MM200 High Speed Microwave Modem Installation and Operation Manual TM086 - Rev. 4.1 Comtech EF Data • 2114 W 7th St. • Tempe, AZ 85281 • (480) 333-2200 • Fax: (480) 333-2540 • www.comtechefdata.
MM200 High-Speed Microwave Modem Warranty Policy Warranty Policy WP Comtech EF Data products are warranted against defects in material and workmanship for a period of two years from the date of shipment. During the warranty period, Comtech EF Data will, at its option, repair or replace products that prove to be defective. For equipment under warranty, the owner is responsible for freight to Comtech EF Data and all related customs, taxes, tariffs, insurance, etc.
Warranty Policy MM200 High-Speed Microwave Modem Before a warranty repair can be accomplished, a Repair Authorization must be received. It is at this time that Comtech EF Data will authorize the product or part to be returned to the Comtech EF Data facility or if field repair will be accomplished. The Repair Authorization may be requested in writing or by calling: Comtech EF Data Corporation th 2114 W 7 Street.
MM200 High-Speed Microwave Modem Preface Preface P This manual provides installation and operation information for the Radyne RCS20 M:N Redundancy Switch. This is a technical document intended for use by engineers, technicians, and operators responsible for the operation and maintenance of the RCS20.
Preface MM200 High-Speed Microwave Modem Product names mentioned in this manual may be trademarks or registered trademarks of their respective companies and are hereby acknowledged. Copyright 2008, Comtech EF Data This manual is proprietary to Comtech EF Data and is intended for the exclusive use of Comtech EF Data’s customers.
MM200 High-Speed Microwave Modem Table of Contents Table of Contents ToC Warranty Policy ............................................................................................................iii Preface ...........................................................................................................................
Table of Contents MM200 High-Speed Microwave Modem 3.2.2 Sample Setups__________________________________________________ 3-4 3.2.2.1 Transmitting G.703 T3 From Interface Slot 3 (other interfaces disabled) ___ 3-4 3.2.2.2 Transmitting STM-1 From Interface Slot 1 (other interfaces disabled) _____ 3-4 3.2.3 Hardware Reset _________________________________________________ 3-4 3.3 Calculating 3 dB Bandwidth of MM200 Modulated Carrier __________________ 3-5 3.
MM200 High-Speed Microwave Modem Table of Contents 4.4.8.2 Latched Alarms _______________________________________________ 4-28 4.4.8.3 Clear Alarms _________________________________________________ 4-28 4.4.9 SYSTEM (Menu) _______________________________________________ 4-28 4.4.10 TEST (Menu) _________________________________________________ 4-30 4.5 Remote Port User Interface ________________________________________ 4-30 4.5.1 Protocol Structure ______________________________________________ 4-31 4.5.
Table of Contents MM200 High-Speed Microwave Modem 4.29 Server Host Name ______________________________________________ 4-46 4.30 Router IP Address_______________________________________________ 4-47 4.31 IP Address Mask ________________________________________________ 4-47 4.32 Boot Mode (Optional) ____________________________________________ 4-47 4.33 Community ____________________________________________________ 4-47 4.34 Trap Type and Trap Hosts ________________________________________ 4-47 4.
MM200 High-Speed Microwave Modem Table of Contents 5.11.3 DS03 15-pin female HD ‘D’ sub connector (J9) ________________________ 5-8 5.11.4 DS04 15-pin female HD ‘D’ sub connector (J10) _______________________ 5-8 5.11.5 DS05 15-pin female HD ‘D’ sub connector (J11) _______________________ 5-8 5.11.6 DS06 15-pin female HD ‘D’ sub connector (J12) _______________________ 5-8 5.11.7 DS07 15-pin female HD ‘D’ sub connector (J13) _______________________ 5-9 5.11.
Table of Contents MM200 High-Speed Microwave Modem Section 6 - Maintenance and Troubleshooting ........................................................6-2 6.0 Periodic Maintenance ______________________________________________ 6-2 6.1 Maintenance Philosophy ____________________________________________ 6-2 6.2 Customer Service _________________________________________________ 6-2 6.3 Troubleshooting __________________________________________________ 6-3 Section 7 - Technical Specifications ................
MM200 High-Speed Microwave Modem Introduction Introduction 1 1.0 Description The Radyne MM200 Microwave Modem is a high-speed, multi data rate Modulator/Demodulator. It is a single rack digital modem for point-to-point or point-to-multipoint communication links and is ideal for microwave link upgrades or retrofits. The MM200 utilizes a proprietary matrix modulation format that provides maximum bandwidth efficiency and data rates up to 176 Mbps (200 Mbps optional).
Introduction 1-2 MM200 High-Speed Microwave Modem TM086 - Rev. 4.
MM200 High-Speed Microwave Modem Installation Installation 2 2.0 Installation Requirements The MM200 is designed to be installed within any standard 19-inch equipment cabinet or rack, and requires 2 rack unit (RU) mounting spaces (3.5 inches) vertically and 19 inches of depth. Including cabling, a minimum of 20 inches of rack depth is required. The rear panel of the MM200 is designed to have power enter from the left and IF cabling enter from the right when viewed from the rear of the unit.
Installation MM200 High-Speed Microwave Modem 2.2 Removal and Assembly If using a knife or cutting blade to open the carton, exercise caution to ensure that the blade does not extend into the carton, but only cuts the tape holding the carton closed. Carefully unpack the unit and ensure that all of the above items are in the carton.
MM200 High-Speed Microwave Modem Installation 2.4.1 Initial Power-Up Before initial power up of the MM200, it is a good idea to disconnect the transmit output from the operating ground station equipment. This is especially true if the current modem configuration settings are unknown, where incorrect setting could disrupt existing communications traffic. New units from the factory are normally shipped in a default configuration which includes setting the transmit carrier off.
Installation 2-2 MM200 High-Speed Microwave Modem TM086 - Rev. 4.
MM200 High-Speed Microwave Modem Theory of Operation Theory of Operation 3 3.0 Theory of Operation The MM200 Microwave Modem is a highly flexible platform for the transmission of high-speed data across links such as microwave and cable. The 2 RU-rack mount unit can be supplied in many different configurations and was designed to be expanded in the field to meet new and changing operating conditions.
Theory of Operation MM200 High-Speed Microwave Modem Figure 3-1. MM200 Microwave Modem Block Diagram 3.1.2 Data Muxiplexer The multiplexer works on a constant output data rate. This data rate is directly related to the symbol rate used by the modulators. The Symbol Rate is directly related to Bandwidth of the IF carrier. The output of the multiplexer contains Reed Solomon overhead and mux/demux overhead. The ratio between multiplexer input data and output data is 184/204.
MM200 High-Speed Microwave Modem Theory of Operation Data is always evenly divided between the number of channels selected i.e. each RF modulator runs at the same rate. 3.1.3 RF Modulators The number of active modulators (up to the maximum number installed in the chassis, from 1 to 4) is determined by front panel selection in which case any unused modulator is “parked” or turned off. Each modulator is capable of modulating a carrier between 50 and 90 MHz with QAM 4,16,32,64,128 or 256 (optional).
Theory of Operation 6. MM200 High-Speed Microwave Modem Modem should lock with SNRs > 32 dB. 3.2.2 Sample Setups 3.2.2.1 Transmitting G.703 T3 From Interface Slot 3 (other interfaces disabled) Sample Setup 1. In System, User Mode, set to ‘Level 2’. 2. In Modulator, set the frequency to ’70 MHz’. 3. In Tx Interface 3, set Control to ‘Enable’ (ensure all other interfaces are disabled). 4. Set Interface to ‘T3’. 5. Set Data Inv to ‘Norm’. 6. Set Bandwidth in the Modulator Menu to ‘30,000,000’.
MM200 High-Speed Microwave Modem Theory of Operation This section is not yet complete. 3.3 Calculating 3dB Bandwidth of MM200 Modulated Carrier 1. Find the combined interface data rate: DRC = Interface 1 Data Rate + Interface 2 Data Rate + Interface 3 Data Rate + Interface 4 Data Rate 2. Find the Total Data Rate plus R/S mux overhead, and guard band overhead: DRT = DRC x (204/184) x 1.001 3.
Theory of Operation 3-6 MM200 High-Speed Microwave Modem TM086 - Rev. 4.
MM200 High-Speed Microwave Modem User Interfaces User Interfaces 4 4.0 User Interfaces There are four user interfaces available for the MM200. These are: Front Panel Control. Command Interface Control. Terminal Interface Ethernet SNMP Any of these methods may be used separately or together to monitor and control the MM200. Each of these interfaces and their respective methods are discussed separately below. 4.
User Interfaces MM200 High-Speed Microwave Modem 4.1.1 Front Panel LCD Display The front panel display is a 2 line by 16-character LCD display. The display is lighted and the brightness can be set to increase when the front panel is currently in use. The LCD display automatically dims after a period of inactivity. The display has two distinct areas showing current information. The upper area shows the current parameter being monitored, such as ‘Frequency’ or ‘Data Rate’.
MM200 High-Speed Microwave Modem User Interfaces 4.1.4 Front Panel LED Indicators There are 12 LEDs on the MM200 front panel to indicate the status of the MM200’s operation (refer to Table 4-3). The LED colors maintain a consistent meaning. Green signifies that the indication is appropriate for normal operation, Yellow means that there is a condition not proper for normal operation, and Red indicates a fault condition that will result in lost communications.
User Interfaces MM200 High-Speed Microwave Modem 4.2 Front Panel Control Screen Menus The Front Panel Control Screen Menus are listed below. The MM200 Microwave Modem may be operated in three different levels: Level 0 - is for specialized factory configurations. Every screen is available including those used for factory calibration and diagnostics. Level 1 – includes those screens necessary for field maintenance. Level 2 – is the default setting and is shipped from the factory in this mode.
MM200 High-Speed Microwave Modem User Interfaces 4.3.2 MODULATOR (menu) * The Modulator Menu Screens are listed below: Screen Name Selections and Descriptions L2 FREQUENCY (Hz) {50 – 90 MHz} Controls the current center band of the operating frequency width, or the individual channel frequency if the System Frequency Control is set to ‘User’. {Auto, 1 - 4} Controls the number of channel cards where 0 = auto, and 1 – 4 = the number of cards. Increase this number for better performance.
User Interfaces MM200 High-Speed Microwave Modem 4.3.3 DEMODULATOR (menu) The Demodulator Menu Screens are listed below: Screen Name Selections and Descriptions L2 FREQUENCY (Hz) {50 – 90 MHz} Displays the current center band of the operating frequency width. {Auto, 1 – 4, Debug} Controls the number of channel cards where 0 = auto, and 1 – 4 = the number of cards. Increase this number for better performance. Lower this number for better bandwidth efficiency. {3.
MM200 High-Speed Microwave Modem User Interfaces of time set in ACQ DELAY (sec). 3. Step the Demodulator frequency up one step size programmed in ACQ STEP (KHz). 4. Repeat Steps 1 through 3 until the Demodulator Frequency exceeds the + side of the ACQ BW. 5. Set the Demodulator to the negative side of ACQ BW. 6. Repeat until demodulator acquires. Once acquired, the demodulator will have an offset between the frequency at which the demodulator is set and the incoming signal frequency.
