TECHNICAL SPECIFICATIONS - Supreme Court of Pakistanfab.gov.pk/uploads/tender/Section-6Technical...
Transcript of TECHNICAL SPECIFICATIONS - Supreme Court of Pakistanfab.gov.pk/uploads/tender/Section-6Technical...
Section VI, Technical Specifications Copy No.
NFMMS-55/2016 FAB NFMMS Project
52
SECTION-VI
TECHNICAL SPECIFICATIONS
Section VI, Technical Specifications Copy No.
NFMMS-55/2016 FAB NFMMS Project
53
TECHNICAL SPECIFICATIONS
Table of Clauses
PART- A
General Information and Requirements
1. Introduction 55
2. FAB Organization 55
3. Existing NFMMS Architecture 55
4. Principal Tasks of the NFMMS 58
5. Scope of the work and Project Requirements 58
6. Work Program 60
7. Applicable Standards 60
8. Evidence of Compliance 61
9. Maintenance Support and Mandatory Spare Parts 62
10. Monitoring systems General Requirement 62
11. Requirements Applicable to the Project as a Whole 65
12. Acceptance Criteria 66
13. Training 67
14. Operational and Maintenance Manuals 67
PART- B
Details Specifications
1. Introduction 68
2. Portable/Handheld Direction Finder 68
3. Upgrade of Existing Receivers 72
4. Mobile Radio Scanner 73
5. Upgrade of Existing Scanners 82
6. Suppliers Requirements 82
Section VI, Technical Specifications Copy No.
NFMMS-55/2016 FAB NFMMS Project
54
TECHNICAL SPECIFICATIONS
Table of Clauses
TABLE
Table 1
ITU-R Recommendations of Monitoring Functions 61
FIGURES
Figure 1
Existing NFMMS Architecture 56
Figure 2
Flow Chart of Software tools accessing the database 57
Figure 3
Network Layout of Existing NFMMS 58
ATTACHMENTS
Attachment 1
Bill of Quantities (BOQ) 84
Section VI, Technical Specifications Copy No.
NFMMS-55/2016 FAB NFMMS Project
55
GENERAL REQUIREMENTS AND INFORMATION
1. Introduction
1.1 Part A: of this Section describes general information about existing system
and requirements for the project. Part B contains detailed specifications for the
main system components required under the contract.
1.2 The Bidder shall submit a commentary on the Technical Specifications and
adequate evidence demonstrating the substantial responsiveness of the
facilities to these specifications. Therefore, the Bidder shall provide comments
and information on each requirement and specification in this section,
preferably in a matrix form
2. FAB Organization
2.1 After passing of Pakistan Telecommunication Re-organization Act, 1996, two
separate entities have emerged, namely the Pakistan Telecommunication
Authority (PTA) and the Frequency Allocation Board (FAB).
2.2 FAB was established under section 42 of the Pakistan Telecommunication
(Re-organization) Act, 1996. Under section 43 of the act the FAB has
exclusive authority to allocate and assign portions of the radio frequency
spectrum, provision of telecommunication services and telecommunication
systems, radio and television broadcasting operations to the Government
agencies, public and private wireless operators and others.
2.3 In order to fulfill its obligations, FAB desires to extend its capability of
frequency monitoring range and the coverage area, expanding the existing
National Frequency Management & Monitoring System (NFMMS).
3. Existing National Frequency Management and Monitoring System (NFMMS)
Architecture
3.1 The NFMMS was established in 2001 and was made operational in 2002.
FAB is responsible for the operation and maintenance of NFMMS which
includes: -
a. Two (02) MF/HF Monitoring Stations (10 KHz-30MHz)
b. Seven (07) VHF/UHF Fixed Monitoring Stations (20 MHz-3GHz)
c. Ten (10) VHF/UHF Mobile Monitoring Systems (20 MHz-3 GHz)
d. One (01) VHF/UHF Mobile Monitoring System (20 MHz -26.5 GHz)
e. One (01) Mobile Microwave Monitoring System (400 MHz-18 GHz)
f. Two (02) Mobile Microwave Monitoring System (850 MHz – 40 GHz)
g. National Control Centre (NCC)
3.2 The architecture of existing NFMMS is shown in fig-1.
Section VI, Technical Specifications Copy No.
NFMMS-55/2016 FAB NFMMS Project
56
(Figure 1 Existing NFMMS Architecture)
3.3 All the Fixed / Mobile Monitoring Stations are fully accessible and
controllable through specialized software applications on LAN/WAN from
NCC, performing following main functions: -
a. Import of transmitter licensee data from NCC to Monitoring Station
b. Export of monitored data from Monitoring Stations to NCC
c. Operate and control Monitoring Station remotely from NCC
3.4 Both Fixed and Mobile Monitoring Stations are capable to operate the other
way, manually or remotely.
3.5 Diagrammatic flowchart of the functioning of software tools for complete
integration between Monitoring Stations and Spectrum Management System is
shown in Fig-2.
(NCC) (FAB Headquarters Islamabad)
Section VI, Technical Specifications Copy No.
NFMMS-55/2016 FAB NFMMS Project
57
CONFIGURATION BETWEEN SPECTRUM MANAGEMENT / DATABASE
AND MONITORING SOFTWARE TOOLS OF NFMMS
(Fig.2 Flowchart of Software tools accessing the database)
3.6 The network diagram of existing NFMMS is show in fig-3.
SPECTRAplus (LS Telcom)
Tools DATA
Tools TOOLS
(LS Telcom) - Analysis
- Interference
-Other Technical Aspects
DATA
(LS Telcom)
MONITORplus
ArgusMon/
ArgusEval (Rohde & Schwarz)
MONITORING STATION (Fixed/Mobile)
NETWORK
Import
Export
NATIONAL CONTROL CENTRE
Section VI, Technical Specifications Copy No.
