Paragon3 (700/800MHz) Data Base Station (With Crescent 70W PA) User Manual Version 1.00 Preliminary – For FCC / IC The entire contents of this manual are copyright 2007 by DATARADIO Inc. Copyright DATARADIO Inc. April 2007 Part no.
1. PRODUCT OVERVIEW ...................................................................................................................................1 1.1 INTENDED AUDIENCE ........................................................................................................................................1 1.2 GENERAL DESCRIPTION ....................................................................................................................................1 1.2.1 Features .........................
4.7.3 Setup (Advanced) ...................................................................................................................................26 4.7.3.1 4.7.3.2 4.7.3.3 4.7.3.4 4.7.3.5 4.7.3.6 4.7.3.7 4.7.3.8 4.7.4 Setup (Advanced) ► LAN (IP) .................................................................................................................... 26 Setup (Advanced) ► RF (IP)...........................................................................................................
FIGURE 5 - POWER AMPLIFIER’S DC POWER AND RF CONNECTORS ..............................................................................7 FIGURE 6 - PARAGON3 UNIT REAR VIEW .........................................................................................................................8 FIGURE 7 - BACKPLANE ..................................................................................................................................................8 FIGURE 8 - MAXI-FUSE ............................
WHAT'S NEW History Draft for Crescent Amplifier based Paragon3 700/800MHz Version 1.00: Mars 2007 –Preliminary • Initial release of Paragon3 700/800MHz radiomodem User Manual drafted from the manual of Paragon3 700MHz part No 120-20191-102. Version 1.01: 1st April 2007 –Preliminary • Corrections on specifications at page 72. Version 1.02 10th April 2007 –Preliminary • Added nominal bandwidth information on paragraph 3.1.3 “70W Power Amplifier“.
About Dataradio For 25 over years, Dataradio has been a recognized and innovative supplier of advanced wireless data products and systems for mission-critical applications. Public safety organizations, utilities, local government, water management, and other critical infrastructure operations depend on Dataradio to ensure that vital wireless data reaches the people who need it, when they need it most.
Definitions Communication hub for users to connect to a wired LAN. APs are important for providing heightened wireless security. AES Advanced Encryption Standard (AES) - uses 128-bit encryption to secure data. Airlink Physical radio frequency connections used for communications between units. ARP Address Resolution Protocol – Maps Internet address to physical address. AVL Automatic Vehicle Location.
IPCONFIG MAC ADDRESS NAT Network Network speed Node OIP OTA Paragon3 Parallel Decode Ping PLC Roaming Router RS-232 Smart Combining SRRCnFSK Spatial Diversity Static IP Address Static Routing Subnet Mask Switch (Ethernet) Sync TCP/IP Telnet TFTP Topology Transparent UDP 120 20194-102 A Windows 2000 and XP utility that displays the IP address for a particular networking device. Media Access Control - The unique address that a manufacturer assigns to each networking device.
Upgrade URL VIS WINIPCFG WLAN 120 20194-102 To replace existing software or firmware with a newer version. Universal Resource Locator - The address of a file located on the Internet. Vehicular Information Solutions. Dataradio’s name for a series of products specially designed for mobile data. A Windows 98 and Me utility that displays the IP address for a particular networking device. Wireless Local Area Network - A group of computers and associated devices that communicate with each other wirelessly.
1. PRODUCT OVERVIEW This document provides information required for the setting up, operation, testing and trouble-shooting of the Dataradio® Paragon3™ radio-modem base station. 1.1 Intended Audience This document is intended for engineering, installation, and maintenance personnel. 1.2 General Description The Paragon3 radio base station is a factory-integrated industrial-grade IP-based data product used in mobile networks and is designed specifically to fit the needs of vehicular applications.
1.2.1 Features • Parallel Decode (PD) technology featuring a diversity SDR receiver module for added decode sensitivity in multi-path and fading environments. • Fully IP-based product line, using an optimized IP layer that reduces IP overhead for the RF link • Sophisticated dual DSP-based modem design provides added system performance, fewer retries and more effective throughput.
1.3 Factory Technical Support The Technical Support departments of DATARADIO provide customer assistance on technical problems and serve as an interface with factory repair facilities. They can be reached in the following ways: For Canada and International customers: DATARADIO Inc.
