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Selected Product Showcase (20) 

  • AC Power Disconnects for Small Cells
    Raycap

    Raycap’s various AC Disconnect Products offer unparalleled versatility for Small Cell power demarcation, protection and distribution. They feature patented Strikesorb® 30-A-2CHV modules capable of withstanding direct lightning-type events (surge currents up to 5kA [10/350 μs]) and induced surge currents up to 60 kA (8/20 μs) to ensure maximum uptime for critical wireless networks.

    AC Power Disconnects for Small Cells
  • Raycap's 5G Small Cell Poles
    Raycap

    Raycap’s STEALTH concealed small cell pole product line is available as fully concealed, concealed or unconcealed pole solutions. Our small cell poles can also be purchased fully integrated, making them easier and considerably less expensive to install. Our team’s 25+ years of engineering, integration and RF concealment experience, combined with an understanding of municipality requirements for concealed poles, puts us in “pole” position to assist carriers to quickly roll out small cell infrastructure into virtually any environment.

    Raycap's 5G Small Cell Poles
  • In-Building Antennas
    Microlab

    These low cost antennas are popular for propagating in-building wireless signals in distributed antenna systems, (DAS).  They are available in SISO or MIMO, Omni or directional, and celing mount or panel mount configurations.

    In-Building Antennas
  • DC Blocks
    Microlab

    Microlab DC Blocks are used to prevent the flow of direct current and low frequency current surges along the inner and/or the outer conductors of a transmission line, while permitting the unimpeded flow of RF signals. Applications include the blocking of current surges that can occur in subway tunnels and rail systems, at base-station/cell-sites during lightening storms, to route DC to tower mounted amplifiers (TMA’s) or whenever DC isolation is required. Units are available with a DC block on the inner and/or outer conductor, and all units are built with special attention to effects of PIM.

    DC Blocks
  • Reactive Power Splitters
    Microlab

    Reactive splitters offered in 2, 3, 4, and 6 ways, use air-line dielectrics with silver plated, metal conductors in aluminum housings. They have excellent input VSWR, high power ratings, low PIM and very low losses usually 0.05 dB or less. Modern design techniques allow bandwidths that extend from 380 to 4200 MHz in housing of convenient length. Reactive splitters are frequently employed in in-building systems because they are virtually indestructible, low loss and low PIM.

    Available with in-line or opposed connectors.

    Reactive Power Splitters
  • Wilkinson power Splitters
    Microlab

    Wilkinson dividers/splitters offered in 2, 3, 4, 6 and 8 ways are most commonly designed on microstrip boards in convenient packaging. They have outputs which are isolated by 20 dB or more, but are generally limited to low power applications because the resistors used in such designs are usually less than 1W. The resistors also cause poor PIM performance so Wilkinson dividers/splitters should not be used when low PIM is a requirement. Microlab offers wireless designs with bands extending from Tetra and P-25 frequencies to 6 GHz.

    Wilkinson power Splitters
  • Directional Couplers
    Microlab

    Directional couplers provide flat coupling of one signal path to another in one direction only (known as directivity) and low VSWR over one full octave or more. They commonly consist of an auxiliary line coupling electrically to a main line, which becomes more complex as the bandwidth increases. One end of the auxiliary line is permanently fitted with a matched termination. Directivity (the difference between coupling in one direction compared to the other) is approximately 20 dB for printed couplers, 25 dB or more for air-dielectric couplers. Directional couplers are used whenever part of a signal needs to be separated off or two signals need to be combined. Microlab offers narrow band and wireless band directional couplers with coupling ranging from 3 dB to 50 dB or more, always reference to the input port.

    Directional Couplers
  • Low PIM Terminations/Loads
    Microlab

    Microlab offers 698 – 2700 MHz low PIM terminations from 5W to 200W in convenient moisture sealed packages, similar to those used in conventional resistive attenuators and loads. A frequent application is terminating the load port of a hybrid combiner when adding two RF signals at a radio base station, so an integrated package of hybrid and low PIM load is also offered.

