diff --git a/connector/doc/PatchAmp_Frame_Monitor.md b/connector/doc/PatchAmp_Frame_Monitor.md new file mode 100644 index 00000000..4006abb8 --- /dev/null +++ b/connector/doc/PatchAmp_Frame_Monitor.md @@ -0,0 +1,46 @@ +--- +uid: Connector_help_PatchAmp_Frame_Monitor +--- + +# PatchAmp Frame Monitor + +## About + +The **PatchAmp Frame Monitoring System** (RMS) integrates standard distribution amplifiers with a remote software package, creating a comprehensive signal verification solution. The system provides real-time monitoring and instant reporting of critical parameters such as signal presence, lock status, module temperature, fiber transmit and receive levels, and fiber laser metrics. This universal frame can accommodate any combination of cards, with the monitoring circuit being a standard feature across all PatchAmp distribution amplifiers. + +With this **PatchAmp Frame Monitor** connector, you can monitor the status of all 32 possible cards. For active cards, you can access metrics such as temperature, supply voltage, optical power, and more. + +### Version Info + +### Key Features + +- **Real-time parameter extraction**: The connector continuously retrieves and displays critical signal metrics, including loss of signal, lock status, module temperature, fiber transmit/receive levels, and laser diagnostics, enabling proactive monitoring and alarm generation. + +- **Seamless integration with PatchAmp modules**: Designed to communicate with the PatchAmp Frame Monitoring System, the connector supports automatic detection of and data retrieval from any combination of installed modules, ensuring comprehensive visibility across the entire system. + +## Use Cases + +### Ensuring Broadcast Signal Integrity with Real-Time Monitoring + +**Challenge**: Broadcasting facilities require continuous monitoring of signal integrity to prevent downtime and maintain high-quality transmissions. + +**Solution**: The PatchAmp RMS provides real-time alerts on signal loss, lock issues, and module performance metrics, enabling prompt corrective actions. + +**Benefit**: Ensures uninterrupted broadcasting by allowing immediate response to potential signal issues, maintaining transmission quality and reliability. + +### Simplifying Amplifier Management with a Universal Monitoring System + +**Challenge**: Managing a diverse array of distribution amplifiers can be complex, especially when integrating different module types within a single system. + +**Solution**: The PatchAmp RMS's universal frame supports any combination of cards, each of which can be monitored using the PatchAmp Frame Monitor connector. + +**Benefit**: Reduces complexity in system setup and maintenance, offering flexibility and scalability in broadcast infrastructure. + +## Technical info + +### Prerequisites + +- **DataMiner version 10.2 or higher** is required for compatibility with the PatchAmp Frame Monitor connector. + +> [!NOTE] +> For in-depth information on configuring and using the DataMiner connector for PathAmp Frame Monitor, refer to the [Technical help page](xref:Connector_help_PatchAmp_Frame_Monitor_Technical). diff --git a/connector/doc/PatchAmp_Frame_Monitor_Technical.md b/connector/doc/PatchAmp_Frame_Monitor_Technical.md new file mode 100644 index 00000000..927f028a --- /dev/null +++ b/connector/doc/PatchAmp_Frame_Monitor_Technical.md @@ -0,0 +1,39 @@ +--- +uid: Connector_help_PatchAmp_Frame_Monitor_Technical +--- + +# PatchAmp Frame Monitor + +## About + +The **PatchAmp Frame Monitoring System** (RMS) integrates standard distribution amplifiers with a remote software package, creating a comprehensive signal verification solution. The system provides real-time monitoring and instant reporting of critical parameters such as signal presence, lock status, module temperature, fiber transmit and receive levels, and fiber laser metrics. This universal frame can accommodate any combination of cards, with the monitoring circuit being a standard feature across all PatchAmp distribution amplifiers. + +With this **PatchAmp Frame Monitor** connector, you can monitor the status of all 32 possible cards. For active cards, you can access metrics such as temperature, supply voltage, optical power, and more. + +## Configuration + +### Connections + +#### Serial Connection + +This connector uses a serial connection and requires the following input during element creation: + +SERIAL CONNECTION: + +- Interface connection: + + - **IP address/host**: The polling IP or URL of the destination. + - **IP port**: The IP port of the destination (default: *9097*). + +## How to use + +The element created with this connector has the following data pages: + +- **General**: Contains the **Modules** table which will give you an overview of all the 32 possible cards with their status. +- **Status**: Contains information about the five LEDs for each card. +- **Temperature**: Contains the **Temperature** table for the current value for each card. + +The element will also have other pages such as **Supply Voltage**, **Optical Power**, **Data Rate**, and more, which each contain a table with the current value for each card in the frame. + +> [!NOTE] +> The tables mentioned above will only display information for cards that have the status *Enabled*. diff --git a/connector/doc/Ross_Video_MC1.md b/connector/doc/Ross_Video_MC1.md new file mode 100644 index 00000000..193ee0ee --- /dev/null +++ b/connector/doc/Ross_Video_MC1.md @@ -0,0 +1,38 @@ +--- +uid: Connector_help_Ross_Video_MC1 +--- + +# Ross Video MC1 + +The Ross Video MC1 is a versatile master control switcher designed for streamlined broadcast operations. It provides frame-accurate video and audio transitions, branding capabilities, and