User Interfaces MM200 High-Speed Microwave Modem Controls the diversity mode. MONITOR (menu): Diversity channel and FIFO status. MUX STATUS {Unused, Channel A, Channel B, Null Frames} Specifies the multiplexer status. RW FIFO A STATUS {No Flags, Empty, Full} Specifies the status of FIFO A. RW FIFO B STATUS {No Flags, Empty, Full} Specifies the status of FIFO B. RW Displays the Channel A error counter. RO Displays the Channel B error counter. RO Displays the Channel A and B error counter.
MM200 High-Speed Microwave Modem RECEIVE (menu): User Interfaces APC Receive settings. RCV CONTROL {RXDOWN, RXUP, AUTO} Controls the remote TX level. RW LEVEL (dBm) Desired RX power level. RW HYSTERESIS APC Hysteresis. RW MONITOR (menu): APC Monitor. XMT STATUS {NOCHANGE, TXDOWN, TXUP} Displays APC transmit status. RO RCV STATUS {NOCHANGE, RXDOWN, RXUP} Displays APC receive status. RO 4.3.
User Interfaces MM200 High-Speed Microwave Modem PIDs on a framed interface. Note: Only appears when using DVB Framed Interfaces such as L0I. CLK POLARITY {Normal, Inverted} Sets the polarity of the clock. Note: Only appears when supported by the installed interface. RW DATA INVERT {Normal, Inverted} Sets the polarity of the data. RW Note: Only appears when supported by the installed interface. BB LOOP {Normal, Inverted} Baseband Loopback. Not yet implemented, for future expansion.
MM200 High-Speed Microwave Modem User Interfaces Note: Only appears when supported by the installed interface. JIT CONTROL {INCH, SLOW, MEDIUM, FAST, STAMP2, STAMP3} Clock recovery DLL speed, or TimeStamped packets. RW NULL PID {2-Byte Packet ID} Defines the 2-byte packet ID, program ID for null padding packets. This number must match the corresponding receive demux null PID. This number must be unique and not be duplicated by an interface PID or any DVB transport stream PIDs on a framed interface.
User Interfaces MM200 High-Speed Microwave Modem PRESS CLR TO CENTER BUFFER Centers the buffer. RW VOLUME {0 - 255} Allows the user to set volume level (Orderwire only). Note: Only appears when supported by the installed interface. RW BYTE GAP {0 - 255} Allows the user to set ASI byte gapping. Set to 0 for Burst mode. (ASI Interfaces that support Byte Gap only). Receive Interface 2. Refer to RX INTRFC1 (menu) for descriptions. Receive Interface 3. Refer to RX INTRFC1 (menu) for descriptions.
MM200 High-Speed Microwave Modem CHANNELS SEPARATION DATA RATE (BPS) SYMB RATE (SPS) MODULATION BANDWIDTH (Hz) UTILIZATION (%) * MAX PAYLOAD (Hz) SPECTRUM TX POWER TX ENABLE operating frequency width, or the individual channel frequency if the System Frequency Control is set to ‘User’. {Auto, 1 - 4} Controls the number of channel cards where 0 = auto, and 1 – 4 = the number of cards. Increase this number for better performance. Lower this number for better bandwidth efficiency.
User Interfaces MM200 High-Speed Microwave Modem Screen Name Selections and Descriptions L0 L1 L2 FREQUENCY (Hz) {50 – 90 MHz} Displays the current center band of the operating frequency width. {Auto, 1 - 4} Controls the number of channel cards where 0 = auto, and 1 – 4 = the number of cards. Increase this number for better performance. Lower this number for better bandwidth efficiency.
MM200 High-Speed Microwave Modem User Interfaces 1. Try to aquifer at the Demodulator Programmed Frequency. 2. Continue to try to Acquire for the length of time set in ACQ DELAY (sec). 3. Step the Demodulator frequency up one step size programmed in ACQ STEP (KHz). 4. Repeat Steps 1 through 3 until the Demodulator Frequency exceeds the + side of the ACQ BW. 5. Set the Demodulator to the negative side of ACQ BW. 6. Repeat until demodulator acquires.
User Interfaces TRACKING STEP (Hz) DIVERSITY (menu): {10 – 100 Hz} Sets the step size that the demodulator will use to remove the frequency error of a locked signal. Normally set to 10 Hz. RW RW RW RW RW RW Diversity MODE {Disable, Auto, Force A, Force B} Controls the diversity mode. MONITOR (menu): Diversity channel and FIFO status. MUX STATUS {Unused, Channel A, Channel B, Null Frames} Specifies the multiplexer status.
MM200 High-Speed Microwave Modem User Interfaces 4.4.4 REPEATER (menu) The Repeater Menu Screen is listed below: Screen Name Selections and Descriptions L0 L1 L2 MODE {Off, On} Enables the repeater feature. RW RW RW L0 L1 L2 4.3.4 APC (Menu) The primary APC screen is listed below: Screen Name Selections and Descriptions TRANSMIT (menu): APC Transmit settings. XMT CONTROL {TXDOWN, TXUP, AUTO} Controls the local TX level. RW RW RW MAX TX LEVEL Sets the maximum TX power level.
User Interfaces MM200 High-Speed Microwave Modem The primary Tx Interface Screens and their sub-menus as listed below: Screen Name Selections and Descriptions TX INTRFC1 (menu): Transmit Interface 1 L0 L1 L2 CONTROL {Disable, Enable} Enables or disables the installed interface. RW RW RW DATA RATE (BPS) Dependant upon interface type. For variable interfaces, this unit must be set by the user. Will not show up on fixed rate interfaces. RW RW RW INTERFACE Dependant upon interface type.
MM200 High-Speed Microwave Modem User Interfaces implemented, for future expansion. VOLUME TX INTRFC2 (menu) TX INTRFC3 (menu) TX INTRFC4 (menu) TM086 - Rev. 4.1 {0 - 255} Allows the user to set volume level (Orderwire only). Transmit Interface 2. Refer to TX INTRFC1 (menu) for descriptions. Transmit Interface 3. Refer to TX INTRFC1 (menu) for descriptions. Transmit Interface 4. Refer to TX INTRFC1 (menu) for descriptions.
User Interfaces MM200 High-Speed Microwave Modem 4.4.6 RX INTERFACE (Menu) The primary Rx Interface Screens and their sub-menus as listed below: Screen Name Selections and Descriptions RX INTRFC1 Receive Interface 1 L1 L2 CONTROL {Disable, Enable} Enables or disables the installed interface. RW RW RW DATA RATE (BPS) Dependant upon interface type. For variable interfaces, this unit must be set by the user. Will not show up on fixed rate interfaces.
MM200 High-Speed Microwave Modem User Interfaces by the installed interface. {Normal, Loopback} Not yet implemented, for future expansion. RW RW RW BUFF ENABLE {Disable, Enable} Not yet implemented, for future expansion. RW RW RW CLK SOURCE {RxClk, Ext BNC, Ext Bal, Internal, TxCLK} Not yet implemented, for future expansion. RW RW RW CLK FREQ {2.048 MHz, 5.0 MHz, 10.0 MHz, Data Rate} Not yet implemented, for future expansion.
User Interfaces TX ENABLED OFF, ON} Displays TX Power Control Status RO RO RO INSTALLED CHs {0 – 4} Displays number of installed channels RO RO RO RO RO RO MON DMD (menu): 4-22 MM200 High-Speed Microwave Modem Monitors the state of the demodulator. DMD SNR X 10 {000 – 999 000 – 999 000 – 999 000 999} Displays the demodulator signal-to-noise ratio for each channel. Divide each number by 10 to get the dB value (i.e. 355 = 35.5 dB).
MM200 High-Speed Microwave Modem User Interfaces OFFST FRQ1 Displays channel 1 offset frequency RO RO RO OFFST FRQ2 Displays channel 2 offset frequency RO RO RO OFFST FRQ3 Displays channel 3 offset frequency RO RO RO OFFST FRQ4 Displays channel 4 offset frequency RO RO RO INSTALLED CHs {0 – 4} Displays number of installed channels Monitors the multiplexor RO RO RO TX INTF1 RATE Interface 1 tx data rate (KBPS) RO RO RO TX INTF2 RATE Interface 2 tx data rate (KBPS) RO RO RO
User Interfaces EVENT BUFF PRESS CLR TO ERASE EVENTS MM200 High-Speed Microwave Modem {Empty, Number of events} Displays the number of events that has occurred and the event log. The event log is the history of events recorded in the event buffer. A maximum of 40 events may be stored in the buffer. Upon receipt st of the 41 event, the first received event is automatically deleted, and so on, maintaining the maximum 40 events. Removes all events from the buffer.
MM200 High-Speed Microwave Modem User Interfaces MDD1 PLLLOCK {Masked, Unmasked} RF PLL not locked. RO RO RO MDD2 PLLLOCK {Masked, Unmasked} RF PLL not locked. RO RO RO MDD3 PLLLOCK {Masked, Unmasked} RF PLL not locked. An alarm that will terminate reception. Red LED will illuminate. RO RO RO DMD HW GLUE FPGA failure. RO RO RO DMD HW DATA FPGA failure. RO RO RO SIGNAL LOCK Monitors the system signal lock states. RO RO RO SYNC LOCK Monitors the system sync lock states.
User Interfaces MAJOR DMX (menu) MM200 High-Speed Microwave Modem An alarm that will terminate demux operations. Red LED will illuminate. DMX HW FPGA FPGA failure. RO RO RO INT0 HW FPGA FPGA failure. RO RO RO INT2 HW FPGA FPGA failure. RO RO RO INT3 HW FPGA FPGA failure. RO RO RO FPGA failure. An alarm that will not terminate transmissions. Yellow LED will illuminate. RO RO RO Modulator frame detect. RO RO RO LOOP LOCK Modulator tracking.
MM200 High-Speed Microwave Modem User Interfaces TRACK FAULT CHANNEL 2 (menu) Refer to CHANNEL 0 (menu) for descriptions. CHANNEL 3 (menu) Refer to CHANNEL 0 (menu) for descriptions. CHANNEL 4 (menu) Refer to CHANNEL 0 (menu) for descriptions. APC (menu) APC Receive overrun error RO RO RO APC Invalid command received RO RO RO RCV OVERRUN CMD INVALID MINOR MUX (menu) An alarm that will not terminate mux operations. Red LED will illuminate.
User Interfaces MM200 High-Speed Microwave Modem Buffer clock PLL not locked. RO RO RO MINOR INT2 (menu) Refer to MINOR INT0 (menu) for descriptions. MINOR INT3 (menu) MINOR INT4 (menu) COMMON (menu) Refer to MINOR INT0 (menu) for descriptions. Refer to MINOR INT0 (menu) for descriptions. An alarm that affects both transmit and receive. GLUE HW FPGA FPGA failure. Refer to Section 6.1. RO RO RO TEST HW FPGA FPGA failure. Refer to Section 6.1. RO RO RO 4.4.8.
MM200 High-Speed Microwave Modem ALL ALARMS DATE TIME {No, Yes} Used for dispersive fading analyzer testing. {YY/MM/DD} Allows the user to enter the current date. {HH:MM:SS} Allows the user to enter the current time. User Interfaces RW RW RW RW RW RW RW RW RW RW RW RW FRONT PANEL (menu) LEVEL {Low, Mid, High, Off} Set the front panel backlight intensity level. TIMEOUT {0 – 99} Allows the user to enter the amount of time in seconds for the backlight to dim. Enter ‘0’ for no timeout.