NFMMS-55/2016 FAB NFMMS Project
58
Fig.3: Network Layout of Existing NFMMS
4. Principal Tasks of the NFMMS
4.1 In broad terms, the principal tasks of the National Frequency Management and
Monitoring System specifically regarding Monitoring part are: -
a. Supervision of the radio traffic in general
b. Spectrum Occupancy Measurements
c. Measurement of technical parameters, such as frequency, modulation,
bandwidth, field strength and radiation pattern for compliance with license
conditions
d. Determination of infringements
e. Triangulation, Homing and location of radio transmitters
f. Interference analysis and its resolution
g. Direction Finding
h. Manual and Automated measurements and scanning
j. Comparison of measured data with licensed data or parameters in NCC
database.
k. Gathering of statistical data for frequency management purposes
5. Scope of the Work and Project Requirements
5.1 The main scope of work includes turn key responsibility for the design, supply,
installation, operation, testing, support, warranty and maintenance for the
Monitoring Systems required under the project.
Section VI, Technical Specifications Copy No.
NFMMS-55/2016 FAB NFMMS Project
59
5.2 The Bidders shall offer following Radio Monitoring Systems including
hardware and software for spectrum monitoring and Direction Finding: -
a. Three (03) VHF/UHF Portable Monitoring Systems with Direction Finding
capability.
b. Two (02) Specialized Network Scanner.
c. Operation services for the systems.
d. Operator level maintenance manuals.
e. Staff training on basic trouble shooting of the system.
f. Operations and maintenance assistance during the initial twelve (12)
months of operation.
g. Spare parts support for 10 years after contract (First party equipment only)
h. Upgrade / Integration with existing system.
j. Supply & Commissioning of offered systems
k. SAT (pre-shipment inspection) of the offered system
l. Local warranty support & operational support after warranty (Chargeable).
m. Up gradation (hardware/ software /firmware as required) of existing
portable Handheld Receivers and Mobile Radio Scanners.
n. Associated software/drivers/tools & accessories for operation of equipment.
o. User Manuals.
p. Local Trials and demonstration of offered systems
5.3 The Bidders shall tender according to the system specifications and
configuration described in this Section. A different configuration with only
those modifications which will bring improvements to the system's
performance will be considered. The bidders shall describe in detail the
improvements and capabilities.
5.4 The cost of the following locally available facilities, whose maintenance and
spare parts services must be available countrywide, shall be quoted by the
Bidders as part of the Project. The Employer may decide acquiring them
locally from different contractors:-
a. Computers / Laptops and associated accessories (i.e., keyboard, mouse,
monitor, printer, etc).
b. Networking Equipment (i.e, Router, Modems, etc.).
Section VI, Technical Specifications Copy No.
NFMMS-55/2016 FAB NFMMS Project
60
5.5 The price quoted by the Bidders for the above mentioned facilities will be
included in bid evaluation. The bids shall include detailed information e.g.,
computer specifications etc required, so that the Employer can acquire
compatible equipment locally, that can be fully integrated to the system
supplied by the Contractor.
5.6 Bill of Quantities (BOQ)
The BOQ included in Attachment-1 indicates the minimum quantities that
shall be quoted by the Bidders. Where no quantities have been specified, this
attachment is only indicative and the Bidders shall offer the required
quantities according to their system design. Furthermore, the Bidders shall
provide unit prices in the Price Schedule, which include all the systems,
components, spare parts, accessories, services, etc. required for the Project
even if they are not mentioned in the BOQ. (See ITB-11: Bid Prices).
6. Work Program
6.1 The time to complete the contract is specified in the Bid Data Sheet,
ITB 24.5 (b). No credit will be given for earlier completion and bids offering a
completion date beyond the maximum designated period shall be rejected.
6.2 Within fifteen (15) days after the date of signing the Contract, the Contractor
shall prepare and submit a detailed program of performance of the Contract.
This program shall also identify all the implementation events and activities in
such a way that the flow of payments subject to measurement of the work
performed can be scheduled with reasonable exactitude.
7. Applicable Standards
7.1 As stated in ITB-9.2 (d)(iii), the standards for workmanship, materials, and
equipment designated in these Technical Specifications are intended to be
descriptive (establishing standards of quality and performance) only and not
restrictive. The Bidder may substitute standards, provided that it demonstrates
in its bid that the substitutions are substantially equivalent or superior to the
standards designated herein.
Section VI, Technical Specifications Copy No.
NFMMS-55/2016 FAB NFMMS Project
61
Table 1 ITU-R Recommendations for Monitoring Functions
No Function ITU-R Recommendations
1. Signal Parameter Measurement
1.1 Frequency and Frequency Offset ITU-R Rec. SM 377
ITU-R Rep. 272
1.2 Field Strength ITU-R Rec. SM 378
ITU-R Rep. 273-7
1.3 Modulation ITU-R Rep. 277
1.4 Bandwidth ITU-R SM 328
ITU-R Rec. 443
1.5 Identification ITU-R Rep. 978
2. Spectrum Occupancy
2.1 Band (Channel) Occupancy ITU-R Rec. 182
ITU-R Rep. 668-3
3. Direction Finding and Location
3.1 Direction Finding and Location ITU-R Rec. 372-6
ITU Spectrum Monitoring Hand book
7.3 The system shall be designed with a modular architecture and shall use the
latest technology. The Bidders shall describe how the proposed systems
anticipate future needs regarding the enhancement in frequency range,
growing use of digital modulated signals and new technologies.
8. Evidence of Compliance
8.1 As specified in ITB-9.2 (d), the documentary evidence to be submitted with
the bids shall consist of: -
a. A certificate of origin of the plant and equipment offered.
b. A detailed description of the essential technical and performance
characteristics of the facilities.
c. A commentary of the Employer's Technical Specifications and adequate
evidence demonstrating the substantial responsiveness of the Facilities to
those specifications.
d. A list giving full particulars, including available sources, of all spare
parts, special tools, etc., necessary for the proper and continuing
functioning of the Facilities for the period named in the Bid Data Sheet,
following completion of facilities.
e. The documentary evidence of the conformity of the facilities to the
bidding documents may be in the form of literature, drawings and data.
Section VI, Technical Specifications Copy No.
NFMMS-55/2016 FAB NFMMS Project
62
9. Maintenance Support and Mandatory Spare Parts
9.1 Maintenance and warranty services for initial one year after commissioning
and operation shall comprise of replacement/repair of defected hardware
elements, components, subsystems or system and configuration /
troubleshooting of software. Any spare parts used during the Defect Liability
Period due to causes different from: -
a. Improper operation or maintenance of the equipment by the Employer, or
b. Operation of the equipment outside specifications provided in the Contract
shall be replaced by the Contractor.
