RFID is short for Radio Frequency Identification. It is a technology that use radio waves to automatically identify people or objects. The most common way for identification is using a serial number that identifies a person or object. The antenna attached to the chip is called RFID transponder or an RFID tag. The antenna enables the chip to transmit the identification information to a RFID reader. The reader converts the radio waves reflected back from the RFID tag into digital information that can then be passed on to computers that can make use of it.

NFC is short for Near Field Communication. It is a standards-based short-range wireless connectivity technology that makes life easier and more convenient for consumers around the world by making it simpler to make transactions, exchange digital content, and connect electronic devices with a touch.

RFID is the process by which items are uniquely identified using radio waves, and NFC is a specialized subset within the family of RFID technology. Specifically, NFC is a branch of High-Frequency (HF) RFID, and both operate at the 13.56 MHz frequency. NFC is designed to be a secure form of data exchange, and an NFC device is capable of being both an NFC reader and an NFC tag. This unique feature allows NFC devices to communicate peer-to-peer.

Active RFID tags have a transmitter and a battery as power source. Passive tags have no battery. Instead, they draw power from the an RFID reader, which sends out radio waves that induce a current in the tag's antenna.

They are two different technologies. We don’t need to compare which one is better. Bar codes is visible data, and RFID need to scan to check the data on the RFID reader or PC connected. But bar code could only be scanned one by one. However, UHF RFID tags could be multiple read, which means hundreds of RFID tags could be scanned in one time.

There are 3 different frequency compliant with RFID. LF is short for low frequency, HF is short for high frequency and UHF is short for ultra high frequency. Each frequency has different readers to match the RFID transponder. LF usually used for the ID card (Proximity card or ID key fob), it is easily to used for the access control or personnel identification in the office. HF usually used for higher security requirement venue, such as for the payment, ticketing or events. UHF will be used for the inventory management or automatically track from a few meters.

The most common applications are cashless payment, access control and asset tracking. Increasingly, retail, apparel, aerospace, defense, manufacturing, farms, consumer packaged goods and pharmaceutical companies are looking to use RFID to track goods within their supply chains. Health care providers, energy producers and construction companies are using active RFID system to track large equipment, tools and vehicles.

Every RFID system consists of three components: an RFID reader, a transceiver and a transponder. The RFID reader is a network-connected device that can be portable or permanently attached. It uses radio waves to transmit signals that activate the RFID tag. Once activated, the RFID tag sends a wave back to the antenna, where it is translated into data.

Firstly of all, we have to evaluate your application and the expectation of using RFID tag. Considering to these two factors, we could suggest you the right frequency for your application. Or you could consult your local RFID solution provider to get more specific proposal for it.

Different countries have different parts of the radio spectrum for RFID. The industry has worked diligently to standardize three main RF bands: low frequency (LF), 125KHz to 134.2KHz; high frequency (HF), 13.56MHz; and ultra high frequency (UHF), 860 to 960MHz will be different from countries. Every country has their own RF band.

Different frequency tag would get different reading range. 125KHz and 134.2KHz usually under 10 cm (4 inches). But it is possible to get longer reading range, which needs a big antenna and perfect working environment. For 13.56MHz, usually under 10cm (4 inches), sometimes for the ISO 15693 RFID tag, you could have around 1 meter (3 feet) reading range. For 860-960MHz, usually over 2 meters (7 feet), the reading range will be depends on the RFID tag size and RFID reader antenna power.

Usually we use the chip’s unique ID number for identification, and all the information will be stored on the terminal server, which could make the transmit faster. If there is specific requirement encoding to the chip, the information could be stored according to your software.

LF are designed to read one tag at a time. HF ISO 15693 and UHF could read multiple RFID tags, for instance, the library management and inventory tracking etc.

Sometimes it will be poor readability from a longer distance. Additionally, environmental factors like metal or water located near the tag can cause difficulty in the tag being read.

In general, an RFID Tag represents memory that can be written in any data format. Some chips are more capable than others. Some public data format examples would be:

64-bit UID – LF Tags – typically read-only

ISO/IEC 11784/11785 (FDX-B) – LF Tags - Animal ID

EN 14803 – LF Tags – Waste Management

NDEF – HF NFC Tags – defined by NFC Forum

For 125KHz, the most common standard is ISO 18000-2, for 134.2KHz, the standard is ISO 11784/ISO 11785. For 13.56MHz, the most common standards are ISO 14443A, ISO 14443B, ISO 15693, EPC Class-1 HF1, ISO 18092 NFC. For 860-960MHz, the common standards are ISO 18000-6A, ISO 18000-6B and ISO 18000-6C.