    Low PIM Terminations/Loads
  • Public Safety and Critical Communications
    Microlab

    There are many challenges faced by Public Safety networks. Their coverage and capacity are limited by buildings’ physical characteristics, interoperability with other wireless networks, mobile radio technology used (e.g., FMN, OpenSky, TETRA and APCO P25), and overall Passive Intermodulation (PIM) performance. Microlab offers a wide variety of reliable RF passive components suited for in-building wireless communication for emergency service personnel. Our trusted products help provide full coverage and increase capacity across independent and/or coexistent mobile radio and cellular networks.

    Public Safety and Critical Communication...
  • Digital GPS Repeater
    Microlab

    Microlab’s digital GPS repeater system can be used for cellular communications UTC synchronization for locations where the GPS signals are not readily available. The system is built with Microlab’s patent-pending Digital SkyTiming Technology™ offering industry-first GPS signal transmission via CPRI for highly accurate timing and location.

    The system offers several configurations for indoor and outdoor applications. Designed to be used in combination with Microlab’s Lossless GPS Signal Splitters.

    Digital GPS Repeater
  • Lossless GPS Signal Splitter
    Microlab

    Microlab’s Lossless GPS Signal Splitters can be used to distribute UTC synchronization to up to 32 remote units using only 2 redundant GPS antenna signals. The GPS signal quality is actively monitored by this system and can be combined with the Microlab Digital GPS Signal Repeater where GPS signals are not readily available. 16-channel and 32-channel options are available with up to +10dB selectable gain. Designed to be used in combination with Microlab’s Digital GPS repeater system. See also Digital SkyTiming Technology™

    Lossless GPS Signal Splitter
  • MCC Series - Modular POI
    Microlab

    Microlab’s MCC™ series Point of Interface (POI) is a Passive Modular Carrier Combiner for Neutral Host Small Cell and D-RAN Architectures. It helps combine RAN remote heads for RF distribution. It has been designed to provide up to 4 Operators SISO configurations for 2 sectors OR up to 4 Operator MIMO for 1 sector. The MCC allows many configurations to support multi-carrier and multi-band Neutral Host MIMO or SISO applications. The design has been optimized for low-loss in a modular enclosure that is compatible with standard 19” Racks. It is passively cooled, so no external power or fans are required.  Both indoor and outdoor models are available.

    MCC Series - Modular POI
  • PCS/AWS Dual Diplexer, BK-745E
    Microlab

     

    Microlab BK-745 is a dual Diplexer which allows combination and separation of the signals in the PCS band 1850 - 1990 MHz with the AWS-WCS bands 1695 - 1780 MHz and 2110 - 2360 MHz. To minimize band inter-reaction, the inputs are well isolated and have minimal insertion loss over their respective frequency bands.

    The Diplexer has been designed using passive, proprietary techniques which minimizes cost and size. At the same time it ensures minimal loss and very high reliability at input powers up to 100W per input.
     

    PCS/AWS Dual Diplexer, BK-745E
  • Ultra-compact PCS/AWS Dual Diplexer, BK-747E
    Microlab

    Microlab BK-747E is a dual Diplexer which allows combination and separation of the signals in the PCS band 1850 - 1995 MHz with the AWS-WCS bands 1695 - 1780 MHz and 2110 - 2360 MHz. To minimize band inter-reaction, the inputs are well isolated and have minimal insertion loss over their respective frequency bands.

    The Diplexer has been designed using passive, proprietary techniques which minimizes cost and size. At the same time it ensures minimal loss and very high reliability at input powers up to 20W per input.

    Double unit mounting configurations for Quad Diplexer applications are available as Microlab Model BK-747EW (quad-stack) & BK-747EX (side-side)

    Ultra-compact PCS/AWS Dual Diplexer, BK-...
  • Low PIM Jumper Cables
    Microlab

    Whether macro cells or in Building DAS venues, the wrong RF cable can have a devastating influence on network reliability and quality of service. Passive intermodulation (PIM) is often thought “negligible” at in-building DAS venues, but this is not the case. The front end of a DAS Carrier Combiner interface is particularly susceptible to PIM interference. High power levels are attenuated and combined at this stage. If PIM levels are not minimized the system’s overall performance is reduced significantly. Our new J-cables are especially designed with these requirements in mind. They are 100% tested to guarantee the best system performance.

