UWB650 module has a communication range of 1 km and provides positioning accuracy up to 10 cm

Why India’s Drone Industry Needs Periplex: The Hardware Tool Drones Didn’t Know They Needed

As drones fly deeper into critical roles — from agricultural intelligence to autonomous mapping, from disaster response to military ops — the hardware stack that powers them is undergoing a silent revolution.

At the center of that transformation is Periplex — a breakthrough tool from Vicharak’s Vaaman platform that redefines how drone builders can interface with the real world.

What is Periplex?

Periplex is a hardware-generation engine. It converts JSON descriptions like this:{ "uart": [ { "id": 0, "TX": "GPIOT_RXP28", "RX": "GPIOT_RXN28" } ], "i2c": [ { "id": 3, "SCL": "GPIOT_RXP27", "SDA": "GPIOT_RXP24" }, { "id": 4, "SCL": "GPIOL_63", "SDA": "GPIOT_RXN24" } ], "gpio": [], "pwm": [], "ws": [], "spi": [], "onewire": [], "can": [], "i2s": [] }

…into live hardware interfaces, directly embedded into Vaaman’s FPGA fabric. It auto-generates the FPGA logic, maps it to kernel-level drivers, and exposes them to Linux.

Think of it as the “React.js of peripherals” — make a change, and the hardware updates.

Real Drone Applications That Truly Need Periplex

Let’s break this down with actual field-grade drone use cases where traditional microcontrollers choke, and Periplex thrives.

1. Multi-Peripheral High-Speed Data Collection for Precision Agriculture

Scenario: A drone is scanning fields for crop health with:

2 multispectral cameras (I2C/SPI)

GPS + RTK module (2x UART)

Wind sensor (I2C)

Sprayer flow monitor (PWM feedback loop)

ESCs for 8 motors (PWM)

1 CAN-based fertilizer module

The Periplex Edge: Microcontrollers would require multiple chips or muxing tricks, causing delays and bottlenecks. With Periplex:

You just declare all interfaces in a JSON file.

It builds the required logic and exposes /dev/pwm0, /dev/can0, etc.

Zero code, zero hassle, zero hardware redesign.

2. Swarm Communication and Custom Protocol Stacks

Scenario: Swarm drones communicate over:

RF LoRa (custom SPI/UART)

UWB mesh (proprietary protocol)

Redundant backup over CAN

Periplex lets you:

Create hybrid protocol stacks

Embed real-time hardware timers, parity logic, and custom UART framing — none of which are feasible in most MCUs

Replacing Microcontrollers, Not Just Augmenting Them

| Feature | Microcontroller | Periplex on Vaaman | |---------------------------|----------------------------|------------------------------------| | Number of peripherals | Limited (4–6) | Virtually unlimited (30+ possible) | | Reconfiguration time | Flash + reboot | Real-time, dynamic reload | | Timing precision | Software-timer limited | FPGA-grade nanosecond-level timing | | AI compatibility | Not feasible | Integrated (Gati Engine) | | Sensor fusion performance | Bottlenecked | Parallel FPGA pipelines |

Developers Love JSON, Not Register Maps

No more:

Scouring 400-page datasheets

Bitmasking registers for I2C configs

Writing interrupt handlers from scratch

Just declare what you need. Let Periplex do the work. Peripherals become software-defined, but hardware-implemented.

Built in India, for India’s Drone Revolution

Vaaman + Periplex isn’t just about tech. It’s about self-reliance.

India’s defence, agriculture, and logistics sectors need secure, reconfigurable, audit-friendly hardware — not black-box SoCs from questionable supply chains.

Periplex is the hardware engine for Atmanirbhar Bharat in drones.

TL;DR

Periplex lets drones adapt hardware to the mission — instantly.

It replaces tangled microcontroller logic with clean, structured JSON.

It unlocks use cases microcontrollers can’t touch: AI at the edge, dynamic reconfiguration, secure protocol stacks, and more.

And it’s built into Vaaman, India’s first reconfigurable edge computer.

Ready to Get Started?

Explore Vaaman on Crowd Supply Reach out for Periplex SDK access: [email protected]

Raspberry Pi

Drones

Drones Technology

Jetson Orin Nano

Technology

Shengrun Technology launches SIP Bluetooth chip, leading the new trend of IoT technology

On January 9, 2025, Shengrun Technology officially launched the SIP Bluetooth chip using a new packaging process. This chip is not only smaller in size and simpler in peripheral components and circuits, but also achieves a double improvement in overall performance and cost-effectiveness, bringing a new solution to the IoT market.

Shengrun Technology has been committed to technological innovation and product development in the field of wireless communications. The SIP Bluetooth chip released this time is undoubtedly another major breakthrough for the company in Bluetooth technology. Compared with traditional Bluetooth modules, SIP (System In Package) chips have greatly reduced their size through highly integrated design, allowing equipment manufacturers to design miniaturized and lightweight electronic products more flexibly. At the same time, the simplification of peripheral components and circuits also reduces the cost of production and maintenance, and improves the market competitiveness of products.

This Bluetooth chip has a wide range of applications.

Sports and health: sports bracelets, pedometers, sports metering (running, cycling, golf)

Smart home: socket modification, remote control switches, dimming and color-adjusting lighting, door locks, curtains, thermometers and hygrometers, smart scales, environmental smoke detectors, pet supervision.

