anacom anasat -c series c-band transceiver operating manual

. Rev 07

ANACOM

Standard CIntelsat Extended — EC

INSAT — XCRussian — RCPALAPA — PC

ANASAT®-C SeriesC-Band TransceiverOperating Manual

ANACOM

Standard CIntelsat Extended—EC

INSAT—XCRussian —RCPALAPA—PC

ANASAT®-C SeriesC-Band TransceiverOperating Manual

The information furnished by AnaCom, Incorporated, in this publication is believed to be accurate and reliable.However, no responsibility is assumed by AnaCom for its use, nor any infringements of patents or other rightsof third parties resulting from its use. No license is granted by implication or otherwise under any patent orpatent right of AnaCom, Inc. AnaCom reserves the right to change circuitry and specifications at any timewithout prior notice.The following terms are trademarks of their respective holders:AnaSat AnaCom, Inc.PolyswitchTeflonDuroidVT52, VT100 Digital Equipment Corp.INTELSAT

ANACOM Inc.1506 Dell Avenue

Campbell CA 95008Tel: (408) 379-7482Fax: (408) 379-7483

You have just received a AnaSat®-C Transceiver, a cost-effective product withno compromise on quality and reliability. This product should provide tirelessperformance in any reasonable operating environment.

We, at ANACOM, have taken great care to provide a convenient, easy-to-useproduct in a single package. Our powerful Monitor and Control enables you toset transmit and receive frequencies and gains and monitor numerous majorand minor operational parameters using a “dumb terminal” interface. There’sno need to worry about available voltages; the internal universal power supplycan automatically accommodate virtually all AC voltage possibilities.

Should a situation arise beyond the operator’s control, just give us atelephone call. Many situations can be diagnosed and solved by ANACOM’strained customer-service personnel over the phone line using a modemconnected to the transceiver.

If you have any questions, require technical assistance or training, or areinterested in our optional Windows©-based Supervisor software please callANACOM directly at (408) 379-7482 or FAX to us at (408) 379-7483.

ANACOM 3072307

ANACOM ANASAT®–C Transceiver iii

Operating Manualfor the

ANASAT®-C-Series

C-Band Transceiver

Table of ContentsSubject PageSection 1. Product Introduction and Specifications ................................1-1Typical Operating Parameters.......................................................................1-2

Section 2. InstallationUnpacking .....................................................................................................2-1Packing List ...................................................................................................2-1Safety Precautions ........................................................................................2-2Site Considerations .......................................................................................2-2Transceiver Mounting Considerations ...........................................................2-3Grounding .....................................................................................................2-3Cable and Waveguide Connections ..............................................................2-4Water Resistance Wrap ................................................................................2-5

Section 3. OperationPreliminary Steps ..........................................................................................3-1M & C Operation ...........................................................................................3-2Gain Adjustments ..........................................................................................3-4Configuring the ANASAT®-C Via Hardware ...................................................3-5Quick Start Guide ..........................................................................................3-6

ANACOM 3072307

iv ANACOM ANASAT®–C Transceiver

Subject PageSection 4. Theory of OperationSignal Path ....................................................................................................4-1Control & Power Systems .............................................................................4-1Low Noise Converter .....................................................................................4-1Converter Module ..........................................................................................4-3Power Amplifier .............................................................................................4-5Monitor & Control Unit ...................................................................................4-8Power Supply ..............................................................................................4-10

Section 5. Maintenance ..............................................................................5-1LNC Replacement .........................................................................................5-2Limited Warranty ...........................................................................................5-3

AppendicesAppendix A. M & C Command Set ........................................................... A-1Appendix B. Alarm List ............................................................................. B-1Appendix C. Serial Port Wiring ................................................................ C-1Appendix D. Hardware Configuring the Transceiver ............................. D-1Appendix E. C-Band Satellite Channel Frequencies

ANASAT®-C Satellite Channels ............................................. E-1ANASAT®-EC Satellite Channels .......................................... E-4ANASAT®-XC Satellite Channels .......................................... E-7ANASAT®-PC Satellite Channels ........................................ E-10ANASAT®-RC Satellite Channels ........................................ E-12

Appendix F. Converting dBm to Watts and Watts to dBm .................... F-1

ANACOM 3072307

ANACOM ANASAT®–C Transceiver 1-1 Introduction

Section 1. Introduction

to a PC, you can monitor and control all localtransceivers and other network-compatibleequipment.

The ANASAT®-C transceiver upconvertsthe modulator’s 70 MHz IF output to an RF sig-nal in the 6 GHz range for transmission, anddownconverts the 4 GHz received RF signal toa 70 MHz IF signal for use by the demodulator.

The PA uses Internally-Matched Field-Ef-fect Transistors (IMFET) to achieve highly linearpower and gain with minimal intermodulationdistortion (IMD) products.

High Electron Mobility Transistors (HEMT)and Gallium-Arsenide Field-Effect Transistors(GaAs FET) enable the Low-Noise Down-Con-verter (LNC) to achieve a noise figure betterthan 45 ºK.

The transmit (TX) and receive (RX) syn-thesizers are locked to an oven controlled, high-stability crystal oscillator (OCXO) and can pro-vide 1 MHz frequency selection step sizes overthe entire bandwidth. TX and RX frequency se-lection is completely independent for extra flex-ibility.

In this manual, all frequency ranges reflectthe Standard “C” model of the ANASAT®-Ctransceiver except as noted.

Figure 1-1 The ANASAT®-C VSAT transceiver (5Wversion shown)

Figure 1-3. Another view of the ANASAT®-5CFigure 1-2. The ANASAT®-20C, showing cooling fan

The ANASAT®-C VSAT series C-Bandtransceivers are designed for continuous out-door duty in all types of environments. Ideallysuited for SCPC, MCPC, and DAMA applica-tions, the ANASAT®-C series transceivers trans-mit in the 6 GHz frequency range and receive inthe 4 GHz range.

The ANASAT®-C VSAT transceivers inte-grate all necessary functions, including thesolid-state power amplifier (PA), into a small,highly integrated outdoor package. The only ca-bling required to the indoor plant are the IF andAC power cables. The LNC connects to thetransceiver with a single coaxial cable.

Designed to interface with any 70 MHzmodem, the ANASAT®-C VSAT transceiver maybe used in a wide variety of communication net-works. The earth stations may be configured inStar, Mesh, or Ring networks and with the op-tional Station Management System (SMS) tied

Introduction 1-2 ANACOM ANASAT®–C Transceiver

ANACOM 3072307

RF ELECTRICAL SPECIFICATIONS

A. FREQUENCIES

Model(1) Transmit RF N-connector C 5925 to 6425 MHz

(CPR-137 Flange optional on (1 MHz step size) 10, 20, and 40 W versions) EC 5850 to 6425 MHz

(1 MHz step size)XC 6700 to 7100 MHz

(500 kHz step size)RC 5975 to 6475 MHz

(1 MHz step size)PC 6425 to 6725 MHz

(1 MHz step size)(2) Receive RF C 3700 to 4200 MHz

(CPR-229G Flange on LNC) (1 MHz step size)EC 3625 to 4200 MHz

(1 MHz step size)XC 4500 to 4800 MHz

(500 kHz step size)RC 3650 to 4150 MHz

(1 MHz step size)PC 3400 to 3700 MHz

(1 MHz step size)(3) Transmit IF (N-connector) all 52 to 88MHz (70 ± 18 MHz)

[ or 104 to 176 MHz (140 ± 36 MHz) optional ]

(4) Receive IF (N-connector) all 52 to 88MHz (70 ± 18 MHz)[ or 104 to 176 MHz (140 ± 36 MHz) optional ]

B. RF POWER LEVELS(1) Receiver Output

Intermod. By-Product –35 dBc max., measuredwith two carriers @ -89 dBm,

30 kHz apart

(2) Transceiver Input –40 to –20 dBm; +20 dBm max.

(3) Transceiver Output

(a) + 25ºC at Transmit RF Connector 1dB COMP. PT-0 (0 dBm) 0 dBm min.-2 (2 watt) +33 dBm min.-5 (5 watt) +37 dBm min.-10 (10 watt) +40 dBm min.-20 (20 watt) +43 dBm min.-40 (40 watt) +47 dBm min.

(b) Gain Variation, –40ºC to +50ºC @ Transmit RF and under all conditions± 1.5 dB

(c) Intermodulation By-Products (IP) (measured at a power output of 9dB composite below the P–1dB spec) –33 dBc max.

Typical Operating Parameters

ANACOM 3072307


RF ELECTRICAL SPECIFICATIONS, continued

C. RECEIVER GAIN

(1) Overall Gain (at +25ºC) 85 to 100 dB(M & C controlled)

(2) Gain Variation under all conditions ± 1.5 dB

D. RECEIVER NOISE FIGURE (standard) 0.9 dB (65ºK) max.(optional) 0.63 dB (45ºK) max.(optional) 0.5 dB (35ºK) max.

E. INSTANTANEOUS BANDWIDTH(1) Receiver RF to IF 70 + 18 MHz

[ or 140 + 36 MHz optional ](2) Transmitter IF to RF 70 + 18 MHz

[ or 140 + 36 MHz optional ]

F. IMPEDANCE(1) Receiver Output (J4) 50Ω; (75Ω optional)(2) Transmitter Input (J3) 50Ω; (75Ω optional)

G. SYNTHESIZERS(1) Tuning Step Size 1 MHz, except 0.5 MHz X0

(M & C controlled)(2) Phase Noise (offset from carrier) –60 dBc / Hz @ 100 Hz

–70 dBc / Hz @ 1 kHz–80 dBc / Hz @ 10 kHz

–90 dBc / Hz @ 100 kHz

H. FREQUENCY REFERENCEStability over temperature–30ºC to +50ºC 1 x 10-8

Aging 1 x 10-9 / day

RF / IF CONNECTOR DESIGNATIONS

A. Antenna (Receive Input, LNC/TR Filter) CPR-229G FlangeB. Transceiver Receive Input N-Type-FemaleC. LNC Output N-Type-FemaleD. Receiver IF N-Type-FemaleE. Transmit IF N-Type-FemaleF. Antenna (Transmit Output) N-Type Female

(CPR-137 Flange optional on 10, 20, and 40W versions)


ANACOM 3072307

INTERFACE ELECTRICAL SPECIFICATIONS

(1) Power Requirement 100 to 240 VAC50/60 Hz

(2) Total Power Consumption

0 dBm 23 VA typ.2 W 47 VA typ.5 W 82 VA typ.10 W 150 VA typ.20 W 225 VA typ.40 W 350 VA typ.

