1
Exhibit 10.8.2
SUPPLEMENTAL AGREEMENT NR. 02
JOINT DEVELOPMENT AGREEMENT
PRODUCT: FEEDER PRODUCT
between
Xxxxx Corporation
Santa Clara, CA, USA
and
Italtel s.p.a
Milano -- Italy
2
This agreement is made
between
XXXXX CORPORATION, a Californian corporation
(hereinafter referred to as "Xxxxx")
and
Italtel s.p.a., an Italian corporation
(hereinafter referred to as "Italtel")
(Xxxxx and Italtel are also hereinafter referred to jointly
as "the Parties" and separately as "Party")
WITNESSETH
WHEREAS as of today the Parties entered into a Frame Agreement which
sets forth the general terms and conditions ruling their cooperation with
respect to the Products as defined in Article 1.02. of the Frame Agreement; and
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WHEREAS, pursuant to Article 3.02. of the Frame Agreement, the Parties
undertake to jointly develop the Feeder Product as hereinafter defined; and
WHEREAS, the Parties hereby intend to better define the specific rules
governing their cooperation with respect to the above mentioned Feeder Product.
NOW, THEREFORE, the Parties agree as follows:
DEFINITIONS
Frame Agreement: means the Agreement entered into between
the Parties as of today ruling their
cooperation with respect to the
Products, as defined in Article 1.02. of
such Frame Agreement
Xxxxx PMP Product: means the Xxxxx point - to - multipoint
product AIRSTAR, as defined in SA. nr.
0l
Feeder Product: has the same meaning of that referred to
in Article 1.04. of the Frame Agreement
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Feeder Market: has the same meaning of that referred to
in Article 1.05. of the Frame Agreement
Existing Information: has the same meaning of that referred to
in Article 1.09 of the Frame Agreement
Joint Developed Information: means the information which is jointly
originated by the Parties during the
Joint Development Program
Reference Market Price: has the same meaning of that referred to
in Article 1.08. of the Frame Agreement.
1. SCOPE OF WORK.
1.01. The Parties shall jointly develop on a non exclusive basis the
Feeder Product for the Feeder Market, the characteristics and specifications of
which are described in Annex 1 hereto.
1.02. Since the Feeder Product shall be developed by adapting and using
as a basis the Xxxxx PMP Product (AIRSTAR), in the event that third party's
software is used in the Xxxxx PMP Product, Xxxxx warrants to Italtel that such
third party's software is available on commercially
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reasonable terms and will not prejudice in any way Italtel rights under this
Supplemental Agreement.
Xxxxx will provide access to the third party's software at the same
price and conditions obtained by Xxxxx.
Xxxxx further warrants that it owns or has rights to all intellectual
property necessary for the development and manufacture of AirStar and the Feeder
Product, free and clear of any adverse claims of any third party.
1.03. In order to integrate the Feeder Product with the Network
Management Systems used by Italtel, Italtel will develop and manufacture for its
own exclusive use the necessary Interface Cards.
2. JOINT DEVELOPMENT PROGRAM.
2.01. The Parties shall carry out and complete the development
activities under this Supplemental Agreement in accordance with the Joint
Development Program, as better defined in 2.03. below.
The first release of the Feeder Product is targeted for July 1998.
2.02. The above mentioned development activities of the Feeder Product
shall be carried out under the guidance of the Committee - Product subdivision,
with participation of both Parties' R&D personnel.
2.03. The detailed Joint Development Program (including planned
development efforts and activities, development time schedule, list of Italtel
and Xxxxx information that may be
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useful or necessary for the carrying out of the activities, etc.) is hereto
attached under Annex 2.
From time to time the Joint Development Program will be updated to cover
product modifications, as required by the market, that will be authorised by the
Committee.
2.04. The Parties recognize that time to market is essential for the
success of the program; should the program suffer unexpected delays, the Parties
will promptly meet to identify remedies. Should the completion of the Joint
Development Program suffer - for reason not attributable to a Party - a delay
which is likely to prejudice the success of the Feeder Product in the market -
and should the Parties fail in good faith to identify appropriate remedies, then
either Party shall be entitled to withdraw from the Joint Development Programme
without incurring any liabilities towards the other Party.
3. CONTRIBUTION OF THE PARTIES.
The allocation of tasks, as defined by the Committee Product Subdivision
and approved by the Parties pursuant to Article 5.02.(a) of the Frame Agreement,
is that specified in Annex 2 hereto attached.
Each Party will bear the expenses associated with its own tasks.
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4. OWNERSHIP AND EXPLOITATION.
4.01. Each Party shall retain the ownership of its Existing Information.
Each Party shall license to the other Party the necessary information to enable
it to manufacture, modify and sell (under trade marks and logos of its own
choice) the Feeder Product within the Feeder Market; this will include the right
to have a third party manufacture the Feeder Product, provided that
manufacturing by anyone other than an Affiliate of Italtel will require the
consent of Xxxxx in the Committee, which consent will not be unreasonably
withheld.
The above mentioned licence shall be personal, irrevocable -- except if
terminated due to the licensed Party under Article 13.02 (a) or (b) of the Frame
Agreement-- non-transferrable, non-exclusive. Rights of each Party with respect
to Existing Information of the other Party after termination/expirat are
specified in Article 13.04 of the Frame Agreement.