Gen 2 is the short for EPCglobal’s second-generation EPC air-interface protocol (the RFID tags and readers use to communicate). It was designed to work internationally and has other enhancements, such as a dense reader mode of operation, which prevents readers from interfering with one another when many are used in close proximity to one another.

ISO has many standards for RFID that deal with both the air-interface protocol and applications for RFID. EPC deals with more than just how tags and readers communicate. EPCglobal has created a suite of standards to govern how EPC data is shared among companies and other organizations.

The typical RFID tag form factors including RFID sticker, RFID hard tag, RFID key fob, RFID card, RFID wristband, RFID seal tag, RFID animal tag, RFID laundry tag, RFID coin tag, RFID glass tag etc. Please contact us at info@rfidconnectus.com if there is any RFID tag form factors interest you.

For the simple encoding, you could download apps which supports NFC-enabled phones, such as NXP writer, NFC tools etc. For multiple and professional encoding, you could consider our service. It is more secure and faster. Please contact us at info@rfidconnectus.com if you would like to discuss further.

If you have NFC reader and software to support it, of course you could do it by your own.

Website base or App are supported to get this function. Please contact us at info@rfidconnectus.com if you need professionals’ help to start this business.

If the hotel door lock systems is open, also can accept any open key RFID card, you could use our common RFID key card for your hotel. However, if the hotel door lock systems need to pre-program the RFID key card before authorize to the customers, then you would have to check with the door lock systems whether the RFID key card you buy in the market could be used or not. And please also check with the specification for the door lock reader. So the RFID card can match the RFID reader to get data transmitted.

Definitely yes. However, for the ID number format, if you don’t have any special requirement, it would be the standard ABA(8H) format. The ID format output should be as the same as your reader’s output.

For the UHF RFID windshield tag, usually the EPC number could be custom as request.

For the 13.56MHz RFID card, the ID format usually would be Hexadecimal Positive format, but if you need Decimal Positive format or Hexadecimal Reverse format etc, please let us know.

We could help to program some data, but you have to send instructions, such as the information need to stored in which sector and block or in which page in what format etc. Please feel free to contact us at info@rfidconnectus.com if you need technical support.

For the CR80 standard credit card size RFID card, it takes around 8-10 workdays

For the custom size RFID card, it takes 8-12 workdays. If there is any other extra crafts need to added to the RFID card, the production time will be slightly longer.

It takes around 8-10 workdays. However, if there is any other extra crafts need to added to the RFID tag, the production time will be slightly longer.

The RFID silicone wristband procedures will be more complicated than the RFID card or RFID tag, it takes around 15-18 workdays.

Definitely yes, we will evaluate the possibilities to custom the RFID tag to meet your needs. And the cost might be much higher, if the potential order quantity is small, we would like to suggest to check whether you could accept the current developed RFID tag.

We provide printing service for the RFID card, 5-color offset printing machine to guarantee the printing quality. Please contact us at info@rfidconnectus.com if you would like to check the design whether it is OK to proceed order.

Yes, we will choose the suitable antenna to make your cards, and make a custom mould for the shape die-cut.

Logo on the RFID silicone wristband could be flat print or engraved. Please contact us at info@rfidconnectus.com if you would like to check the design whether it is OK to proceed order.

It is OK to custom packaging for your order, please share us your idea about the packaging way, so we could check the cost for your reference.

Available in stock samples could be provided for testing. If you need custom samples for your project, there will be custom sampling cost.

The sampling cost could be refunded if order total amount over US$3000, but the moud cost, antenna design etc couldn’t be refunded.

Firstly please prepare the design document in vector file, for example, Adobe illustrator format etc.

Secondly please share us the chipset name for the NFC card and the potential order quantity, but if you have no idea about it, please share the application you would like to use NFC card.

Thirdly we send you price for reference, if all is OK, we would send you Digital Proof and Proforma Invoice for the payment instructions. Once payment confirmed, we would send the order to the production line.

We are afraid that we don’t provide design service so far, it is better to check with a local design company for further information.

RFID chips' lifetime has 100,000 times in reading and writing. 10 years lifetime in standard temperature -20~65℃. Lifetime of RFID tag form factors will be slightly different from each other, but not that much. From the customers' feedback and experience, normally it has at least 3-8 years working depends on the working circumstance. Any man-made damage is not over our standard warranty policy.

All products are under 100% quality check before delivery. The reasons that made the products don’t work will be investigated. If it is our fault to cause the inconvenience, we would like to take the responsibility to remake them.