Health and medical: medical testing/tracking (heart rate, blood pressure, blood oxygen, pulse, body temperature).

Infant care: real-time body temperature detection, smart cribs, anti-loss.

Toys: interactive remote control toys, robots, aircraft, toy cars, anti-loss devices.

Automotive electronics: tire pressure detection, car automatic locks, parking space records, electric vehicle anti-theft devices, data collection and monitoring.

Human-machine interface: HID keyboard, mouse, remote control, handle.

In addition to the SIP Bluetooth chip, Shengrun Technology also revealed that it will gradually launch a series of new wireless communication modules such as WIFI+SIP chip, Zigbee+SIP chip, UWB (Ultra Wideband)+SIP chip in the future. These modules will combine the advantages of SIP technology to further improve the performance and cost-effectiveness of various wireless communication technologies, and provide strong support for the diversified development of the Internet of Things market.

Shengrun Technology's SIP Bluetooth chips have been initially applied in smart homes, wearable devices, medical electronics and other fields, and have won unanimous praise from customers. With the launch of more SIP wireless communication modules in the future, Shengrun Technology is expected to become one of the leading companies in promoting the development of the industry.

The successful holding of this new product launch conference not only demonstrated Shengrun Technology's strong strength in technological innovation and product research and development, but also injected new vitality into the future development of the Internet of Things market. We look forward to Shengrun Technology continuing to leverage its own advantages to bring more high-quality and efficient products and services to the market.

8 gen 3 Snapdragon Samsung galaxy S24 ultra with Wi-Fi 7

Qualcomm Snapdragon 8 gen 3 phones with Wi-Fi 7

Snapdragon 8 gen 3 phones Phones with snapdragon 8 gen 3 Did you know that Wi-Fi 7 is a feature of the recently released Samsung Galaxy S24 Ultra, which is powered by the Snapdragon 8 Gen 3 for Galaxy? As such, prepare for a new age of connectedness. They will explain what it all means for you below.

8 gen 3 Snapdragon Snapdragon 8 gen 3 phone Quick downloads, fluid streaming, and gaming that puts you in the action. Wi-Fi 7 promises high-speed paradise, and the Samsung Galaxy S24 Ultra with Snapdragon 8 Gen 3 for Galaxy is your access. Power users like you get fast speeds and minimal latency with Wi-Fi 7’s Qualcomm FastConnect 7800 Mobile Connectivity System.

Snapdragon 8 gen 3 for galaxy

With WiFi 7, the Samsung Galaxy S24 Ultra with Snapdragon 8 Gen 3 for Galaxy starts a new connection era. Its 320MHz channel capacity, double the previous generation’s, allows it to achieve exceptional throughput. Users may enjoy impressive multi-gigabit peak speeds thanks to Wi-Fi 7, which significantly outperforms Wi-Fi 6E in terms of channel use. Redefining the benchmarks for mobile networking, this performance increase guarantees quicker downloads, uninterrupted access, and better streaming.

Turn on the game, stream, and create Let’s move on to the interesting topic of use cases. Faster speeds are just one benefit of Wi-Fi 7 (though those are also really fantastic). It’s about opening doors to new opportunities in gaming, streaming, content production, and other areas.

Imagine immersive XR experiences that take you to other realms, lag-free gaming that keeps you on edge, and crystal-clear 8K streaming that recreates every detail. Galaxy S24 Ultra with Wi-Fi 7 will go you far.

Snapdragon 8 gen 3 samsung Dependability is crucial for Wi-Fi. Qualcomm Technologies’ FastConnect 7800 is among the first Wi-Fi CERTIFIED 7 solutions. You can be sure that your Samsung Galaxy S24 Ultra will provide excellent performance and easy communication wherever your travels take you thanks to this crucial industry badge of recognition.

Wi-Fi’s future is in store Are you prepared to see wireless connection as it will develop? This powerful combination will elevate your wireless experiences to new levels whether you’re an avid gamer, a streaming enthusiast, or a budding video maker. Prepare to play, broadcast, and produce like never before.

With its exceptional data rates and continuous low latency, Wi-Fi 7 will expedite developing use cases and improve wireless experiences. Qualcomm Technologies has led Wi-Fi breakthroughs and contributed to industry standards for decades. Now, its Wi-Fi 7 solutions push the limits of Wi-Fi.

Use Wi-Fi 7 to noticeably improve performance Bandwidths of 320MHz Channels Thanks to a broader channel and capacity enhancements from 6GHz spectrum, Wi-Fi 7 can achieve enormous throughput boosts. With peak rates of more than 40 Gbps, Wi-Fi 7 outperforms Wi-Fi 6E by a factor of 4.

Multiple Link Operation(MLO) Wi-Fi 7 has a number of multi-link options that can dramatically lower latency and boost throughput. High-Band Simultaneous Multi-Link, the most potent multi-link substitute, creates an aggregated data conduit to provide the best performance even in crowded locations by using two Wi-Fi radios working concurrently in the high bands .

Progress in Modulation to 4K QAM Wi-Fi 7 is standardizing 4K QAM, a sophisticated modulation strategy that may enhance capacity and throughput by boosting peak rates as compared to Wi-Fi systems that use 1K QAM modulation.