User Interfaces MM200 High-Speed Microwave Modem FW4459-- Firmware Version RO RO RO FW4459-- Firmware Date RO RO RO Screen Name Selections and Descriptions L0 L1 L2 LED TEST {On, Off} Illuminates all LEDs on front panel. {Normal, Mux Dmx Loop, Mux, Dmx LVDS, Modem LVDS, Repeater} Tests multiplexer and demultiplexer function. {NORMAL, LOOPBACK} Tests modulator and demodulator function. {Normal, CW, Offset 1 Hz, 100 kHz, 3.
MM200 High-Speed Microwave Modem User Interfaces 4.5.1 Protocol Structure When new features are added to Radyne Inc. equipment, the control parameters are appended to the end of the Non-Volatile Section of the Remote Communications Specification, and status of the features, if any, are added at the end of the Volatile Section. If a remote M&C queries two pieces of Radyne Inc. equipment with different revision software, they could respond with two different sized packets.
User Interfaces MM200 High-Speed Microwave Modem The format and structure of the COMMSPEC message exchanges are described herein. Decimal numbers have no suffix; hexadecimal numbers end with a lower case h suffix and binary values have a lower case b suffix. Thus, 22 = 16h = 000010110b. The principal elements of a data frame, in order of occurrence, are summarized as follows: - the message format header character, or ASCII sync character, that defines the beginning of a message.
MM200 High-Speed Microwave Modem User Interfaces 00h + 02h + F0h + 2Ah + 09h + 00h + 03h + DFh + FEh = 305h. Since the only concern is the modulo 256 (modulo 100h) equivalent (values that can be represented by a single 8-bit byte), the checksum is 05h. For a decimal checksum calculation, the equivalent values for each information field are: 0 + 2 + 240 + 42 + 9 + 0 + 3 + 223 + 254 = 773; 773/256 = 3 with a remainder of 5. This remainder is the checksum for the frame.
User Interfaces MM200 High-Speed Microwave Modem 4.5.4 Global Response Operational Codes In acknowledgment response packets, the operational code field of the message packet is set to 0 by the receiving devices when the message intended for the device is evaluated as valid. The device that receives the valid message then exchanges the
MM200 High-Speed Microwave Modem User Interfaces REMOTE_PID_ERROR 0x0211 REMOTE_DATA_RATE_ERROR 0x0212 REMOTE_INTERFACETYPE_ERROR 0x0213 REMOTE_SUBTYPE_ERROR 0x0214 REMOTE_CLOCKSOURCE_ERROR 0x0215 REMOTE_CLOCKFREQUENCY_ERROR 0x0216 REMOTE_FRAMING_ERROR 0x0217 REMOTE_VOLUME_ERROR 0x0218 REMOTE_CLOCKPOLARITY_ERROR 0x0219 REMOTE_DATAINVERTERROR 0x021A REMOTE_BBLOOPACK_ERROR 0x021B REMOTE_TERRLOOPBACK_ERROR 0x021C REMOTE_PRBS_ERROR 0x021D REMOTE-INTERFACEENABLE_ERROR 0x021E REMOTE_
User Interfaces MM200 High-Speed Microwave Modem REMOTE_SYMBOLRATE_PERCHANNEL_LO_ERROR 0x0235 REMOTE_SYMBOLRATE_PERCHANNEL_HI_ERROR 0x0236 REMOTE_NOTCOMPATIBLE_ERROR 0x0237 REMOTE_MM200_IN_REPEATER_MODE_ERROR 0x0238 REMOTE_DIVERSITY_ERROR 0x023A REMOTE_CLEARBER_ERROR 0x023B 4.5.5 Collision Avoidance When properly implemented, the physical and logical devices and ID addressing scheme of the COMMSPEC normally precludes message packet contention on the control bus.
MM200 High-Speed Microwave Modem User Interfaces DMD - 4500/5000 Demodulator Section 09 RCU - 5000 M:N Switch 10 DMD15 Modulator 20 DMD15 Demodulator 21 DMD15 Modem 22 DVB3030 Video Modulator, DM240 23 Reserved for future equipment types 24 – 31 Note that multi - drop override ID 01 can be used interchangeably to broadcast a message to a DMD - 3000/4000 modem, a DMD - 4500/5000, a DMD15 modem, or a DVB3030. Radyne Inc. Corp.
User Interfaces MM200 High-Speed Microwave Modem 4.5.7 RLLP Summary The RLLP is a simple send-and-wait protocol that automatically re-transmits a packet when an error is detected, or when an acknowledgment (response) packet is absent. During transmission, the protocol wrapper surrounds the actual data to form information packets. Each transmitted packet is subject to time out and frame sequence control parameters, after which the packet sender waits for the receiver to convey its response.
MM200 High-Speed Microwave Modem 4.9 Mgmt {internet 2} User Interfaces 1.3.6.1.2 This area was reserved to describe objects in the standard MIB. As RFCs defining new groups are ratified, the Internet Assigned Numbers Authority (IANA) assigns new group IDs. 4.10 Experimental {internet 3} 1.3.6.1.3 This subtree provides an area where experimentation is carried out. Only those organizations directly involved in the experiment have any interest in this subtree. 4.11 Private {internet 4} 1.3.6.1.
User Interfaces MM200 High-Speed Microwave Modem Figure 1. Object Identifiers in the Management Information Base (Sheet 2 of 2) Refer to Appendix B for MIB listing. 4.12 Terminal Port User Interface The Terminal Port of the MM200 allows for complete control and monitoring of all MM200 parameters and functions via an RS-232 Serial Interface. Terminal Mode’ can be entered from the front panel by selecting ‘System’ and then ‘Control Mode’ followed by ‘Terminal.
MM200 High-Speed Microwave Modem User Interfaces Figure 1. 1. Verify that your emulation software is set to the following: VT100 9600 baud 8 data bits no parity 1 stop bit Modify the MM200 selection, if necessary, to match the settings (the Front Panel ‘SYSTEM’ Sub-Menu contains all the Terminal Emulation Controls).
User Interfaces MM200 High-Speed Microwave Modem 4.15 SNMP Option 1. From the Main Menu, select ‘20’ for Network Configuration. Verify that Selection 30, SNMP Option is enabled. The MM200 SNMP Option is enabled at the factory if purchased by the user. Please contact the Radyne Inc. Customer Service Department if the SNMP feature is not available. 4.16 Network Configuration 4.17 Terminal Screens 1. The Network Configuration Screen is accessed from the MM200 Terminal top-level menu, selection #20.
MM200 High-Speed Microwave Modem User Interfaces Security Controls Screen: 1.Main Menu 2.Control Mode 3.Term Emulate 4.Term Baud : : : SETUP 5.TrapType : 6.PrimaryTrapHost : 7.SndaryTrapHost : 8.Trace Mode : 9.Community : TERMINAL 12.SNMP/Security VT 100 13.Logon 9600 14.Logoff STATUS VERSION2 192.168.0.25 192.168.0.
User Interfaces Security User MM200 High-Speed Microwave Modem Logon Password Authentication Password Viewer Viewer Viewer Oper–md5 Oper Oper Viewer–sha Viewer Viewer Oper-sha Oper Oper Privacy Password Initial Oper Oper Note: All entries are case sensitive 4.19 Exiting SNMP Configuration 1. Select the Main Menu by pressing ‘1’ followed by , to go back to the MM200 toplevel menu screen. 4.20 Logging On 1. The user must be logged on to have access to SNMP Features.
MM200 High-Speed Microwave Modem User Interfaces 2. In the New Password Text Box, enter the new password (case sensitive, only *’s appear for security). 3. Re-enter the new password to verify the desired setting. 4. Select OK 4.22 Logging Off 1. To log off the SNMP Configuration, press ‘14’ followed by . The following confirmation message will be displayed to avoid inadvertent exits: You will be logged off. Are you sure? (Y/N): 4.23 Changing Your Authentication Password 1.
User Interfaces MM200 High-Speed Microwave Modem 3. Re-enter the new password to verify desired setting. 4. Select OK 4.25 Modem MM200 High-Speed Microwave Modem Ethernet Address 1. The Modem MM200 High-Speed Microwave Modem Ethernet Address is configured at the factory. It is a unique Radyne Inc. equipment identifier. Example: 0010650903EB Do not modify the Ethernet Address. changed. Major problems may result if 4.26 Modem IP Address 1. Select 33, ‘Modem IP Addr’.
MM200 High-Speed Microwave Modem User Interfaces This section refers to the Boot Host. 1. Select 36, ‘Server Host Name’. Enter the Server Host Name and press . This is a descriptive entry only. Example: SERVER 4.30 Router IP Address Select 37, ‘Router IP Addr’. Enter the router Internet Address in dot notation and press . Please consult your network administrator for valid addresses. Example: 192.168.0.254 4.
User Interfaces MM200 High-Speed Microwave Modem 4.35 Trace Mode 1. For debugging purposes, a trace mode is specified by the Operator users for various diagnostic levels. 4.36 SNMP V1 & 2 Access View The default access rights for Version 1 and 2 SNMP users are minimal. They are limited to a system view, and a description of the MM200 System and Contact Information. For additional information go to View-Based Access Control Section).
MM200 High-Speed Microwave Modem User Interfaces Group Context/Community Security Level Read Access Write Access NULL mib2 NoAuth/noPriv System view NONE Viewer mib2 Auth/noPriv MIB-II view NONE Viewer Dev Auth/Priv Device view NONE Oper mib2 Auth/noPriv MIB-II view MIB-II view Oper Dev Auth/Priv Device view Device view The NULL Security Name is for backward compatibility with SNMP Version 1 and 2 management stations (security names are not defined for earlier protocols).
User Interfaces MM200 High-Speed Microwave Modem 4.42 Ping Program 1. PING is an application that uses the ICMP protocol to report if a host is responding. To check whether the MM200 modem is reachable, use the PING program installed on your computer along with the modem IP Address set in section 3.2.3. Example: ping 192.168.0.35 2. If everything is functioning correctly, replies from the modem will appear on the computer screen along with the time it took to respond.
MM200 High-Speed Microwave Modem User Interfaces 4.43 SNMP Test 1. Once it is determined that the MM200 is reachable, compile the custom Management Information Base (MIB) for use by the Network Management Station (NMS). The MIB uses a hierarchical naming scheme. Each managed object in the MM200 is identified by an Object Identifier (OID), a sequence of non-negative integers that uniquely describes the path taken through the hierarchical structure. 2.
User Interfaces 4-52 MM200 High-Speed Microwave Modem TM086 - Rev. 4.
MM200 High-Speed Microwave Modem Electrical Interfaces Electrical Interfaces 5 5.0 MM200 Connections All MM200 connections are made to labeled connectors, and to any optional interfaces installed in slots located on the rear of the unit. Any connection interfacing to the MM200 must be the appropriate mating connector. Refer to Figure 5-1 and Figures 5-3 through 5-6 for connector locations. Figure 5-1. MM200 Rear Panel Connector and Optional Interface Slots 5.1 Power 5.1.
Electrical Interfaces MM200 High-Speed Microwave Modem Refer to Table 5-1 below for pinouts for optional DC Power plug. Table 5-1. DC Power A - DC Input B Ground C + DC Input 5.2 Alarm Port The Alarm Connector (J1) is used to indicate the fault condition of the modulator to external equipment. This male 9-Pin D-Sub Connector provides connection to two form-c relays and an open collector output for mod and demod. The user can distinguish between modulator and demodulator alarms with the relays.