10. Monitoring System General Requirements
10.1 Monitoring System Basic content
10.1.1 The monitoring network shall be led by the NCC that manages the
network through specialized application software and set-up
monitoring strategy and monitoring task plans.
10.1.2 The MS shall perform spectrum monitoring and direction finding
activities through monitoring stations.
10.1.3 The MS shall allow for getting information from the real environment
and constitutes data/reports for further transmission / processing at
NCC, which consists of the spectrum management activity.
10.2. Generic MS features
10.2.1 The monitoring systems shall provide the generic monitoring features
including, but not limited to, the following: -
a. Graphical Display formats.
b. Event Reporting
10.3 MS General Functional requirements:
a. Spectrum occupancy scanning
b. Signal parameter measurement
c. Direction finding
d. Triangulation and transmitter location
e. Audio recording
g. Manual/Automatic measurements/ scan.
Section VI, Technical Specifications Copy No.
NFMMS-55/2016 FAB NFMMS Project
63
10.4 Detailed Functional Requirements of Monitoring Systems
10.4.1 VHF/UHF portable Handheld and Monitoring System.
Portable Monitoring System will consist of compact and handy
equipment to Handheld Monitoring System will consist: -
a. Monitoring of spectrum in the range 20 MHz to 18 GHz or more
will be preferred.
b. Direction Finding antennas, Directional and Omni directional
antenna with built-in GPS and compass.
c. Should be capable of plotting bearing results on built in maps
stored and displayed on the handheld receiver.
d. Should be able to import maps in various world leading maps
format for offline use.
e. Measurement of technical parameters of radio transmission
f. Direction Finding / homing of transmitter using handheld antennas
with build-in GPS and Compass.
g. Scanning of spectrum for occupancy and interference analysis with
variable resolution bandwidths
h. Internal Recording/storage and export of monitoring data/audio/IQ
data/scans for post processing and analysis
j. Battery time with at least 2 hours per battery pack.
k. Linkup all intercepts information to the central database.
10.5. MS Application Software facilities
10.5.1 General Requirements for Software
a. The MS application software shall utilize a proven set of basic
monitoring system applications.
b. It is preferable that the software modules be able to provide for
customization to a certain extent by the Employer, where
necessary, to accommodate the need for particular formats on
specific reports and screens.
c. Display direction finding and triangulation task results on digital
maps (available to the Employer).
d. Reset of the monitoring system / unit computer system.
e. Capability to export measurement data into common formats such
as XML/MS Excel/ASCH etc.
f. The MS Application Program shall incorporate user-friendly
features to enable the staff to utilize the MS easily and without
requiring knowledge of the MS application software details.
g. Local display and storage of results / reports of monitoring activity.
Section VI, Technical Specifications Copy No.
NFMMS-55/2016 FAB NFMMS Project
64
Transfer the results / reports to database.
h. These user-friendly features shall include or provide for, but not be
limited to:-
(i) Consistent program "look and feel".
(ii) Process designed for intuitive navigation between related
screens.
(iii) Consistent screen layouts in Graphical User Interface
(GUI) format with pull down menus and point-and-click
selection, designed generally in accordance with the
Microsoft User Interface Style Guide or equivalent.
(iv) Self-explanatory "Help windows" on screen.
(v) Step by step explanation on the most common, typical,
measurement tasks possible to perform through spectrum
monitoring facilities and how to perform them with the system.
k. The MS Application Software shall include security features to
ensure that only properly authorized personnel may:-
(i) Access the MS Application Program.
(ii) Utilize the MS Application Program.
(iii) Access and / or change data in the (MS, SMS) database.
l. Local display and storage of results/reports of monitoring activity.
Transfer the results / reports to NCC.
m. The Bidders shall clearly describe the reporting capabilities
provided with the MS Application Software.
n. User friendly help menu/manual
10.5.2 Display Format:
10.5.2.1 The MS application software shall provide graphical display
formats which include but are not limited to the following: -
a. Spectrum occupancy: -
(i) Counts (hits) versus signal level,
(ii) Percent occupancy (in a sampling set) versus time,
(iii) Percent occupancy (in a sampling set) versus
frequency,
(iv) Percent occupancy (in a sampling set) versus signal
level,
(v) Signal level versus time,
(vi) Hold time (in seconds) versus time for a limited
number of channels.
b. Signal parameter measurement:
Section VI, Technical Specifications Copy No.
NFMMS-55/2016 FAB NFMMS Project
65
(i) Time domain (e.g. field strength for one frequency,
frequency for one station, etc, Direction of Arrival -
DOA in azimuth for one radio source, etc),
(ii) Frequency domain (e.g. field strength for a scanned
band, etc),
(iii) waterfall display.
c. Direction finding:
(i) Signal bearing should viable as polar plot and also on
digital map.
(ii) Signal bearing triangulation plot on digital map
(iii) Should be capable of plotting bearing results on built in
maps stored and displayed on the handled receiver.
10.5.2.2 The displays and graphical representations should be possible
to store and export as images. The results, in tabular format,
based on which the representations have been built up should
be possible to store and export files for integration with
existing system.
11. Requirements Applicable To the Project As a Whole
11.1 The degree of standardization of parts and components of the entire system
shall be as high as possible: -
(a) The system shall provide optimized results in terms of cost and
performance evaluation.
(b) All system components, which are designed, procured, implemented and
commissioned.
(i) Equipment of latest version
(ii) State of art production
(iii) Off the shelf technology
(iv) Fixed Provision
(v) Flexible
(vi) Expand able
(vii) Sufficient
(viii) Integrated with each other
11.6 Conceived AC Power Supply
The power source for all electrical equipment / shall be single phase 220 VAC
+ 15%, 50 Hz.
11.7 Quality Assurance
Each bidder shall provide is its bid a description of the quality, assurance
program already in place within the Bidders company, the duration of the
time that such progress has been active and a certification that the same
progress will be applicable to the hardware, software and services provided to
the Employer in the event of a contract avoid for this system.
