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Primex ClassicSync OneVue 1 Watt Transceiver with External Antenna Install Guide 2019 Primex. All Rights Reserved. The Primex logois a registeredtrademark of Primex. All other trademarks are the property of their respective owners. 4/3/2019. Primex, Inc. |
965 Wells Street | Lake Geneva, WI53147 | www.primexinc.com | Ph: 1-262-729-4853 DRAFT Legal Notice Copyright 2019 Primex, Inc. All rights reserved. Printed in the USA. Information in this document is subject to change without notice. Software described in this document is furnished under a license agreement or nondisclosure agreement. The software may be used or copied only in accordance with the terms of those agreements. No part of this publication may be reproduced, stored in a retrieval system, or transmitted in any form or by any means, electronic, mechanical or otherwise, for any purpose, without the prior written permission of Primex, Inc. Primex, Inc. Primex is a leading provider of synchronized time and environmental monitoring solutions. Our solutions automate and maintain facility compliance, increase efficiencies, enhance safety and reduce risk for organizations in the healthcare, education, manufacturing and government vertical markets. Worldwide Headquarters 965 Wells Street, Lake Geneva, WI 53147 Phone: 1-262-729-4853 | email: info@primexinc.com | www.primexinc.com 2 OneVue 1 Watt Transceiver with External Antenna Install Guide DRAFT Regulatory Compliance Federal Communications Commission (FCC) / Industry Canada (IC) Primex OneVue Transceiver TX400 License Requirements l Operation of the Transceiver requires a FCC/IC operating license, which must be obtained prior to operation. l FCC licenses must be renewed every 10 years and the IC licenses must be renewed annually. l As a service, Primex will file the license application if the end-user desires it. An end-user that does not want Primex to file for the original site license will be required to complete a waiver form, file the required application, and receive a valid license from the FCC/IC prior to use.If you have any questions or need any assistance, please contact Primex Technical Support. l Primex requires a copy of the licenses in order to complete the factory presets. Product Compliance l This device complies with Part 90 and Part 15 of the FCC rules and RSS-119 of Industry Canada. l Operation of this device is subject to the following two conditions:
1. This device may not cause harmful interference. 2. This device must accept any interference, including interference that may cause undesired operation. Changes or modifications to any part of the Primex System components not expressly approved by Primex could void the users FCC/IC authority to operate the equipment. Radio Frequency (RF)Exposure To comply with FCC/IC RF exposure requirements for mobile transmitting devices, the Transceiver is only to be used or installed in locations where there are at least 35 cm separation distance between the antenna of the Transceiver and all persons. To comply with FCC OET65 and Industry Canada RF exposure requirements, the antenna is only to be used or installed in locations where the following antenna separation guidelines exist when the Transceiver is in operation. Distance above roofline is for direct line of sight only. Distance Above Roofline: 8.95 ft. (2.72 m). Distance above roofline illustration 3 DRAFT Radio Standards Specification (RSS) This device complies with Industry Canada licence-exempt RSSs. Operation is subject to the following two conditions: (1) This device may not cause interference, and (2) This device must accept any interference, including interference that may cause undesired operation of the device. Le prsent appareil est conforme aux CNR d'Industrie Canada applicables aux appareils radio exempts de licence. L'exploitation est autorise aux deux conditions suivantes:
(1) l'appareil ne doit pas produire de brouillage,et
(2) l'utilisateur de l'appareil doit accepter tout brouillage radiolectrique subi, mme si le brouillage est susceptible d'en compromettre le fonctionnement. The device meets the exemption from the routine evaluation limits in section 2.5 of RSS 102 and compliance with RSS-102 RF exposure, users can obtain Canadian information on RF exposure and compliance. Le dispositif rencontre l'exemption des limites courantes d'valuation de routine dans la section 2.5 de RSS 102 et la conformit l'exposition de RSS-102 RF. Les utilisateurs peuvent obtenir l'information canadienne sur l'exposition la RF et la conformit avec celle-ci. This equipment should be installed and operated with a minimum distance of 35 centimeters between the radiator and your body. Cet quipement devrait tre install et utilis avec une distance minimum de 35 centimtres entre le radiateur et votre corps. 4 OneVue 1 Watt Transceiver with External Antenna Install Guide DRAFT Important Safety Instructions READ ALL INSTRUCTIONS BEFORE INSTALLATION, OPERATION, OR MAINTENANCE OF PRODUCT. Safety Instructions Some of the following information may not apply to your particular product model; however, as with any electronic product, precautions should be observed during installation, operation, and maintenance. l Never operate the Transceiver without the antenna being properly connected to the Transceiver.Operating the Transceiver without an antenna can lead to permanent damage of the Transceiver and poses a safety risk. l Do not touch any of the antennas while broadcasting. l Standard acceptance procedures must be followed prior to operating this equipment in the proximity of life support systems. l Do not operate the Transceiver outdoors, in wet areas where there is standing water, or in areas where there is condensation or the risk of condensation. Use in any of these environments will damage the Transceiver and void the warranty. l Do not open the Transceiver to alter the internal elements in any way. This will void the warranty and could lead to unsafe conditions, malfunction, and violations of FCC/IC regulations. l Do not use a metal ladder during installation of the external antenna. l During antenna installation, be sure to wear shoes with rubber soles and heals and wear protective clothing with long sleeves and rubber gloves. l Do not install the antenna on a wet or windy day when lighting or thunder is in the area or near power lines. Power lines, telephone lines, and guy wires look the same. As a precaution please assume any wire can electrocute you. The installation, maintenance, or removal of an antenna requires qualified, experienced personnel. The installation instructions are written for such installation personnel. Antenna systems should be inspected once a year by qualified personnel to verify proper installation, maintenance, and condition of equipment. Primex disclaims any liability or responsibility for the results of improper or unsafe installation practices. 5 DRAFT Overview of the Primex ClassicSync Solution Architecture Time synchronization Transceiver power-up sequence Transceiver power failure Specifications Specifications: OneVue 1 Watt Transceiver Specifications: GPS Receiver Specifications: Ground plane omnidirectional antenna Install OneVue Transceiver with External Antenna Before you begin Required tools and equipment Install location requirements Step 1: Assemble ground plane omnidirectional antenna Step 2: Assemble antenna mast Step 3: Secure antenna to mast Step 4: Route antenna LMR 400 coaxial cable Step 5: Mount antenna mast Step 6: Ground antenna mast Step 7: Install GPS Receiver Step 8: Weatherproof and secure antenna cabling Step 9: Ground Transceiver Step 10: Establish Transceiver connections and apply power Step 11: Configure Transceiver settings Step 12: Verify Transceiver is operational 8 8 8 8 9 10 10 12 13 14 14 14 14 15 15 16 16 16 21 21 23 23 24 24 27 s t n e t n o C DRAFT Technical Support Five Year Limited Warranty 28 29 7 DRAFT Overview of the Primex ClassicSync Solution Learn how the solution works and how the system devices provide synchronized time. Architecture The Primex ClassicSync solution provides synchronized time using our 72-73 MHz unique broadcast frequency to transmit a wireless signal to all system devices. The frequency allows the system wireless signal to broadcast through common building materials and across longer distances with less potential for signal interference. The solution can be configured with either a GPS or NTP time source. The system consists of a single Transceiver with an internal or external antenna, a GPS Receiver (optional), Repeater Transceiver (optional), and the system clocks and other devices in a single building, to a campus wide deployment. Time synchronization Once a Transceiver has received its time, from either a GPS Receiver or NTP time source or another Transceiver, it sets its internal clock. It then transmits time information over the 72-73 MHz wireless radio frequency signal to the secondary system devices. As a result, the system devices are precisely synchronized to each other and all time and events are kept current. Time Source: Transceiver receives time from a GPS Receiver or a NTP server and then broadcasts received time and event schedules to clocks and other system devices. The Global Positioning System (GPS) Receiver draws time information from the U.S. Government Satellites. The GPS Receiver then sends the time to the Transceiver. Frequency and channel: Transceiver operates on channels with 20kHz bandwidths and 72-73 MHz frequency and is preset to one of the channels licensed by the FCC/IC to minimize interference on these frequencies and channels. By factory default, a Transceiver with an external antenna: transmits (broadcasts) its synchronized time to the system clocks and devices from the 39th to the 6th minute of the next hour and changes to a standby mode during the 7th to the 38th minute of the hour (standard broadcast schedule). Transceiver also has a power-on transmit schedule that sets the duration of time the Transceiver transmits (broadcasts) a signal when first powered on (factory default 8 hours). Analog Clock signal search frequency: six pre-scheduled times a day at 10:01, 2:01 and 6:01 a.m. and p.m. lock time (not the actual time of the day), a clock's receiver turns on to search for a Transceiver signal to receive a time update, starting with the previously stored channel number. Digital Clock/Timer signal search frequency: every 10 minutes on the 5's (5, 15, 25, 35, 45, 55 minutes) of the hour, a clock's receiver turns on to search for a Transceiver signal to receive a time update. Transceiver power-up sequence 1. When power is first applied, it searches for a time source. It first searches for GPS and then NTP. 2. 3. 4. If a time source is not found, it uses its onboard real time clock (RTC) and continues to search for its time source. If a time source is not found, the Transceiver is set to a warning state with a time sync failure status, its front panel Caution LED status indicator is illuminated, and transmits its state to OneVue at its scheduled check-in time (default every 5 minutes). If it fails to get time from either source consecutively for 30 minutes (default), it enters an alarm state, its front panel Error LED status indicator is illuminated, and transmits its state to OneVue at its scheduled check-in. 8 DRAFT 5. If the RTC clock is off significantly, the Transceiver it enters a critical error state, its front panel LED Error status indicator is illuminated, and transmits its state to OneVue at its scheduled check-in. Only occurs after the first 30 minutes of operation if the RTC continues to be significantly off. Transceiver power failure During a power failure, the Transceiver continues to track time with the last valid time signal that it received. Once the power had been restored, the Transceiver begins to broadcast (even without a valid time signal) to the down-stream components. Once the Transceiver has been powered on for a few hours, it's capable of keeping track of time off its internal backup power for up to eight hours. l The system has a fail-safe design. If the failure of a system component or power loss to a component occurs, all down-stream components continue normal operations using their own internal time base. If after a specified period of time communication has not been restored, a visual indicator on its front panel is illuminated and its state is sent to OneVue during its next scheduled check-in. It remains in this state until communication is restored. NOTE In the event power to a Transceiver is shut off and turned back on (power cycled) the Transceiver will broadcast continuously based on its Power-on Transmit schedule (default 8 hours). Power cycling the Transceiver can be used to set/reset system devices. It's not recommended to power-cycle a Transceiver when in an error state, as indicated when its front panel Error LED indicator is illuminated. OneVue 1 Watt Transceiver with External Antenna Install Guide l 9 DRAFT Specifications Primex OneVue Transmitters use a 72-73 MHz broadcast frequency to transmit a wireless radio frequency to seamlessly synchronize every clock and independently to display the exact same time. Leveraging the precision of GPS satellite or Network Time Protocol
(NTP) time, the Transmitters wirelessly synchronize time with Primex 72-73 MHz analog and digital clocks, timers and other receivers throughout a facility. Specifications: OneVue 1 Watt Transceiver Specification Parameter Operating Frequency Range 72-73 MHz Channels 49 channels available Channel Bandwidth 20KHz Dimensions 17 in. L x 12 in. W x 1.7 in. D (43.2 cm x 30.5 cm 4.32 cm) Maximum Transmission Radio Technology 1 Watt (at Transceiver) Narrowband FM Weight 9 lb. Power Supply Input: 120 VAC, 50/60 Hz, 0.6 Amp Output: 9 VDC, 2.78 Amp 3 ft. (0.9 m) cord Bluetooth low energy (v5) wireless technology. To allow pairing with OneVue Device Configurator app for configuration and setting management. Time Zone, Daylight Saving Time with bypass option, up to three NTP time sources, Power-on Transmit Schedule, Normal Transmit Schedule, Firmware, Transmit Channel, and Repeater Channel. Bluetooth Technology User-defined settings
(OneVue Device Configurator app) 10 OneVue 1 Watt Transceiver with External Antenna Install Guide DRAFT Parameter User-defined settings