MM200 High-Speed Microwave Modem Electrical Interfaces 5.3 Terminal Port (I/O) The Terminal Port (J2) can be used for the monitor & control functions of the unit. The physical interface is a female 9-Pin D-Sub Connector. This bi-directional port complies with RS-232 Electrical Specifications. The pinouts are listed in Table 5-4a and 5-4b. S3 can be found on the M&C Card by removing the top cover. Table 5-4a. J2 - RS-232 Terminal Port - 9-Pin ‘D’ Female S3 – Switch 1 & 2 Off, Switch 3 & 4 On Pin No.
Electrical Interfaces MM200 High-Speed Microwave Modem 5.4.1 Remote Port Cabling for a Standard Computer RS-232 COM Port A cable with the following pin-outs is used for Remote Port Communications. Remote Port Cabling for a Standard Computer RS-232 COM Port - 9-Pin ‘D’ Male Computer End Pin No. Signal Modem End Pin No. 2 Tx (B) 6 3 Rx (B) 9 5 GND 5 If the MM200 does not have the option of changing from RS-232 to RS-422, an RS-232 to RS-422 Interface Converter is required.
MM200 High-Speed Microwave Modem Electrical Interfaces Female ‘D-Sub’ Male 6 +TX 1 +TX 8 -RX 13 -RX 6 -TX 6 -TX 9 +TX 3 +TX 5 GND 2 GND 7 to 12 +RX CLK to +TX CLK 1 +TX 1 +TX 9 -RX 13 -RX 8 to 11 -RX CLK to -TX CLK 8 +TX 3 +TX 7 to 12 +RX CLK to +TX CLK 8 to 11 -RX CLK to -TX CLK From the Overhead to the Remote Port of the Remote Modem (Cable B) 9-Pin ‘D-Sub’ 15-Pin HD 5.
Electrical Interfaces MM200 High-Speed Microwave Modem 5.9 Interface Slots 1 Through 4 Several Rear Panel Interfaces are available to slide into the base chassis to suit individual need. The Overhead/DS0 Audio Rear Panel Interface fits only in Interface Slot 1 (the upper left slot as viewed from the rear) and any combination of the following fit into any of the other three interface slots to suit the users need (Figure 5-1): High-Speed G.
MM200 High-Speed Microwave Modem Electrical Interfaces 5.11 Overhead/DS0 Audio Rear Panel Interface This rear panel interface (Figure 5-4) provides eight 64 Kbps DS0 interfaces or seven DS0 and one Audio Channels. Refer to Tables 5-6 and 5-7 for pin assignments. Figure 5-4. Overhead/DS0 Audio Rear Panel Interface Table 5-6.
Electrical Interfaces MM200 High-Speed Microwave Modem Table 5-7. Channels 2 – 8 (Female 15-pin HD ‘D-Sub’) DS0 Pin Signal Direction 1 RX_DS0 + Out 2 GND 3 TX_DS0 + In 4 REF_CLK + Out 5 N/C 6 RX_DS0 - Out 7 RX_CLK + Out 8 TX_CLK - In 9 REF_CLK - Out 10 N/C 11 RX_CLK - Out 12 TX_CLK + In 13 TX_DS0 - In 14 N/C 15 N/C 5.11.1 DS01 15-Pin Female HD ‘D’ Sub Connector (J7) Provides Channel 1 DS0 or Audio Interface. 5.11.
MM200 High-Speed Microwave Modem Electrical Interfaces 5.11.7 DS07 15-pin female HD ‘D’ sub connector (J13) Provides Channel 7 DS0 Interface. 5.11.8 DS08 15-pin female HD ‘D’ sub connector (J14) Provides Channel 8 DS0 Interface. 5.12 Optical/OC3 STM-1 Rear Panel Interface This rear panel interface (Figure 5-5) provides OC3 Optical or STM1 Electrical Interface. Figure 5-5. Optical/OC3 STM-1 Rear Panel Interface 5.12.1 ELEC OUT Female BNC Connector (J15) Provides STM1 Data Output from the receiver. 5.
Electrical Interfaces MM200 High-Speed Microwave Modem 5.13 ASI Rear Panel Interface This rear panel interface (Figure 5-6) provides Asynchronous Serial Interface (ASI). Figure 5-6. ASI Rear Panel Interface 5.13.1 ASI OUT Female BNC Connector (J15) Provides ASI Data Output from the receiver. 5.13.2 ASI IN Female BNC Connector (J16) Accepts ASI Input to be transmitted. 5.14 Wayside G.703/T1, E1 Rear Panel Interface This rear panel interface (Figure 5-7) provides T1 or E1 Data. Figure 5-7. Wayside G.
MM200 High-Speed Microwave Modem Electrical Interfaces 5.14.2 OUT Female BNC Connector (J16) Provides E1 Data Output from the receiver. 5.14.3 BALANCED 15-pin female ‘D’ sub connector Provides T1 Data Input and Output at the following pinouts: Table 5-8. Balanced 15 Pin Female ‘D’ Sub Connector Pin No. Signal Direction 1 SD-A In To Modem 9 SD-B In to Modem 3 RD-A Out From Modem 11 RD-B Out From Modem 2,4 GND Ground 5.14.4 CLK OUT (J17) Not Used 5.14.
Electrical Interfaces MM200 High-Speed Microwave Modem 5.15.1 PARALLEL TX 25-pin female ‘D’ sub connector (J15) Provides RS-422/LVDS DVB Demodulator Output. Table 5-9.
MM200 High-Speed Microwave Modem Electrical Interfaces 5.15.2 PARALLEL RX 25-pin female ‘D’ sub connector (J16) Accepts RS-422/LVDS DVB Modulator Input. Table 5-10.
Electrical Interfaces MM200 High-Speed Microwave Modem 5.16 Parallel LVDS/DVB, M2P This rear panel interface provides Parallel RS-422/LVDS M2P Data. 5.16.1 PARALLEL TX 25-pin female ‘D’ sub connector (J15) Provides RS-422/LVDS M2P Demodulator Output. Table 5-11.
MM200 High-Speed Microwave Modem Electrical Interfaces 5.16.2 PARALLEL RX 25-pin female ‘D’ sub connector (J16) Accepts RS-422/LVDS M2P Modulator Output. Table 5-11.
Electrical Interfaces MM200 High-Speed Microwave Modem 5.16.4 CLK IN Female BNC Connector (J18) Accepts the Reference Clock Input. 5.17 SMPTE/310M Rear Panel Interface This rear panel interface (Figure 5-9) provides SMPTE 310M Data. Figure 5-9. SMPTE/310M Rear Panel Interface 5.17.1 EXT CLK (J15) Not Used 5.17.2 SMPTE IN Female BNC Connector (J16) Accepts SMPTE 310M Data Input to be transmitted. 5.16.3 SMPTE OUT Female BNC Connector (J17) Provides SMPTE 310M Data Output from the receiver.
MM200 High-Speed Microwave Modem TM086 - Rev. 4.
MM200 High-Speed Microwave Modem Troubleshooting and Maintenance Maintenance and Troubleshooting 6 6.0 Periodic Maintenance The MM200 contains a Lithium Battery. DANGER OF EXPLOSION exists if the battery is incorrectly replaced. Replace only with the same or equivalent type recommended by the manufacturer. Dispose of used batteries in accordance with manufacturers instructions. The MM200 modulator requires no periodic field maintenance procedures.
Troubleshooting and Maintenance MM200 High-Speed Microwave Modem Note: If a terminal is available it is easier to view all these parameters on a terminal screen (SW Revisions 2.03 and above) See Section 4.7 for more information. 6.3 Troubleshooting Problem: Common Alarms “GLUE HW FPGA” or ”TEST HW FPGA.” Actions: Replace the M&C Mux Card. Problem: No demodulator lock Actions: 1. Check the SNR and AGC of the demodulators. The SNR should be 33.0 or higher and the AGC should be between 200 and 600. 2.
Troubleshooting and Maintenance 6-4 MM200 High-Speed Microwave Modem TM086 - Rev. 4.
MM200 High-Speed Microwave Modem Technical Specifications Technical Specifications 7 7.0 Introduction This section defines the technical performance parameters and specifications for the MM200 High-Speed Microwave Modem. 7.1 Specifications Total Data Rate Variable from 1 to 200 Mbps total in 1 bps steps Note Interface selection may limit maximum data rate.
Technical Specifications MM200 High-Speed Microwave Modem 7.3 Optional Data Interfaces G.703 T3, E3 or STS-1* DVB ASI (normal or advanced) RS-422 Parallel, DVB Parallel, M2P* LVDS Parallel, DVB Parallel, M2P* OC3 Optical, STM1/ STS3 Electrical* SMPTE Other interfaces available upon request Note: Up to 4 interfaces per chassis. Any combination can be installed and operated by front panel control. Only one interface can be configured for DVB framed data. 7.
Technical Specifications 7-2 MM200 High-Speed Microwave Modem TM086 - Rev. 4.
MM200 High-Speed Microwave Modem Appendix A Remote RLLP A When new features are added to Radyne equipment, the control parameters are appended to the end of the Non-Volatile Section of the Remote Communications Specification, and status of the features, if any, are added at the end of the Volatile Section. If a remote M&C queries two pieces of Radyne equipment with different revision software, they could respond with two different sized packets.
Appendix A MM200 High-Speed Microwave Modem configuration Query Mod Tx Enable 0x2054 Returns the carrier enable status Query Mod Tx Carrier 0x2055 Returns the carrier mode Query Mod Channel Status 0x2070 Query selected modulator channel status Query Mod Channel Configuration 0x2071 Query selected modulator channel configuration Query Mod Channel Config & Status 0x2072 Query selected mod channel config and status Query Mod Status 0x207D Query modulator status Query Mod Configuration 0x20
MM200 High-Speed Microwave Modem Appendix A Command Repeater Mode 0x220D Selects the repeater mode Command Mod Frequency 0x2240 Set modulator frequency Command Mod Data Rate 0x2241 Set modulator data rate Command Mod Symbol Rate 0x2242 Set modulator symbol rate Command Mod Modulation 0x2244 Set modulator modulation Command Mod Spectrum 0x2245 Set modulator spectrum Command Mod Alarm Mask 0x224E Set modulator alarm masks Command Mod PRBS 0x224F Set modulator PRBS Command Mod Tx Powe
Appendix A MM200 High-Speed Microwave Modem A.3 Detailed Command Descriptions Opcode: <0x2000> <1> Modem Device ID Opcode: <0x2001> <1> Query Response 0 = Local 1 = Terminal 2 = Computer 3 = Ethernet Query software revision number Revision Number Opcode: <0x2003> Query Response MM200 = 32 (0x20) Query current MM200 control mode Mode Opcode: <0x2002> <1> Query Identification Query Response Binary value with implied decimal point, 35 means release 3.
