Tunable Phase Adjust Delay Modules Features Options Applications up to 660 pSec per module Sub pSec resolution RF Frequencies, 10 kHz – 50 GHz Delays up to 3.3 nsec (5 modules) Manual Delay Up/Down adjust Remote Delay adjust via SNMP High Stability Standalone or 19” Chassis Mount Radar System Calibration Wireless System Simulation Phased Array Antenna System Datasheet Contact Us Description The Optical Zonu Tunable Delay Line is an EIA 310-D 19” 1.5RU chassis that accommodates up to five separately tunable optical delay elements. Each delay element has a delay tuning range of 0 – 660 psec. RF frequencies of 10 kHz to 50 GHz are supported. Tunable Delay Line chassis may be configured several ways. Up to five independent delay plug-in modules (each with 660 psec tuning range) may be configured (each with optical I/O on the front of the chassis). Delay elements may also be cascaded to provide a single delay with tuning range on the order of 3.3 nsec. The Tunable Delay Line Chassis may be monitored and controlled in a number of ways. Locally, status LEDs for each module are present on the front of the chassis. There are multiple ways to monitor and control the

Public Safety – Chassis Based Home / Solutions / Public Safety Wireless over Fiber / Chassis Based BDA(RF Booster) to Active DAS Headend Transport When the off-air donor site is far away, the Antenna Extender may not have sufficient uplink transmit power and downlink sensitivity for a connection of suitable fidelity. In this case, a higher power, low Noise Figure RF booster must be connected directly to the donor antenna. This may mean that the RF booster is far from the DAS headend. Since active DAS typically accepts relatively low RF power and has simplex RF ports, a fiber optic connection between the RF booster and DAS solves the problem. Optical Zonu offers a range of solutions to satisfy your budget and mechanical requirements. Optical Zonu offers a range of solutions to satisfy your budget and mechanical requirements. 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

PS Antenna Extender Home / Solutions / Public Safety Wireless over Fiber / PS Antenna Extender Antenna Extender​ Indoor coverage for Public Safety wireless services is an occupancy pre-req in many jurisdictions across the US. As this requirement is driven by coverage and not capacity, off-air connections to radio towers with wireless emergency services are generally sufficient. Where the signal from the outside cannot penetrate to provide adequate indoor coverage, a DAS (Distributed Antenna System) is used. To pick up the needed Public Safety wireless signal, a directional donor antenna is mounted outdoors with a line of sight view to the donor site tower. This signal must then be amplified to a level sufficient to drive the DAS so a BDA (Bi-Directional Amplifier) or RF booster (FCC terminology) must be used. In some cases, a coaxial cable connection between the donor antenna and the RF booster is not practical or possible to provide the coverage needed. This is usually because the cable run is too long making the RF losses too high. In these cases, Optical Zonu’s Antenna Extender provides a drop-in solution. There are three cases where the Optical Zonu solution is needed to complete the system: Distance: The

Satellite Communication SATCOM 10 kHz to 50 GHz Fiber Optic Transport Between Satcom Modem and Antenna LNB and BUC control and power (13/18V w/wo 20kHz) Full RFoF Monitoring (SNMP, GUI, NMS) Wide Operating Temperature Range 1310 nm, 1550 nm, CWDM, DWDM Wavelengths High SFDR View Product Datasheet J3U Modular System – Redundancy N+1, 1+1 Redundancy Options Redundant Fiber Options Site Diversity 30 MHz to 6 GHz -20°C to +50°C Operating Temperature Range Hot Swappable Module is Controllable and Monitored via SNMP/Web/GUI Occupies one of sixteen module slots in J3U chassis View Product Datasheet eFiberSat 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 J3U or 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 View Product Datasheet Maritime VSAT

J3U Modular System – Redundancy Option Features Options Applications Accommodates RF Over Fiber Transport Plug-in Modules, 10 kHz – 60 GHz 16 Module Slots, Chassis Front 5 Module Slots (compatible with J-Chassis Plug-in modules), Chassis Rear 0°C to +60°C Operating Temperature Range Universal Hot Swappable Power Supplies (AC and DC), 100W each, N+1 Redundant Multiple Local and Remote Monitoring and Control Options Chassis USB Ports for Monitoring via Remote JS14 or S11 Managed Switches Two Self-Adjusting, Field Replaceable Fan Units JS14 Managed Switch, Remote Access via SSH CLI, HTTP Web User Interface, Managed RFoF Graphical User Interface, SNMP v2 and v3 Optical Zonu Patented uOTDR for Fast Fiber Fault Finding Multiple Signal Transport And Power Supply Redundancy Options, Including N+1 RF Over Fiber Transport Teleport RF Signal Distribution RF and Optical Redundancy Antenna Site Diversity Phased Array Antenna Systems Radar Systems RF Signal Transport TVRO VSAT Datasheet Contact Us Description The J3U platform is a modular EIA 310-D Standard 19” 3RU chassis that accommodates (among other things) 16 pluggable, hot swappable fiber optic RF signal transport modules on the front of the chassis. Chassis front insert modules may be configured as single and dual transmitters, single and dual receivers, and

