Specifications
Table Of Contents
- EXPOSURE TO RF RADIATION
- MCC 545B MRC-565 DIFFERENCES
- 1 INTRODUCTION
- 2 NETWORKS
- 3 DESCRIPTION
- 4 INSTALLATION
- 4.1 Cable Connections
- 4.1.1 DC Power
- 4.1.2 VHF Antenna
- 4.1.3 GPS Antenna
- 4.1.4 I/O Port
- 4.1.5 GNSS Ethernet
- 4.1.6 Radio Ethernet Port
- 4.2 Power-Up Sequence
- 4.3 Description of Critical Device Parameters for a LOS Network
- 4.3.1 Device
- 4.3.2 Role
- 4.3.3 Radio ID Number
- 4.3.4 Frequency and Modulation Parameters
- 4.3.5 Select Site Name
- 4.4 Enter Script Files
- 4.5 RF TEST
- 5 OPERATIONS
- 5.1 Getting Started
- 5.1.1 Command Entry and Editing
- 5.1.2 HELP Command
- 5.1.3 System Time and Date
- 5.1.4 Factory Default Parameters
- 5.2 Configuring the MRC-565 Manually
- 5.2.1 Setting the Radio ID
- 5.2.2 Device Type
- 5.2.3 Setting the Operating Role
- 5.2.4 Setting the Power Mode
- 5.2.5 Selecting Network Parameters
- 5.3 Local Area Network Configuration
- 5.3.1 I/O Configuration Commands
- 5.3.2 Scheduling MRC-565 Events
- 5.3.3 Setting Timeout Duration
- 5.3.4 Defining Data Relays
- 5.3.5 Scaling A/D Readings
- 5.3.6 Selecting the Burst Monitor
- 5.3.7 Controlling the Hourly Statistics Report
- 5.3.9 Power Turn On
- 5.3.10 Saving and Restoring the Configuration
- 5.4 Sending and Receiving Messages
- 5.4.1 Entering and Deleting Messages
- 5.4.2 Editing Messages
- 5.4.3 Sending Messages
- 5.4.4 Sending Remote Commands
- 5.4.5 Sending Canned Messages
- 5.4.6 Receiving Messages
- 5.4.7 Examining Message Status
- 5.4.8 Examining and Revising Message Queues
- 5.5 Sensor I/O Port
- 5.6 Data Loggers Interface
- 5.7 CR10X Data Logger
- 5.7.5 Update Interval
- 5.7.6 Transmission Order
- 5.7.8 Time of Day
- 5.7.9 Time Tagging
- 5.7.10 Memory Management
- 5.7.11 Data Scaling
- 5.7.12 Modem Enable
- 5.7.13 Setting/Reading CR10X Internal Registers
- 5.7.14 Entering CR10X Security Codes
- 5.7.15 Downloading a CR10X .DLD Program
- 5.7.16 Replacing an MRC-565 to an Operational CR10X
- 5.7.17 Replaying Data from a CR10X
- 5.8 CR1000 Data Logger
- 5.8.1 CR1000 Driver Configuration Command Summary:
- 5.8.2 Acquire Mode:
- 5.8.3 Data Retrieval Pointer Initialization
- 5.8.4 Data Retrieval Hole Collection
- 5.8.5 Update Interval
- 5.8.6 Transmission Order
- 5.8.7 Group ID Assignment
- 5.8.8 Time of Day
- 5.8.9 Time Tagging
- 5.8.10 Memory Management
- 5.8.11 Data Scaling
- 5.8.12 Modem Enable
- 5.8.13 Reading CR1000 Internal Pointers and Error Statistics
- 5.8.14 Displaying Status Table Data
- 5.8.15 Displaying and Setting Public Table Data
- 5.8.16 Downloading a Program
- 5.9 SDI-12 Sensors
- 5.9.1 Data Collection
- 5.9.2 Setup
- 5.9.3 Periodic Data Collection
- 5.9.4 Data Logging
- 5.9.5 User Interface
- 5.9.6 MRC-565 Commands
- 5.9.7 SDI, CMD, COMMAND TEXT
- 5.9.8 SDI, TRACE, {OFF/ON}
- 5.9.9 SDI-12 Command/Response List
- 5.9.10 Serial Port Command and Response Diagrams
- 5.10 Generic Data Logger
- 5.10.1 Typical Report Formats
- 5.10.2 Setup and Configuration
- 5.10.3 Viewing the generic device driver setup
- 5.10.4 AUTO Format
- 5.10.5 MULTI-LINE Format
- 5.11 Event Programming
- 6 THEORY OF OPERATION
- 6.1 CMU (MRC-56500300-04)
- 6.1.1 Receiver Analog Front End
- 6.1.2 Digital Receiver Components
- 6.1.3 Digital Transmitter Components
- 6.1.4 Discrete Digital Output, Relay Junction and Analog Input
- 6.1.5 Power Amp Interface
- 6.2 Microprocessor
- 6.2.1 Overview
- 6.2.2 Cold Fire Processor
- 6.2.3 Data Input/Output
- 6.2.4 Coldfire Microprocessor Peripherals and Serial Configuration
- 6.2.5 Power Fail Detection/Protection
- 6.2.6 Voltage Regulators
- 6.2.6.1 Input Switching Regulator
- 6.2.6.2 CF Switching Regulator
- A three output switching regulator is used to generate the three voltages that power the Cold Fire Processor and its peripheral devices. The three voltage are:
- 3.3V Powers CF54455 I/O, CPLD, RS232 interfaces, Flash Memory, Ethernet Controller
- 6.2.6.3 DSP Switching Regulator
- A three output switching regulator is used to generate the three voltages that power all circuitry associated with the Receiver and Exciter circuitry. The three voltages are:
- 3.6V Powers FPGA and DSP I/O, Rx Clock synthesizer, RF Pre Amps, TCXO, and QDUC circuit.