Utilizing Flexible Channels Preamble puncturing, which is the foundation of this technological breakthrough, allows for the usage of broader channels even when interference is present.

The Qualcomm FastConnect 7900 is a cutting-edge 6nm manufacturing node single-chip 2×2 connection system with AI enhancements that combines Wi-Fi 7, Bluetooth, and UWB. delivering cutting-edge Bluetooth audio, very fast Wi-Fi rates, and completely new proximity awareness features.

Notable improvements in capacity Thanks to new features meant to handle a high number of users and devices in bandwidth-intensive scenarios, Wi-Fi 7 offers very fast data rates, reduced latency, and enhanced network capacity.

Amazing new encounters Wi-Fi 7 fulfills the promise of cutting-edge experiences with features including improved video conferencing and casting for virtual work and education apps, and lower-latency XR intended for mobile and untethered gaming.

Advancement of Wi-Fi technology Their solutions, which have long been at the forefront of wireless advancements and standards, are designed to satisfy IEEE 802.11 and Wi-Fi Alliance standards while also taking future user demands and capabilities into account.

Galaxy S24 Ultra from Samsung Galaxy with Snapdragon 8 Gen 3 Snapdragon 8 Gen 3 for Galaxy powers Samsung Galaxy S24 Ultra’s next-gen AI features. Galaxy S24 Ultra’s Galaxy AI adjusts to your interests and habits to boost your performance. Additionally, you’ll enjoy premium WiFi 7 connectivity and the best connection possible with Qualcomm FastConnect 7800 Mobile Connectivity System.

Snapdragon 8 Gen 3 smartphone offers various possibilities With the help of generative AI, discover new levels of creativity; create original material intelligently; play games on mobile devices that defy conventions; or rock out to studio-caliber lossless music while staying connected thanks to the fastest mobile connection available.

Your single action, from document creation to the intelligent creation of unique content, is enhanced by the potent Qualcomm AI Engine. One of the quickest speeds in the smartphone market, LLM models can process up to 20 tokens per second. When steady diffusion is achieved, they can produce a picture in a matter of milliseconds. As they usher in a new age of generative AI, they enable the previously unthinkable.

Snapdragon Game High Resolution upscaling games to 8K will captivate you without affecting battery life or performance. The best portable gaming system is the Snapdragon 8 Gen 3.

The very clever Snapdragon 8 Gen 3 redefines what’s possible with top-tier performance in music, gaming, photography, and other areas.

Read more on Govindhtech.com

Wireless Tracking System Could Help Improve the XR Experience - Technology Org

New Post has been published on https://thedigitalinsider.com/wireless-tracking-system-could-help-improve-the-xr-experience-technology-org/

Wireless Tracking System Could Help Improve the XR Experience - Technology Org

A new technology developed by engineers at the University of California San Diego has the potential to make the extended reality (XR) experience smoother and more seamless. The technology consists of an asset localization system that uses wireless signals to track physical objects with centimetre-level accuracy in real-time. Then, it generates a virtual representation of these objects. Applications of this technology range from enhancing virtual gaming experiences to improving workplace safety.

This new asset localization system for XR applications uses wireless signals to track physical objects with ultrawide-band (UWB) tags attached to them. A module equipped with six UWB receivers measures the tags’ locations with high accuracy, providing smooth, real-time tracking in virtual representations of the scene. Image Credit: Bharadia lab

The team, led by Dinesh Bharadia, a professor in the Department of Electrical and Computer Engineering at the UC San Diego Jacobs School of Engineering, presented the technology at the ACM Conference on Embedded Networked Sensor Systems (SenSys 2023) held in Istanbul, Turkey.

Existing localization methods encounter significant limitations. For example, many XR applications use cameras to localize objects, whether it be through virtual reality (VR) devices, augmented reality (AR) glasses or smartphone cameras, said study co-first author Aditya Arun, who is an electrical and computer engineering Ph.D. student in Bharadia’s lab.

“However, these camera-based methods are unreliable in highly dynamic scenarios with visual obstructions, rapidly changing environments or poor lighting conditions,” said Arun. Meanwhile, wireless technologies such as WiFi and Bluetooth Low Energy (BLE) often fall short in providing the required accuracy, and ultrawide-band (UWB) technology involves complex setup and configuration.

The new asset localization system developed by Bharadia’s team at UC San Diego, in collaboration with Shunsuke Saruwatari at Osaka University, Japan, overcomes these limitations by providing accurate, real-time localization of objects with centimeter-level accuracy, even in dynamic and poorly lit environments. The system is also packaged in an easily deployable and compact module, measuring one meter in size, that could be incorporated into electronic devices like televisions or sound bars with minimal setup.

The researchers built their system by harnessing the power of wireless signals in the sub-6 GHz regime. “Unlike camera-based methods, these wireless signals are less affected by visual blockages and continue to operate even in non-line-of-sight conditions,” said Arun.

The system uses wireless signals to pinpoint battery-operated UWB tags that are attached to objects. It consists of two main components. One is a UWB tag that transmits a beacon signal for localization. The other component is a localization module equipped with six UWB receivers that are time and phase-synchronized to receive the beacon signal. As this signal travels, it reaches each receiver at a slightly different phase and time. The system cleverly combines these differences to accurately measure the tag’s location in 2D space.

