 Configuration The Vendor will con

 Configuration
The Vendor will configure the microwave radios base on the design and engineering document, e.g. The configuration of Tx/Rx frequencies, Tx power, T/R spacing, cards adding, E1 traffic add/Drop locally, pass-through E1 cross connection, MRMC, etc.

 Antenna alignment
The Vendor will do the antenna panning after completing all above activity and configuration. Antenna must be aligned to achieve the desired Receive Signal Level (RSL) as per the specification in the link Budget. After the fine tuning, the antennas must be fixed to against specific wind-load.
Antenna alignment involves adjusting the direction of each antenna until the received signal strength reaches its highest level at each end of the link.
The rigger should have direct access to a receive signal strength indicator (RSSI) at the ODU. This is typically available via an RSSI connector as a voltage for measurement by a multi meter.
Fine adjustment for azimuth (horizontal angle) and elevation (vertical angle) is built into each antenna mount.
If the horizontal adjuster does not provide sufficient range to locate the main beam, the antenna mounting brackets will need to be loosened and the antenna swivelled on its pole mount to locate the beam. Before doing so ensure the horizontal adjuster is reset for mid-travel.
For the XPIC links, the horizontal and Vertical of polarization need to be fine aligned to achieve exact cross polarization discrimination against the specification between both sites involved.
Some mounts for larger antennas have a separately clamped swivel base (supporter) to allow the loosened antenna to swivel on it without fear of slippage down the pole.
Where such a mount is not provided a temporary swivel clamp can often be provided using a pair of pipe brackets bolted together immediately below the antenna mount.

 E1 or STM-1 performance test (BER TESTING)
The Vendor will conduct the first testing and checking when all the above items have been completed
Partner shall use proper tools for punching E1 cable in the Krone block or Due care shall be taken for handling Fiber Patch cords.
2.5 NMS
During the implementation of Customer Project, the NMS system of the microwave transmission network also needs to be integrated at the same pace with the hops.
 The interconnection cables, Hubs, Layer-X switches or Routers for NMS at each site which microwave links involved need to be pre-installed by the Vendor during the microwave radio’s installation.
 If any E1 cross connection on each hub site or cascade up link sites required, the Vendor need to do the works before the End-to-End(from BTS through to its homing BSC) E1 checking and test;
 The IP address of each element need to be configured by the Vendor during the microwave radio commissioning;
 The Ceragon’ NMS Element Network Management System will be pre-installed in the supplied NMS equipment. Field installation of the NMS interconnection cables or equipment will be completed in Turnkey basis. Any final configuration that is required will be completed and the system verified for proper operation. The facility must have adequate space, power and environmental conditions for the installation of the NMS system.

2.6 E1 Patching
The Vendor must do the patching works connected up to Ceragon DDF.

2.7 Hop Up gradation.
During the implementation of Customer Project, there are some hops that need up-gradation as per project requirement.

The Vendor shall send the team or members to the site to receive the equipment. The representative of Vendor should sign the Delivery document after the inspection. Subcon should do the physical inspection of the received equipment and take over the responsibility for safety.

Before up gradation of the existing hops, Partner should confirm and approve the power off procedure. Partner should perform Hardware functionality checks like status of the Equipment and the same should be documented
If any Hardware is faulty or alarm is observed the same needs to be documented in the Inspection check report and highlighted. In addition, Inspection check report should be signed jointly.
Removed equipment’s should not be damaged and should be safely handed over to Ceragon/End User Representative duly packed.
Different types of Hop up gradations are as below: -

1. ODU up gradation: - In ODU up gradation low capacity ODU’s are to be replaced with High capacity ODU’s. The newly installed ODU should connect to the antenna in weather tight condition, gasket shall fit on properly. The Grounding of ODU need to be done and connect below to the right bus bar on the tower or mounting pole. IDU need to re-configured if required.

2. IDU up gradation: - In IDU up-gradation low capacity IDU’s are to be replaced with High capacity IDU’s. New IDU need to be installed in the indoor rack or cabinet. The associated DDF also need to be installed preferably in the same rack/cabinet above the IDU just one space reserved between them for cabling through. IDU need to re-configure.

