Tag: #bestpractices

101, Best Practices, Collaboration, Digital Platforms, Learning, Mentoring, Project & Production Management, Sports, Streaming, Technology

101: Troubleshooting SCTE-35 DAI A Quick Guide

Sometimes things just don’t work. You’ve rebooted, run reports, and you just need to pause. Here are some steps to troubleshoot SCTE-35 DAI issues:

1. Check for SCTE-35 markers: The first step in troubleshooting SCTE-35 DAI issues is to check if the SCTE-35 markers are being inserted into the video stream correctly. You can use a tool like SCTE-35 Analyzer to check if the markers are being sent at the appropriate times and if their contents are correct.

2. Check your ad server: If the SCTE-35 markers are being sent correctly, the next step is to check your ad server. Ensure that the ad server is sending ad inventory to the video player at the appropriate times and that the ad creative is correct.

3. Check your video player: If the ad server is sending ad inventory correctly, the issue may be with your video player. Ensure that your video player is configured correctly to receive SCTE-35 markers and that it is capable of processing them correctly. Check the video player logs for any errors or warnings related to SCTE-35 processing.

4. Check for network issues: If the SCTE-35 markers, ad server, and video player are all working correctly, but the ads are still not showing up, there may be a network issue. Check for any network issues that may be preventing the video player from receiving the ad inventory correctly.

5. Test with different devices and platforms: If the issue is only occurring on certain devices or platforms, test with different devices and platforms to identify if it is a device-specific issue.

6. Contact your ad server or video player provider: If the above steps do not resolve the issue, contact your ad server or video player provider for further assistance. They may be able to provide more targeted troubleshooting steps or identify any issues specific to their platform.

101, Best Practices, Career, Collaboration, Learning, Technology, Training

Building A Stack for Your Business: 101

What does building a stack mean?

Building a stack refers to the process of selecting and integrating different software tools and technologies to create a customized software solution that meets your specific business needs.

1. Identify your business needs: The first step in building a stack is to identify your business needs. Determine what problems you are trying to solve and what goals you want to achieve.

2. Research available tools: Once you have identified your business needs, research different software tools and technologies that can help you meet those needs. Look for tools that are reputable, well-supported, and have a track record of success in your industry.

3. Evaluate tools: Evaluate the tools you have identified by looking at their features, pricing, ease of use, and compatibility with your existing systems. Consider factors such as scalability, security, and customization options.

4. Select tools: Based on your research and evaluation, select the tools that best meet your needs and fit within your budget. Make sure to consider how the different tools will work together and integrate with your existing systems.

5. Integrate tools: Once you have selected your tools, work on integrating them to create a seamless and cohesive software stack. This may involve customizing the tools, creating APIs, or developing other integration solutions.

6. Test and refine: After you have integrated your tools, test the stack to ensure it is working as expected. Refine the stack as necessary to optimize performance and ensure it is meeting your business needs.

7. Maintain and update: Finally, maintain and update your software stack over time to ensure it remains up-to-date and continues to meet your business needs. Keep an eye on emerging technologies and be willing to make changes as needed to stay competitive and efficient.

101, Best Practices, Digital Platforms, gaming, Learning, Mentoring, Streaming

Broadcasting: Mux or Demux? What The Heck Is That About?

In broadcasting, muxing and demuxing are essential processes that allow for the transmission and distribution of audio and video streams.

Muxing, or multiplexing, is the process of combining multiple audio and video streams into a single stream. This combined stream can be transmitted over a network or broadcast through traditional media channels like television or radio. Muxing is commonly used in live streaming, video editing, video conferencing, and IPTV.

A mux works by taking multiple input streams and interleaving them into a single output stream, which can be encoded and transmitted over a network using a specific protocol. The output stream is typically optimized for transmission efficiency, so that it can be transmitted with minimal delay and bandwidth requirements.

10 use cases for a mux:

1. Live streaming: A mux can be used to combine multiple live audio and video feeds into a single stream for real-time broadcast.

2. Video editing: A mux can be used to combine multiple video tracks into a single output file for editing or post-production.

3. Video surveillance: A mux can combine multiple video feeds from surveillance cameras into a single stream for monitoring and recording.

4. IPTV: A mux can be used by IPTV providers to combine multiple TV channels into a single stream for distribution over the internet.

5. VoIP: A mux can be used to combine multiple voice streams into a single output stream for voice over IP (VoIP) applications.

