codan c-band & ku-band if transceiver systems

Codan C-Band & Ku-Band IF Codan C-Band & Ku-Band IF Transceiver SystemsTransceiver Systems

HiSeasNet Training CourseSIO, August 2009

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C-Band & Ku-Band Transceiver C-Band & Ku-Band Transceiver SystemsSystems

OverviewOverview• The C-Band Systems are labelled the 5700 series. The Ku-Band Systems are labelled the 5900 The C-Band Systems are labelled the 5700 series. The Ku-Band Systems are labelled the 5900

series.series.

• Both C-Band & Ku-Band systems have four major components. Theses components are:Both C-Band & Ku-Band systems have four major components. Theses components are:• Power SupplyPower Supply• Converter ModuleConverter Module• Solid State Power Amplifier (SSPA)Solid State Power Amplifier (SSPA)• LNA (C-Band) or LNB (Ku-Band)LNA (C-Band) or LNB (Ku-Band)

• Power SupplyPower Supply – Receives AC power from the ship and converts it to 48 VDC to power the – Receives AC power from the ship and converts it to 48 VDC to power the Converter Converter & SSPA modules. The AC input is switch selectable for either 220 VAC or 110 VAC& SSPA modules. The AC input is switch selectable for either 220 VAC or 110 VAC

• Converter ModuleConverter Module - The Converter Module performs multiple functions. - The Converter Module performs multiple functions. 1. It provides the interfaces between the below decks equipment (modem & DAC) and the SSPA.1. It provides the interfaces between the below decks equipment (modem & DAC) and the SSPA. 2. Power levels, attenuation levels, and frequencies are programmed in this module using either 2. Power levels, attenuation levels, and frequencies are programmed in this module using either a a PC or hand held controller. PC or hand held controller. 3. It controls the SSPA functions and displays fault conditions.3. It controls the SSPA functions and displays fault conditions. 4. It performs the frequency up conversion from 70 MHz to either C-Band or Ku-Band and the 4. It performs the frequency up conversion from 70 MHz to either C-Band or Ku-Band and the down conversion from C-Band or Ku-Band to 70 MHzdown conversion from C-Band or Ku-Band to 70 MHz

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• Solid State Power Amplifier (SSPA)Solid State Power Amplifier (SSPA) – – The SSPA receives DC power The SSPA receives DC power and the and the Transmit input frequency (C-Band or Ku-Transmit input frequency (C-Band or Ku-Band) from the Band) from the Converter module. Also, any fault Converter module. Also, any fault conditions will be relayed conditions will be relayed to the Converter where it to the Converter where it will be displayed on the front will be displayed on the front panel window.panel window.

• LNA & LNBLNA & LNB – – Provides the C-Band (LNA) or Ku-Band (LNB) signal to the Provides the C-Band (LNA) or Ku-Band (LNB) signal to the Converter module for down conversion to 70 MHz.Converter module for down conversion to 70 MHz.

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Serial CommunicationsSerial CommunicationsMonitor & ControlMonitor & Control

• The Converter module is configured in two different ways. They The Converter module is configured in two different ways. They are:are:

1. Remotely by connecting a PC running HyperTerminal and 1. Remotely by connecting a PC running HyperTerminal and using the Seatel using the Seatel Supplied cable. Supplied cable.

2. Directly connecting the PC to the Converter using the 2. Directly connecting the PC to the Converter using the supplied Codan cable.supplied Codan cable.

• The Hyper Terminal setup communication parameters are:The Hyper Terminal setup communication parameters are:9600 baud, 8 data bits, 1 stop bit , no parity, no hardware 9600 baud, 8 data bits, 1 stop bit , no parity, no hardware

control, no flow control, no flow controlcontrol

• The remote connection is established using the available connector The remote connection is established using the available connector (labeled “RS232”) on the interconnect cable at the back of the DAC. This (labeled “RS232”) on the interconnect cable at the back of the DAC. This cable is supplied by Seatelcable is supplied by Seatel

• The direct connection is established using the supplied Codan cable that The direct connection is established using the supplied Codan cable that is normally located with the Spare Parts Kit. is normally located with the Spare Parts Kit.

