Training Pathloss 4

Pathloss 4.0 Training

Presented by Ori Widianto @ 2009

Step by step Installation of Pathloss 4.0 :

1. Extract BDE setup and install BDE setup.

2. Run “VolumeSerial”, choose your drive that will be destination for Pathloss

installation (e.g C:\)

3. Fill on new serial number field by : DC7915D5

4. Push button “Change Serial Number”

5. Restart your PC

6. Run setup wizard on Pathloss Setup Folder.

7. Copy file on folder Key Initialization (PASSIVE.BIN file) to folder that

Pathloss already installed (e.g C:\PLW40).

8. Restart your PC.

9. Run file plw40_mu.exe (last update for Pathloss) and extract to Pathloss

installation folder.

10.Your Pathloss ready for used

How To Operate Pathloss

PATHLOSS program is full Microwave Network design software.

For our work we shall use PATHLOSS for the following:

a) Make Path Profile to find antenna height in each station

b) Make Network Configuration

c) Calculate Link Budget to find Antenna diameters , RX level & Link Availability

Necessary Data for Microwave Network Design &how to place it in your PATHLOSS Program

The followings data must be placed in PATHLOSS program folder to be

able to use the program as a full Microwave system Planner.

1. RAIN file

This folder contents Rain data for each area of the world according to 4 standards (Canada, Crane, Crane_96 & ITU). Usually we work according to ITU standard (ITU-R-P.530-7/8)

THIS DATA WILL AUTOMATICALLY PLACED IN PATHLOSS FOLDER AFTER PROGRAM SET UP

2. Equipment File

This folder contents 4 folders but for our Microwave design we just use 2 folders as the followings:

a. MAS which contents Microwave Antenna Data for different Antenna

Manufacturer (Andrew , RFS , ERICSSON , …………..)

b. MRS which contents Microwave Radio Data for different Manufacturers.

3. Contour map database

How To Set Contour Map Database

In Pathloss, we can use some contour map database to generate pathProfile. Please note, this contour map database just only for reference, we have to verification the actual condition by doing path survey.

The common contour map database are SRTM (Shuttle Radar Topography Mission) and GTopo30, but in this case we will use SRTM Database due to it has high accuracy than GTopo30.

The contour map database SRTM is free and could be download from :

ftp://e0srp01u.ecs.nasa.gov/srtm

To set the contour map database, please follow the following steps :

1. Create a folder in your hard drive, name it with SRTM or another name.2. Copy the SRTM file (file name.hgt)3. Run Pathloss, click “Configure” and the select “Terrain Database”

Fig. 1

4. On Configure Terrain Database window, choose Primary menu and select SRTM.

Fig. 2

5. Select “Setup Primary”, then select “File” -> “BIL-HDR-BLW”

6. Choose the folder of SRTM data, select the SRTM data and then click “Open”.

7. The contour map database already set to your Pathloss

Fig. 3

Make Path ProfileTo make Path Profile for one hop, please follow the following steps :1. Run Pathloss2. Enter site name and site coordinate on each column

Fig. 4

3. Click “Module” and then select “Terrain Data”4. Then, click “Operations” and select “Generate Profile” (note: we have to set up the contour database before do this

step)5. The result will shown as figure below

Fig 5

6. To set obstacle (building or tree), click on structure column, and choose the menu “Single Structure” or “Range of Structures”

5. Choose the type of obstacle (building or tree) and set the height of obstacle (in meter). It shown below.

Fig 6

Set Antenna HeightAfter we make the path profile, the next step we have to set the

antenna height to check the LOS condition.

1. Click on Module menu and choose Antenna Heights.

2. We can set the antenna height manually or optimize it automatically.

3. If we set the heights manually, we have to click the antenna

heights menu on the left/right top side and input the parameter.

4. To optimize the antenna heights automatically, just click the Optimize

icon on the top side. See Fig. 7

5. Click on “Module” and select “Print Profile” to see the result.

We can see the antenna heights are LOS or not. See Fig. 8

Fig 7

To set Antenna Height

To optimize Antenna Height

Fig. 8

Link Budget CalculationAfter we already decided antenna heights for each link we should

calculate link budget for each link to find antenna diameter, link RX &

Availability as the following steps :

1. Go to Worksheets from Modules menu or by pressing ctrl W.

You get work sheet page as shown in Fig. 9

Fig.9

2. Enter Point frequency & polarization at each site by pressing on Ch. Then click OK As shown in Fig. 10

Fig.10

3. Select Radio Equipment type by clicking on TR you will get Radio Equipment page as shown in Fig. 11

Fig. 11

4. Click on Code Index then New Index. Go to your pathloss folder – Equipment – MRS – NEC (where you placed NEC equipment folder) as shown in Fig. 12