6. Music production: A mux can be used to combine multiple audio tracks into a single output file for music production or mixing.

7. Video conferencing: A mux can be used to combine multiple audio and video feeds from participants in a video conference into a single output stream.

8. Digital signage: A mux can be used to combine multiple video feeds for display on digital signage screens.

9. Sports broadcasting: A mux can be used to combine multiple audio and video feeds from different cameras and microphones at a sports event into a single broadcast stream.

10. Online gaming: A mux can be used to combine multiple audio and video streams from players in an online multiplayer game into a single stream for spectators to watch.

Conversely….

Demuxing, or demultiplexing, is the opposite process of separating the combined stream back into its individual audio and video streams. This allows for the decoding and processing of the individual streams separately. Demuxing is commonly used in media playback, video editing, audio processing, and network monitoring.

A demux works by analyzing the input stream and separating it into its constituent parts based on the underlying format and structure of the stream. The output streams can then be decoded or processed separately using appropriate software or hardware.

10 use cases for demuxing:

1. Media playback: A media player uses a demux to separate the audio and video tracks of a media file, so that they can be decoded and played back separately.

2. Video editing: A demux can be used to separate multiple video tracks from a single media file for editing or post-production.

3. Audio processing: A demux can be used to separate multiple audio tracks from a media file for processing or analysis.

4. Closed captioning: A demux can be used to separate the closed captioning data from a video file, so that it can be displayed separately.

5. Subtitles: A demux can be used to separate the subtitle data from a video file, so that it can be displayed separately.

6. Video transcoding: A demux can be used to separate the audio and video tracks of a media file for transcoding into a different format or resolution.

7. Network monitoring: A demux can be used to analyze network traffic and separate different types of data packets for monitoring or analysis.

8. Digital forensics: A demux can be used to extract individual files or data streams from a larger disk image or data file for forensic analysis.

9. Compression: A demux can be used to separate different data streams for compression or archiving purposes.

10. Streaming: A demux can be used to separate audio and video streams from a network broadcast for playback on different devices, or for further processing and analysis.

Both muxing and demuxing are critical processes in broadcasting that allow for efficient transmission and distribution of audio and video streams. These processes are used in a wide range of applications, from live sports broadcasting to online gaming, and are essential for ensuring high-quality audio and video transmission.

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101, AI, Bandwidth, Best Practices, Cameras, Mentoring, Project & Production Management, Streaming, Technology

USFL uses HRP Cameras, Drones, & Helmet Cams

The USFL (United States Football League) was a professional American football league that operated from 1983 to 1987. It was created to compete with the National Football League (NFL) during the spring and summer months.

The HRP (High-Resolution Panoramic) model is a type of camera that captures high-resolution panoramic images. It uses multiple cameras to capture a wide-angle view of a scene and then stitches the images together to create a seamless panoramic image.

Drones are unmanned aerial vehicles that can be used for a variety of purposes, including aerial photography and videography. They are equipped with cameras that can capture high-quality images and video footage from unique perspectives.

HelmetCams, also known as action cameras, are small cameras that can be attached to a helmet or other equipment to capture first-person point-of-view footage. They are often used in action sports such as snowboarding, skateboarding, and mountain biking.

Overall, these technologies have been used to enhance the viewing experience of sports broadcasts by providing unique and immersive perspectives on the action.

HRP (High-Resolution Panoramic) cameras are a type of camera that captures images with a wide field of view. They use multiple cameras to capture a scene from different angles and then stitch the images together to create a seamless panoramic image.

There are several manufacturers of HRP cameras, including Panoscan, Seitz, and Roundshot. Each manufacturer offers a variety of models with different resolutions and features. For example, the Seitz Roundshot D3 camera has a resolution of up to 80 megapixels and can capture full 360-degree panoramas in just a few seconds.

The process of stitching the images together is typically done using specialized software, such as PTGui or Autopano. These software programs use algorithms to analyze the images and find common features that can be used to align and blend the images together. The software can also correct for any distortion or perspective issues that may occur due to the different angles of the cameras.

Once the images are stitched together, they can be exported as a single panoramic image or as a virtual tour, which allows viewers to navigate through the scene using interactive controls. HRP cameras are often used in applications such as real estate photography, tourism, and virtual reality experiences, television broadcasts.

How is all of this technology used specifically in sports production broadcasts?

HRP cameras, drones, HelmetCams, and other similar technologies are used in sports production broadcasts to provide viewers with immersive and unique perspectives of the action.

