, ATTENUATORS
4 fibres, 2 splices
8 fibres, 8 pigtails
16 fibres, 16 pigtails
AOTB-0208
AOTB-0204
zz optical terminal closure for termination of fibres
zz wall mounted OTB for FTTH or fibre deep networks
zz termination of up to 4, 8 or 16 fibres for buildings,
apartments or single family units
zz industry standard fibre terminal boxes
zz AOTB-0204: 4 fibres / 2 splices / 2 pigtails with
coupler
zz AOTB-0208: 8 fibres drop with splices / 8 pigtails /
8 ports (available on request with optical 1 x 8 PLC
splitter built-in)
zz AOTB-0216: 16 fibres drop with splices / 16 pigtails
16 ports (available on request with optical 1 x 8 or
1 x 16 PLC splitter built-in)
zz wall mount with high impact plastic
Type
AOTB-0216
AOTB-0204
AOTB-0208
AOTB-0216
Order number
212 491
212 492
212 493
EAN-Code 4026187…
193386
193393
193409
4
8
16
Splice capacity with splice holder
Inlet ports
2
2 spliced pigtail outlets with SC/APC or SC/
PC coupler
Outlet ports
Color
Main body material
Installation type
8 patch cord outlets with rubber seal
16 patch cord outlets with rubber seal
ivory white
grey
grey
plastic (ABS)
plastic (ABS), anti-UV, waterproof
plastic (ABS), anti-UV, waterproof
wall mount
wall or pole mount
wall or pole mount
indoor
indoor/ outdoor
indoor/ outdoor
-
on request with pre installed PLC 1x8 splitter
on request with pre installed PLC 1x8 or 1x16
PLC splitter
Installation location
Miscellanious
different connector types available
AOA ...
zz optical attenuators
Type
Optical connector / coupler
AOA-xx-SCA
AOA-xx-SCP
AOA-xx-FCA
SC/APC
SC/PC
FC/APC
AOA-xx-FCP
AOA-xx-LCA
AOA-xx-LCP
FC/PC
LC/APC
LC/PC
Optical attenuation
[dB]
Wavelength
[nm]
1310/1550
Accuracy depending on ATT value
[dB]
1.. 9 dB: ± 0,5; 10 ..15 dB: ± 1,0
Maximum optical power
Ambient temperature
xx: 1.. 15
[mW/dBm]
500/27
[°C]
-25... +75
Please specify the desired attenuation (1..15 dB) in your order; example: AOA-10-SCA means 10 dB attenuation and SC/APC connectors
64
Optical accessories
OPTICAL QUICK CONNECTORS, ADAPTERS
SC/APC connectors
SC/PC connectors
AOFC-SCA
FC/PC connectors
AOFC-SCP
AOFC-FCP
zz field installable connectors without splicing
zz easy handling
zz pre-embedded fiber and pre polsihed ceramic
ferrule (APC or PC) for excellent optical performance
zz long and stable durabilty
zz fibres can be connectorized on-site without splicing
zz low insertion loss (typical ≤ 0,3 dB)
zz quick mounting process safes installation time
Type
AOFC-SCA
AOFC-SCP
AOFC-FCP
Order number
212 494
212 495
212 496
EAN-Code 4026187…
193416
193423
193430
optical fast connector SC/APC
optical fast connector SC/PC
optical fast connector FC/PC
SC/APC
SC/PC
FC/PC
Type
Connector type
single mode 9/125
single mode 9/125
single mode 9/125
Patch cord or drop cable diameter
Fiber type
mm
2,0 - 3,1
2,0 - 3,1
2,0 - 3,1
Typical insertion loss after installation
dB
≤ 0,3
≤ 0,3
≤ 0,3
Return loss
dB
≥ 55
≥ 50
≥ 50
different connector types available
AOC ...
zz optical adapters
Type
AOC-SCA
AOC-SCP
AOC-FCA
AOC-FCP
AOFC-LCA
AOC-LCP
212 410
212 411
212 412
212 413
212 414
212 415
EAN-Code 4026187…
193478
193485
193492
193508
193515
193522
Optical connector / coupler type
SC/APC
SC/PC
FC/APC
FC/PC
LC/APC
LC/PC
Order number
Insertion loss
[dB]
typical ≤ 0,2
Interchangeability
[dB]
≤ 0,2
Repeatabiltiy
[dB]
≤ 0,2
Mechanical durability
Ambient temperature
typical 500 connections
[°C]
-40 .. +80
65
Optical accessories
OPTICAL CLEANING TOOLS
cleaning cartridge
AOCC
zz optical cleaner for all kind of optical connectors or
couplers
zz for cleaning of optical patchcords and couplers
attached on device
zz AOCC: ribbon cleaner with more than 500 cleaning
cycles for any optical patchcord type
zz
AOCP-...: smart cleaning pens with more than 800
cleaning cycles for connectors and also coupler
ports attached on a device directly. Inner cleaning of
couplers ports when removing cap completely.
Connector / patch cord cleaning when removing
only the tip of the cap.
AOCP-125
AOCP-250
cleaning pen for LC and
MU surfaces
cleaning pen for SC, FC
and SC surfaces
Type
AOCC
AOCP-250
AOCP-125
Order number
212 497
212 498
212 499
EAN-Code 4026187…
193447
193454
193461
any optical Connector
SC, FC, MU, LC, ST, DIN, E2000
SC, FC and SC ferrules surfaces (also inside
optical coupler ports)
LC or MU ferrules surfaces (also inside optical
coupler ports)
any Patchcord
2,5
1,25
> 500
> 800
> 800
non-alcohol ribbon
non-alcohol micro thread, audible click when
cleaning done
non-alcohol micro thread, audible click when
cleaning done
Diameter of optical patchcords/
connectors ferrules
