RFID tag in car

The use of RFID in car are access control, vehicle identification, vehicle tracking.

Access Control – The ability to allow or deny access based on a vehicle having a specific RFID tag is a valuable way to provide a building or parking lot an enhanced level of security. These systems keep out unauthorized vehicles that would otherwise take up space and deters individuals from entering a secure building or lot. Thousands of RFID vehicle access control applications are operative in apartment/housing complexes, secure parking lots, construction yards, etc.

Vehicle Identification – The ability to identify a vehicle and access information about it by reading its RFID tag is a beneficial for companies like car rental agencies, car dealerships, and even car wash facilities. With the addition of software, these companies can pull up car records or purchases by just reading the car’s unique RFID tag. Rental companies and dealerships could have several cars on the lot that are nearly identical, so the unique RFID tag provides them with vehicle identification without trying to find and compare multiple VINs. Car washes (and other companies using car servicing as a business model) can use RFID to uniquely identify cars to enhance loyalty programs and automate transactions. Additionally, states and localities use RFID systems to automate tolling charges and keep traffic flowing more smoothly for those participating in the program.

Vehicle Tracking – Tracking a vehicle while it is traveling hundreds or thousands of miles is not a capability of UHF RFID; but, if checkpoints are set up along the route, the location of the vehicle can be estimated based on when it passes each one. This is being done throughout the nation at large truck weigh stations along major interstates. When 18-wheelers are weighed, their RFID tags are read to pinpoint location and can also be used to document the journey. For companies or persons interested in tracking vehicles in real-time and without setting up expensive infrastructure, vehicle GPS tags are a better solution.

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Tracking Medical Equipment with OPP IOT UHF RFID tag

Hospital facilities are increasingly growing which is making it difficult for the hospital staffs to keep track of assets, patients, doctors, nurses, and medical equipment. That is where a RFID solution can resolve many pain points within the hospital setting. RFID’s (Radio-frequency identifications) are used in hospitals to track all the assets and create an efficient workspace. Hospitals are great locations to use RFID tracking tags. Many hospitals have already begun implementing RFID solutions to track various assets throughout the entire hospital.

In a large-scale hospital facility, it can be difficult to keep track assets and prevent losses. There are many different departments in a hospital and each department tends to hoard the medical equipment for their own use. This makes it difficult for the staff to find the medical equipment when the time is critical. Lost assets cost money, time, and possibly the patient’s success during their hospital stay. Lost medical equipment inventories such as wheelchairs, syringes, hospital beds, monitoring devices, portable x-ray machines, stretchers, defibrillators, oxygen tanks, infusion pumps could delay a patient from receiving critical care when it is needed the most. Portable Hospital Equipment can be worth tens of thousands of dollarsA

A RFID asset tracking solution alleviates the stress in tracking down medical equipment, prevents reordering of equipment, and can locate equipment lost to other departments through-out the hospital making equipment readily available. RFID asset tracking also helps hospitals improve patient care by ensuring medical devices and instruments are sterilized. As well as ensuring all the components of implants are present and accurate before and after a surgery.

RFID asset tracking gives doctors and nurse a real-time view within the hospital software system, they have a complete visualization of all the interactions with the patient. This allows staff to efficiently track the administer medicine, therapy, or even room cleaning. RFID has the ability tracks the doses of opiates ensuring the patient has not taken more than the recommended dosage during a specific time-period.

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Tracking Your Tools With OPP IOT UHF RFID Tag

Thousands of tools worth thousands of dollars are stored on the shelves of hospitals, manufacturing plants, and construction yards, yet many of these tools lack any organization, security, or tracking methods. RFID can be a considerable, upfront investment, but it can help protect a company’s assets. Where some people see a box full of tools, others see a box full of company money with no security measures present.

Tracking tools with RFID requires adhering RFID tags to each utensil in order to maintain and manage hundreds or thousands of tools and minimize loss and replacement. When each tool is tagged, and hardware and software components are setup correctly, the user can have visibility into inventory rooms, tool cribs, and even mobile tool boxes. Construction, healthcare, manufacturing, or any industry or company with thousands of tools on hand could benefit from RFID tool tracking.