MM200 High-Speed Microwave Modem <1> Second Opcode: <0x2010> 0 – 59 Query current summary alarms Query Response Bit 0 = MM200 global summary fault, set when the MM200 is faulted Bit 1 = Modulator summary fault, set when the modulator is faulting Bit 2 = Demodulator summary fault, set when the demodulator is faulting Bits 3 - 7 = Spares <1> Modem Summary Fault <2> Mod Summary Fault Bit 0 = Modulator Fault Bit 1 = Modulator channel 1 fault Bit 2 = Modulator channel 2 fault Bit 3 = Modulator channel 3
Appendix A <2> MM200 High-Speed Microwave Modem Demod Summary Fault Opcode: <0x203E> Bit 0 = Demodulator Fault Bit 1 = Demodulator channel 1 fault Bit 2 = Demodulator channel 2 fault Bit 3 = Demodulator channel 3 fault Bit 4 = Demodulator channel 4 fault Bit 5 = Demodulator interface 1 fault Bit 6 = Demodulator interface 2 fault Bit 7 = Demodulator interface 3 fault Bit 8 = Demodulator interface 4 fault Bits 9 – 15 = Spares Query common configuration <1> Control Mode Query Response 0 = Local, 1 = T
MM200 High-Speed Microwave Modem Query Response 0 = channel1 1 = channel2 2 = channel3 3 = channel4 <1> Selected channel number <1> Channel Major Alarm Status 0 = Pass, 1 = Fail Bit 0 = Mod daughter board FPGA status Bit 1 = RF PLL lock detect status Bit 2 - 7 = Spare <1> Channel Minor Alarm Status 0 = Pass, 1 = Fail Bit 0 = Loop lock status Bit 1 = FEC lock status Bit 2 = FIFO full status Bit 3 = FIFO empty status Bit 4 = FIFO active status Bit 5 - 7 = Spare <1> Channel Latched Major Alarm Statu
Appendix A MM200 High-Speed Microwave Modem Query Response 0 = channel1 1 = channel2 2 = channel3 3 = channel4 <1> Selected channel number <1> Channel Major Alarm Mask 0 = Mask, 1 = Allow Bit 0 = Mod daughter board FPGA status Bit 1 = RF PLL lock detect status Bit 2 - 7 = Spare <1> Channel Minor Alarm Mask 0 = Mask, 1 = Allow Bit 0 = Loop lock status Bit 1 = FEC lock status Bit 2 = FIFO full status Bit 3 = FIFO empty status Bit 4 = FIFO active status Bit 5 - 7 = Spare Opcode: <0x2072> Query a se
MM200 High-Speed Microwave Modem <1> Channel Major Alarm Mask <1> Channel Minor Alarm Mask 0 = Mask, 1 = Allow Bit 0 = Mod daughter board FPGA status Bit 1 = RF PLL lock detect status Bit 2 - 7 = Spare 0 = Mask, 1 = Allow Bit 0 = Loop lock status Bit 1 = FEC lock status Bit 2 = FIFO full status Bit 3 = FIFO empty status Bit 4 = FIFO active status Bit 5 - 7 = Spare Status Bytes 0 = Pass, 1 = Fail Bit 0 = Mod daughter board FPGA status Bit 1 = RF PLL lock detect status Bit 2 - 7 = Spare <1> Channel Major
Appendix A MM200 High-Speed Microwave Modem Query Response 0 = Pass, 1 = Fail Bit 0 = Glue Logic FPGA Fail Bit 1 = Data FPGA Fail Bits 2 – 7 = Spare <1> Major Alarm1 Status <1> Major Alarm2 Status 0 = Pass, 1 = Fail Bits 0 - 7= Spare <1> Minor Alarm1 Status 0 = Pass, 1 = Fail Bit 0 = Tx clock activity detect Bit 1 = Tx data activity detect Bit 2 = Frame Lock Bits 3 – 7 = Spare <1> Minor Alarm2 Status 0 = Pass, 1 = Fail Bits 0 – 7 = Spare <1> Common Alarm1 Status 0 = Pass, 1 = Fail Bit 0 = Gl
MM200 High-Speed Microwave Modem Appendix A <2> Utilization % utilization, implied decimal point (i.e. 7985 means 79.
Appendix A MM200 High-Speed Microwave Modem Bit 3 – 7 = Spare <1> Minor Alarm2 Mask 0 = Mask, 1 = Allow Bit 0 – 7 = Spare <1> Common Alarm1 Mask 0 = Mask, 1 = Allow Bit 0 = Glue Logic FPGA Fail Bit 1 = Test FPGA Fail Bits 2 – 7 = Spare <1> Common Alarm2 Mask 0 = Mask, 1 = Allow Bit 0 – 7 = Spare <1> Control Mode 0 = local 1 = terminal 2 = computer 3 = Ethernet <1> PRBS 0 = normal 1 = prbs_23 2 = prbs_23m 3 = prbs_15 4 = prbs_15m <1> Last Rate Control 0 = symbol 1 = data 2 = auto <1> Use
MM200 High-Speed Microwave Modem Appendix A bytes to index into the selected channel status area. The nonvolatile data might grow with future firmware revisions. Refer to discussion on forward/backward compatibility.
Appendix A MM200 High-Speed Microwave Modem Bit 3 – 7 = Spare <1> Minor Alarm2 Mask 0 = Mask, 1 = Allow Bit 0 – 7 = Spare <1> Common Alarm1 Mask 0 = Mask, 1 = Allow Bit 0 = Glue Logic CPLD Fail Bit 1 = Test FPGA Fail Bits 2 – 7 = Spare <1> Common Alarm2 Mask 0 = Mask, 1 = Allow Bit 0 – 7 = Spare <1> Control Mode 0 = local 1 = terminal 2 = computer 3 = Ethernet <1> PRBS 0 = normal 1 = prbs_23 2 = prbs_23m 3 = prbs_15 4 = prbs_15m <1> Last Rate Control 0 = symbol 1 = data 2 = auto <1> Use
MM200 High-Speed Microwave Modem Appendix A <1> Minor Alarm1 Status 0 = Pass, 1 = Fail Bit 0 = Tx clock activity detect Bit 1 = Tx data activity detect Bit 2 = Frame Lock Bits 3 – 7= Spare <1> Minor Alarm2 Status 0 = Pass, 1 = Fail Bits 0 – 7 = Spare <1> Common Alarm1 Status 0 = Mask, 1 = Allow Bit 0 = Glue Logic FPGA Fail Bit 1 = Data FPGA Fail Bits 2 – 7 = Spare <1> Common Alarm2 Status 0 = Pass, 1 = Fail Bits 0 – 7 = Spare <1> Latched Major Alarm1 Status 0 = Pass, 1 = Fail Bit 0 = Glue Lo
Appendix A MM200 High-Speed Microwave Modem Query Response 0 = Unused, 1 = Channel A, 2 = Channel B, 3 = Null framer <1> Diversity Mux Status <1> Diversity FIFO A Status 0 = No flags, 1 = Empty, 2 = Full <1> Diversity FIFO B Status 0 = No flags, 1 = Empty, 2 = Full <1> Reserved Spare <2> Channel A Error Counter 0 – xxx, where xxx is the current error count <2> Channel B Error Counter 0 – xxx, where xxx is the current error count <2> Channel AB Error Counter 0 – xxx, where xxx is the cu
MM200 High-Speed Microwave Modem Appendix A Bit 3 = FIFO empty status Bit 4 = Sync lock status Bit 5 = FIFO reload status Bit 6 = FIFO pos status Bit 7 = Track fault status <4> Channel Baud Rate 7000000 - 200000000 <4> Channel Offset Frequency Binary value in Hz <4> Channel AGC Integrator AGC integrator <4> Channel SNR Signal-to-noise ratio, 00.00 - 99.
Appendix A MM200 High-Speed Microwave Modem Bit 7 = Track fault status Opcode: <0x20B2> Query a selected demodulator’s channel configuration and status <1> Selected channel number <1> Selected channel Number <1> Number of nonvol bytes* Command Data Field 1 Byte 0 = channel1 1 = channel2 2 = channel3 3 = channel4 Query Response 0 = channel1 1 = channel2 2 = channel3 3 = channel4 Number of nonvol bytes for selected channel * M&C developers MUST use this number of nonvolatile bytes to index into the
MM200 High-Speed Microwave Modem Appendix A Bit 3 = FIFO empty status Bit 4 = Sync lock status Bit 5 = FIFO reload status Bit 6 = FIFO pos status Bit 7 = Track fault status <1> Channel Latched Major Alarm Status 0 = Pass, 1 = Fail Bit 0 = Demod daughter board FPGA status Bit 1 = RF PLL lock detect status Bits 2 - 7 = Spare <1> Channel Latched Minor Alarm Status 0 = Pass, 1 = Fail Bit 0 = QAM lock status Bit 1 = FEC lock status Bit 2 = FIFO full status Bit 3 = FIFO empty status Bit 4 = Sync lock statu
Appendix A MM200 High-Speed Microwave Modem Status Bits 0 – 7 = Spare <1> Minor Alarm1 Status 0 = Pass, 1 = Fail Bits 0 – 7 = Spare <1> Minor Alarm2 Status 0 = Pass, 1 = Fail Bits 0 – 7 = Spare <1> Common Alarm1 Status 0 = M&C Mask, 1 = Allow Bit 0 = Glue Logic CPLD Fail Bit 1 = M&C Test FPGA Fail Bits 2 – 7 = Spare <1> Common Alarm2 Status 0 = Pass, 1 = Fail Bits 0 – 7 = Spare <1> Latched Major Alarm1 Status 0 = Pass, 1 = Fail Bit 0 = Glue Logic FPGA Fail Bit 1 = Data FPGA Fail Bit 2 = Si
MM200 High-Speed Microwave Modem <4> IF Frequency 50000000 - 90000000 <1> IF Separation 100 - 150% <1> Demodulation 0 = qam4 1 = qam16 2 = qam32 3 = qam64 4 = qam128 5 = qam256 <1> Spectrum 0 = normal, 1 = inverted <1> Channel Setting 0 = auto 1 = one 2 = two 3 = three 4 = four 5 = debug <1> Major Alarm1 Mask 0 = Mask, 1 = Allow Bit 0 = Glue Logic FPGA Fail Bit 1 = Data FPGA Fail Bit 2 = Signal Lock Detect Bit 3 = Sync Lock Detect Bit 4 = Deframer clock PLL lock detect Bit 5 = Diversity FP
Appendix A MM200 High-Speed Microwave Modem 3 = Level 2 <1> Acquisition Control 0 = Off, 1 = Acquire <2> Acquisition Bandwidth 50 – 400 kHz, 1 kHz steps <1> Acquisition Delay 10 – 255 sec, 1 sec steps <1> Acquisition Step 10 – 100 kHz, 1 kHz steps <1> Tracking Step 10 – 100 Hz, 1 Hz steps <1> Re-acquisition Delay 10 – 255 sec, 1 sec steps <1> APC Control Sets the APC receive control (Not Yet Implemented) <1> APC Hysteresis Sets the APC receive hysteresis level (Not Yet Implemented)
MM200 High-Speed Microwave Modem <1> Channel Setting 0 = auto 1 = one 2 = two 3 = three 4 = four <1> Major Alarm1 Mask 0 = Mask, 1 = Allow Bit 0 = Glue Logic FPGA Fail Bit 1 = Data FPGA Fail Bit 2 = Signal Lock Detect Bit 3 = Sync Lock Detect Bit 4 = Deframer clock PLL lock detect Bit 5 = Diversity FPGA fail Bits 6 – 7 = Spare <1> Major Alarm2 Mask 0 = Mask, 1 = Allow Bits 0 – 7 = Spare <1> Minor Alarm1 Mask 0 = Mask, 1 = Allow Bits 0 – 7 = Spare <1> Minor Alarm2 Mask 0 = Mask, 1 = Allow Bits
Appendix A MM200 High-Speed Microwave Modem <1> APC Control Sets the APC receive control (Not Yet Implemented) <1> APC Hysteresis Sets the APC receive hysteresis level (Not Yet Implemented) <4> APC Level <1> Major Alarm1 Status Sets the APC receive level in dBm (Not Yet Implemented) Status Bytes 0 = Pass, 1 = Fail Bit 0 = Glue Logic FPGA Fail Bit 1 = Data FPGA Fail Bit 2 = Signal Lock Detect Bit 3 = Sync Lock Detect Bit 4 = Deframer clock PLL lock detect Bit 5 = Diversity FPGA fail Bits 6 – 7 =
MM200 High-Speed Microwave Modem Appendix A Status <4> Max Payload Maximum payload at current demodulation <2> Utilization % utilization. Implied decimal point (i.e. 7985 means 79.85%) <4> Bandwidth Current bandwidth usage <2> Input Level Aggregate input level in dBm. Signed implied decimal point (i.e. –265 means –26.