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• Typical Block Diagram for both C-Band & Ku-Band Transceiver Typical Block Diagram for both C-Band & Ku-Band Transceiver SystemsSystems

C-Band orKu-Band

SSPA

FeedAss'y

AntennaConverterModule

CodanPowerSupply

AC Powerfrom ship

LNAor

LNB

TX RF

RX RFand

DC power

Modem

70 MHz

PC or Controllerfor M&C

48 VDC

RS232Communications

TX RF

DC Powerand

Control

RX RF

3-waysplitterDAC

test equip

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Transceiver Connections - Front Transceiver Connections - Front PanelPanel

For Both the C-Band & Ku-Band Systems the Converter For Both the C-Band & Ku-Band Systems the Converter Modules have the same Front Panel Connections. These Modules have the same Front Panel Connections. These connections include:connections include:

RX IF Output (70 MHz signal to modem)RX IF Output (70 MHz signal to modem)

TX IF Input (70 MHz signal from modem)TX IF Input (70 MHz signal from modem)

Monitor & Control ConnectorMonitor & Control Connector

DC Power Input from Codan Power supplyDC Power Input from Codan Power supply

Control Panel shows status for Power, SSPA state, and Fault Control Panel shows status for Power, SSPA state, and Fault conditionsconditions

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Transceiver ConnectionsTransceiver ConnectionsC-Band Rear PanelC-Band Rear Panel

• The C-Band & Ku-Band Systems Converter The C-Band & Ku-Band Systems Converter Modules have similar Rear Panel Connections. Modules have similar Rear Panel Connections. These connections include:These connections include:

• TX RF Output – Upconverted C-Band or Ku-Band TX RF Output – Upconverted C-Band or Ku-Band signal sent to SSPAsignal sent to SSPA

• RX RF Input Signal - LNA (C-Band) or LNB (Ku-RX RF Input Signal - LNA (C-Band) or LNB (Ku-Band)Band)

• SSPA DC voltage and control signals to amplifierSSPA DC voltage and control signals to amplifier

• *C-Band Converter units have an LNA DC/Alarm *C-Band Converter units have an LNA DC/Alarm connector. The Ku-Band Converters do not.connector. The Ku-Band Converters do not.

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Transceiver ConnectionsTransceiver ConnectionsKu-Band Rear PanelKu-Band Rear Panel

• The C-Band & Ku-Band Systems Converter Modules The C-Band & Ku-Band Systems Converter Modules have similar Rear Panel Connections. These have similar Rear Panel Connections. These connections include:connections include:

• TX RF Output - C-Band or Ku-Band signal sent to SSPATX RF Output - C-Band or Ku-Band signal sent to SSPA

• RX RF Input Signal - LNA (C-Band or LNB Ku-Band)RX RF Input Signal - LNA (C-Band or LNB Ku-Band)

• SSPA DC voltage and control signals to amplifierSSPA DC voltage and control signals to amplifier

• *Ku-Band Converters have a separate RX L-Band *Ku-Band Converters have a separate RX L-Band output. The C-Band Converters do not.output. The C-Band Converters do not.

• The RX L-Band Output is used mainly in combined The RX L-Band Output is used mainly in combined Transmit/Receive & TVRO systems. This is the full Transmit/Receive & TVRO systems. This is the full 500 MHz receive band of the satellite500 MHz receive band of the satellite

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Transceiver ConnectionsTransceiver ConnectionsFront Panel WindowFront Panel Window

POWER OFF / STANDBY / ON switchPOWER OFF / STANDBY / ON switchWhen in STANDBY, only the reference When in STANDBY, only the reference oscillator and M&C sections operate. The oscillator and M&C sections operate. The 5700 or 5900 converter can be turned ON 5700 or 5900 converter can be turned ON by the control-panel switch, a serial data by the control-panel switch, a serial data command or a remote contact closure.command or a remote contact closure.

• SSPA - INHIBIT / REMOTE / ACTIVATESSPA - INHIBIT / REMOTE / ACTIVATEThe Control Panel switch allows local The Control Panel switch allows local activation or de-activation of the SSPA for activation or de-activation of the SSPA for maintenance, and for re-setting alarms. maintenance, and for re-setting alarms. Remote control is also possible by serial Remote control is also possible by serial data command or a dry-contact closuredata command or a dry-contact closure

• The highlighted switch positions The highlighted switch positions correspond to: RS232 interface, ASCII correspond to: RS232 interface, ASCII protocol, 9600 bits/sec.,8 data bits, no protocol, 9600 bits/sec.,8 data bits, no parity. parity.