mm
Number of cleaning cycles
Method of cleaning
FTTH Toolcase
zz toolcase including:
zz optical power meter for wavelengths 1300 nm,
1310 nm, 1490 nm,1550 nm, optical level up to 24 dBm
zz red light source
Order number: ??? ???
EAN-Code: 4026187??????
66
zz fibre cleaver (Japan)
zz different sizes of stripping pliers
ASTRO - System provider for FTTH components
As a system provider ASTRO produces and sells a complete range of reception and distribution installations for satellite, cable and IPTV. We are the perfect partner for handling the versatile challenges, multimedia communication involves. We offer individual solutions on highest technological level for the complex
requirements in this future market.
With more than 65 years of experience in reception technology ASTRO is your competent partner.
More than just products
Consulting
Blueprint planning
Tell us about your demands for your project and
ASTRO will find out what technology suits your
needs best. Together we can evaluate the possible
solutions for your networks. New ideas as a result
of a close partnership between operator and supplier.
ASTRO supports integrators with its own planning
department that delivers software aided network
designs. Installers can be sure to be provided with
an optimized system, suitable for the required application.
Detailed planning
After-sale service
We provide complete optical budgeting and RF
budgeting for your project. You will receive a detailed offer that is exactly tailored to your needs.
In case of incidence we will help you quickly and
without hassle. We have the right contact person in
either case like technical support, RMA process or
other topics – we are contactable for you!
67
World-wide partners
Austria
Normann Engineering
4600 Wels
Tel: +43 7242 70 921-0
Fax: +43 7242 70 921-17
E-mail: [email protected]
www.normann.at
Australia
Hills Antenna & TV Systems
2210 Riverwood (Sydney)
Tel: +61 2 9717 5210
Fax: +61 2 9717 5209
E-mail:[email protected]
www.hillsantenna.com.au
Belarus
BELVIASAT Engineering
Minsk
+375-29-6831620
Tel: Fax: +375-17-269-93-42
www.engineering.belviasat.tv
Bosnia and Herzegovina
VERSO d.o.o.
71000 Sarajevo
+387 33 264 810
Tel: Fax: +387 33 264 811
Czech Republic
Katro Servis spol. s.r.o.
51301 Semily
+42 481 621 255
Tel: Fax: +42 481 625 453
www.katroservis.cz
Denmark
TELEDAN-WITRONIC A/S
2610 Radovre
7563 1199
Tel: Fax: 7563 1188
Egypt
Cablenet Egypt
Cairo
+(202) 240 23 451
Tel:
Fax:
+(202) 24011399
Netherlands
Hemmink B.V.
8013 PV Zwolle
Tel: +31 38 - 4698200
Fax: +31 38 - 4698210
www.hemmink.nl
Sweden
Antennlaget AB
350 03 Växjö
Tel: +46 470-70 91 90
Fax: +46 470-70 91 91
www.antennlaget.se
Norway
CableCom a.s
3202 Sandefjord
+47 33 48 33 48
Tel: Fax: +47 33 44 60 44/451
www.cablecom.no
Thailand
LEO Technology and Marketing
Nonthaburi 11000
+66 2926 1870-3
Tel: Fax:
+66 2924 6644
www.leotech.co.th
South-East Asia
ASTRO representation Asia
Tangerang 15321
Roland Würth
+62 21 537 6179
Tel: Fax:
+62 21 537 6179
Republic of Moldova
DIGIMAX
Kishinev
+373 22 536553
Tel: Fax: +373 22 522599
www.digimax.md
Turkey
PROAKTIF A.S.
34386 Okmeydani Istanbul
Tel: +90 212 320 09 80
Fax: +90 212 320 09 81
www.proaktif.com.tr
Kazahstan
ATTA GROUP
050012 Astana
Tel: +7 7172 345587
+7 7172 345587
Fax:
[email protected]
www.catv.kz
Russia
Kontur M
Moscow 129344
Tel: +7 495 2218188
Fax: +7 495 2218188
www.konturm.ru
Latvia
Vectrum
1021 Riga
00371 66117690
Tel: Fax: 00371 66117691
www.vectrum.eu
Serbia
SAT-TRAKT
24300 Backa Topola
+381 (0)24 712452
Tel: Fax: +381 (0)24 715761
Hungary
HFC Technics
Industrial Commercial & Service Ltd.
H-1044 Budapest
+36 1 273 1991
Tel: Fax: +36 1 273 1992
www.hfctechnics.hu
India
Novacom Digitronics PVT. LTD.
5000090 Hyderabad
Tel: +91 9550085599
Fax:
+91 4030995289
www.novacom.in
Lituania
ELPA IR PARTNERIAI UAB
Klaipeda LT-91203
+370 46 380 178
Tel: Fax:
+370 46 380 179
Email: [email protected]
www.elpa.lt
Ukraine
Mortelecom
65029 Odessa
+38 048 777-444-7
Tel:
Fax:
+38 (048) 7164022
www.mtk.com.ua
Southern Europe / Middle East / Africa
ASTRO Repres. Southern Europe /
Middle East / Africa
Motty Vigdor
+49 (0) 2204967129
Tel:
GUS / Baltikum
ASTRO Representation GUS / Baltic
States
Germann Geer
04105 Leipzig
Tel:
+49 341 / 9276491
Fax:
+49 341 / 9276492
Hong Kong
True Cosmos Development Ltd
Hong Kong
+852 28543377
Tel: Fax: +852 28543344
Version 05-2016
Estonia
MRF Baltic OÜ
Tallinn 13515
+372 59115560
Tel:
www.vectrum.eu

Optical transmission technology

Transcription

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