4.02. Xxxxx and Italtel shall jointly and severally own the Joint
Developed Information, if any.
The right to use the Joint Developed Information outside the Feeder
Product by either Party must be approved by the Committee on a case by case
basis.
4.03. Italtel agrees not to exploit its manufacturing rights of the
Feeder Product until reaching a cumulative amount of [***] of Products
purchased from Xxxxx,
[***] CONFIDENTIAL TREATMENT REQUESTED
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unless Xxxxx fails to deliver to Italtel the Feeder Products according to the
mutually agreed plan.
5. SUPPLIES BY XXXXX TO ITALTEL.
5.01. During the period established in Article 4.03. above, Xxxxx
undertakes to supply the Feeder Product to Italtel according to the sales plan
mentioned in Article 6 hereto and upon the same terms and conditions established
in SA nr. 01 between the Parties.
5.02. After reaching [***] purchase level mentioned in Art.
4.03. Italtel is free to exploit its manufacturing rights hereunder, but will
continue to purchase from Xxxxx the following percentages of its requirements of
the Feeder Product:
Next 12 months [***]
Second 12 months [***]
Third 12 months and thereafter [***]
unless Xxxxx fails to deliver the Feeder Products according to the sales plan
and upon the same terms and conditions established in SA nr. 01 between the
Parties.
In addition, Xxxxx will continue to sell its proprietary components to
Italtel (such as ASICS) at reasonable and fair terms to be agreed by the
Parties.
5.03. On the Reference Market Price, as defined by the Committee,
applicable to the supplies of the Feeder Product
[***] CONFIDENTIAL TREATMENT REQUESTED
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from Xxxxx to Italtel, Xxxxx will grant the following discounts:
ANNUAL VOLUME/CALENDAR YEAR DISCOUNT
---------------------------------------------------------------
$ [***] (LEVEL 1) [***]%
$ [***] (LEVEL 2) [***]%
$ [***](LEVEL 3) [***]%
5.04. The above quantity discount matrix is based on, and applicable to,
the total volume of Feeder Products sold by Xxxxx to Italtel and/or its
Affiliates in a certain calendar year.
The initial discount for each calendar year will be that of level 2.
The Parties shall review the sales volume and forecast quarterly, and if
they show a clear trend towards different levels, the Parties shall meet to
finalize a compensation procedure to achieve the correct discount level on the
total sales volume of that specific calendar year.
As an exception to the above for the initial deliveries (1998), the
starting level will be level 1.
6. SALES PLAN.
6.01. Italtel shall define a sales plan of the Feeder Product sales
through the year 2000 divided in 6 months periods.
The initial version is attached hereto under Annex 3.
[***] CONFIDENTIAL TREATMENT REQUESTED
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7. PRODUCT NAME.
Each Party shall be free to use any tradenames or logos - at its own choice -
with respect to the Product.
8. TERMINATION This Agreement shall terminate in accordance with Article 13
of the Frame Agreement, and may be terminated by either Party in the event of a
material breach by the other Party that is not cured within 60 days.
9. MISCELLANEOUS.
A. Counterparts: This Supplemental Agreement shall be executed in two
counterparts, each of which will be deemed an original and both of which, taken
together, shall constitute the same document.
B. ISO-9000: Seller will promptly inform Buyer in the event Seller is no
longer certified under ISO-9000 standards.
XXXXX CORPORATION ITALTEL s.p.a.
--------------------------------------------------------------------------
/s/ Xxxxxx Xxx-Xxxxxx /s/ Italtel, s.p.a.
Date 11/19/97 Date Nov. 28, 0000
Xxxxx Xxxxxx Xxxxx Milano
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SUPPLEMENTAL AGREEMENT NR. 02.