• The TERM and PACKET ADDRESS switch The TERM and PACKET ADDRESS switch settings are not relevant.settings are not relevant.

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LNA & LNB SpecificationsLNA & LNB Specifications• Frequency rangeFrequency range

C-Band - LNAC-Band - LNA 3.400 - 4.200 GHz3.400 - 4.200 GHz

Ku-Band - LNBKu-Band - LNB Band 1Band 110.95 - 11.70 GHz 10.95 - 11.70 GHz Band 2Band 211.70 - 12.20 GHz* 11.70 - 12.20 GHz*

Band 3Band 312.25 - 12.75 GHz 12.25 - 12.75 GHz

• GainGainC-Band LNAC-Band LNA 60 dB60 dBKu-Band LNB Ku-Band LNB 60 dB60 dB

• Noise temperatureNoise temperatureC-Band C-Band 50 K max50 K maxKu-BandKu-Band 75 K max75 K max

Note: Band 2, 11.70-12.20 GHz is the frequency band used by the Note: Band 2, 11.70-12.20 GHz is the frequency band used by the HiSeasNet ships operating at Ku-Band on Satmex 5HiSeasNet ships operating at Ku-Band on Satmex 5

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Frequency ConversionsFrequency Conversions• For both the C-Band (5700) and Ku-Band (5900) Systems:For both the C-Band (5700) and Ku-Band (5900) Systems:

The Converter module accepts 70 MHz input from the SCPC modem (Transmit Path) which The Converter module accepts 70 MHz input from the SCPC modem (Transmit Path) which it it up converts to C-Band or Ku-Band frequencies and sends to the SSPA.up converts to C-Band or Ku-Band frequencies and sends to the SSPA.

The Converter module receives the C-Band or Ku-Band input from the LNA or LNB and The Converter module receives the C-Band or Ku-Band input from the LNA or LNB and down down converts them to 70 MHz then sends them to the SCPC Modem.converts them to 70 MHz then sends them to the SCPC Modem.

The Local Oscillator (LO) for both C-Band and Ku-Band Converters is not a fixed The Local Oscillator (LO) for both C-Band and Ku-Band Converters is not a fixed frequency. It can be adjusted, and is selected in consideration with the satellite RF band to frequency. It can be adjusted, and is selected in consideration with the satellite RF band to be be covered and the frequency range of the modem.covered and the frequency range of the modem.

This means that the programmed frequency of the Converter is set to the Center This means that the programmed frequency of the Converter is set to the Center Frequency of Frequency of the specified satellite transponder. This Center Frequency, combined the specified satellite transponder. This Center Frequency, combined with the frequency range with the frequency range of the modem (+/- 18 MHz) allows the modem to be tuned to of the modem (+/- 18 MHz) allows the modem to be tuned to a specific frequency within each a specific frequency within each 36 MHz satellite transponder.36 MHz satellite transponder.

The satellite transponder Center Frequency equals the SCPC modem Center Frequency of The satellite transponder Center Frequency equals the SCPC modem Center Frequency of 70 70 MHz.MHz.

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Frequency Conversion Examples - Frequency Conversion Examples - Transmit Transmit • The following example is based on a HiSeasNet Vessel operating on the Atlantic The following example is based on a HiSeasNet Vessel operating on the Atlantic

Ocean Region satelliteOcean Region satellite

6315.545 MHZ = Required Transmit RF Frequency as specified by satellite owner6315.545 MHZ = Required Transmit RF Frequency as specified by satellite owner6320.000 MHz = Satellite Transponder Center Frequency – Supplied by 6320.000 MHz = Satellite Transponder Center Frequency – Supplied by HiSeasNet HiSeasNet Technical Team. Technical Team.