    Microlab Model JA and JB series, Coaxial Jumper Cables are built for consistent low PIM performance. Designed for use in all systems where low PIM and excellent electrical performance and mechanical reliability are paramount. With an operating range of DC to 6 GHz, these cables are ideal for all telecommunication applicatio...

    Low PIM Jumper Cables
  • Custom Integrated Assemblies
    Microlab

    Microlab offers custom solutions for In-Building Distributed Antenna Systems (DAS) and D-RAN. Available bands range from 136 MHz to 6GHz, including public service channels and Tetra in the range from 80 to 520 MHz, cellular services extending from LTE 600 to LTE-LAA at 6GHz.

    Microlab’s broad range of catalog components allow rapid creation of special configurations to suit customer needs, whether in-building, on trains, in tunnels, or outdoors.

    To simplify ordering, Microlab offers a variety of standard DAS Carrier Conditioner (DCC) designs, for example 4 low band and 4 high band inputs combined to 4 identical outputs. Our designs come with very low loss specifications, greatly simplifying the task of optimizing the loss budget.

    Microlab's DCC Series® also offers DAS Carrier Conditioners for outdoor deployments. All internal modules are embedded in a NEMA 4 / IP 66 rated enclosure. This ensures the integrity of the RF performance even under harsh envir...

    Custom Integrated Assemblies
  • SmartCoupler
    Microlab

    SmartCoupler is the world’s first Radio Frequency coupler with embedded signal monitoring intelligence. SmartCoupler capitalizes on the Internet of Things ecosystem to monitor the integrity of transmission lines and antennas, deep into a building for emergency communications systems.

    SmartCoupler
  • Hybrid Couplers/Combiners
    Microlab

    Hybrid Couplers have the important characteristic that allows addition of two or more signals without interaction regardless of how close the frequencies of the signals may be. This feature can often eliminate the need for filters which can often introduce signal aberrations. Microlab’s Hybrid Couplers have ultra wide bandwidths, very low PIM and minimal loss. The most commonly recommended hybrid for wireless systems is a multisection, stripline design, covering 700 MHz to 2700 MHz, which includes the present and future cellular, PCS, 3G and 3G/4G extension bands. Other units extend frequency coverage with flat response from 350 MHz to 6000 MHz, but at the cost of greater size and weight.

    Microlab has models specifically designed for use in harsh outdoor environments.

    Microlab's hybrid's offer the highest isolation in the industry, and are offered in :

    Standard bandwidth 617-2700MHZ.

    Ultra-wideband 350-5925MHz.


     

    Hybrid Couplers/Combiners
  • Low PIM Tappers
    Microlab

    Microlab Tappers unevenly split high power cellular signals in fixed ratios from 1000:1 to 2:1 with minimal reflections or loss over the key wireless bands in the range 350 - 5,930 MHz, (there is no coupling 1550 to 1650 MHz). The innovative asymmetric design ensures an excellent input VSWR and coupling flatness across the specified bands, even down to a 2:1 split.

    The lightweight design allows easy attachment to a wall using the supplied bracket. Designed with only a few solder joints and an air dielectric, loss is minimized and reliability enhanced.

    Available in 7/16 DIN, N, and 4.3-10 connectors.
     

    Low PIM Tappers
  • Low PIM Attenuators
    Microlab

    Microlab FY Series is a low PIM, unidirectional Attenuator, using a multi section, quarter wave, stripline coupler with a low PIM cable load. It is designed for indoor applications covering all wireless bands from 694 to 2,700 MHz. This model couples off a portion of the input power to the output. This achieves a flat attenuation response over a wide frequency range, 617-2700MHz.
    The wide frequency range allows use with multiband antennas and leaky cable systems and in wireless base stations. With minimal solder joints and an air dielectric, the dissipative loss has been minimized and reliability enhanced.

    Low PIM Attenuators

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