(OneVue Sync software) Front Panel Rear Panel Legacy Clock Time Zone, Alarm Delay, Firmware, Unresponsive Timeout, and Check-in Interval. Specification Four LED status indicators (Power, Transmit, Caution, Error) and Bluetooth labeled push-button to pair Transceiver with the Primex OneVue Device Configurator (ODC) app. Network LAN port (RJ-45 Ethernet, 100/10 Mbps, 802.3 Ethernet), GPS In port (MiniDIN 7-Pin), External Antenna connector (coaxial, n-male), Baseboard Monitor port (MiniDIN 9-Pin, for use with 5 or 30 Watt Transceiver only), dry contact closure relay panel (for use with specified Primex products), and pin port to allow end-user connection initiation (check-in) to the Primex OneVue cloud-based software. Top Panel Internal Antenna connection. Operating Range 32 to 122 F (0 to 50 C), non-condensing environment NOTE Canadian Notice: 5 or 30 Watt Transceiver with an external antenna: The manufacturer rated output power of this equipment is for single carrier operation. For situations when multiple carrier signals are present, the rating would have to be reduced by 3.5 dB, especially where the output signal is re-radiated and can cause interference to adjacent band users. This power reduction is to be by means of input power or gain reduction and not by an attenuator at the output of the device. 11 DRAFT Specifications: GPS Receiver A GPS Receiver draws time information from the U.S. Government Satellites, providing the system with Coordinated Universal Time
(UTC). l Mounted to rooftop, pole, or window (not a Low-E glass window). l GPS Receiver sends UTC time to the Transceiver via the NMEA 0183 standard protocol. l Optional GPS extension cable. A specially designed low-resistance cable to extend the distance between GPS Receiver and Transceiver. The maximum total length of the cable cannot exceed 200 ft. (60.96 m). Parameter Specification Cable 10 ft. (3.05 m) cable 50, 100 and 200 ft. (15.24 m, 30.48 m and 60.69 m) extensions available. The maximum total length of the cable cannot exceed 200 ft. (60.96 m). Dimensions 2.5 in. W x .75 in. H (6.35 cm x 1.91 cm) Mounting Bracket 3.5 in. W x 1.4 in. H x 4.5 in. D (8.89 cm x 3.56 cm x 11.43 cm) Included for rooftop or window installation. Weight 0.75 lb. (.34 kg) Operating Range
-32 to 158 F (-30 to 70 C) 12 OneVue 1 Watt Transceiver with External Antenna Install Guide DRAFT Specifications: Ground plane omnidirectional antenna A Primex Transceiver's external antenna is a heavy duty, light weight ground plane antenna designed to be mounted outdoors. l Designed for mounting to a 1.25 in. (3.17 cm) rigged galvanized conduit. l Best operation is obtained when the ground plane rods are above all objects. Parameter Specification Frequency Range 6880 MHz Gain Impedance VSWR Polarization 0 dBd 50 ohms
<1.5:1 Vertical Maximum Input Power 75 Watts (at 50 C) H-plane Beamwidth Omni E-plane Beamwidth 78 degrees (half-power) Connector Weight Dimensions N-female 4.4 lb. (2 kg) Radiating element: 29.4 in. H (74.7 cm). Ground radials: 41.5 in. W (105.41 cm) Lighting Protection Direct Ground Wind Survival Rating*
120 mph (200 kph) Compliance FCC Part 90 Accepted. IC RSS-119 Accepted NOTE
* Mechanical design is based on environmental conditions as stipulated in EIA-222-F (June 1996) and/or ETS 300 019-1-4 which include the static mechanical load imposed on an antenna by wind at maximum velocity. 13 DRAFT Install OneVue Transceiver with External Antenna Leveraging the precision of GPS satellite or Network Time Protocol (NTP) time, OneVue Transmitters wirelessly synchronize time for analog and digital clocks, timers and other Repeater Transmitters throughout a facility. Before you begin l Review the Installation Guidelines and identify the installation location of the Transceiver and system components. l Inspect system components to verify packaging includes all supplied parts for each system component and verify no damage has occurred during shipping. l Do not install or attempt to set the system wireless clocks or devices until the Transceiver and its components are installed and configured. Transceiver is powered, its time source is configured and time has been received, and is fully operational. Required tools and equipment To following tools and equipment below are required to install a Transceiver with an external antenna. l Hammer drill l Power drill l 3/4 inch concrete drill bit, 18 in. (45.7 cm) long l Penetrating mount only: 5/8 inch concrete drill bit, 18 inch (45.7 cm) long l 1/2 inch wrench l 3/4 feet deep well socket with ratchet l 10 inch (25.4 cm) adjustable wrench l Phillips screwdriver l Flat head screwdriver l Linemans pliers l Shears/scissors l Silicone caulk; required to seal cabling/ground penetration l Transceiver rack (recommended) l Building ground near Transceiver l Ground near transmitting antenna Install location requirements When planning the system installation of a Transceiver with an External Antenna, Primex recommends taking into consideration the below guidelines. Location is extremely important to ensure the best operation of your system. l Transceiver should be located on the tallest building near center of area of coverage. In a multi-story building, locate Transceiver on the top floor; significantly improves coverage to the lower floors due to the umbrella pattern of transmission. l Transceiver must be located within 100 ft. (30.4 m) from the antenna. The maximum cable length allowed between the external antenna and Transceiver is 100 ft. (30.4 m). The system is attenuated to the 100 ft. (30.4 m) of coaxial cable; typically figure between 80 to 85 ft. of usable cable length. l Transceiver must be located a minimum of 4 ft. (1.2 m) above the floor. l Transceiver must be located within 3 ft. (0.9 m) from a 120 VAC electrical outlet. 10 AMP dedicated service recommended. l Transceiver must be located in a controlled environment that is 32 to 122 F (0 to 50 C) and non-condensing humidity environment. l External antenna must be located at a minimum of 15 ft. (4.5 m) clear from the radius of other antennas. 14 OneVue 1 Watt Transceiver with External Antenna Install Guide DRAFT l External antenna must be located at least 10 ft. (3 m) from normal traffic area. l External antenna mast must be located within 10 ft. (3 m) from earth ground. l External antenna cannot be placed on or directly adjacent to walls or metal structures. l External antenna cannot be located near television receiving antennas. l External antenna cannot be mounted indoors or in enclosed areas. l External antenna cannot be mounted to pre-existing antenna towers. If this is desired, contact Primex prior to installation. Step 1: Assemble ground plane omnidirectional antenna 1. After removing the antenna from the shipping box, inspect all contents to ensure all parts are on hand and no damaged has occurred during shipping. 2. Screw the three radials into the base of the antenna. 3. Assemble the U-bolt on the base of the antenna. The Mast is to be aligned with the top of the mast channel. Step 2: Assemble antenna mast The Antenna Mast has two sections secured by a hex bolt during shipment. The two sections include a5 ft. x 1.25 in. (1.52 m x 2.54 cm) rigid galvanized conduit and a 5 ft. x 1 in. (1.52 m x 3.17 cm) rigid galvanized conduit. NOTE 1 Watt Transceiver with external antenna only: Non-penetrating mounting kit only includes the 5 ft. x 1.25 inch rigid galvanized conduit section. 1. Loosen and remove the hex bolt. 2. Remove the 5 ft. x 1 in. (1.52 m x 3.17 cm) rigid galvanized conduit section. 3. Insert the 5 ft. x 1 in. (1.52 m x 3.17 cm) rigid galvanized conduit section into the 5 ft. x 1.25 in. (1.52 m x 2.54 cm) rigid galvanized conduit section in reverse as shipped - to attain a combined antenna mast length of 9 ft. (2.74 m). 4. Align the sections fastening holes and secure sections together using the supplied hex bolt and nuts. 15 DRAFT Step 3: Secure antenna to mast 1. Attach and fasten the antenna channel side base to the top of the 1 inch rigid galvanized conduit section. 2. Use a 1/2 inch wrench to tighten the nuts on both of the U-bolts, both evenly and securely. To ensure it's secure, tighten the second nut to the first nut. Step 4: Route antenna LMR 400 coaxial cable 1. Drill a 1 in. (2.54 cm) hole through an exterior wall of the building that is in close proximity to the antenna installation location. 2. Roll out the LMR 400 cable to prevent kinks from developing during routing. 3. Route the LMR 400 cable female connector from the Transceiver installation area to the outside installation location of the antenna, leaving enough cable for two 1 ft. (0.30 m) diameter coils at the base of the antenna mast. 4. Form and secure two 1 ft. diameter (305 mm) loops in the LMR 400 cable at the base of the mast for lightning protection. 5. Connect the LMR 400 cable to the antenna. Step 5: Mount antenna mast There are three available mounting methods. Installation is dependent upon the mounting kit supplied with the system. NOTE Mounting the antenna mast may require two people. Non-penetrating roof mount kit The Non-Penetrating Antenna Kit is designed for mounting a ground plane omnidirectional antenna when mounting to the side of a structure is not practical. The overall footprint of the frame is 29 inches x 35 inches (73.66 cm x 88.9 cm). NOTE Installation requires six 8 in. x 8 in. x 16 in. concrete blocks (not supplied). The kit is supplied with the following parts. If any of these items are missing, please contact Primex. Description Rigid galvanized conduit mast | 5 ft. x 1.25 inches (1.52 m x 3.17 cm) Tripod leg: 27 in. (2.54 cm) each in length Frame rail (long):34 in. (88.26 cm) Qty 1 3 2 16 OneVue 1 Watt Transceiver with External Antenna Install Guide DRAFT Description Frame rail (short): 28 in. (71.75 cm) Grounding Clamp Long carriage bolt Short carriage bolt Flat washers Lock nuts Qty 4 1 1 11 12 12 Assemble non-penetrating antenna roof mount 1. Verify the kit contents. 2. Assemble the outer frame by laying the two long frame rails parallel to each - approximately 30 in. (76.2 cm) apart. 3. Insert a short carriage bolt from the bottom at each frame rail end, pointing skyward (4 total). 4. Connect the two long frames rails by placing the two short frame rails on top of the four protruding bolts to form a rectangle. Make sure the square holes in the short tail "sides" are directly opposite each other. 5. Place a washer and nut on each of the four bolts and finger tighten. 6. Position the tripod within the four-sided frame. 7. Secure the three tripod legs to the inside of the frame by inserting three short bolts, from the inside and placing the washer and nut on the outside of the frame. 8. Drop the bottom of the mast (end with hole) through the top of the tripod collar. 9. Place the remaining two short rails parallel to each other, separated by the bottom of the mast. 10. Align the hole at the bottom of the mast, with the two square holes in the short frame rail sides. 11. Insert the long bolt and connect the frame rails to the mast. 12. From the underside of the frame, insert the four remaining short bolts upward and connect the inner short tails to the frame. 13. Tighten all nuts to secure. 14. Use six 8 in. x 8 in. x 16 in. concrete blocks to ballast the antenna mounting. Blocks are to be placed from rail to rail on each side of the mast; three blocks per side with a single block placed on each end and one in the middle. 17 DRAFT Penetrating antenna kit The penetrating antenna kit contains the materials required to mount the antenna to a wooden pole or masonry wall. A 5/8 in. (1.58 cm) diameter mounting hole is required and the maximum diameter of the pole or wall thickness is 14 in. (35.56 cm). The kit is supplied with the following parts. If any items are missing, contact Primex. Description Qty Rigid galvanized conduit section: 5 ft. x 1.25 in. Rigid galvanized conduit insert: 5 ft. x 1 in. Antenna mounting clamp Hex head bolt: 1/2 in. Bolt washer: 1/2 in. Lock washer: 1/2 in. Hex nut: 1/2 in. 1 1 2 2 8 8 8 Mount antenna with penetrating antenna kit NOTE The recommended diameter of the pole or the wall thickness should not exceed 14 in. (35.56 cm). 1. Verify the kit contents. 2. Assemble both clamps, as shown below, tightening the hex nuts to a torque of approximately 45 ft-lbs. 18 OneVue 1 Watt Transceiver with External Antenna Install Guide DRAFT 3. Remove the nut and washer from the 14 inch threaded rod. 4. Drill a 5/8 in. hole through the top of an exterior wall. 5. Insert the 14 in. threaded rod through the hole in the wall. If the thickness of the wall is greater than 10 in. a longer rod may be required. Different lengths of rod are available at hardware stores. If a longer threaded rod is needed, use a 5/8-11 threads per inch rod. 6. Place the nut and metal plate over the rod. 7. Tighten the square nuts to an approximate torque of approximately 55 ft-lbs. 8. Drill a second 5/8 in. (1.59 cm) hole 2.5 ft. (0.76 m) directly below the first hole. 9. Ensure both clamps are vertically aligned, as shown below 10. Repeat Steps 4 through 6. 11. Connect the LMR 400 cable to the antenna. Be sure the connection is tight. 12. Insert the mast into the clamps. 13. Tighten both clamps evenly and securely. 14. Install Gelwrap splice enclosure over the connection between the LMR400 cable and antenna. Secure Gelwrap to mast using common electrical tape or cable ties. 15. Next, route the antenna cable. Pole mount kit The antenna pole mount kit is designed for the purpose of mounting the antenna to round or angled tower legs. l The clamps can be used on round tower legs that measure from 1.25 in. to 3.25 in. (3.17 cm to 8.25 cm) OD or on angled tower legs that measure up to 3 in. (7.62 cm) on a side. l The center section of each clamp is welded to provide mechanical stability and all parts are hot-depped galvanized steel. 19 DRAFT The kit is supplied with the following parts. If any of these items are missing, please contact Primex. Description Rigid galvanized conduit section: 5 ft. x 1.25 in. Rigid galvanized conduit section: 5 ft. x 1 in. X style clamp U-clamp 1/2 inch all thread bolt 1/2 inch lock washer 1/2 inch hex nut Qty 1 1 2 4 4 16 16 Mount antenna using a pole mount antenna kit 1. Verify the kit contents. 2. Assemble both clamps, tightening the hex nuts to an approximate torque of approximately 45 ft-lbs. 3. Tighten half of one clamp two feet below the top of the pole. Use a 3/4 inch wrench to do this and be sure to tighten the clamps both evenly and securely. 4. Using a 3/4 inch wrench, tighten half of the other clamp a few in. below the top of the pole. Be sure to tighten the clamps both evenly and securely. 5. Connect the LMR 400 cable to the antenna. Be sure the connection is tight. 6. Insert the mast into the clamps. The bottom of the mast should be a minimum of 2 inches below the bottom clamp. 7. Using a 3/4 inch wrench, tighten all nuts on both clamps. 8. Next, route the antenna cable. 20 OneVue 1 Watt Transceiver with External Antenna Install Guide DRAFT Step 6: Ground antenna mast The National Electrical Code (NEC) requires that every antenna installation be grounded. Also many areas have local antenna grounding codes. Be sure that you are familiar with local grounding and other antenna regulations and codes. 1. Secure the ground clamp (supplied) around the antenna mast. 2. Insert and tighten the #6 gauge wire (supplied) in the ground clamp. NOTE Cut the wire off at the necessary length. The remainder of the wire will be used to ground the Transceiver. 3. Connect the other end of the #6 gauge wire to a verified building/earth ground. Step 7: Install GPS Receiver A GPS Receiver is required when a Transceiver is set to use GPS as its time source. 21 DRAFT GPS Receiver kit components Part Quantity Mounting bracket GPS 18 LVC and connector M3 x 0.5 x 6 mm pan head screws