Satellite Transponder Center Frequency = Modem Center Frequency of 70 Satellite Transponder Center Frequency = Modem Center Frequency of 70 MHzMHz

ANDANDDifference between Transponder Center Freq +/- Assigned Freq = Difference between Transponder Center Freq +/- Assigned Freq =

Difference between Modem 70 MHz +/- actual required modem Difference between Modem 70 MHz +/- actual required modem frequencyfrequency

Step 1. 6320.000 – 6315.545 = 4.455 MHz below modem Center FrequencyStep 1. 6320.000 – 6315.545 = 4.455 MHz below modem Center FrequencyStep 2. 70.000 MHz – 4.455 MHz = 65.545 Required Modem Transmit IF Step 2. 70.000 MHz – 4.455 MHz = 65.545 Required Modem Transmit IF frequencyfrequency

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Frequency Conversion Examples - Frequency Conversion Examples - ReceiveReceive

• The following example is based on a HiSeasNet Vessel operating on the Atlantic The following example is based on a HiSeasNet Vessel operating on the Atlantic Ocean Region satelliteOcean Region satellite

Satellite TX Frequency - Satellite Frequency Translation = Satellite RX Satellite TX Frequency - Satellite Frequency Translation = Satellite RX FrequencyFrequency

6320.000 MHz - 2225 MHz = 4095 MHz6320.000 MHz - 2225 MHz = 4095 MHz

4090.8525 MHZ Required Receive RF Frequency as specified by satellite 4090.8525 MHZ Required Receive RF Frequency as specified by satellite owner/operatorowner/operator4095.0000 MHz Satellite Transponder Center Frequency – Supplied by HiSeasNet 4095.0000 MHz Satellite Transponder Center Frequency – Supplied by HiSeasNet Technical Team.Technical Team.

Step 1. 4095.000 – 4090.8525 = 4.1475 MHz below modem Center FrequencyStep 1. 4095.000 – 4090.8525 = 4.1475 MHz below modem Center FrequencyStep 2. 70.000 MHz – 4.1475 MHz = 65.8525 Required Modem Transmit IF Step 2. 70.000 MHz – 4.1475 MHz = 65.8525 Required Modem Transmit IF frequencyfrequency

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Codan 5700 C-Band CommandsCodan 5700 C-Band Commands• 5700 Converter Commands5700 Converter Commands> VPS> VPS----------------------Parameter Settings--------------------------------------------Parameter Settings----------------------System Command: On System Command: On Tx Freq: 5850 Atten: 0Tx Freq: 5850 Atten: 0SSPA Activate: On SSPA Activate: On Rx Freq: 3625 Atten: 0Rx Freq: 3625 Atten: 0SSPA Inhibit: Off SSPA Inhibit: Off Cable Comp: 0Cable Comp: 0Echo: On Echo: On Impedance: 50Impedance: 50Ref. Override: On Ref. Override: On IF Freq : 70IF Freq : 70SSPA Mode: Extended SSPA Mode: Extended Faults: LNA - EnableFaults: LNA - EnableSSPA Comp Type: 5720-40 SSPA Comp Type: 5720-40 FAN - EnableFAN - EnableConv Comp Type: 5700AVG Conv Comp Type: 5700AVG SSPA - EnableSSPA - EnablePacket protocol: Codan Packet protocol: Codan Packet addr: 0 (00H)Packet addr: 0 (00H)Power Up: Last StatePower Up: Last State---------------------------------------------------------------------------------------------------------------------------- For actual transceiver status use VSS commandFor actual transceiver status use VSS command----------------------------------------------------------------------------------------------------------------------------> HLP> HLPGeneral Help (this Display) General Help (this Display) > HLP> HLPControl Commands Control Commands > HCC> HCCSet Log Commands Set Log Commands > HLC> HLCSet Fault enable Commands Set Fault enable Commands > HFC> HFCSet Parameter Commands Set Parameter Commands > HPC> HPCView Commands View Commands > HVC> HVCOutput Commands Output Commands > HOC> HOC> HCC> HCCSystem On System On > SSOn n ==> > SSOn n ==> 0 - Standby 1 - On0 - Standby 1 - OnSSPA Activate SSPA Activate > SPAn n ==> > SPAn n ==> 0 - Off 1 - On0 - Off 1 - OnSSPA Inhibit SSPA Inhibit > SPIn n ==> > SPIn n ==> 0 - Off 1 - On0 - Off 1 - OnReset Change Bits Reset Change Bits > RCB> RCBReset Reset > RST> RST

