Raytheon IDS M3-VHF-136 110W VHF BASE STATION User Manual P25CCManual1 5
JPS COMMUNICATIONS, INC. 110W VHF BASE STATION P25CCManual1 5
Contents
USERS MANUAL P25CCMANUAL1 THRU 5
System Operator’s User Manual P25net Channel Controller Raytheon Company 5800 Departure Drive Raleigh, NC 27616 24/7 Technical Support For support, call 1-800-498-3137 Email: p25net.sales@raytheon.com P/N 5060-600200 Revision 1.05 March, 2011 P25net Channel Controller Operations Manual PROPRIETARY STATEMENT This document is copyright © Raytheon 2011. No part of this document may be reproduced in any form, transmitted, or stored in a retrieval system without the prior written consent of Raytheon. This document is classified Commercial in Confidence. Its contents may not be divulged to third parties without the prior written consent of Raytheon. The information contained in this manual is the property of Raytheon and is intended for the purchaser’s use only. NOTICE Raytheon reserves the right to make changes to the equipment and specifications without prior notice. Raytheon Company Phone: (919) 790-1011 Fax: (919) 790-1456 5800 Departure Drive Raleigh, NC 27616 P25net Channel Controller Operations Manual CONTROL AND OWNERSHIP This is a controlled document. Unless stated otherwise, the sole controlled copy of this document resides in the Raytheon document control repository, and other copies in electronic and printed form are uncontrolled. REVISION HISTORY Revision Date Details 1.00 03 Jan. 2008 First Release 1.01 24 Jan 2008 Minor updates & formatting; no technical changes 1.03 08 Oct 2008 Added Specifications and Radio Calibration using PCCT 1.04 22 Jan 2009 1.05 28 Mar 2011 “Branding” edits to contents New product photos, updated interface specification P25net Channel Controller Operations Manual Table of Contents INTRODUCTION ......................................................................................................................................... 1-1 1.1 1.2 1.3 1.3.1 1.3.2 1.3.3 1.3.4 1.3.5 1.3.6 1.4 1.5 1.6 INSTALLATION .......................................................................................................................................... 2-1 2.1 2.2 2.3 2.4 2.5 2.5.1 2.5.2 2.5.3 2.5.4 2.6 2.7 2.8 2.9 Scope .................................................................................................................................................... 1-1 Description ........................................................................................................................................... 1-1 Analog Base Radio Requirements ........................................................................................................ 1-2 Duplex Operation ............................................................................................................................ 1-2 Unbalanced Wideband Audio .......................................................................................................... 1-2 PTT/Keyline .................................................................................................................................... 1-2 RSSI ................................................................................................................................................ 1-2 Frequency Stability .......................................................................................................................... 1-3 Narrowband Channel Bandwidth .................................................................................................... 1-3 Specifications ....................................................................................................................................... 1-3 Equipment Supplied ............................................................................................................................. 1-4 Optional Equipment-Not Supplied ....................................................................................................... 1-6 General ................................................................................................................................................. 2-1 Unpacking and Inspection .................................................................................................................... 2-1 Reshipment of Equipment .................................................................................................................... 2-1 Installation Overview ........................................................................................................................... 2-2 Installation Considerations ................................................................................................................... 2-3 Mounting ......................................................................................................................................... 2-3 Cooling ............................................................................................................................................ 2-3 Front Panel Indicators...................................................................................................................... 2-3 Rear Panel Connectors and Controls ............................................................................................... 2-4 AC Power Requirements ...................................................................................................................... 2-7 DC Power Requirements ...................................................................................................................... 2-7 Network Connection ............................................................................................................................ 