Installation Manual
Table Of Contents
- WAVEXpress/BTS Installation and Commissioning Guide
- One - Unpacking the WAVEXpress/BTS
- Two - Internal BTS Cabling and Jumpering
- Three - Installation
- 3-1 Wall Installation
- 3-2 Table Mount
- 3-3 Rack Installation
- 3-4 Common Final Installation Procedures
- 3-4.1 Connection of the Cable Gland
- 3-4.2 Connection of the Grounding Cable
- 3-4.3 Connection of the Antennas to the Bulkhead Plate
- 3-4.4 Connection of the Optional Combiner Assembly
- 3-4.5 Connection of the Power Supply
- 3-4.6 Connection of the T1 Lines
- 3-4.7 Connection to External Alarms
- 3-4.8 Optional Voltage Standing Wave Ratio (VSWR) Check
- 3-4.9 Post Installation Checks
- 3-5 Outdoor Installation
- Four - Off-Line Commissioning
- Five - Off-Line Commissioning of a Daisy Chain
- Six - Post Off-Line Commissioning
- Seven - On-Line Commissioning
- Appendix 1 - Connection of the Combiner Assembly
- Appendix 2 - BTS Field Maintenance
- A2-1 WAVEXpress/BTS Field Replacement Maintenance
- A2-1.1 Replacing the WAVEXpress/BTS IWP card
- A2-1.2 Replacing the WAVEXpress/BTS T1 card
- A2-1.3 Replacing the WAVEXpress/BTS TRX card
- A2-1.4 Replacing the WAVEXpress/BTS RF distribution card
- A2-1.5 Replacing the clock module
- A2-1.6 Replacing power supply units
- A2-1.7 Replacing fan assemblies
- A2-1.8 Replacing filters (p/n 520081-01)
- A2-1.9 Replacing the antenna bracket with a combiner assembly
- A2-1 WAVEXpress/BTS Field Replacement Maintenance
- Checklist 1 - Installation Checklist
- Checklist 2 - Commissioning Checklist
Release 3.3, Revision A 1/99
Installation 59
3-5.4 Optional Voltage Standing Wave Ratio (VSWR) Check
The optional VSWR check should be performed by the organization responsible for the antenna installation. The
purpose of the check is to ensure the integrity of the antenna and the antenna connection by determining whether the
reflected power reading is higher than the recommended value. The reflected power is defined as a ratio of the power
output versus the reflected power return. This value is determined by two key factors: the power output from the
WAVEXpress/BTS (approximately 2 watt 33dBm) and the loss due the length and type of the cable.
The recommended test approach is to use an in-line, forward/reverse power meter (ex. NAS model by Roche and
Schwarz) installed between the BTS and the antenna cable. This approach validates that the antenna and cable are
good. It also verifies that the transmit power from the BTS is within tolerance limits. The VSWR ratio should be less than
or equal to 1.5:1.
Listed below are threshold values assuming a VSWR of 1.5 at different levels of cable loss (due to length or cable type).
The estimated return loss should be greater than or equal to the values below.
Table 3-2:
Total acceptable return loss for cable loss (dB), assuming an antenna VSWR of 1.5
End-to-end cable Loss
(dB)
123456
Return Cable loss (dB)
-14 -16 -18 -20 -22 -24
NOTE
☛
Antenna types are site specific. Cable types in Asia tend to be either 7/8 inch foam
connection dielectric or RG214.