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Codan 5700 C-Band CommandsCodan 5700 C-Band Commands> HFC> HFC

Set LNA Fault Enable Set LNA Fault Enable > SLEn n ==> > SLEn n ==> 0 - Disabled ; 1 - Enabled0 - Disabled ; 1 - EnabledSet SSPA Fault Enable Set SSPA Fault Enable > SPEn n ==> > SPEn n ==> 0 - Disabled ; 1 - Enabled0 - Disabled ; 1 - EnabledSet Fan Fault Enable Set Fan Fault Enable > SFEn n ==> > SFEn n ==> 0 - Disabled ; 1 – Enabled0 - Disabled ; 1 – Enabled

> HPC> HPCSet echo Set echo > SECn n ==> SECn n == > 0 - Off ; 1 - On> 0 - Off ; 1 - OnSet Ref Override Set Ref Override > SROn n ==> SROn n == > 0 - Off ; 1 - On> 0 - Off ; 1 - OnSet Impedance Set Impedance > SIMn n ==> SIMn n == > 0 - 50 ; 1 - 75> 0 - 50 ; 1 - 75Set IF Frequency Set IF Frequency > SIFn n ==> SIFn n == > 0 - 70 ; 1 - 140> 0 - 70 ; 1 - 140Set Conv Comp Type Set Conv Comp Type > SCTn n ==> SCTn n == > 0 - Standard; 1 - Custom> 0 - Standard; 1 - Custom

Set SSPA Comp Type > SPTn n ==Set SSPA Comp Type > SPTn n == > 0 - Off> 0 - Off 1-3 - Custom 1-31-3 - Custom 1-3 4 - 5705 - 5W4 - 5705 - 5W 5 - 5710 - 10W5 - 5710 - 10W 6 - 5720-40 - 6 - 5720-40 -

20W/30W/40W 20W/30W/40W

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Codan 5700 C-Band CommandsCodan 5700 C-Band CommandsSet SSPA Mode Set SSPA Mode > SPMn n ==> > SPMn n ==> 0 - Extended ; 1 - Basic0 - Extended ; 1 - BasicSet Tx Frequency Set Tx Frequency > STFnnnn > STFnnnn 5850 <=nnnn<= 64255850 <=nnnn<= 6425Set Rx Frequency Set Rx Frequency > SRFnnnn > SRFnnnn 3625 <=nnnn<= 42003625 <=nnnn<= 4200Set Tx Attenuation Set Tx Attenuation > STAnn > STAnn 0 <=nn<= 250 <=nn<= 25Set Rx Attenuation Set Rx Attenuation > SRAnn > SRAnn 0 <=nn<= 300 <=nn<= 30Set Cable Compensation Set Cable Compensation > SCCnn > SCCnn 0 <=nn<= 15 (Disabled)0 <=nn<= 15 (Disabled)Set Address Range Set Address Range > SARn n ==> > SARn n ==> 0 - 0 to 310 - 0 to 31 1 - 32 to 631 - 32 to 63 2 - 64 to 952 - 64 to 95 3 - 96 to 1273 - 96 to 127Set Packet Protocol Set Packet Protocol > SPPn n ==> > SPPn n ==> 0 - Codan0 - Codan 1-3 - Mode 1-31-3 - Mode 1-3Set Power Up Set Power Up > SPUn n ==> > SPUn n ==> 0 - Last State ; 1 - 0 - Last State ; 1 -

Transmit OffTransmit Off

> HVC> HVCView Faults Status View Faults Status > VFS> VFSView Parameter Settings View Parameter Settings > VPS> VPSView Control Status View Control Status > VCS> VCSView System Status View System Status > VSS> VSSView Lock Status View Lock Status > VLS> VLSView Identify information View Identify information > VID> VIDView Table Data View Table Data > VTD> VTDView System Temperature View System Temperature > VST> VST

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Codan 5700 C-Band CommandsCodan 5700 C-Band Commands> HOC> HOC