2-8 Radio Interface Connection .................................................................................................................. 2-8 RADIO CALIBRATION .............................................................................................................................. 3-1 3.1 Calibration Overview ........................................................................................................................... 3-1 3.2 Equipment Required ............................................................................................................................. 3-1 3.3 Installing PCCT .................................................................................................................................... 3-1 3.4 Configuring PC Network Connection .................................................................................................. 3-3 3.5 Connecting to Channel Cards ............................................................................................................... 3-4 3.6 Updating Firmware .............................................................................................................................. 3-5 3.7 Initialise Mode ..................................................................................................................................... 3-6 3.8 Radio Programming ............................................................................................................................. 3-7 3.9 Transmit Calibration ............................................................................................................................ 3-7 3.9.1 Equipment Set Up............................................................................................................................ 3-7 3.9.2 Initial Steps ...................................................................................................................................... 3-8 3.9.3 Radio Tx Calibration ....................................................................................................................... 3-8 3.10 Rx Calibration .................................................................................................................................... 3-12 3.10.1 Equipment Setup ........................................................................................................................... 3-12 3.10.2 Initial Steps .................................................................................................................................... 3-14 3.10.3 RSSI Calibration ............................................................................................................................ 3-15 3.10.4 Rx Calibration ............................................................................................................................... 3-16 3.10.5 Sync Calibration ............................................................................................................................ 3-19 3.11 Load/Save Transceiver Configuration ................................................................................................ 3-20 P25net Channel Controller Operations Manual 3.11.1 Load/Save Config Window ........................................................................................................... 3-20 3.11.2 Default Radio Settings Loaded...................................................................................................... 3-21 3.12 Fallback Mode ................................................................................................................................... 3-21 List of Figures FIGURE 1-1 TYPICAL P25NET SYSTEM ..................................................................................................................... 1-2 FIGURE 2-1 P25NET CC OUTLINE DIMENSIONS ...................................................................................................... 2-6 FIGURE 2-2 FRONT PANEL (4 CHANNEL UNIT SHOWN) ........................................................................................... 2-6 FIGURE 2-3 REAR PANEL (4 CHANNEL UNIT SHOWN) ............................................................................................. 2-7 FIGURE 2-4 AC ADAPTER ....................................................................................................................................... 2-7 FIGURE 3-1: COMMENCING INSTALLATION OF THE PCCT APPLICATION ................................................................. 3-2 FIGURE 3-2: INSTALLATION OF THE PCCT APPLICATION COMPLETED ..................................................................... 3-2 FIGURE 3-3 PCCT ICON ........................................................................................................................................... 3-3 FIGURE 3-4 PC LOCAL AREA NETWORK SETTING ................................................................................................... 3-4 FIGURE 3-5 CONNECTION DIALOG BOX ................................................................................................................... 3-5 FIGURE 3-6 FIRMWARE UPDATE WINDOW ............................................................................................................... 3-5 FIGURE 3-7 INITIALISE MODE WINDOW................................................................................................................... 3-6 FIGURE 3-8 TX CALIBRATION SETUP ...................................................................................................................... 3-7 FIGURE 3-9 CONFIGURE TX WINDOW ..................................................................................................................... 3-8 FIGURE 3-10 TEST SET OSCILLOSCOPE: DEMODULATED AUDIO ............................................................................. 