LIST OF ANNEXES
ANNEX 1 FEEDER PRODUCT CHARATERISTIC AND SPECIFICATION
ANNEX 2 JOINT DEVELOPMENT PROGRAM AND TASKS
ALLOCATION
ANNEX 3 INITIAL SALES PLAN
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[LOGOS]
AIRSTAR
PMP FEEDER PRODUCT SPECIFICATIONS
Issue: 0.5 (Draft)
Date: Nov 21-1997
Document Number:
File: Feeder 0-5.doc
1-1
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Table of Contents
1.0 INTRODUCTION
1.1 Cover Sheet....................................................................1-1
1.2 Scope and Purpose..............................................................1-2
1.3 Publication History............................................................1-2
1.4 List of Illustrations..........................................................1-3
1.5 Tables.........................................................................1-4
1.6 Glossary.......................................................................1-5
2. BACKGROUND 2-7
2.1 The Building Blocks of a Wireless Mobile System................................2-7
2.2 AirStar vs. Feeder Network terminology.........................................2-8
3. SYSTEM SPECIFICATIONS ........................................................3-9
3.1 Traffic Transport Definition...................................................3-9
3.2 Total Capacity.................................................................3-9
3.3 Radio Performance.............................................................3-10
3.4 Terminal Station..............................................................3-13
3.5 Central Station...............................................................3-14
3.6 Central Station Release 1.....................................................3-15
3.7 Central Station Release 2.....................................................3-16
3.8 Building Blocks...............................................................3-17
3.8.1 CSC.................................................................3-17
3.8.2 SIC.................................................................3-18
3.9 Environmental.................................................................3-19
3.10 NMS..........................................................................3-19
3.11 Evolution....................................................................3-19
4. OPEN ISSUES .................................................................4-21
1.4 LIST OF ILLUSTRATIONS
FIGURE 2-1: FEEDER NETWORK BUILDING BLOCKS........................................2-8
FIGURE 3-1: CENTRAL STATION RELEASE 1 - REDUNDANT CONFIGURATION..................3-16
FIGURE 3-2: CENTRAL STATION RELEASE 2 - REDUNDANT CONFIGURATION..................3-17
FIGURE 3-3: CSC BLOCK DIAGRAM....................................................3-18
FIGURE 3-4: TERMINAL STATION DIGITAL CARD (SIC)..................................3-19
1-3
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1.5 TABLES
TABLE 2-I: AIRSTAR AND FEEDER PRODUCT TERMINOLOGY.................................2-8
TABLE 3-1: TRAFFIC TRANSPORT FUNCTIONS............................................3-9
TABLE 3-2: TRAFFIC CAPACITY OPTIONS...............................................3-9
TABLE 3-3: RADIO SPECIFICATIONS (26 GHZ).........................................3-10
TABLE 3-4: RADIO SPECIFICATIONS (10 GHZ).........................................3-12
TABLE 3-5: TERMINAL STATION......................................................3-14
1-4
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1.2 SCOPE AND PURPOSE
This document specifies a point to multipoint radio product for
micro-cellular feeder applications, such as GSM. This product is based on the
AirStar technology developed at Xxxxx. The building blocks of AirStar are
modified to provide a compact and cost effective solution for the Cellular
Feeder application.
1.3 PUBLICATION HISTORY
Issue Date Main changes
----- ---- ------------
0.1 9-14-97 First issue (draft)
0.2 9-15-97 Modified Draft
0.3 9-16-97 Modified Draft
0.4 10-08-97 Modified Draft
0.5 11-21-97 Added T1 to every El statement.
Changed CMU [***] to [***] ("pizza-box")
Changed CNU t o 2-channel, and added CTU for El
interfaces at the Central Station, thus [***] does
not include [***]
Added table for 10.5 GHz frequency band.
[***] CONFIDENTIAL TREATMENT REQUESTED
1-2
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1.6 GLOSSARY
Note: Xxxxx-specific terms use BOLD ITALIC characters. Xxxxx AirStar
terminology not used here is listed in (PARENTHESIS)
ASC Axis Shelf Controller (A Cisco Card)
ATM Asynchronous Transfer Mode
BMU Base Modem Unit, a CSS plug-in card
(BRU) Base Radio Unit (referred below as CRU)
(BSC) (Xxxxx) Base Station Controller (referred below as
CSC)
BSC (Cellular) Base Station Controller
CELLMAC Xxxxx MAC protocol for exchange of ATM cells
between
CMU Central Modem Unit (also called at Xxxxx BMU).
CRU Central Radio Unit (also called at Xxxxx BRU)
CSC Central Station Controller (also called at Xxxxx
BSC)
CS Central Station
CSS Central Station Shelf
El European digital line interface at 2.048 Mbps.
E3 European digital line interface at 34.368 Mbps.
ID Identification
IP Internet Protocol
LAN Local Area Network
LIU Line Interface Unit
MAC Media Access Control
Mbps Mega bits per second
MSU Multi-SIC-Unit converting to E1 or Tl (a double
SIC card interface)
MTBF Mean Time Between Failures
MTTR Mean Time To Repair
NMS Network Management System
RU Radio Unit
SAS Subscriber Access System (AirStar)
SIC Subscriber interface Card (inside SAS for Access
product)
SRU Subscriber Radio unit (AirStar)
ST Subscriber Terminal (AirStar)
STI Subscriber Terminal Identifier
TBD To be defined (later).
1-5
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TS Terminal Station (Equivalent to an ST but an
integral unit for the Feeder Application)
1-6
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2 BACKGROUND
2.1 THE BUILDING BLOCKS OF A WIRELESS MOBILE SYSTEM
A Mobile Feeder Network is a point to multipoint (PNP) microwave network
that interconnects digital traffic of mobile base stations to a mobile
base station controller.
The network main building blocks are depicted in Figure 2-1. A group of
mobile base stations serves GSM mobile telephones. The traffic is fed
via E1/T1 line to a Terminal Station (TS) which is realized as an
integral ODU equivalent to AirStar SAS+RU. Other TSs are located next to
other mobile base stations in the same geographical area served by a
central station sector antenna attached to a CRU (similar or identical
to AirStar BRU). One or more CRUs are attached by a coax to a Central
Station Shelf (CSS), the equivalent of an AirStar BSS).
The mobile traffic is delivered from the CSS to a mobile Base Station
Controller (not to be confused with the AirStar BSC) that is connected
to the Mobile Switching Center and the PSTN.