1.4 Product Warranty Warranty information may be obtained by contacting your sales representative. 1.5 Replacement Parts This product is usually not field-serviceable, except by the replacement of individual radio modules. Specialized equipment and training is required to repair logic, modem boards, and radio modules. Contact Technical Support for service information before returning equipment. A Technical Support representative may suggest a solution eliminating the need to return equipment. 1.5.
2. Installation Figure 1 - Typical rack-mount multi-modules "Radio Assembly" 2.1 Overview The cabinet and rack-mount housing the Paragon3’s radio-modem and Power Amplifier is generally installed in a sheltered facility. Occasionally located adjacent to the nerve center of the user’s network, it is often located near tower sites or at remote locations where it operates unattended.
2.3 Amplifier Model using Crescend Technologies Inc power amplifier.
DC ON LOW OUTPUT HIGH VSWR HIGH TEMP Figure 4 – Close-up – Front Panel LED Indicators Figure 5 - Power Amplifier’s DC Power and RF Connectors on Rear Side 120 20194-102 7 Paragon3 – 700/800MHz User Manual
2.4 Rear Views Figure 6 - Paragon3 unit rear view 10-amp fuse Paragon III (minus Power Amp) 2 x 15-amp fuses in parallel for Power Amp alone.
2.5 Electrical Standard 120 VAC electrical power is required. It should be capable of providing at least 10A to power Paragon3 unit (<6A) and ancillary equipment. 2.5.1 Paragon3 Assembly Power Two distinct power configurations (rear views) are shown in the preceding pages. They are: • Paragon3 Base Station Standard Assembly. This configuration is described in paragraph 2.5.1.1 below. • Paragon3 Base Station Assy. with 3rd party DC supply.
Torque Settings: The manufacturer recommends torque setting all power supply terminal screws to a minimum of: • 1.5 Nm (or 13.28 In/lb or to 1.107 ft/lb) Note: Dataradio uses a Sturtuvan Richmond 29-pieces adjustable torque screwdriver model CAL36/4K. After tightening, pull on the cable to check the cable is secured tightly into the screw terminal. 2.5.1.1.2 Power Indications Both red-colored translucent power switches located on the front of the power supply modules illuminate when AC power is available.
2.7 Antenna 2.7.1 Overview Paragon3 unit commonly uses three antennas (one transmit and two receive) unless a duplexer is used with one of the receive antennas; then only two antennas would be needed. They should be mounted according to any guidelines supplied with the antennas. For antennas placement and spacing, consult System Engineering. 2.7.2 Cabling and Connection 1- Route good quality 50-ohm double-shielded coaxial cable(s) (e.g.
3. Operating Description 3.1 Radio Assembly The Radio assembly component of each Paragon product is made up of high performance synthesized radio base station designed for single operation. The Radio Assembly’s modules are commonly installed in a standard, 19-inch wide rack frame.
The Exciter’s front panel controls and indicators are: • Carrier Switch - momentarily keys the transmitter ON while pressed (used for test purposes only). • On LED - is lit when transmitting • Line Sensitivity – not used. • • Supply LED - is lit when DC power is applied. Fast Flashes when linked with PGM800Win. Slow Flashes indicates VCO (synthesizer) out of lock. Unequal Flashes indicates internal communication error. Microphone Socket – not used. ® 3.1.
3.1.4 BSC module The BSC's front panel connectors and indicators are: PWR LED RX LED Normal operation Step 2 in uMon boot-up – lights for <1 sec. Red Step 1 in uMon boot-up – lights for <1 sec. Green Flashes for each data packets received Red Discard RX packet (factory-use) Green Flashes for each data packets transmitted Flashes for each data packets transmitted (check for lost Host connection) Continuoulsy ON for TXON test (max. 20 secs.
3.1.6 Power Supply Modules Two switched mode pulse width modulated T-809 power supply modules are used but not connected in parallel. ® Power Supply Both power supply units have an ON-OFF switch and an output voltage adjust potentiometer (13.5 to 18 VDC).
3.1.6.1 Power Supply Rear Connections The rear panel connections are: • Auxiliary Inputs – The DE-9 connector on the T809-10 rear panel provides access to the remote control of the power supply (reserved for future use). • Output Voltage Adjust – The output voltage of the power supply can be increased (up to 18V approximately) to compensate for the voltage drop lost along the cable. Access the trim-pot through a small hole on the rear panel.