In order to successfully track these tools, both hardware and software are required. Tags, readers, antennas, cables, and software together create RFID tool tracking systems for use in warehouses, construction yards, sterilization rooms, and trucks. Five common RFID tool tracking systems are mobile inventory systems, tool picking systems, inventory control systems, check in/check out systems, and tool history systems.

Choosing an RFID tag that will yield the best read range is a complex decision, as it is necessary to understand the limitations and restrictions of the tracked tools. Many tags work well for tool tracking applications, but they can be narrowed down depending on the shape and size of the tool. It is also important to understand how these tools will be tagged, whether that means epoxy, embedding, or screws and rivets. For RFID tag options, as well as hardware options, download our Tool Tracking Buyer’s Guide for a better understanding of where to start.

The required RFID hardware differs greatly depending on what type of tool tracking system is being set up on location. Excluding tool picking systems, most RFID tool tracking systems will require a fixed reader and antennas, but whether those pieces are in a portal depends on the environment and specific system. Handheld readers are very useful in all tool tracking systems as the handhelds help identify specifics tools and read/write RFID tags.

Choosing the Right UHF RFID Tag

Just because a tag is readable doesn’t mean it is the best tag for the job. There are hundreds of UHF RFID tags and readers that are interoperable because they conform to ISO 180000-6C and GS1 EPCglobal Gen 2 standards. Standard compliance is only the starting point for finding the best tag for your operations.

Standards compliance does not guarantee performance in harsh environments, where tags may be exposed to vibration, impact, temperature extremes, chemicals and interference. While it may seem like there are hundreds of tag options for conditions like these, in reality there may only be a few. Details make the difference between success and failure in environments where tags may suffer physical damage or interference. That is why OPP IOT has engineered more than 30 different RFID tags – they all comply with standards, but each is designed to excel in specific, challenging environments.

Too many tag decisions are made by finding the lowest-cost standard tag that will physically fit on the item being identified, which overlooks several important considerations. Choosing the right tags requires knowing something about the variables that affect performance. Here is a brief overview of some important factors to consider.

What will the UHF RFID tag be exposed to?
Think beyond the environment when you read the tag, think about everything it will be exposed to throughout its lifecycle. Many tags that work fine under normal usage conditions can’t withstand the storage, production and cleaning processes that will occur.

How can the UHF RFID tag be attached?
Sometimes the RFID tag itself can perform fine in harsh environment, but the biggest challenge is keeping it attached to the item. A metal tag may withstand high temperatures or immersion in liquid, but its adhesive may not. Ideally, an RFID tag will be embedded within the item it is identifying, which provides maximum protection against impact and exposure. Embedding isn’t always practical. Other attachment options include screws or rivets, string ties, epoxy and adhesives. OPP IOT supports all these options and puts a lot of focus on tag attachment.

What’s the real range?
Sometimes tags are modified for use in rugged environments, by adding a protective coating or using spacers so the tag isn’t mounted directly on metal. These measures can significantly reduce performance for tags that were not designed to be embedded or protected. People usually choose UHF technology because they want read range of at least a few feet – so why reduce the range to mere inches by using a UHF tag that isn’t tuned for metal or loses its range because of the added protection it needs? The shape of the tag and its internal components, the tag material, mounting material, attachment method and surrounding atmosphere (including the presence of metal, humidity, current, etc.) all affect performance. That is why OPP IOT has so many different designs. Getting high quality, reliable read performance requires analyzing multiple variables to determine the best tag. Non-optimized tags may work sometimes, but consistent performance requires an optimized product.

What is Industry 4.0?

This write comes after being influenced by aman who has the capability to build anything from thing to thing; the humility to shatter your Know-how in manufacturing; the Industry 4.0 expertise that is required for the world of the future.

Industry 4.0 is the buzzword in countries wishing toincrease their effectiveness and efficiencies in manufacturing. The number ofacademic publications, practical articles, conferences has been on a rise sincethe German Federal Government announced an ambitious project of industry 4.0 asone of the key initiatives of its high-tech strategy in 2011. For Germany,which has one of the most competitive manufacturing industries in the worldwith almost 90% of all industrial manufacturing processes supported by ICT,Industry 4.0 is just another milestone.