The CSS is a rack-mounted system consisting of a Central Sector
Controller (identical to AirStar BSC), and a Central Modem Unit (CMU),
which is similar to AirStar BMU, but includes also E1/T1 ports.
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[GRAPHIC]
FIGURE 2-1: FEEDER NETWORK BUILDING BLOCKS
2.2 AIRSTAR VS. FEEDER NETWORK TERMINOLOGY
Unfortunately, the term "Base Station" has different meanings in a mobile
network context and the AirStar system. To retain the mobile terminology, the
feeder network components are renamed, even if they are identical, as shown in
Table 2-1.
AirStar Feeder Network Equivalence
Base Station Shelf (BSS) Central Station Shelf (CSS) Similar
Base Station Controller (BSC) Central Station Controller (CSC)Same
Base Modem Unit (BMU) Central Modem Unit (CMU) Similar
Base Radio Unit (BRU) Central Radio Unit (CRU) Same
Subscriber Terminal (ST) Terminal Station (TS) Similar (TS is integral)
TABLE 2-1: AIRSTAR AND FEEDER PRODUCT TERMINOLOGY
2-8
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3. SYSTEM SPECIFICATIONS
3.1 TRAFFIC TRANSPORT DEFINITION
Each Mobile Base Station may require n = 2 to 31 64 kbit/s (DS0) channels. In a
GSM application, each channel consists of 4 x l6 kbit/s sub-channels, one of
which may be a "D" channel. The Feeder transports the nxDS0 channels
transparently, regardless of signaling content. Base Stations i and j may have
ni and nj channels, respectively, and in general, ni needs not be equal to nj.
The n channels are provided at the mobile base station as fractional E1/T1. Only
n out of the full line capacity is forwarded to the mobile BSC. The air
interface will transmit only the n provisioned channels but these provisioned
channels are always transmitted, whether active or not. The n channels need not
be contiguous. The n-channels are full duplex. These channels are delivered as
E1/T1 interfaces at the CSS to BSC interface, such that each E1/T1 line is an
aggregate of multiple base stations traffic. The mapping of DS0 channels is such
that all channels from one BS terminate in the same E1/T1.
The bandwidth provisioning is semi permanent. A change requires human
intervention via NMS and is considered to be an non-frequent event. A change in
capacity will interrupt the service for that particular mobile base station.
These specifications are summarized below.
Mobile Base Station Interface Single T1 or El (fractional)
# of DS0 transported 2 - 31
Bandwidth Allocation Provisioned via NMS
Minimum Capacity (7 MHz carrier, ETSI 4XE1 carrying up to 124 DS0 channels
application and 10 MHz FCC application)) 6xTl with 144 DS0 channels.
E1/T1 protection (at TS only) Lightning Protection
TABLE 3-1: TRAFFIC TRANSPORT FUNCTIONS
3.2 TOTAL CAPACITY
The capacity per sector has one of the following options (subject to several
release phases):
Total BSC Interfaces Modulation Scheme
4xE1/6xT1 4-QAM
8xE1/ l2xT1 4-QAM
8xE1/ l2xT1 16-QAM
l6xE1/24xT1 4-QAM
l6xE1/24xT1 16-QAM
TABLE 3-2: TRAFFIC CAPACITY OPTIONS
3-9
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3.3 RADIO PERFORMANCE
TABLE 3-3: RADIO SPECIFICATIONS (26 GHZ)
RANG. AND 5 KILOMETER RADIUS
AVAILABILITY (TYP) 99.995% AVAILABILITY (CCIR climatic Zone E, Northern
Europe)
RADIO UNIT AND ANTENNAS Base Station: The Base Station Radio is comprised of a
number of sectorized Radio Unit Arrays. Each sector
contains one or more Base Station Radio Unite (BRUs),
allowing modular capacity build-up and redundant
configuration of both radio and antennae. A choice of
high performance lens corrected horn antennae are
available with a -3~ beamwidth, as shown:
Horizontal Vertical # of Sectors
Beamwidth Beamwidth Gain Per Cell
--------- --------- ---- ------------
30~ 7~ 20 dBi 1 to 12
45~ 7~ 18 dBi 1 to 8
90~ 7~ 15 dBi 1 to 4
180~ 7~ 9 dBi 1 to 2
TERMINAL STATION TERMINAL: The subscriber radio unit is
comprised of an integral 105 mm diameter antenna.
Optional standard parabolic antennae may be used to
increase system range.