3.1.7 Radio Backplane Assembly 2 Maxi-Fuses 15A Maxi-Fuse 10A System 13.8 VDC Channel Selection (Factory calibration) 15-pin High Density F1 JP1 J-18 Pin 1 F2 F3 J-19 Pin 1 Fan RJ-45 connector Used for programming Power Amplifier 13.
4. Operation & Configuration 4.1 Browser-Based Setup and Status A built-in web server makes configuration and status monitoring possible from any browser-equipped computer, either locally or remotely. Status, configuration, and online help are available without requiring special client software. Setup is password-protected to avoid tampering or unauthorized changes.
4.3 IP Network Settings 4.3.1 IP Network Settings (with Host) Referring to Figure 16 below, set the Paragon3 base station. Set the “Data” port Eth1 IP addresses (for “Setup” port set Eth2) and IP netmask of both Base and Mobile(s). Keep the RF IP setting as is, providing customer is not using the 10.0.0.0 IP network. Add routes in the Host (route add…) In the illustration, Host and PC are part of different IP subnet Paragon3 Base Mobile DHCP Server SETUP: Eth2 IP: 192.168.203.1 MASK: 255.255.255.
Keep the RF IP setting as is, providing customer is not using the 10.0.0.0 IP network. Enable RIPv2 on Base station In the illustration, Host and PC are part of different IP subnet. 4.4 LAN Setup On a PC running MS-Windows with an existing LAN connection, connect either to the ETH1 (Data) or to ETH2 (Setup) RJ-45 input of the Paragon3 base station.
4.5.1 Initial Installation Login For an initial installation, enter a User Name of 1 to 15 characters and the default Password ADMINISTRATOR (upper case letters). Click OK. The Web interface “Welcome” screen opens Figure 20. Figure 19 - Web User Interface – Welcome Screen For subsequent access to the Paragon3 unit, use the User Name and Password that you will have configured. Notes: User Name field can be left blank. It only serves to identify the person gaining access.
Figure 20 - Web User Interface 4.6.1 Apply, Cancel, Save Config, and Reset Unit Buttons & Help Icon Several submenus have “Apply” and “Cancel” buttons. The navigation area has “Save Config”, “Reset Unit” buttons and a Help icon. If you “Apply” changes to any parameters marked “Reset Unit”. you will need to do a “Save Config” and a Make an entry into a dialog box. When satisfied, click on Apply to temporarily apply the value(s) entered to the relevant parameter(s).
4.7 Advanced IP Settings 4.7.1 Unit Identification and Status Displays values that identify the unit and show its basic operating condition. Figure 21 - Unit Identification and Status Item Banner Station Name System ID Local Time CWID Callsign CWID Interval 120 20194-102 Description Displays Paragon3 software revision information retrieved from the connected unit. Have this information handy if contacting Dataradio support. Displays name of connected unit.
4.7.2 Setup (Basic) 4.7.2.1 Setup (Basic) ► General Used to set two basic operating fields on the connected unit. Figure 22 - Setup (Basic) – General Setup Item Description Station Name Station name identifier – Enter string up to forty characters in length System ID Factory default ID is zero. To prevent collision and to minimize interference from remote systems that may be present on the same frequency, Dataradio recommends changing the System ID to some other value unique to each network.
4.7.2.3 Setup (Basic) ► Serial Ports Setup The Paragon3 base station serial ports can be logically connected to local and remote services to aid in configuration and troubleshooting, or they can be connected to a remote Host application or even to the serial port of a remote unit. 10.255.255.
4.7.3 Setup (Advanced) 4.7.3.1 Setup (Advanced) ► LAN (IP) Allows the setting of IP characteristics beyond those set in “Setup (Basic)” Î “Basic IP”. When a mobile registers with a new base, the base may send a message to each of its neighbor to assure that their Internet tables are up-to-date. Up to 32 neighbors can be entered. An empty or incomplete table may cause IP routing problems when the mobile roams.
4.7.3.2 Setup (Advanced) ► RF (IP) At the time of manufacture, each Paragon3 base station and Gemini G3 radiomodem is provided with a unique MAC address for its Ethernet and RF interfaces. These addresses cannot be changed. The RF interface is also provided with a unique Factory RF IP address. If this IP address conflicts with any existing IP network, it can be overridden. Figure 26 - Advanced IP Configuration - RF (IP) Item RF MAC Description RF Interface MAC address in HEX format (factory-set).