First things first. Let’s start understanding Industry 4.0by the evolution of industrial revolution in the world. The first IndustrialRevolution which can be technically called as Industry 1.0 was theperiod during which agrarian societies made the shift to industrial and urbansocieties using powered, special purpose machinery and factories. Thistransition which took place from 18th to 19th century sawthe emergence of Steam Engines and Textile Industries. Britain is called thebirthplace of Industrial revolution, being the world’s leading colonial power.Colonies were source of Raw Materials and marketplace for manufactured goods.

With the birth of factories and the advent of industrialproduction, Industry 2.0 commenced at the start of the 20th century. This is the period when Henry Ford introduced the assembly linemanufacturing in automotive industries and standardized various processes inmanufacturing giving rise to basic concepts like Factory Designs, Supply chainsand factory operations. This is also the period when Eiji Toyoda introduced JITand led the pathway for Industry 3.0

Industry 3.0 also called as ‘Digital Revolution’began in the late 70s with the advent of technology and the use of electronics.This opened the doors to higher optimization and automated production. (BrianGracely, 2012) The automation powered product design, quality analysis,inventory tracking, supply management through number of web servers, databases,middleware, load balances, firewall supported by Enterprise wide applicationsfrom SAP, Oracle and Microsoft. The FANG (Facebook, Amazon, Netflix, and Google)effect began towards the end of Industry 3.0 giving rise to data which alwayscomes with an adjective ‘big’.

Industry 4.0, the fourth stage of Manufacturing andit is described as twofold. (Drath, 2014) For the first time in the history ofindustrial revolution, a revolution is predicted a-priori which gives theresearchers and the companies in this field to shape the future in a plannedmanner. (Kagermann et al., 2013) the other fold is that the effectiveness ofthe operations and in turn the increased efficiencies and development of newbusiness models, services and products in the market which will have a hugeeconomic impact compared to the other industrial revolutions. (Bauer, Schlund, Marrenbach, & Ganschar,2014) It is estimated that Germany’s initiatives for Industrie 4.0 willcontribute as much as 78 billion Euros to the German GDP by the year 2025.

OPP IOT Technologies Co., Ltd Offers Its Exclusive Range Of Uhf Metal Specific Tag Solutions For High Temperature Environments

OPP IOT Technologies Co., Ltd was founded in 2013 in Fujian, China. It is one of the trusted leaders in products, services, and solutions related to Asset Tracking, Attendance Taking, Access Control and Warehouse Management, Environment monitoring. It is known for leading technology, professional service, sound quality and competitive price.
RFID is radio frequency identification; it is a term which sums up the technologies which use the radio frequencies to recognize objects. RFID has various benefits; it is compared to the traditional barcodes to track products for identification. It does not require a particular tag and has a more extended range reading than the barcode reader. It can also store more data as compared to the barcodes. It allows the readers to communicate simultaneously with multiple tags.

It also allows the customers to snap through the grocery store and checkout counters while an RFID reader identifies all the items in the shopping cart rather than scanning individually. OPP IOT Technologies Co., Ltd is a high new technical enterprise which is dedicated to RFID industry development. It keeps developing and innovating in RFID field, especially the UHF tags. It concentrates on the manufacture, form, and design of the UHF unique tags. The organization can make the tags as per the clients’ order or request with the help of its team of experts who are skilled in antenna design.

The company produces high temperature RFID tags, which means temperatures above 120 degree Celsius to over 200 degree Celsius or even higher. There are few factors which one should know before using high temperatures. The highest rated temperature of the RFID tag, the exposing time at a particular temperature and the cooling time before the tag is written or read.

The company is included in producing high temperature UHF RFID tags; this RFID is overgrowing. It is one of the crucial components which construct the UHF RFID system. It presents the verification of the design and measurement techniques for UHF RFID tag IC; it meets the requirements for the designer’s demands for test purposes and checks at a low price.

The organization produces UHF tag for high temperature environments. UHF is a band of electromagnetic radiation with a radio frequency ranging between 300MHz and 3 GHz (3000MHz). It is widely used for data transmission due to its high rate and short wavelength. The antennas used for UHV are stout and short, and it is directly proportional to the size of the waves. The frequency band decides antenna size; the higher frequency band have a less conspicuous antenna. The broadcasting of UHF is shorter than the VHF, and this is the reason boosters are used after few hundred kilometers. It is used by two-way navigation communication radio and security systems and wireless local area networks.