Maritime VSAT Link Features Options Applications Ruggedized Chassis 25 MHz to 3 GHz Bandwidth 0°C to +65°C Operating Temperature Range IP-67 Rated Outdoor Unit 19” 1RU Rack Mounted Indoor Unit Low Phase Noise 10 MHz Transport 15 dB L-Band Gain Gain Adjustment, 30 dB 1310 nm, 1550 nm, CWDM Wavelengths High SFDR, 110 dBm-Hz SSH CLI, HTTP Web UI, Managed RFoF GUI and SNMP v2 and v3 for Remote Monitoring Uncooled DFB Lasers Integrated +20 dB Transmitter LNA Extended High Frequency, 4. 0, 6.0 GHz Extended Low Frequency, 10 kHz LNB Bias 13V, 13V (22 kHz), 18V, 18V (22 kHz) Various architectures for reference clock distribution TVRO VSAT RF Over Fiber Transport Maritime RF Signal Transport Disaster Recovery Oil & Gas Platforms Distance Learning Datasheet Contact Us Description The Optical Zonu Maritime VSAT Link is the first RF over Fiber link especially made for the harsh conditions of maritime deployment and for popular VSAT antenna systems. It enables high-performance over long distance L-band video/voice/data communications and antenna control transmission over single optical fiber. The L Band Satcom Fiber Transport Link provides a simple, cost-effective and reliable RF connection between your satellite antenna and modem in those instances where coaxial cable

Wireless Distribution – Cellular and DAS Home / Solutions / Wireless Distribution J3U Quad Transmitter/Receiver Optical Zonu provides various types of solutions for distribution of wireless signals. Common applications include Cellular carriers, public safety wireless, land mobile radio, and ISM type services. Outside of the applications listed, RF over fiber technology can be applied to any type of RF carrier. If you have an application in mind that is not described, reach out to a sales engineer to discuss your application today View Product Datasheet Cellular to DAS Connectivity One of the most common Wireless transport applications for Optical Zonu equipment is cellular applications. This is simplified by the fact that most wireless cellular bands can be multiplexed into uplink and downlink paths. There are two types of cellular transport that are common; base station to DAS headend, and donor antenna to BDA. For BTS to DAS a single fiber can carry up to 6 individual bands for 2 MIMO or 4 SISO sectors – up to 6 Bands each. This high capacity can save cost of fiber path costs or leases in the case when the infastructure is not owned by the operator. View Product Datasheet Public Safety With

Medium Modules Available Features 1310 nm, 1550 nm, DWDM Wavelengths 30 MHz to 10 GHz Transport Dual Transmitter and receiver options Dimensions 3” x 5” x 1.3” / 78 x 128 x 32 mm Internal WDM Option Features OZ600 OZ81x OZ16xx 1310 nm, 1550 nm, CWDM Wavelengths X X X Transport Range 30 MHz to 3 GHz 30 MHz to 6 GHz 30 MHz to 10 GHz GNSS/GPS Transport X – – Low Phase Noise Transport (10 – 200 MHz) X – – 3 GHz Transport & Repeater X – – Audio & Video RF Transport (DVB-T) X – – RS232 Serial Data Transport – Optional – Optical AGC – Optional – Cooled DFB – – X Dual Transmitter & Receiver Options – – X OZ600 OZ600 description 1310 nm, 1550 nm, CWDM Wavelengths 30 MHz to 3 GHz Transport, OZ600 GNSS/GPS Transport, GNSS/GPS 10 – 200 MHz Low Phase Noise Transport, LPN 3 GHz Transport & Repeater, OZ600 Repeater Audio & Video RF Transport, DVB-T Click Here Additional Info TEXT OZ81x OZ81x description 1310 nm, 1550 nm, CWDM Wavelengths 30 MHz to 6 GHz Transport RS232 Serial Data Transport (optional) Optical AGC (optional) ITEM ITEM Click Here Additional Info

Fixed (19″ Rack) Home / Products / Form Factor / Fixed (19″ Rack) OZC9500 RF Signal Transport 30 MHz to 3 GHz (6 GHz is optional) 0°C to 50°C Ambient Operating Temperature Range Houses up to 8 “OZ5xx-style” Transmitters and/ or Receivers IRIG-B / 1PPS / TTL Signal Transport 10 – 200 MHz Low Phase Noise Reference Transport 1310 nm, 1550 nm, CWDM Wavelengths (optional integrated CWDM mux/demux) Remote Monitoring via SSH, HTML, Embedded GUI Application, SNMP v2 and v3 Local LED and Dry Contact Alarms Dual Universal AC Power Supply Multimode Fiber Capability (Single Mode standard) MTTF Exceeds 10 Years at 50°C 1RU, 19” x 15” Chassi View Product Datasheet OZ9800 30 MHz to 6.0 GHz Bandwidth Houses up to (5) units of OZ600, OZ800, and/or OZ1600 module Front Panel Alarm Indicator 0°C to +60°C Operating Case Temperature Laser diode, photodiode Monitoring and Alarm Dual Universal AC Power Supplies Dry Contact Alarm outputs per each transmitter and receiver 1RU, 19” x 15” Chassi Multimode Fiber Capability (Single Mode standard) MTTF exceeds 10 years at +50°C View Product Datasheet GNSS/GPS Fiber Receiver 1 or 2 GPS Channels – 8 or 16 RF Outputs Auto‐Switchover (2 Antenna) Redundancy Option Point‐to‐Point or