4.7.3.3 Setup (Advanced) ► Roaming The “Host Link Active” feature allows a base to assure the communication backhaul is operating. If not, the base indicates to mobiles on the channel that they should promptly roam to another base The “Base Loaded” feature monitors the amount of network traffic during the previous 10-second period.
4.7.3.4 Setup (Advanced) ► IP Services Setup Figure 28 - Advanced IP Configuration – IP Services Setup Server DHCP Server Disabled, Enabled (Default). The Dynamic Host Configuration Protocol provides a framework for passing configuration information E.g.: IP address to Hosts (i.e. PC/RTU) on a TCP/IP network. Gateway Gateway address handed out by the DHCP Server to the DHCP Client. The default value is set to the IP address of the Ethernet 2 interface. If the gateway is set to 0.0.0.
4.7.3.
4.7.3.6 Setup (Advanced) ► IP Optimization & Tuning Figure 30 - Advanced IP Configuration - IP Optimization & Tuning - OIP (Router Mode) Item Data Compression Description Disabled, Enabled (Default) Applies data compression over the IP payload. Disabled (Default) - TCP packets are always RF acknowledged regardless of this option setting. RF ACK Enabled - Use when packets need to be acknowledged at the RF level by the remote unit (destination unit).
4.7.3.7 Setup (Advanced) ► Time Source To facilitate tracking of events in a network, the Paragon3 base station and the GeminiG3 unit can initialize their real-time clocks using a number of protocols. At reset time, the Paragon3 can use the SNTP protocol (RFC2030) to pick up the current UTC (Universal) time. Setting the “TimeZone” and “Daylight Savings” options allows displaying the correct local time in the “Unit Identification and Status” page.
4.7.3.8 Setup (Advanced) ► Ethernet (PHY) The Ethernet port(s) must be configured in a mode that is compatible with the other local devices.
4.7.4 Security 4.7.4.1 Security ► Password and Encryption Control The Setup web pages, the CLI (command line interface) and the FTP server all require a password to prevent unauthorized users from changing a unit’s configuration. At the time of manufacture, the password is set to “ADMINISTRATOR” but Dataradio strongly suggests that the password be changed as units are installed.
4.7.4.2 Security ► Access Control Figure 34 - Security - Access List Item Description Access List is used to keep unauthorized unit(s) away from Dataradio RF network. Maximum number of Access List entries = 100. The Access List Control takes the following values: Access List Control Access List Control Disabled (Default) White List – Authorized units only. Requests from any unit(s) outside this list will be rejected. Black List – Unauthorized units.
4.7.5 Statistics 4.7.5.
4.7.5.2 Statistics ► Airlink Statistics Figure 36 - Statistics – Airlink – Channel Utilization Item Channel statistics RF Statistics FEC Statistics Channel Utilization TX Ctrl Pkts RX Ctrl Pkts TX Data Pkts RX Data Pkts Packets with no errors Packets corrected Packets not correctable 120 20194-102 Description Outbound: Gives outbound channel usage by reporting on: ♦ Total slots delivered over-the-air, ♦ Data slots, ♦ Percentage of utilization.
4.7.5.
4.7.6 Maintenance 4.7.6.1 Maintenance ► Ping Test To aid in trouble-shooting IP connectivity issues, the Paragon3 base stations and the GeminiG3 mobiles can transmit ping packets to a given IP address. Four packets are sent and the time taken for each to reach the destination and return is displayed. Figure 38 - Maintenance – Ping Test Item Description Enter IP address Enter IP address to ping, in dot decimal format Execute This button executes the ping command.
4.7.6.2 Maintenance ► Radio Info Figure 39 - Maintenance - Radio Information Item Description RX main Indicates the Serial Number and Module model of the main receiver module RX diversity Indicates the Serial Number and Module model of the diversity receiver TX exciter Indicates the Serial Number and Module model of the transmitter/exciter module Note: On 700MHz units, both main and diversity receivers reside on one radio module. Therefore, their serial number will always be the same.
4.7.6.3 Maintenance ► Unit Configuration Control Figure 40 - Maintenance - Unit Configuration Control (Initial screen) Item Active Configuration Description Description Active Configuration Description Field – Available by selecting “Checkpoint User Configuration” in the “User Configuration Settings “ portion of this window (described below). Enter descriptive title of up to 40 characters, to help identify the configuration settings saved.
