You want to implement an RFID technology
into your process or business? Do you know which technology you want to use?
There are a few different options that are available. Do you know what they
are?
Radio-frequency identification (RFID) uses
electromagnetic fields to automatically identify and track tags attached to
objects. The tags contain electronically stored information, is a generic term
for technologies that use radio waves to automatically identify people or
objects.
Signaling between the reader and the tag is
done in several different incompatible ways, depending on the frequency band
used by the tag.
There are two ways to transmit RF signal
between the RFID reader and tag, one is inductance coupling, the other is
electromagnetic backscattering. Different frequency, the working principle is
also different.
1 Low Frequency (LF) 125kHz – 135kHz
Generally, the frequency band of low
frequency is 10Khz-1MHz, the most commonly used operating frequency is 125kHz
and 135kHz. The tags of this frequency band are passive, through the inductive
coupling mode for energy supply and data transmission, that is transformer
coupling between the coil of reader and the coil of inductor.
Working Features:
Ø Reading distance < 1m, the storage capacity is 125-512 bits;
Ø The operating frequency of Ti is 134.2 Khz and the wavelength is
about 2500m;
Ø Data transfer rate is slow;
Ø Operating frequency not subject to radio frequency control;
Ø In addition to the impact of metal materials, low-frequency can pass
through any object without dropping the reading distance;
ISO/IEC 18000-2, ISO/IEC11784, ISO/IEC11785, DIN 30745
Application
Animal identification, human implantation, tree monitoring,
car anti-theft keyless door system, marathon running system, hotel door lock
system, access control and safety management system, etc.
Low-frequency systems and read-write devices are more
mature, and read-write devices are cheap. However, due to its low resonance
rate, the label needs to make a large inductance winding inductance, and often
need to package off-chip resonant capacitor, so the cost of its label is higher
than other frequency bands.
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2 Hight
Frequency (HF) 13.56MHz
The high frequency band is 13.56 Mhz, with a wavelength of
approximately 22 M. Although the magnetic field region of the frequency drops
rapidly, it is able to produce a relatively uniform read-write region. High
Frequency label products are the most extensive, with higher transmission speed
and distance, but the cost is also more expensive than low frequency label.
These HF tags typically have a good amount of memory and
come in all sorts of different sizes and shapes. These tags are good for
applications where read distances are close, a maximum of ~1.5 meters. The
other positive factor for this is the frequency range and technology are
recognized globally.
Working
Features:
Ø Data transmission is fast, the
typical value is 106Kbit / s;
Ø Storage Capacity: 128 bits -8K;
Ø Support password security or
microprocessor;
Ø It is most used in RFID
application;
Ø In addition to the impact of metal materials, can pass through any
object, but the reading distance drops.
ISO/IEC
15693, ISO/IEC 14443 A, ISO/IEC 14443 B
Application
Passport, E-visa, ID card, driver's license, bus card and
other identification applications, high-frequency applications mainly for
library management, gas cylinder management, clothing production line and
logistics system management, hotel lock management, conference staff access
system, medical logistics system, intelligent shelf management.
NFC
Near
Field Communication typically uses a smartphone or tablet that has NFC
capabilities. Read ranges are typically ~1.6 inches or closer. NFC devices
are used in contactless payment systems, similar to those used in credit cards
and electronic ticket smartcards and allow mobile
payment to replace/supplement these systems. This is sometimes referred to
as NFC/CTLS (Contactless) or CTLS NFC. NFC is used for social networking,
for sharing contacts, photos, videos or files. NFC-enabled devices can act as
electronic identity documents and keycards. NFC offers a
low-speed connection with simple setup that can be used to bootstrap more
capable wireless connections
3 Ultra high frequency (UHF)
840 ~ 960MHz
The common operating frequency of UHF is 860-928MHz, but the
global standard varies. UHF systems transmit energy through an electric field.
The energy of the electric field does not drop very quickly, but the area being
read is not well defined. The reading distance of this band is quite far, range
up to about 10m. At the same time, the Inlay is relatively inexpensive because
it be made in etching or printing.
The application system of liquid goods in UHF still not
mature, disturbed by the human body, and the price of reading and writing
equipment are more expensive, also a high cost for the application maintenance
cost, but it is widely used.
Working
Features:
Ø Long reading range, fast transmit speed;
Ø Multi-tag identification;
Ø Mainly suitable for 3-10m of application
accasions;
Ø The primary frequency band for Internet of
things;
Ø The radio waves can not transmit through
matter such as water, dust, fog, etc;
ISO/IEC 18000-6C, ISO/IEC 18000-6B
Application
Retail,
Government, Entertainment & hospitality, Manufacturing, Transportation,
Healthcare, Commericial services, access control, sports, waste management,
etc.
Working
Environment Effects: air humidity, air particles, wall blocking, metal
Goods impact: moisture content, goods placement
4 Microwave (MW)
433MHz 2.45GHz, 5.8GHz
Microwaves
are used in frequency bands above 1Ghz, with common operating frequencies of
2.45Ghz and 5.8Ghz. Microwave band is similar in characteristics to
applications and ultra-high bands, with long read distances, but more sensitive
to the environment.
Working Features:
Ø Active tag;
Ø Can be used in complex environments such as tunnels and
mountains;
Ø Label stabness and fireability
Ø Long transfer distance, up to 100 meters
Ø With battery, high cost
Application
Applications
such as high-speed non-parking charge (ETC), motor vehicle remote control
locking system (RKE), real-time positioning system (RTL) and personnel
management.
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| automatic identification via barcodes and RFID |