INTERFACE CONNECTION DESIGNATIONS

(1) Ports 2 each RS-232 or,1 RS-232 & 1 RS-485

(2) Protocol w/ RS-232 port supports any “dumb” terminalw/ RS-485 port supports addressed, packetizeddata per ANACOM SMS software specifications

(3) Alarm Relays Form-C for Major and Minor alarms; isolated.

Optional independent TX and RX relay alarms.

(4) Visual Indicators Flashing GREEN LED indicates active powerRED LED indicates summary alarm

MECHANICAL SPECIFICATIONS

A. WEIGHT

(1) Transceiver 0 dBm output 20 lbs ( 9.1 kg)2 W and 5 W output 27 lbs (12.3 kg)10 W and 20 W output 34 lbs (15.4 kg)40 W output 38 lbs (17.3 kg)

(2) LNC 2.0 lbs (0.9 kg

B. SIZE

(1) Transceiver 0 dBm, 2 W, 5 W output 21.6" x 9.0" x 7.0"(549 x 229 x 178 mm)

10 W, 20 W output 21.6” x 9.0” x 12.1”(549 x 229 x 307 mm)

40 W output 21.6” x 9.0” x 13.9”(549 x 229 x 353 mm)

(2) LNC 3.7" x 2.8" x 3.9"(91x 71 x 99 mm)

ANACOM 3072307


MECHANICAL SPECIFICATIONS (con’t.)

C. SURFACE FINISH

Painted Surface(a) Color (per FED-STD-595A, Spec. # 25630) Light Gray(b) Final Coating: Powder

Unpainted Surfaces: Chem. Film per MIL-C-5541, Class 3

ENVIRONMENTAL SPECIFICATIONS

A. AMBIENT TEMPERATURE CONDITIONS

(1) Operating –40 to +50°C

(2) Storage –60 to +75°C

B. ALTITUDE 15000' ASL max. (4560m)

C. RAIN 20" / hour (508mm/hr)

D. WIND 150 MPH (250km/hr)

E. VIBRATION

(1) Operating 1.0 G random

(2) Survival 2.5 G maximum random

F. SHOCK

(1) Operating 10 G

(2) Survival 40 G max.

NOTE: Operating parameters subject to change without notice.


ANACOM 3072307

ANACOM 3072307

ANACOM ANASAT®–C Transceiver 2-1 Installation

Section 2. Installation

The ANASAT®-C transceiver consists ofthe transceiver, the Low Noise Converter (LNC),and the LNC interconnection cable.

This chapter contains the general require-ments for installing the transceiver and LNC onthe antenna and making the cable andwaveguide connections. Specific mountingmethods may vary considerably dependingupon particular antenna and site characteristics.Refer to the antenna manufacturer’s instruc-tions for more detailed instructions.

ANASAT®-C transceivers are designed forinstallation and setup without removing thecover. The transceiver may be completely ini-tialized for normal operation using an ASCIIterminal or a local computer.

Table 2-1. ANASAT®-C Packing List

!

Removal of any cover may jeopar-dize the weather seal which maycause problems later.

UnpackingCheck to make sure that the transceiver

has not suffered any damage in shipment.Compare contents of the crate to ensure itemsreceived match those listed on the packing slip.Retain all shipping containers for future use.

Tools and Test EquipmentHave on-hand a standard electrician’s tool

kit and any tools listed in your antenna installa-tion instructions.

ANASAT®-C Packing List Unit Part Number Quantity

••••• Transceiver — 1••••• LNC for C, EC, RC versions 30570 (1)

for XC (INSAT) 30680 (1)for PC (PALAPA) 30816 (1)

••••• LNC weather seal gasket 10933 1••••• 10 ft. (3m) LNC to Transceiver Cable with

dual male N-connectors 30641010 1••••• Power Cable with 3-pin circular connector (one end) 31185015 1••••• Cable-End Connectors:

6-pin weathertight circular 10614006 118-pin weathertight circular 10616018 1

• • • • • Supervisor Jr. Software Floppy Disk 30673 1••••• Grounding Screw, 6-32 x ½” 1••••• Grounding Nut, 6-32 1••••• Mastic Tape, 30” x ¾” 10932 1••••• Operating Manual 30723 1••••• Quick Start Guide 1••••• M & C Cable, DB9 to 6 pin circular 30720010 1

Optional Accessories:• • • • • Andrew 1/4” Heliax™ Low Loss Cable, 3 ft. (0.9m) 11706• • • • • T/R Filter for C, EC, RC versions 10917

for XC (INSAT) 10937for PC (PALAPA) 10972

••••• Transceiver Mounting Kit

ANACOM 3072307

Installation 2-2 ANACOM ANASAT®–C Transceiver

LNCBe sure the LNC unit is properly termi-

nated prior to operation. Ensure all the correctwaveguide gaskets are used to prevent waterdamage.

Site ConsiderationsPeculiar installation requirements of any

particular site is the responsibility of the systemoperator. ANACOM can engineer an optionalinstallation mounting kit, customized for yoursite and hardware. Contact ANACOM for de-tails.

AntennaThe transceiver must be attached to some

form of mounting structure which is usually theantenna feed boom or the antenna bracketstructure. Specific mounting procedures will de-pend on the antenna used. The transceiver andLNC are designed to be mounted on most an-tennas. Locate and install the antenna accord-ing to the antenna manufacturer’s instructions.Choose an area that is free of extraneous inter-ference from motors and electronic equipmentand has a clear line-of-sight from the antennato the satellite.

Lightning arrestors should be used at thesite to protect personnel and equipment. Size3/0 or 4/0 stranded copper wire should be usedto bond the transceiver to the antenna frameand to the lightning protection ground rod.

Power RequirementsThe ANASAT®-C transceiver requires a

power source which supplies 110 VAC or 220VAC at 50 or 60 Hz, through a circuit breaker.Specific circuit breaker size will depend onwhich transceiver is being used. To assure un-interrupted service, some method of back-upAC power is recommended. Installing surge ar-restors and AC power line filters will reduce volt-age surges from the AC power input. .

NOTE: AC TRANSIENTS AND SURGES MAY CAUSE DATA

TRANSMISSION ERRORS AND LOSS OF SYNCHRONIZATION IN THE

TRANSCEIVER SYNTHESIZERS AND/OR THE EXTERNAL MODEM

EQUIPMENT.

Safety PrecautionsGeneral

Ensure the ANASAT®-C transceiver andLNC are properly grounded. Do not rely on co-axial cable shields for the ground connection.

If the cover is removed from any ANACOMproduct, ensure that all:

• gaskets are intact and free of damageprior to reinstallation

• mounting screws are properly installed

Ensure all connectors are properly water-proofed.

Power SupplyConfirm that AC Power is disconnected be-

fore removing the transceiver or LNC cover.

TransceiverTake adequate precautions to ensure the

ANASAT®-C transceiver does not transmit asignal until it has been properly connected andset up for authorized frequencies and powerlevels. The transmitter is normally shipped fromthe factory with TX ON !

!Observe normal safety precautionswhen operating this equipment.

Power AmplifierBe sure the transceiver TX OUT port is

properly terminated prior to operation. Ensureall the correct waveguide gaskets are used toprevent water damage.

TO ENSURE PROTECTION OF PERSONNELAND EQUIPMENT, USE CARE DURING AN-TENNA INSTALLATION AND WHENEVERWORKING ON OR AROUND THE SYSTEM.

!

Transmitter RF output power levelsare adequate to cause blindness orother serious injury to body tissues.Use caution when working aroundthe transceiver or antenna when thetransmitter is active.

ANACOM 3072307


Transceiver MountingConsiderations

The ANASAT®-C transceiver must bemounted such that:

1. Sufficient support is afforded the trans-ceiver to minimize the effects of an-tenna sway in strong winds.

2. Air movement is possible across theheat sink fins. Ideally, the fins should bealigned vertically, but this is not re-quired.

NOTE: The length (and associated RFlosses) of the interconnecting cables must beconsidered when determining the location of thetransceiver and LNC.

Transceiver MountingThe ANASAT®-C transceiver is designed

for mounting in any position. For optimal heatsink action, the heat sink fins should be vertical,or as nearly vertical as is practical, with the finsmounted on top. Figure 2-1 shows a commoninstallation example where the transceiver ismounted on the antenna feed support arm.

Figure 2-1. Typical transceiver mounting.

When mounting the transceiver, allowenough room to adjust the antenna’s azimuthand elevation. Throughout installation and dur-ing any polarization, azimuth, or elevation ad-justment, ensure the power cables, IF cables,and any waveguide parts are not crimped orpinched.

GroundingElectrical bonding (grounding) of the trans-

ceiver is required to prevent possible damagefrom lightning or other induced electricalsurges.

The transceiver is provided with both anM3, and a #8 grounding point. It is recom-mended that heavy guage copper wire or cop-per braid be used to bond this unit to the earthground (grounding rod) using the most direct(shortest) route possible.

LNC/TR Filter MountingThe LNC is shown in Figure 2-2. Normally

the LNC is directly bolted to the antenna RXfeed. In some situations, additional transmit-to-receive isolation may be required to achievetrue low-noise receive operation. In that case,the optional TR filter (Figure 4-3) should bebolted between the LNC and the antenna re-ceive port. An appropriate waveguide gasketmust be included at both ends of the TR filter.Connect one end of the coaxial cable with maleN-connectors (included) to the LNC. Refer tothe note at the end of this section regarding wa-tertight connections. Route the 10-foot cable tothe transceiver and connect to the LNC N-con-nector. Longer or shorter cable lengths may beused; contact ANACOM for details.

ANACOM 3072307


2. 70MHz Modem

Attach a coaxial cable with male N-con-nectors between the transceiver’s TX IF(see Figure 2-3) and the modulator IFOUTPUT. Make sure that the connectionsare weather-tight.

Attach a coaxial cable with male N-con-nectors between the transceiver’s RX IF(see Figure 2-3) and the demodulator IFINPUT. Make sure that the connectionsare weather-tight.

3. AC PowerAttach the AC input cable to the 3-pinconnector on the transceiver. Run the ACcable to the power source but do not at-tach yet. The supplied power cable has athree-pin weather-tight circular connectorattached to one end. The other end is ter-minated with flying leads. Attach theproper AC power connector for your loca-tion to the other end of this cable.

Color code:Black ........AC Hot power leadWhite ........AC Neutral power leadGreen .......Ground

4. LNCAttach the RF cable between the LNCconnector and the transceiver LNC inputconnector. If a longer cable is required,insure that the replacement cable is de-signed for low loss at microwave frequen-cies. Maximum loss of the LNC cablemust be 5 dB or less at 5 GHz!

