ZONUConnect – Universal Base Station to DAS Fiber Transport Home / Solutions / Wireless and Cellular DAS / ZONUConnect – Universal Base Station to DAS Fiber Transport ZONUConnect is a simple yet universal fiber optic transport system that supports communication between any multi-sector base station and any DAS (Distributed Antenna System) for distances from 300 ft to 16 miles. ZONUConnect solves the remote connectivity problem with a fully-integrated menu of choices for the Point-of-Interface to connect with any base station configuration and allows any DAS Interface to connect to any DAS. It also offers a data-link for easy, web-based set-up and SNMP remote monitoring and control. There are many applications for fiber optic transport system including hotel base station, school campus coverage, CRAN to RRH, CRAN to DAS and many others. System Options and Simplicity One end-to-end fiber transport system for all of your DAS connectivity configurations. Benefits of the ZONUConnect System Minimizing Fiber Count – The BTS-DAS Fiber Transport element uses either CWDM (Coarse Wave Division Multiplexing) or DWDM (Dense Wave Division Multiplexing) to combine multiple independent, wideband RF paths on a single fiber. CWDM permits combining up to six uplink and six downlink paths on a single fiber.

RF over Fiber Antenna Extender Home / Solutions / Wireless and Cellular DAS / RF over Fiber Antenna Extender Home / Solutions / Wireless and Cellular DAS / RF over Fiber Antenna Extender For Cellular Carrier and Public Safety bands Features Options Applications Built-in Bias T for powering antenna LNA Antenna Status Propagation Patent US 10,257,739 B1 Rugged Dust-Tight Packaging Approx Size: 3 x 5 x 1.25 in. Weight: 3/4 lb. 30 MHz to 3.0 GHz Bandwidth High Spurious Free Dynamic Range (SFDR) -40C to +75C Operating Temperature Automatic Optical Power Control Built-in Low Noise Amplifier (LNA) CWDM Wavelength Lasers Internal WDM for single fiber functionality Extended Bandwidth 10 KHz to 3.3 GHz Multimode Fiber Compatibility Wide DC Input Range of +18 V to +30 V Supply Part No. A13-GPS-D31-AS-SLBGPS Fiber Optic Transmitter Part No. A23-GPS-00-AS-SGPS Fiber Optic Receiver Part No. ZA1-1-12-15-DAC to DC External Power Supply Datasheet Contact Us Features Options Ordering Info Built-in Bias T for powering antenna LNA Antenna Status Propagation Patent US 10,257,739 B1 Rugged Dust-Tight Packaging Approx Size: 3 x 5 x 1.25 in. Weight: 3/4 lb. 30 MHz to 3.0 GHz Bandwidth High Spurious Free Dynamic Range (SFDR) -40C to +75C Operating Temperature Automatic

Public Safety Wireless over Fiber Optical Zonu RF Over Fiber Transport for Public Safety Wireless There are numerous Public Safety and Private Radio RF source and booster products that can provide two-way radio service coverage for indoor or blocked locations over coax – but making an efficient connection between these components can sometimes be problematic because of distance or cabling routing issues. Optical Zonu offers a range of RF over fiber optic links that support VHF, UHF, 700 MHz, 800 MHz and 900 MHz. This is a perfect solution for point-to-point and distributed systems for Public Safety, private SMR and government wireless networks. Click Here to View Optical Zonu Public Safety White Paper Optical Zonu offers RF over Fiber transport solutions to enable a range of Public Safety network architectures. Primary RF signal transport  Antenna Extender – Donor antenna to RF booster Point to point Distributed RF booster or radio to DAS headend Base station distribution/simulcast Multi-channel point to point GPS over Fiber GPS antenna to base station Point to point Distributed GPS antenna to network timing server Optical Zonu provides many different types of solutions for public safety applications. There are two types of solutions offered for public safety.