HRP cameras are used to capture high-resolution panoramic images of stadiums and arenas, providing viewers with a 360-degree view of the venue. These images can be used for pre-game introductions, establishing shots, and post-game analysis. They can also be used to create virtual tours of the venue, allowing viewers to explore the stadium or arena in detail.

Drones are used to capture aerial footage of the action, providing viewers with a bird’s-eye view of the game. This footage can be used for replays, establishing shots, and highlights. Drones can also be used to capture footage of the surrounding area, giving viewers a sense of the location and atmosphere of the event.

HelmetCams are used to capture first-person point-of-view footage of athletes, providing viewers with a unique perspective of the action. This footage can be used for replays, highlights, and analysis. HelmetCams are often used in extreme sports such as snowboarding, skiing, and motocross.

Overall, these technologies are used to enhance the viewing experience of sports broadcasts, providing viewers with new and exciting perspectives of the action. The use of these technologies has become increasingly common in recent years, as broadcasters look for new ways to engage viewers and provide a more immersive viewing experience.

#cloud, 101, AI, Bandwidth, Best Practices, Cloud Editing, Cloud Providers, Collaboration, Content Delivery Networks, Digital Platforms, Mentoring, Project & Production Management, publishing, Streaming, Technology, Training

Overview: 30 Cloud Security Companies

Cloud security is a hot topic as streaming, processing, editing in the cloud is growing at a brakefast speed, not to leave out AI learning for meta data, closed captioning, transcribing, and DAI (Dynamic Ad Insertion). Keeping information secure is essential.

Below are 30 cloud security companies and the specific services they provide:

1. Microsoft Azure: Provides cloud security services such as identity and access management, threat protection, and security management.

2. Amazon Web Services (AWS): Offers security services such as identity and access management, data protection, network security, and compliance.

3. Google Cloud Platform (GCP): Provides security services such as identity and access management, data encryption, and threat detection.

4. Palo Alto Networks: Offers cloud security services such as firewalls, intrusion detection and prevention, and threat intelligence.

5. Symantec: Provides cloud security services such as data protection, threat detection, and compliance.

6. IBM Cloud: Offers security services such as access management, data protection, and threat intelligence.

7. Cisco Cloud Security: Provides cloud security services such as firewalls, intrusion detection and prevention, and threat intelligence.

8. McAfee: Offers cloud security services such as data protection, threat detection, and compliance.

9. CrowdStrike: Provides cloud security services such as endpoint protection, threat detection, and incident response.

10. Akamai Technologies: Offers cloud security services such as web application firewall, bot management, and DDoS protection.

11. Fortinet: Provides cloud security services such as firewalls, intrusion detection and prevention, and threat intelligence.

12. Check Point Software: Offers cloud security services such as firewalls, intrusion detection and prevention, and threat intelligence.

13. Trend Micro: Provides cloud security services such as data protection, threat detection, and compliance.

14. F5 Networks: Offers cloud security services such as web application firewall, bot management, and DDoS protection.

15. Zscaler: Provides cloud security services such as web security, DNS security, and cloud firewall.

16. Cloudflare: Offers cloud security services such as DDoS protection, web application firewall, and bot management.

17. Sophos: Provides cloud security services such as endpoint protection, email security, and web security.

18. Rapid7: Offers cloud security services such as vulnerability management, threat detection, and incident response.

19. Tenable: Provides cloud security services such as vulnerability management, threat detection, and compliance.

20. Alert Logic: Offers cloud security services such as intrusion detection and prevention, log management, and compliance.

21. Qualys: Provides cloud security services such as vulnerability management, threat detection, and compliance.

22. Carbon Black: Offers cloud security services such as endpoint protection, threat detection, and incident response.

23. Netskope: Provides cloud security services such as data loss prevention, web security, and cloud access security broker.

24. Bitdefender: Offers cloud security services such as endpoint protection, email security, and cloud security.

25. Barracuda Networks: Provides cloud security services such as email security, web security, and cloud security.

26. CipherCloud: Offers cloud security services such as data protection, threat detection, and compliance.

27. FireEye: Provides cloud security services such as threat intelligence, incident response, and forensics.

28. Imperva: Offers cloud security services such as web application firewall, bot management, and DDoS protection.

29. Qualys: Provides cloud security services such as vulnerability management, threat detection, and compliance.

30. Skyhigh Networks: Offers cloud security services such as cloud access security broker, data protection, and threat detection.