5. Terminal ConnectionsA data terminal or a computer with termi-nal software connects to the ANASAT®-Cvia either RS-232 or RS-485 serial ports.Appendix C shows the pinout of the serialoutputs. Both 6-pin and 18-pin weather-tight circular connectors are included. Anoptional serial computer cable is availablefrom ANACOM.

Figure 2-2. LNC assembly.

Cable and WaveguideConnections

Cabling RequirementsLocal regulations may require that cables

in occupied buildings be installed in steel con-duit. Local government agencies may waive thisrequirement for the use of Plenum cables,which are standard cables entirely encased insolid Teflon. Check the codes in your area.

NOTE: EQUIPMENT OUTAGES DUE TO FAULTY

CABLE MATERIALS OR INSTALLATION ARE NOT COVERED

BY YOUR WARRANTY.

Figure 2-3 provides the cabling diagramfor the ANASAT®-C transceiver.

1. Transmitter FeedConnect a section of low loss cable with atype N connector between the OMT trans-mit port and the transceiver’s transmitoutput, TX OUT. Ensure the connectionsare weather-tight.For transceivers with the CPR-137 flangeoption, connect a section of flexible CPR-137G waveguide between the antennaOMT transmit port and the transceiver’stransmit output, TX OUT. (Waveguideshould be attached to the antenna feedper manufacturer’s instructions). Ensure agasket is fitted at each flange.

ANACOM 3072307


AC Pow e rThre e -pincirc ula rconnec tor

Ca ble to LNC

Ca ble or w av eguide totra ns mi t a nte nna inte rfa c e

TX IF Input(70MHz)

RX IF Output(70MHz)

RS48 5/RS23 2plus ala rmoutput tote rminal

RS2 32 tote rminal

LNC InN (Fem)

TX OutputN (Fem) *

18 -PinCircular

6-PinCi rcular

RX IFN (Fem)

TX IFN (Fem)

ANASAT®-C Transceiver

* CPR-1 3 7 G Wav e guide Flange is optional on 10 W and 2 0 W mode ls .

GroundLug

Figure 2-3 ANASAT®-C Cabling Interconnection Diagram.

Final CheckRecheck all bolts and cabling. Refer to fig-

ure 2-3 to verify cable connections.

After all other connections have beenmade, connect the AC power cord to an activeoutlet.

Water Resistance WrapThe application of moisture-resistant wrap

(mastic tape) to all connectors is recommendedto prevent water entry and resultant water dam-age. Apply the mastic tape as follows:

1. Ensure that all connectors are tight.

2. Pre-cut the mastic tape to the desiredsize and remove the protective wax linerfrom the tape.

3. Center the tape on the connector to besealed and wrap the tape tightly aroundthe connector. Squeeze the tape tightlyand ensure that both ends of the tapehave formed around the connector andthe cable.

4. Apply the mastic tape to all connectorsthat may be exposed to moisture.

ANACOM 3072307


Figure 2-4. Transceiver cable connectors.

ANACOM 3072307

ANACOM ANASAT®–C Transceiver 3-1 Operation

Preliminary StepsAfter the ANACOM®-C hardware is mount-

ed and verified, the antenna must be aimed to-ward the desired satellite. Follow the antenna/mount manufacturer’s instructions, using coor-dinates provided by the satellite operator. Donot transmit until you have received authoriza-tion from the satellite network operation center,and a transmit power level from its engineeringstaff.

Terminal Connection andConfiguration

Autolink:The Anacom M&C features automatic

baudrate sensing on the serial ports. If wrongbaudrate is detected, the M&C will drop to 1200baud and wait for user to move to 1200 baud.Anacom provides a diskette with both our Su-pervisor® and Supervisor Jr.® software on it,that will perform the autolink with the ODU auto-matically, regardless of the last used settings.

Connect a terminal or computer runningterminal emulation software to either serial port.Generally, COM 0 (using the 6-pin circularweathertight connector) is used for on-sitemaintenance and control. COM 1 is often usedin its RS-485 mode, with multi-unit, packetizedprotocol and differential mode signals good formoderately long distance (up to 4000 feet or1200m) remote control. Either port or either se-rial protocol can be used to accomplish setup.Set the terminal to 1200 baud, eight data bits,no parity, and one stop bit (1200,N,8,1 proto-col). Refer to Appendix C for wiring diagramsfor the COM ports.

Frequency Programming

TXC; RXCThe transmit and receive frequencies are

set independently using the TXCHAN (TXC)

and RXCHAN (RXC) commands. Refer to Ap-pendix E for a table of channel numbers versusfrequency. NOTE: Appendix E assumes an IF of70 MHz for both TX IN and RX OUT. Add orsubtract any difference between the actual IFand 70 MHz to determine the exact RF frequen-cy employed.

TXF; RXFDirect frequency entry in MHz can also be

done by typing TXF**** or RXF**** where ****are the transceiver frequencies for 70 MHz (or140 MHz) TXIF & RXIF.

Operating frequencies for standard C-bandchannels are calculated with the following for-mulas:

fTX

= TX IFIN

+ 5854 + Ch# MHz

fRX

= RX IFOUT

+ 3629 + Ch# MHz

For example, if the following commandsare given to the transceiver:

RXCHAN 50

TXCHAN 50

Then with a TX IN intermediate frequencyof 72.5 MHz the result is an output frequency of5976.5 MHz. Likewise, with an RX OUT IF of67.5 MHz , then the received RF frequency is3746.5 MHz.

For XC (INSAT) frequencies, the formulasare:

fTX

= TX IFIN

+ (13259 + Ch# ) / 2 MHz

fRX

= RX IFOUT

+ (8859 + Ch# ) / 2 MHz

NOTE: XC CHANNEL SPACING (STEP SIZE) IS 0.5 MHZ.

For RC (Russian) frequencies, the formu-las are:

fTX

= TX IFIN

+ 5904 + Ch# MHz

fRX

= RX IFOUT

+ 3579 + Ch# MHz

Section 3. Operation

ANACOM 3072307

Operation 3-2 ANACOM ANASAT®–C Transceiver

Figure 3-1. Remote M & C terminal screen display.

ANASAT 5C Transceiver REV:04 S/N: 123456

TXREQ on|TX ON AIR

alarm status: CLEAR

| TXCHAN 129 | RXCHAN 119

| TXGAIN 68.0 | RXGAIN 97.5

monitor points: OSLLOCK: clear| TXLOCK: clear | RXLOCK: clear | PA1: 7.3|

FANERR: clear | OSLPLL: 4.5 | TXPLL: 4.3 | RXPLL: 5.2 | PA2: 8.7|

TEMP: 36C | DIP: 00000000 | TXMUTE: clear | LNCV: 13.0 | PA3: 9.8|

XTAL: CLEAR | P12V: 13.1 | TX IN: -31 | | PA4: 10.1|

N5V: -5.1 | P5V: 5.0 | TXout: 18 | RXout: -7 | PA5: 0.0|

last reset: 52 seconds TXpeak: 18 | PA6: 0.1|

DTE1: PC_MODE | UTIMER: 30.0 |TERMTYPE: TTY |ECHO on|CRLF on|BAUDRATE 1200COMMAND>_

For PC (PALAPA) frequencies, the formu-las are:

fTX

= TX IFIN

+ 6354 + Ch# MHz

fRX

= RX IFOUT

+ 3329 + Ch# MHz

Both fTX

and fRX

may be directly enteredand displayed via the M & C by using the TX-FREQ and RXFREQ commands. These com-mands will change the terminal display fromchannel number to RF frequency. These fre-quencies assume exactly 70 MHz IF.

Antenna Adjustment

Do not transmit while adjusting theantenna position.

Follow the antenna manufacturer’s instruc-tions for antenna position adjustment. For finalalignment, contact the satellite operator and getthe correct polarization, azimuth, and elevationof the satellite and also confirm the desiredtransponder is operational.

Apply power to the ANASAT®-C. While thetransceiver requires about 5 minutes for theOCXO to reach full stability, antenna adjust-ments may be performed by monitoring othersignals, such as beacons, immediately.

Connect a spectrum analyzer to the RX IFoutput. Set the ANASAT®-C to the desired fre-quency using the RXCHAN (or RXFREQ) com-mand, as described above. While monitoringthe IF output for signals, slowly sweep the an-tenna through azimuth and elevation. Adjust an-tenna position for maximum signal strength.

M & C Operation

Terminal DisplayThe M & C terminal display gives a com-

plete accounting of transceiver alarms and sta-tus. The display is sent to the terminal every 30seconds. This interval can be changed with theUTIMER command. (See Appendix A).

The top line shows the transceiver modeland serial number.

The second line gives the primary trans-ceiver operating parameters:

• status of the TXREQ setting: “ON” or“OFF”

“ON” indicates the transceiver will transmitwhen all major transmitter alarms arecleared. This is the normal setting.

“OFF” indicates the transmitter will not turnon even if all alarms are clear.

!

ANACOM 3072307


• Transmitter status is either “TX ON AIR” or“TX OFF AIR”

The third line gives a summary alarm indi-cation. The alarm can be “CLEAR”, “MINOR”,or “MAJOR”. See Appendix B for specificalarms.

The fourth and fifth lines give TX and RXchannel (or frequency) and gain values.

• TXCHAN number is the actual transmitchannel selected.

• TXFREQ number is the actual transmit fre-quency for 70 MHz (140 MHz) input.

• TXGAIN is the actual transmit gain valueselected in dB.

• RXCHAN number is the actual receivechannel selected.

• RXFREQ number is the actual receive fre-quency for 70 MHz (140 MHz) output.

• RXGAIN is the actual receiver gain valueselected in dB.

The remainder for the display give detailedmonitoring information as follows:

• OSL LOCK gives alarm status of the OSLphase locked loop; NORMAL or FAULT

• TXLOCK gives alarm status of the transmitphase locked loop; NORMAL or FAULT

• RXLOCK gives alarm status of the receivephase locked loop; NORMAL or FAULT

• FANERR gives alarm status of the coolingfan (ANASAT-10C and ANASAT-20C only).

• OSLPLL shows the actual VCO control volt-age of the offset loop.

• TXPLL shows the actual VCO control volt-age of the TX synthesizer.

• RXPLL shows the actual VCO control volt-age of the RX synthesizer.

• TEMP shows the internal heat sink temper-ature in °C.

• TXMUTE gives the status of the TX overridecircuits, any of which will turn off the trans-mitter.

• LNC shows the LNC supply voltage.

• DIP shows the settings of the internal DIPswitches (8 bits). See Appendix D.

• XTAL gives the status of the internal refer-ence crystal. The two possible status areWARMING or NORMAL. By default,WARMING will disable the transmitter.

• P12V shows the internal 13 volt power sup-ply voltage.

