FCC ID: BIB61201001 OPERATION OF THE MCC-6120 SDR PACKET DATA RADIO MAN-OPS-6120 SDR-ARR PRELIMINARY January 30, 2007 Meteor Communications Corporation 22614 66th Avenue South. Kent, WA 98032 Tel: (253) 872-2521 Fax: (253) 872-7662 E-mail: mcc@meteorcomm.com On the Web: www.meteorcomm.
FCC ID: BIB61201001 GENERAL WARRANTY Meteor Communications Corporation (MCC) warrants that its products conform to the published specifications and are free from manufacturing and material defects for one year after shipment. Warranty-covered equipment that fails during the warranty period will be promptly repaired at MCC’s facility in Kent, Washington. International customers are required to pay shipping costs to the MCC facility, with Seattle as the point of U.S. entry. MCC will pay incoming U.S.
FCC ID: BIB61201001 Important Safety Instructions for Installers and Users RF Exposure Compliance CAUTION Before installation and use of your mobile 2-way radio, read the MeteorComm RF Energy Exposure Guide which contains important RF energy awareness and control information and operational instructions to ensure compliance with the FCC’s RF exposure guidelines. IMPORTANT This radio is restricted to occupational use to satisfy FCC RF exposure limits.
FCC ID: BIB61201001 REVISION PAGE Document Title: Operation of the MCC-6120 SDR Packet Data Radio Document Number: MAN-OM-6120 SDR-ARR Revision # Redline Initial A B C D E F G H I Date Revision 1/30/2007 Redline Release (with RF Energy Exposure Guide references) Initial Release
PRELIMINARY FCC ID: BIB61201001 TABLE OF CONTENTS Title 1.0 Page INTRODUCTION .........................................................................................................1-1 1.1 Manual Organization .................................................................................................1-2 1.2 Related Documents ....................................................................................................1-3 2.0 DESCRIPTION..................................................
PRELIMINARY FCC ID: BIB61201001 LIST OF FIGURES Figure Page 1.0 Typical Network ....................................................................................................... 1-1 2.1-1 MCC-6120 SDR Photograph ..................................................................................... 2-1 2.2-1 MCC-6120 SDR Radio .............................................................................................. 2-2 LIST OF TABLES Table 2.1 2.2 2.3 2.4 2.5 2.
PRELIMINARY FCC ID: BIB61201001 CONVENTIONS The following conventions are used in this manual: When presented in the text, user commands and computer printout are boldfaced; e.g., Enter DELETE. Command parameters are presented in lower case; e.g., DEFINE,id. Optional parameters are enclosed in brackets; e.g., TIME{,hh:mm:ss} Names of terminal keys are capitalized and enclosed in square brackets when mentioned in the text; e.g., Press [ESC]. Names of hardware switches, meters, etc. are capitalized; e.g.
PRELIMINARY FCC ID: BIB61201001 ACRONYMS AND ABBREVIATIONS A/D ACK ADC AP AUX AVL BPSK CIM CMU CR CSMA DAC DMC DGPS DHCP DSP DTA EAP-TLS EEPROM ELOS ETE FEC FLASH RAM GMSK GPS HPI KBPS LAN LED LOS MBC MBCS MCC MNT Analog-to-Digital Acknowledgement Analog-to-Digital Converter Access Point Auxiliary Port Automatic Vehicle Location Binary Phase Shift Keying Configuration Information Module Communications Management Unit Carriage Return Carrier Sense Multiple Access Digital-to-Analog Converter Data, Managem
PRELIMINARY FCC ID: BIB61201001 INTRODUCTION 1-1 1.0 INTRODUCTION The MCC-6120 SDR PACKET DATA RADIO is used in MCC’s Network. This is an Extended Line-of-Sight (ELOS), packet switched, digital data network that operates on a single frequency in the low VHF band (40-50 MHz), a high VHF band (151-162 MHz), or a UHF band (896-901/935-940 MHz). A network has a cellular structure that uses the programmable MCC6120 SDR as a base station, a repeater and as a remote station.
PRELIMINARY FCC ID: BIB61201001 INTRODUCTION 1-2 802.11(b) access points in the infrastructure mode, or to other 802.11(b) devices in an add-hoc mode. As a remote station it can operate as a mobile unit roaming throughout the entire network, automatically linking with the nearest base station or repeater. When a remote station is installed at a fixed site it also links itself automatically to the nearest base station or repeater. The MCC-6120 SDR operates line-of-sight using groundwave.