Section VI, Technical Specifications Copy No.
NFMMS-55/2016 FAB NFMMS Project
66
11.8 The design and the electrical and mechanical construction, as well as the
finishing of all measurement equipment shall confirm in all respects with
good engineering practice and such equipment shall be suitable for use in
regions with atmospheric conditions specific in Pakistan.
11.9 All measurement equipment shall be designed and built up based on and
utilizing the most recent digital technology. Any system or subsystem should
not have limitation placed to meet the requirements of the bidding document
i.e, any additive feature of any component should be available as per the
normal marketing brushers and user manuals.
11.10 The equipment shall be fully maintainable in Pakistan through the supply of
spares parts, tools and measuring equipment. All cables, connectors,
interfaces, and any other hardware and software required for delivering a fully
operational system as per description given herein shall be the responsibility
of the Contractor. Lack of identification or definition of any item of hardware
or software in this bid document but otherwise necessary for satisfactory
working of each of the stations, will not be taken as an excuse or absolve the
Contractor of its responsibility to provide fully working stations to meet the
operational requirements given herein.
11.11 If the system has been integrated from more than one source, then the original
manufacturers of the system or subsystems should additionally extend the
warranty of the system or subsystems in the name of the Employer.
11.12 Any system or subsystem should not have limitation placed to meet the
requirements of the bidding document i.e, any additive feature of any
component should be available as per the normal marketing brochures and
user manuals.
12. Acceptance Criteria
12.1 The Bidders are required to submit along with their technical proposals, but as
a separate document, the Field Acceptance Procedures describing the testing
procedures to ensure the conformance of the all system with the Technical
Specifications and performance requirements herein included and the quality
of its components. The testing procedures shall be drawn up by the Contractor
and submitted to the Employer not later than two (2) months before
conducting Acceptance test. These procedures will be discussed between the
engineers designated by the contractor and the Employer to arrive at a final
commonly agreed document.
Section VI, Technical Specifications Copy No.
NFMMS-55/2016 FAB NFMMS Project
67
13. Training (No of trainings, extensions)
13.1 Local training will be conducted as follows: -
a. One week local training (2 x groups of participants) of Operator &
Maintenance Level for each equipment will be conducted on equipment
being procured.
b Two refresher trainings of three days each (Operator & Maintenance
Level) of newly procured monitoring equipment two months after
commissioning.
c. Relevant syllabus for the above mentioned training will be provided by
the contractor, four weeks before the commencement of the trainings.
14. Operation and Maintenance Manuals
14.1 High quality operation & basic trouble shooting manuals in English language
for each system shall be provided in two hard copies. Softcopy of each manual
shall also be provided on compact disc in Acrobat or Word format.
14.2 Training documentation and training course material shall be delivered to
each trainee in hardcopy. Two (02) soft copies of all type of training
documentation shall be delivered to FAB.
Section VI, Technical Specifications Copy No.
NFMMS-55/2016 FAB NFMMS Project
68
PART - B
Detailed Specifications
1. Introduction
1.1 The following pages outline the specifications of monitoring systems required
for the Project. The units not specifically mentioned in this Chapter but
considered necessary for each of the system shall be clearly defined and
specified by the Bidders so that they meet the performance requirements
described in these bidding documents.
1.2 The Bidders shall attach to their bids a block diagram for each type of system
(VHF/UHF portable Handheld Monitoring System & Specialized Network
Scanner) indicating the connections and relationships among the various
components or sub-systems such as antennae, receivers, DF sub-system,
consoles, communications equipment, power supply, and GPS receivers. The
description of the offered system shall make reference to the configuration so
depicted.
2. VHF/UHF portable Handheld Monitoring & Direction Finding System
2.1 General specifications. The offered system must have following features:-
2.1.1 VHF / UHF portable Handheld DF system.
2.1.2 The frequency range of DF mode shall be at least 20 MHz to 6 GHz
2.1.3 User friendly and Intuitive Graphical User Interface
2.1.4 The portable Handheld DF shall have front panel display for operation
2.1.5 The portable Handheld DF should have the flexibility to be used as a portable
handheld homing receiver with appropriate Directional Antenna
2.1.6 Quick deployment of system in a vehicle
2.1.7 Recording & analysis of signals including Frequency Scan, Memory Scan, and
Wideband panorama scan etc.
2.1.8 Display of intercepted signals in various display modes including waterfall,
level-frequency graph, level bar etc.
2.1.9 Automatic Direction Finding capabilities for location fix of target signal and
display of position on map even in multipath environment (homing in)
2.1.10 Spectrum occupancy scanning
2.1.11 Field proven (Local Field demo /trial of offered system).
Section VI, Technical Specifications Copy No.
NFMMS-55/2016 FAB NFMMS Project
69
2.1.12 The portable Handheld DF& its associated DF antennas shall be compact in
size and weight
2.1.13 The weight shall be between 3 to 4 kg with battery (excluding DF antenna)
2.1.14 The DF antennas shall be installable on a vehicle roof using magnetic mount
or tripod based on the monitoring task requirement or better.
2.1.15 The battery should have 2 hour or better back up time.
2.1.16 The DF shall be supplied with a 12V car cigarette lighter charger
2.1.17 The Portable Handheld DF shall be an integrated solution to detect, intercept
and DF RF and Microwave signals.
2.1.18 The DF should support Correlative Interferometer DF method(or latest)
2.1.19 The DF shall have on-device built-in maps accessible via front panel to
facilitate handheld operation
2.1.20 The DF shall have the possibility to record bearing results on-device
2.1.21 DF shall support on-device triangulation of bearing results
2.1.22 The DF shall have the facility to record demodulated audio, trace information,
screenshots etc in order to replay afterwards on device.
2.1.23 The DF shall have selectable measurement time, continuous or periodic output
function
2.1.24 The portable Handheld DF shall contain an integrated wideband receiver with
ability to perform fast scanning of its frequency range
2.1.25 Monitoring scan speed of at least 2 GHz/s or better.
2.1.26 The Receiver Mode should be able to scan signals up to 18 GHz or above
2.1.27 The Demodulation bandwidth of receiver mode shall be at least 500 kHz
2.1.28 Handheld Directional antenna (20 MHz till 18 GHz or above) with integrated
GPS and Compass for portable Homing application shall be included
2.1.29 The Receiver mode should have the ability to output audio tone based on
signal level to aid homing application
2.1.30 The Receiver mode should have a Squelch function
2.1.31 The Receiver shall have support level detectors such as Max Peak, Average,
RMS etc.
