#### RPU-1.3 Radar Processor Configuration

```{important}
The description of the radar image source configuration is of a general nature. The RPU-1.3 radar processor model is used as an example. For correct operation of the radar image source, configuration must be performed by a specialist with the appropriate technical knowledge and skills who has completed training with the ECDIS manufacturer.

Configuration of radar processor models implemented in the ECDIS software is described in the installation documentation.
```

```{warning}
Incorrect configuration of the radar image source may result in incorrect display of the radar image on the chart and an erroneous assessment of the navigational situation.
```

Source configuration:

| Menu path |
|-------------|
| {{ menu }} → {{ settings }} → Radar → Settings |

![Radar image source configuration window](images/image485.png)

| No. | Element | Description |
|---|---------|----------|
| **1** | **Settings tree** | Hierarchical structure of the radar image source configuration sections |
| **2** | **Oscillogramm** | Signal oscillograms |
| **3** | Return to Radar list | Button to return to the list of all connected radar image sources |

2. **Network settings:**
   - Set the IP address of the radar image source device
   - Set the data/control ports in accordance with the documentation
   - Click **Reconnect**

   If configured correctly, the connection statuses in the information group (4) will change and the data packet counters will update.

```{tip}
When configuring network parameters, verify:
- Correctness of the radar image source IP address (must match the radar processor settings)
- Network connection between ECDIS and the radar image source
- Absence of port conflicts with other systems
- Stability of data packet counters — they should continuously increase when the source is active
```

![Network settings](images/image486.png)

| No. | Element | Description |
|---|---------|----------|
| **1** | **IP address** | Network address of the device (radar processor unit or radar station) |
| **2** | **Control Port No** | Network port number for device control |
| **3** | **Video Port No** | Network port number for video stream transmission |
| **4** | **Oscillogramm Port** | Network port for receiving RPU oscillogram |
| **5** | **Video data** | Data, status, settings, and state of the video stream |
| **6** | **Control Channel** | Data, status, settings, and state of the control channel |
| **7** | **Oscillogramm** | Data, status, settings, and state of the oscillogram |
| **8** | **Reconnect** | Force device reconnection |

3. **Radar signals settings:** set the mode in the **Signal source** dropdown list. By default, this parameter is set to standard (RPU-1.3). If all parameters are configured correctly and the radar image layer is enabled in **Operational settings — see 3.8**, the radar image will appear on the screen, and a **Diagnostic** group with information about the selected device's status will be displayed in the settings window.

![Radar signals settings](images/image487.png)

| No. | Parameter | Description |
|---|----------|----------|
| **1** | **Signal source** | Select the signal source type<br>![Signal source selection](images/image488.png) |
| **2** | **Video** | Video signal settings |
| **3** | **Polarity** | Select polarity<br>![Polarity selection](images/image489.png) |
| **4** | **Input resistance** | Select input resistance<br>![Input resistance selection](images/image490.png) |
| **5** | **Attenuator** | Select attenuator value<br>![Attenuator selection](images/image491.png) |
| **6** | **Bearing Pulse** | — |
| **7** | **Polarity** | Select polarity<br>![Polarity selection](images/image489.png) |
| **8** | **Filtering options** | Set value<br>![Filtering settings](images/image492.png) |
| **9** | **Marks for the period** | Set ruler length<br>![Marks settings](images/image493.png) |
| **10** | **Accumulation. Pulse length indication.** | — |
| **11** | Set frequency and length of short, medium, and long pulses | <br><br>![Pulse settings](images/image494.png) |
| **12** | **Trigger** | — |
| **13** | **Polarity** | Select polarity<br>![Polarity selection](images/image489.png) |
| **14** | **Filtering Options** | Set filtering parameters<br>![Filtering settings](images/image495.png) |
| **15** | **Heading Pulse** | — |
| **16** | **Polarity** | Select polarity<br>![Polarity selection](images/image489.png) |
| **17** | **Filtering Options** | Set filtering parameters<br>![Filtering settings](images/image493.png) |

4. **Alignments. Antenna position:** set the radar antenna coordinates relative to CCRP. If there is a discrepancy between the radar image and chart information, enter distance and angle corrections. It is recommended to perform these settings regularly.

![Antenna position alignment](images/image496.png)

```{important}
**Critically important:** Incorrect antenna position alignment causes displacement of the radar image relative to the chart, which may create a dangerous navigational situation. Alignment verification and correction must be performed:
- During initial configuration of the radar image source
- After repair work on the radar antenna
- When systematic discrepancies between the radar image and chart information are detected
- At least once a month during operation
```

```{warning}
If a discrepancy between the radar image and the chart is detected, immediate verification and correction of the alignment is required. Continued use of an incorrectly configured radar image source is hazardous to navigation.
```

5. **Primary settings:** enter the source **name** (1), set the required **range scale**. Using the **controls** and **Gain, Sea, Rain** parameters, adjust the signal detection thresholds. If necessary, use the **Auto** switches to enable automatic sea clutter suppression functions. Depending on the display model, adjust the **display** parameters so that the radar image is clearly visible on the screen.

![Primary settings](images/image497.png)

```{tip}
Recommendations for display parameter configuration:
- **Gain:** start with automatic mode; if necessary, adjust manually for optimal target display
- **Sea:** this setting is especially important when navigating in rough sea conditions to suppress wave clutter
- **Rain:** use during heavy precipitation to improve target visibility in rainy weather
- **Automatic modes:** recommended for standard conditions; manual adjustment — for specific conditions
```

```{note}
Display parameters may vary depending on navigation conditions (open sea, coastal zone, narrow waters). Save optimal settings for different operating conditions.
```

6. **Filtering:** configure **Noise interference** suppression settings, set the parameters for the automatic **Auto Gain** and **Auto Sea** modes if they are enabled (see the item above).

![Filtering settings](images/image498.png)

7. **Composite signal:** configuration is performed when using a radar station that transmits radar data via a composite video channel. Configuration parameters depend on the type and model of the radar station used.

![Composite signal](images/image499.png)

8. **Monitor** — diagnostics of output parameters and device status during configuration.

![Monitor](images/image500.png)

After successful connection and configuration, diagnostic information is displayed in the Monitor.

**Oscillogramm** — an additional window that opens/closes by pressing the button of the same name in the **Radar** settings section. Allows visual monitoring of radar signal parameters.

![Oscillogramm](images/image501.png)