• P5V shows the internal 5 volt power supplyvoltage.

• N5V shows the internal –5 volt power sup-ply voltage.

• UTIMER gives the present value of the usertimer which controls the cycle time of thedisplay in seconds.

• TXin shows the approximate transmitter in-put (TX IF) power level in dBm.

• TXout shows the approximate transmitteroutput power level in dBm.

• TXpeak shows the recent (60 sec) peaktransmitter output power level in dBm.

• RXout shows the approximate compositereceiver output power level in dBm.

• TERMTYPE gives the present terminal typeselection. Options are: “TTY”, “VT52”, and“VT100”.

• ECHO gives the present setting for the ter-minal echo function. When “ON”, the serialport will echo all characters typed. Whenthis parameter is “OFF” then the port will notecho characters.

• CRLF gives the present setting for the serialport to issue a line feed (LF) after each car-riage return (CR). Options are “ON” or“OFF”.

• BAUDRATE shows the present terminalcommunications speed setting in bits persecond (bps).

• PA1 through PA6 give show the voltages foreach stage of the transmitter power amplifi-er. Note that the 0C, 2C and 5C models donot use all six voltages.

ANACOM 3072307


Gain AdjustmentsTransmitter Gain

After the transceiver has warmed up for atleast 5 minutes (OCXO warm-up) the transmit-ter may be activated. Set the transmit gain toachieve the desired output level (in dBm) withthe transmit gain control, TXGAIN. Output pow-er is selectable in 1 dB steps. Smaller steps canbe entered, for example: TXG 62.5 and theM&C will attempt to provide that gain as closelyas possible.

Maintaining proper output power is vital formaximizing signal-to-noise ratios over the radiopath. Low power levels produce noisy signals;excessive power robs downlink strength fromother stations sharing the transponder.

Adjust the transmitter gain to attain the de-sired output power level. Use a calibrated wattmeter for this task. The M&C gives an uncali-brated reading of output power which is goodfor long term monitoring, but it is not intended toreplace a calibrated meter.

When transmitting multiple carriers, runthe output power with an output back-off suffi-cient to meet the spectral density mask require-ments.

Receiver GainSet receive gain by monitoring RX IF out-

put level and adjust the RXGAIN parameter viathe terminal. RXGAIN allow adjustment over a15dB range, from 85dB to 100dB (includingLNC gain), in 1 dB steps. Smaller step sizescan be entered, for example: RXG 87.5

Receiver gain should be set to a valuewhere the desired receive signal is centered inthe modem AGC range. At the same time, thecomposite signal, containing all received sig-nals in the transceiver passband, must not ex-ceed the modem’s maximum rated input level.Account for IF cabling losses when calculatingthe RXGAIN value.

RX IF output is monitored by the M & Cunit; a Summary alarm is generated if this out-put level drops below a specific level (generallywhen the LNC is not attached). The M & C

uses an internal detector on the RX output tomonitor RX output power. This is shown in theterminal display window in dBm. The RX outputpower value shown is not accurate enough torely on for measuring the desired signal. Thedetector is broadband and will respond to ALLsignals in the transponder, including noise.

Receiver gain setting is usually not as criti-cal as transmit gain: excessive gain may causemodem receiver overloading and result in dis-tortion on the received signal; insufficient gainpresents reduced signal-to-noise ratios. IdealRX gain puts the desired IF signal amplitudenear the midpoint of the modem AGC range.

Basic M & C Commands1. Using the terminal, configure the trans-

ceiver to the proper frequency:

RXCHAN nnn nnn ranges from 1 to 501

TXCHAN nnn nnn ranges from 1 to 501

(see Appendix E).

2. Configure receive gain and transmit gain.

RXGAIN nnn nnn ranges from 85 to

100 in 1 dB steps

TXGAIN nn nn ranges from:

10 to 36dB [ANASAT-0C]

44 to 70dB [ANASAT-2C]

48 to 74 dB [ANASAT-5C]



57 to 83 dB [ANASAT-40C]NOTE: GAIN SETTINGS AND POWER READINGS ARE NOT

INTENDED TO REPLACE A CALIBRATED POWER METER.

Transmit gain is adjustable in 1 dB steps;

to program 60 dB of gain, merely type:

TXGAIN 60 <cr>

For 60.5 dB of gain, type

TXGAIN 60.5 <cr>NOTE: THE DECIMAL POINT IS ONLY NECESSARY WHEN

0.5dB OF GAIN RESOLUTION IS ATTEMPTED. FRACTIONAL

VALUES MAY BE REQUESTED, BUT ONLY THE NEAREST WHOLE

VALUE WILL BE DISPLAYED.

3. Enable the Transmitter:

TX ON (TX OFF takes thetransmitter OFF air)

ANACOM 3072307


Configuring the ANASAT®-CVia Hardware

The optional hardware switch packageis required for hardware configuration.

Although not recommended and rarely (if ever)necessary, the ANASAT®-C may be opened andconfigured via mechanical switches. Do notopen the transceiver unless serial data commu-nications is impossible.

There are only two reasons to open thetransceiver:

• The M & C is inaccessible via either ofthe two serial ports

• No terminal (or computer with terminalsoftware) is available

Use extreme caution when open-ing the transceiver. Do not exposethe unsealed transceiver or unpro-tected subassemblies to moisture.

Open the transceiver byremoving the screws attaching the heat sink tothe bottom cover. Inside the ANASAT®-C trans-ceiver are two banks of three decade switches,one bank for TX channel selection, the other forRX channel selection. Momentary contact(spring loaded, center-OFF toggle switches) al-low manual receive gain and transmit gain con-trol. A quick push will change the gain by about0.5 dB. Pushing and holding the switch willsweep the gain in rapid 0.5dB steps, and thelonger the switch is held, the faster the step

rate. These controls are illustrated in Figure3-2, and are described in Appendix D.

TX channels are selected by rotating thethree decade switches to indicate the desiredchannel number (see Appendix E). For exam-ple, if channel 123 is desired, set the TX LSBswitch to “3”, the center TX switch to “2”, andthe TX MSB switch to “1”. Then push the centerswitch, S5. Note that the transceiver must havepower applied when S5 is pressed.

Receive channels are selected in the samemanner as the Transmit channels. Switch S6must always be set to “0” if it is installed.

Between the receive and transmit channelselector switches is a momentary-contact pushswitch. Press this ENTER switch to activate thenew transmit and receive channel selectionsand save the new data into nonvolatile FLASHmemory. While gain adjustments are effectiveimmediately, channel switching is not performeduntil the ENTER switch is pressed.

Transmit and receive gain adjustments aremade by the same techniques used under M &C terminal control, as described above. Re-member, any manual setting can be changedvia the serial port later.

After manually configuring the transceiver,carefully mount the gasket and cover back ontothe transceiver heat sink. Insure a watertightseal. The screws used to attach the cover tothe heat sink must ALL be tightened securely.

Figure 3-2. The optional switch kit, used for manual transceiver control.

DOWN UPS5

DOWN UP

!

ANACOM 3072307


ANASAT®-C Quick Start Guide1. Mount the transceiver and the LNC on the antenna.

2. Connect the cables shown in the drawing (See page 2-5).

3. Connect a terminal to a serial port, configured to 1200bps, 8 data bits, no parity, 1 stop bit,

CR/LF Off. Connection diagrams are in Appendix C.

4. Install a proper power connector on the (included) power cable. Plug the cable into 110 or

240VAC, 50/60Hz. Verify the green LED on the transceiver is illuminated, indicating normal

internal operation. The red LED is usually OFF. If illuminated, it indicates an error condition

requiring attention. Refer to the ALARM command for details (Appendix A).

5. Using the terminal, configure the transceiver to the proper frequency:

RXFREQ nnnn (where nnnn is in MHz) or RXCHAN nnn (see Appendix E)

TXFREQ nnnn (where nnnn is in MHz) or TXCHAN nnn (see Appendix E)

6. Configure receive gain and transmit output power:

RXGAIN nnn nnn ranges from 85 to 100

TXGAIN nn nn ranges from: 10 to 26 [ANASAT-0C] 44 to 70 [ANASAT-2C]

48 to 74 [ANASAT-5C] 51 to 77 [ANASAT-10C]

54 to 80 [ANASAT-20C] 57 to 83 [ANASAT-40C]

7. Enable the Transmitter:

TX ON (TX OFF takes the transmitter OFF air)

J3 TX IF J4RX IF J5 M & C J6 RS232

ALARMPOWER

J1 LNC J2 TX OUT

GROUND

ACPower(side

mount)

To LNC

To TX Feedhorn

TX Signal from Modem

RX Signal to ModemSerial ports for terminal or

computer

"OK"GreenLED

Ground Lug"Alarm"Red LED

That’s really all you must do! Good luck with your new ANASAT®-C transceiver!

ANACOM 3072307

ANACOM ANASAT®–C Transceiver 4-1 Theory of Operation

Section 4. Theory of Operation

serial communications are unavailable (optionalswitch package required).

Power distribution is controlled with eachof several supply voltages and currents care-fully monitored. An active feedback negativebias voltage supply guarantees proper controlof PA power.

Two LEDs, a flashing green indicatingproper operation and a red warning of a Sum-mary alarm, are mounted on the transceiver fortest-equipment-free status indication.

Low Noise Converter andTransmit Reject Filter

The receive signal from the antenna’s feedhorn is fed via a CPR-229G waveguide couplerinto the (optional) Transmit Reject (TR) filter(refer to Figures 4-2 and 4-3). This filter attenu-ates both the transmit signal and the receiver’simage (LO + IF), preventing severe overload ofthe LNC. TR filter passband characteristics areshown in Figure 4-4.

The LNC is bolted to the TR filter at thefeed horn of the antenna and consists of twoblocks: a C-band low noise amplifier (LNA) anda block converter that mixes the C-band receivesignal with the 5 GHz local oscillator from thereceive converter module to produce an L-bandoutput.

The LNA consists of a three-stage GaAsFET preamplifier. Negative gate bias for theGaAs FETs is generated inside the block con-verter.

The amplified C-band signal is mixed withthe 5 GHz local oscillator (LO) signal from theconverter module in the transceiver. A filterpasses the difference frequency and outputsthis L-band signal to an N-connector. A cablecarries this output to the converter module in-side the transceiver.