2.1.32 The Receiver mode shall have AGC (Auto Gain Control) and MGC (Manual
Gain Control)
Section VI, Technical Specifications Copy No.
NFMMS-55/2016 FAB NFMMS Project
70
2.1.33 The portable Handheld should be able to connect to a PC for remote control,
display of Direction finding, RF scanning results, transfer of recorded data etc.
2.1.34 The control software shall have the facility to record the DF results in memory
for replay later on.
2.1.35 The control software shall support triangulation of bearing results measured
by a single DF
2.1.36 GIS control software for displaying of bearing results on map to be provided
2.1.37 The control software shall have the option for automatic direction finding
using a heat map to display target’s measured location
2.1.38 The control software shall be equipped with various RF scanning modes
2.1.39 Various display modes including waterfall, polar diagram etc. should be
supported by the control software
2.1.40 The control software shall have the possibility to record I/Q data of signals
2.1.41 The control software shall support demodulation, recording and replay of
analog modulations
2.1.42 The control software shall support networking of more than one DF for online
triangulation.
2.1.43 The system must have weather / water proof casing.
2.1.44 Wooden tripod stand must be provided with the system.
2.1.45 2 x Backup batteries pack must be provided with the system.
2.1.46 The computer system / Laptop must be equipped with the following: -
2.1.46.1.1 Minimum 2 GHz CPU clock or better specification
2.1.46.1.2 Minimum 8 GByte RAM or better RAM
2.1.46.1.3 Minimum Intel Core i7.2xxx (“Haswell”) or better specifications
2.1.46.1.4 Window 7 32bit or 64bit or better specifications
2.1.47 Mast and extended cable to support 8/6 meter (including GPS) for antenna
system must be provided and integrated with the system.
21.48 Omni directional Passive antenna will be provided with the system.
2.2 Detailed Specification
DF Mode
Frequency range: 20 MHz –6 GHz (or better)
Section VI, Technical Specifications Copy No.
NFMMS-55/2016 FAB NFMMS Project
71
Antenna System: Multi element DF Antenna
DF method: Correlative / Interferometer or Wattson-Watt or
latest for lower frequency ranges
DF Sensitivity: For VHF frequency Range:
a. With Magnetic mount antenna: ≤ 20 µV/m
b. With Tripod antenna: ≤ 9 µV/m
For UHF/SHF frequency range: ≤ 6 µV/m with
Correlative Interferometer
Image rejection: For IF2: Equal or better than 85dB
For IF3: Equal or better than 65 dB
I
DF accuracy: ≤ 3 deg (RMS) for magnetic mount antenna
≤ 1 deg for tripod antenna
DF Freq Scan Speed Up to 200 channels/s
Real time Bandwidth 1 KHz, 25 KHz, 100 KHz, 500 KHz, 10 MHz or
more in steps
Averaging modes Continuous, gate, normal
Minimum Signal Duration
10 ms or better
Minimum Burst Duration
< 0.5 ms (typ 0.5ms) or better
MTBF ≥ 16500h or better
Permissible Wind speed of DF
at least antenna on Vehicle
≥ 120 km/h
North Offset Automatic method using compass
EMC standards EN 61010-1, R&TTE EN 301489-1/-22
EN 55022, class B or more
Mechanical & Environmental
stress
MIL-PRF-28800 F or equivalent
Operating Altitude ≥ 4000 m or better
Operating Temp range
–10 °C to +55 °C or better
Section VI, Technical Specifications Copy No.
NFMMS-55/2016 FAB NFMMS Project
72
Receiver Mode
Frequency range: 9 kHz to 18 GHz or above
Real Time Bandwidth At least 10 MHz or better
Rx Scan Rate At least 2 GHz/s or better
Frequency Resolution: 1 Hz
Frequency Accuracy <1 ppm
Input level for linear operation: Up to 0 dBm/107 dBµV
Signal level measurement -30 dBµV to 107 dBµV
Dynamic Range: At least 120 dB
Sensitivity: -105dBm or better(Bidder shall present exact
system sensitivity for entire range)
Overall Noise Figure: ≤ 12 dB typ, (attenuator off).
DANL < -147 dBm for the whole frequency range
Demodulation Bandwidth At least 500 kHz
Demodulation Capabilities: USB, LSB, AM, FM, CW, Pulse, I/Q or more
IF Spectrum Display range: 1 kHz to 10 MHz or better
Image frequency Rejection: For IF2: Equal or better than 85dB
For IF3: Equal or better than 65 dB
Display Modes Clear/Write, Average, MaxHold, MinHold
Squelch –30 dBµV to 110 dBµV
AFC 150 Hz to 500 kHz
Scan Modes Frequency, Memory, FFT/Panorama
Level Detectors Average, RMS, MaxPeak, Sample etc.
Interfaces USB, LAN, SD-Card, IF Output, Signal
Reference etc.
3. Upgrade of existing Receivers. Frequency Allocation Board intends to upgrade its
existing portable handheld monitoring receivers with additional functionality. The existing
portable handheld monitoring receivers are required to be upgraded to 18 GHz frequency
range. The bidder shall provide all the required antenna modules and accessories to enable
interception of signals up to 18 GHz or above. Moreover the associated software and
firmware of the portable handheld receivers are required to be upgraded as well.
Section VI, Technical Specifications Copy No.
NFMMS-55/2016 FAB NFMMS Project
73
4. Mobile Radio Scanner
4.1 General Specifications. The offered system must have following features:
4.1.1 Technology Support for Mobile Radio Scanner must include GSM,
WCDMA, LTE, CDMA2000, 1xEV-DO, TETRA.
4.1.2 Recording on PC/Laptop & analysis for GSM, GSM, WCDMA, LTE,
CDMA2000, 1xEV-DO, TETRA.