Overall, these cloud security companies provide a range of cloud security services, including identity and access management, data protection, threat detection, and compliance.

101, Agile, Bandwidth, Best Practices, Collaboration, events, gaming, Golf, Life Choices, Mentoring, Project & Production Management, Sports, Streaming, Teamwork, Technology, Training

Top Live Broadcast Providers, Overview: CP Communications, NEP, Broadcast Solutions, Gearhouse Broadcast, & Gravity Media

There are Many Live Broadcast Event Companies out there, all with their own range of services.  Following is a short overview of some of them.  Feel Free to chime in with others…..

CP Communications is an audiovisual and live event production company that provides services for sports and entertainment events. They specialize in live event production, audio and video equipment rental, and staging and lighting design. The company offers a range of services, including:

1. Live event production – live event production services for sports, music, and entertainment events. This includes production planning, camera coverage, audio and video mixing, and on-site technical support.

2. Audio and video equipment rental -offers a range of audio and video equipment rental services, including cameras, microphones, speakers, and projectors. They also provide on-site technical support for equipment setup and operation.

3. Staging and lighting design – staging and lighting design services for live events, including custom stage design, lighting installation, and video projection mapping.

NEP Group is a leading provider of production services, engineering solutions, and media management for live sports and entertainment events worldwide. NEP Group provides a wide range of services, including:

1. Live event production – production services for sports, music, and entertainment events. This includes production planning, camera coverage, audio and video mixing, and on-site technical support.

2. Remote production – remote production services for sports events, allowing broadcasters to produce live events from a centralized location. This includes remote camera control, audio and video mixing, and on-site technical support.

3. Media management – media management services, including content storage, archiving, and distribution. This includes video editing, metadata tagging, and asset management.

4. Technical support – technical support services for audiovisual equipment and systems, including equipment rental, maintenance, and repair.

Broadcast Solutions is a global provider of production services and engineering solutions for sports, music, and entertainment events. The company offers a range of services, including live event production, remote production, and media management.

Gearhouse Broadcast is a global provider of production services and engineering solutions for sports, music, and entertainment events. The company offers a range of services, including live event production, remote production, and equipment rental.

Gravity Media is a global provider of production services and engineering solutions for sports, music, and entertainment events. The company offers a range of services, including live event production, remote production, and equipment rental. Gravity Media also provides specialized solutions for specific industries, such as esports and motorsports.

The differences between the above competitors include their range of services, geographic coverage, and industry specialization. It is recommended to evaluate the features, capabilities, and pricing of each provider before making a decision.

101, AI, Best Practices, Cloud Editing, Collaboration, Digital Platforms, Mentoring, Moving Forward, Project & Production Management, Technology, Training

Wiki Collab

Wiki collaboration refers to a collaborative process of creating and editing content on a wiki platform. A wiki is a website or online platform that allows users to create and edit content collaboratively. Wiki collaboration can be used in a variety of contexts, including education, research, business, and community building.

Some of the benefits of wiki collaboration include:

1. Collaboration – Wikis promote collaboration among users by allowing them to work together to create and edit content.

2. Easy accessibility – Wikis can be accessed from anywhere with an internet connection, making it easy for users to contribute and access content.

3. Version control – Wikis typically offer version control, which allows users to track changes and revisions to the content.

4. Transparency – Wikis are transparent, meaning that all changes made to the content are visible to all users. This promotes accountability and encourages users to contribute responsibly.

5. Knowledge sharing – Wikis can be used to share knowledge and information with a community of users, which can be beneficial for education, research, and business purposes.

To collaborate on a wiki platform, users typically create an account and log in to access the content. They can then create and edit pages, add images and videos, and collaborate with other users. Some wiki platforms offer features such as discussion forums, chat rooms, and task management tools to help users collaborate more effectively.

There are various wiki platforms available, including:

1. Wikipedia – The world’s largest and most popular wiki platform, Wikipedia is a free encyclopedia that anyone can edit.

2. MediaWiki – An open-source wiki platform that powers Wikipedia and many other wikis.

3. Confluence – A wiki platform designed for business and team collaboration, Confluence offers features such as task management, calendars, and chat rooms.

4. Fandom – A wiki platform for fan communities, Fandom allows users to create and edit pages related to their favorite TV shows, movies, and other interests.