Appendix A MM200 High-Speed Microwave Modem 5 = T1E1 6 = DSO 7 = PAR 8 = OC3 9 = HSSI 10 = SMPTE 11 = P10BaseT 12 = T2E2 <1> Reserved Opcode: <0x2141> Spare Query selected Tx interface configuration Command Data Field 1 Byte 0 = interface1 1 = interface2 2 = interface3 3 = interface4 Query Response 0 = interface1 1 = interface2 2 = interface3 3 = interface4 <1> Selected interface number <1> Selected interface number <4> Interface PID 0 - 8192 <4> Interface Data Rate 1000000 - 200000000 <1>
MM200 High-Speed Microwave Modem Appendix A 1 = MPEG 188 2 = MPEG 204 <1> Interface Volume 0 = 255 <1> Interface Clock Polarity 0 = normal 1 = inverted 2 = auto <1> Interface Data Polarity 0 = normal, 1 = inverted <1> Interface Baseband Loopback 0 = disable, 1 = enable <1> Reserved Spare <1> Interface PRBS 0 = normal 1 = prbs_23 2 = prbs_23m 3 = prbs_15 4 = prbs_15m (Not Yet Implemented) <1> Interface Major Alarm1 Mask 0 = Mask, 1 = Allow Bit 0 = Interface Test Bit 1 - 7 = Spare <1>
Appendix A MM200 High-Speed Microwave Modem bytes to index into the selected interface status area. The nonvolatile data might grow with future firmware revisions. Refer to discussion on forward/backward compatibility.
MM200 High-Speed Microwave Modem Appendix A <1> Reserved Spare <1> Interface PRBS 0 = normal 1 = prbs_23 2 = prbs_23m 3 = prbs_15 4 = prbs_15m (Not Yet Implemented) <1> Interface Major Alarm1 Mask 0 = Mask, 1 = Allow Bit 0 = Interface Test Bit 1 - 7 = Spare <1> Interface Minor Alarm1 Mask <1> Interface Major Alarm1 0 = Mask, 1 = Allow Bit 0 = Interface FIFO full Bit 1 = Interface FIFO empty Bit 2 = PLL lock Bit 3 = Interface data activity detect Bit 4 = Interface clock activity detect Bit 5 =
Appendix A MM200 High-Speed Microwave Modem 4 = T3E3 5 = T1E1 6 = DSO 7 = PAR 8 = OC3 9 = HSSI 10 = SMPTE 11 = P10BaseT 12 = T2E2 <1> Reserved Opcode: <0x2143> Spare Query selected Tx interface jitter control <1> Selected interface number <1> Selected interface number <1> Jitter Control Opcode: <0x2160> Command Data Field 1 Byte 0 = interface1 1 = interface2 2 = interface3 3 = interface4 Query Response 0 = interface1 1 = interface2 2 = interface3 3 = interface4 0 = Normal, 1 = Stamp2, 2 = Stamp
MM200 High-Speed Microwave Modem Minor Alarm1 Status Bit 0 = Interface FIFO full Bit 1 = Interface FIFO empty Bit 2 = PLL lock Bit 3 = Interface data activity detect Bit 4 = Interface clock activity detect Bit 5 - 7 = Spare <1> Interface Card 0 = None 1 = ASI/AASI 2 = ASIS 3 = NASI 4 = T3E3 5 = T1E1 6 = DSO 7 = PAR 8 = OC3 9 = HSSI 10 = SMPTE 11 = P10BaseT 12 = T2E2 <1> Reserved Spare Opcode: <0x2161> Query selected Rx interface configuration Command Data Field 1 Byte 0 = interface1 1 = interface2
Appendix A MM200 High-Speed Microwave Modem 14 = SMPTE19 15 = SMPTE 38 16 = P 10BaseT 17 = E2 UNBAL 18 = T2 UNBAL 19 = T2 BAL 20 = DS0 APC <1> Interface Sub Type Reserved, selects the Rx interface sub-type <1> Interface Clock Source 0 = Rx Clk 1 = Ext BNC 2 = Ext Bal 3 = Internal Clk <1> Interface Clock Frequency 0 = 2.048 MHz 1 = 5.0 MHz 2 = 10.
MM200 High-Speed Microwave Modem Appendix A Bit 5 - 7 = Spare Opcode: <0x2162> Query selected Rx interface configuration and status <1> Selected interface number <1> Selected interface number <1> Number of nonvol bytes* Command Data Field 1 Byte 0 = interface1 1 = interface2 2 = interface3 3 = interface4 Query Response 0 = interface1 1 = interface2 2 = interface3 3 = interface4 Number of nonvol bytes for selected interface * M&C developers MUST use this number of nonvolatile bytes to index into t
Appendix A MM200 High-Speed Microwave Modem 20 = DS0 APC <1> Reserved, selects the Rx interface sub-type Interface Sub Type <1> <1> Interface Clock Source 0 = Rx Clk 1 = Ext BNC 2 = Ext Bal 3 = Internal Clk Interface Clock Frequency 0 = 2.048 MHz 1 = 5.0 MHz 2 = 10.
MM200 High-Speed Microwave Modem Appendix A Bit 1 = Interface FIFO empty Bit 2 = PLL lock Bit 3 = Interface data activity detect Bit 4 = Interface clock activity detect Bit 5 - 7 = Spare <1> Interface Latched Major Alarm1 Status 0 = Pass, 1 = Fail Bit 0 = Interface Test Bit 1 - 7 = Spare <1> Interface Latched Minor Alarm1 Status 0 = Pass, 1 = Fail Bit 0 = Interface FIFO full Bit 1 = Interface FIFO empty Bit 2 = PLL lock Bit 3 = Interface data activity detect Bit 4 = Interface clock activity detect Bi
Appendix A MM200 High-Speed Microwave Modem <1> Selected interface number <1> Selected interface number <1> Byte Gap 0 = interface1 1 = interface2 2 = interface3 3 = interface4 Query Response 0 = interface1 1 = interface2 2 = interface3 3 = interface4 0 = Burst Mode, 1..
MM200 High-Speed Microwave Modem Opcode: <0x2208> Command set common alarm mask <1> Common Alarm1 Mask Command Data 0 = Mask, 1 = Allow Bit 0 = Glue Logic FPGA Fail Bit 1 = Test FPGA Fail Bits 2 – 7 = Spare <1> Common Alarm2 Mask 0 = Mask, 1 = Allow Bit 0 – 7 = Spare Opcode: <0x2209> <1> <1> <1> Command Data 0 = Auto, 1 = User Command user mode Command Data 0 = Reserved 1 = All Access 2 = Level 1 3 = Level 2 Note: Higher user levels restrict access to system control parameters but allow higher
Appendix A Opcode: <0x2242> <4> Command Data 3500000 - 28000000 Command modulator modulation Command Data 0 = qam4 1 = qam16 2 = qam32 3 = qam64 4 = qam128 5 = qam256 Modulation Opcode: <0x2245> <1> Command modulator symbol rate Symbol Rate Opcode: <0x2244> <1> MM200 High-Speed Microwave Modem Command modulator spectrum Command Data 0 = normal, 1 = inverted Spectrum Opcode: <0x224E> Command modulator alarm mask <1> Major Alarm1 Mask Command Data 0 = Mask, 1 = Allow Bit 0 = Glue Logic FPGA Fai
MM200 High-Speed Microwave Modem Opcode: <0x2255> <1> <1> Command Data 0 = normal 1 = CW 2 = offset 1Hz 3 = 100KHz 4 = 3.
Appendix A MM200 High-Speed Microwave Modem Bit 2 - 7 = Spare <1> Channel Minor Alarm Mask Opcode: <0x2271> 0 = Mask, 1 = Allow Bit 0 = Loop lock status Bit 1 = FEC lock status Bit 2 = FIFO full status Bit 3 = FIFO empty status Bit 4 = FIFO active status Bit 5 - 7 = Spare Command selected Tx interface configuration <1> Selected interface number Command Data 0 = interface1 1 = interface2 2 = interface3 3 = interface4 <4> Interface PID 0 - 8192 <4> Interface Data Rate 1000000 - 200000000 <1>
MM200 High-Speed Microwave Modem Appendix A <1> Interface Data Polarity 0 = normal, 1 = inverted <1> Interface Baseband Loopback 0 = disable, 1 = enable <1> Reserved Spare <1> Interface PRBS 0 = normal 1 = prbs_23 2 = prbs_23m 3 = prbs_15 4 = prbs_15m (Not Yet Implemented) <1> Interface Major Alarm1 Mask 0 = Mask, 1 = Allow Bit 0 = Interface Test Bit 1 - 7 = Spare <1> Interface Minor Alarm1 Mask 0 = Mask, 1 = Allow Bit 0 = Interface FIFO full Bit 1 = Interface FIFO empty Bit 2 = PLL lock
Appendix A <1> Demodulation Opcode: <0x2285> <1> <1> Major Alarm1 Mask <1> Major Alarm2 Mask <1> Command Data 0 = normal, 1 = inverted Command demodulator alarm mask Command Data 0 = Mask, 1 = Allow Bit 0 = Glue Logic FPGA Fail Bit 1 = Data FPGA Fail Bit 2 = Signal Lock Detect Bit 3 = Sync Lock Detect Bit 4 = Deframer clock PLL lock detect Bit 5 = Diversity FPGA fail Bits 6 – 7 = Spare 0 = Mask, 1 = Allow Bits 0 – 7 = Spare 0 = Mask, 1 = Allow Bits 0 – 7 = Spare Minor Alarm2 Mask 0 = Mask, 1 = Al
MM200 High-Speed Microwave Modem Opcode: <0x229B> <4> Command demodulator bandwidth Command Data Available bandwidth Note: Command is only allowed in Level 2 User Mode. Along with the selected interfaces, and the number of channels, the modem calculates all relevant system parameters optimizing for robustness (minimizing modulation).