Output System On Output System On > OSO > OSO Output Identification > OIDOutput Identification > OIDOutput SSPA Activate Output SSPA Activate > OPA > OPA Output Echo Output Echo > OEC> OECOutput SSPA Inhibit Output SSPA Inhibit > OPI > OPI Output Ref. Override Output Ref. Override > ORO> OROOutput Conv Comp Type Output Conv Comp Type > OCT > OCT Output Temperature Conv Output Temperature Conv > OTC> OTCOutput SSPA Comp Type Output SSPA Comp Type > OPT > OPT Output Temperature SSPA Output Temperature SSPA > OTP> OTPOutput LNA Fault Enable Output LNA Fault Enable > OLE > OLE Output Fault Status Output Fault Status > OFS> OFSOutput Fan Fault Enable Output Fan Fault Enable > OFE > OFE Output Control Status Output Control Status > OCS> OCSOutput SSPA Fault Enable Output SSPA Fault Enable > OPE > OPE Output System Status Output System Status > OSS> OSSOutput SSPA Mode Output SSPA Mode > OPM > OPM Output Lock Status Output Lock Status > OLS> OLSOutput Transmit Frequency Output Transmit Frequency > OTF > OTF Output Transmit Attenuator Output Transmit Attenuator > OTA> OTAOutput Receive Frequency Output Receive Frequency > ORF > ORF Output Receive Attenuator Output Receive Attenuator > ORA> ORAOutput Cable Compensation Output Cable Compensation > OCC > OCC Output Fault Logging Output Fault Logging > OFL> OFLOutput Impedance Output Impedance > OIM > OIM Output Status Logging Output Status Logging > OSL> OSLOutput IF Frequency Output IF Frequency > OIF > OIF Output Lock status Logging Output Lock status Logging > OLL> OLLOutput Address Output Address > OAD > OAD Output Temperature Logging Output Temperature Logging > OTL> OTLOutput Address Range Output Address Range > OAR > OAR Output Packet Protocol Output Packet Protocol > OPP> OPPOutput Identity Data Output Identity Data > OTD > OTD Output Configuration Data Output Configuration Data > ODP> ODPOutput Status Poll Output Status Poll > OSP > OSP Output Device Type Output Device Type > ODT> ODTOutput Frequency Data Output Frequency Data > OFD > OFD Output Compensation Data Output Compensation Data > OCD> OCDOutput Conv Serial No. Output Conv Serial No. > OCN > OCN Output Power Up Output Power Up > OPU> OPU

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Codan 5900 C-Band CommandsCodan 5900 C-Band Commands

>HLP>HLPGeneral Help (this Display) General Help (this Display) > HLP> HLPSet Control Commands Set Control Commands > HCC> HCCSet Main Parameter Commands Set Main Parameter Commands > HPM> HPMSet Auxiliary Parameter Commands Set Auxiliary Parameter Commands > HPA> HPASet Log Parameter Commands Set Log Parameter Commands > HPL > HPLView Commands View Commands > HVC> HVCOutput Parameter Commands Output Parameter Commands > HOP> HOPOutput Data Commands Output Data Commands > HOD> HOD

>HCC>HCCSystem On System On > SSOn n ==> > SSOn n ==> 0 - Standby 1 - On0 - Standby 1 - OnSSPA Activate SSPA Activate > SPAn n ==> > SPAn n ==> 0 - Off 1 - On0 - Off 1 - OnSSPA Inhibit SSPA Inhibit > SPIn n ==> > SPIn n ==> 0 - Off 1 - On0 - Off 1 - OnReset Change Bits Reset Change Bits > RCB> RCBReset Reset > RST> RST

>HPM>HPMSet Tx Frequency > STFnnnnn 14000 <=nnnnn<= 14500 MHzSet Tx Frequency > STFnnnnn 14000 <=nnnnn<= 14500 MHzSet Rx Frequency > SRFnnnnn 10950 <=nnnnn<= 11700 MHzSet Rx Frequency > SRFnnnnn 10950 <=nnnnn<= 11700 MHzSet Tx Attenuation > STAnn 0 <=nn<= 25Set Tx Attenuation > STAnn 0 <=nn<= 25Set Rx Attenuation > SRAnn 0 <=nn<= 25Set Rx Attenuation > SRAnn 0 <=nn<= 25