~ Integral:: High performance lens corrected horn, 28 dB
gain
~ Non-integral: 0.3 m at 35 dBi or 0.6 m at 41dBi
FREQUENCY RANGE DIGITALLY SYNTHESIZED, SOFTWARE CONTROLLED
~ 24.5 to 26.5 GHz
~ T/R Spacing = 1008 MHz
CHANNEL BANDWIDTH 7 MHz, optional 14 MHz and 28 MHz
MODULATION FORMAT CENTRAL STATION TO TERMINAL STATION: 4 QAM or 16 QAM,
TDM
TERMINAL STATION TO CENTRAL STATION: 4 QAM or 16 QAM,
TDMA
TRANSMIT POWER 4QAM 16QAM
CENTRAL STATION (TYP) [***] dBm (+2/-1 dB) [***] dBm (+2/-1 dB)
TERMINAL STATION (TYP) [***] dBm (+2/-1 dB) [***] dBm (+2/-1dB)
ATPC (AUTOMATIC TRANSMIT POWER CONTROL RANGE): 50 dB
RECEIVER RECEIVER SENSITIVITY:(BER=[***]) 4 QAM 16 QAM
Central Station: [***] dBm at 8 Mb/s [***] dBm at 16 Mb/s
Terminal Station: [***] dBm at 8 Mb/s [***] dBm at 16 Mb/s
RECEIVER SENSITIVITY: (BER=[***]) 4 QAM 00 XXX
Xxxxxxx Xxxxxxx: [***] dBm at 8 Mb/s [***] dBm at 16 Mb/s
Terminal Station [***] dBm at 8 Mb/s [***] dBm at 16 Mb/s
AIR INTERFACE Xxxxx'x CellMACTM protocol for wireless ATM, with
centralized traffic scheduling based on Xxxxx'x virtual
framer for ATM CBR traffic and virtual shaper for ATM
VBR traffic
SYSTEM CAPACITY CAPACITY PER SUBSCRIBER (7 MHz, full duplex, channel):
~ 4 QAM: 64 Kb/s to 8 Mb/s
~ 16 QAM: 64 Kb/s to 16 Mb/s
[***] CONFIDENTIAL TREATMENT REQUESTED
3-10
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INTERFACE TERMINAL STATIONS: CENTRAL STATIONS:
SPECIFICATIONS ~ E1/T1 and Fractional E1/T1 ~ E1/T1 and Fractional E1/T1
~ ISDN PRI ~ ISDN PRI
NETWORK MANAGEMENT Integral SNMP, for industry compatibility
Downloadable software, local and remote
Windows NT based
Performance measurement:: per G.821, G.826, and ITU-R
Rec 697-1
STANDARDS AND SYSTEM: ETSI prETS 300 431, BAPT 211 ZV, MPT 1420, prETS
REGULATORY TM4. ITU-R, RecF.749, x.731
COMPLIANCE EMC: CE Xxxx, CISPR 22, EN55022, EN50082-1 and 2, ETS
300 339 and 385 Traffic interface: XXX-X X.000, X.000,
X.000, G 823, I.431,CTR 12, TBR 13, IEEE 802.3
Mechanical and safety: IS09001, XXXX. XX Xxxx, XX 00000,
XX 00000, XXX 950 Environmental: ETS 300 019
ENVIRONMENTAL OPERATING TEMPERATURE, CENTRAL STATION
~ Indoor unit: 0~ C to +40~ C
~ Outdoor unit: -33~ C to +55~ C
OPERATING TEMPERATURE, TERMINAL STATION
~ Outdoor unit: -33~ C to +55~ C
RELATIVE HUMIDITY (INDOOR): 5-95%, NON-CONDENSING
ALTITUDE (SYSTEM): 0-4500 m
WIND LOADING: Operational: 145 km/hr; Survival: 200
km/hr
POWER INPUT VOLTAGE:
~ Terminal Station: -48 VDC/-24 VDC or 220 VAC, 50 Hz
~ Central station: -48 VDC/-24 VDC
Power consumption (typ):
~ Central station: 000 X
x Xxxxxxxx Xxxxxxx: 00 X
XXXXXXXXXX 1:1
MECHANICAL DIMENSIONS: HxWxD Weight
TERMINAL STATIONS: TBD 10 kg
CENTRAL STATION UNIT:
~ Indoor unit (BSS, incl. cooling) 44.4 cm x 48.3 cm x 50.8 cm 21.5 kg
~ Outdoor unit (BRU): 10 cm x 15 cm x 39 cm 6.0 kg
~
3-11
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TABLE 3-4: RADIO SPECIFICATIONS (10 GHZ)
RANGE AND 15 KILOMETER RADIUS
AVAILABILITY (TYP) 99.995% AVAILABILITY (CCIR CLIMATIC ZONE E, NORTHERN
EUROPE)
RADIO UNIT AND
ANTENNAS CENTRAL STATION: The Central Station Radio is comprised
of a number of sectorized Radio Unit Arrays. Each sector
contains one or more Central Station Radio Unite (CRUs),
allowing modular capacity build-up and redundant
configuration of both radio and antennae. A choice of
high performance lens corrected horn antennae are
available with a -3~ beamwidth, as shown:
Azimuth Elevation # of Sectors
Beamwidth Beamwidth Gain Per Cell
--------- --------- ---- --------
30~ 7~ 20 dBi 1 to 12
45~ 7~ 18 dBi 1 to 8
90~ 7~ 15 dBi 1 to 4
180~ 7~ 9 dBi 1 to 2
TERMINAL STATION: The subscriber radio unit is comprised
of an integral planar antenna with 26 dB gain.
