If you saw our Award Winning #PoELights at the InfoComm Show last week lighting the AVIXATV Live Studio and have questions about how they may help you save time and money when renovating or setting up a new Studio then our recent blog will give you some insight! POE LIGHTING: MAKING MEDIA PRODUCTION FASTER & MORE ACCESSIBLE In the ever-changing world of media production, efficiency and innovation are key drivers of success. Power Over Ethernet (PoE) technology, although not new, has become a cornerstone in modern media production environments. PoE eliminates the need for traditional electrical wiring, offering a streamlined solution for powering devices like LED lights and DMX lighting controllers, essential for creating the perfect visual setting. This blog post delves into the basics of PoE and its significant impact on the media production industry. What is PoE Lighting? PoE allows a single cable to provide both data connection and electrical power to devices such as IP cameras, VoIP phones, and, most notably, PoE enabled LED lights for media production. For a device to be PoE-compatible, it needs to meet the Institute of Electrical and Electronics Engineers (IEEE) standard, which defines the method of safely transferring power alongside data on Ethernet cabling. To read the entire blog follow this link: https://bit.ly/IKANPoEBlog #InfoCommShow #IC24 #AVIXA #Broadcasting #VideoProduction #FilmProduction #Broadcast #VirtualReality #Video #TVProduction #AV #CorporateCommunications #AVTweeps #Integration #LiveProduction #EdTech #LightingDesign #LEDLighting #AugmentedReality #VirtualProduction #XR #VR #MixedReality #MR #AR #StudioLighting #StudioDesign #FilmLighting #AVNews #AVTech #SystemsIntegration #Prompting #TelePrompter #Studios #LEDStudioLighting #TVStudioLighting #BroadcastLighting #Newsrooms #NDI #PoE #PTZCamera #PowerOverEthernet
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Business Development Executive at Cloom Tech. Ltd| Focus on providing Custom Wiring Harness& Cable Assembly Solution
Mastering Connectivity: 7 Tips for Choosing the Best Custom HDMI Cables for Your Project Hello LinkedIn community! Today, let's embark on a journey into the world of connectivity, focusing on a crucial component that can make or break your project – Custom HDMI Cables. Buckle up as we explore seven essential tips to guide you in making informed decisions when selecting the best custom HDMI cables for your specific needs. Understand Your Project Requirements: The first step in choosing the best custom HDMI cables is understanding the unique requirements of your project. Whether it's high-definition video, audio transmission, or both, a clear understanding of your project's needs sets the foundation for a successful cable selection. Quality Matters – Don't Compromise: When it comes to HDMI cables, quality is non-negotiable. Opt for cables made from high-quality materials to ensure optimal signal transmission and durability. Investing in quality upfront can save you from potential issues down the line. Consider Cable Length and Flexibility: Assess the distance the HDMI cables need to cover and choose the appropriate length. Additionally, consider the flexibility of the cables, especially if they need to navigate through tight spaces or be routed around corners. Flexibility ensures ease of installation and maintenance. Customization for Tailored Solutions: Off-the-shelf solutions may not always meet your project's unique requirements. Explore customization options to tailor the HDMI cables to your specifications. Custom lengths, connector types, and color-coding can make a significant difference in the success of your project. Check for Compliance and Certification: Ensure that the custom HDMI cables comply with industry standards and are certified by relevant organizations. Compliance guarantees compatibility with various devices and adherence to performance standards, providing peace of mind for your project's success. Shielding for Interference Prevention: Interference can degrade the signal quality of HDMI cables. Look for cables with effective shielding to prevent electromagnetic and radiofrequency interference. This is particularly crucial in environments with multiple electronic devices. Future-Proofing Your Connectivity: Technology evolves rapidly, and so should your HDMI cables. Consider future advancements and ensure that the cables you choose have the bandwidth and capabilities to support upcoming standards. Future-proofing your connectivity solutions saves you from frequent upgrades and replacements. In conclusion, the right custom HDMI cables can be the backbone of a seamless and high-performance audio-visual experience. By following these seven tips, you position yourself to make informed decisions that align with the unique requirements of your project. #wire #cable #wireharness #cableassembly
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The first ever TV remote was a mechanical marvel… The Zenith Space Command, one of the first wireless television remotes ever to exist, contained one of the most influential and intriguing buttons in history. Robert Adler’s 1956 creation coined the early term “clicker,” referring to a TV remote. The simplistic Sci-Fi-inspired “clicker” pioneered a durable, clicky action for controlling gadgets. When Zenith first started experimenting with wireless remote controls, it used beams of light that the television could receive to communicate a command. The Flash-Matic was launched in 1955, but only lasted a year in the market before being scrapped due to its sensitivity to full-spectrum light from the sun and lightbulbs. Zenith’s engineers then created a device that didn’t require batteries at all, using sound instead of light. The Space Command uses mechanical engineering, rather than electrical. Pressing a button on the remote sets off a spring-loaded hammer that strikes a solid aluminium rod in the device, ringing out at an ultrasonic frequency. Each button has a different length rod, thus a different high-frequency tone, which triggers a circuit connected to a microphone in the television to finish the command. Besides not requiring batteries, the remote didn’t need to be pointed directly at the receiver. The company chose a battery-less device because it didn’t want customers to think a TV was broken when the battery died. Despite its flaws, the Space Command remained the standard TV remote for 25 years. Although it wasn’t a perfect solution as people found that jingling keys or coins could be picked up by the TV’s microphones and accidentally change the channel. Source below. Daily #electronics from Asia insights – connect with me, Keesjan, and never miss a post by ringing my 🔔. #technology #innovation
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Simplicity is always efective.