The ANASAT®-C transceiver outdoor unit(ODU) consists of five major blocks, as shownin Figure 4-1. These blocks are:

• Low noise converter (LNC) andTransmit Reject (TR) filter

• Transmit/Receive Converter

• Power Amplifier (PA)

• Monitor and Control Unit (M & C)

• Universal Input switch-modepower supply

Signal PathReceive signals from the antenna feed

through CPR-229G waveguide into the TR Fil-ter, which prevents the transmit signal and re-ceiver image frequencies from passing into thelow noise converter (LNC). The LNC amplifiesand mixes the C-band receive signal, outputtingan L-band IF signal to the converter module.The receive converter portion of the convertermodule synthesizes the proper mixer frequen-cies for the second converter, which outputs the(nominal) 70 MHz receive output at the RX IFN-connector on the transceiver.

Transmit signals at (nominally) 70MHz areinput to the TX IF N-connector on the trans-ceiver. This signal is double converted to thedesired C-band frequency in the converter mod-ule and output to the linear power amplifier(PA). PA output of up to 2W, 5W, 10W, or 20W,depending upon transceiver version, feeds theantenna.

Control and Power SystemsThe microprocessor-based M & C unit

monitors the transceiver’s parameters to insureproper operation and reliable, long term service.Two serial ports provide local or remote termi-nal access. Manual control is available in event

ANACOM 3072307

Theory of Operation 4-2 ANACOM ANASAT®–C Transceiver

Figure 4-1. A

NA

SA

T®

-C Transceiver B

lock Diagram

BP

F

BP

FB

PF

BP

FB

PF

BP

FB

PF

BP

F

BP

FB

PF

BP

FB

PF

High

Stability

OC

XO

TX

Gain

Set

1

70MH

z1170

MH

z

TX

Gain

Set

2

TX

Synthesizer

≈5

GH

z

RX

Synthesizer

≈5

GH

z

≈6

GH

z

1GH

zIF

5GH

zLO

70MH

z

RX

Gain

Set

LNB

Po

wer

TX

IFIn

(N)

RX

IFO

ut

(N)

(SM

A)

(N)

(N)

(SM

A)

Fem

aleN

-Con

nector(C

PR

-137W

aveguide

Flange

Optional,

10W&

20Wv

ersions)

CP

R-22

9GW

aveguide

Pow

erA

mplifier

LNC

TRFilte

r(o

pt.)C

onverter

Module

Monito

r&

Contro

l(M&

C)

Unit

RX

Gain

TX

Gain

RX

Ch

anT

XC

hanA

larmR

elays

Ser

0R

S-4

85R

S-2

32

Pow

erS

upply

AC

Input

Pow

erC

ontrol

UA

RT

Alarm

Re

gister

FLA

SH

Mem

oryS

tatusR

egisterC

ontrolR

egister

A/D

D/A

Status

Register

Data

Bus

Analog

I/OP

ower

DigitalI/O

Analog

I/OP

ower

Manual

Control

(Optio

nalSw

itchP

ackage

required)

Offset

Synthesizer

1.1GH

z

Ser

1(R

S-23

2)

Micro-

processor

ANACOM 3072307


Converter ModuleThe converter module (Figure 4-5) is lo-

cated inside the transceiver and consists of twosections, the receive converter and the transmitconverter. The converter module takes an ex-tremely stable 10 MHz reference signal fromthe Monitor & Control unit and synthesizes allnecessary mixing frequencies.

Receive Converter Signal PathThe receive converter takes its input from

the LNC via an N-connector on the transceiver(refer to Figure 4-6). A short coaxial cable con-nects the type-N connector on the heat sink tothe converter unit itself. A diplexer at this inputallows this single connector to perform threefunctions: signal IF input from the LNC, LO out-put to the LNC, and DC power to the LNC.

Only one coaxial cable is needed betweenthe transceiver and the LNC. This cable carriesthree signals:

• L-band signal output from the LNC

• ≈5 GHz LO input from the converter

• +12V DC power from the convertermodule.

Combining and separation are accom-plished with and inductor for the supply voltageand a pick-off coupling for the LO.

Figure 4-2. The LNC

Figure 4-5. Converter Module Assembly.

Figure 4-4. TR Filter Passband Characteristics.

RX Passband RXimage

TX output

Atte

nuat

ion

Figure 4-3. The Optional TR Filter

ANACOM 3072307


The L-band receive signal is extracted bythe input diplexer and is filtered by a mechani-cally-tuned 6-pole filter. A single-stage amplifierprovides +10 dB of gain. Another mechanicalfilter cleans the signal before it is mixed with a1.1GHz LO frequency, producing the (nominal)70 MHz receive output. An L-C network selectsonly the 70 MHz mixer output and passes thissignal to a variable gain amplifier. This variablegain amplifier is adjustable over a 15dB rangeand is operator-adjustable by terminal com-mands via the M & C unit. A final LC bandpassfilter connects the variable gain amplifier to the50Ω N-connector output on the ODU. An exter-nal 50Ω to 75Ω transformer is available fromANACOM as an option.

The +12V DC supply to the LNC is fusedwith a self-resetting “polyswitch”. Thispolyswitch is located on the M & C board.

Frequency SynthesizersThe converter module generates all neces-

sary frequencies with phase-locked-loop (PLL)synthesizers. All PLLs are referenced from a

single 10 MHz clock mounted on the M & Cboard. This master oscillator is a highly stable10 MHz oven controlled crystal oscillator(OXCO) accurate to 1 x 10-8 Hz ( 0.01 Hz at10MHz). This oscillator is fine tuned to compen-sate for normal aging effects automatically fromthe M & C unit.

Offset LoopThe first synthesized frequency is the

1.1GHz offset loop signal that is used by boththe transmit and the receive converters. Thissignal is split and fed to the second receivemixer and the first transmit mixer.

Receive SynthesizerThe receive synthesizer generates the tun-

able ≈5 GHz LO used by the LNC. Referring toFigures 4-6 and 4-7, the 1.1 GHz offset loopsignal is applied to a x 4 multiplier and mixedwith a 5 GHz VCO. The resulting 300 MHz to800 MHz output is fed into a programmable di-vider and fed to a phase detector that comparesit to the 10 MHz reference clock. Phase detec-tor output voltage is filtered and drives a 2.3GHz to 2.7 GHz VCO. This frequency isdoubled and fed into the previously mentionedmixer, closing the loop. Other C-band frequen-cies are generated by an almost identical cir-cuit.

Transmit SynthesizerThe transmit synthesizer generates a tun-

able 4.75 GHz to 5.25 GHz LO used by the sec-ond transmit mixer to produce the final transmitoutput frequency. Referring to Figures 4-7 and4-8, the 1.1 GHz offset loop signal is applied to

Output

V CO

M ix er

1. 1G H z × 4

10M H z ÷ N

÷ M

PhaseDet ec tor

Loop F i lt er

Figure 4-7. Phase-Locked Loop FrequencySynthesizer Block diagram.

Figure 4-6. Converter Module, Receive Portion.

BPF

BPF BPF

BPF BPF BPF BPF BPF

BPF BPF BPF BPF

High Stability OCXO

TX Gain Set 1

70MHz 1170MHz

TX Gain Set 2

TX Synthesizer≈ 5 GHz

RX Synthesizer≈ 5 GHz

≈ 6GHz

1GHz IF

5GHz LO

70MHz

RX Gain Set

LNB Power

RX IF Out

(N)

(N)

(N)

CPR-229GWaveguide

LNC TR Filter (Opt.)Converter Module

ANACOM 3072307


a x 4 multiplier and mixed with a 5 GHz VCO.The resulting 300 MHz to 800 MHz output is fedinto a programmable divider and fed to a phasedetector that compares it to the 10 MHz refer-ence clock. Phase detector output voltage is fil-tered and drives a 2.3 GHz to 2.7 GHz VCO,which is frequency doubled and fed into thepreviously mentioned mixer, completing theloop.

Transmit Converter Signal PathThe Transmit converter takes the nominal

70 MHz signal input from a 50Ω N-connector onthe transceiver (refer to Figure 4-8). (Note: anexternal 75Ω to 50Ω transformer is availablefrom ANACOM as an option). This signalpasses through an LC filter and into the trans-mit variable gain amplifier. This amplifier isgain-adjusted by a control voltage from the M &C unit, and has a gain variation of 26dB in 1dBsteps. Another LC bandpass filter removes anyout-of-band noise and presents the signal to thefirst transmit mixer. This mixer adds the 1.1GHz offset loop frequency to the TX IF, produc-ing a 1170 MHz nominal output. This L-bandoutput passes through a mechanical filter intothe second gain block. The signal amplitude isadjusted by a control signal from the M & C unitand the amplified signal flows through anothermechanical filter.

The L-band output is now applied to thesecond transmit mixer, where it is combined withthe 5 GHz transmit synthesizer output and be-comes a C-band signal of the desired frequency.A mechanical bandpass filter selects the propermixer product and applies it to a three-stageamplifier. A final mechanical filter is used before

the transmit signal is applied to the SMA jackthat couples it to the PA.

Power AmplifierANASAT®-C series transceivers are avail-

able in six versions, with maximum transmit out-put powers of 0 dBm, 2, 5, 10, 20, and 40 watts.

Four different power amplifier (PA) mod-ules are employed to economically achieve thedifferent output ratings.

The 0 dBm unit “0W” transceiver has nopower amplifier. The up converter output is feddirectly to the outside with a type-N connector.

ConstructionThe PA module is a highly linear amplifier

built on soft-board Duroid™ PC board substratematerial silver epoxied inside a 0.75-inch thickmachined aluminum block. This assembly isbolted to the center of the transceiver heat sinkfor excellent thermal conductivity. Power foreach stage is provided via individual feed-throughs drilled into the machined block andhas separate ferrite bead isolation for each con-nection. Aluminum bars securely fasten the softboard into the cavity.

2 Watt ModuleThe 2 watt PA module, which is similar to

the 5 watt module shown in Figure 4.9 takes itsinput from the transmit converter on the con-verter module. This input handles up to +10dBm and is connected to the converter boardvia coaxial cable using SMA connectors.

Figure 4-8. Converter Module, Transmit Portion.

BPF BPF BPF BPF BPF BPF

BPF BPF BPF BPF

High Stability OCXO

TX Gain Set 1

70MHz 1170MHz

TX Gain Set 2

TX Synthesizer≈=5 GHz

RX Synthesizer≈=5 GHz

≈=6GHz

1GHz IF

5GHz LO

70MHz

RX Gain Set

LNB Power

TX IFIn

(N)

(SMA)

(SMA)

MaleN-Connector(CPR 137Flange opt.avai lable on10W & 20Wversions)

Power Amplifier

Converter Module

ANACOM 3072307


Output is applied to a SMA connectormounted on the soft board. A coaxial cable con-nects to a 50Ω N-connector mounted on theheat sink of the transceiver.

A directional coupler and power detectormonitors the output power level and reports tothe M & C unit.