3-9 FIGURE 3-11 TEST SET OSCILLOSCOPE: SHORT SQUARE WAVE ........................................................................... 3-10 FIGURE 3-12 TEST SET OSCILLOSCOPE: SINE WAVE ............................................................................................. 3-11 FIGURE 3-13 CONFIGURE TX WINDOW: MINUS SIGN FOR TX VCO GAIN .............................................................. 3-12 FIGURE 3-14 RX CALIBRATION SET-UP ................................................................................................................. 3-13 FIGURE 3-15 CONFIGURE TX AND RX (MANUAL) WINDOW .................................................................................. 3-14 FIGURE 3-16 RSSI LOW LEVEL............................................................................................................................. 3-15 FIGURE 3-17 RSSI HIGH LEVEL ............................................................................................................................ 3-16 FIGURE 3-18 RX GAIN AND OFFSET ADJUSTMENT ................................................................................................ 3-17 FIGURE 3-19 CONFIGURE RX AUTOMATIC: RSSI TRIGGER ................................................................................... 3-18 FIGURE 3-20 CONFIGURE RX (AUTOMATIC): FIND SYNC ....................................................................................... 3-19 FIGURE 3-21 LOAD/SAVE CONFIG SCREEN ........................................................................................................... 3-20 FIGURE 3-22 DEFAULT SETTINGS APPLIED SCREEN .............................................................................................. 3-21 FIGURE 3-23 FALLBACK MODE ENABLE SCREEN.................................................................................................. 3-22 List of Tables TABLE 1-1 TABLE 1-2 TABLE 1-3 TABLE 1-4 TABLE 1-5 TABLE 1-6 TABLE 2-1 P25NET CC SPECIFICATIONS................................................................................................................ 1-3 EQUIPMENT AND ACCESSORIES SUPPLIED ............................................................................................. 1-5 EQUIPMENT AND ACCESSORIES SUPPLIED ............................................................................................. 1-5 EQUIPMENT AND ACCESSORIES SUPPLIED ............................................................................................. 1-5 EQUIPMENT AND ACCESSORIES SUPPLIED ............................................................................................. 1-6 OPTIONAL EQUIPMENT - NOT SUPPLIED ................................................................................................ 1-6 D15F CONNECTOR PIN-OUTS (CHANNELS 1-4) ..................................................................................... 2-5 P25net Channel Controller Operations Manual Glossary APCO APCO P25 BS BSC CC IP ISSI OTAR P25 P25net P25net CC PSTN RF RFSS RSSI Rx or RX Tx or TX WACN Association of Public-Safety Communications Officials. Note that in this document, “APCO” as used invariably refers to APCO Project 25 APCO Project 25 digital conventional and trunked radio standard. Base Station Base Station Controller See P25net CC. Internet Protocol Inter Subsystem Interface Over The Air Rekeying P25 See APCO P25. Raytheon APCO 25 network solution P25 Channel Controller Public Switched Telephone Network RF Radio Frequency RFSS RF Subsystem RSSI Received Signal Strength Indicator Receive Transmit Wide-Area Communications Network P25net Channel Controller Operations Manual 1 Introduction 1.1 Scope This instruction manual provides information necessary to install and operate the P25net Channel Controller, a component of Raytheon’s P25net system. Installation requirements and calibration with the connected radio are covered. For system installation, configuration, and operation refer to the P25net Training Guide. 1.2 Description The P25net Channel Controller (P25net CC) is a 1 RU (Rack Unit; 1.75”) device designed to allow legacy analog repeaters the ability to remain in service and become digital P25 capable. By attaching a P25net CC to existing analog repeaters, all aspects of the P25 Common Air Interface (CAI) can be achieved including conventional, trunked, data, and over the air rekeying (OTAR). The P25net CC consists of up to four channel cards per chassis, each using the P25 protocol stack. Each channel card connects to a new or existing analog repeater to provide digital P25 signaling capabilities. The P25net CC functions as a Conventional 4 Level Frequency Modulation (C4FM) modulator/demodulator for the repeater to encode and decode digital audio for transmission and reception. The channel card processor can repeat these signals locally over the connected repeater or establish a connection over an IP network to a distant repeater or network. Figure 1-1 P25netCC Internal Layout (3 Channel Unit Shown) Typically, the P25net CC is connected to multiple repeaters to provide several channels and to a Base Station Controller (BSC) which provides site control functionality (see Figure 1-2). By 1-1 P25net Channel Controller Operations Manual combining two or more P25net sites with a Radio Network Controller (RNC) and a Network Location Register (NLR) through an IP based network, a multi site system can be created. Figure 1-2 Typical P25net System 1.3 Analog Base Radio Requirements The following are general considerations for radios suitable for P25net CC interface requirements. 1.3.1 Duplex Operation The radio must be capable of full duplex operation as a base station rather than a repeater. This is necessary because the P25net CC must control the repeat function. 