#6 x 3/8 sheet metal screw Suction cups 1 1 2 3 3 U-bolt with nuts for mounting on 1 in. (2.54 cm) pole 1 GPS Receiver install location guidelines Determine a suitable location for the GPS Receiver unit.Location is extremely important to ensure the best operation of the system. l GPS Receiver must be mounted where it has a "clear view of the sky" to receive a GPS signal 24 hours a day. l Typical mounting locations of the GPS Receiver unit include the inside of a window (not a Low-E glass window), to an exterior pole, or on a rooftop. l GPS Receiver unit should be kept away from large metal objects. l GPS Receiver unit and cable must be mounted above any potential standing water, snow depth, leaves or other obstructions and is protected from the weather. l Maximum total distance of the GPS cable to the Transceiver cannot exceed 200 ft. (60.96 m). If the GPS cable is located outdoors, the use of a GelWrap splice enclosure is strongly recommended. l Mount GPS Receiver 1. Verify the kit contents and the installation location meets the installation guidelines. 2. From the outside of the building, route the GPS cable. Transceiver with external antenna: Route through a 3/4 inch drilled hole into the building. 3. Assemble and mount the GPS Receiver unit to either the inside of a window (not Low-E glass) or to an outside pole or rooftop. The mounting location is required to have a clear view of the sky. NOTE Be sure to follow local building code requirements when attaching the GPS unit to the inside of a window. Clean the windowpane before using the suctioncups for attachment. 22 OneVue 1 Watt Transceiver with External Antenna Install Guide DRAFT 4. Route GPS cable and connect to Transceiver GPS connection. Step 8: Weatherproof and secure antenna cabling During this step, you will weatherproof and secure the cabling, verify all connections are secure, and caulk any exterior holes. 1. Weatherproof the antenna connection using GelWrap kit supplied. 2. Secure the GPS cable and LMR 400 cable to the building and mast. 3. Leave a drip loop where both cables enter the building to prevent water from entering the building. 4. Use UV resistant zip ties to secure the cables to the mast and building. WARNING Do not zip tie the GPS cable to the LMR 400 cable. These two cables must be 2 in. (5.08 cm) apart at all times, with the exception of the point where they enter into the building. 5. Verify all nuts and bolts in the mounting hardware are secure. 6. Caulk all exterior holes. 7. Secure and tie wrap all indoor cables. Step 9: Ground Transceiver 1. Connect and tighten the terminal ground lug (supplied) on the Transceiver. 2. Insert and tighten #6 gauge wire (supplied) into the Transceiver terminal ground lug. 3. Connect other end of wire to a verified building/earth ground source. 23 DRAFT Step 10: Establish Transceiver connections and apply power 1. Connect the LMR 400 cable to the Transceiver "External Antenna" port, located on the rear of the Transceiver. 2. Connect time source. GPS: Plug the supplied GPS cable into the Transceiver "GPS IN" connection. NTP time: connect a network cable to the Ethernet port/Network LAN connection and configure the Transceiver to use NTP time. 3. Dry contact closure switch panel: For use with Primex Info Boards. 4. Connect and apply power: Connect the supplied power supply to the Transceiver power input and AC outlet. Step 11: Configure Transceiver settings 1. Open the ODC app. 2. Select an option: Connect to OneVue or Standalone Configuration. 3. If Connect to OneVue selected, enter OneVue username and password. 4. From the front of the Transceiver, press and release the Bluetooth pairing button. The Transceiver begins broadcasting its Bluetooth wireless signal. 24 OneVue 1 Watt Transceiver with External Antenna Install Guide DRAFT 5. When the Transceiver pairs with the app, the Transceiver model and MAC address is displayed. Select the Transceiver to be configured. 6. For OneVue connection only: Select an existing Network or enter a new Network. For a new network, defaults to DHCP. For a non-DHCP network, de-select DHCP and enter the IP address, Subnet Mask, Gateway, DNS 1, and DNS 2. 7. Select Continue. 8. Enter Name of the Transceiver. The name commonly identifies its install location and type of Transceiver (main or repeater). 9. Verify Call Sign. Call Sign displayed: Verify the Call Sign is the same as the supplied FCC/IC Information Form. If not correct, update. Call Sign not displayed: Enter the Call Sign located on the supplied FCC/IC Information Form. A Transceiver will not transmit
(broadcast) without a valid Call Sign. 25 DRAFT 10. Select a Time Zone (main Transceiver only). The time source detected is displayed (GPS or NTP). This setting does not apply to a Repeater Transceiver, which receives the main Transceiver time zone and synchronized time over its configured Channel
(receive) number. 11. Power-on Transmit Schedule: Sets the duration of time the Transceiver transmits (broadcasts) a signal when first powered on. Default to 8 hours. When power-on time period ends, the Transceiver reverts to its Normal Transmit Schedule. 12. Normal Transmit Schedule: Sets the frequency the Transceiver transmits (broadcasts). List below are the default settings and recommended by Primex. Transceiver with an external antenna: By default, a Transceiver with an external antenna: transmits (broadcasts) its synchronized time to the system clocks and devices from the 39th to the 6th minute of the next hour and changes to a standby mode during the 7th to the 38th minute of the hour (standard broadcast schedule). 13. Channel section settings for the Main Transceiver only. Set the below settings. Channel (broadcast): Required to be set to the Channel number located on the FCC/IC Information Form. Repeater Transmit: Off 14. Channel section settings for a Repeater Transceiver only. Set the below two settings. Channel (receive): Required to be set to the Channel number of the Main Transceiver. If multiple Repeater Transmitters onsite, set to the Channel number of a Repeater Transceiver in closest proximity with highest signal strength. Repeater Transmit (broadcast): Required to be set to the Channel number located on the FCC/IC Information Form. 15. Select Save. 26 OneVue 1 Watt Transceiver with External Antenna Install Guide DRAFT 16. Select Exit or if you have multiple Transmitters, select Configure Another. Step 12: Verify Transceiver is operational The final step is to verify the Transceiver is operating and is not in a warning or error state. During initial power on, it may enter a warning or error state until establishes connection to its time source and receives time. 1. From its front panel LED status panel, verify is current operating state. LED Indicator LED Color Power Green Illuminated when powered. Operating State/Status Transmit Green Main Transceiver: Solid green indicates transmitting (broadcasting). Repeater Transceiver: Solid green indicates transmitting (broadcasting) and flashing green indicates receiving signal from configured Repeater Transmit channel. Caution Yellow When illuminated, indicates in a warning/caution state, due to one or more of the status conditions below. Error Red When illuminated indicates in an alarm/error state, due to one or more of the status conditions below. When power is first applied, l Bad Output Power: Not transmitting at the appropriate power level. l PLL Diagnostics: Cannot lock onto a channel; rendering it unable to broadcast time or schedules. l VSWR Errors: Problem with either the High Power Antenna (may need repositioning) or the antenna cabling. l No GPS in 48 Hours: Has not connected to a time source for more than 48 hours. l No 1PPS in 48 Hours: Time has not been synchronized by 1PPS (1 Pulse Per Second) for more than 48 hours. l GPS Cable Break: Line break, water ingress, or cable length in excess of 200 ft. 2. If the Transceiver is connected to OneVue, verify its check-in to OneVue and in a Normal state. 27 DRAFT Technical Support You may require technical support when you have questions about product features, system configuration, or troubleshooting. Support services are delivered in accordance with your organization's support agreement, end user licenses agreements, and warranties, either with a Primex Certified Sales and Service Partner or directly with Primex. Support through Primex Certified Sales and Service Partners Ensuring our customers experience excellent service is of utmost importance to Primex. Our network of Certified Sales and Service Partners offer technical support services for Primex products. If you have purchased Primex products or have a service agreement with a Primex Partner, they are your primary contact for all Technical Support inquires. When contacting Primex Technical Support Make sure you have satisfied the system requirements listed in your product documentation. Also, you should be at the computer or device on which the problem occurred, in case it's necessary to replicate the problem. When you contact Primex Technical Support, please have the following information available:
l Customer ID/Account Name l Problem description/error messages l Device hardware information l Troubleshooting performed before contacting Primex Primex Technical Support Hours: 8:00 a.m. to 5:00 p.m CST | Monday through Friday Phone: 1-262-729-4860 Email: techservices@primexinc.com | Web: www.primexinc.com/support 28 DRAFT Five Year Limited Warranty Primex, Inc. warrants this product to be free from defects in materials and workmanship for a standard of five (5) years from the date of purchase*. All product accessories, including external antennas and kit components, wireless tone generator, wireless data receiver, and UPS backup, are warranted for a period of one (1) year against material or manufacturing defects from the date of purchase. Primex, Inc. will at its sole option, repair or replace any components that fail in normal use. Such repairs or replacements will be made at no charge to the customer for replacement parts. The customer will be responsible for any transportation costs. This warranty does not cover: (1) Physical damage to this product; (2) Product failure or damage caused by improper installation, lack of periodic maintenance, improper or abnormal use, misuse, neglect or accident (3) Damage caused by another device or software used with this product (including, but not limited to, damage resulting from use of non-Primex brand or approved parts, consumables or accessory items); (4) Problems arising from anything other than defects in materials or workmanship; and (5) Consumables or other items requiring periodic maintenance or replacement with ordinary wear and tear, including, but not limited to, product batteries and cables. This warranty is VOID if this product has been altered or modified in any way (including, but not limited to, attempted warranty repair other than by Primex or an authorized service partner). The warranties and remedies contained herein are exclusive and in lieu of all other warranties express or implied or statutory, including any liability arising under any warranty or merchantability or fitness for a particular purpose, implied, statutory or otherwise. In no event shall Primex, Inc. be liable for any incidental, special, indirect or consequential damages, whether resulting from the use, misuse or inability to use this product or from defects in the product. Some states do not allow this exclusion or limitation of incidental or consequential damages so the above limitations or exclusion may not apply to you. To obtain warranty service: If after following the instructions in the product guide, you are certain the product is defective, contact Primex Technical Support to assist with troubleshooting the issue. If the issue cannot successfully be resolved and the product is under warranty, a RMA (Return Material Authorization) will be generated. The RMA form will be provided via email with detailed instructions for the return. All merchandise returned must be shipped to Primex, Inc. Attn: Returns Dept., N3211 County Road H, Lake Geneva, WI 53147. Primex, Inc. retains the exclusive right to repair or replace the unit at its sole discretion. Such shall be your sole exclusive remedy for any breach of warranty.
* applies to products sold on or after June 1, 2018. 29 DRAFT
1 | User Manual 2 | Users Manual | 2.62 MiB | October 04 2019 |
Primex ClassicSync OneVue 1 Watt Transceiver with Internal Antenna Install Guide 2019 Primex. All Rights Reserved. The Primex logois a registeredtrademark of Primex. All other trademarks are the property of their respective owners. 4/3/2019. Primex, Inc. |