10 Watt ModuleThe 10 watt PA module, which is similar to

the 20 watt unit shown in Figure 4-10, takes itsinput from the transmit converter on the con-verter module. This input handles up to+10dBm and is connected to the converterboard via coaxial cable using SMA connectors.

Good RF grounding and thermal proper-ties are assured by the use of Teflon®

(Duroid™) PC board substrate material which ispermanently attached to the cavity.

Transmit input is applied to a hybrid cou-pler which feeds a balanced two-transistor am-plifier. A second hybrid coupler converts thisbalanced output to a single-ended input for thefour-stage amplifier.

This drive power is fed into another hybridcoupler and on into the two-transistor balancedfinal amplifier. This balanced output passesthrough another hybrid to combine the signalinto a single-ended 10W output which is fedinto a female SMA connector mounted on the

!

DO NOT ATTEMPT REPAIROR REMOVE THE P.A. CIR-CUIT BOARD! SEVERE DAM-AGE WILL RESULT.

Figure 4-9 5W Power Amplifier Module.



Transmit input is applied to a hybrid cou-pler which feeds a balanced two-transistor am-plifier. A second hybrid coupler converts thisbalanced output to a single ended input for thethree-stage amplifier. Maximum final outputpower is a minimum of 2 Watts at the 1dB com-pression point.

Output is applied to a SMA connectormounted on the soft board. A coaxial cable con-nects to a 50Ω N-connector mounted on theheat sink of the transceiver.

A directional coupler and power detectormonitors the output power level and reports tothe M & C unit.

5 Watt ModuleThe 5 watt module, shown in Figure 4-9,

takes its input from the transmit converter onthe converter module. This input handles up to+10 dBm and is connected to the converterboard via coaxial cable using SMA connectors.



Transmit input is applied to a hybrid cou-pler which feeds a balanced two-transistor am-plifier. A second hybrid coupler converts thisbalanced output to a single-ended input for thefour-stage amplifier. Maximum final outputpower is a minimum of 5 Watts.

ANACOM 3072307


soft board. A coaxial cable connects to a 50ΩN-connector mounted on the heat sink of thetransceiver. A directional coupler and detectordiode monitors output power and reports to theM & C unit.

If the transceiver is configured with theoptional CPR137 waveguide port, awaveguidelaunch is mounted under the heatsink andmates to the PA module via a short semi-rigidcable.

Power for each stage is individually filteredand applied through ferrite beads via cutouts inthe aluminum housing. Both gate bias and drainpower for the final three stages are fed withpress-fit filtered terminals for excellent sealingand isolation.

20 Watt ModuleThe 20 watt PA module, shown in Figure 4-

10, takes its input from the transmit converter onthe converter module. This input handles up to+10 dBm and is connected to the converter boardvia semi-rigid cable using SMA connectors.


plifier. A second hybrid coupler converts thisbalanced output to a single-ended input for thefour-stage amplifier.

This drive power is fed into another hybridcoupler and on into the two-transistor balancedfinal amplifier. This balanced output passesthrough another hybrid to combine the signalinto a single-ended 20W output which is fedinto a female SMA connector mounted on thesoft board. A coaxial cable connects to a 50ΩN-connector mounted on the heat sink of thetransceiver. A directional coupler and detectordiode monitors output power and reports to theM & C unit.

If the transceiver is configured with theoptional CPR137 waveguide port, awaveguidelaunch is mounted under the heatsink andmates to the PA module via a short semi-rigidcable.


40 Watt ModuleThe 40 watt PA module, similar to the 20W

module shown in Figure 4-10, takes its input fromthe transmit converter on the converter module.This input handles up to +10 dBm and is con-nected to the converter board via semi-rigid cableusing SMA connectors.

Figure 4-10 20W Power Amplifier Module.


Transmit input is applied to a hybrid cou-pler which feeds a balanced two-transistor am-

!


ANACOM 3072307




Transmit input is applied to a hybrid cou-pler which feeds a balanced two-transistor am-plifier. A second hybrid coupler converts this


Monitor and Control UnitThe monitor and control unit (M & C), Fig-

ures 4-11 and 4-12, is a microprocessor-basedcontroller providing transceiver diagnostics, re-mote command, power distribution, active biasvoltage for the PA, and a highly accurate andstable reference frequency.

Microprocessor-Based FunctionsThe heart of the M & C unit is the 80C188

microprocessor, operating at 8 MHz. It has128K of SRAM and two 1MB FLASH electricallyerasable programmable read-only memories forprogram and variable storage.

The microprocessor allows long term,completely unattended remote operation of theANASAT®-C transceiver. All functions are ac-cessible remotely via either of the two serialports, which allow remote monitoring and diag-nostics as well as normal frequency and powercontrol. If serial communications are impos-sible, the transceiver’s cover may be removedto access the manual adjustments located in-side. (The optional switch package is required).

Figure 4-11. The Monitor and Control (M & C) unit.

Monitor & Control (M & C) Unit

RX Gain TX Gain RX Chan TX Chan AlarmRelays

Ser 2(RS-232)

Ser 1RS-485RS-232

PowerSupply AC Input

PowerControl

Micro-processor

UARTAlarm Register

FLASH MemoryStatus RegisterControl RegisterA/D D/A

Status Register

Data Bus

Analog I/O Power Digital I/O Analog I/O Power

Manual Control (Optional Switch Package required)

balanced output to a single-ended input for thefour-stage amplifier.

This drive power is fed into another hybridcoupler and on into the two-transistor balancedfinal amplifier. This balanced output passesthrough another hybrid to combine the signalinto a single-ended 20W output which is fedinto a female SMA connector mounted on thesoft board. A coaxial cable connects to a 50ΩN-connector mounted on the heat sink of thetransceiver. A directional coupler and detectordiode monitors output power and reports to theM & C unit.

If the transceiver is configured with the op-tional CPR137 waveguide port, awaveguidelaunch is mounted under the heatsink andmates to the PA module via a short semi-rigidcable.

!


ANACOM 3072307


Analog-to-digital (ADC) and digital-to-ana-log (DAC) converters are used by the micropro-cessor to monitor operating parameters andcontrol the transceiver.

Two external LEDs, a flashing green lampindicating proper system operation, and a redone warning of a Summary alarm are controlledby the microprocessor. These lamps provideobvious, immediate status feedback to any on-site operator or maintenance personnel.

Serial PortsSerial communications are provided

through two communications ports. COM0 iseither RS-232 or RS-485 compatible. COM1 isRS-232 compatible. Both ports allow communi-cations rates between 300bps and 57.6kbps,and use eight data bits, no parity, and one stopbit. Both ports are set at the factory to 1200bps.

Monitor InputsThe following analog inputs are monitored

by the microprocessor via the ADC:

• PA temperature

• All three PLL synthesizer VCO controlvoltages

• PA power output

• PA GaAs FET negative gate bias

• Each individual PA power supply

• Main +13V power supply

• M & C board +5V power supply

• LNC power supply

• TX IF power input (70 MHz)

• RX IF power output (70 MHz)

The following digital inputs are monitoredby the microprocessor:

• Synthesizer lock detect alarm (monitorsall three PLLs separately)

• Cooling fan failure (if fan is installed)

Control OutputsThe microprocessor controls:

• TX gain

• RX gain

• OCXO fine frequency adjust

• Transmit ON/OFF switching

• Sequenced PA power supply control

• Serial control data for the transmit andreceive frequency synthesizers.

The PA power supplies are sequenced onpower-up to limit the initial power surge thatwould otherwise result.

The programmable counters in the PLLfrequency synthesizers are loaded by the mi-croprocessor. Both are connected to the samedata and clock lines, and have independentstrobes.

Figure 4-12. Monitor and Control Unit Board.

ANACOM 3072307


Non-Microprocessor-BasedMonitor Functions

Separate monitor functions are imple-mented in hardware as a fail-safe in the unlikelyevent of a microprocessor lock-up. These func-tions disable the transmitter independently ofany microprocessor commands.

• Heat sink overtemperature fault

• –5V GaAs FET bias supply failure

• Offset PLL failure

• Transmit synthesizer failure

Alarm RelaysTwo mechanical relays are used in the

ANASAT®-C transceiver for alarm indication.One is for major alarms and the other is for mi-nor alarm conditions. The red LED mounted onthe transceiver is illuminated whenever eitherthe minor or major alarm relays indicate a prob-lem exists.

The major alarm relay has normally-closedcontacts, so it defaults to the alarm state whenpower is off.

The alarm relays can be re-configured viasoftware to become summary TX and RX alarmrelays. See ALARM_MODE in Appendix A.

Power DistributionThe M & C unit takes +13V DC input from

the system power supply and generates severaladditional supplies:

• +5V for the M & C unit

• +5V for the converter unit

• +12V for programming the FLASHmemory and running the LNC

• –5V for the GaAs FET active bias

• 11V for the PA (PA1 through PA6)

All supplies are regulated through lownoise linear regulators. The 11V supply for thePA is actually four, five, or six separate regula-tors (the number of regulators employed de-pends upon which transceiver PA power levelused) for isolation and power surge control rea-

sons. Voltage and/or current is monitored foreach supply. Additionally, a high accuracy, tem-perature compensated voltage reference is em-ployed for the DAC and ADC.

PA Active Bias GenerationThe GaAs FETs used in the PA require a

negative gate voltage for operation. These veryexpensive devices are easily destroyed with im-proper bias. ANASAT®-C transceivers employan active bias circuit with feedback to automati-cally control the DC power consumption of eachPA stage.

Microwave Synthesizer FrequencyReference

All transceiver operating frequencies aresynthesized from one 10 MHz reference oscilla-tor. This clock is a high accuracy, high stabilityoven controlled crystal oscillator (OCXO) mod-ule guaranteed within ± 1 x 10–8 Hz. The M &C unit periodically compensates for crystal ag-ing automatically.

Power SupplyANASAT®-C transceivers use a wide input

voltage (100 to 240VAC, 50/60Hz) switchingpower supply to develop the +13V used as theinternal power source. An internal circuit senseswhich input voltage range is being used and au-tomatically switches modes. Figure 4-13 showshow the power supply is mounted in the trans-ceiver. The AC input is connected via a3-pin circular connector.

Figure 4-13

The 13V Power supply is mounted inside the cover.

ANACOM 3072307

ANACOM ANASAT®–C Transceiver 5-1 Maintenance

Section 5. Maintenance

ANASAT®-C series transceivers are de-signed for a minimum of maintenance. The on-board microprocessor monitors all vital func-tions to ensure proper operation. Periodicscheduled maintenance is not required.

Aging of the ovenized reference oscillatoris automatically microprocessor compensated,further reducing maintenance worries.