1.3.2 Unbalanced Wideband Audio Unbalanced Tx and Rx wideband audio without pre-emphasis and de-emphasis is required to pass the 0-3000Hz baseband necessary for P25 signals. DC coupling is preferred since it provides the best low frequency response. The capability to turn off all filters is recommended. “Balanced Line Audio” means that transformers are in the signal path and will limit low frequency response. 1.3.3 PTT/Keyline The P25net CC provides an open collector for grounding the radio PTT/Keyline to transmit. 1.3.4 RSSI The P25net CC uses the Receive Signal Strength Indicator (RSSI) signal in determining validity of a received P25 signal. 1-2 P25net Channel Controller Operations Manual 1.3.5 Frequency Stability The following recommendations are from the P25 standard (ANSI/TIA-102.CAAB-C): Assigned Frequency (MHz) Frequency Stability Parts per Million (PPM) Below 100 2.5 138-174 1.5 406-512 0.5 764-806 0.1 806-869 0.15 896-941 0.1 1.3.6 Narrowband Channel Bandwidth The radio should be capable of 12.5kHz channel programming. 1.4 Specifications Table 1-1 P25net CC Specifications Power AC Power Input DC Power Inputs A and B Dual Power Source Signal Inputs Receive Baseband Audio RSSI Signal Outputs Transmit Baseband Signal PTT or Keyline Analog Ground Data Connections IP Connection 90-264VAC, 47-63Hz, 20VA from external AC adapters (supplied) for connection to DC Inputs A and B (J1and J2 on rear panel). J1/J2 are 5.5mm x 2.5mm locking DC Power Jacks (Switchcraft L712A; mating plug Switchcraft 761K). +11.0-13.2VDC 1A for connection to J1and J2 on rear panel; J1/J2 are 5.5mm x 2.5mm locking DC Power Jacks (Switchcraft L712A; mating plug Switchcraft 761K). DC inputs A and B allow connection of 2 power sources for added reliability. Pin 7 on the D15F rear panel connector Channels 1-4; 0-3000Hz, 3vpp (1.06 vrms) maximum Pin 8on the D15F rear panel connector Channels 1-4; Receive Strength Signal Indicator (RSSI) signal from radio; 0-5VDC. Pin 6 on the D15F rear panel connector Channel 1-4 0-3000Hz, 3vpp (1.06vrms) maximum Pin 5 on the D15F rear panel connector Channel 1-4 Open Collector, active low Pins 14,15 on the D15F rear panel connector Channel 1-4 Ground reference for the input/output signals RJ45 connectors on the front and rear panel. 1-3 P25net Channel Controller Operations Manual Table 1-1 P25net CC Specifications RS-232 Receive RS-232 Transmit Digital Ground RS-232 Rx: Pin 1 on the D15F rear panel connector Channel 1-4 RS-232 Tx: Pin 2 on the D15F rear panel connector Channel 1-4 Pin 9 on the D15F rear panel connector Channel 1-4 Ground reference for the RS-232 data lines. Programmable I/O DIN0 Programmable Input 0 (reserved) Pin 10 on the D15F rear panel connector Channel 1-4 Programmable Input 1 (reserved) Pin 3 on the D15F rear panel connector Channel 1-4 Programmable Input 2 (reserved) Pin 12 on the D15F rear panel connector Channel 1-4 Programmable Output 0 (reserved) Pin 4 on the D15F rear panel connector Channel 1-4 Programmable Input 13 (reserved) Pin 3 on the D15F rear panel connector Channel 1-4 Ground reference for IN3 DIN1 DIN2 OUT0 IN3 FGND LED Display S1 DC Power A and B Channel Status Green when 10MHz GPS Reference connected Green when DC power is at DC Inputs A and B For each supplied channel: Steady Green when controlled by BSC; flashing otherwise. For each supplied channel: Orange when a valid P25 signal is received. For each supplied channel: Red when a signal is being transmitted Rx Tx Physical Size Weight Operating Temperature Storage Temperature 1.75” H x 19” W x 12.4” D (4.4 x 48.3 x 31.5 cm). 5 pounds ( 2.3kg) 0 to +60 degrees C. -40 to +85 degrees C. 1.5 Equipment Supplied Table 1-2 Equipment and Accessories Supplied P25net CC Top Level Part Number Explanation 5060P25net Family # of Channels 1=Standard I/O 1=1 Channel 2=4 Wire AFSI 2=2 Channel 3=3 Channel 4=4 Channel All units include: 1-4 P25net Channel Controller Operations Manual P25net CC Operation Manual 5060-600200 Accessory Kit consisting of: 5060-610150 (2 )AC Power Supply 90-264VAC 1620-264061 Line Cord 0313-037770 (2) Table 1-3 Equipment and Accessories Supplied P25net CC with Manual and Accessory Kit All items below are included within P/N 5060-610000 Items included: 1 P25NET CC One Channel Unit 1 Operation Manual Accessory Kit- Consisting of: Qty Part Number Description 0313-037770 Line Cord 1620-264061 Power Supply, 90-264VAC 5060-610500 5060-612000 5960-610150 Table 1-4 Equipment and Accessories Supplied P25net CC Two Channel Unit with Manual and Accessory Kit Quantity Item P/N P25net CC Two Channel Unit with Manual and Accessory Kit All items below are included within P/N 5060-610000 Items included: 1 P25net CC One Channel Unit 1 P25net CC One Channel Expansion Kit 1 Operation Manual Accessory Kit- Consisting of: Qty Part Number Description 0313-037770 Line Cord 1620-264061 Power Supply, 90-264VAC 5060-620000 5060-610000 5060-650000 5060-612000 5960-610150 Table 1-5 Equipment and Accessories Supplied P25NET CC Three Channel Unit with Manual and Accessory Kit Quantity Item P/N P25net CC Three Channel Unit with Manual and Accessory Kit All items below are included within P/N 5060-620000 Items included: 1 P25net CC One Channel Unit 2 P25net CC One Channel Expansion Kit 1 Operation Manual Accessory Kit- Consisting of: Qty Part Number Description 5060-630000 1-5 5060-610000 5060-650000 5060-612000 5960-610150 P25net Channel Controller Operations Manual Table 1-5 Equipment and Accessories Supplied 0313-037770 1620-264061 Line Cord Power Supply, 90-264VAC Table 1-6 Equipment and Accessories Supplied P25NET CC Four Channel Unit with Manual and Accessory Kit Quantity Item P/N P25net CC Four Channel Unit with Manual and Accessory Kit All items below are included within P/N 5060-620000 Items included: 1 P25net CC One Channel Unit 3 P25net CC One Channel Expansion Kit 1 Operation Manual Accessory Kit- Consisting of: Qty Part Number Description 0313-037770 Line Cord 1620-264061 Power Supply, 90-264VAC 5060-640000 5060-610000 5060-650000 5060-612000 5960-610150 1.6 Optional Equipment-Not Supplied Table 1-7 Optional Equipment - Not Supplied Item P/N P25net CC Single Channel Standard I/O Expansion Kit For adding an additional channel to the P25net CC P25net CC Single Channel 4W AFSI 5060-652000 End of Section 1 1-6 P25net Channel Controller Operations Manual 2 Installation 2.1 General This section provides the instructions for unpacking, inspection, installation and set-up. Included are directions for reshipment of damaged parts or equipment. 