automated workflows for live production environments. The MC1 supports a range of video formats and integrates seamlessly with automation systems, enabling precise playout control. Features include internal audio processing, multi-channel keying for branding elements, and failover redundancy to ensure uninterrupted broadcasts. With an intuitive interface and remote configuration options, the MC1 enhances operational efficiency while maintaining high broadcast quality. + +This is a DataMiner connector for the **Ross Video MC1** cards. With this connector, you can monitor the parameters of a specific card using DataMiner's alarm and trending features. + +## Key Features + +- **System parameter monitoring**: Closely monitor live values of critical parameters including temperature, fan speed, and hardware status. + +- **Video input monitoring**: Supports up to 6 video inputs and 8 AES audio channels, allowing monitoring and alarms for the different settings. + +## Use Cases + +### Seamless Live News Broadcast Management with Ross MC1 + +**Challenge**: A national news broadcaster needs a comprehensive monitoring solution to ensure continuous on-air operation, detect system failures, and manage network conditions effectively. + +**Solution**: The Ross Video MC1 connector provides real-time monitoring of product health, hardware performance, and network stability. It enables operators to set alarms for program failovers, video/audio signal integrity, and GPI/Tally statuses, ensuring immediate response to potential issues. + +**Benefit**: The connector enhances broadcast reliability by proactively identifying and addressing failures, reducing downtime, and ensuring uninterrupted news coverage. + +### Delivering Dynamic Sports Broadcasts with Ross MC1’s Precision Control + +**Challenge**: A regional sports network requires a reliable system to monitor live event transmission, detect audio/video disruptions, and maintain seamless on-air transitions. + +**Solution**: The MC1 connector continuously tracks critical parameters, including video/audio signal quality, program failover status, and on-air control. It provides automated alerts when abnormalities occur, allowing operators to take corrective action instantly. + +**Benefit**: With real-time alerts and detailed monitoring, the network minimizes broadcast interruptions, ensures high-quality live coverage, and improves overall operational efficiency. + +## Technical info + +> [!NOTE] +> For in-depth information on configuring and using the DataMiner connector for Ross Video MC1, refer to the [Technical help page](xref:Connector_help_Ross_Video_MC1_Technical). diff --git a/connector/doc/Ross_Video_MC1_Technical.md b/connector/doc/Ross_Video_MC1_Technical.md new file mode 100644 index 00000000..e295537e --- /dev/null +++ b/connector/doc/Ross_Video_MC1_Technical.md @@ -0,0 +1,31 @@ +--- +uid: Connector_help_Ross_Video_MC1_Technical +--- + +# Ross Video MC1 + +## About + +The Ross Video MC1 is a versatile master control switcher designed for streamlined broadcast operations. It provides frame-accurate video and audio transitions, branding capabilities, and automated workflows for live production environments. The MC1 supports a range of video formats and integrates seamlessly with automation systems, enabling precise playout control. Features include internal audio processing, multi-channel keying for branding elements, and failover redundancy to ensure uninterrupted broadcasts. With an intuitive interface and remote configuration options, the MC1 enhances operational efficiency while maintaining high broadcast quality. + +This is a DataMiner connector for the **Ross Video MC1 cards**. With this connector, you can monitor the card's parameters using DataMiner's alarm and trending features. The connector is only capable of monitoring one card at a time. When you create an element using this connecter, the specified slot number determines which card is monitored. + +## Configuration + +### Connections + +#### Serial Connection + +This connector uses a serial connection and requires the following input during element creation: + +SERIAL CONNECTION: + +- Interface connection: + + - **IP address/host**: The polling IP or URL of the destination. + - **IP port**: The IP port of the destination (default: *5253*). + - **Bus address**: The **slot number** of the card you want to connect to. + +## How to use + +The connector is read-only at the moment, so every parameter you see can be monitored. Each page contains parameters or tables related to a specific aspect of the card. All of these parameters are retrieved using single serial commands. Status parameters are retrieved every ten seconds, while everything else is updated via a one-minute timer. diff --git a/connector/toc.yml b/connector/toc.yml index 8f5fccb0..645c3de6 100644 --- a/connector/toc.yml +++ b/connector/toc.yml @@ -6895,6 +6895,13 @@ topicUid: Connector_help_Papouch_T2HE - name: Papouch TME topicUid: Connector_help_Papouch_TME +- name: PatchAmp + items: + - name: PatchAmp Frame Monitor + topicUid: Connector_help_PatchAmp_Frame_Monitor + items: + - name: PatchAmp Frame Monitor Technical + topicUid: Connector_help_PatchAmp_Frame_Monitor_Technical - name: Paradigm items: - name: Paradigm Redundancy Controller @@ -7468,6 +7475,11 @@ topicUid: Connector_help_Ross_Video_Iggy-AES16.16 - name: Ross Video Matrix topicUid: Connector_help_Ross_Video_Matrix + - name: Ross Video MC1 + topicUid: Connector_help_Ross_Video_MC1 + items: + - name: Ross Video MC1 Technical + topicUid: Connector_help_Ross_Video_MC1_Technical - name: Ross Video NEWT-HDMI-RX topicUid: Connector_help_Ross_Video_NEWT-HDMI-RX - name: Ross Video Newt-IPR-3G-4S