eFiberSat Features Options Applications 30 MHz to 3 GHz Fiber Optic Transport Between Satcom Modem and Outdoor Unit (4 GHz and 6 GHz Bandwidths Available) -20°C to +60°C Operating Temperature Range IP-67 Rated Outdoor Unit 19” 1RU Rack Mounted Indoor Unit 1310 nm, 1550 nm, CWDM Wavelengths High SFDR Low Phase Noise Reference Clock Distribution Automatic Optical Power Control Local LEDs and Dry Contact Alarms (Indoor Unit) SSH CLI, HTTP Web UI, Managed RFoF Graphical User Interface (GUI) and SNMP v2 and v3 for Remote Monitoring Uncooled DFB Lasers Lasers Conform to Class 1 Emission Level Per CDRH and IEC-825 (EN 60825) Standards Integrated +20 dB Transmitter LNA Extended High Frequency, 4. 0, 6.0 GHz Extended Low Frequency, 10 kHz Integrated CWDM LNB Bias 13V, 13V (22 kHz), 18V, 18V (22 kHz) Various architectures for reference clock distribution RF Over Fiber Transport Teleport RF Signal Distribution Antenna Remoting Maritime RF Signal Transport Disaster Recovery Oil & Gas Platforms TVRO VSAT Datasheet Contact Us Description The eFiberSat L/S-Band Satcom fiber transport subsystem provides a simple, cost-effective, and reliable RF connection between a satellite antenna and a satcom modem in those cases where coaxial cable is impractical or additional security is required.

Iridium RFoF Link Features Options Applications System is Transparent to any Approved Iridium Equipment Environmentally Hardened IP-67 Outdoor Enclosures House Active RF and Fiberoptic Components 19” 1RU Chassis Supports Connection of up to Four Phone/Cradles Support for Direct Connection of Phone Docking Stations to Indoor Unit Over Copper Ceiling Mount Indoor Termination Supports Re-Radiating Indoor Antennas Support for Voice and Data Modems Fiber Cabling Supports Location of Indoor Equipment up to 1 km Away From Outdoor Line-of-Sight Antennas Local LED and Dry Contact Alarms Dual Universal AC Power Supply Systems Available to Support Globalstar, Inmarsat, and Thuraya Requirements Lasers Conform to Class 1 Emission Level Per CDRH and IEC-825 (EN 60825) Standards Receive Only Satellite Paging + GPS Transport (contact Optical Zonu)Multimode Fiber Compatibility (not available for systems with two indoor terminations) Large Buildings Underground Facilities, Mines, Tunnels Maritime Oil & Gas Platforms Secure Government Facilities Disaster Recovery Datasheet Contact Us Description Optical Zonu’s Iridium over fiber solution is designed for applications requiring satellite communications where a clear line-of-sight to the Iridium satellite constellation is not available. Outdoor antennas are connected to indoor or underground satellite phone locations via fiber. Indoor equipment may be located up to 1 km away

Satcom Features Options Applications 10 kHz to 50 GHz Fiber Optic Transport Between Satcom Modem and Antenna Wide Operating Temperature Range 1310 nm, 1550 nm, CWDM, DWDM Wavelengths High SFDR Indoor Flange Mount Modules Indoor 19” Rack Mount Equipment Outdoor IP67 Enclosures Various Integrated Amplifier Options to Optimize Gain, NF, IIP3 Low Phase Noise Reference Clock Distribution LNB Bias 13V, 13V (22 kHz), 18V, 18V (22 kHz) SSH CLI, HTTP Web UI, Managed RFoF Graphical User Interface (GUI) and SNMP v2 and v3 for Remote Monitoring RF Over Fiber Transport Teleport RF Signal Distribution Antenna Remoting Maritime RF Signal Transport Disaster Recovery Oil & Gas Platforms TVRO VSAT Datasheet Contact Us Description Optical Zonu Satcom RF over Fiber signal transport solutions provide seamless coverage for all antenna systems regardless of operating environment. RF over Fiber provides a simple, cost-effective and reliable RF connection between satellite antenna and modem in those instances where coaxial cable is impractical. There are many advantages of transporting RF signals over fiber as opposed to coaxial cable. A primary reason for fiber transport is the high RF attenuation of coaxial cabling. For example, at 6 GHz, the RF attenuation of RG-6 is ~30 dB over 100