2.2 Unpacking and Inspection After unpacking the unit, retain the carton and packing materials until the contents have been inspected and checked against the packing list. If there is a shortage or any evidence of damage, do not attempt to use the equipment. Contact the carrier and file a shipment damage claim. A full report of the damage should be reported to the Raytheon’s customer service department. The following information should be included in the report: 1. Order Number 2. Equipment Model and Serial Numbers 3. Shipping Agency 4. Date(s) of Shipment The Raytheon customer service department can be reached by phone at (919) 790-1011, or by fax at (919) 790-1456. Upon receipt of this information, Raytheon will arrange for repair or replacement of the equipment. 2.3 Reshipment of Equipment If it is necessary to return the equipment to the manufacturer, a Returned Material Authorization (RMA) number must first be obtained from Raytheon. This number must be noted on the outside of the packing carton and on all accompanying documents. When packing the unit for reshipment, it is best to use the original packaging for the unit; if this is not possible, special attention should be given to providing adequate packing material around connectors and other protrusions, such as front panel ears. Rigid cardboard should be placed at the corners of the unit to protect against corner damage during shipment. Failure to protect the corners of the front panel causes the most common type of shipping damage experienced on returned equipment. 2-1 P25net Channel Controller Operations Manual Shipment should be made prepaid consigned to: Raytheon Company Customer Service Department 5800 Departure Drive Raleigh, North Carolina 27616 USA Plainly, mark with indelible ink all mailing documents as follows: U.S. GOODS RETURNED FOR REPAIR Mark all sides of the package: FRAGILE - ELECTRONIC EQUIPMENT Inspect the package prior to shipment to be sure it is properly marked and securely wrapped. 2.4 Installation Overview Four steps are needed to properly install the P25net CC. These steps are: 1. Provide mechanical mounting for the unit. See Section 2.5 for instructions regarding air circulation requirements and other mechanical mounting considerations. 2. Provide the proper primary power for the unit; see Section 2.6 and 2.7. 3. Interconnect the unit with the communications system via the unit's rear panel connectors; see Sections 2.8 and 2.9 4. Calibrate the radio to the P25net CC using Personal Computer Calibration Tool (PCCT) as covered in Section 3. 2-2 P25net Channel Controller Operations Manual 2.5 Installation Considerations Careful attention to the following installation suggestions should result in the best unit/system performance. Figure 2-1 provides overall unit dimensions. The P25net CC must be installed in a structure, which provides both protection from the weather and assurance of ambient temperatures between -0 and +60 degrees C. Since the unit is neither splash proof, nor corrosion resistant, it must be protected from exposure to salt spray. When the unit is mounted in a cabinet with other heat-generating equipment, the use of a rack blower is suggested to keep the cabinet interior temperature rise to a minimum. 2.5.1 Mounting For applications such as mobile command centers or transportable cases or any other application where some degree of shock and vibration is expected, the P25net CC must be mounted with support brackets in addition to the front mounting screws. For fixed applications such as floor mounted cabinets or racks in a fixed equipment room, rear supports are not required. 2.5.2 Cooling The P25net CC depends on natural convection for its cooling. It must be mounted in a way that allows for sufficient air circulation to keep the ambient temperature around the unit from exceeding +60C. Use forced air-cooling in the cabinet if necessary. The P25net CC generates approximately 50 BTU/Hr heat. 2.5.3 Front Panel Indicators INDICATOR Power A Power B S1 DESCRIPTION Power Source A is present Power Source B is present Green when 10MHz GPS Reference connected at rear panel input Future use Future use Green when channel is under BSC control; flashing otherwise (Fallback Mode) Red when channel is transmitting; also will indicate during a firmware update procedure and at power on or software reset. Orange when channel receives a valid P25 signal; also will indicate during a firmware update procedure and at power on or software reset. S2 S3 Channel Status Tx Rx 2-3 P25net Channel Controller Operations Manual 2.5.4 Rear Panel Connectors and Controls 2.5.4.1 D15 Radio Interface Connector The rear panel has up to four D15 connectors for interface to radios. The pin-outs for each connector channel are listed in the following table. Units having less than 4 channels will have unused connector locations covered with a press-in type plug. 2-4 P25net Channel Controller Operations Manual Table 2-1 D15F Connector Pin-outs (Channels 1-4) Pin Function RS232_RX_IN RS232_ TX1_OUT DIN1 OUT0 TXKEY AUDIO_TX_OUT AUDIO_RX_IN RSSI_OUT DGND 10 DIN0 11 FGND 12 DIN2 13 IN3 14 AGND 15 AGND 2.5.4.2 DC Input Jack J1,J2 The supplied external AC adapters connect to DC inputs A and B (J1/J2 on rear panel; J1/J2 are 5.5mm x 2.5mm locking DC Power Jacks (Switchcraft L712A). The adapters are terminated with a mating locking plug (Switchcraft 761K). 