- 2.0V Powers the ADC circuit, the FPGA Core (1.2V), and the DSP Core (1.6V)
- 6.2.6.4 5 V Regulator
- 6.3 Power Amplifier (MRC-56500301-10)
- 6.4 Internal GNSS daughter board (optional)
- 7 Maintenance
- APPENDIX A: COMMANDS
- MESSAGE COMMANDS
- MAINTENANCE COMMANDS
- BOOT
- DATA LOGGER COMMANDS
- CR10X COMMANDS
- COMMAND
- PARAMETERS
- CR10X,GROUP,source
- CR10X,RESET
- CR10X,SCALE,type
- CR10X,SIGNATURE
- CR10X,STAT
- CR10X,TIME,source
- CR1000
- CR1000,ACQMODE,{CURRENT,ALL,LAST,N}
- CR1000,SETPTR,MM/DD/YY,HH:MM
- CR1000,INTERVAL,{off,n}
- CR1000,GROUP,{CR1000}
- CR1000,TIME,{CR1000}
- CR1000,MAXQ,nnn
- CR1000,SCALE,{CR1000,INT}
- CR1000,PUBLIC
- CR10XTD,STAT
- CR10XTD,RESET
- CR10XTD,SECURITY,xxxx,yyyy,zzzz
- CUSTID,nnnnn
- 1 – 4095
- A-Z, 0-9, -
- A-Z, 0-9, -
- A-Z, 0-9, -
- Parameter
- BOOT
- MAINTENANCE COMMANDS
- STATUS COMMANDS
- STATION CONFIGURATION COMMANDS
- APPENDIX B: FACTORY DEFAULTS
- The following is a list of MRC 565 Parameters that are installed after typing:
- To obtain a list of parameters settings in SCRIPT format for the MRC 565 type:
- APPENDIX C: EVENT PROGRAMMING
- APPENDIX D: INSTALLATION DETAILS
APPENDIX A: COMMANDS
Page 136 MRC-565 Packet Data Radio Operations & Maintenance
MRC-565 COMMANDS
TABLE
COMMAND
DESCRIPTION
PARAMETERS
RANGE
timeout in seconds
0 – 32767
ASSIGN,RXn,Channel,Proto
col
RXn = Receive Number 1,2,3. (All use same ADC)
Channel = Channel Number
Default is all RX1, RX2, and RX3 assigned
Refer to Channel Command to set frequencies
Channel = 0 to 20
Protocol =
OFF,MBNET
*BASE{,nnn,nnn}
Set/display range of Master Station IDs reserved for
use as Base Stations. In MB networks set BASE to
OFF.
nnn = lowid,highid
OFF = no Bases
2 – 253
BINS
Print link distribution statistics
BOOT
Cold start of Station software. All volatile memory
is lost.
CANMSG,name,len{,Qsize}{,
count}
Automatically generate a test message of specified
length that repeats until turned off with CANMSG
OFF command. You can compose the message by
entering only the destination name (not message
length or minimum queue depth). Destination node
must be a neighbor node. CANMSG cannot contain
more than 25 messages in its queue. If the number of
canned test messages in queue falls below minimum
queue depth, additional canned messages will be
injected.
nnnn = Station ID
Master = 1 – 4095
Remote = 256 – 4095
len = number of
characters in message
Qsize = min. # of
canned messages in
queue
count = total number of
canned messages to
generate
1 – 4095
1 – 3000
0 – 25
0 – 9999
CANMSG MODE {,mode)
Set reception of canned test messages to two of the
following states:
PRINT – print all test messages
NO PRINT – does not print test messages
mode = PRINT
NO PRINT
CANMSG OFF,nnnn
Turn canned test message mode off
nnnn = Station ID
Master = 1 – 245
Remote = 256 - 4095
1 – 4095