4.7.6.4 Maintenance ► Package Control Figure 41 – Maintenance – Package Control Item Description Used for verifying the field upgrade of the Paragon3 mobile radiomodem firmware. Package Control The firmware transfer procedure outlined in section 5.4 instructs to “Click on Maintenance / Package Control to verify integrity and wait a few moments for the results to display. Figure 41 above shows a “Pass” result indication.
4.7.7 OOB Data 4.7.7.1 OOB Data ► Out of Band Figure 43 - Out-Of-Band Item Description Delivery Options Drop-down box for selecting the desired format for the Local Port GPS data delivery Monitor (Local) For testing, clicking the “Open Window” button starts a Telnet session to the port shown in the “Local Port” above to display GPS reports as they are produced. The Telnet program used will be the one configured for your browser. Open window GPS Delivery E.g.
4.7.8 Remote Table Figure 44 - Remote Table Item # Description Index of the displayed entry. Up to 25 entries will be displayed at a time. “Previous” and “Next” buttons will appear as necessary. RF MAC RF MAC address of the mobile RF IP addr RF IP address of the mobile Proxy Indicates when the TCP Proxy has been enabled for that mobile (On/Off) Indicates the current state of the mobile.
4.7.9 Radio 4.7.9.1 Radio ► RF Tests Test Tones: Select the desired test tone, press the “Execute” button to transmit a test signal on the channel selected for 20 seconds or until the “Cancel current test” button is pressed. The functions of all the other buttons are inoperative during test transmissions. Figure 45 - Control - RF Tests 1 kHz sine wave Test transmission generates a carrier modulated with 1kHz sine wave, at deviation level that depends on mode of operation and network speed.
4.7.10 Help Figure 46 - Help Icon Item Help Icon 120 20194-102 Description Click the Help Icon in the navigation pane to open a help text relating to the window being displayed.
5. Trouble-Shooting and Testing The checks described below should be done at time of installation, annual intervals, or whenever deterioration in performance is noted. 5.1 • • • Equipment Required In-line wattmeter (5 W range) for the 1W-transmitter module as well as for the reflected power and (100W range) for the power amplifier. Radio service monitor (IFR-120B with option 03: 30kHz IF filter or equivalent).
Table 5 - Checklist A (After installation) CHECKLIST A (Paragon3) Recommended Check out after Installation Step 1 ACTION Normal Power-up Sequence BSC Receivers Transmitter EXPECTED RESULTS at MEASURE WITH IF NOT? 25°C PWR LED lights red for four second, turns amber for one second, and stays green thereafter.
Table 6 - Checklist B (General) CHECKLIST B (Paragon-3) General Check out Paragon3 units are set and characterized at the factory to optimize performances. It is not recommended to try readjusting units unless it is really required. Misadjusting a unit may result in significant performance losses. The proposed adjustments in the "IF NOT?" column below, should be tried ONLY if system data performance degradation is noticed combined with out-of-tolerance items.
7 12dB SINAD Better than -105 dBm including cable loss (Typically -106 dBm) (Dataradio wide band measurement method: no audio filtering) Backplane test points as detailed in Table 4 and Figure 15 Set deviation to ±6 kHz in 700MHz or ±3 kHz in 800MHz units. 8 Receiver distortion (Dataradio wide band measurement method: no audio filtering) Backplane test points as detailed in Table 4 and Figure 15 ≤ 3.0 % (Typically < 2.
5.3.2 Windows/Unix Tools 5.3.3 Network Connectivity • PING The ping command determines whether a specific IP address is accessible. It works by sending a packet to the specified address and waiting for a reply. It is useful for troubleshooting “end-to-end” reachability, network connectivity, and network latency. The ping test is also convenient to verify more specifically the RF link between a mobile and a known base station Available for MS-Windows 9x, ME, NT, 2000, and XP as well as Unix & Free BSD.
• ROUTE View and update the system routing table The function and syntax of the Windows ROUTE command is similar to the UNIX or Linux route command. Use the command to manually configure the routes in the routing table. Available for MS-Windows 9x, ME, NT, 2000, and XP. EXAMPLE route ? displays help route print displays the routing table 5.3.5 Statistics Information • NETSTAT (WINS & UNIX) The netstat command symbolically displays the contents of various network-related data structures, i.e.