2.5.4.3 GPS Reference Input BNC(F) connectors for 10MHz and 1PPS signals are provided for Simulcast operation. 2.5.4.4 Power Switch S1 S1 switches both power sources. 2-5 P25net Channel Controller Operations Manual 2.5.4.5 RJ45 Ethernet port This jack is normally used for connection to a BSC. LAN AC power DC power channel 1 processor channel 2 processor channel 3 processor channel 4 processor tx tx tx tx rx rx rx rx etherstack powered 1.75 P25 Channel Controller 19.0 12.4 16.75 Figure 2-1 P25net CC Outline Dimensions Figure 2-2 Front Panel 2-6 P25net Channel Controller Operations Manual Figure 2-3 Rear Panel (3 Channel Unit shown) 2.6 AC Power Requirements The P25net CC is supplied with two AC adapters (Figure 5) that will operate over a wide AC voltage range (90-264VAC). The supply circuit requirement is 20VA. The adapters are provided with locking DC plugs for connection to the P25net CC rear panel DC input jacks A and B. The adapters supply 12VDC @ 1A to the P25net CC. Each has an IEC 320 inlet for attaching the AC power cord (supplied). Figure 2-4 AC Adapter 2.7 DC Power Requirements The P25net CC will operate on +11.0 to +13.2VDC @ 1A when connected to DC Inputs A/B. Removal of one source will have no effect on the P25net CC when running from both sources. The front panel power LED will indicate when a source is connected and the power switch is ON. 2-7 P25net Channel Controller Operations Manual 2.8 Network Connection The P25net CC must be connected by a single Cat-5 or Cat-6 cable to either an Ethernet switch or hub, or connected directly to a Base Station Controller (BSC). Either the front or rear RJ-45 connector can be used for this purpose, but both connectors should not be cabled to the same device. It is preferable to use the rear RJ-45 connector for connecting the P25net CC to a BSC, if they are linked directly without a local Ethernet switch or hub. This leaves the front RJ-45 connector free for connecting a PC for radio calibration or firmware updates. 2.9 Radio Interface Connection Systems engineers at Raytheon have created interface cables and accompanying Application Notes for a number of radios. The cables are shielded and terminated with connectors for easy connection between the radio and P25net CC rear panel. The application notes provide the cable schematic as well as programming and set-up recommendations for the specific radio. End of Section 2 2-8 P25net Channel Controller Operations Manual This Page Intentionally Left Blank 2-9 P25net Channel Controller Operations Manual 3 Radio Calibration 3.1 Calibration Overview The channel card in the P25net CC must be calibrated to the connected radio. This process adjusts the internal audio circuits within the P25net CC to adapt to the radio’s audio levels and sets the transmit deviation for P25 narrowband requirements. In addition, the RSSI signal from the receiver is characterized by the P25 processor to enable proper synchronization to the P25 packet data streams. Each transceiver radio has different physical components from other types of transceivers and even from other transceivers of the same make and model. Because of this, each transceiver channel in the P25net CC has to be tuned to ensure an optimal receiver and transmit signal are produced. This is a critical step and if not performed will render the channel partially or completely incapable of P25 operation. PC Tools (PCCT) is an application that runs on a pc and provides the necessary controls to perform the calibration. PCCT also allows setting various operational parameters (such as Fallback Mode) and performing testing. See Chapter 4 for PCCT advanced features. 3.2 Equipment Required • PCCT Running on a PC (preferably a Laptop) • • CAT 5 LAN cable RF Test Set (preferably with APCO 25 test capability) such as the Aeroflex 3920 as used in the following example A pair of conventional P25 portable radios (handsets) with programming software and cable to allow programming to the base radio channel. • 3.3 Installing PCCT The PCCT application is installed by running the Windows installer package PCCTSetup.msi. If this file does not run automatically from a supplied CD, find this file and execute it. The initial splash screen as shown below will then be presented to the user. As with most of these dialog boxes presented during the installation process the “Next” button moves to the next stage of the installation and the “Back” button returns to the previous dialog box. 3-1 P25net Channel Controller Operations Manual Figure 3-1: Commencing installation of the PCCT Application During the installation process, the user will be prompted to accept the End-User License Agreement (required in order to proceed with installation), select a destination folder for the PCCT application (C:\Program Files\Etherstack\PCCT x.xx, by default), after which installation will commence. When installation is complete, the following message will be shown: Figure 3-2: Installation of the PCCT application completed The PCCT is then ready to use, and may be launched using the shortcut installed on the desktop: 3-2 P25net Channel Controller Operations Manual Figure 3-3 PCCT Icon 3.4 Configuring PC Network Connection The PC must be configured to set the Local Network connection to the same address range as the Channel Card. See Figure 3-4. Typically this is done by selecting: Control Panel>Network Connections>Local Area Connections>Properties. Then scroll to Internet Protocol (TCP/IP) and Click on Properties; Select “Use the Following Address” and enter the IP address and Subnet mask to correspond to the requirement of the Channel card address. Assuming a default channel card address of 10.1.1.1 with a subnet mask of 255.255.0.0, this would require the PC to be set within the same net with a different address, for example 10.1.1.10 (the PC can’t have the same address as the Channel card). 