Fig. 12

5. Select your radio according to Type (3000S , Pasolink , Pasolink+) Frequency band (7G , 8G , 11G, …….) Modulation (16 QAM , 32 QAM , 128QAM,….) Capacity (PDH x E1 , STM-0 , STM-1) then click Both to set same Radio for both stations then Press OK as shown in Fig. 13

Fig. 13

6. Set Branching Circuit or Hybrid Loss by clicking on its Symbol (above TR) then press OK as shown in Fig. 14

Fig. 16

7. Enter Feeder Data & connection losses by pressing on Wave Guide symbol then press OK as shown in Fig. 15

Fig. 15

8. Select antenna type for each station by clicking on antenna symbol then press as shown in Fig. 16

Fig. 16

9. Press on Code Index then New Index then brows for pathloss folder (where you placed it) – Equipment – MAS – Antenna manufacturer (Andrew, RFS, …..) – Frequency Range (102-132 , 122 – 132 , 142 – 153 , …….) then press OK as shown in Fig. 17

Fig. 17

10. Select antenna for site 1 & press on Site 1, select antenna for site 2 & press Site 2 or in case of both sites have same antenna press on Both. The press Close – OK as shown in Fig. 18

Fig. 18

11. Set Reliability Method

In worksheet page go to Operation Menu – Reliability Methods

Set Reliability criteria as per shown in Fig. 19 for SDH or as Project & Customer requirement & press OK

12. Set of Rain factor

Press on Rain symbol – select ITU-R-P-530. 7/8 – press Load Rain File – Select Rain area according to ITU-530 Map Fig. 21 (Rain Files are placed in Pathloss folder –Rain) – Press Close as per shown in Fig. 20

Fig. 20

Fig. 21

For Indonesia Area, we use Rain area P

13. Set Geoclimatic Factor

Press on the Ground Symbol (as shown in Fig. 22) – Set Geoclimatic Factor according to ITU-R-P-453 as Shown in Fig. 23)

Fig. 22

Ground Symbol

Fig. 23

14. Make sure of either our Path Calculation is correct or we need to

revise again.

To do that please check the followings

- Make sure that your worksheet page has Green Correct sign in right bottom of screen. If it is wrong sign that's mean there are some data mistake

- Have a look to RX Signal, Fade Margin & (Annual Availability with rain) Percentage as per shown in Fig. 24

- If any of (RX, Margin, Availability) is less than the required to meet

the spec. & recommendations. You have to increase antenna diameter or add Space Diversity Radio to reach to the required specification.

Green Correct Sign

Fig. 24

15. After finish of path calculations go to Report Menu in Worksheet page , select Full Report. You will get full path calculation report as Fig. 25. You can copy it to Word or Excel sheet & save it for reference & submitting with your survey report

Waihaong DCS AY.Patty Ex Halong

Elevation (m) 7.07 11.35Latitude 03 41 55.20 S 03 41 44.01 S

Longitude 128 10 32.30 E 128 10 45.99 ETrue azimuth (°) 50.87 230.87Vertical angle (°) 0.45 -0.45

Antenna model VHLP2-220 VHLP2-220Antenna height (m) 40.00 40.00Antenna gain (dBi) 40.10 40.10

TX loss (dB) 0.00 0.00RX loss (dB) 0.00 0.00

Frequency (MHz) 22799.00Polarization Vertical

Path length (km) 0.54Free space loss (dB) 114.35

Atmospheric absorption loss (dB) 0.11Net path loss (dB) 34.25 34.25

Radio model PASOLINK 23G 8MB (V3) PASOLINK 23G 8MB (V3)TX power (watts) 0.20 0.20TX power (dBm) 23.00 23.00

EIRP (dBm) 63.10 63.10TX Channels 22799.0000V 22799.0000V

RX threshold criteria BER 10-6 BER 10-6RX threshold level (dBm) -85.00 -85.00

RX signal (dBm) -11.25 -11.25Thermal fade margin (dB) 73.75 73.75

Geoclimatic factor 5.59E-06Path inclination (mr) 7.85

Average annual temperature (°C) 30.00

Worst month - multipath (%) 100.00000 100.00000(sec) 6.23e-10 6.23e-10

Annual - multipath (%) 100.00000 100.00000(sec) 2.81e-09 2.81e-09

(% - sec) 100.00000 - 0.00

Rain region ITU Region P0.01% rain rate (mm/hr) 145.00

Flat fade margin - rain (dB) 73.75Rain rate (mm/hr) 2467.42

Rain attenuation (dB) 73.75Annual rain (%-sec) 100.00000 - 0.00

Annual multipath + rain (%-sec) 100.00000 - 0.00

Thu, Apr 16 2009

Reliability Method - ITU-R P.530-7/8Rain - ITU-R P530-7

Fig. 25