PRELIMINARY FCC ID: BIB61201001 INTRODUCTION 1-3 functional test procedures are described that should be performed prior to placing the MCC-6120 SDR on-line within the network. 1.2 Related Documents Additional documents and application notes that may be helpful in the operation of the MCC6120 SDR Packet Radio in an ELOS Network are given below. They can be obtained from MCC or downloaded from MCC’s web site, www.meteorcomm.com. 1.2.1 MBNET 200 A Complete List of all Commands and Printouts 1.2.
PRELIMINARY FCC ID: BIB61201001 DESCRIPTION 2-4 2.0 DESCRIPTION 2.1 General The MCC-6120 SDR Packet Data Radio provides packet switched communications from fixed or mobile sites to a central Host. It can be used for sending and receiving messages, position reporting, data logging, or other custom applications. The unit is packaged in a stainless steel, weather-resistant enclosure that measures 9.5”L X 4.0”W X 4.3” H and weighs 6.0 pounds. A photograph of the MCC-6120 SDR is given in Figure 2.1-1.
PRELIMINARY DESCRIPTION 2-5 FCC ID: BIB61201001 2.2 Functionality Overview Introduction The MCC-6120 SDR is the next step in the evolution of the MCC family of Packet Data Radios. The necessity for providing customers with simple, yet powerful, fixed and mobile communications capabilities has led to the development of a Software Defined Radio (SDR) coupled to a Communications Management Unit (CMU).
PRELIMINARY FCC ID: BIB61201001 DESCRIPTION 2-6 Customer and system requirements. New device drivers have been developed to provide this same flexibility to the Ethernet and WIFI ports. For example, a laptop, tablet or palm computer can be set up to run Xtermw.exe connected through one of the Ethernet ports or WIFI (in ad-hoc mode) to operate as the maintenance terminal.
PRELIMINARY FCC ID: BIB61201001 DESCRIPTION 2-7 assigned one of the port numbers out of the given port number set when they send IP packets to the public Network. Address translation happens using the public IP address and newly assigned port number. ASCII (TELNET) The ASCII protocol is basically a dumb serial protocol transported over a TCP connection. This is useful for connections to maintenance terminals that use XTERMW.EXE as a terminal emulator.
PRELIMINARY WPA FCC ID: BIB61201001 DESCRIPTION 2-8 WIFI Protected Access – This mode also uses encryption as well as authentication. There are three WPA variations supported: PSK Pre Shared Key – A passphrase of 8-63 ASCII characters is required. The passphrase is used to generate an encryption key. This is sometimes called “WPA-Personal” (and should not be confused with different PSK modulation schemes used by the various SDR transceivers).
PRELIMINARY FCC ID: BIB61201001 DESCRIPTION 2-9 2.3 SDR Modules The MCC-6120 SDR contains four printed circuit board assemblies as shown in Figure 2.3-1. • A 32-bit Communications Management Unit (CMU) microprocessor controller performs the radio control, link and network protocol functions. This assembly also contains a digital signal processor (DSP) and a digital-to-analog converter (DAC) for generating the GMSK RF signal. The DSP also receives and demodulates the receive GMSK signals on all bands.
PRELIMINARY FCC ID: BIB61201001 DESCRIPTION 2-10 MCC-6120 SDR LOWBAND RECEIVER SPECIFICATIONS CHARACTERISTIC SPECIFICATION Frequency 39-50 MHz .0005% DDS 1 Hz steps Modulation: Rate 4.8kbps, 9.6 kbps, and 19.2 kbps Type BPSK (4.8 kbps); GMSK (9.6kbps & 19.2kbps) Format NRZ Noise Figure < 8 dB minimum Sensitivity: Bit Error Rate < 10-3 at 9.6 -113 dBm at 9.6 kbps -110 at 19.
PRELIMINARY FCC ID: BIB61201001 DESCRIPTION 2-11 MCC-6120 SDR HIGH BAND RECEIVER SPECIFICATIONS CHARACTERISTIC SPECIFICATION Frequency 151-160.6 MHz .0005% DDS 1 Hz steps Modulation: Rate 4.8kbps, 9.6 kbps, and 19.2 kbps Type GFSK (4.8 kbps); GMSK (9.6kbps & 19.2kbps) NRZ Format ±5kHz deviation Voice ±2.5kHz deviation Voice Noise Figure < 9 dB minimum Sensitivity: Bit Error Rate < 10-3 at 9.
PRELIMINARY FCC ID: BIB61201001 DESCRIPTION 2-12 MCC-6120 SDR MICROPROCESSOR SPECIFICATIONS CHARACTERISTIC SPECIFICATION Main Processor Motorola MC68332FC 32-bit Embedded Controller Memory: Program Storage 2M x 16 non-volatile Flash memory (Flash1) Data Storage 64M x 16 dynamic RAM Parameter Storage 2M x 16 non-volatile Flash memory (Flash2) Calibration Storage 8K EEPROM Switches: S1 System Reset, Momentary TABLE 2.6 2.