965 Wells Street | Lake Geneva, WI53147 | www.primexinc.com | Ph: 1-262-729-4853 DRAFT Legal Notice Copyright 2019 Primex, Inc. All rights reserved. Printed in the USA. Information in this document is subject to change without notice. Software described in this document is furnished under a license agreement or nondisclosure agreement. The software may be used or copied only in accordance with the terms of those agreements. No part of this publication may be reproduced, stored in a retrieval system, or transmitted in any form or by any means, electronic, mechanical or otherwise, for any purpose, without the prior written permission of Primex, Inc. Primex, Inc. Primex is a leading provider of synchronized time and environmental monitoring solutions. Our solutions automate and maintain facility compliance, increase efficiencies, enhance safety and reduce risk for organizations in the healthcare, education, manufacturing and government vertical markets. Worldwide Headquarters 965 Wells Street, Lake Geneva, WI 53147 Phone: 1-262-729-4853 | email: info@primexinc.com | www.primexinc.com 2 OneVue 1 Watt Transceiver with Internal Antenna Install Guide DRAFT Regulatory Compliance Federal Communications Commission (FCC) / Industry Canada (IC) Primex OneVue Transceiver TX400 License Requirements l Operation of the Transceiver requires a FCC/IC operating license, which must be obtained prior to operation. l FCC licenses must be renewed every 10 years and the IC licenses must be renewed annually. l As a service, Primex will file the license application if the end-user desires it. An end-user that does not want Primex to file for the original site license will be required to complete a waiver form, file the required application, and receive a valid license from the FCC/IC prior to use.If you have any questions or need any assistance, please contact Primex Technical Support. l Primex requires a copy of the licenses in order to complete the factory presets. Product Compliance l This device complies with Part 90 and Part 15 of the FCC rules and RSS-119 of Industry Canada. l Operation of this device is subject to the following two conditions:
1. This device may not cause harmful interference. 2. This device must accept any interference, including interference that may cause undesired operation. Radio Frequency (RF)Exposure To comply with FCC/IC RF exposure requirements for mobile transmitting devices, the Transceiver is only to be used or installed in locations where there are at least 35 cm separation distance between the antenna of the Transceiver and all persons. 3 DRAFT Radio Standards Specification (RSS) This device complies with Industry Canada licence-exempt RSSs. Operation is subject to the following two conditions: (1) This device may not cause interference, and (2) This device must accept any interference, including interference that may cause undesired operation of the device. Le prsent appareil est conforme aux CNR d'Industrie Canada applicables aux appareils radio exempts de licence. L'exploitation est autorise aux deux conditions suivantes:
(1) l'appareil ne doit pas produire de brouillage,et
(2) l'utilisateur de l'appareil doit accepter tout brouillage radiolectrique subi, mme si le brouillage est susceptible d'en compromettre le fonctionnement. The device meets the exemption from the routine evaluation limits in section 2.5 of RSS 102 and compliance with RSS-102 RF exposure, users can obtain Canadian information on RF exposure and compliance. Le dispositif rencontre l'exemption des limites courantes d'valuation de routine dans la section 2.5 de RSS 102 et la conformit l'exposition de RSS-102 RF. Les utilisateurs peuvent obtenir l'information canadienne sur l'exposition la RF et la conformit avec celle-ci. This equipment should be installed and operated with a minimum distance of 35 centimeters between the radiator and your body. Cet quipement devrait tre install et utilis avec une distance minimum de 35 centimtres entre le radiateur et votre corps. 4 OneVue 1 Watt Transceiver with Internal Antenna Install Guide DRAFT Important Safety Instructions READ ALL INSTRUCTIONS BEFORE INSTALLATION, OPERATION, OR MAINTENANCE OF PRODUCT. Safety Instructions Some of the following information may not apply to your particular product model; however, as with any electronic product, precautions should be observed during installation, operation, and maintenance. l Never operate the Transceiver without the antenna being properly connected to the Transceiver.Operating the Transceiver without an antenna can lead to permanent damage of the Transceiver and poses a safety risk. l Do not touch any of the antennas while broadcasting. l Standard acceptance procedures must be followed prior to operating this equipment in the proximity of life support systems. l Do not operate the Transceiver outdoors, in wet areas where there is standing water, or in areas where there is condensation or the risk of condensation. Use in any of these environments will damage the Transceiver and void the warranty. l Do not open the Transceiver to alter the internal elements in any way. This will void the warranty and could lead to unsafe conditions, malfunction, and violations of FCC/IC regulations. Primex disclaims any liability or responsibility for the results of improper or unsafe installation practices. 5 DRAFT Overview of the Primex ClassicSync Solution Architecture Time synchronization Transceiver power-up sequence Transceiver power failure Specifications Specifications: OneVue 1 Watt Transceiver Specifications: GPS Receiver Install 1 Watt Transceiver with Internal Antenna Configuration requirements Tools and equipment required Install location guidelines Step 1: Install GPS Receiver Step 2: Establish Transceiver connections and apply power Step 3: Configure Transceiver settings with OneVue Device Configurator (ODC) app Step 4: Verify Transceiver operation Technical Support Five Year Limited Warranty 7 7 7 7 8 9 9 11 12 12 12 12 13 14 15 17 19 20 s t n e t n o C DRAFT Overview of the Primex ClassicSync Solution Learn how the solution works and how the system devices provide synchronized time. Architecture The Primex ClassicSync solution provides synchronized time using our 72-73 MHz unique broadcast frequency to transmit a wireless signal to all system devices. The frequency allows the system wireless signal to broadcast through common building materials and across longer distances with less potential for signal interference. The solution can be configured with either a GPS or NTP time source. The system consists of a single Transceiver with an internal or external antenna, a GPS Receiver (optional), Repeater Transceiver (optional), and the system clocks and other devices in a single building, to a campus wide deployment. Time synchronization Once a Transceiver has received its time, from either a GPS Receiver or NTP time source or another Transceiver, it sets its internal clock. It then transmits time information over the 72-73 MHz wireless radio frequency signal to the secondary system devices. As a result, the system devices are precisely synchronized to each other and all time and events are kept current. Time Source: Transceiver receives time from a GPS Receiver or a NTP server and then broadcasts received time and event schedules to clocks and other system devices. The Global Positioning System (GPS) Receiver draws time information from the U.S. Government Satellites. The GPS Receiver then sends the time to the Transceiver. Frequency and channel: Transceiver operates on channels with 20kHz bandwidths and 72-73 MHz frequency and is preset to one of the channels licensed by the FCC/IC to minimize interference on these frequencies and channels. By factory default, a Transceiver with internal antenna: transmits (broadcasts) its synchronized time continuously to the system clocks and devices. A Repeater Transceiver receives time from its configured receiving channel and then broadcasts received time to system devices. Transceiver also has a power-on transmit schedule that sets the duration of time the Transceiver transmits
(broadcasts) a signal when first powered on (factory default 8 hours). Analog Clock signal search frequency: six pre-scheduled times a day at 10:01, 2:01 and 6:01 a.m. and p.m. lock time (not the actual time of the day), a clock's receiver turns on to search for a Transceiver signal to receive a time update, starting with the previously stored channel number. Digital Clock/Timer signal search frequency: every 10 minutes on the 5's (5, 15, 25, 35, 45, 55 minutes) of the hour, a clock's receiver turns on to search for a Transceiver signal to receive a time update. Transceiver power-up sequence 1. When power is first applied, it searches for a time source. It first searches for GPS and then NTP. 2. 3. 4. 7 If a time source is not found, it uses its onboard real time clock (RTC) and continues to search for its time source. If a time source is not found, the Transceiver is set to a warning state with a time sync failure status, its front panel Caution LED status indicator is illuminated, and transmits its state to OneVue at its scheduled check-in time (default every 5 minutes). If it fails to get time from either source consecutively for 30 minutes (default), it enters an alarm state, its front panel Error LED status indicator is illuminated, and transmits its state to OneVue at its scheduled check-in. OneVue 1 Watt Transceiver with Internal Antenna Install Guide DRAFT 5. If the RTC clock is off significantly, the Transceiver it enters a critical error state, its front panel LED Error status indicator is illuminated, and transmits its state to OneVue at its scheduled check-in. Only occurs after the first 30 minutes of operation if the RTC continues to be significantly off. Transceiver power failure During a power failure, the Transceiver continues to track time with the last valid time signal that it received. Once the power had been restored, the Transceiver begins to broadcast (even without a valid time signal) to the down-stream components. Once the Transceiver has been powered on for a few hours, it's capable of keeping track of time off its internal backup power for up to eight hours. l The system has a fail-safe design. If the failure of a system component or power loss to a component occurs, all down-stream components continue normal operations using their own internal time base. If after a specified period of time communication has not been restored, a visual indicator on its front panel is illuminated and its state is sent to OneVue during its next scheduled check-in. It remains in this state until communication is restored. l NOTE In the event power to a Transceiver is shut off and turned back on (power cycled) the Transceiver will broadcast continuously based on its Power-on Transmit schedule (default 8 hours). Power cycling the Transceiver can be used to set/reset system devices. It's not recommended to power-cycle a Transceiver when in an error state, as indicated when its front panel Error LED indicator is illuminated. 8 DRAFT Specifications Primex OneVue Transmitters use a 72-73 MHz broadcast frequency to transmit a wireless radio frequency to seamlessly synchronize every clock and independently to display the exact same time. Leveraging the precision of GPS satellite or Network Time Protocol
(NTP) time, the Transmitters wirelessly synchronize time with Primex 72-73 MHz analog and digital clocks, timers and other receivers throughout a facility. Specifications: OneVue 1 Watt Transceiver Specification Parameter Operating Frequency Range 72-73 MHz Channels 49 channels available Channel Bandwidth 20KHz Dimensions 17 in. L x 12 in. W x 1.7 in. D (43.2 cm x 30.5 cm 4.32 cm) Maximum Transmission Radio Technology 1 Watt (at Transceiver) Narrowband FM Weight 9 lb. Power Supply Input: 120 VAC, 50/60 Hz, 0.6 Amp Output: 9 VDC, 2.78 Amp 3 ft. (0.9 m) cord Bluetooth low energy (v5) wireless technology. To allow pairing with OneVue Device Configurator app for configuration and setting management. Time Zone, Daylight Saving Time with bypass option, up to three NTP time sources, Power-on Transmit Schedule, Normal Transmit Schedule, Firmware, Transmit Channel, and Repeater Channel. Bluetooth Technology User-defined settings
(OneVue Device Configurator app) 9 OneVue 1 Watt Transceiver with Internal Antenna Install Guide DRAFT Parameter User-defined settings
(OneVue Sync software) Front Panel Rear Panel Legacy Clock Time Zone, Alarm Delay, Firmware, Unresponsive Timeout, and Check-in Interval. Specification Four LED status indicators (Power, Transmit, Caution, Error) and Bluetooth labeled push-button to pair Transceiver with the Primex OneVue Device Configurator (ODC) app. Network LAN port (RJ-45 Ethernet, 100/10 Mbps, 802.3 Ethernet), GPS In port (MiniDIN 7-Pin), External Antenna connector (coaxial, n-male), Baseboard Monitor port (MiniDIN 9-Pin, for use with 5 or 30 Watt Transceiver only), dry contact closure relay panel (for use with specified Primex products), and pin port to allow end-user connection initiation (check-in) to the Primex OneVue cloud-based software. Top Panel Internal Antenna connection. Operating Range 32 to 122 F (0 to 50 C), non-condensing environment 10 DRAFT Specifications: GPS Receiver A GPS Receiver draws time information from the U.S. Government Satellites, providing the system with Coordinated Universal Time
(UTC). l Mounted to rooftop, pole, or window (not a Low-E glass window). l GPS Receiver sends UTC time to the Transceiver via the NMEA 0183 standard protocol. l Optional GPS extension cable. A specially designed low-resistance cable to extend the distance between GPS Receiver and Transceiver. The maximum total length of the cable cannot exceed 200 ft. (60.96 m). Parameter Specification Cable 10 ft. (3.05 m) cable 50, 100 and 200 ft. (15.24 m, 30.48 m and 60.69 m) extensions available. The maximum total length of the cable cannot exceed 200 ft. (60.96 m). Dimensions 2.5 in. W x .75 in. H (6.35 cm x 1.91 cm) Mounting Bracket 3.5 in. W x 1.4 in. H x 4.5 in. D (8.89 cm x 3.56 cm x 11.43 cm) Included for rooftop or window installation. Weight 0.75 lb. (.34 kg) Operating Range