Tactical Radio Capabilities Optical Zonu offers a variety of electrical-to-optical building blocks that may be integrated into tactical radio systems to extend radio to antenna separation to distances that are both convenient and safe for radio operators. Tactical systems generally are specialized radios that are designed for military or law enforcement use, built to withstand harsh conditions and provide secure communication in critical situations on the battlefield, often featuring encryption and advanced capabilities to minimize enemy interception and interference; essentially, a ruggedized radio built to military specifications for reliable communication in demanding environments. Contact Us Optical Zonu provides small OEM optical converters that may be integrated into existing radio terminals to provide fiber interfaces. Optical Zonu also integrates optics and RF signal management into 19” chassis for rack deployments. Benefits of fiber transport for tactical radio deployments are as follows. Remote Antenna Placement Use OZC’s RFoF to separate mesh radio units from their high-mounted antennas. Ideal on ships, towers, masts, or remote vehicle racks. Critical in EMCON-sensitive operations, improving both safety and signature management. Multi-Radio Co-Site Isolation When TrellisWare, Persistent Systems, or Silvus radios are co-located with other emitters (e.g., SATCOM, SINCGARS, EW), RFoF provides RF isolation and minimizes intermodulation/interference.

Carrier/Data-Center Grade The Optical Zonu GNSS / GPS Product Family For applications that require the highest levels of reliability and redundancy Optical Zonu offers a carrier grade line of GPS equipment designed for use in cellular and datacenter applications. These types of systems are designed where every level of hardware is fully redundant. Multiple transmitters can be installed on different power sources in different locations of the roof to guarantee that service never goes down. The rackmount receivers have multiple power supplies as well as multiple optical receivers. A common output path can be fed with an RF auto switch that will automatically provide a good signal at the output. The above architecture illustrates one of these types of systems. The architecture illustrates the highest level of datacenter redundancy; implementing 4 optical transmitters and 4 optical receivers. Optical splitters are used to provide service to multiple rack locations. Ideally, the outdoor transmitters should be installed on opposite sides of the buildings to provide protection from lightning strikes. These architectures can be custom tailored to specific applications. Depending on how much redundancy or capacity is required, the same commercial components can be added or removed to a system to meet specific

Delay Lines Integrated Fixed Delay Lines RF Frequencies, 10 kHz – 50 GHz Delays up to 110 μsec -20°C to +55°C Operating Temperature Range High SFDR Laser Diode and Photodiode Monitoring & Alarms Laser Conforms to Class 1 Emission Level per CDRH and IEC-825 (EN 60825) Standards View Product Datasheet Switched Delay Lines RF Frequencies, 10 kHz – 50 GHz 0°C to +50°C Operating Temperature Range 1 to 12 Bit Delay Resolution Enable ultra fine delay resolution (up to 1 nsec) for short delays Triple transit echo (TTE) < -80 dBc Hot Swappable Optical Switch Modules Hot Swappable RF Over Fiber Modules Switching Controllable via SNMP/ Web/GUI/CLI View Product Datasheet Adjust Delay Lines Supports up to Four Tunable Delay Elements 1RU, 19” x 15” Chassis Each Delay Element Supports 0 – 660 psec Delay Tuning Range 10 kHz – 50 GHz RF Frequency Range 1310 nm, 1550 nm, CWDM Wavelengths Remote Monitoring/Control via SSH, HTML, Embedded GUI Application, SNMP v2 and v3 Local LED and Dry Contact Alarms Dual Universal AC Power Supply MTTF Exceeds 10 Years at 50°C 0°C to 50°C Ambient Operating Temperature Range View Product Datasheet

Fixed Delay Lines Features Options Applications RF Frequency bands in the  10 kHz – 50 GHz range Delays up to 110 μsec -20°C to +55°C Operating Temperature Range High SFDR RFoF Tx and Rx Monitoring & Alarms Laser Conforms to Class 1 Emission Level per CDRH and IEC-825 (EN 60825) Standards Extended Operating Temperature Range, -20°C to +85°C Fiber Transmitter Integrated Low Noise Amplifier (LNA) Fiber Receiver Integrated Post Amplifier Radar System Calibration Wireless System Simulation Phased Array Antenna System Datasheet Contact Us Description The Optical Zonu Integrated Fixed Delay Line is a standalone flange mount assembly that can implement delays of RF signals up to 110 μsec. Delays are proportional to the fiber length within the delay spool. The RF frequency band to be delayed is customizable and based upon Optical Zonu fiber transport modules within the range 10 kHz to 50 GHz. Each configuration of the fixed delay module is designed for high spurious free dynamic range (SFDR). The fiber transmitter within the delay module is designed around a high power linear isolated cooled DFB laser diode. Fiber receivers within the delay module feature high performance InGaAs photodiodes. The standard RF interface is 50 Ohm SMA, however K or