Various operational voltages may be moni-tored via either serial port.

At the time of installation, it is recom-mended that each of these points be recorded.If problems occur later, these initial recordedvalues can be of great help troubleshooting thesystem. The following table may be used torecord the operating parameters. Note that sev-eral of these values are specific to the setup.For example, the RX SYNTH voltage willchange if RX CHAN (the receive frequency) ischanged.

Parameter Normal Range Installed ValueTXCHAN model dependent

TXGAIN model dependent

RXCHAN model dependent

RXGAIN 85 to 100

OSLPLL 1.9 to 11 volts

TXPLL 1.9 to 11 volts

RXPLL 1.9 to 11 volts

TEMP –30 to +60

LNCV +11 to +14

P12V +12 to +14

P5V +4.7 to +5.3

N5V –5.3 to –4.3

TXin –40 to –20 dBm

TXout model dependent

RXout site dependent

PA1 0V or 5 to 11 volts

PA2 0V or 5 to 11volts





ANACOM 3072307

Maintenance 5-2 ANACOM ANASAT®–C Transceiver

LNC ReplacementAlthough the ANASAT-C family of trans-

ceivers is designed to need no normal mainte-nance, if it ever becomes necessary to replacethe LNC, this procedure may be accomplishedin the field with a minimum of equipment..

Two indications point to a faulty LNC:

1) Improper LNC Voltage

2) Receive IF output level low

Both of the above parameters are reportedby the remote M & C terminal display.

LNC Replacement Procedure

1) Remove power from the transceiver.

2) Disconnect the coax cable N-connectorfrom the LNC.

3) Unbolt the LNC from the antennamount. Save the weather tight gasketfor reuse.

4) Attach the new LNC to the flange, usingthe gasket.

5) Reconnect the coax cable to the LNC N-connector.

6) Reapply power.

7) Verify receive gain with a known signal.

Checking Receive GainAfter the LNC is replaced, the system gain

calibration may be affected. Check receive gainwith a known signal.

1) Connect a satellite modem or a spec-trum analyzer to the transceiver IF out-put (RXIF).

2) Monitor RXIF output from a known sig-nal source (satellite or signal generatorsource).

3) Connect a terminal to the RS-232 or M& C ports on the transceiver. Using theM & C command RXGAIN nnn (see Ap-pendix A), adjust receive gain until themodem or spectrum analyzer shows anacceptable signal level.

4) If necessary, use the OFFSET_RXG com-mand for accurate receive gain correla-tion (see Appendix A for details).

Transmitter RF output power lev-els are adequate to cause blind-ness or other serious injury tobody tissues. Use caution whenworking around the transceiver orantenna when the transmitter isactive.

!

ANACOM 3072307

ANACOM ANASAT®–C Transceiver 5-3 Maintenance

LIMITED WARRANTY

If this product should fail due to defects in materials or workmanship, ANACOM Inc. will, at itssole option, repair or replace it with new or rebuilt parts, free of charge, for two (2) years from thedate of its shipment from the ANACOM factory. This warranty covers only failures due to defects inmaterials and workmanship which occur during normal use during the period of the warranty. Itdoes not cover damage which occurs in shipment or failures caused by products not supplied byANACOM Inc. or its authorized contractors or agents, or any failure caused by operation of theproduct outside of its published electrical or environmental specifications, or any causes other thanordinary use. Expendable components are not covered by this warranty.

In order to exercise your rights to repairs under the warranty, you must first contact ANACOMto obtain a repair authorization number. If it is necessary to return the product for repair, you are re-sponsible for paying the cost of shipping it to ANACOM. ANACOM will pay the cost of shipping theproduct to you when repairs are completed.

There are no express warranties except as listed above. In no event shall ANACOM be liablefor special, incidental, or consequential damages, or taxes or license fees arising from the use ofthis product, or arising out of any breach of this warranty. All express and implied warranties, includ-ing the warranties of merchantability and fitness for a particular purpose, are limited to the appli-cable warranty period set forth above. No employee or representative of ANACOM is authorized tomodify this warranty or ANACOM’s standard warranty for any product.

Non-warranty repair service is available from ANACOM for a nominal charge. Non-warranty re-pair service can be obtained by contacting ANACOM and requesting a return authorization number,as described above. You are responsible for paying the cost of shipping the unit both to and fromANACOM for any non-warranty repairs. Non-warranty repair service is available for any ANACOMproduct up to five years from the date of its first shipment from ANACOM’s factory.

ANACOM 3072307

Maintenance 5-4 ANACOM ANASAT®–C Transceiver

ANACOM 3072307

ANACOM ANASAT®–C Transceiver A-1 Appendix A

Appendix A. M & C Command SetThe transceiver will not respond to any command until a carriage return has been entered,

terminating the command input. Multiple commands may be entered before a carriage return, using“;” as a delimiter. Example:

TXCHAN 54; RXCHAN 36; SAVEwill set the transmit channel to 54, the receive channel to 36 and save these changes to a FLASHEEPROM. A transceiver response to user input can also be delimited in similar fashion.

If a command is not recognized, an error message is returned. For example, if “foo <cr>” isentered, the following is returned:

??????? foo

Alphabetical Listing of M & C CommandsCommand PageALARMS .................................................................................................................. A-2ALARM_MODE ....................................................................................................... A-3BAUDRATE ............................................................................................................. A-3CLEAR_PASSWORD .............................................................................................. A-3CLS.......................................................................................................................... A-3CRLF ....................................................................................................................... A-3DTE ......................................................................................................................... A-3ECHO ...................................................................................................................... A-4HELP ....................................................................................................................... A-4LABEL ..................................................................................................................... A-4LOCK PASSWORD ................................................................................................. A-4MODE ...................................................................................................................... A-4MODEM_MODE ...................................................................................................... A-4MODEM_STRING ................................................................................................... A-4MSG ........................................................................................................................ A-5OFFSET .................................................................................................................. A-5PC_MODE ............................................................................................................... A-5PORT_TO_PORT.................................................................................................... A-5REFRESH ............................................................................................................... A-5RESET..................................................................................................................... A-5RXCHAN ................................................................................................................. A-5RXGAIN ................................................................................................................... A-5SAVE ....................................................................................................................... A-5SET_PASSWORD................................................................................................... A-6TERMTYPE ............................................................................................................. A-6TX ............................................................................................................................ A-6TXCHAN .................................................................................................................. A-6TXGAIN ................................................................................................................... A-7UNLOCK PASSWORD............................................................................................ A-7UTIMER ................................................................................................................... A-7WARMUP ................................................................................................................ A-7

Appendix A A-2 ANACOM ANASAT®–C Transceiver

ANACOM 3072307

ANASAT®-CM & C CommandsALARMS

This command returns a list of raised alarms for the given transceiver. The pos-sible alarms are: WARMING, FANERR, OSLOCK, TXLOCK, RXLOCK, UCMUTE,PATEMP, TXOUT, P12V, PA, N5V, OSLPLL, TXPLL, RXPLL, P5V, LNCV,PROMERR and RXOUT.

If there are no alarms then “ALARMS CLEAR” is returned. Status of all indi-vidual alarms is evaluated ten times a second.

Alarms are categorized as MAJOR and MINOR, major alarms cause the ex-ternal red LED on the transceiver to begin flashing. If there are no alarms, the statusof the transceiver is CLEAR.

MAJOR ALARMSOSLOCK raised when the OFFSET PLL has lost lockTXLOCK raised when the TX PLL has lost lockRXLOCK raised when the RX PLL has lost lockUCMUTE raised when the hardware mute circuit on the M & C board is active

(this includes external TX shutdown)PATEMP when the heat sink temperature exceeds approx 85oCPA raised when any active power amplifier voltage drops too lowN5V raised when the -5 volt supply drops too farLNCV raised when the LNC supply voltage drops too farRXOUT raised when the RX IF output power becomes too lowPROMERR raised if a write or erase operation in the PROM fails

MINORWARMING when the warm-up software function is active upon reset or power

cycling (power turn on)FANERR raised when fan current becomes too low (if a fan is installed)TXOUT raised when PA output is deemed by software to be too highP12V the primary 13V supply drops below a specified levelP5V the 5V supply on the M & C board drops below a specified levelOSLOOP OS VCXO voltage exceeds a specified range –may still be lockedTXLOOP UC VCXO voltage exceeds a specified range –may still be lockedRXLOOP DC VCXO voltage exceeds a specified range –may still be locked

There are alarm conditions which can shutdown the PA stage: WARMING andOSLOCK, TXLOCK, PATEMP, and N5F. When these alarms are active, the PA stageis shutdown via the supply lines which feed it. This may cause the PA alarm to beraised as well. The WARMUP alarm may be disabled with the WARMUP command.

ANACOM 3072307


ALARM_MODE [ NORMAL | PROTECTION ]

There are two modes for alarm relay operation: Normal and Protection. In theNORMAL mode, the relays operate as MAJOR and MINOR relays as describedabove. In PROTECTION mode, the relays become redefined as TX and RX sum-mary fault relays. The relay normally called MAJOR becomes the TX relay and therelay normally called MINOR becomes the RX relay.

In normal operation, the MAJOR relay is energized so that a power fault causesthe relay to relax and thus provide an alarm contact closure. The MINOR relay isnormally not energized (non-alarm state). During PROTECTION operation, both re-lays are normally energized (no alarms). Therefore, the RX relay has reverse defini-tion of its contacts (NO and NC) for PROTECTION operation compared to its NOR-MAL operation.

BAUDRATE [300 | 1200 | 2400 | 4800 | 9600 | 19200 | 38400 | 57600]

This command sets the baudrate of the serial channel the user is presently con-nected to. Both serial ports have been programmed for 8 bits, no parity and 1 stopbit. These parameters are not user changeable.

CLEAR_PASSWORD PASSWORDThis command will clear an existing password. Note that the password must be

given in order for it to be cleared.

CLSIn terminal mode, 25 line feeds are sent to the terminal, effectively clearing the

screen. In VT52 and VT100 modes, CLS refreshes the display.

CRLF [ON | OFF]This command is only relevant to dumb-terminal mode. It sets (or returns) car-

riage-return/line-feed status. “CRLF ON” will command the M & C computer to inserta line-feed in display output following a carriage return. This can be necessary tomake some terminal displays operate properly. In other cases this would be redun-dant.

DTE

DTE0 [COMMAND]

DTE1 [COMMAND]These commands return a string of data regarding the specified serial port. If

no port is specified then the present serial port is used.Using DTE0 and DTE1 it is possible to change some of the serial port param-

eters for the serial port other than the one the operator is presently connected to.This could be especially useful for baud rate. Example of operator input from a termi-nal attached to serial port 0:

dte1 baudrate 19200The valid commands which can be used in this fashion for the opposing serial

port are BAUDRATE, TERMTYPE, ECHO, CRLF, MODEM_MODE, PC_MODE, andTERMINAL_MODE.