PRELIMINARY FCC ID: BIB61201001 DESCRIPTION 2-13 parameters into the DSP. They can also be reloaded by entering the following command LOADCAL. Data Memory The Data Memory is volatile 64 MByte RAM (16 Meg x 32). Date, time, executable programs, command parameters and program dynamic data (messages, data, position, etc) are all stored in RAM during normal operations. During normal operation, the MCC-6120 SDR software uses the data and configuration parameters stored in RAM.
PRELIMINARY FCC ID: BIB61201001 INTALLATION 3-1 3.0 INSTALLATION Site selection and general installation guidelines are provided in this section, including instructions for cabling, antenna and power source connections. Power up procedures, initialization and preliminary functional test procedures are described that should be performed prior to placing the MCC-6120 SDR on-line within the network.
PRELIMINARY FCC ID: BIB61201001 INTALLATION 3-2 8-10 ms to several dozen every 8-10 ms. As the number of spikes increase, the level of interference also increases. When setting up a site, always use the MM command to determine the level of the power line noise interference. It is mandatory that power line noise be avoided for an optimum site. Try to place the receiver antenna well away from power lines. NOTE Power companies are required to properly maintain their power lines to reduce noise.
PRELIMINARY FCC ID: BIB61201001 INTALLATION 3-3 The power cable between the battery and the MCC-6120 SDR should be kept shorter than 10 feet and rated at #14 AWG or lower. (See Section 3.2.2.1 for more details.) 3.1.3 Antenna Selection Vertical polarization is used in a network to provide omni-directional coverage to all adjacent nodes in the LOS network. A good choice for a base station antenna is dual stacked dipoles mounted on two sides of a triangular tower.
PRELIMINARY FCC ID: BIB61201001 INTALLATION 3-4 A table of cable loss (at 160 MHz) for various types of co-ax cable is given below for reference. CABLE TYPE RG 223, RG 58 RG 214, RG 8 RG 17 LMR-240 ultra flex LMR-400 ultra flex LDF4A-50 ½ inch heliax LDF5A-50 7/8 inch heliax Loss/100 feet (db) 5.1 2.6 1.8 3.7 1.9 .82 .45 Diam. (Inches) .211 .425 .870 .240 .405 .500 .875 Weight/100 feet (lbs.) 3.4 12.6 20.1 3.4 9.0 15.0 33.
PRELIMINARY FCC ID: BIB61201001 INTALLATION 3-5 3.2 Equipment Installation The MCC-6120 SDR operates over a temperature range from -30°C to +60°C and is normally housed in a stainless steel enclosure; however, it is not waterproof. A NEMA waterproof enclosure is recommended for outdoor installations. To ensure proper operation, shielded cable is recommended for all connectors. Always use adequate strain relief on all cables and a weatherproof seal at the entry point of the enclosure.
PRELIMINARY FCC ID: BIB61201001 INTALLATION 3-6 DC Power Input Ethernet & USB Ports 900 MHz (UHF) Antenna Port [MCC-6100 only] 802.11(b) Antenna Port I/O Port High Band Antenna Port GPS Antenna Port Low Band Antenna Port 3.2.2.1 DC Power Input The MCC-6120 SDR requires a power source that can deliver up to 25 amps of pulsed power (100 msec) out of a +12 VDC to +14VDC power source.
PRELIMINARY FCC ID: BIB61201001 INTALLATION 3-7 3.2.2.2 LB/HB Connectors Connect the Low Band VHF and High Band VHF antenna cables to the two BNC RF connectors, being careful to observe the proper frequency bands. Use double-shielded coax for all connections. RG-223 (double-shielded) may be used for cable lengths under 30 feet for the low band and high band antenna. Use a double-shielded cable RG-214 for lengths up to 100 feet for the low and high bands. Refer to Section 3.1.
PRELIMINARY 3.2.2.5.1 FCC ID: BIB61201001 INTALLATION 3-8 Operator Port The Operator Port is normally connected to a local operator terminal. Use a standard RS-232 cable with a 9-pin male D connector. OPERATOR PORT – 9S Pin Signal 1 CD 2 Tx Data 3 Rx Data 4 DTR 5 Ground 6 DSR 7 RTS 8 CTS 9 Not Used 3.2.2.5.2 Data Port The Data Port may be used for connecting to a data logger, GPS receiver or other serial input device. Use a standard RS-232 cable with a 9-pin male D connector.