The first ever TV remote was a mechanical marvel… The Zenith Space Command, one of the first wireless television remotes ever to exist, contained one of the most influential and intriguing buttons in history. Robert Adler’s 1956 creation coined the early term “clicker,” referring to a TV remote. The simplistic Sci-Fi-inspired “clicker” pioneered a durable, clicky action for controlling gadgets. When Zenith first started experimenting with wireless remote controls, it used beams of light that the television could receive to communicate a command. The Flash-Matic was launched in 1955, but only lasted a year in the market before being scrapped due to its sensitivity to full-spectrum light from the sun and lightbulbs. Zenith’s engineers then created a device that didn’t require batteries at all, using sound instead of light. The Space Command uses mechanical engineering, rather than electrical. Pressing a button on the remote sets off a spring-loaded hammer that strikes a solid aluminium rod in the device, ringing out at an ultrasonic frequency. Each button has a different length rod, thus a different high-frequency tone, which triggers a circuit connected to a microphone in the television to finish the command. Besides not requiring batteries, the remote didn’t need to be pointed directly at the receiver. The company chose a battery-less device because it didn’t want customers to think a TV was broken when the battery died. Despite its flaws, the Space Command remained the standard TV remote for 25 years. Although it wasn’t a perfect solution as people found that jingling keys or coins could be picked up by the TV’s microphones and accidentally change the channel. Source below. Daily #electronics from Asia insights – connect with me, Keesjan, and never miss a post by ringing my 🔔. #technology #innovation
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Interesting post; interesting comments. The history of technology innovation is fascinating. I think it is very interesting to know the steps that have taken us to the present day.
The first ever TV remote was a mechanical marvel… The Zenith Space Command, one of the first wireless television remotes ever to exist, contained one of the most influential and intriguing buttons in history. Robert Adler’s 1956 creation coined the early term “clicker,” referring to a TV remote. The simplistic Sci-Fi-inspired “clicker” pioneered a durable, clicky action for controlling gadgets. When Zenith first started experimenting with wireless remote controls, it used beams of light that the television could receive to communicate a command. The Flash-Matic was launched in 1955, but only lasted a year in the market before being scrapped due to its sensitivity to full-spectrum light from the sun and lightbulbs. Zenith’s engineers then created a device that didn’t require batteries at all, using sound instead of light. The Space Command uses mechanical engineering, rather than electrical. Pressing a button on the remote sets off a spring-loaded hammer that strikes a solid aluminium rod in the device, ringing out at an ultrasonic frequency. Each button has a different length rod, thus a different high-frequency tone, which triggers a circuit connected to a microphone in the television to finish the command. Besides not requiring batteries, the remote didn’t need to be pointed directly at the receiver. The company chose a battery-less device because it didn’t want customers to think a TV was broken when the battery died. Despite its flaws, the Space Command remained the standard TV remote for 25 years. Although it wasn’t a perfect solution as people found that jingling keys or coins could be picked up by the TV’s microphones and accidentally change the channel. Source below. Daily #electronics from Asia insights – connect with me, Keesjan, and never miss a post by ringing my 🔔. #technology #innovation
