The Zebra FX7500 has an attractive appearance thanks to its sleek, slim and compact body, which is perfect for almost any organization. In addition, it provides excellent profitability indicators thanks to an impressive set of built-in features and capabilities that increase the return on your business applications. Thanks to the integrated optically isolated interface of the General purpose I/o module (GPIO), you do not need to purchase additional hardware, install it, or provide management. The ability to deploy third-party productivity software tools, such as Microsoft BizTalk and IBM’s Web Sphere, simplifies business operations.
Brand new high-performance radio technology
Increased sensitivity, improved noise suppression, and echo compensation provide the best performance in this class in intensive reading mode: more than 1200 tags per second in FM0 mode.
Approved for use in high pressure chambers
The Zebra FX7500 is recognized as suitable for installation in an ambient air conditioning space and can work effectively inside walls and ceilings.
]]>The faster and more accurate you can accept, describe, complete, and ship products, the more efficient and profitable your business will be. The FX9600’s eight highly sensitive monostatic RF ports guarantee exceptionally high RF scanning sensitivity, which is necessary for higher accuracy and a larger reading radius. This provides the best throughput in its class, even in conditions of intense RF interference when working with complex materials such as metal or liquids.
Best features in its class
With a best-in-class processor and extended memory, the Zebra FX9600 reader provides the features you need to support maximum traffic throughput and complex software applications.
Protected design for the most adverse conditions
The incredibly robust cast aluminum housing and IP53 protection class guarantee reliable and trouble-free operation, even in wet, dusty environments with high or very low temperatures.
]]>The built-in RFID reader antenna is a patch – type, two-element phased array that provides an asymmetric directional pattern to overlap the width of the passageway in the transverse direction and while reducing the radiation in the direction of the passageway, which reduces the possible spurious registration of RFID tags outside the control zone.
The ceiling RFID reader is mounted above the registration area in a suitable way (racks, suspension on cables) with the working side facing down to the control area (the long side of the case along the aisle). The effective registration zone is a cone-shaped area under the antenna.
The size of the registration zone depends on the design of the RFID tags used, the installed capacity of the reader, and the physical properties of third-party objects located near the registration zone, and is determined experimentally in each case. Note that the length of the registration zone along the long side of the antenna is approximately half as long as the length of the registration zone along the short side of the antenna. The most effective registration of a radio frequency RFID tag occurs when it is located directly under the antenna.
]]>The reader is a shock-resistant (IP67) device in a compact case with a large LCD display (5.5 inches).
The S917V2 data acquisition terminal is long-range and the effective reading distance can be up to 10 meters. The device also supports remote administration.
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The antenna has a two-element patch-type design that provides an asymmetric directional pattern to overlap the width of the passageway in the transverse direction while reducing radiation in the direction of the passageway, which reduces the possible spurious registration of RFID tags outside the control zone.
The antenna is mounted above the registration area in a suitable way (racks, suspension on cables) with the orientation of the working side down to the control area (the long side of the body along the passage). The effective registration zone is a cone-shaped area under the antenna.
The size of the registration zone depends on the design of the RFID tags used, the installed capacity of the reader, and the physical properties of third-party objects located near the registration zone, and is determined experimentally in each case. Note that the length of the registration zone along the long side of the antenna is approximately half as long as the length of the registration zone along the short side of the antenna. The most effective registration of a radio frequency RFID tag occurs when it is located directly under the antenna.
The antenna is connected to an RFID reader (or switch) using a 50 Ohm coaxial cable.
]]>The antenna is intended for use in systems designed for automatic identification at the level of individual objects in production, supply chains and storage of goods, and retail trade.
]]>The antenna is connected to an RFID reader (or switch) using a 50 Ohm coaxial cable.
The antenna is fixed in the gate openings or other identification points with the front part of the case to the identification zone.
The antenna housing provides standard mounting for the VESA 100×100 bracket.
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The antenna is connected to an RFID reader (or switch) using a 50 Ohm coaxial cable. The antenna is available in two versions: with a sealed cable entry for the RG-58 coaxial cable (RT-A-900-6.1) or RG-8 (RST-A-900-6.2).
The antenna is fixed in the gate openings or in other identification points with the front part of the case to the identification zone.
The antenna housing has mounting holes for mounting it with M4 screws.
]]>The antenna is connected to an RFID reader (or switch) using a 50 Ohm coaxial cable. The antenna is available in two versions: with a sealed cable entry for the RG-58 coaxial cable (RT-A-900-6.1) or RG-8 (RST-A-900-6.2).
The antenna is fixed in the gate openings or in other identification points with the front part of the case to the identification zone.
The antenna housing has mounting holes for mounting it with M4 screws.
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