[embedded content]

In tests, the researchers used their system to play a life-size chess game using everyday objects. They retrofitted mugs with off-the-shelf UWB tags, transforming them into virtual chess pieces. As the pieces were moved around on a table, the system was able to smoothly track their movements in real time with centimeter-level accuracy.

“We found that our system achieves 90th percentile accuracy in dynamic scenarios and performs at least eight times better than state-of-the-art localization systems,” said Arun.

The team is currently refining the system. Next steps include improving the PCB design to make the system more robust, reducing the number of receivers to improve energy efficiency, and adding antennas along the vertical axis to support full 3D localization.

Source: UCSD

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Your JLR Vehicle is About to Get More Secure

Perhaps one of the best things about a lot of modern cars is that they're equipped with a ton of new smart-capable features, which bring some much-welcome add-ons in terms of overall functionality and user experience. With that in mind, Jaguar Land Rover UK (JLR) recently announced that it will be updating select models with updated tech to reduce theft and improve vehicular security measures. The company says that JLR vehicles manufactured starting from 2022 and onwards feature advanced electrical systems that consist of updated anti-theft hardware and software. JLR even dropped some numbers, stating that since January 2022, only 0.07% of new Range Rover and new Range Rover Sports on the road have been stolen, while only 0.3% of new Defenders have been affected since 2020. The company says that it has collaborated with Thatcham Research for almost three decades in order to develop its anti-theft and vehicular security systems. Commenting on these features, Patrick McGillycuddy, Managing Director for JLR UK states: “While vehicle theft in the UK is affecting the whole car industry, at JLR we understand the negative impact this can have on the ownership experience for our clients. Our investment of more than £10 million demonstrates our ongoing commitment to tackling this issue... Through our long-standing collaboration with law enforcement and key partners, our expert team will continue to develop and deploy effective anti-theft measures to ensure clients are protected. It is my personal priority.” JLR adds that its latest security measures can likewise be equipped onto previous generation models, even those out of warranty. Since 2022, more than 65,000 eligible vehicles from 2018 models onwards have so far received security updates via their retailer, according to data from JLR. Richard Billyeald, Chief Technical Officer at Thatcham Research comments: “Thatcham Research acknowledges that organised criminality is of serious concern to all vehicle manufacturers. Along with Thatcham Research, JLR has actively supported police and other partners, adopting a holistic approach to identify potential security vulnerabilities, and working proactively to close them down... We continue to work closely with JLR, including benchmarking of their recently implemented theft countermeasures asexamples of security best practice. We are hopeful these measures will limit further theft exposure.” These new security updates include the Body Control Module (BCM) which prevents thieves from driving away a vehicle without a key. JLR also uses ultra-wideband (UWB) systems to prevent "relay attacks" on vehicles, which allows criminals to intercept signals between a vehicle and the owner's key in order to gain access to the vehicle. With that being said, JLR still recommends owners be diligent and use every available measure to protect their vehicle - for example, users can use the Jaguar and Land Rover ‘Remote’ apps, which provide owners with a connected service that comes with a suite of security features, such as vehicle lock reminders and ‘Guardian Mode’, allowing users to monitor their vehicle, in addition to alarms when the vehicle is tampered with. Read the full article

Lonsdor K518 Pro Vehicle Support List

Lonsdor K518 PRO Key Programmer has built-in LKE, and supports Bluetooth, file management, anti-theft deactivation, access card copy, data Write Initialization, EEPROM data mileage restoration, CAN-FD Protocol & DOIP Protocol.

Which vehicles can work with it? Check the support list below.

Highlight model list:

Support Volvo S40/ S60/ S80/ S90/ V40/ V60/ V70/V90/ C30/ C70/XC40/XC60/ XC70/ XC90 all series IMMO

Support latest Toyota/Lexus chip type 8A/4A smart key programmed with free pin code

Support 2015-2018 Land Rover/Jaguar key programmed via OBD (no disassembly required)

Support Land Rover/Jaguar 2018- Change RFA module to program smart key

Support 2018- Land Rover&Jaguar -Turn off UWB PEPS function to program smart key

Support Latest Mazda smart key all key lost w/o PIN code

Support Latest Honda chip type 4A smart key all key lost

Support Latest Subaru chip type 8A smart key programmed

Support Latest Nissan New Sylphy B18,X-Trail T33 smart key all key lost

Support Latest Hyundai/Kia chip type 4A/47 smart key programmed

Support Latest Ford Mustang IMMO program

Support BMW CAS1/ CAS2/ CAS3/ CAS3+/ CAS3++/ CAS4/ CAS4+/FEM/ BDCIMMO

Support Latest GM CAN-FD protocol IMMO

Support 90% of 2010-2020 GM models read pin code from BCM

Support Volkswagen/ Audi/ Skoda/ Seat MOB platform IMMO and odometer adjustment

Support Ssangyong smart key and mechanical key program

Support Latest Maserati read pin code and smart key program

Support Ferrari (458, F12, F149) key programmed via OBD

Support key programming for European cars such as Renault, Fiat, Opel, Peugeot, Citroen, Alfa Romeo Lancia, Dacia, etc

Support key programming for American cars such as Dodge, Chrysler, JEEP, Buick, Cadillac, Chevrolet, and GMC, etc.