3-3 P25net Channel Controller Operations Manual Figure 3-4 PC Local Area Network Setting 3.5 Connecting to Channel Cards A standard Cat 5 LAN cable should be connected from the PC to the P25net CC front panel RJ45 jack. The ‘Open Connection’ item in the ‘File’ menu allows a specific IP address to be used for connecting to a single Channel Card, and also contains a list of auto-detected Channel Cards on the local network. This list is populated by sending out a broadcast to the network, to which Channel Cards respond. 3-4 P25net Channel Controller Operations Manual Figure 3-5 Connection Dialog Box To connect to the Channel Card at a specific IP address, type its address in the text field, and click ‘Connect’. Alternatively, double click the address in the list of auto-detected Channel Cards. Following connection, the oscilloscope window will now be visible, and the configuration interface is now ready for use. A list of recently used IP addresses is stored, and is available by clicking the down arrow in the IP Address field. Connection of the PCCT to the Channel Cards requires the Channel Cards to be located on the same subnet as the computer running the PCCT. If connection to a card fails, verify that this is the case. It is possible to use the PCCT to communicate with all 4 cards, by using the Connection dialog to connect to each of them in turn. A new tab will be created for each card that the P25net CC connects to successfully. 3.6 Updating Firmware The user can update the firmware on the Controller Card by selecting ‘Write P25net CC Firmware’ from the ‘Options’ menu. This will open the following window Figure 3-6: Figure 3-6 Firmware Update Window Enter the IP address of the Controller Card whose firmware is to be updated, then select the file containing the firmware image. Click the ‘Write Firmware’ button’. A window will appear indicating that the firmware update is in progress, and once the update is complete (duration < 30sec) a confirmation message will indicate success of the update. 3-5 P25net Channel Controller Operations Manual At the end of the firmware process, the front panel lights for that channel will alternate then both stay on and then only the single processor LED should remain lit. IMPORTANT NOTE: Do not switch off the power or interrupt the connection between the PCCT and P25net CC during firmware updates. Wait until the single Processor LED remains lit before any other action. 3.7 Initialise Mode In this mode, the user can examine and modify the current IP address of the Controller Card. The user can also examine the MAC address, license key, license status (Valid or Invalid), and board identifier of the Controller Card. Figure 3-7 Initialise Mode Window By default, the MAC address and license key are not user-editable. They can be edited by enabling ‘Allow MAC/License Key Editing’ from the Options menu. Note that each board should have a unique MAC from all other boards ever used and each IP should be distinct for all boards that will be connected to a single BSC. IMPORTANT NOTE: Be careful when modifying the IP address. Setting an invalid address will not allow the PCCT to communicate with it. Also, make sure duplicate addresses are not used (such as two or more Channel Cards having the same address) 3-6 P25net Channel Controller Operations Manual 3.8 Radio Programming The radio should be programmed according to the Application Note for that specific radio model. 3.9 Transmit Calibration Transmit calibration sets the narrowband deviation for the transmitter and verifies the transmitter can be heard by a P25 receiver. 3.9.1 Equipment Set Up Connect the equipment as shown in Figure 3-8. Radio Under Calibration P25CC Aeroflex 3920 Tx T/R 50 ohm coax CAT 5 P25CC Radio Interface Cable PCCT Calibration Software PC Figure 3-8 Tx Calibration Setup IMPORTANT NOTE: Make sure the test set has an internal 50 ohm attenuator rated for the transmit power of the radio! It may be necessary to program the radio to a lower power for the Tx calibration. 3-7 P25net Channel Controller Operations Manual 3.9.2 Initial Steps 3.9.2.1 Set the Radio Test Set to analog duplex mode and program for the frequency of the transmitter. 3.9.2.2 Power up the radio and P25net CC. 3.9.2.3 Launch PCCT and connect to the P25net CC channel. 3.9.3 Radio Tx Calibration 3.9.3.1 In PCCT go to the Configure >Tx window and set default values for the Tx parameters as shown in Figure 3-9 Figure 3-9 Configure Tx Window 3-8 P25net Channel Controller Operations Manual 3.9.3.2 Start a Sine Wave test tone and adjust the Tx Gain for approximately +/2.8kHz as read on the test set deviation meter (Figure X). Adjust the Tx Offset if necessary fort a good undistorted sine wave as displayed on the test set oscilloscope screen (Figure 3-10). Verify the Tx frequency offset error is within required range. Note: Some radios will produce a frequency offset if the Tx Offset is incorrectly adjusted. Figure 3-10 Test Set Oscilloscope: Demodulated Audio 3-9 P25net Channel Controller Operations Manual 3.9.3.3 Change the test tone selection on PCCT to Short Square Wave (100Hz) and verify the demodulated audio oscilloscope displays a good approximation of a square wave with generally flat high and low levels (Figure 3-11). A poor square wave indicated the radio needs to be aligned with the factory service software to achieve better DC Balance. Figure 3-11 Test Set Oscilloscope: Short Square Wave 3-10 P25net Channel Controller Operations Manual 3.9.3.4 Return to the Sine Wave test tone and adjust Tx Vco Gain to get the deviation