5.4 Firmware Upgrading The Paragon3 radiomodem firmware is field-upgradable using the unit’s Ethernet port. The process involves connecting to the IP address of the base from a host PC and transferring the firmware files via an FTP program. 5.4.1 Procedure 1. Using a file decompression program, such as WinZIP™ or WinXP’s right-click & select the “Expand to…” option, expand the contents of the firmware upgrade package to a directory of your choice on the host PC.
5. a) b) c) Verify the integrity of the newly transferred files. Connect to the base’s IP address using an Internet browser such as IE (5.0 or later) or Mozilla. Enter the user name and password (in the usual manner) and allow the Welcome page to load. In the left pane, click on Unit Status. The Unit Identification and Status pane should display the newly upgraded firmware in its Banner (should correspond to the upgrade package version) and the H/W Status should also show Ok.
6. Radio Programming and Adjustments 6.1 T881-10 Radio Transmitter Programming This procedure describes the steps needed to program the Paragon3 radio transmitter module. 6.1.1 - Recommended Items 486 PC or better, MS-Windows 98 © or later T800win programming kit for Series II: PGM800Win programming software user's manual PGM800Win Windows based programming software version 3.0 or later T800-01-0002 programming cable (DB-25 to RJ-45 cable) Standard 25-pin parallel cable (terminated Male/Female) 6.1.
Figure 48 - Exciter System Infomation Sample Figure 49 - Exciter Channel Information Sample 120 20194-102 56 Paragon3 – 700/800MHz User Manual
6.1.3 Channel Selection via DIP Switches The backplane-mounted DIP switch settings override the default channel programmed by PGM800Win. To set a default channel via the software, all DIP switches must be set to “OFF” (i.e. 0000). When a switch is “Off”, its binary count is active; when a switch is “ON” its binary count is inactive. The various DIP switch combinations of ON or OFF make up a binary total, which identifies the channel number.
6.2 Transmitter Radio Tuning - This section covers the basic Series II base station 700MHz transmitter radio module and PA radio tuning and verification. Note: Usually, this section is never done unless called for in section 6.1 “Series II - Radio Programming” or in Table 6 “Checklist B” (General). 6.2.1 Test Equipment - Digital Multimeter & probes (e.g.
Multiple channels (adjusting as shown for single channel above): - T881 (700 MHz) Adjust the VCO loop to 10V using the middle frequency channel. All channels should lie within the upper and lower limits of 16V and 3V respectively for the T881. Note: Normally, the fast TX key option is installed and the synthesizer is always energized. In the case where that option was not fitted, key the transmitter by pressing the front panel Carrier button to make the above adjustment possible. 6.2.2.
6.2.2.4 TX Frequency Error Adjustment 1. Apply the following settings to the IFR: - Receiver mode - IFR RX frequency to match the main radio TX frequency - IF Filter set to 30kHz - Zoom the RF Error window: select 10kHz range 2. Key the transmitter by pressing the front panel TX-Key button and measure the carrier output frequency. It should be within ±300 Hz. If it is not, adjust the TCXO (IC700) to trim to meet the requirement, preferably within 100Hz. 6.2.2.5 Exciter Power Output 1.
Figure 51 - T881-0200 Transmitter Tuning Controls location 120 20194-102 61 Paragon3 – 700/800MHz User Manual
7. Specifications GENERAL Frequency 762 -764 MHz Tx / 792-794 MHz Rx (FCC Part 27) 767- 773 MHz Tx / 797-803 MHz Rx (FCC Part 90) 764 – 770 MHz / 794 – 800 MHz (Industry Canada, RSS119) RF/Modem Assembly Size (Rackmount) 19.0” W x 10.5.0” H x 12.5” D + 2.0” connector allowance PA Assembly Size (Rackmount) 19.0” W x 5.25”H x 10.5” D Cabinet Size 22.06” W x 75.82” H (without leveling feet) x 27.06” D Frequency Stability 1.0 ppm (-4°F to +140°F / -20°C to +60°C) Supply Voltage 13.
TRANSMITTER Frequency 767-773 MHz Tx (FCC Part 90 subpart R) ; 764-770 MHz Tx (Industry Canada, RSS119) 851-869MHz Tx (FCC Part 90 subpart C and Industry Canada RSS119) Rated Continuous RF Power 70W nominal PA output / 1 W Nominal Exciter output PA Input RF Power / Nominal Gain 100mW ( 20dBm), nominal pass band gain 28.