Support key programming for Asian cars such as Toyota/Lexus, Honda/Acura, Mitsubishi, Subaru, Nissan/lnfiniti, Hyundai, Kia, and Proton, etc

Support key programming for luxury cars such as Porsche, Land Rover, Jaguar, Lamborghini, Bentley, Ferrari, and Cadillac, etc

Support key programming for Chinese cars such as BYD, Great Wall, Geely, BAlC, Changan, Roewe, MG, Lynk &Co, etc

Support electric cars such as Leading ldeal, Denza, Leap Motor, etc

Support other functions like chip decoding, chip simulation, chip identification, remote generation, smart key generation, and frequency identification

Support generate key chip like 4D, 46, 48, T5, 7936

Read also:

Lonsdor K518 Pro vs. Lonsdor K518ISE/K518S:

Lonsdor K518 Pro vs. K518ISE (Function, System, Software License, Accessories):

How Does NY15T Series UWB Directly Modulated Transmitter Work?

The NY15T Series UWB Directly Modulated Transmitter works by directly modulating a high-speed directly modulated DFB laser with the digital data to be transmitted. The DFB laser is a type of laser that produces a very narrow linewidth optical signal. This is important for UWB systems because it allows them to transmit data at very high rates without interfering with other radio signals.

The direct modulation scheme used by the NY15T Series UWB Directly Modulated Transmitter is a very simple and efficient way to generate a UWB signal. In direct modulation, the digital data is directly converted to an RF signal without the use of an intermediate frequency (IF) stage. This makes direct modulation schemes simpler and more efficient than traditional IF-based modulation schemes.

The following is a simplified overview of how the NY15T Series UWB Directly Modulated Transmitter works:

The digital data to be transmitted is input to the transmitter.

The transmitter directly modulates the DFB laser with the digital data.

The modulated laser signal is then transmitted through an antenna.

The NY15T Series UWB Directly Modulated Transmitter is a very versatile transmitter that can be used in a variety of applications, including:

Wireless communication systems

Radar systems

Imaging systems

Positioning systems

The NY15T Series UWB Directly Modulated Transmitter is a relatively new product, but it has already been used in a number of successful applications. For example, it has been used in the development of new wireless communication systems that offer very high data rates and low latency. It has also been used in the development of new radar systems that are able to detect and track very small objects.

Overall, the NY15T Series UWB Directly Modulated Transmitter is a very promising technology with the potential to revolutionize a wide range of industries.

An UWB transmitter is a device that sends ultra-wideband (UWB) radio signals. UWB is a short-range, high-bandwidth wireless technology that uses very low power levels.

UWB3000 Module: The Ideal Choice for High-Precision Real-Time Positioning

The UWB3000 module features an innovative design that distinguishes it from traditional Bluetooth or Wi-Fi technologies. It is specially optimized for the physical characteristics of RF signals, enabling ultra-high precision, real-time, and highly reliable positioning and communication capabilities. Based on the Qorvo fully integrated single-chip ultra-wide band (UWB) transceiver IC, the module offers advantages of low power consumption and low cost, making it an ideal choice for achieving precise positioning. Whether in complex industrial environments, smart homes, or IoT applications, the UWB3000 can provide centimeter-level positioning accuracy to meet the needs of various application scenarios.

Core Advantages of the UWB3000 Module:

High Precision Positioning: Compared to traditional Bluetooth and Wi-Fi, the UWB3000 achieves centimeter-level positioning accuracy by optimizing the physical characteristics of RF signals, making it perfect for scenarios that demand extreme precision.

Low Power Consumption and Low Cost: The module uses Qorvo's fully integrated UWB transceiver IC, significantly reducing energy consumption and costs while maintaining high performance, making it an economical and efficient positioning solution.

Support for Multiple Ranging Technologies: The UWB3000 supports bidirectional long-distance ranging, TDoA (Time Difference of Arrival), and PDoA (Phase Difference of Arrival) systems, allowing for flexible application in various scenarios and enhancing system versatility.

Real-Time Communication: The module features real-time communication capabilities, enabling millisecond-level data transmission, ensuring synchronization between positioning and information transmission, thereby improving overall system operational efficiency.

Multi-Antenna Configuration for Diverse Application Scenarios: The UWB3000 module supports various antenna configurations, including built-in FPC antennas, omnidirectional stick antennas, and directional log-periodic antennas, allowing it to adapt to different environmental needs. Whether in complex indoor settings or open outdoor areas, the UWB3000 ensures stable signal coverage and precise positioning performance.

Typical Application Scenarios for the UWB3000 Module

Industrial Automation: In industrial automation environments, precise positioning is crucial for robot navigation and automated transport systems. The UWB3000 can facilitate accurate distance measurement and real-time positioning between devices and between devices and personnel, significantly enhancing the intelligence and safety of production lines.

Smart Homes: The UWB3000 enables precise positioning and management of home devices, improving the automation level of smart home systems. It can be used for smart lighting control, appliance positioning, and security monitoring, providing users with a convenient and personalized smart home experience.