5. DokuWiki – An open-source wiki platform that is easy to use and highly customizable.

Overall, wiki collaboration can be a powerful tool for promoting collaboration, knowledge sharing, and community building. By allowing users to work together to create and edit content, wikis can facilitate the sharing of information and ideas across a wide range of contexts.

101, AI, Bandwidth, Best Practices, Collaboration, Digital Platforms, Life Choices, Streaming

Quick Comparison of Broadcast Cellular Aggregators

Bonded cellular aggregators are devices that combine multiple cellular connections from different carriers into a single, more reliable and faster connection. This technology is commonly used in live video streaming, where a reliable and fast internet connection is crucial. Bonded cellular aggregators can also be used to improve internet connectivity in remote areas where traditional broadband connections are not available. The technology works by splitting the data stream into smaller packets and then sending those packets simultaneously over multiple cellular networks. The receiving device then combines the packets and reassembles them into a single data stream. This process helps to reduce latency and improve overall connection quality.

There are several companies that provide bonded cellular aggregators, including LiveU, TVU Networks, Mushroom Networks, Teradek, and Peplink. These companies offer a range of devices and solutions for different types of applications, from small portable units for on-the-go streaming to rack-mounted systems for studio production. Each company has its own unique features and capabilities, so it’s important to evaluate them based on your specific needs and requirements.

– LiveU is a leading provider of bonded cellular solutions for live video streaming/ broadcasting. Their products range from small backpack-sized units to larger rack-mounted systems. LiveU’s solutions are known for their reliability and high-quality video transmission. LiveU products are popular among broadcasters for their high reliability and ability to transmit high-quality live video from remote locations.

– TVU Networks is another popular provider of bonded cellular solutions for live video streaming. Their products include both portable and rack-mounted units, and they offer unique features like remote control and automation. TVU products are used by broadcasters to transmit live video from the field, and they offer features like remote control and automation to simplify the broadcasting workflow.

– Mushroom Networks provides a range of WAN aggregation solutions, including bonded cellular devices. Their products are designed to improve internet connectivity in remote areas and areas with poor infrastructure. Mushroom Networks provides bonded cellular solutions for broadcasting, with a focus on improving internet connectivity in remote areas. Their products are designed to help broadcasters transmit live video from areas with poor infrastructure or limited connectivity.

– Teradek is a provider of video encoding and transmission solutions, including bonded cellular devices. Teradek products range from small portable units to larger rack-mounted systems, and they offer features like wireless camera control and remote configuration. Teradek products are used by broadcasters to transmit high-quality live video from remote locations, and they offer features like wireless camera control and remote configuration.

– Peplink is a provider of SD-WAN and WAN aggregation solutions, including bonded cellular devices. Peplink products are designed for both business (broadcasting included)and consumer use and offer features like cloud-basedLO management and failover protection. Peplink provides bonded cellular solutions for broadcasting, with a focus on SD-WAN and WAN aggregation. Peplink products are designed to improve internet connectivity and network reliability for broadcasters, ensuring that live video broadcasts are transmitted smoothly and without interruption.

Each company has its strengths and weaknesses, and the best choice depends on the specific needs and requirements of the user.

101, Agile, Career, Employment, Financial, Life Choices, Mentoring, Moving Forward, Project & Production Management, Social Media, Streaming, Teamwork, Technology

Turn Yourself Into a Resource (not a Commodity) that Companies Need!

Turn yourself into a resource that companies need!

1. Identify Your Unique Skill Set: First, you need to recognize and understand your unique skill set. Reflect on your strengths and weaknesses and consider how they might be valuable to a company.

– For instance, if you are interested in the broadcast industry, you may have skills such as live event production, video editing, scriptwriting, or on-air presenting. Identify which of these skills you excel at and enjoy doing the most.

2. Research the Market: Research the target market and identify the skills or resources that companies are looking for. This will help you tailor your skills and promote them in a way that meets company needs.

– Research the broadcast industry and identify the skills or resources that companies are looking for. For example, many broadcast companies seek individuals who are skilled in live production, video editing, and social media management.

3. Focus on Value Proposition: Craft a strong value proposition that highlights the benefits of your skills, knowledge, or experience. Explain how you can add value and solve problems for the company by using your skills.

– Craft a compelling value proposition that highlights the benefits of your skills. For instance, you could say something like: “I’m an experienced live event producer with a passion for creating engaging, high-quality content that connects with audiences. With my skills and experience, I can help your broadcasting company create engaging programming and reach a wider audience.”