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>HPA>HPA

Set Receive Range Set Receive Range > SRRn n ==>> SRRn n ==> 0 - 950 to 1700 MHz0 - 950 to 1700 MHz 1 - 10950 to 11700 MHz1 - 10950 to 11700 MHz 2 - 11700 to 12200 MHz2 - 11700 to 12200 MHz 3 - 12250 to 12750 MHz3 - 12250 to 12750 MHzSet SSPA Mode Set SSPA Mode > SPMn n ==> > SPMn n ==> 0 - Extended ; 1 - Basic0 - Extended ; 1 - BasicSet Reference Override Set Reference Override > SROn n ==> > SROn n ==> 0 - Off ; 1 - On0 - Off ; 1 - OnSet Cable Compensation Set Cable Compensation > SCCnn > SCCnn 0 <=nn<= 15 (Disabled)0 <=nn<= 15 (Disabled)Set IF Frequency Set IF Frequency > SIFn n ==> > SIFn n ==> 0 - 70 ; 1 - 1400 - 70 ; 1 - 140Set Impedance Set Impedance > SIMn n ==> > SIMn n ==> 0 - 50 ; 1 - 750 - 50 ; 1 - 75Set LNB Fault Enable Set LNB Fault Enable > SLEn n ==> > SLEn n ==> 0 - Disabled ; 1 - Enabled0 - Disabled ; 1 - EnabledSet SSPA Fault Enable Set SSPA Fault Enable > SPEn n ==> > SPEn n ==> 0 - Disabled ; 1 - Enabled0 - Disabled ; 1 - EnabledSet O/P Fault Enable Set O/P Fault Enable > STEn n ==> > STEn n ==> 0 - Disabled ; 1 - Enabled0 - Disabled ; 1 - EnabledSet Conv Comp Type Set Conv Comp Type > SCTn n ==> > SCTn n ==> 0 - Standard ; 1 - Custom0 - Standard ; 1 - CustomSet SSPA Comp Type Set SSPA Comp Type > SPTn n ==> > SPTn n ==> 0 - Off; 1 - 59xx Std; 2 - Custom0 - Off; 1 - 59xx Std; 2 - CustomSet SSPA Detector Type Set SSPA Detector Type > SPDn n ==> > SPDn n ==> 0 - 59xx Std ; 1 - Custom0 - 59xx Std ; 1 - CustomSet Output Threshold Set Output Threshold > SOTnn > SOTnn 20 <=nn<= 5520 <=nn<= 55Set echo Set echo > SECn n ==> > SECn n ==> 0 - Off ; 1 - On0 - Off ; 1 - OnSet Packet Protocol Set Packet Protocol > SPPn n ==> > SPPn n ==> 0 - Codan ; 1-3 - Mode 1-30 - Codan ; 1-3 - Mode 1-3Set Address Range Set Address Range > SARn n ==> > SARn n ==> 0 - 0 to 31 ; 1 - 32 to 63 ; 2 - 64 to 0 - 0 to 31 ; 1 - 32 to 63 ; 2 - 64 to

95 ; 3 - 96 to 12795 ; 3 - 96 to 127Set Power Up Set Power Up > SPUn n ==> > SPUn n ==> 0 - Last State ; 1 - Transmit Off0 - Last State ; 1 - Transmit Off

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• >HPL>HPL

• Set Fault Logging Set Fault Logging > SFLn n ==> > SFLn n ==> 0 - Disabled ; 1 - Enabled0 - Disabled ; 1 - Enabled• Set Status Logging Set Status Logging > SSLn n ==> > SSLn n ==> 0 - Disabled ; 1 - Enabled0 - Disabled ; 1 - Enabled• Set Lock status Logging Set Lock status Logging > SLLn n ==> > SLLn n ==> 0 - Disabled ; 1 - Enabled0 - Disabled ; 1 - Enabled• Set Temperature Logging Set Temperature Logging > STLn n ==> > STLn n ==> 0 - Disabled ; 1 - Enabled0 - Disabled ; 1 - Enabled• Set Power Logging Set Power Logging > SPLn n ==> > SPLn n ==> 0 - Disabled ; 1 – Enabled0 - Disabled ; 1 – Enabled