Internet of Things (IoT): The UWB3000 module plays a vital role in the positioning and communication of IoT devices. It ensures accurate positioning and efficient communication in large-scale deployments, offering seamless support in smart cities, smart buildings, and logistics management.

Asset Tracking: With the UWB3000 module, high-value assets in warehousing and logistics can be tracked in real time, helping businesses reduce costs and improve efficiency. Its precise positioning capabilities ensure transparency of item locations at every stage, facilitating management and process optimization.

Drones and Autonomous Driving: The UWB3000 has broad application prospects in the fields of drones and autonomous driving. Through accurate ranging and positioning, it aids drones in precise flight and supports real-time navigation and obstacle avoidance for autonomous vehicles, enhancing operational safety and reliability.

Summary: The UWB3000 module, with its advanced UWB technology, low power consumption, high-precision positioning, and multiple antenna configurations, is the best choice for positioning and communication in complex environments. Whether in industrial automation, smart homes, IoT, or asset tracking, the UWB3000 delivers outstanding performance and stable connectivity, offering users an innovative experience that surpasses traditional technologies.

For details, please click：https://www.nicerf.com/products/ Or click：https://nicerf.en.alibaba.com/productlist.html?spm=a2700.shop_index.88.4.1fec2b006JKUsd For consultation, please contact NiceRF (Email: [email protected]).

GT System USB To UART Bridge (COM4) Driver

Gt System Usb To Uart Bridge (com4) Driver Updater

Gt System Usb To Uart Bridge (com4) Drivers

In below image you can see that “com4” has been allotted for cp2102 IC in my laptop. Drivers for the CP2102 have now been installed successfully. I have tested this drivers and installation process in Windows XP, windows 7. Will test is soon on Windows 8 & windows 10. You can see in above image that Port Number 4 has been allocated to this IC. Drivers Installer for GT System USB to UART Bridge (COM4) If you don’t want to waste time on hunting after the needed driver for your PC, feel free to use a dedicated self-acting installer. It will select only qualified and updated drivers for all hardware parts all alone. To download SCI Drivers Installer, follow this link.

I installed the Silabs CP210x USB to UART Bridge VCP Driver and was never able to get my Vantage Vue to connect to Cumulus so I would now like to go back to using Weatherlink. However, it seems like Weatherlink will not recognize my Vantage Vue because of the VCP. I thought I had removed the Silabs VCP and then uninstalled the Silabs software. But when I plug in my USB cable I get the notification of new hardware being found and then it sets up Silabs VCP. Looking at my Ports (COM &LPT) it has the Silicon Labs CP210x USB to UART Bridge (COM4) So I’ve tried reinstalling the Silabs CP210x USB to UART Bridge VCP Driver software and using the their driveruninstall.exe file but I get an Error Cannot find reference key needed to run the driver uninstall. Does anyone have any suggestion how I can connect back to Weatherlink?

However the ‘Port’ setting for each computer may vary. The CPc module can be connected either a 5V or 3. For this example the operating system chose COM4. Some software will not allow connection to higher COM port numbers. No further action from you is required.

Uploader:MalalabarDate Added:26 August 2008File Size:25.80 MbOperating Systems:Windows NT/2000/XP/2003/2003/7/8/10 MacOS 10/XDownloads:4255Price:Free* (*Free Regsitration Required)

CP2102 USB-to-Serial Bridge Driver Installation

Feedback Comments or questions? Open Source Lab – Student Experience.

It is the key component of our Pololu USB-to-serial adapter:. This document provides you with the necessary drivers along with installation instructions. You can download these drivers here: For this example the CPx module will be used to power the Teensy 2. If usg have a bit operating system, you should run pololu-cpsetup-x Termite is a versatile tool allowing for display and entry of both ASCII characters and raw hex values.

The protocol cp2101 usb to uart set up for 8 data bits, no parity, and one stop bit 8N1. uwb

CP Classic USB Bridge | Silicon Labs

Driver installation will vary system to system but often only involves a ussb installer utility. Windows 10, Windows 8, Windows 7, and Windows Vista users: Windows 8 device manager showing a Pololu CP device. To find the com port to be used in Windows open the Windows ‘Device Manager’ and look under the ‘Ports’ section cp2101 usb to uart the devices list. The CPc module can be connected either a 5V or 3.

Your computer should now automatically install the necessary drivers when you connect a Pololu CP device. If you experience any problems, we recommend you upgrade to the most recent version of your distribution.

Gt System Usb To Uart Bridge (com4) Driver Updater

Open the temporary directory and run the appropriate executable.

Gt System Usb To Uart Bridge (com4) Drivers

From this dialog you can change the COM port assigned to your device. Some software will not allow connection to higher COM port numbers. For this example the operating system chose COM4. Before you connect your Pololu CP device to a computer running Microsoft Windows, you cp2101 usb to uart install its drivers: Toggle menu Go to search page.

This code is tested to compile via avr-gcc under Windows and Linux. Common grounds must always cp2101 usb to uart used for communication systems to allow for reliable signal transfer. After wiring the unit, you can download the C example code below.

No further action from you is required. You must extract the zip archive into a temporary directory. There is a cpx. CP its high integration, built-in USB2. DO NOT attempt to double-click or run any of the files until you have extracted them.

The cp2101 usb to uart should complete successfully.