4.1.3 GUI user friendly interface & easy Installable.
4.1.4 Spectrum occupancy scanning for GSM, WCDMA, LTE,
CDMA2000, 1xEV-DO, TETRA.
4.1.5 Field proven (Local Field demo /trial of offered system).
4.1.6 Automatic Detection for GSM / WCDMA / LTE / CDMA 2000 /
EvDO / Tetra technology
4.1.7 Software / Firmware Up gradation of existing Mobile Network
Scanners.
4.2 Detailed Specifications
4.2.1 Technology supported by scanner should include GSM, WCDMA,
LTE (FDD & TDD), CDMA2000, 1xEV-DO, TETRA.
4.2.2 Support for all frequency bands per unit within the 30MHz-6GHz span
for above mentioned technologies.
4.2.3 Simultaneous measurements in GSM, LTE, WCDMA, CDMA2000,
1xEV-DO, TETRA.
4.2.4 Should included a back pack system including the scanner, smart
phones & batteries etc for easy mobility.
4.2.5 Suitcase solution for proper housing and operation of system.
4.2.6 Should perform Automatic detection of Channels for GSM / WCDMA
/ LTE / CDMA 2000 / TETRA.
4.2.7 Should include Possible Base station positioning estimation features
for GSM/WCDMA/LTE/CDMA200/ TETRA.
4.2.8 Should support LTE CIR (Channel Impulse Response) feature in
detecting ISI (Inter Symbol Interference).
4.2.9 Should include High sensitivity and accurate inbuilt GPS receiver as
compare to external GPS, An integrated GPS receiver with 16
Section VI, Technical Specifications Copy No.
NFMMS-55/2016 FAB NFMMS Project
74
channels and a refresh rate of 4 Hz to allow the scanner to be used also
in areas with weak GPS signals.
4.2.10 Extra set of Antennas.
4.2.11 2 x extra battery packs per system.
4.2.12 Should support LTE Wide band and narrow band signal measurement.
4.2.13 Should perform LTE MIMO measurement, showing condition of each
transmission stream in graphical view.
4.2.14 Should have provision of a Gigabit LAN transmission.
4.2.15 Physical Characteristics: The Scanner should include the
following interfaces: RJ-45, BNC & USB.
4.2.16 The Drive Test SW may also be able to visualize the panorama
measurement / view using active directional antennas.
4.3 System Requirements:
4.3.1 The computer system / laptop must be equipped with following
specification: -
4.3.1.1 Minimum 2 GHz CPU clock or better specifications.
4.3.1.2 Minimum 8 GByte RAM or better specifications.
4.3.1.3 Minimum Intel Core i7-2xxx (*Haswell*) or better
specifications.
4.3.1.4 Window 7 32bit or 64bit or better specifications
4.4 RF Characteristics
4.4.1
Frequency range: 30 MHz to 6 GHz or above.
Level measurement uncertainty: < 1 dB (S/N > 16 dB, 30 MHz to 3 GHz)
&
< 1.5 dB (S/N > 16 dB, 3 GHz to 6 GHz)
VSWR:1.5 typ. (30 MHz ≤ f ≤ 2.5 GHz ) & 1.7 typ. (2.5 GHz ≤ f ≤ 6 GHz)
RF receive Paths: Independent 2 RF Front Ends or better
Section VI, Technical Specifications Copy No.
NFMMS-55/2016 FAB NFMMS Project
75
4.5 LTE Characteristics
4.5.1 Support for all LTE bands working within 30MHz-6GHz range.
4.5.2 Measurement modes: LTE FDD and TDD-LTE.
4.5.3 Must have suitcase solution (Properly fitting for easy usage).
4.5.4 Extra antenna and cable.
4.5.5 Customized Reporting Solution.
4.5.6 Physical decoding Accuracy.
4.5.7 Sensitivity for initial physical cell ID decoding or better.
4.5.7.1 SYNC signal power –120dBm or better.
4.5.7.2 SYNC signal RE power –140 dBm or better.
4.5.8 Sensitivity after successful physical cell ID decoding or better.
4.5.8.1 SYNC signal power, –127 dBm or better
4.5.8.2 SYNC signal RE power , –144.9 dBm or better
4.5.9 RS SINR Dynamic Range: –20 dB to +42 dB or better
4.5.10 SYNC SINR Dynamic Range: –20 dB to +42 dB or better
4.5.11 Measurement speeds: Automatic detection of all 504 PCI, at least 100
measurement/s or better.
4.5.12 PCI False Detection (Ghost Code): <10^-8 or better.
4.6 WCDMA Characteristics
4.6.1 Support for all WCDMA bands working within 30MHz-6GHz range.
4.6.2 Number of RF carrier frequencies: Max 31.
4.6.3 Measurement speed: high speed/high dynamic range automatic
detection of all 512 scrambling codes with BCH demodulation
4.6.4 Scrambling code detection sensitivity
4.6.4.1 Sensitivity for initial SC detection: high speed/high dynamic
range, –112 dBm/–121 dBm
4.6.4.2 Sensitivity after successful SC detection: high speed/high
dynamic range –118 dBm/–123 dBm
4.6.5 Scrambling code detection sensitivity
4.6.5.1 RSCP typ. < 1 dB
4.6.5.2 Ec/I0 < –12 dB typ. < 1.5 dB
Section VI, Technical Specifications Copy No.
NFMMS-55/2016 FAB NFMMS Project
76
4.6.6 Scrambling code false detection (ghost code): < 10^-9 or better
specification
4.7 GSM Characteristic
4.7.1 Support for all GSM bands working within 30MHz-6GHz range.
4.7.2 Measurement speed: 500 channels/s or better specifications
4.7.3 Sensitivity –115dBm or better.
4.7.4 Measurement accuracy typ. ±1 dB
4.7.5 BSIC decoding accuracy 98 % for C/I > +2 dB
4.7.6 BSIC decoding dynamic range
4.7.6.1 Sensitivity for initial BSIC detection C/I > –2 dB
4.7.6.2 Sensitivity after successful BSIC detection C/I > –11 dB
4.8 CDMA2000 Characteristic
4.8.1 Support for all CDMA 2000 bands working within 30MHz-6GHz
range.