-32 to 158 F (-30 to 70 C) 11 OneVue 1 Watt Transceiver with Internal Antenna Install Guide DRAFT Install 1 Watt Transceiver with Internal Antenna This topic provides the requirements and procedures to install a Transceiver with an internal antenna. Configuration requirements OneVue Transmitters are required to be configured for operation with the Primex OneVue Device Configurator (ODC) app. A Transceiver can be configured for use with the Primex OneVue Sync solution or as a standalone Transceiver. l ODC app: Download the OneVue Device Configurator from the Google Play Store for Android devices and the Apple Store for iOS devices. l OneVue Sync (required for remote monitoring and support services): Connected to an Ethernet network with internet access and OneVue network requirements met. l NTP time source: Connected to Ethernet network. Allows up to three NTP Server IP addresses. Port UDP 123 is required to be open for use with external Network Time Protocol (NTP) Servers. Use of internal NTP Servers is also supported. l FCC/IC Information Form: Primex submits the Transceiver FCC/IC license application on behalf of system owner. Configuring Transceiver with anything other than the channels designated on the FCC/IC Information Form is a violation of FCC/IC regulations and subject to fines and penalties. The system owner is the sole proprietor of the FCC/IC license and Primex or an authorized Primex installer are acting as agents. Changes to a Transceiver's configured Call Sign or Channel or other FCC regulated settings are the sole responsibility of the system owner and should only be done in accordance with FCC regulations. Tools and equipment required The following tools and equipment are required to complete installation. Transceiver equipment l 1 Watt Transceiver Rack 18 GA metal, epoxy coated (optional) l UPS surge protector (recommended) GPS Receiver required install tools and equipment l Standard or hammer drill l 5/8 inch concrete drill bit, 18 inches (45.7 cm) long l Silicone caulk for GPS cable penetration l Phillips screwdriver l Flat head screwdriver Install location guidelines When planning a system installation, Primex recommends taking into consideration the below guidelines. Location is extremely important to ensure the best operation of your system. l In a multi-story building, locate Transceiver on the top floor; significantly improves coverage to the lower floors due to the umbrella pattern of transmission. l Transceiver must be located a minimum of 4 ft. (1.2 m) above the floor. l Transceiver must be located within 3 ft. (0.59 m) from a 120 VAC electrical outlet. 10 AMP dedicated service recommended. l Transceiver 48 in. (1.2 m) internal antenna requires vertical clearance and distance of a minimum 5 ft. (1.5 m) from large, solid objects, such as lockers or filing cabinets, and cannot be not touching any surfaces. l Transceiver must be located in an area that allows for enclosure and antenna clearance. Enclosure dimension is 2" height x 17"
width x 12 depth (5.08 cm x 43.18 cm x 30.48 cm) and antenna height is 48 in. (1.2 m). 12 DRAFT l Transceiver must be located in a controlled environment that is 32 to 122 F (0 to 50 C) and non-condensing humidity environment. Step 1: Install GPS Receiver A GPS Receiver is required when a Transceiver is set to use GPS as its time source. GPS Receiver kit components Part Quantity Mounting bracket GPS 18 LVC and connector M3 x 0.5 x 6 mm pan head screws
#6 x 3/8 sheet metal screw Suction cups 1 1 2 3 3 U-bolt with nuts for mounting on 1 in. (2.54 cm) pole 1 GPS Receiver install location guidelines Determine a suitable location for the GPS Receiver unit.Location is extremely important to ensure the best operation of the system. l GPS Receiver must be mounted where it has a "clear view of the sky" to receive a GPS signal 24 hours a day. l Typical mounting locations of the GPS Receiver unit include the inside of a window (not a Low-E glass window), to an exterior pole, or on a rooftop. l GPS Receiver unit should be kept away from large metal objects. l GPS Receiver unit and cable must be mounted above any potential standing water, snow depth, leaves or other obstructions and is protected from the weather. l Maximum total distance of the GPS cable to the Transceiver cannot exceed 200 ft. (60.96 m). If the GPS cable is located outdoors, the use of a GelWrap splice enclosure is strongly recommended. l Mount GPS Receiver 1. Verify the kit contents and the installation location meets the installation guidelines. 2. From the outside of the building, route the GPS cable. Transceiver with internal antenna: Route through a 5/8 inch drilled hole into the building. 3. Assemble and mount the GPS Receiver unit to either the inside of a window (not Low-E glass) or to an outside pole or rooftop. The mounting location is required to have a clear view of the sky. 13 OneVue 1 Watt Transceiver with Internal Antenna Install Guide DRAFT NOTE Be sure to follow local building code requirements when attaching the GPS unit to the inside of a window. Clean the windowpane before using the suctioncups for attachment. 4. Route GPS cable and connect to Transceiver GPS connection. Step 2: Establish Transceiver connections and apply power Internal antenna connection is located on its top panel and its back panel connections include power, GPS, and Ethernet. 1. Attach internal antenna: From the top case of the Transceiver, screw the antenna clockwise, being careful to avoid cross-
threading the antenna. The antenna must be snug and flat against the case. 2. Connect time source. GPS: plug the supplied GPS cable into the GPS IN connection. NTP: connect a network cable into the RJ-45 Ethernet port and active network port. 3. Dry contact closure switch panel: For use with Primex Info Boards. 4. Connect and apply power: Connect the supplied power supply to the Transceiver power input and AC outlet. 14 DRAFT Step 3: Configure Transceiver settings with OneVue Device Configurator (ODC) app 1. Open the ODC app. 2. Select an option: Connect to OneVue or Standalone Configuration. 3. If Connect to OneVue selected, enter OneVue username and password. 4. From the front of the Transceiver, press and release the Bluetooth pairing button. The Transceiver begins broadcasting its Bluetooth wireless signal. 5. When the Transceiver pairs with the app, the Transceiver model and MAC address is displayed. Select the Transceiver to be configured. 6. For OneVue connection only: Select an existing Network or enter a new Network. For a new network, defaults to DHCP. For a non-DHCP network, de-select DHCP and enter the IP address, Subnet Mask, Gateway, DNS 1, and DNS 2. 15 OneVue 1 Watt Transceiver with Internal Antenna Install Guide DRAFT 7. Select Continue. 8. Enter Name of the Transceiver. The name commonly identifies its install location and type of Transceiver (main or repeater). 9. Verify Call Sign. Call Sign displayed: Verify the Call Sign is the same as the supplied FCC/IC Information Form. If not correct, update. Call Sign not displayed: Enter the Call Sign located on the supplied FCC/IC Information Form. A Transceiver will not transmit
(broadcast) without a valid Call Sign. 10. Select a Time Zone (main Transceiver only). The time source detected is displayed (GPS or NTP). This setting does not apply to a Repeater Transceiver, which receives the main Transceiver time zone and synchronized time over its configured Channel
(receive) number. 11. Power-on Transmit Schedule: Sets the duration of time the Transceiver transmits (broadcasts) a signal when first powered on. Default to 8 hours. When power-on time period ends, the Transceiver reverts to its Normal Transmit Schedule. 12. Normal Transmit Schedule: Sets the frequency the Transceiver transmits (broadcasts). List below are the default settings and recommended by Primex. Transceiver with internal antenna: By default, a Transceiver with internal antenna: transmits (broadcasts) its synchronized time continuously to the system clocks and devices. Default setting 0 to 0. 13. Channel section settings for the Main Transceiver only. Set the below settings. Channel (broadcast): Required to be set to the Channel number located on the FCC/IC Information Form. 16 DRAFT Repeater Transmit: Off 14. Channel section settings for a Repeater Transceiver only. Set the below two settings. Channel (receive): Required to be set to the Channel number of the Main Transceiver. If multiple Repeater Transmitters onsite, set to the Channel number of a Repeater Transceiver in closest proximity with highest signal strength. Repeater Transmit (broadcast): Required to be set to the Channel number located on the FCC/IC Information Form. 15. Select Save. 16. Select Exit or if you have multiple Transmitters, select Configure Another. Step 4: Verify Transceiver operation The final step is to verify the Transceiver is operating and is not in a warning or error state. During initial power on, it may enter a warning or error state until establishes connection to its time source and receives time. 1. From its front panel LED status panel, verify is current operating state. LED Indicator LED Color Power Green Illuminated when powered. Operating State/Status 17 OneVue 1 Watt Transceiver with Internal Antenna Install Guide DRAFT LED LED Color Indicator Transmit Green Main Transceiver: Solid green indicates transmitting (broadcasting). Operating State/Status Repeater Transceiver: Solid green indicates transmitting (broadcasting) and flashing green indicates receiving signal from configured Repeater Transmit channel. Caution Yellow When illuminated, indicates in a warning/caution state, due to one or more of the status conditions below. Error Red When illuminated indicates in an alarm/error state, due to one or more of the status conditions below. When power is first applied, l Bad Output Power: Not transmitting at the appropriate power level. l PLL Diagnostics: Cannot lock onto a channel; rendering it unable to broadcast time or schedules. l VSWR Errors: Problem with either the High Power Antenna (may need repositioning) or the antenna cabling. l No GPS in 48 Hours: Has not connected to a time source for more than 48 hours. l No 1PPS in 48 Hours: Time has not been synchronized by 1PPS (1 Pulse Per Second) for more than 48 hours. l GPS Cable Break: Line break, water ingress, or cable length in excess of 200 ft. 2. If the Transceiver is connected to OneVue, verify its check-in to OneVue and in a Normal state. 18 DRAFT Technical Support You may require technical support when you have questions about product features, system configuration, or troubleshooting. Support services are delivered in accordance with your organization's support agreement, end user licenses agreements, and warranties, either with a Primex Certified Sales and Service Partner or directly with Primex. Support through Primex Certified Sales and Service Partners Ensuring our customers experience excellent service is of utmost importance to Primex. Our network of Certified Sales and Service Partners offer technical support services for Primex products. If you have purchased Primex products or have a service agreement with a Primex Partner, they are your primary contact for all Technical Support inquires. When contacting Primex Technical Support Make sure you have satisfied the system requirements listed in your product documentation. Also, you should be at the computer or device on which the problem occurred, in case it's necessary to replicate the problem. When you contact Primex Technical Support, please have the following information available:
l Customer ID/Account Name l Problem description/error messages l Device hardware information l Troubleshooting performed before contacting Primex Primex Technical Support Hours: 8:00 a.m. to 5:00 p.m CST | Monday through Friday Phone: 1-262-729-4860 Email: techservices@primexinc.com | Web: www.primexinc.com/support 19 DRAFT Five Year Limited Warranty Primex, Inc. warrants this product to be free from defects in materials and workmanship for a standard of five (5) years from the date of purchase*. All product accessories, including external antennas and kit components, wireless tone generator, wireless data receiver, and UPS backup, are warranted for a period of one (1) year against material or manufacturing defects from the date of purchase. Primex, Inc. will at its sole option, repair or replace any components that fail in normal use. Such repairs or replacements will be made at no charge to the customer for replacement parts. The customer will be responsible for any transportation costs. This warranty does not cover: (1) Physical damage to this product; (2) Product failure or damage caused by improper installation, lack of periodic maintenance, improper or abnormal use, misuse, neglect or accident (3) Damage caused by another device or software used with this product (including, but not limited to, damage resulting from use of non-Primex brand or approved parts, consumables or accessory items); (4) Problems arising from anything other than defects in materials or workmanship; and (5) Consumables or other items requiring periodic maintenance or replacement with ordinary wear and tear, including, but not limited to, product batteries and cables. This warranty is VOID if this product has been altered or modified in any way (including, but not limited to, attempted warranty repair other than by Primex or an authorized service partner). The warranties and remedies contained herein are exclusive and in lieu of all other warranties express or implied or statutory, including any liability arising under any warranty or merchantability or fitness for a particular purpose, implied, statutory or otherwise. In no event shall Primex, Inc. be liable for any incidental, special, indirect or consequential damages, whether resulting from the use, misuse or inability to use this product or from defects in the product. Some states do not allow this exclusion or limitation of incidental or consequential damages so the above limitations or exclusion may not apply to you. To obtain warranty service: If after following the instructions in the product guide, you are certain the product is defective, contact Primex Technical Support to assist with troubleshooting the issue. If the issue cannot successfully be resolved and the product is under warranty, a RMA (Return Material Authorization) will be generated. The RMA form will be provided via email with detailed instructions for the return. All merchandise returned must be shipped to Primex, Inc. Attn: Returns Dept., N3211 County Road H, Lake Geneva, WI 53147. Primex, Inc. retains the exclusive right to repair or replace the unit at its sole discretion. Such shall be your sole exclusive remedy for any breach of warranty.
* applies to products sold on or after June 1, 2018. 20 DRAFT
1 | Test Report | Test Report | 342.20 KiB | October 04 2019 |
Electromagnetic Compatibility Test Report Tests Performed on a Primex Wireless, Inc. OneVue Sync, Model: TX400 Radiometrics Document RP-9038A1 Product Detail:
FCC ID: PZ3-TX400 IC: 4256A-TX400 Equipment type: 72-73 MHz Transceiver Test Standards:
US CFR Title 47, Chapter I, FCC Part 2 and 90 FCC Parts 2, 15, and 90 CFR Title 47: 2019 IC RSS-119 Issue 12: 2015 IC RSS-GEN Issue 4: 2014 Tests Performed For:
Primex Wireless, Inc. 965 S. Wells St. Lake Geneva, WI 53147 Test Dates:
February 13 thru 22, 2019 Document RP-9038A1 Revisions:
Rev. 0 1 Issue Date March 25, 2019 April 3, 2019 Affected Sections 2.0 Test Facility:
Radiometrics Midwest Corporation 12 East Devonwood Romeoville, IL 60446 Phone: (815) 293-0772 Revised By Joseph Strzelecki Radiometrics Midwest Corporation (815) 293-0772 www.radiomet.com Page 1 of 32 Radiometrics Midwest Corporation www.radiomet.com Test Report for the Primex Wireless, Inc., OneVue Sync, Model TX400 Table of Contents 1 ADMINISTRATIVE DATA .................................................................................................................... 3 2 TEST SUMMARY AND RESULTS ...................................................................................................... 3 3 EQUIPMENT UNDER TEST (EUT) DETAILS..................................................................................... 3 3.1 EUT Description ............................................................................................................................ 3 4 TESTED SYSTEM DETAILS .............................................................................................................. 4 4.1 Tested System Configuration ........................................................................................................ 4 4.2 Special Accessories ...................................................................................................................... 4 4.3 Equipment Modifications ............................................................................................................... 4 5 TEST SPECIFICATIONS AND RELATED DOCUMENTS .................................................................. 4 6 RADIOMETRICS TEST FACILITIES .................................................................................................. 4 7 DEVIATIONS AND EXCLUSIONS FROM THE TEST SPECIFICATIONS ......................................... 5 8 CERTIFICATION ................................................................................................................................. 5 9 TEST EQUIPMENT TABLE ................................................................................................................ 5 10 TEST SECTIONS .............................................................................................................................. 6 10.1 Peak Output Power ..................................................................................................................... 6 10.2 Occupied Bandwidth; Emissions Masks ..................................................................................... 7 10.2.1 Conducted Spurious Emissions ......................................................................................... 16 10.3 Occupied Bandwidth ................................................................................................................. 17 10.4 Field Strength of Unwanted Spurious Radiation ....................................................................... 19 10.4.1 Test Procedures ................................................................................................................. 19 Figure 1. Drawing of Radiated Emissions Setup ........................................................................... 20 10.4.2 Spurious Radiated Emissions Test Results ....................................................................... 21 10.5 Frequency Stability ................................................................................................................... 23 10.5.1 Frequency Stability Vs Temperature .................................................................................. 23 10.5.2 Frequency Stability Vs Supply Voltage .............................................................................. 23 10.5.3 Test Results for Frequency Stability ................................................................................... 23 10.6 Radiated Emissions (Receive Mode) ........................................................................................ 24 10.6.1 Radiated Emissions Field Strength Sample Calculation .................................................... 24 10.6.2 Spurious Radiated Emissions Test Results (Receive Mode) ............................................. 24 11 MEASUREMENT INSTRUMENTATION UNCERTAINTY .............................................................. 26 Notice: This report must not be reproduced (except in full) without the written approval of Radiometrics Midwest Corporation. RP-9038A1 Rev. 1 Page 2 of 26 Radiometrics Midwest Corporation www.radiomet.com Test Report for the Primex Wireless, Inc., OneVue Sync, Model TX400 1.0 ADMINISTRATIVE DATA Equipment Under Test:
A Primex Wireless, Inc., OneVue Sync Model: TX400; Serial Numbers: SMP1, SMP2 These will be referred to as the EUT in this Report Date EUT Received at Radiometrics:
February 13, 2019 Test Report Written and Authorized By:
Joseph Strzelecki Senior EMC Engineer Test Dates:
February 13 thru 22, 2019 Test Witnessed By:
The tests were not witnessed by personnel from Primex Wireless, Inc. Radiometrics Personnel Responsible for Test:
03/25/2019 Date Joseph Strzelecki Senior EMC Engineer NARTE EMC-000877-NE Richard L. Tichgelaar EMC Technician Chris E. Dalessio EMC Technician 2.0 TEST SUMMARY AND RESULTS The EUT (Equipment Under Test) is a OneVue Sync, Model TX400, manufactured by Primex Wireless, Inc. The detailed test results are presented in a separate section. The following is a summary of the test results. Environmental Phenomena RF Power Output Occupied Bandwidth Test; Emissions Masks Spurious RF Conducted Emissions Field Strength of Spurious Radiation Frequency Vs. Temperature Frequency Vs. Voltage Transmitter Requirements Frequency Range 72-73 MHz 72-73 MHz FCC Sections 2.1046 & 90.205 2.1049 & 90.209 7-1000 MHz 30-1000 MHz 72-73 MHz 72-73 MHz 2.1051 & 90.210 2.1053 2.1055 & 90.213 2.1055 & 90.213 RSS 119 Section 5.4 5.5 5.8 5.3 5.3 5.3 Test Result Pass Pass Pass Pass Pass Pass 3.0 EQUIPMENT UNDER TEST (EUT) DETAILS 3.1 EUT Description The EUT is a OneVue Sync. The EUT is a 72-73 MHz transceiver, manufactured by Primex Wireless, Inc. The EUT was in good working condition during the tests, with no known defects. RP-9038A1 Rev. 1 Page 3 of 26 Radiometrics Midwest Corporation www.radiomet.com Test Report for the Primex Wireless, Inc., OneVue Sync, Model TX400 4.0 TESTED SYSTEM DETAILS 4.1 Tested System Configuration The system was configured for testing in a typical fashion. The testing was performed in conditions as close as possible to installed conditions. Wiring was consistent with manufacturer's recommendations. The identification for all equipment used in the tested system is:
Tested System Configuration List Description Type*
E E E OneVue Sync OneVue Sync Power supply Manufacturer Model Number Serial Number Primex Wireless, Inc. Primex Wireless, Inc. TX400 TX400 MEAN WELL GST25U09 SMP1 SMP2 None Item 1 2 3
* Type: E = EUT 4.2 Special Accessories No special accessories were used during the tests in order to achieve compliance. 4.3 Equipment Modifications No modifications were made to the EUT at Radiometrics' test facility in order to comply with the standards listed in this report. 5.0 TEST SPECIFICATIONS AND RELATED DOCUMENTS Document FCC CFR Title 47 ANSI C63.4-2014 TIA-603-D Date 2019 Title Code of Federal Regulations Title 47, Chapter 1, Federal Communications Commission, Part 15 & 90 - Radio Frequency Devices 2014 Methods of Measurement of Radio Noise Emissions from Low-Voltage 2014 2010 Electrical and Electronic Equipment in the Range of 9 kHz to 40 GHz Land Mobile FM or PM Communications Equipment Measurement and Performance Standards General Requirements and Information for the Certification of Radiocommunication Equipment (RSS-Gen) Radio Transmitters and Receivers Operating in the Land Mobile and Fixed Services in the Frequency Range 27.41-960 MHz IC RSS-Gen Issue 4 IC RSS-119 Issue 12 RSS-Gen & RSS-119 are not currently in Radiometrics Scope of Accreditation, however it uses the procedures from TIA-603-D and ANSI C63.4 that are in Radiometrics Scope of Accreditation 6.0 RADIOMETRICS TEST FACILITIES 2015 The results of these tests were obtained at Radiometrics Midwest Corp. in Romeoville, Illinois, USA. Radiometrics is accredited by A2LA (American Association for Laboratory Accreditation) to conform to ISO/IEC 17025: 2005 "General Requirements for the Competence of Calibration and Testing Laboratories". Radiometrics Lab Code is 121191 and Certification Number is 1495.01. A copy of the accreditation can be accessed on our web site (www.radiomet.com). Radiometrics accreditation status can be verified at A2LAs web site (www.a2la2.org). RP-9038A1 Rev. 1 Page 4 of 26 Radiometrics Midwest Corporation www.radiomet.com Test Report for the Primex Wireless, Inc., OneVue Sync, Model TX400 The following is a list of shielded enclosures located in Romeoville, Illinois used during the tests:
Chamber A: Is an anechoic chamber that measures 24 L X 12 W X 12 H. The walls and ceiling are fully lined with ferrite absorber tiles. The floor has a 10 x 10 section of ferrite absorber tiles located in the center. Panashield of Rowayton, Connecticut manufactured the chamber. The enclosure is NAMAS certified. Chamber B: Is a shielded enclosure that measures 20 L X 12 W X 8 H. Erik A. Lindgren & Associates of Chicago, Illinois manufactured the enclosure. Chamber C: Is a shielded enclosure that measures 17 L X 10 W X 8 H. Lindgren RF Enclosures Inc. of Addison, Illinois manufactured the enclosure. Chamber E: Is a custom-made anechoic chamber that measures 52 L X 30 W X 18 H. The walls and ceiling are fully lined with RF absorber. Pro-shield of Collinsville, Oklahoma manufactured the chamber. A separate ten-foot long, brass plated, steel ground rod attached via a 6-inch copper braid grounds each of the above chambers. Each enclosure is also equipped with low-pass power line filters. The FCC has accepted these sites as test site number US1065. The FCC test site Registration Number is 732175. Details of the site characteristics are on file with the Industry Canada as site number IC3124A-01. 7.0 DEVIATIONS AND EXCLUSIONS FROM THE TEST SPECIFICATIONS There were no deviations or exclusions from the test specifications. 8.0 CERTIFICATION Radiometrics Midwest Corporation certifies that the data contained herein was taken under conditions that meet or exceed the requirements of the test specification. The results relate only to the EUT listed herein. Any modifications made to the EUT subsequent to the indicated test date will invalidate the data and void this certification. 9.0 TEST EQUIPMENT TABLE Manufacturer RMC ID EMCO ANT-06 EMCO ANT-68 AH Systems ANT-79 AH Systems ANT-80 Narda ATT-28 ATT-53 Weinschel CAB-044A Teledyne CAB-090C Teledyne CAB-114G Teledyne CAB-142G Teledyne CAB-788A Teledyne CAB-106A Teledyne CAB-1090 Teledyne CAB-160B Teledyne CNT-01 Racal-Dana RP-9038A1 Rev. 1 Description Log-Periodic Ant. Log Periodic Ant. Bicon Antenna Bicon Antenna Attenuator(20dB) Attenuator (20 dB) Coaxial Cable Coaxial Cable Coaxial Cable Coaxial Cable Coaxial Cable Coaxial Cable Coaxial Cable Coaxial Cable Freq. Counter Model No. 3146 93146 SAS-540 SAS-540 757B-20 23-20-34 N/A N/A N/A N/A N/A N/A N/A N/A 1991 Serial No. 1248 9604-4456 293 294 3131 CG7857 044A 090C 114G 142G 788A 106A 1090 160B 910357 Frequency Range Cal 200-1000MHz 200-1000MHz 20-330MHz 20-330MHz DC - 6 GHz DC-18 GHz DC-18 GHz DC-18 GHz DC-18 GHz DC-18 GHz DC-18 GHz DC-2 GHz DC-18 GHz DC-18 GHz DC-160MHz Cal Date Period 12/05/17 24 Mo. 12/05/17 24 Mo. 12/14/18 24 Mo. 12/14/18 24 Mo. 11/27/17 24 Mo. 12 Mo 11/06/18 24 Mo. 05/15/18 05/15/18 24 Mo. 05/15/18 24 Mo. 05/09/18 24 Mo. 24 Mo. 05/09/18 05/07/18 24 Mo. 05/16/18 24 Mo. 24 Mo. 05/09/18 07/26/18 24 Mo. Page 5 of 26 Radiometrics Midwest Corporation www.radiomet.com Test Report for the Primex Wireless, Inc., OneVue Sync, Model TX400 RMC ID DMM-11 HPF-10 PWM-01 Description DMM High Pass Filter Power Meter Manufacturer Fluke Mini-Circuits Boonton Frequency Range Cal Model No. 17B NHP-150+
4230 85460A/84562 A E7405A U3772 DC-100kHz Serial No. 23490125 VUU28401851 133-3000MHz 22503 50kHz-18GHz 33330A00135 3410A00178 MY45118341 150800305 30Hz-6GHz 9kHz-26.5 GHz 9kHz-43GHz Period 24 Mo. 12 Mo. 24 Mo. 24 Mo. 24 Mo. 24 Mo. Cal Date 04/05/18 02/15/19 12/26/17 08/03/17 01/06/18 04/19/17 SMC100A 102914 9k-3.2GHz 24 Mo. 11/29/17 REC-20 REC-21 REC-43 SIG-30 HP / Agilent Agilent Adventest Rohde &
Schwarz GS Blue M Electric Fluke Spectrum Analyzer Spectrum Analyzer Spectrum Analyzer Signal Generator Temperature Chamber Temp/Humid Meter TC-01 THM-02 Note: All calibrated equipment is subject to periodic checks. NCR No Calibration Required. Device monitored by calibrated equipment. N/A: Not Applicable. 10.0 TEST SECTIONS ETC-04S-E 971 0003-ETC-201 -40 to 100 Deg C 24 Mo. 24 Mo. 93490471 N/A 01/03/18 10/17/17 10.1 Peak Output Power The peak power was measured by connecting the EUT antenna port to the spectrum analyzer via a low loss coaxial cable and an appropiate power attenuator. Model TX400 Serial Number Test Personnel Test Equipment Power meter (PWM-01) SMP1; SMP2 Richard Tichgelaar SMP1; With LPF Specification Test Date Test Location FCC part 90.205 RSS-119 Section 5.4 February 19, 2019 Chamber B TX Freq MHz 72.10 72.98 Reading dBm 9.50 9.60 Atten &
Cable 20.00 20.00 Total dBm 29.50 29.60 Peak Power Watts 0.891 0.912 Antenna Gain dBi 2.15 2.15 ERP Watts 0.891 0.912 RP-9038A1 Rev. 1 Page 6 of 26 Radiometrics Midwest Corporation www.radiomet.com Test Report for the Primex Wireless, Inc., OneVue Sync, Model TX400 SMP2; No LPF TX Freq Reading MHz 72.10 72.98 dBm 9.90 9.95 Atten &
Cable 20.00 20.00 Total dBm 29.90 29.95 Peak Power Watts 0.977 0.989 Antenna Gain dBi 2.15 2.15 ERP Watts 0.977 0.989 Judgement: Pass The fundamental emission ERP limit is 300 watts (54.77 dBm), since it will not be operating on mobile only frequencies. Note that in decibel units:
ERP = EIRP - 2.15 = P+G-2.15 where:
P = transmitter output power in dB(W) G = Gain of the transmitting antenna in dBi 10.2 Occupied Bandwidth; Emissions Masks Model TX400 Specification Serial Number Test Personnel Test Equipment Spectrum Analyzer (REC-21), ( REC-43 ) SMP2 Richard Tichgelaar Test Date Test Location FCC Part 90.209 & 90.210 RSS-119 Section 5.5 02/13 & 19/2019 Chamber C The spectrum analyzer was set to the MAX HOLD mode to record the worst case of the modulation. The EUT was transmitting at its maximum data rate. The trace was allowed to stabilize. All Channels are 20 kHz. The emissions Mask C is from FCC part 90.210. For transmitters that are not equipped with an audio low-pass filter, the power of any emission must be attenuated below the unmodulated carrier output power (P) as follows:
(1) On any frequency removed from the center of the authorized bandwidth by a displacement frequency
(fd in kHz) of more than 5 kHz, but not more than 10 kHz: At least 83 log (fd/5) dB;
(2) On any frequency removed from the center of the authorized bandwidth by a displacement frequency
(fd in kHz) of more than 10 kHz, but not more than 250 percent of the authorized bandwidth: At least 29 log (fd2/11) dB or 50 dB, whichever is the lesser attenuation;
(3) On any frequency removed from the center of the authorized bandwidth by more than 250 percent of the authorized bandwidth: At least 43 + 10 log (P) dB. RP-9038A1 Rev. 1 Page 7 of 26 Radiometrics Midwest Corporation www.radiomet.com Test Report for the Primex Wireless, Inc., OneVue Sync, Model TX400 SMP1; With LPF RP-9038A1 Rev. 1 Page 8 of 26 Radiometrics Midwest Corporation www.radiomet.com Test Report for the Primex Wireless, Inc., OneVue Sync, Model TX400 RP-9038A1 Rev. 1 Page 9 of 26 Radiometrics Midwest Corporation www.radiomet.com Test Report for the Primex Wireless, Inc., OneVue Sync, Model TX400 RP-9038A1 Rev. 1 Page 10 of 26 Test Report for the Primex Wireless, Inc., OneVue Sync, Model TX400 Radiometrics Midwest Corporation www.radiomet.com RP-9038A1 Rev. 1 Page 11 of 26 Radiometrics Midwest Corporation www.radiomet.com Test Report for the Primex Wireless, Inc., OneVue Sync, Model TX400 SMP2; No LPF RP-9038A1 Rev. 1 Page 12 of 26 Test Report for the Primex Wireless, Inc., OneVue Sync, Model TX400 Radiometrics Midwest Corporation www.radiomet.com RP-9038A1 Rev. 1 Page 13 of 26 Test Report for the Primex Wireless, Inc., OneVue Sync, Model TX400 Radiometrics Midwest Corporation www.radiomet.com RP-9038A1 Rev. 1 Page 14 of 26 Test Report for the Primex Wireless, Inc., OneVue Sync, Model TX400 Radiometrics Midwest Corporation www.radiomet.com Judgement: Pass RP-9038A1 Rev. 1 Page 15 of 26 Radiometrics Midwest Corporation www.radiomet.com Test Report for the Primex Wireless, Inc., OneVue Sync, Model TX400 10.2.1 Conducted Spurious Emissions Model TX400 Specification SMP1 & SMP2 Richard Tichgelaar Serial Number Test Personnel Test Equipment EMI Receiver (REC-21) This is a direct measurement from the Antenna port to the EMI Receiver SMP1; With LPF Test Date Test Location FCC Part 90.210 RSS-119 Section 5.5 February 21, 2019 Chamber B Freq. Tx MHz 72.100 72.100 72.100 72.100 72.100 72.100 72.100 72.100 72.100 72.100 72.980 72.980 72.980 72.980 72.980 72.980 72.980 72.980 72.980 72.980 Harm
#
1 2 3 4 5 6 7 8 9 10 1 2 3 4 5 6 7 8 9 10 SMP2; No LPF Freq. Tx MHz 72.100 72.100 72.100 72.100 72.100 72.100 72.100 72.100 72.100 72.100 72.980 72.980 72.980 Harm
#
1 2 3 4 5 6 7 8 9 10 1 2 3 RP-9038A1 Rev. 1 Tested Freq. MHz 72.10 144.20 216.30 288.40 360.50 432.60 504.70 576.80 648.90 721.00 72.98 145.96 218.94 291.92 364.90 437.88 510.86 583.84 656.82 729.80 Tested Freq. MHz 72.10 144.20 216.30 288.40 360.50 432.60 504.70 576.80 648.90 721.00 72.98 145.96 218.94 Rec Reading dBm 9.50
-73.20
-72.50
-72.80
-72.90
-73.20
-73.50
-72.30
-72.90
-73.00 9.6
-73.1
-72.3
-72.4
-72.7
-72.8
-72.9
-73.0
-72.3
-73.0 Rec Reading dBm 9.90
-50.00
-53.90
-73.00
-70.70
-73.20
-71.70
-73.30
-71.20
-74.00 9.9
-49.0
-53.5 HPF-10 Attn. Factor Ext. Atten. Factor dB 0.0 0.4 0.3 0.2 0.2 0.2 0.2 0.2 0.2 0.1 0.0 0.4 0.3 0.2 0.2 0.2 0.2 0.2 0.2 0.1 dB 19.9 19.8 19.8 19.8 19.8 19.9 19.9 19.9 19.9 19.9 19.9 19.8 19.8 19.8 19.8 19.9 19.9 19.9 19.9 19.9 HPF-10 Attn. Factor Ext. Atten. Factor dB 0.0 0.4 0.3 0.2 0.2 0.2 0.2 0.2 0.2 0.1 0.0 0.4 0.3 dB 19.9 19.8 19.8 19.8 19.8 19.9 19.9 19.9 19.9 19.9 19.9 19.8 19.8 Cable Loss dB 0.10 0.04 0.06 0.08 0.09 0.10 0.13 0.13 0.15 0.16 0.10 0.04 0.06 0.08 0.09 0.10 0.13 0.13 0.15 0.16 Cable Loss dB 0.10 0.04 0.06 0.08 0.09 0.10 0.13 0.13 0.15 0.16 0.10 0.04 0.06 Total Power dBm 29.5
-53.0
-52.3
-52.7
-52.8
-53.0
-53.3
-52.1
-52.7
-52.8 29.6
-52.9
-52.1
-52.3
-52.6
-52.6
-52.7
-52.8
-52.1
-52.8 Total Power dBm 29.9
-29.8
-33.7
-52.9
-50.6
-53.0
-51.5
-53.1
-51.0
-53.8 29.9
-28.8
-33.3 Power Limit dBm 54.8
-13.0
-13.0
-13.0
-13.0
-13.0
-13.0
-13.0
-13.0
-13.0 54.8
-13.0
-13.0
-13.0
-13.0
-13.0
-13.0
-13.0
-13.0
-13.0 Power Limit dBm 54.8
-13.0
-13.0
-13.0
-13.0
-13.0
-13.0
-13.0
-13.0
-13.0 54.8
-13.0
-13.0 Margin Under Limit dB 25.3 40.0 39.3 39.7 39.8 40.0 40.3 39.1 39.7 39.8 25.2 39.9 39.1 39.3 39.6 39.6 39.7 39.8 39.1 39.8 Margin Under Limit dB 24.9 16.8 20.7 39.9 37.6 40.0 38.5 40.1 38.0 40.8 24.9 15.8 20.3 Page 16 of 26 Radiometrics Midwest Corporation www.radiomet.com Test Report for the Primex Wireless, Inc., OneVue Sync, Model TX400 Freq. Tx MHz 72.980 72.980 72.980 72.980 72.980 72.980 72.980 Harm
#
4 5 6 7 8 9 10 Tested Freq. MHz 291.92 364.90 437.88 510.86 583.84 656.82 729.80 Rec Reading dBm
-73.0
-70.3
-74.0
-70.9
-73.0
-72.2
-74.0 HPF-10 Attn. Factor Ext. Atten. Factor dB 0.2 0.2 0.2 0.2 0.2 0.2 0.1 dB 19.8 19.8 19.9 19.9 19.9 19.9 19.9 Cable Loss dB 0.08 0.09 0.10 0.13 0.13 0.15 0.16 Total Power dBm
-52.9
-50.2
-53.8
-50.7
-52.8
-52.0
-53.8 Power Limit dBm
-13.0
-13.0
-13.0
-13.0
-13.0
-13.0
-13.0 Margin Under Limit dB 39.9 37.2 40.8 37.7 39.8 39.0 40.8 The fundamental emission ERP limit is 300 watts (54.77 dBm) Judgment: Passed by 15.8 dB. 10.3 Occupied Bandwidth Channel MHz 72.10 72.98 SMP1 99% OBW (kHz) SMP2 99% OBW (kHz) 12.24 12.28 12.28 12.28 SMP1; With LPF; 99% OBW RP-9038A1 Rev. 1 Page 17 of 26 Test Report for the Primex Wireless, Inc., OneVue Sync, Model TX400 Radiometrics Midwest Corporation www.radiomet.com 99% OBW; SMP2; No LPF RP-9038A1 Rev. 1 Page 18 of 26 Test Report for the Primex Wireless, Inc., OneVue Sync, Model TX400 Radiometrics Midwest Corporation www.radiomet.com 10.4 Field Strength of Unwanted Spurious Radiation 10.4.1 Test Procedures Radiated emission measurements in the Restricted bands were performed with linearly polarized broadband antennas. The results obtained with these antennas can be correlated with results obtained with a tuned dipole antenna. A 10 dB linearity check is performed prior to start of testing in order to determine if an overload condition exists. From 30 to 4700 MHz, a spectrum analyzer with a preselector was used for measurement. Radiated emissions measurements were performed at the anechoic chamber at a test distance of 3 meters. The entire frequency range from 30 to 4700 MHz was slowly scanned and the emissions in the restricted frequency bands were recorded. Measurements were performed using the peak detector function. The spectrum analyzer was adjusted for the following settings:
1) Resolution Bandwidth = 100 kHz for spurious emissions below 1 GHz, and 1 MHz for spurious emissions above 1GHz. 2) Video Bandwidth = 300 kHz for spurious emissions below 1 GHz, and 3 MHz for spurious emissions above 1 GHz. 3) Sweep Speed slow enough to maintain measurement calibration. 4) Detector Mode = Positive Peak. The transmitter to be tested was placed on the turntable in the standard test site, or an FCC listed site compliant with ANSI C63.4. The transmitter is transmitting into a non-radiating load that is placed on the turntable. Measurements were made from the lowest radio frequency generated in the equipment to the tenth harmonic of the carrier. The transmitter was keyed during the tests. RP-9038A1 Rev. 1 Page 19 of 26 Radiometrics Midwest Corporation www.radiomet.com Test Report for the Primex Wireless, Inc., OneVue Sync, Model TX400 For each spurious frequency, the test antenna was raised and lowered from 1 m to 4m to obtain a maximum reading on the spectrum analyzer with the test antenna at horizontal polarity. Then the turntable was rotated 360to determine the maximum reading. This procedure was repeated to obtain the highest possible reading. This maximum reading was recorded. Each measurement was repeated for each spurious frequency with the test antenna polarized vertically. Figure 1. Drawing of Radiated Emissions Setup Substitution Antenna Test Antenna Spectrum Analyzer REC-20 RF Signal Generator TURNTABLE ANSI C63.4 Listed Test Site Notes:
Test Antenna height varied from 1 to 4 meters Distance from antenna to tested system is 3 meters Not to Scale Frequency MHz 30 - 200 200 - 1000 Test Antenna ANT-80 ANT-68 Substitution Receiver to Antenna ANT-79 ANT-06 Coupler REC-20 REC-20 Signal Generator SIG-30 SIG-30 The transmitter was removed and replaced with a broadband substitution antenna. The substitution antenna is calibrated so that the gain relative to a dipole is known. The center of the substitution antenna was approximately at the same location as the center of the transmitter. The substitution antenna was fed at the transmitter end with a signal generator connected to the antenna by means of a non-radiating cable. With the antennas at both ends horizontally polarized, and with the signal generator tuned to a particular spurious frequency, the test antenna was raised and lowered to obtain a maximum reading at the spectrum analyzer. The level of the signal generator output was adjusted until the previously recorded maximum reading for this set of conditions was obtained. RP-9038A1 Rev. 1 Page 20 of 26 Radiometrics Midwest Corporation www.radiomet.com Test Report for the Primex Wireless, Inc., OneVue Sync, Model TX400 The measurements were repeated with both antennas horizontally and vertically polarized for each spurious frequency. The power in dBm into a reference ideal half-wave dipole antenna was calculated by reducing the readings obtained in steps k) and l) by the power loss in the cable between the generator and the antenna, and further corrected for the gain of the substitution antenna used relative to an ideal half-wave dipole antenna by the following formula:
Pd(dBm) = Pg(dBm) cable loss (dB) + antenna gain (dB) where:
Pd is the dipole equivalent power and Pg is the generator output power into the substitution antenna. The Pd levels record in step m) are the absolute levels of radiated spurious emissions in dBm. Any emission must be attenuated below the power (P) of the highest emission contained within the authorized bandwidth as follows:
On any frequency removed from the center of the authorized bandwidth by more than 250 percent of the authorized bandwidth: At least 43 + 10 log (P) dB. Since by mathematical definition, P(dBm) (43+10xLOG P(W)) = -13 dBm, the limit for spurious emissions was set to -13 dBm equivalent radiated power. 10.4.2 Spurious Radiated Emissions Test Results Model TX400 Serial Number SMP2 Test Distance Test Personnel Chris Dalessio 3 Meters Channel 1 Specification Test Date Notes FCC Part 90.210 RSS-119 Section 5.8 02/22/2019 Transmit Mode with Load Freq MHz 58.4 144.2 150.0 216.3 249.8 288.4 350.2 360.5 449.9 474.8 499.7 576.3 651.3 751.3 951.3 976.3 31.7 35.2 42.9 Detector Peak Peak Peak Peak Peak Peak Peak Peak Peak Peak Peak Peak Peak Peak Peak Peak Peak Peak Peak Ant. Pol. Horz Horz Horz Horz Horz Horz Horz Horz Horz Horz Horz Horz Horz Horz Horz Horz Vert Vert Vert EUT dBm
-56.3
-38.2
-47.3
-40.9
-38.5
-47.4
-39.8
-44.5
-47.3
-50.5
-49.2
-53.7
-52.3
-48.4
-50.9
-45.7
-42.2
-46.2
-49.1 Limit dBm
-13.0
-13.0
-13.0
-13.0
-13.0
-13.0
-13.0
-13.0
-13.0
-13.0
-13.0
-13.0
-13.0
-13.0
-13.0
-13.0
-13.0
-13.0
-13.0 Margin dB 43.3 25.2 34.3 27.9 25.5 34.4 26.8 31.5 34.3 37.5 36.2 40.7 39.3 35.4 37.9 32.7 29.2 33.2 36.1 RP-9038A1 Rev. 1 Page 21 of 26 Test Report for the Primex Wireless, Inc., OneVue Sync, Model TX400 Radiometrics Midwest Corporation www.radiomet.com 50.6 72.1 144.2 150.0 170.2 216.3 249.8 288.4 350.2 360.5 420.5 449.9 474.8 551.3 576.3 976.3 Peak Peak Peak Peak Peak Peak Peak Peak Peak Peak Peak Peak Peak Peak Peak Peak Vert Vert Vert Vert Vert Vert Vert Vert Vert Vert Vert Vert Vert Vert Vert Vert
-48.4
-44.9
-41.6
-50.6
-48.4
-44.6
-43.0
-46.5
-43.2
-43.6
-50.7
-42.3
-45.5
-49.1
-53.9
-46.2
-13.0
-13.0
-13.0
-13.0
-13.0
-13.0
-13.0
-13.0
-13.0
-13.0
-13.0
-13.0
-13.0
-13.0
-13.0
-13.0 35.4 31.9 28.6 37.6 35.4 31.6 30.0 33.5 30.2 30.6 37.7 29.3 32.5 36.1 40.9 33.2 Channel 74 Margin Detector Ant. Pol. Horz Horz Horz Horz Horz Horz Horz Horz Horz Horz Horz Horz Horz Horz Vert Vert Vert Vert Vert Vert Vert Vert Vert Vert Vert Vert Vert Vert Vert Vert Vert Peak Peak Peak Peak Peak Peak Peak Peak Peak Peak Peak Peak Peak Peak Peak Peak Peak Peak Peak Peak Peak Peak Peak Peak Peak Peak Peak Peak Peak Peak Peak Freq MHz 146.0 150.0 218.9 249.8 274.7 291.9 325.3 350.2 364.9 449.9 576.3 751.3 951.3 976.3 36.0 42.9 146.0 150.0 218.9 249.8 291.9 303.4 350.2 364.9 449.9 474.8 499.7 551.3 576.3 751.3 975.0 EUT dBm
-42.8
-47.7
-52.6
-44.0
-48.4
-47.8
-52.6
-40.2
-47.4
-48.7
-52.3
-49.8
-51.2
-44.4
-48.6
-50.3
-39.6
-51.1
-50.2
-44.1
-49.9
-46.5
-44.2
-50.0
-42.4
-48.0
-51.5
-50.6
-52.3
-51.2
-47.7 Judgment: Passed by at least 20 dB. No other radiated emissions were detected within 20 dB of the limits from 30 MHz to 1 GHz. Limit dBm
-13.0
-13.0
-13.0
-13.0
-13.0
-13.0
-13.0
-13.0
-13.0
-13.0
-13.0
-13.0
-13.0
-13.0
-13.0
-13.0
-13.0
-13.0
-13.0
-13.0
-13.0
-13.0
-13.0
-13.0
-13.0
-13.0
-13.0
-13.0
-13.0
-13.0
-13.0 dB 29.8 34.7 39.6 31.0 35.4 34.8 39.6 27.2 34.4 35.7 39.3 36.8 38.2 31.4 35.6 37.3 26.6 38.1 37.2 31.1 36.9 33.5 31.2 37.0 29.4 35.0 38.5 37.6 39.3 38.2 34.7 RP-9038A1 Rev. 1 Page 22 of 26 Radiometrics Midwest Corporation www.radiomet.com Test Report for the Primex Wireless, Inc., OneVue Sync, Model TX400 10.5 Frequency Stability 10.5.1 Frequency Stability Vs Temperature The chamber was then set to the lowest temperature. The transmitter was in the chamber and allowed to stabilize for 15 minutes. The transmitter was then keyed, and the frequency was recorded. The chamber was then incremented in 10C steps with a minimum of 15-minute stabilization period for each temperature measurement. The transmitter was off during the temperature transitions. 10.5.2 Frequency Stability Vs Supply Voltage The EUT was allowed to stabilize with the nominal primary power supply voltage applied. The primary input voltage was varied from the lowest to the highest rated levels specified by the manufacturer. Frequency readings were taken at increments of 5% of nominal. 10.5.3 Test Results for Frequency Stability Model TX400 Specification Serial Number SMP2; No LPF Test Personnel Richard Tichgelaar Test Equipment Freq. Counter (CNT-01); Temperature Chamber (TC-01); Multimeter (DMM-11) Notes Nominal Frequency 15 minutes at each Temperature; 1 min at each voltage Test Date Test Location 72.500 MHz FCC Part 90.213 RSS-119 Section 5.3 February 15, 2019 Chamber F Volts VAC 100.0 102.0 108.0 114.0 120.0 126.0 132.0 138.0 Freq.