Appendix A MM200 High-Speed Microwave Modem Bit 4 = Sync lock status Bit 5 = FIFO reload Status Bit 6 = FIFO pos status Bit 7 = Track fault status Opcode: <0x22B1> Command selected Rx interface configuration <1> Selected interface number Command Data 0 = interface1 1 = interface2 2 = interface3 3 = interface4 <4> Interface PID 0 - 8192 <4> Interface Data Rate 1000000 - 200000000 <1> Interface Control 0 = Disable, 1 = Enable <1> Interface Type 0 = ASI 1 = AASI 2 = T3 DS3 3 = E3 4 = STS1 5
MM200 High-Speed Microwave Modem Framing 1 = MPEG 188 2 = MPEG 204 3 = Null 188 4 = Null 204 <1> Interface Volume 0 - 255 <1> Interface Clock Polarity 0 = normal 1 = inverted <1> Interface Data Polarity 0 = normal, 1 = inverted <1> Reserved Spare <1> Interface Terrestrial Loopback 0 = disable, 1 = enable <1> Interface PRBS 0 = normal 1 = prbs_23 2 = prbs_23m 3 = prbs_15 4 = prbs_15m (Not Yet Implemented) <1> Interface Major Alarm1 Mask 0 = Mask, 1 = Allow Bit 0 = Interface Test Bit 1
Appendix A MM200 High-Speed Microwave Modem 3 = interface4 <1> A-46 Byte Gap 0 = Burst Mode, 1..255 = Byte Gap TM086 – Rev. 4.
MM200 High-Speed Microwave Modem TM086 – Rev. 4.
MM200 High-Speed Microwave Modem Appendix B SNMP MIB B MM200-MIB DEFINITIONS ::= BEGIN IMPORTS enterprises FROM RFC1155-SMI MODULE-IDENTITY, OBJECT-TYPE FROM SNMPv2-SMI; mm200 MODULE-IDENTITY LAST-UPDATED "200611011000Z" ORGANIZATION "Radyne Inc. Inc." CONTACT-INFO "Customer Service Postal: Radyne, Inc. - Phoenix. 3138 E. Elwood Street Phoenix, AZ 85034 USA Tel: (602) 437-9620 Fax: (602) 437-4811 Email: radyne-custservice@radn.com" DESCRIPTION "Radyne MM200 MIB module.
Appendix B MM200 High-Speed Microwave Modem -- -------------------------------------------------------------------------------------------------------------------- Textual Conventions ControlType ::= TEXTUAL-CONVENTION STATUS current DESCRIPTION "Represents a boolean control value." SYNTAX INTEGER { disable(1), enable(2) } InversionType ::= TEXTUAL-CONVENTION STATUS current DESCRIPTION "Represents a boolean inversion value.
MM200 High-Speed Microwave Modem Appendix B DESCRIPTION "Selects IF user 2 frequency in Hz." ::= { radMM200ModNVStatus 5 } radMM200TxIFUser3Frequency OBJECT-TYPE SYNTAX INTEGER (50000000..90000000) MAX-ACCESS read-write STATUS current DESCRIPTION "Selects IF user 3 frequency in Hz." ::= { radMM200ModNVStatus 6 } radMM200TxIFUser4Frequency OBJECT-TYPE SYNTAX INTEGER (50000000..90000000) MAX-ACCESS read-write STATUS current DESCRIPTION "Selects IF user 4 frequency in Hz.
Appendix B MM200 High-Speed Microwave Modem DESCRIPTION "Inverts the direction of rotation for the modulation." ::= { radMM200ModNVStatus 12 } radMM200TxCarrierMode OBJECT-TYPE SYNTAX INTEGER { normal(1), cw(2), offset1hz(3), khz100(4), mhz35(5), sweepUp(6), sweepDown(7) } MAX-ACCESS read-write STATUS current DESCRIPTION "Normal sets the carrier to normal CW causes the modulator to output pure carrier Offset 1Hz 100 KHz 3.
MM200 High-Speed Microwave Modem Appendix B DESCRIPTION "Minor Alarm 1 mask: Bit 0 = Tx clock activity detect Bit 1 = Tx data activity detect Bit 2 = Frame lock Bit 3 = Spare Bit 4 = Spare Bit 5 = Spare Bit 6 = Spare Bit 7 = Spare 0 = Mask, 1 = Allow" ::= { radMM200ModNVStatus 17 } radMM200TxMinorAlarm2Mask OBJECT-TYPE SYNTAX AlarmByteType MAX-ACCESS read-write STATUS current DESCRIPTION "Minor Alarm 2 mask: Bit 0..
Appendix B MM200 High-Speed Microwave Modem radMM200TxMinorAlarm1Status OBJECT-TYPE SYNTAX AlarmByteType MAX-ACCESS read-only STATUS current DESCRIPTION "A bit field.
MM200 High-Speed Microwave Modem Appendix B Bit 7 = Spare 0 = Pass, 1 = Fail" ::= { radMM200ModStatus 7 } radMM200TxLatchedMinorAlarm2Status OBJECT-TYPE SYNTAX AlarmByteType MAX-ACCESS read-only STATUS current DESCRIPTION "A bit field. On startup, the agent initializes this to the value '00000000'B. Bit 0..
Appendix B MM200 High-Speed Microwave Modem "MM200 Tx channel non-volatile status structure" INDEX { radMM200TxChannelNVIndex } ::= { radMM200TxChannelNVStatusTable 1 } RadMM200TxChannelNVStatusEntry ::= SEQUENCE { radMM200TxChannelNVIndex INTEGER, radMM200TxChannelMajorAlarmMask INTEGER, radMM200TxChannelMinorAlarmMask INTEGER } radMM200TxChannelNVIndex OBJECT-TYPE SYNTAX INTEGER (1..4) MAX-ACCESS read-only STATUS current DESCRIPTION "Index into the MM200 Tx channel non-volatile table.
MM200 High-Speed Microwave Modem Appendix B RadMM200TxChannelStatusEntry ::= SEQUENCE { radMM200TxChannelIndex INTEGER, radMM200TxChannelMajorAlarmStatus INTEGER, radMM200TxChannelMinorAlarmStatus INTEGER, radMM200TxChannelLatchedMajorAlarmStatus INTEGER, radMM200TxChannelLatchedMinorAlarmStatus INTEGER, radMM200TxChannelBaudRate INTEGER, radMM200TxChannelBaudState INTEGER } radMM200TxChannelIndex OBJECT-TYPE SYNTAX INTEGER (1..
Appendix B MM200 High-Speed Microwave Modem Bit 3 = FIFO empty status Bit 4 = FIFO active Bit 5-7 = Spares 0 = PASS, 1 = FAIL" ::= { radMM200TxChannelStatusEntry 5 } radMM200TxChannelBaudRate OBJECT-TYPE SYNTAX INTEGER (7000000..
MM200 High-Speed Microwave Modem Appendix B radMM200TxInterfaceMajorAlarmMask INTEGER, radMM200TxInterfaceMinorAlarmMask INTEGER, radMM200TxInterfaceJitterControl INTEGER } radMM200TxInterfaceNVIndex OBJECT-TYPE SYNTAX INTEGER (1..4) MAX-ACCESS read-only STATUS current DESCRIPTION "Index into the MM200 Tx interface on-volatile table." ::= { radMM200TxInterfaceNVStatusEntry 1 } radMM200TxInterfacePID OBJECT-TYPE SYNTAX INTEGER (0..
Appendix B MM200 High-Speed Microwave Modem smpt19(15) smpt38(16) } MAX-ACCESS read-write STATUS current DESCRIPTION "Selects the Tx interface type." ::= { radMM200TxInterfaceNVStatusEntry 5 } radMM200TxInterfaceSubType OBJECT-TYPE SYNTAX INTEGER { spare(1) } MAX-ACCESS read-write STATUS current DESCRIPTION "Selects the Tx interface sub-type.
MM200 High-Speed Microwave Modem Appendix B ::= { radMM200TxInterfaceNVStatusEntry 11 } radMM200TxInterfacePRBS OBJECT-TYPE SYNTAX INTEGER { normal(1), ones(2), pat001(3), prbs2047(4) } MAX-ACCESS read-write STATUS current DESCRIPTION "Selects the pseudo-random bit sequence for Tx interface link testing. Not yet implemented.
Appendix B MM200 High-Speed Microwave Modem radMM200TxInterfaceStatusEntry OBJECT-TYPE SYNTAX RadMM200TxInterfaceStatusEntry MAX-ACCESS not-accessible STATUS current DESCRIPTION "MM200 Tx interface volatile status structure" INDEX { radMM200TxInterfaceIndex } ::= { radMM200TxInterfaceStatusTable 1 } RadMM200TxInterfaceStatusEntry ::= SEQUENCE { radMM200TxInterfaceIndex INTEGER, radMM200TxInterfaceMajorAlarmStatus INTEGER, radMM200TxInterfaceMinorAlarmStatus INTEGER, radMM200TxInterfaceLatchedMajorAlarmSta
MM200 High-Speed Microwave Modem Appendix B radMM200TxInterfaceLatchedMinorAlarmStatus OBJECT-TYPE SYNTAX AlarmByteType MAX-ACCESS read-only STATUS current DESCRIPTION "Minor Alarm status: Bit 0 = Interface FIFO full Bit 1 = Interface FIFO empty Bit 2 = Interface PLL lock Bit 3 = Interface data activity detect Bit 4 = Interface clock activity detect Bit 5 = Interface Tx input framing valid, added for AASI Bit 6 = Interface signal loss, valid for some interfaces Bit 7 = Spares 0 = Pass, 1 = Fail" ::= { rad
Appendix B MM200 High-Speed Microwave Modem radMM200RxIFUser3Frequency OBJECT-TYPE SYNTAX INTEGER (50000000..90000000) MAX-ACCESS read-write STATUS current DESCRIPTION "Selects IF user 3 frequency in Hz." ::= { radMM200DemodNVStatus 4 } radMM200RxIFUser4Frequency OBJECT-TYPE SYNTAX INTEGER (50000000..90000000) MAX-ACCESS read-write STATUS current DESCRIPTION "Selects IF user 4 frequency in Hz." ::= { radMM200DemodNVStatus 5 } radMM200RxIFSeperation OBJECT-TYPE SYNTAX INTEGER (100..
MM200 High-Speed Microwave Modem Appendix B ::= { radMM200DemodNVStatus 10 } radMM200RxChannelSetting OBJECT-TYPE SYNTAX INTEGER { auto(1), oneChannel(2), twoChannel(3), threeChannel(4), fourChannel(5) } MAX-ACCESS read-write STATUS current DESCRIPTION "Selects the total number of channels in the MM200. Automatic selection allows the MM200 to use the maximum number of channels.
Appendix B MM200 High-Speed Microwave Modem 0 = Mask, 1 = Allow" ::= { radMM200DemodNVStatus 15 } radMM200RxAcquisitionControl OBJECT-TYPE SYNTAX INTEGER { off(1), acquire(2) } MAX-ACCESS read-write STATUS current DESCRIPTION "Enables acquisition and tracking." ::= { radMM200DemodNVStatus 16 } radMM200RxAcquisitionBandwidth OBJECT-TYPE SYNTAX INTEGER (50..400) MAX-ACCESS read-write STATUS current DESCRIPTION "Sets the +/- acquisition range in KHz, 1 KHz steps.
MM200 High-Speed Microwave Modem Appendix B "Major Alarm 1 status. The agent initializes this to the value '00000000'B Bit 0 = Glue logic FPGA status Bit 1 = Data FPGA status Bit 2 = Signal lock detect Bit 3 = Sync lock detect Bit 4 = Data PLL lock detect Bit 5-7 = Spares 0 = Pass, 1 = Fail" ::= { radMM200DemodStatus 1 } radMM200RxMajorAlarm2Status OBJECT-TYPE SYNTAX AlarmByteType MAX-ACCESS read-only STATUS current DESCRIPTION "Major Alarm 2 status.