4.8.2 Number of RF carrier frequencies: max. 18 or better.
4.8.3 Measurement speed automatic detection of all 512 PN codes.
4.8.4 PN detection sensitivity typ –119 dBm or better.
4.8.5 Dynamic range Ec/I0 Typ.–29 dB or better
4.9 1xEV-DO characteristics (Rel.o/Rev.A/Rev.B)
4.9.1 Support for all EVDO bands working within 30Mhz-6Ghz range.
4.9.2 Number of RF carrier frequencies: max. 18.
4.9.3 PN detection sensitivity –120 dBm.
4.10 TETRA Characteristic
4.10.1 Support for all Tetra bands working within 30MHz-6GHz range.
4.10.2 Number of RF carrier frequencies within a 10 MHz downlink band
max. 400.
4.10.3 Channel resolution 25 kHz (QPSK).
Section VI, Technical Specifications Copy No.
NFMMS-55/2016 FAB NFMMS Project
77
4.10.4 Measurement speed max. 8000 channels/s, 20/s for a 10 MHz block.
4.10.5 Sensitivity:
4.10.5.1 RSSI measurements, –120 dBm or better.
4.10.5.2 TETRA BSCH decoding (BSCH decoding for channels
with an SNR > 9.5 dB), –115 dBm or better.
4.11 BER measurements, –115 dBmTETRA2 (TEDS) Characteristic.
4.11.1 Support for all Tetra bands working within 30MHz-6GHz range.
4.11.2 Number of RF carrier frequencies within a 10 MHz downlink band
max. 400.
4.11.3 Channel resolution 25 kHz (QAM).
4.11.4 Channel bandwidths auto detection 25 kHz, 50 kHz, 100 kHz, 150
kHz.
4.11.5 Code rates auto detection 1/2, 2/3, etc.
4.11.6 Modulation auto detect, 16QAM, 64QAM.
4.11.7 Sensitivity RSSI measurements –120 dBm(for 25 kHz channel
bandwidth).
4.11.8 Measurement speed max. 8000 channels/s, 20/s for a 10 MHz block.
4.12 RF power Scan
4.12.1 Frequency Range: -30MHz till 6 GHz.
4.12.2 Frequency resolution: 200Hz to 1.4 MHz.
4.12.3 Max. number of Frequency ranges: 20
4.12.4 Detectors: Max, RMS, Auto, min
4.12.5 Temperature:
• Operating range: +5 °C to +40 °C
• Permissible range: 0 °C to +50 °C
• Storage range: –25 °C to +85 °C
4.12.6 Damp Heat: +40 °C, 95 % relative humidity, cyclic in line with EN
60068-2-30.
Section VI, Technical Specifications Copy No.
NFMMS-55/2016 FAB NFMMS Project
78
4.13 System Controller/Laptop:
4.13.1 The computer system / Laptop must be equipped with the following
specification: -
4.13.1.1 Processor: Minimum Intel® Core TM17-5600 CPU@
2.60GHz or better specification
4.13.1.2 Installed Memory (RAM): Minimum 8.00 GB (7.89 usable)
or better specification.
4.13.1.3 System Type: Minimum 64-bit operating system or better
specification.
4.14 Test Mobile Phones:
4.14.1 Smart / Android Phone at least supporting GSM 900/1800, WCDMA
1900/2100 & LTE 1800.
4.14.2 Smart phone should be integrate-able with the Drive Test System
supporting GSM, WCDMA & LTE bands.
4.14.3 Smartphone with Qualcomm Chipset is to be connected and should be
workable with the control system.
4.14.4 To be able to perform basic call setup test when needed.
4.14.5 Mobile phone Parameters to be supported by controller system
software.
• GSM: RAT, Mobile state, MCC, MNC, RxLev (F/S),
RxQual(F/S), Timing advance, Transmit power, CELL ID,
BCCH, TCHs, BA-List, LAC, BSIC, Timeslot, CS Call State,
VOCODER(DL/UL, PS CALL STATE.
• UMTS: RAT, Mobile state, MCC, MNC, RSSI UTRAN, CPICH
RSCP, CPICH Ec/No, TrChannel BLER, Transmit Power, CELL
ID, SC, UARFCN(DL/UL), LAC, CS Call State, AMR
Rate(DL/UL), PS Call State.
• LTE: : RAT, Mobile state, MCC, MNC,RSSI, RSRP, SINR, RSR,
Transmit Power, eNodeB/Cell, PCI, EARFCN (DL/UL),
TAC,CP,BW
4.15 Antennas:
Section VI, Technical Specifications Copy No.
NFMMS-55/2016 FAB NFMMS Project
79
4.15.1 Antenna Emitter covering frequency range of 406-440 MHz (Tetra).
4.15.2 Dipole Antenna covering frequency range of 380 - 430 MHz (Tetra).
4.15.3 Omni Antenna covering frequency range of 698 MHz - 2700 MHz
(GSM etc).
4.15.4 MIMO Antenna supporting 2x2 and 4x2 MIMO covering frequency
LTE.
4.16 System Controller Software features:
4.16.1 For LTE Scanning
4.16.1.1 The measurement software shall support up to 32 LTE
carriers / LTE carrier ags / LTE advance.
4.16.1.2 The software shall provide graphical user interface to
display the RS-SINR of each 2x2 MIMO stream.
4.16.1.3 The software shall provide graphical user interface to
display the RS-RSRP of each 2x2 MIMO stream.
4.16.1.4 The software shall display the Resource Block Index of the
2x2 MIMO stream.
4.16.1.5 The software shall provide a MIMO view showing
condition number per transmitted Resource Block.
4.16.1.6 The Software shall be able to capture the Inter Symbol
Interference (ISI) of any LTE carrier.
4.16.1.7 The LTE TOP N shall support the following parameters:
• PCI, Internal Cell ID, Power
• WB RSSI Min, WB RSSI, WB RS RSSI
• RSRP, WB RSRP
• RSRQ, WB RSRQ
• RS SINR, WB RS SINR, SINR
• MIMO Rank, MIMO CN
• WB Bandwidth, Center Frequency
• EARFCN, eNodeB Name, Mode
• Power Ratio (P-SCH/S-SCH)
Section VI, Technical Specifications Copy No.