as close to +/-2.827kHz as possible and adjust the Tx Offset as necessary to correct any flattening or clipping of the sine wave. Tx Vco Gain is a finer adjustment than Tx Gain which provides coarse steps. (See Figure 3-12). Figure 3-12 Test Set Oscilloscope: Sine Wave 3-11 P25net Channel Controller Operations Manual 3.9.3.5 Start an IMBE test tone using PCCT. 3.9.3.6 Tune the test set to P25 mode and listen for a 1200Hz sine wave in the monitor speaker set to demodulated audio. A P25 Handset may also be used for this step if tuned to the proper frequency in conventional P25 mode. 3.9.3.7 If the test tone is not heard, it may be necessary to invert the Tx audio. This is done by putting a minus (-) sign in front of the Tx Vco Gain number (see Figure 3-13). If the tone is heard then Tx calibration is complete. PCCT writes the Tx calibration settings to the Channel Card when the PCCT application is closed. Figure 3-13 Configure Tx Window: Minus Sign for Tx Vco Gain 3.10 Rx Calibration Receive calibration adjusts the P25net CC audio input level to match the radio line audio output level and calibrates the P25net CC for the RSSI signal from the receiver. 3.10.1 Equipment Setup Connect the equipment as shown in Figure 3-14. 3-12 P25net Channel Controller Operations Manual Radio Under Calibration P25CC Rx Aeroflex 3920 Tx T/R 50 ohm coax CAT 5 50 ohm coax P25CC Radio Interface Cable 50 ohm dummy load PCCT Calibration Software PC Figure 3-14 Rx Calibration Set-up 3-13 P25net Channel Controller Operations Manual 3.10.2 Initial Steps 3.10.2.1 Configure the test set for analog duplex mode and set the generator to produce a 1200Hz sine wave with a peak deviation of 2.827kHz at the receiver frequency. 3.10.2.2 In PCCT go to the Configure >Rx and Tx Manual window and set default values for the Rx parameters as shown in Figure 3-15. Check the “Enable Editing” boxes for entering parameters. Figure 3-15 Configure Tx and Rx (Manual) Window 3-14 P25net Channel Controller Operations Manual 3.10.3 RSSI Calibration 3.10.3.1 Set the test set for -123dBm generator level and turn on the generator. 3.10.3.2 Start the PCCT oscilloscope and adjust the RSSI Offset so the trace on the oscilloscope is centered around -20000 (See Figure 3-16). Figure 3-16 RSSI Low Level 3.10.3.3 Turn off the generator and verify the RSII level is unchanged. 3-15 P25net Channel Controller Operations Manual 3.10.3.4 Turn off the generator and change the level to -118dBm. Turn on the generator and verify RSSI goes to 30000 or above on the oscilloscope (Figure 3-17). Figure 3-17 RSSI High Level 3.10.3.5 Turn off the generator; RSSI settings will be saved when exiting PCCT. 3.10.4 Rx Calibration 3.10.4.1 From the Configure>Rx and Tx Manual screen set the following to default values: Rx Gain to 15 Rx Offset to 30 3-16 P25net Channel Controller Operations Manual 3.10.4.2 Set the generator on the test set to -60dBm. 3.10.4.3 Check the Rx beam box and start the oscilloscope on PCCT. 3.10.4.4 Adjust the Rx Offset so the mean of the observed sine wave is centered as close as possible about zero. Adjust the Rx Gain so that the signal peaks are slightly less than +20000 and -20000 (See Figure 3-18). Figure 3-18 Rx Gain and Offset Adjustment 3-17 P25net Channel Controller Operations Manual 3.10.4.5 Go to the Configure>Rx (Automatic) window and select trigger on RSSI (2000). 3.10.4.6 Hit Trigger, Calculate, and Save to calculate and store the coefficients for Rx Scale Factor and Offset (Figure 3-19). Figure 3-19 Configure Rx Automatic: RSSI Trigger 3-18 P25net Channel Controller Operations Manual 3.10.5 Sync Calibration 3.10.5.1 Turn off test set generator. 3.10.5.2 Go to the Configure>Rx and Tx (Manual) window and set the trigger controls for Handset. 3.10.5.3 Press PTT on the Handset for a short transmission. 3.10.5.4 Hit Trigger and Find Sync. You should see the sync pulse as shown in Figure 3-20. Figure 3-20 Configure Rx (Automatic): Find Sync 3-19 P25net Channel Controller Operations Manual 3.10.5.5 If the Rx LED on the P25net CC channel lights when the Handset is in PTT hit the Save button to complete the sync calibration. 3.10.5.6 If the sync is not found, go back to the Configure >Rx (manual) window and enable editing. Place a negative (-) sign in front of the Rx Scale Factor and repeat the steps. 3.11 Load/Save Transceiver Configuration PCCT has a feature that allows saving the calibration settings for a radio as well as recalling them. This provides a short-cut around the full calibration procedure in most cases. Sometimes variation between radios and Channel Cards will require some fine adjustment of the tx/tx calibration. 3.11.1 Load/Save Config Window Open the Configure>Load/Save Config screen and select the transceiver to be loaded (See Figure 3-21 Load/Save Config Screen). Figure 3-21 Load/Save Config Screen 3-20 P25net Channel Controller Operations Manual 3.11.2 Default Radio Settings Loaded After loading a notification of the action will be displayed (see Figure 3-22 Default Settings Applied Screen). Figure 3-22 Default Settings Applied Screen 3.12 Fallback Mode The Fallback Mode can be enabled to provide conventional P25 repeater operation in the event that the BSC reboots or experiences a problem communicating with the P25net CC. Trunking will not be possible until BSC operation is restored. In addition, it is possible to operate the P25net CC as a conventional P25 repeater (sometimes referred to as a “Dumb Repeater”) without connecting a BSC; this requires enabling the Fallback Mode. To enable the Fallback Mode, enter PCCT and select Configure>Fallback Param (see Figure 3-23 Fallback Mode Enable Screen ) and place a check in the box. 3-21 P25net Channel Controller Operations Manual Figure 3-23 Fallback Mode Enable Screen 3-22
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