Appendix B MM200 High-Speed Microwave Modem radMM200RxLatchedMajorAlarm2Status OBJECT-TYPE SYNTAX AlarmByteType MAX-ACCESS read-only STATUS current DESCRIPTION "A bit field. On startup, the agent initializes this to the value '00000000'B. Bit 0..7 = Spares 0 = Pass, 1 = Fail" ::= { radMM200DemodStatus 6 } radMM200RxLatchedMinorAlarm1Status OBJECT-TYPE SYNTAX AlarmByteType MAX-ACCESS read-only STATUS current DESCRIPTION "A bit field. On startup, the agent initializes this to the value '00000000'B.
MM200 High-Speed Microwave Modem Appendix B MAX-ACCESS read-only STATUS current DESCRIPTION "Aggregate input level in dBm. Signed implied decimal point. (i.e. -265 mean -26.5dBm)" ::= { radMM200DemodStatus 12 } -- --------------------------------------------------------------------------------------------------------------------- --------------------------------------------------------------------------------------------------------------------- MM200 demodulator channel non-volatile status information.
Appendix B MM200 High-Speed Microwave Modem Bit 5 = FIFO reload Bit 6 = FIFO active Bit 7 = Track fault 0 = Mask, 1 = Allow" ::= { radMM200RxChannelNVStatusEntry 3 } -- --------------------------------------------------------------------------------------------------------------------- --------------------------------------------------------------------------------------------------------------------- MM200 demodulator channel status information.
MM200 High-Speed Microwave Modem Appendix B DESCRIPTION "Minor Alarm status: Bit 0 = QAM lock status Bit 1 = FEC lock status Bit 2 = FIFO full status Bit 3 = FIFO empty status Bit 4 = Sync lock status Bit 5 = FIFO reload Bit 6 = FIFO active Bit 7 = Track fault 0 = PASS, 1 = FAIL" ::= { radMM200RxChannelStatusEntry 3 } radMM200RxChannelLatchedMajorAlarmStatus OBJECT-TYPE SYNTAX AlarmByteType MAX-ACCESS read-only STATUS current DESCRIPTION "Major Alarm status: Bit 0 = Mod daughter board FPGA status Bit 1 =
Appendix B MM200 High-Speed Microwave Modem radMM200RxChannelSNR OBJECT-TYPE SYNTAX INTEGER (0..100) MAX-ACCESS read-only STATUS current DESCRIPTION "Channel SNR, signal to noise ratio." ::= { radMM200RxChannelStatusEntry 9 } radMM200RxChannelCBA OBJECT-TYPE SYNTAX INTEGER (0..65536) MAX-ACCESS read-only STATUS current DESCRIPTION "Channel CBA, correctable block accumulator." ::= { radMM200RxChannelStatusEntry 10 } radMM200RxChannelUBA OBJECT-TYPE SYNTAX INTEGER (0..
MM200 High-Speed Microwave Modem Appendix B radMM200RxInterfaceDataInvert INTEGER, radMM200RxInterfaceTerrestrialLoopback INTEGER, radMM200RxInterfacePRBS INTEGER, radMM200RxInterfaceMajorAlarmMask INTEGER, radMM200RxInterfaceMinorAlarmMask INTEGER, radMM200RxInterfaceJitterControl INTEGER, radMM200RxInterfaceByteGapping INTEGER } radMM200RxInterfaceNVIndex OBJECT-TYPE SYNTAX INTEGER (1..4) MAX-ACCESS read-only STATUS current DESCRIPTION "Index into the MM200 Rx interface on-volatile table.
Appendix B MM200 High-Speed Microwave Modem parallelDVB(10), parallelM2P(11), oc3(12), stm1(13), hssi(14), smpt19(15) smpt38(16) } MAX-ACCESS read-write STATUS current DESCRIPTION "Selects the Rx interface type." ::= { radMM200RxInterfaceNVStatusEntry 5 } radMM200RxInterfaceSubType OBJECT-TYPE SYNTAX INTEGER { spare(1), } MAX-ACCESS read-write STATUS current DESCRIPTION "Selects the Rx interface sub-type.
MM200 High-Speed Microwave Modem Appendix B MAX-ACCESS read-write STATUS current DESCRIPTION "Sets the volume on the audio channel on the DS0 interfaces" ::= { radMM200RxInterfaceNVStatusEntry 10 } radMM200RxInterfaceClockPolarity OBJECT-TYPE SYNTAX INTEGER { normal(1), inverted(2), } MAX-ACCESS read-write STATUS current DESCRIPTION "Selects clock polarity for Tx terrestrial clock relative to Tx data.
Appendix B MM200 High-Speed Microwave Modem Bit 0 = Interface FIFO full Bit 1 = Interface FIFO empty Bit 2 = Interface PLL lock Bit 3 = Interface data activity detect Bit 4 = Interface clock activity detect Bit 5 = Interface Tx input framing valid, added for AASI Bit 6 = Interface signal loss, valid for some interfaces Bit 7 = Spare 0 = Mask, 1 = Allow" ::= { radMM200RxInterfaceNVStatusEntry 16 } radMM200RxInterfaceJitterControl OBJECT-TYPE SYNTAX INTEGER { inch(1), slow(2), medium(3), fast(4), stamp2(5),
MM200 High-Speed Microwave Modem Appendix B MAX-ACCESS read-only STATUS current DESCRIPTION "Index into the MM200 Rx interface volatile table.
Appendix B MM200 High-Speed Microwave Modem t3e3(4), t1e1(5), ds0(6), parallel(7), oc3(8), hssi(9), smpte(10) } MAX-ACCESS STATUS current DESCRIPTION read-only "Interface card type." ::= { radMM200RxInterfaceStatusEntry 6 } -- --------------------------------------------------------------------------------------------------------------------- --------------------------------------------------------------------------------------------------------------------- MM200 common non-volatile status information.
MM200 High-Speed Microwave Modem Appendix B radMM200CommonAlarm1Mask OBJECT-TYPE SYNTAX AlarmByteType MAX-ACCESS read-write STATUS current DESCRIPTION "Common Alarm 1 mask: Bit 0 = Glue logic FPGA status Bit 1 = Test FPGA status Bit 2-7 = Spares 0 = Mask, 1 = Allow" ::= { radMM200CommonNVStatus 5 } radMM200CommonAlarm2Mask OBJECT-TYPE SYNTAX AlarmByteType MAX-ACCESS read-write STATUS current DESCRIPTION "Common Alarm 2 mask: Bit 0..
Appendix B MM200 High-Speed Microwave Modem radMM200CommonLatchedAlarm1Status OBJECT-TYPE SYNTAX AlarmByteType MAX-ACCESS read-only STATUS current DESCRIPTION "A bit field. On startup, the agent initializes this to the value '00000000'B Bit 0 = Glue logic FPGA status Bit 1 = Test FPGA status Bit 2-7 = Spares 0 = Pass, 1 = Fail" ::= { radMM200CommonStatus 3 } radMM200CommonLatchedAlarm2Status OBJECT-TYPE SYNTAX AlarmByteType MAX-ACCESS read-only STATUS current DESCRIPTION "A bit field.
MM200 High-Speed Microwave Modem Appendix B STATUS current DESCRIPTION "Demodulator minor alarm trap." ::= { radMM200MIBTrapPrefix 6 } radMM200CommonAlarmTrap NOTIFICATION-TYPE STATUS current DESCRIPTION "Common alarm trap.
Appendix B MM200 High-Speed Microwave Modem "Modulator channel non-volatile status group." ::= { mm200Groups 3 } mm200ModChannelStatusGroup OBJECT-GROUP OBJECTS { radMM200TxChannelIndex, radMM200TxChannelMajorAlarmStatus, radMM200TxChannelMinorAlarmStatus, radMM200TxChannelLatchedMajorAlarmStatus, radMM200TxChannelLatchedMinorAlarmStatus, radMM200TxChannelBaudRate, radMM200TxChannelBaudState } STATUS current DESCRIPTION "Modulator channel volatile status group.
MM200 High-Speed Microwave Modem Appendix B radMM200RxMinorAlarm2Mask } STATUS current DESCRIPTION "Demodulator non-volatile status group.
Appendix B MM200 High-Speed Microwave Modem radMM200RxInterfaceDataInvert, radMM200RxInterfaceTerrestrialLoopback, radMM200RxInterfacePRBS, radMM200RxInterfaceMajorAlarmMask, radMM200RxInterfaceMinorAlarmMask, radMM200RxInterfaceJitterControl, radMM200RxInterfaceByteGapping } STATUS current DESCRIPTION "Demodulator interface non-volatile status group.
MM200 High-Speed Microwave Modem Appendix B } STATUS current DESCRIPTION "Modulator traps group." ::= { mm200Groups 16 } mm200DemodNotificationsGroup NOTIFICATION-GROUP NOTIFICATIONS { radMM200DemodMajorAlarmTrap, radMM200DemodMinorAlarmTrap, radMM200CommonAlarmTrap } STATUS current DESCRIPTION "Demodulator traps group." ::= { mm200Groups 17 } END TM086 – Rev 4.
Appendix B B-38 MM200 High-Speed Microwave Modem TM086 – Rev. 4.
MM200 High-Speed Microwave Modem Glossary Glossary G A A Ampere AC Alternating Current ADC Analog to Digital Converter AGC Automatic Gain Control AIS Alarm Indication System. A signal comprised of all binary 1s.
Glossary MM200 High-Speed Microwave Modem D DAC Digital to Analog Converter dB Decibels dBc Decibels Referred to Carrier dBm Decibels Referred to 1.0 milliwatt DC Direct Current DCE Data Communications Equipment Demod Demodulator or Demodulated DPLL Digital Phase Locked Loop DTE Data Terminal Equipment DVB Digital Video Broadcast D&I Drop and Insert E Eb/N0 Ratio of Energy per bit to Noise Power Density in a 1 Hz Bandwidth.
MM200 High-Speed Microwave Modem Glossary H HSSI High Speed Serial Interface HW Hardware Hz Hertz (Unit of Frequency) I IBS Intelsat Business Services IDR Intermediate Data Rate I/O Input/Output IEEE International Electrical and Electronic Engineers IESS INTELSAT Earth Station Standards IF Intermediate Frequency INTELSAT International Telecommunication Satellite Organization ISO International Standards Organization J J Joule K Kbps Kilobits per Second Kbps Kilobytes per Second
Glossary MM200 High-Speed Microwave Modem N NC Normally Closed NO Normally Open ns Nanoseconds NVRAM Non-Volatile Random Access Memory N/C No Connection or Not Connected O OQPSK Offset Quadrature Phase Shift Keying P PC Personal Computer PLL Phase Locked Loop ppb Parts per Billion ppm Parts per Million P/N Part Number Q QAM Quadrature Amplitude Modulation QPSK Quadrature Phase Shift Keying R RAM Random Access Memory RF Radio Frequency ROM Read Only Memory rms Root Mean Squ
MM200 High-Speed Microwave Modem Glossary T TBD To Be Designed or To Be Determined TM Technical Manual TPC Turbo Product Codes TRE Trellis Tx Transmit (Transmitter) TxD Transmit Data U UART Universal Asynchronous Receiver/Transmitter UUT Unit Under Test V V Volts VAC Volts, Alternating Current VCO Voltage Controlled Oscillator VDC Volts, Direct Current VIT Viterbi Decoding WXYZ W Watt Misc.
Glossary G-6 MM200 High-Speed Microwave Modem TM086 – Rev. 4.