4. Develop a Professional Brand: Build a professional brand that conveys your skills, professional approach, and your unique value proposition. Use social media, online portfolios, cover letters, and resumes to showcase your brand.

– Build a professional brand that conveys your skills and value proposition. Create an online portfolio that showcases your work, and use social media to share your expertise and connect with others in the broadcast industry.

5. Network: Build relationships and connect with people in your target market. Attend industry events, join professional organizations, and engage with companies and their employees through social media. Establishing relationships with people can help you learn about new opportunities and make you a valuable resource in the eyes of companies.

– Build relationships and connect with people in the broadcast industry. Attend industry events, join professional organizations, and engage with others in the industry through social media. This can help you learn about new opportunities and make valuable connections.

6. Demonstrate Credibility: Establish credibility by sharing your expertise through articles, presentations, or blogs. Share your knowledge, insights, and experiences related to your area of expertise, both online and offline. This will show companies that you are a credible expert and a valuable resource.

– Establish your credibility by sharing your expertise through articles, presentations, or blogs. For example, create a YouTube channel where you share live event production tips or write articles on the latest trends in video editing. This will show companies that you are knowledgeable and passionate about your craft.

7.  Be Consistent.  

You can set yourself apart in the broadcast industry, or any Industry really, and become a valuable resource that companies are eager to work with.

101, Bandwidth, Digital Platforms, Mentoring, Moving Forward, SFP, Technology

Overview: Riedel’s Line of Products

Today I’m going to give an overview of Riedel Communications.  I do not work for them, nor have I been paid by them for this article.

Riedel Communications is a company that provides innovative solutions for the broadcast, event, and AV industries. Riedel’s line of products includes a range of solutions for streaming and connecting disparate systems, including:

1. MediorNet – A real-time network for video, audio, and data signals. This solution enables the transport and processing of signals over fiber-optic, coaxial, or CatX cables. MediorNet can be used for point-to-point connections, as well as complex network topologies.

2. Artist – A digital matrix intercom system that enables communication between different locations and production teams. The Artist system can be used for traditional intercom applications, as well as for signal routing and distribution in broadcast and live event productions.

3. Bolero – A wireless intercom system that provides high-quality audio and reliable connectivity. Bolero allows for up to 10 beltpacks to be connected to a single antenna, providing coverage over large areas.

4. SmartPanel – A user-friendly intercom panel that can be used with the Artist and Bolero systems. SmartPanel features a touchscreen interface and can be customized to meet the needs of different production teams.

5. MicroN – A compact signal router for video and audio signals. MicroN can be used for point-to-point connections, as well as for routing signals in broadcast and event productions.

6. STX-200 – A solution for converting SDI signals to IP signals. STX-200 enables the integration of traditional broadcast workflows with IP-based workflows.

Riedel’s products are designed to provide flexibility, scalability, and reliability for streaming and connecting disparate systems. The company’s solutions are used in a range of applications, including broadcast, live events, sports, and corporate AV. Some of the features and specs of Riedel’s products include:

– High-quality audio and video signals
– Reliable connectivity over long distances
– Scalability for small and large productions
– User-friendly interfaces for easy operation
– Customizable configurations to meet specific needs
– Support for a range of protocols and standards, including SMPTE, Dante, and AES67

Overall, Riedel’s line of products provides innovative solutions for streaming and connecting disparate systems. The company’s products are designed to meet the needs of different production teams and can be customized to meet specific requirements.

Riedel’s programmable SFPs (Small Form-Factor Pluggable) are part of the MediorNet line of products. SFPs are modular components that can be inserted into MediorNet frames and other devices to enable the transport of video, audio, and data signals over fiber-optic, coaxial, or CatX cables.

Riedel’s programmable SFPs are designed to provide flexibility and customization for different applications. The SFPs can be programmed with different signal types and protocols, including 3G/HD/SD-SDI, MADI, AES, and Ethernet. This allows users to configure their MediorNet systems to meet specific requirements.

Some of the features and specs of Riedel’s programmable SFPs include:

– Support for a range of signal types and protocols
– Programmable with Riedel’s MediorWorks software or third-party software
– Hot-swappable for easy configuration and maintenance
– Automatic signal detection and configuration
– Low power consumption and compact size

Riedel’s programmable SFPs are used in a range of applications, including broadcast, live events, sports, and corporate AV. By enabling the transport of different signal types over a single network, these SFPs provide a flexible and cost-effective solution for video, audio, and data transport.