• >HVC>HVC• View Faults Status > VFS View Faults Status > VFS View Identity Converter View Identity Converter > >

VIDVID• View Parameter Settings > VPS View Parameter Settings > VPS View Identity SSPA View Identity SSPA > >

VIPVIP• View Control Status > VCS View Control Status > VCS View Table Data View Table Data > >

VTDVTD• View System Status > VSS View System Status > VSS View System Temperature View System Temperature > >

VSTVST• View Lock Status > VLS View Lock Status > VLS View Max/Min Temperatures View Max/Min Temperatures > >

VMTVMT• View SSPA Faults > VPFView SSPA Faults > VPF

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>HOP>HOP

Output SystemnOutput Systemn > OSO > OSO Output SSPA Activate > OPAOutput SSPA Activate > OPAOutput Reference Override > ORO Output Reference Override > ORO Output SSPA Inhibit > OPIOutput SSPA Inhibit > OPIOutput Transmit Frequency > OTF Output Transmit Frequency > OTF Output Transmit Attenuator > OTAOutput Transmit Attenuator > OTAOutput Receive FrequencyOutput Receive Frequency > ORF > ORF Output Receive Attenuator > ORAOutput Receive Attenuator > ORAOutput SSPA ModeOutput SSPA Mode > OPM > OPM Output Receive Range > ORROutput Receive Range > ORROutput Conv Comp Type > OCT Output Conv Comp Type > OCT Output LNB Fault Enable > OLEOutput LNB Fault Enable > OLEOutput SSPA Comp Type > OPT Output SSPA Comp Type > OPT Output SSPA Fault Enable > OPEOutput SSPA Fault Enable > OPEOutput SSPA Detector > OPD Output SSPA Detector > OPD Output O/P Fault Enable > OTEOutput O/P Fault Enable > OTEOutput O/P Threshold > OOT Output O/P Threshold > OOT Output Fault Logging Output Fault Logging > OFL > OFLOutput Cable Compensation > OCC Output Cable Compensation > OCC Output Status Logging Output Status Logging > OSL > OSLOutput IF Frequency > OIF Output IF Frequency > OIF Output Lock status Logging > OLLOutput Lock status Logging > OLLOutput Impedance > OIM Output Impedance > OIM Output Temperature Logging > OTLOutput Temperature Logging > OTLOutput Packet Protocol > OPLOutput Packet Protocol > OPL Output O/P Power Logging Output O/P Power Logging > OPL > OPL Output Address > OAD Output Address > OAD Output Echo > OECOutput Echo > OECOutput Address Range > OAR Output Address Range > OAR Output Configuration Data > ODPOutput Configuration Data > ODPOutput Identity Data > OTD Output Identity Data > OTD Output SSPA Band > OFPOutput SSPA Band > OFPOutput Power Up > OPUOutput Power Up > OPU

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>HOD>HOD

Output Temperature Conv Output Temperature Conv > OTC > OTC Output Max/Min Conv TempsOutput Max/Min Conv Temps > OMC> OMCOutput Temperature SSPA Output Temperature SSPA > OTP > OTP Output Max/Min SSPA TempsOutput Max/Min SSPA Temps > OMP> OMPOutput SSPA O/P Power Output SSPA O/P Power > OPO > OPO Output Identity Conv Output Identity Conv > OID> OIDOutput SSPA Compensation Output SSPA Compensation > OPC > OPC Output Identity SSPA Output Identity SSPA > OIP> OIPOutput Fault Status Output Fault Status > OFS > OFS Output Device Type Output Device Type > ODT> ODTOutput Control Status Output Control Status > OCS > OCS Output Frequency Data Output Frequency Data > OFD> OFDOutput System Status Output System Status > OSS > OSS Output Comp/Detector Data Output Comp/Detector Data > OCD> OCDOutput Lock Status Output Lock Status > OLS > OLS Output Conv Serial No. Output Conv Serial No. > OCN> OCNOutput SSPA Faults Output SSPA Faults > OPF > OPF Output SSPA Serial No. Output SSPA Serial No. > >

OPNOPNOutput Status Poll Output Status Poll > OSP> OSP

codan c-band & ku-band if transceiver systems

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