You may need to install the avr-gcc compiler prior to using these files. We have verified that the CP works with Ubuntu versions 7. You can also view this document as a printable PDF. Mac OS X compatibility: Windows XP will warn you again that the driver has not been tested by Microsoft cp2101 usb to uart recommend that you stop the installation.

Cp2101 usb to uart the appropriate drivers are installed for your ysb, the CP will look like a standard serial port.

Related Drivers

Qualcomm FastConnect 7900: First AI-powered Wi-Fi 7 System

The Qualcomm FastConnect 7900 Mobile Connectivity system was launched today by Qualcomm Technologies.

It is the first processor with Wi-Fi 7, Bluetooth, and Ultra Wideband and AI-optimized performance. FastConnect 7900 uses artificial intelligence (AI) to adapt to different use cases and settings, resulting in significant improvements in power consumption, network latency, and throughput. FastConnect 7900 is a potent suite of proximity technologies that facilitates security-rich device discovery, access, and control. It combines Bluetooth Channel Sounding, Wi-Fi Ranging, and Ultra Wideband technology.

In addition to its technological prowess, Qualcomm FastConnect 7900 makes use of a new class of RF front-end modules and next-generation High Band Simultaneous technology, which is the cornerstone of Qualcomm Expanded Personal Area Network (XPAN) and Snapdragon Seamless experiences and a major Wi-Fi 7 era innovation at the heart of multi-device experiences.Image credit to Qualcomm

Qualcomm Technologies, vice president and general manager for mobile connection Javier del Prado stated, “FastConnect 7900 is a technological feat, leveraging AI to raise the bar and deliver leading Wi-Fi 7 and Bluetooth capabilities while integrating Ultra Wideband all on a single 6nm chip.” “FastConnect 7900 introduces a new way to connect, building on the history of our first-generation Wi-Fi 7 offering, which is available in millions of devices today. The system upgrades the gadgets we like with cutting-edge AI, proximity, and multi-device experiences.

With AI optimization, this 6nm single-chip connectivity solution combines Wi-Fi 7, Bluetooth, and Ultra Wideband (UWB) for unmatched performance in mobile, computing, and XR applications.

With the industry-leading 6nm production node, the Qualcomm FastConnect 7900 Mobile Connectivity System is an AI-enhanced connectivity system that combines Wi-Fi 7, Bluetooth, and UWB in a single-chip 2×2 solution. FastConnect 7900 is brimming with premium innovation, building on an advanced implementation of High Band Simultaneous (HBS) Multi-Link with UWB and Bluetooth Channel Sounding to effortlessly find nearby devices like earbuds, smart tags, or other mobile devices. It delivers ultra-high speeds and sustained low latency across Wi-Fi, leading Bluetooth Audio, and all-new proximity awareness capabilities.

Redesigned Wi-Fi 7 with AI optimization

With a new design and all-new AI-optimized Wi-Fi 7 engineered for maximum power efficiency, FastConnect 7900 is now a tiny 6nm device. Longer battery life and improved power savings are features of new RF FEMs.

Entire proximity awareness functionalities

Wi-Fi Ranging, Bluetooth Channel Sounding, and UWB are just a few of the technologies that Qualcomm FastConnect 7900 provides in order to give users complete proximity capabilities.

Multi-device, next-generation experiences

Improved KPIs, high efficiency, low power consumption, and support for high-throughput HBS are all features of the brand-new RF FEMs. Elevate the amount of seamless absorption in your multi-device activities with Qualcomm FastConnect 7900’s proximity awareness features. For unmatched connection, HBS and HBS Multi-Link are also the foundation of experiences like Qualcomm XPAN and Snapdragon Seamless.

Innovative new sound experiences made possible with Snapdragon Sound and Qualcomm XPAN

Qualcomm FastConnect 7900 provides incredible new audio experiences by supporting both the Snapdragon Sound Technology Suite and the ground-breaking new Qualcomm XPAN. These technologies allow for the delivery of ultra-low power, high-bitrate audio streaming via Wi-Fi, with coverage across the whole house, building, and campus, starting at 96kHz and scaling up to 192kHz. High-quality audio may also be supported by Qualcomm XPAN, and HBS makes use of two concurrent high-band connections to provide the highest audio quality and durability.

Qualcomm FastConnect 7900 Features

Support for 5GHz, 2.4GHz, and 6GHz

320MHz channel bandwidth and 4K QAM modulation allow for a maximum data throughput of 5.8 Gbps (single channel or 160 + 160 with High Band Simultaneous).

Utilizing several streams of widely accessible 5GHz airwaves, a total channel bandwidth of 240MHz and 4K QAM may reach up to 4.3 Gbps.

With 40% less power consumption than previous generation Bluetooth 5.4, HBS technology offers multiple connections of 5 and/or 6GHz performance, spatial audio, and ANT+ connectivity.

Support for Qualcomm XPAN LE Audio and Snapdragon Sound for broadcasting and sharing personal audio allows listeners to join or share streams.

Support for multiple streams of audio in true wireless earbuds.