PRELIMINARY 3.2.2.5.3 FCC ID: BIB61201001 INTALLATION 3-9 Auxiliary Port (AUX) The AUX PORT may be connected to a GPS receiver or other serial input device. Use a standard RS-232 cable with a 9-pin male D connector. This port is also used for interfacing to MCC test equipment (pins 6, 8, and 9).
PRELIMINARY Pin 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 PRELIMINARY FCC ID: BIB61201001 SENSOR PORT Signal Optocoupled input #1 positive (no connection) Optocoupled input #2 positive Optocoupled input return Optocoupled input #3 positive (no connection) Optocoupled input #4 positive (no connection) Ground MIC_HI MIC_LO Push-To-Talk RX_AUDIO1 RX_AUDIO2 MUTE Switched +12V (0.5A maximum) Analog Input #1 ( 0 to 5 V) ±0.5% Analog Input #2 ( 0 to 5 V) ±0.
PRELIMINARY FCC ID: BIB61201001 INTALLATION 3-11 3.2.2.6 Ethernet/USB Connector The SDR has two Ethernet Network two independent Interface Adaptors and two USB adaptors. Connections to these adaptors are made thru a 15 pin sub miniature D connector located on the front panel.
PRELIMINARY INTALLATION 3-12 FCC ID: BIB61201001 DTR CD DSR RTS CTS 24 23 4 1 7 21 8 32 36 34 35 31 33 22 10 28 12 13 8 27 19 20 18 3 1 2 16 17 25 15 14 29 11 26 9 43 38 39 40 37 42 41 30 44 5 RXDA TXDA GND RXDB TXDB GND RTSB DTRB RINGB DSRB CTSB RXDC TXDC GND MDIR MCLK MSET GND GND IN1+ NC IN2+ IN– IN3+ GND IN4+ NC GND MIC_HI MIC_LO PTT RX_AUDIO1 RX_AUDIO2 MUTE GND +12VSW ADC1 ADC2 ADC3 ADC4 ADC5 ADC6 +5V REF +12V DET RF 4 1 6 7 8 3 2 5 9 DS9 OPERATOR PORT 3 2 5 7 4 9 6 8 1 D9S DATA PORT 3 2
PRELIMINARY FCC ID: BIB61201001 INTALLATION 3-13 3.3 Power-Up Sequence IMPORTANT Before applying power to the MCC-6120 SDR, check all connections between the MCC-6120 SDR and the external equipment (power, antenna, operator terminal, and data logger). Refer to Section 3.2.3 for cabling instructions. 3.3.1 Connect Operator Terminal Connect a laptop or an operator terminal, with XTERMW installed and running, to the Operator Port.
PRELIMINARY FCC ID: BIB61201001 INTALLATION 3-14 At this time all configuration data is loaded from Program Memory into RAM. This data will remain in RAM until power cycled. This is the type of message that should be displayed when you first apply power to the unit during a field installation, and for each subsequent power cycle of the radio. After power is applied to the radio all parameters that were entered and saved during the previous session will be reloaded from Flash2 memory.
PRELIMINARY FCC ID: BIB61201001 INTALLATION 3-15 Always check with your System Administrator to determine which device type your unit should be configured as. For example, if the device should be a Remote Station and it is not currently configured properly, you can change the device type, as follows: DEVICE,REMOTE [ENTER] SAVE [ENTER] CAUTION Do not change the device type unless told to do so by your System Administrator.
PRELIMINARY FCC ID: BIB61201001 INTALLATION 3-16 This shows you the active or “primary” channel number and TX and RX frequency pair, plus up to 20 additional frequency pairs for channels that may be programmed at the factory. For example, the following table could be displayed: +chan 11/14/05 15:11:26 Primary Channel TX mhz RX mhz Mod-Val 01 44.5800 44.5800 1 11/14/05 15:11:26 Channel Table: Channel TX mhz RX mhz Mod-Val >01* 44.5800 44.
PRELIMINARY FCC ID: BIB61201001 INTALLATION 3-17 The procedure for loading the Script File is described below: 1. Install the MCC-6120 SDR MeteorComm CD (or diskette), with the Script File on it into your operator terminal, and load the Script File into your XTERMW\XTS subdirectory. 2. Start XTERMW and open a connection at the correct baud rate and COM port (typically COM1, 9600 baud). All other parameters are defaults. 3. From the Scripts drop-down menu in XTERM, choose Execute Script. 4.
PRELIMINARY FCC ID: BIB61201001 INTALLATION 3-18 3.4 Operational Test Procedure 3.4.1 RF Test A very thorough RF test can be made by entering the command TEST [ENTER]. TEST causes the processor to turn the transmitter ON and measures the forward and reverse RF power that is being transmitted. It also measures the battery voltage under load and the antenna noise voltage.