NFMMS-55/2016 FAB NFMMS Project
80
• SINR of P-Sync, SINR of S-Sync
• Amp. SINR of P-Sync, Amp. SINR of S-Sync
• CIR out of CP
• ECI, MCC, MNC, TAC
• Cyclic Prefix Length, Cyclic Prefix
• Physical Layer Cell Identity Group, Physical Layer Cell
Identity
• Hard pilot pollution, Soft pilot pollution
4.17 For UMTS Scanning
4.17.1 The measurement software shall support up to 32 UMTS carriers.
4.17.2 The UMTS TOP N shall support the following parameters
• SC, Ec/Io, SIR
• RSCP, ISCP
• P Total, Channel
• Hard Pilot Pollution, Soft Pilot Pollution
• CI, LAC, MCC,MNC
4.17.3 The UMTS Shall also provide the following additional parameters.
• Ec(CPICH), Ec(P-SCH), Ec(S-SCH)
• Ec/Io(CPICH), Ec/Io(P-SCH), Ec/Io(S-SCH)
• Doppler Frequency
4.18 For GSM Scanning
� The GSM TOP N Shall Support the following Parameters
� ARFCN, BSIC, PSCH
� C/I, P total, CI
� LAC, MCC, MNC
4.19 For CDMA2000 Scanning:
• The CDMA TOP N shall support the following parameters
� Frequency, CH Type, Offset
� MeasID, EcIo, RSCP
Section VI, Technical Specifications Copy No.
NFMMS-55/2016 FAB NFMMS Project
81
� Ptotal, SID, NID
4.20 For TETRA Scanning:
• The Tetra TOP N shall support the following parameters:
� Frequency, Carrier, Main Carrier
� LA, RSSI, SNR, C1, FRA, SRA
� BER Pre-Vit %, BER AACH %, MER%
� Frequency Error, Phase Error
� MCC, MNC
• The following Tetra DMO parameters should be supported:
� Frequency, Carrier,PTotal
���� RSSI, SNR,ModER
���� MCC, MNC,BER Pre – Vit
���� Freq. Err, Phase Error
���� Delay Spread, FN
���� Shall support TETRA
4.21 Indoor Measurement:
� Shall Support the following indoor measurement mode
� Hot Spot Mode
� Continuous Mode
4.22 For Outdoor Navigation:
• Support for Google Map/Open Street Map
• Support for MapInfo
• Support for internal GPS (preferred)
• For RF Scan:
• The RF Scan shall support frequency sweep from 30Mhz-6Ghz
• The RF Scan sweep range shall provide user with adjustment
alternatively by start, stop frequency or by Center frequency and span.
Values are specified in MHz.
• The RF scan shall provide at least 4 fixed markers
Section VI, Technical Specifications Copy No.
NFMMS-55/2016 FAB NFMMS Project
82
• The power display areas of the spectrum shall be defined by minimum
power and maximum power.
4.23 For Automatic Detection of Channel:
• The software must provide Automatic channel detection features for GSM/
WCDMA/ LTE/ CDMA2000/ EvDO and Tetra Signals.
• The Auto detection software feature shall work in simple mode, where it
stops after evaluating the GSM/WCDMA/LTE/ CDMA2000/EvDO/Tetra
signals and scanner continues to scan on the found channel.
• The Auto detection software feature shall work in smart mode, where it
continuously scan and evaluate the GSM/WCDMA/LTE/
CDMA2000/EVDO/Tetra channels.
4.24 For Exporting Measurement Files:
• Export format shall support ASCII
• Exporting of result to *kml or *kmz format
4.25 Suit Case Solution
• Suit case with proper housing may include: -
� Two external antenna interfaces for Scanner
� One external GPS antenna to Scanner as well.
� 1 x 12V Car Cigarette lighter power port
� One control Laptop mounting in the suitcase
� Spare Car Cigarette Charger
� Two smart phones mounting in the suitcase. Also, scanner may
optionally be connected to external battery or power up of Scanner. It
may have external connection directly to Scanner or suitcase.
5. Upgrade of existing Scanners
5.1 Single Software up gradation of existing Drive test System.
5.2 Single Hardware Firmware up gradation of Scanner.
6. Supplier requirements:
6.1 The Supplier/bidder must have local service & repair center Lab (ISO Certified)
with qualified experienced staff to handle first level repair & maintenance support
for this project,
Section VI, Technical Specifications Copy No.
NFMMS-55/2016 FAB NFMMS Project
83
6.2 Supplier shall provide the list of local qualified technical staff with lab experience
(in repair & services)
6.3 Supplier shall provide an inventory list of all the Services Lab test equipment with
the technical offer which would be verified upon inspection
6.4 Supplier shall have local on-call operational support for FAB team during the
warranty
Section VI, Technical Specifications Copy No.
NFMMS-55/2016 FAB NFMMS Project
84
Bill of Quantities (BOQ)
S. No Description UNIT Total
Qty
1. Supply & Upgrade of VHF/UHF portable Handheld
Monitoring & Direction Finding System including:
03
Supply of Direction Finders Set 03
Supply of Directional Antennas Set 03
Supply of Necessary Software licenses Pcs 03
Supply of Laptops Pcs 03
Supply of Cables, magnetic mounts & Accessories Set 03
8/6 meter Mast and extended cable (GPS and antenna) Set 03
Upgrade of existing portable Handheld Receivers to 18 GHz Pcs 07
2. Supply &Upgrade Specialized Network Scanner including: 02
Scanners with back pack Pcs 02
Suitcase Solution Pcs 02
Antennas for operational purpose Set 04
Necessary Software licenses for the scanner Pcs 02
Mobile Phone with necessary software & drivers Pcs 04
Laptop with drivers, OS & software licenses installed Pcs 02
Upgrade of existing mobile radio scanners Pcs 01
3. Operational Training ( Local)
Operation training in class
Number of participants = 25
Venue = FAB HQ
Duration of training = One week local training (2 x groups of
participants) of Operator & Maintenance Level for each
equipment will be conducted on equipment being procured.
2 x Refresher trainings = 3 days (VHF/UHF portable Handheld
DF System) & 3 days (Specialized Network Scanner)
Job 01