Qualcomm FastConnect 7900 Specifications

Wi-Fi

Peak Speed: 5.8 Gbps

Generation: Wi-Fi 6, Wi-Fi 6E, Wi-Fi 7

Standards: 802.11b, 802.11g, 802.11n, 802.11ac, 802.11a, 802.11ax, 802.11be

Spectral Bands: 6 GHz

Channels: 320 MHz

Peak QAM: 4K QAM

Encryption: 256-bit AES-GCMP, 128-bit AES-CCMP

Security

WPA3 Enhanced Open, FIPS 140-2, TLS, WPA2, AES-CCMP, PAP, MS-CHAP, PEAP, EAP-TLS, 128-bit WEP, MS-CHAPv2, WPA2-PSK, EAP-TTLS, 64-bit WEP, 256-bit AES-GCMP, Protected Management Frames, WPA3 Personal, WPA3 Enterprise, WPA3 Easy Connect, 128-bit AES-GCMP

Features:

Passpoint, TDLS, OFDMA (UL/DL), Wi-Fi QoS Management, MU-MIMO (UL/DL), Wi-Fi Optimized Connectivity, Wi-Fi Aware R3, Wi-Fi Location, Miracast, Voice-Enterprise, High Band Simultaneous (HBS) Multi-Link, Target Wake Time, XPAN Technology

Bluetooth

Specification Version: Bluetooth 5.4

Audio

Qualcomm aptX audio technology support: Qualcomm aptX Adaptive, Qualcomm aptX Voice, Qualcomm aptX Lossless

Audio Processing Technologies: Snapdragon Sound technology, Low latency Gaming mode with Voice back-channel, LE Audio, Spatial Audio

Other Audio Capturing Technologies: Stereo Recording

UWB

Standards: IEEE 802.15.4z, Fine Ranging (FiRa), Car Connectivity Consortium (CCC)

Transmit Chains: 1

Receive Chains: 3

Features: Time of Flight (ToF), Angle of Arrival (AoA)

Part

Part Number(s): WCN7880, WCN7881

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Forklift Safety Systems

The Forklift Collision Avoidance and Proximity Warning module gives workers and mobile machinery like forklifts and AGVs location awareness in order to prevent vehicle-to-vehicle and vehicle-to-pedestrian collisions.

As a result of UWB tags installed on cars and wearable devices for pedestrians, when a pedestrian approaches a car, the anti-collision system automatically slows down or stops it without the need for driver input.

An area control device can be deployed in loading areas where there is a constant flow of trucks, forklifts, and other vehicles to detect dangerous closeness between pedestrians and vehicles and activate alerts.

Wireless Bus Interfaces and Protocols

Wireless bus stops are a great means to lower the number of accidents that occur while riding a city bus. This system is made up of a wireless getting off bell and also a getting terminal. The cordless getting off bell consists of a button portion that creates a light based on the signal it obtains. The cordless bus stop bell functions through a superhigh frequency to guarantee a high degree of protection for travelers. This tool can be put in a comfy passenger seat. Wireless bus interfaces connect straight to the front-side bus of computing devices. As soon as linked, these gadgets can access each other's resources. When attached, the wireless bus reacts to the signal of the pre-stored wireless getting off bell. This cordless bus technology has a variety of various other benefits as well. View this helpful resources on wireless buses.

Along with supplying secure connectivity, it can likewise sustain two-way video clip. This modern technology has a number of advantages, as well as need to be explored in the future. MicroLan is a preferred cordless bus method. It functions by establishing a master in the network. The master launches task on the bus and also is accountable for staying clear of collisions. A master additionally has procedures in place to streamline the evasion of bus accidents. This master software also retries interaction if it comes across a crash. This basic procedure means that all gadgets on the bus will certainly always have the ability to interact with each other. One-Wire resembles I2C, but has lower information rates as well as longer range. It is usually utilized for little, low-cost gadgets, such as electronic keys. MicroLan is a network that uses 1-Wire. Dallas keys are one example of tools that use the 1-Wire protocol.

The Dallas secret utilizes the 1-Wire bus. The Dallas trick and also iButton both use this protocol. Along with the cables, 1-Wire devices utilize an 800pFcapacitor to save cost. When a master or servant draws the bus low, the interaction occurs. Regardless of the limitations, wireless M-Bus is energy-efficient. Wireless tools that operate on 169MHz range are energy-efficient. The transmitter battery life can last up to 15 years. This allows the device to operate a low-power level while at the very same time giving high-speed and low-latency communication. Nevertheless, if power-hungry tools are linked to a cordless M-Bus network, they will be considerably reduced. The job intends to evaluate the usefulness of wireless bus charging in urban web traffic. Open this page for more information on this topic.

The suggestion is to reduce exhausts while enhancing energy efficiency and also reducing reliance on fossil fuels. Scania is among the firms leading the task together with numerous various other suppliers. ECS will certainly examine the challenges and opportunities presented by cordless charging for buses in order to establish the optimum way to scale the innovation. While the task is in the early stages, it will deserve viewing as it remains to develop. UWB utilizes binary phase-shift keying to transmit data. In this method, the signal is inverted, sending out pulses of equal magnitudes at no and 180 levels of phase. It is extremely efficient in range usage, calling for just half the bandwidth of pulse position modulation. It likewise permits several individuals to connect at the same time with each other. If you want to know more about this topic, then click here: https://en.wikipedia.org/wiki/Bus. If you have a broad location to cover, this is a great choice for your following wireless bus job.