FREQUENCY RANGE DIGITALLY SYNTHESIZED, SOFTWARE CONTROLLED
~ 10.15 to 10.65 GHz
~ T/R Spacing = 350 MHz
CHANNEL BANDWIDTH 7 MHz step size
MODULATION FORMAT CENTRAL STATION TO TERMINAL STATION: 4 QAM or 16 QAM,
TDM
TERMINAL STATION TO CENTRAL STATION: 4 QAM or 16 QAM,
TDMA
TRANSMIT POWER (TYP) 4 QAM 00 XXX
XXXXXXX XXXXXXX [***] dBm [***] dBm
TERMINAL STATION [***] dBm [***] dBm
ATPC (AUTOMATIC TRANSMIT POWER CONTROL RANGE): [***] dB
RECEIVER RECEIVER SENSITIVITY: (BER=[***]) 4 QAM 00 XXX
Xxxxxxx Xxxxxxx: [***] dBm at 8 Mb/s [***] dBm at 16 Mb/s
Terminal Station: [***] dBm at 8 Mb/s [***] dBm dBm at 16 Mb/s
AIR INTERFACE Xxxxx'x CellMACTM protocol for wireless ATM, with
centralized traffic scheduling based on Xxxxx'x virtual
framer for ATM CBR traffic and virtual shaper for ATM
VBR traffic
SYSTEM CAPACITY CAPACITY PER SUBSCRIBER (7 MHz, full duplex, channel):
~ 4 QAM: 64 Kb/s to 8 Mb/s
~ 16 QAM: 64 Kb/s to 16 Mb/s
INTERFACE TERMINAL STATIONS: Central Stations:
SPECIFICATIONS ~ E1 and Fractional E1 ~ E1 and Fractional E1
~ ISDN PRI ~ ISDN PRI
NETWORK MANAGEMENT Integral SNMP, for industry compatibility
Downloadable software, local and remote
Windows NT based
Performance measurement:: per G.821, G.826, and ITU-R
Rec 697-1
STANDARDS AND SYSTEM: ETSI prETS 300 431. BAPT 211 ZV, MPT 1420, prETS
REGULATORY TM4. ITU-R. RecF.749, x. 000
XXX: XX Xxxx. XXXXX 00, XX00000, EN50082-l and 2, ETS
300 339 and 385
[***] Confidential Treatment Requested
3-12
24
COMPLIANCE TRAFFIC INTERFACE: XXX-X X.000, X.000, X.000, X 823,
l.431, CTR 12, TBR 13, IEEE 802.3 MECHANICAL AND SAFETY:
1S09001, FQAA, CE Xxxx, EN 60950, EN 41003. IEC 950
ENVIRONMENTAL: ETX 300 019
ENVIRONMENTAL OPERATING TEMPERATURE, CENTRAL STATION
~ Indoor unit: 0~ C to +40~ C
~ Outdoor unit: -33~ C to +55~ C
OPERATING TEMPERATURE, TERMINAL STATION
~ Outdoor unit: -33~ C to +55~ C
RELATIVE HUMIDITY (INDOOR): 5-95%, non-condensing
ALTITUDE (SYSTEM): 0-4500 m
WIND LOADING: Operational: 145 km/hr; Survival: 200
km/hr
POWER INPUT VOLTAGE:
~ Terminal Station: -48 VDC/-24 VDC or 220 VAC, 50 Hz
~ Central station: -48 VDC/-24 VDC
POWER CONSUMPTION (TYP):
~ Central station: 000 X
x Xxxxxxxx Xxxxxxx: 00 X
XXXXXXXXXX 1:1
MECHANICAL DIMENSIONS: HxWxD Weight
---------- ----------- ----- ------
TERMINAL STATIONS: TBD 10 kg
CENTRAL STATION UNIT:
~ Indoor unit (BSS, incl. cooling) 44.4 cm x 48.3 cm x 50.8 cm 21.5 kg
~ Outdoor unit (BRU): 10 cm x 15 cm x 39 cm 6.0 kg
SAS TO SRU CONNECTION: LMR240, 0-100 m; LMR400, 0-300 m
3.4 TERMINAL STATION
The TS is an outdoor unit including the radio section and El/T1 interface. It is
equivalent to a single box containing the AirStar SRU and SAS, however only one
El/T1 is required as an interface. The El/T1 is lightning protected.
The TS includes the functions of the SAS digital card (Subscriber Interface
Card), excluding unneeded stuff options, but the card is modified to the outdoor
temperature range. It is TBD whether the SIC card will be used as-is or it will
be redesigned for a new form-factor.
The TS includes also the SAS modem card, which is de-stuffed for unneeded
functions, such as the coax multiplexer and telemetry (radio control) modem.
The rest of the TS is the SRU function, which includes most of the AirStar
modules unchanged. Two modules that can be slightly depopulated are the Radio
Unit Controller (RUC) and If module.
The TS will have an integral Lens-horn antenna compliant with ETSI for the 26
band, and an optional 390 mm parabolic-reflector antenna, that may use a
different TS enclosure than the lens-horn. For 10.5 GHz bands an ETSI-compliant
flat antenna will be used.
3-13
25
The polarization can be either vertical or horizontal. A field setting of
polarization is desired, but a factory setting is acceptable. The current
elongated shape of the SRU is desired to be maintained with the TS, although it
may be enlarged to accommodate the extra hardware.
No local craft interface is required, however the design will allow optional
RS-232 port. This port will be used for trouble shooting purpose, not for
configuration and not on a permanent basis.