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"Revolutionize Your Display Setup with Cutting-Edge Matrix Switch and Videowall Solution with Control system! 🚀🎥 Say hello to seamless control and stunning visuals📽! The Matrix Switch with Videowall Solution empowers you to manage multiple inputs and multiple screens from a single device effortlessly, delivering unparalleled flexibility and efficiency. Control System provides a centralized platform to manage and control various AV and IT devices and applications from one interface, eliminating the need for multiple control panels. Whether it's a command center, corporate boardroom, or entertainment venue, witness the future of display technology in action! An Intelligent PDU is a sophisticated power distribution device used in data centers, server rooms, and other critical IT infrastructure environments. It is designed to efficiently and remotely manage power distribution to various connected devices, offering features beyond basic power control. The features are Remote Monitoring and Control, Power Metering, Outlet-level Control, Environmental Monitoring, Power Sequencing, Power Redundancy & Integration with Data Center Infrastructure Management (DCIM) Systems. #MatrixSwitch #Videowall #DisplaySolutions #TechInnovation #controlsystem #LED #transmitter #receiver #LCDscreen #controlapp #webgui #splitter #videosolutions #ipad #switch #fiberopticcable #video #HDMI #VGA #DVI #DP #HDbaseT #encoder #decoder #meetingroom #PDU #intelligent #remote #audiovisualsolutions #audiovideo #fiberoptics
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Characteristics and Applications of LoRa Spread Spectrum Modulation SoC Module LoRa spread spectrum modulation technology, known for its low power consumption and long-distance transmission capabilities, excels in long-range wireless communication. So, what kind of sparks will this modulation technology create when applied to SOC modules? Let's briefly illustrate this with the LoRa-STM32WLE5 LoRa spread spectrum modulation SOC module developed by NiceRF. The LoRa-STM32WLE5 wireless module is SOC wireless module the latest developed by NiceRF Wireless. The LoRa-STM32WLE5 adopts ST's STM32WLE5 chip as the main chip, equipped with a high-performance Arm Cortex-M4 32-bit RISC core, operating at a frequency of up to 48 MHz. supporting 256KB flash memory and 64KB operational memory. This module ensures ample storage and processing capabilities. Additionally, the module is equipped with an industrial-grade crystal oscillator, ensuring stable operation in various working environments. In terms of communication technology, the LoRa-STM32WLE5 adopts LoRa spread spectrum modulation, which features low power consumption and long-distance transmission. This makes the module perform exceptionally well in ultra-long-range wireless communication. It has a high receiving sensitivity of up to -141dBm@BW=125KHz and adjustable transmission power, with a maximum of 22dBm, allowing for transmission distances of over 5000 meters. This characteristic offers extensive application possibilities in fields such as security systems, smart agriculture, and industrial manufacturing. In addition to its technical features, the LoRa-STM32WLE5 also has advantages such as low power consumption, secure encryption, and multiple interface types. Its sleep current is less than 1uA, and its receive current is less than 8mA, making it suitable for scenarios requiring long battery life and high energy efficiency. Additionally, it supports 256-bit hardware encryption and PCROP read/write protection, ensuring data security and integrity. The support for various interface types, including UART, SPI, I2C, GPIO, and ADC, enables it to meet the interface needs of different application scenarios, offering excellent scalability and flexibility. In terms of applications, the LoRa-STM32WLE5 wireless module can be widely used in security systems, smart agriculture, industrial manufacturing, and smart home scenarios. For example: in security systems, it can be used for remote monitoring and alarm systems; in smart agriculture, it can be utilized for agricultural environment monitoring and automated irrigation systems;in industrial manufacturing, it can be applied to equipment monitoring and remote control systems; and in smart homes, it can be used for smart door locks and environmental monitoring. For details, please click:https://lnkd.in/g5fqEvi2 For consultation, please contact NiceRF (Email: [email protected]).
Wireless Transmission Modules - Products Center - NiceRF
nicerf.com
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Beyond cameras, there's a lot to think about in industrial video monitoring systems: ☑️ Vibration mounts ☑️ Monitors ☑️ Storage ☑️ Networking ☑️ Power ☑️ Bandwidth Work with a partner who help build a system, not just provide cameras.
Beyond the Camera: Other Considerations for Industrial Video Monitoring Systems - Opticom Technologies
https://opticomtech.com
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Thanks for everything!