3. 1+0 to 1+1 hops up gradation: - 1+0 hops will be converted to 1+1 hops. One Hybrid coupler, ODU, IF cable and IDU need to be installed as per standard procedure. IDU need to re-configure.

4. Capacity Up gradation: - Capacity of links needs to be upgraded as per design parameters. In capacity up gradation the IDU configuration parameters (Frequency, Modulation, and power) need to be re configured.

After, Hop Up gradation, it is service provider responsibility to do the E1 patching, if required.
3. TESTING AND ACCEPTANCE

The Vendor shall do the BER testing witnessing Customer and Ceragon on the site. The test duration should be 24 hours for 23GHz/18GHz/15GHz/11GHz/7GHz access hops, 48 hours for 11GHz/7GHz backhaul links (Subject to customer requirements).
Upon completion of the testing, Ceragon shall be notified of the completion and the requirement for acceptance. The notification will be made 48 hours in advance of the planned acceptance.
On successful conclusion of the hop acceptance, which will include a physical inspection of the installation and the review of the test data, customer representative will be presented with an Acceptance Certificate for signature. In case Punch points are found requiring further work, or correction, same must be cleared within 48 Hrs.

Partner shall arrange for Provisional & Final Acceptance shall be arrange from End customer with the help of Ceragon Representative

4. AS-BUILT DOCUMENTATION

Vendor will provide the Site Commissioning Report (SCR) (Original + 1 copy [Soft Copy in CD]). The SCR will include:
Test Results
 Part no. & serial nos. of Equipment installed at site.
 Photos of the installed equipment
 General Configuration of the Contractor-installed equipment.
 Site layout and details.


SCOPE OF WORK FOR LINE OF SIGHT SURVEY

1. INTRODUCTION
Document outlines the general scope of work for conducting line of site survey (Access and/or Backbone) for Ceragon’s End Customer. This document deals with the detailed scope of work, methodology, deliverables (output required) and responsibilities of either parties.

2. SCOPE OF WORK
Vendor shall carry out following tasks in the field while conducting line of site survey.

 Record geo coordinates of the site
 Record AMSL reading of the site at ground level (Not on the rooftop if the site is rooftop)
 Record full postal address of the site with pin code
 Record name of the site owner, as applicable
 Record contact details of the site owner, as applicable.
 Record building height in meters AGL (Above Ground Level).
 Record site ID.
 In case of rooftop site , take photograph of the roof and entrance (if photography is permitted), In case of ground based Site take photograph of the plot (if photography is permitted)
 In case of a rooftop site, record roof layout sketch with dimensions and clearly marking north, location of lift machine room (if applicable), location of overhead water tank (if applicable) and location of any other structure on the roof top.
 Record proposed tower or pole mounts location on the sketch. In case of pole mounts, indicate the name of the other site for which the pole mount is proposed. In case of any critical location with respect to LOS, criticality should be recorded on the sketch.
 Record any near end obstruction in LOS and take photographs of the obstructions.
 Record AMSL at every 1 km intervals on the path. In case of any obstruction in between, record AMSL at obstruction point, obstruction height and obstruction type.
 While conducting line of site survey as per point above note the general tree heights, type of trees etc. Also record general building height in the LOS path. Also record if any building construction is underway in LOS path and whether it is likely to block LOS in future.
 In case any water body is found in the path record its width and type (pond, river etc.)
 Record distance of High Tension Lines (if any), Towers (if any) with their approximate distance and azimuth from the site.
 Record all observations as listed above in the provided format. Attach roof / site schematics and photographs along with format.
 Confirm LOS using visual methods (Binocular, Mirror Flash etc.) if possible.
 Input data on Path Loss tool and determine the antennae height.
 Provide Path Loss file with terrain data.
 In case if the town / city has an airport / airstrip geo coordinates and AMSL of the Airport / Airstrip needs to be recorded with approximate direction of the runway ( This is to be done only once for a specific city / town). Runway direction with Airport Geo Coordinates and AMSL to be recorded on a separate sheet.
 As a standard practice each RF site will have multiple options/ candidates and the LOS survey need to be done for each option /candidate of near end site to each option/ candidate of the far end site to arrive at clear options for