The TS will have optional 1:1 protection switching option including switching of
the El/T1 port.
Mobile Base Station Interface: Single El/T1 (T1)
------------------------------ -----------------
Antenna: 125 mm lens-Horn. 390 mm parabolic option.
Flat antenna for 10.5 GHz band, dimension
of~200mmx200mm..
Frequency bands: 26 GHz, 10.5 GHz (two separate products)
Polarization: Vertical, Horizontal
Polarization Setting Factory or orientation (TBD)
TS mounting option for 10.5 GHZ band.
Local Xxxx XX-000, for temporary connection only
Redundancy: 1:1, El/T1 lines switched externally (likely
in battery switch unit)
Battery Backup: External, 30 minutes minimum.
Feeder Cable Shielded 2 x Twisted Pair + Power pair (TBD)
TABLE 3-5: TERMINAL STATION
A backup control unit will be developed to provide both battery backup and E1/T1
switching for the mobile base station.
3.5 CENTRAL STATION
The Central Station is located normally next to a mobile BSC. It provides access
at increments of 4xE1/T1. The main building blocks are;
Central Station Shelf (CSS) consisting of a card cage (identical to a Cisco Axis
Shelf), and including AC or DC redundant power supplies and fan-cooling shelves.
This card cage can host the CSC (identical to AirStar BSC) card.
The first generation CSC card has two channels, each supporting 4xE1/T1 payload.
The CSC uses one channel for communication with a modem unit (CMU) that is
attached to a CRU (identical to a BRU). The other channel in the CSC is
connected to a second port in the CMU. This port is converted to four local
El/T1 interfaces by a card identical to an existing SIC Card, via a digital
adapter ("Null Modem").
The CSC must redirect the wireless traffic to the local E1/T1 ports at the SIC
card. This is done by the ATM switching function of the CSC.
A local l0BaseT port is used for local craft and NMS access.
The CSC-CMU-CRU group is subject to 1:1 redundancy, and they can be switched
with the El/T1 lines. The El/T1 lines switching is XXX.
0-00
00
Xxx XXX is a rack mounted box. A future product release will allow to plug the
CMU directly to the CSS.
A co-located TMN adapter converts the l0BaseT SNMP traffic to CMIZE/Q3 traffic.
3.6 CENTRAL STATION RELEASE 1
The configuration of release 1 is depicted in Figure 3-1. It consists of the
following components:
A Cisco Axis Shelf (same as AirStar Access application, but used mostly as a
card cage),
Cisco ASC cards. The ASC card provides mass storage, synchronization and NMS
access. The ASC card will not be required in future releases that do not use the
Axis shelf.
A CSC card, Axis plug-in module, identical to the AirStar Access product, with 2
channels, each 8 Mbit/sec capacity. The CSC is further discussed below.
A CTU (Central terminal Unit), a rack mounted module for converting two BSC
channels to 8 El lines. The CTU is similar in function to two SAS units in the
Access product.
A CMU - a rack-mounted "pizza box" including [***]-channel RF modem. In release
1 [***] channel is in use per CCS card, however the other channel is available
foe a second BSC or for the future [***] CSC.
The CRU is the same 26 GHz product as the BRU in the Access project. It uses a
90~ antenna to cover a sector or a corner of a square cell.
Each CSC has a 10 Base T port for NMS access. Future releases will convert these
ports by extra hardware and software to a TMN interface.
A RS232 interface runs through the ch-2 port of the CSC to the CMU and from the
CSC to the CTU, thus the two CSC cards can communicate both via the 10 Base T
and they have control of the CMU and CRU for redundancy switching.
[***] CONFIDENTIAL TREATMENT REQUESTED
3-15
27
[GRAPHIC]
FIGURE 3-1: CENTRAL STATION RELEASE 1 - REDUNDANT CONFIGURATION
The building blocks are further discussed below.
3.7 CENTRAL STATION RELEASE 2
3-16
28
[GRAPHIC]
FIGURE 3-2: CENTRAL STATION RELEASE 2 - REDUNDANT CONFIGURATION
The main differences in release 2:
The CSC is replaced by an identical function that does not require an Axis shelf
and an ASC card. The new unit is rack mounted, has [***]) and is called BUNI
(for Base-User Network Interface). The BUNI also includes a port for fast
redundancy switch using the direct port.
Subsequent BUNI and CMU releases will also support 16 QAM.
3.8 BUILDING BLOCKS
3.8.1 CSC
[***] CONFIDENTIAL TREATMENT REQUESTED
3-17
29
[GRAPHIC]
FIGURE 3-3: CSC BLOCK DIAGRAM
The CSC includes some functions that are not necessary for the feeder
application. Over time, these functions will be de-stuffed for cost reduction.
The main elements are:
CellMAC Controller for controlling the MAC air interface (including framing,
FEC, timing).
Request Grant Processor for coordinating the air interface activities.
ATM Cross connect for switching local traffic and user traffic.
A CPU, PCI interface and l0Base T interfaces.
3.8.2 SIC
3-18
30
[GRAPHIC]
FIGURE 3-4 TERMINAL STATION DIGITAL CARD (SIC)
While there will be several versions of the SIC card, the above \block diagram
depicts the typical implementation.