(MHz) 72.500083 72.500091 72.500095 72.500093 72.500094 72.500087 72.500084 72.500086 Deviation Hz 83 91 95 93 94 87 84 85 PPM 1.14 1.26 1.31 1.28 1.30 1.20 1.16 1.18 Temp Deg C 50 40 30 20 10 0
-10
-20
-30 Initial Freq after 15 min
(MHz)
(MHz) 72.5001047 72.5001014 72.5001018 72.5001007 72.5000984 72.5000928 72.5000908 72.5000898 72.5000859 72.5000803 72.5000773 72.5000761 72.5000592 72.5000579 72.5000408 72.5000426 72.5000548 72.5000553 Freq. Dev Hz 101 101 93 90 80 76 58 43 55 PPM 1.40 1.39 1.28 1.24 1.11 1.05 0.80 0.59 0.76 Test Requirements: Limit is 5 ppm Judgement: Pass RP-9038A1 Rev. 1 Page 23 of 26 Radiometrics Midwest Corporation www.radiomet.com Test Report for the Primex Wireless, Inc., OneVue Sync, Model TX400 10.6 Radiated Emissions (Receive Mode) Radiated emission measurements were performed with linearly polarized broadband antennas. The results obtained with these antennas can be correlated with results obtained with a tuned dipole antenna. The radiated emission measurements were performed with a spectrum analyzer. The bandwidth used from 150 kHz to 30 MHz is 9 or 10 kHz and the bandwidth from 30 MHz to 1000 MHz is 100 or 120 kHz. Above 1 GHz, a 1 MHz bandwidth is used. A 10-dB linearity check is performed prior to start of testing in order to determine if an overload condition exists. From 30 to 2000 MHz, an Anritsu spectrum analyzer was used. Final radiated emissions measurements were performed inside of an anechoic chamber at a test distance of 3 meters. The anechoic chamber is designated as Chamber E. This Chamber meets the Site Attenuation requirements of ANSI C63.4 and CISPR 16-1. Chamber E is located at 12 East Devonwood Ave. Romeoville, Illinois EMI test lab. The entire frequency range from 30 to 2000 MHz was slowly scanned with attention paid to those frequency ranges which appeared high. Measurements were performed using two antenna polarizations, (vertical and horizontal). The worst-case emissions were recorded. All measurements may be performed using either the peak, average or quasi-peak detector functions. If the peak detector data exceeds or is marginally close to the limits, the measurements are repeated using a quasi-peak detector or average function as required by the specification for final determination of compliance. The detected emission levels were maximized by rotating the EUT, adjusting the positions of all cables, and by scanning the measurement antenna from 1 to 4 meters above the ground. 10.6.1 Radiated Emissions Field Strength Sample Calculation FS = RA + AF + CF - AG The field strength is calculated by adding the Antenna Factor and Cable Loss, and by subtracting the Amplifier Gain from the measured reading. The basic equation is as follows:
Where: FS = Field Strength 10.6.2 Spurious Radiated Emissions Test Results (Receive Mode) RA = Receiver Amplitude AF = Antenna Factor CF = Cable Attenuation Factor AG = Amplifier Gain Model TX400 Specification FCC Part 15 Subpart B & RSS-Gen Class A February 22 & 25, 2019 Serial Number SMP2 Tested by Abbreviations Notes Configuration Test Date Test Distance 3 Meters Chris Dalessio Pol = Antenna Polarization; V = Vertical; H = Horizontal; P = peak; Q = QP Corr. Factors = Cable Loss Preamp Gain Receive Mode; ferrite 0461164281 On GPS Antenna Coax cable Freq. MHz 36.0 48.9 65.7 90.6 106.5 Meter Reading dBuV 18.0 14.9 19.7 15.8 19.0 Dect. P P P P P Ant. Pol. H H H H H Ant Factor 12.0 9.7 9.2 9.8 10.7 Cable &
Amp Factors 0.4 0.5 0.6 0.7 0.8 Dist. Fact dB
-10.5
-10.5
-10.5
-10.5
-10.5 EUT dBuV/m 19.9 14.6 19.0 15.8 20.0 RP-9038A1 Rev. 1 Limit dBuV/m 39.1 39.1 39.1 43.5 43.5 Margin Under Limit dB 19.2 24.5 20.1 27.7 23.5 Note Page 24 of 26 Test Report for the Primex Wireless, Inc., OneVue Sync, Model TX400 Radiometrics Midwest Corporation www.radiomet.com Freq. MHz 115.1 116.9 125.0 150.0 174.9 191.7 216.6 224.9 249.8 269.5 274.7 299.7 350.2 375.2 400.1 425.0 449.9 474.8 499.7 551.3 576.3 601.3 626.3 751.3 976.3 30.9 35.2 36.0 43.8 49.8 50.6 65.3 108.7 125.0 150.0 174.9 192.1 224.9 250.0 299.7 331.4 350.2 375.2 400.1 425.0 449.9 474.8 526.3 540.0 551.3 576.3 626.3 751.3 Meter Reading dBuV 22.0 22.5 13.3 24.5 19.3 15.6 21.4 28.2 34.7 22.9 22.4 22.0 26.2 20.1 13.3 20.1 18.8 17.9 18.8 17.2 16.1 15.2 13.8 14.4 14.1 20.3 17.1 30.9 26.2 25.4 30.5 25.2 34.7 19.9 22.7 17.2 15.4 21.2 36.2 19.7 21.9 27.6 19.4 16.1 23.4 20.1 24.0 14.8 14.8 17.9 15.3 12.0 14.7 Dect. P P P Q P P P P Q P P P Q P P P P P P P P P P P P Q Q Q Q Q P P P P P P P P Q P P Q P P Q P Q P P P P P P Ant. Pol. H H H H H H H H H H H H H H H H H H H H H H H H H V V V V V V V V V V V V V V V V V V V V V V V V V V V V Ant Factor 11.3 11.4 11.9 12.8 13.2 13.9 10.8 10.6 11.9 12.4 12.9 14.0 14.6 14.7 15.2 16.3 16.0 16.7 17.5 18.0 18.3 18.6 19.6 21.6 22.5 13.2 12.1 12.0 10.4 9.5 9.4 9.3 10.8 11.9 12.8 13.2 13.9 10.6 11.9 14.0 13.9 14.6 14.7 15.2 16.3 16.0 16.7 17.8 17.3 18.0 18.3 19.6 21.6 Cable &
Amp Factors 0.8 0.8 0.8 0.9 1.0 1.1 1.1 1.1 1.2 1.3 1.3 1.4 1.5 1.5 1.6 1.6 1.7 1.7 1.8 1.9 1.9 2.0 2.0 2.2 2.6 0.4 0.4 0.4 0.5 0.5 0.5 0.6 0.8 0.8 0.9 1.0 1.1 1.1 1.2 1.4 1.4 1.5 1.5 1.6 1.6 1.7 1.7 1.9 1.9 1.9 1.9 2.0 2.2 Dist. Fact dB
-10.5
-10.5
-10.5
-10.5
-10.5
-10.5
-10.5
-10.5
-10.5
-10.5
-10.5
-10.5
-10.5
-10.5
-10.5
-10.5
-10.5
-10.5
-10.5
-10.5
-10.5
-10.5
-10.5
-10.5
-10.5
-10.5
-10.5
-10.5
-10.5
-10.5
-10.5
-10.5
-10.5
-10.5
-10.5
-10.5
-10.5
-10.5
-10.5
-10.5
-10.5
-10.5
-10.5
-10.5
-10.5
-10.5
-10.5
-10.5
-10.5
-10.5
-10.5
-10.5
-10.5 EUT dBuV/m 23.6 24.2 15.5 27.7 23.0 20.1 22.8 29.4 37.3 26.1 26.1 26.9 31.8 25.8 19.6 27.5 26.0 25.8 27.6 26.6 25.8 25.3 24.9 27.7 28.7 23.4 19.1 32.8 26.6 24.9 29.9 24.6 35.8 22.1 25.9 20.9 19.9 22.4 38.8 24.6 26.7 33.2 25.1 22.4 30.8 27.3 31.9 24.0 23.5 27.3 25.0 23.1 28.0 Limit dBuV/m 43.5 43.5 43.5 43.5 43.5 43.5 46.4 46.4 46.4 46.4 46.4 46.4 46.4 46.4 46.4 46.4 46.4 46.4 46.4 46.4 46.4 46.4 46.4 46.4 49.5 39.1 39.1 39.1 39.1 39.1 39.1 39.1 43.5 43.5 43.5 43.5 43.5 46.4 46.4 46.4 46.4 46.4 46.4 46.4 46.4 46.4 46.4 46.4 46.4 46.4 46.4 46.4 46.4 Margin Under Limit dB 19.9 19.3 28.0 15.8 20.5 23.4 23.6 17.0 9.1 20.3 20.3 19.5 14.6 20.6 26.8 18.9 20.4 20.6 18.8 19.8 20.6 21.1 21.5 18.7 20.8 15.7 20.0 6.3 12.5 14.2 9.2 14.5 7.7 21.4 17.6 22.6 23.6 24.0 7.6 21.8 19.7 13.2 21.3 24.0 15.6 19.1 14.5 22.4 22.9 19.1 21.4 23.3 18.4 Note RP-9038A1 Rev. 1 Page 25 of 26 Radiometrics Midwest Corporation www.radiomet.com Test Report for the Primex Wireless, Inc., OneVue Sync, Model TX400 Freq. MHz 876.3 975.0 Meter Reading dBuV 11.7 16.7 Dect. P P Ant. Pol. V V Ant Factor 22.2 22.5 Cable &
Amp Factors 2.4 2.6 Dist. Fact dB
-10.5
-10.5 EUT dBuV/m 25.8 31.3 Limit dBuV/m 46.4 49.5 Margin Under Limit dB 20.6 18.2 Note Judgment: Passed by 7.7 dB. m
/
V u B d 55 50 45 40 35 30 25 20 10 FCCClassARadiatedEmissions 100 MHz 1000 Peak/Vert QP/Vert Peak/Horz QP/Horz FCCAlimit Radiated emissions in a graphical format. The above chart is the same data as the previous table. The peak limit is not shown, since the peak readings meet the lower average limit. 11.0 MEASUREMENT INSTRUMENTATION UNCERTAINTY Measurement Uncertainty Radiated Emissions, E-field, 3 meters, 30 to 200 MHz Radiated Emissions, E-field, 3 meters, 200 to 1000 MHz 99% Occupied Bandwidth using REC-43 Conducted power PWM-01 at 72 MHz Amplitude measurement 1-1000 MHz Temperature THM-02 The uncertainties represent expanded uncertainties expressed at approximately the 95% confidence level using a coverage factor of k=2 in accordance with CISPR 16-4-2. 1% of frequency span 0.14 dB 1.5 dB 3.3 dB 4.9 dB 0.6 Deg. C RP-9038A1 Rev. 1 Page 26 of 26
frequency | equipment class | purpose | ||
---|---|---|---|---|
1 | 2019-04-10 | 72 ~ 73 | TNB - Licensed Non-Broadcast Station Transmitter | Original Equipment |
app s | Applicant Information | |||||
---|---|---|---|---|---|---|
1 | Effective |
2019-04-10
|
||||
1 | Applicant's complete, legal business name |
Primex Wireless, Inc.
|
||||
1 | FCC Registration Number (FRN) |
0008073181
|
||||
1 | Physical Address |
965 Wells St
|
||||
1 |
Lake Geneva, Wisconsin 53147
|
|||||
1 |
United States
|
|||||
app s | TCB Information | |||||
1 | TCB Application Email Address |
b******@baclcorp.com
|
||||
1 | TCB Scope |
B2: General Mobile Radio And Broadcast Services equipment in the following 47 CFR Parts 22 (non-cellular) 73, 74, 90, 95, 97, & 101 (all below 3 GHz)
|
||||
app s | FCC ID | |||||
1 | Grantee Code |
PZ3
|
||||
1 | Equipment Product Code |
TX400
|
||||
app s | Person at the applicant's address to receive grant or for contact | |||||
1 | Name |
A******** J******** M****
|
||||
1 | Title |
Product Manager
|
||||
1 | Telephone Number |
262-2********
|
||||
1 | Fax Number |
262-2********
|
||||
1 |
a******@primexinc.com
|
|||||
app s | Technical Contact | |||||
n/a | ||||||
app s | Non Technical Contact | |||||
n/a | ||||||
app s | Confidentiality (long or short term) | |||||
1 | Does this application include a request for confidentiality for any portion(s) of the data contained in this application pursuant to 47 CFR § 0.459 of the Commission Rules?: | Yes | ||||
1 | Long-Term Confidentiality Does this application include a request for confidentiality for any portion(s) of the data contained in this application pursuant to 47 CFR § 0.459 of the Commission Rules?: | No | ||||
if no date is supplied, the release date will be set to 45 calendar days past the date of grant. | ||||||
app s | Cognitive Radio & Software Defined Radio, Class, etc | |||||
1 | Is this application for software defined/cognitive radio authorization? | No | ||||
1 | Equipment Class | TNB - Licensed Non-Broadcast Station Transmitter | ||||
1 | Description of product as it is marketed: (NOTE: This text will appear below the equipment class on the grant) | OneVue Sync transceiver | ||||
1 | Related OET KnowledgeDataBase Inquiry: Is there a KDB inquiry associated with this application? | No | ||||
1 | Modular Equipment Type | Does not apply | ||||
1 | Purpose / Application is for | Original Equipment | ||||
1 | Composite Equipment: Is the equipment in this application a composite device subject to an additional equipment authorization? | No | ||||
1 | Related Equipment: Is the equipment in this application part of a system that operates with, or is marketed with, another device that requires an equipment authorization? | No | ||||
1 | Grant Comments | Output power is conducted. The antenna(s) used for this transmitter must be installed to provide a separation distance of at least 35 cm from all persons and must not be co-located or operating in conjunction with any other antenna or transmitter. Users and installers must be provided with antenna installation instructions and transmitter operating conditions for satisfying RF exposure compliance. | ||||
1 | Is there an equipment authorization waiver associated with this application? | No | ||||
1 | If there is an equipment authorization waiver associated with this application, has the associated waiver been approved and all information uploaded? | No | ||||
app s | Test Firm Name and Contact Information | |||||
1 | Firm Name |
Radiometrics Midwest Corp.
|
||||
1 | Name |
J****** S********
|
||||
1 | Telephone Number |
81529********
|
||||
1 | Fax Number |
81529********
|
||||
1 |
j******@radiomet.com
|
|||||
Equipment Specifications | |||||||||||||||||||||||||||||||||||||||||
---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|
Line | Rule Parts | Grant Notes | Lower Frequency | Upper Frequency | Power Output | Tolerance | Emission Designator | Microprocessor Number | |||||||||||||||||||||||||||||||||
1 | 1 | 90 | 72.00000000 | 73.00000000 | 1.0000000 | 5.0000000000 ppm | 20K0F1D |
some individual PII (Personally Identifiable Information) available on the public forms may be redacted, original source may include additional details
This product uses the FCC Data API but is not endorsed or certified by the FCC