CellMAC ASIC controls the MAC layer, scrambling, REC and ATM conversion (AAL1
and AAL5).
A CPU control the system, running the VX-Works operating system, local
configuration, MAC management and the SNPM agent.
Four E1/T1 or T1 (stuff options) provide the line interfaces.
Two serial ports provide a test port and a telemetry port controlling the radio.
The modem interface includes data/clock lines and a control bus.
3.9 ENVIRONMENTAL
See Table 3-3.
3.10 NMS
See Table 3-3. Italtel will provide a QAD board for NMS integration. Integration
[***] must be considered for cost reduction.
3.11 EVOLUTION
The product will evolve in capacity, national standards, and frequency bands.
[***] CONFIDENTIAL TREATMENT REQUESTED
3-19
31
The evolutionary steps are:
The CSC release 1 is 2 channel 4-QAM for 0 XXx (XXXX) xxx 00 XXx (XXX) channel
spacing. Release 2 is 4 channel, 00 XXX 0 XXx (XXXX) xxx 00 XXx (XXX). The CSC
is changed to a rack mounted BUNI.
the CRU and TS release 1 are 26 GHz band. Future release is for 10.5 GHz channel
and US bands (TBD).
The CMU is a [***], [***], Pizza box, [***] QAM. It will evolve to a Dual [***]
QAM modem BMU card, and a SMU card (dual [***]) in release 2.
[***] CONFIDENTIAL TREATMENT REQUESTED
3-20
32
SANR2 - ANNEX 2
XXXXX/ITALTEL WORK SPLIT
1. Italtel is prime on NMS integration, with Xxxxx providing technical
support, HW and SW specifications, in order to integrate the interface cards in
the system.
2. Xxxxx is prime on SS/SRU and BMU/SAS specified modifications and
integration with Italtel providing technical support.
3. Italtel is prime on all external additional hardware related to power
and any functionality required to provide redundancy. Xxxxx will provide
technical support.
NOTES:
1. Both companies will cooperate on product specifications
2. Xxxxx will develop product documentation
3. Both companies will cooperate on system integration and
qualification/test activities
33
4. OPEN ISSUES
1. Hot Standby Switch time of <50 ms may not be feasible. However release 2
will incorporate switch-over mechanism with average switch time <50 ms.
2. LCT at the TS, is it needed? Probably for prototype products only.
3. Are AIS and LOS and loss of frame sufficient indications of E1/T1 switch
over at the TS? Probably yes.
4. Redundancy arrangements of the CS.
5. Wide-mouth power supply 16-72 V.
6. Define polarization setting method.
7. E1/T1 will be 120 (OMEGA) balanced. Will 75 (OMEGA) interface be
required too?
8. Does the CSS require an ASC to operate? How will reference be derived
from E1/T1s?
9. How will large antenna option be provided
10. USA frequency band and bit rate definitions.
11. Battery and redundancy switching at the TS.
Some of these issues have been further discussed in Italtel Requirements
document of 5 November 1995.
4-21
34
SANR 2 - ANNEX 2
FEEDER PRODUCT - MILESTONE SUMMARY
END OF LIMITED
RELEASE CONTENT PROTOTYPE VALIDATION AVAILABILITY GA
---------------- ------------------ --------------- -------------- --------------- --------------
RLS1 00 XXx Xxx-00 Xxxx-00 Xxx-00 Xxx-00
0X0 0XXX
Link Explorer
XXX0 00XXx/00XXx Aug-98 Sep-98 Xxx-00 Xxx-00
0X0/0X0
0XXX, XX
Xxxxxxxxxx for
Subscriber
terminals
RLS2.1 Italtel NMS Nov-98 Dec-98
integration
RLS3 10GHz/26GHz Nov-98 Dec-98 Jan-99 Feb-99
4QAM/16QAM
4E1/8E1
RLS3.1 Italtel NMS Feb-99 Mar-99
integration
Notes:
1. Prototype milestones based on unreleased hardware and can be used for
Demos
2. End of validation also includes availability of Field Trial Equipment
3. Limited availability: Product is released but quantities are limited
4. GA: Product is generally available
5. T1 version and milestones will be defined within first half of 1998
35
ANNEX 3
TO SUPPLEMENTAL AGREEMENT NR.02
INITIAL SALES PLAN
PRELIMINARY SALES PLAN
POINT TO MULTIPOINT RADIO FOR FEEDER APPLICATIONS
1998 1999 2000
---------------- ----------------- -----------------
1~ sem 2~ sem 1~ sem 2~ sem 1~ sem 2~ sem
Assumption:
Market Price (US$) [***] [***] [***] [***] [***]
QUANTITY Trial, Pilots TBD
Deliveries [***] [***] [***] [***]
SALES (KUS$)Trial, Pilots [***]
Deliveries [***] [***] [***] [***]
TOTAL SALES [***] [***] [***]
Transfer price (US$) [***] [***] [***] [***] [***]
Purchase from Xxxxx [***] [***] [***] [***] [***]
(KUS$) [***] [***] [***]
[***] CONFIDENTIAL TREATMENT REQUESTED