See the explanations for those commands elsewhere in this appendix.


ANACOM 3072307

ECHO [ON | OFF]This command is only relevant in dumb-terminal mode. It sets (or returns)

character echo mode. For example, if the operator is running a terminal emulationprogram on his PC with local echo disabled, type

ECHO ONto enable echo back from the M & C computer. If the terminal is displaying doubledup characters, use ECHO OFF.

HELP?H

This command displays a menu of available commands for quick reference.

LABEL [TEXT]This command erases or [sets] an alphanumeric string up to 32 characters long

that the user can use to “title” or describe the purpose of the given ODU.

LOCK PASSWORDWith this command most M & C functions will be locked and further user access

will be denied until the UNLOCK command is given. Those commands which remainuser accessible are: UNLOCK, CLS, ALARMS, and LIST.

If a password has been established with the SET_PASSWORD command thenthat password must be used with the LOCK command. If there is no establishedpassword (if CLEAR_PASSWORD has been used, for instance), then M & C functionswill be locked; but they can be unlocked without a password. There are two solu-tions to the problem of having a locked unit and/or a forgotten password:

1. The unit can be reset using the internal DIP switches. See Appendix D.2. If the unit is attached to a modem, and presently accessible remotely,

telephone ANACOM.

MODEThis command returns either MODEM_MODE or PC_MODE. Example: MODE

might return MODE MODEM_MODE when the user is connected to the unit via a phoneline and a Hayes compatible modem.

MODEM_MODEThis command is used to tell the M & C computer that a Hayes compatible mo-

dem is attached to the serial port. The way this would be used is a user would enterthis command from a PC using a null modem cable, then disconnect the PC and at-tach a modem directly to the port via a modem cable. RX, TX, DCD and signalGND lines must be properly connected.

Once MODEM_MODE is activated, the M & C computer will no longer displaydumb terminal display updates or generate packets in packet mode until the DATA-CARRIER_DETECT line becomes active, indicating the modem is off-hook and con-nected to another modem.

MODEM_STRING [TEXT]When the M & C computer is in modem mode it will periodically send a Hayes

compatible initialization string of up to 40 characters to the modem to make sure it isproperly configured. The user can get [set] this string via this command. The defaultstring as part of factory settings is:

MODEM_STRING AT S0=1 &C1 &S0 \Q0 E0

ANACOM 3072307


MSG TEXTThis command allows an operator connected to one serial port to send an

ASCII message to someone connected to the other port. A message received will ap-pear on the other operator’s screen prefixed with the prompt MESSAGE>.

OFFSET [TXGAIN | RXGAIN] [number]This command gets [sets] a floating point offset for TX or RX calibration tables.

The valid arguments are: TXGAIN, RXGAIN.The default values for these offsets is 0. Example usage:OFFSET TXGAIN 2The result of this is that the output would be 2 dB greater than what would oth-

erwise be transmitted. In other words, the TX gain range would be shifted down bytwo decibels. If a TXGAIN of 72 dB were requested, the calibration data interpolationwould be done internally with the value of 74 dB. If the user measures the TX gainwith a power meter and finds that gain is high by 1.5 dB, then he might enter:

OFFSET TXGAIN –1.5

PC_MODEThis is the converse of MODEM_MODE. At any time, the user may type

PC_MODE and the M & C computer will again behave as if a PC or network is directlyattached to the serial port rather than a modem.

PORT_TO_PORT [ON|OFF]

This command sets (gets) the status of the port_to_port function. When activeon, then function re-transmits all serial port data from COM0 to COM1 and also fromCOM1 to COM0 regardless of data content. If the M & C interprets data as a legiti-mate command then the command is acted on. Otherwise the data is ignored by theM & C. When ON, the M & C does not issue ??????? when data is received whichdoes not conform to a proper command.

WARNING: When this function is ON, the M & C will not automatically changebaudrate to 1200 when the external data is changed to 1200.

REFRESHThis command refreshes the RF hardware to presently chosen receive and

transmit channels and gain settings.

RESETThis command resets the M & C computer. Power-on time will reset to zero.

Warning: RESET will shut down the transceiver momentarily.

RXCHAN [number | INC | DEC]This command gets [sets] the receive channel number. See Appendix E for

channel frequency information. NOTE: Channel 0 is not a valid selection.

RXFREQ [number]This command gets [sets] receiver frequency (MHz) for RXOUT at 70 MHz (140

MHz). The range of [number] depends on the model.

RXGAIN [number]This command gets [sets] receiver gain. The acceptable range is a two or three

digit integer between 85 and 100 (dB).


ANACOM 3072307

SAVEThis command saves present M & C operating parameters to a FLASH

EEPROM.

SET_PASSWORD PASSWORD PASSWORDThe M & C computer supports password control of M & C functions. One po-

tential use of this feature would be for leaving an ODU connected to a modem on anopen telephone line. A valid password must be an alphanumeric string with no im-bedded blanks, and between four and eight characters long inclusive. It must begiven twice to ensure accuracy.

An existing password must first be cleared before setting a new password. Thisis done with the CLEAR_PASSWORD command.

TERMTYPE [TTY | VT52 | VT100]This command is only relevant to dumb-terminal mode. It sets (or returns) the

terminal emulation mode.TTY Terminal Mode: this is a basic 80 character by 25 line ASCII “dumb” termi-

nal mode.VT52 Mode: This is a standard terminal emulation, more intelligent than TTY.VT100 Mode: This in an enhanced communications terminal emulator with a

fixed display window.There are some control characters that will be filtered by the terminal driver

when the M & C computer is in terminal mode. These control characters will be ig-nored in packet mode.

CTRL-E: This will erase the screen, similar to the CLS command.CTRL-R: This repeats execution of the last Carriage return terminated com-

mand.CTRL-Q: refer to the description of CTRL-S.CTRL-S: Periodic screen updates will be squelched until the user has

finished entering present command or hits CTRL-Q.CTRL-BS: (Backspace) The present input command will be erased

TX [ON | OFF]TXREQ [ON | OFF]TXREQUEST [ON | OFF]

This command requests activation of the transmitter. This is done by enablingthe PA supply voltages. TXREQ ON will indicate the operator’s desire to begin trans-mission. With no argument TXREQ simply return its present state as ON or OFF.Note that the unit will be shipped with TXREQ set to OFF.

Exactly when are we “ON AIR?” The answer is when TXREQ is ON, the hard-ware alarm TXMUTE is clear, and the transmitter is not software inhibited to allow thecrystal reference oscillator time to warm-up at power-on. See the WARMUP commandfor details.

TXCHAN [number]This command gets [sets] the transmit channel number. The acceptable range

depends upon model type. See Appendix E for channel frequency information. Chan-nel 0 is not a valid selection.

ANACOM 3072307


TXFREQ [number] This command gets [sets] the transmit channel number. The acceptable range

depends upon the model type. The [number] is the actual transmit frequency outputwith TXIF at 70 MHz [or 140 MHz].

TXGAIN [number | INC | DEC]This command gets [sets] or returns the transmit gain. The acceptable range of

the number is dependent upon model.nn ranges from: 10 to 36dB for the ANASAT-0C

44 to 70dB for the ANASAT-2C48 to 74 dB for the ANASAT-5C51 to 77 dB for the ANASAT-10C54 to 80 dB for the ANASAT-20C54 to 83 dB for the ANASAT -40C

UNLOCK PASSWORDThis command will unlock M & C functions for user access.

UTIMER [NUMBER]This command is only relevant to dumb-terminal mode. It sets (or returns) the

number of seconds between automatic display updates. Note that changing baudrate will automatically revert to a default appropriate for that particular baudrate.

WARMUP [ON | OFF | CANCEL]Upon transceiver power-up, a 5 minute period will pass to allow the reference

oscillator crystal oven sufficient warm up time. The unit is shipped with this flag setOFF, but can be changed by the user. Because there is no way for the M & C com-puter to know how long it has been off the air, a reset or momentary loss of powerwill cause a warm-up countdown to occur when the feature is in use. WARMUP CAN-CEL will terminate a warm-up countdown and immediately enable the transmitter.

TXD; TXDAC [NUMBER]This command bypasses the transmit numerical gain compensation by the

M&C. It will issue [number] 1 to 255 to the TX gain control element. This is fortroubleshooting use only and transceiver should not be left in this mode as the nu-merical compensation (temp. + freq.) would be disabled.

RXD; RXDAC [NUMBER]This command bypasses the receive numerical gain compensation by the M&C.

It will issue [number] 0 to 255 to the RX gain control element. This is for trouble-shooting use only and transceiver should not be left in this mode as the numericalcompensation (temp. + freq.) would be disabled.


ANACOM 3072307

ANACOM ANASAT®–C Transceiver B-1 Appendix B

ANACOM 3072307

Appendix B. Alarm ListThe ANASAT-C transceiver features sophistocated internal monitoring. If an abnormal

condition occurs, a description of the abnormality is sent via the M & C serial port to theoperator’s console.

These alarms are divided into two categories: major alarms and minor alarms. When aTX major alarm condition is detected, the transmitter is immediately pulled OFF the air. Anadvisory message is sent to the operator via the serial port and the red ALARM LED, vis-ible from outside the transceiver, begins flashing. Most major alarms are generated directlyby hardware detectors inside the unit. Minor alarms do not disable the transmitter or lightthe LED, but still cause an advisory message on the serial port. Most minor alarms aregenerated by M & C software routines which look for out of tolerance conditions.

MAJOR ALARMSOSLOCK the OS PLL is not lockedTXLOCK the TX PLL is not lockedRXLOCK the RX PLL is not lockedPATEMP the PA heat sink temperature becomes excessivePA one of the PA voltages is too low or too highN5V the –5 volt supply is out of toleranceLNCV the LNC supply voltage is too lowPROMERR the M & C PROM checksum failsRXOUT the RX output noise floor becomes too low - external power loss

MINORWARMING the warm-up software function is enabled upon reset or power-upFANERR fan fails (if a fan is installed)TXMUTE when the TX is disabled (internally by alarms or externally)P12V the primary +13V supply is too lowP5V the +5V supply on the M&C board is too lowOSLPLL OS VCO voltage is out of range — can still be lockedTXPLL UC VCO voltage is out of range — can still be lockedRXPLL DC VCO voltage is out of range — can still be locked

ALARMS WHICH TURN OFF TRANSMITTERWARMING software settable to mute the TX during the warmup period, or notPATEMP PA temperature is excessive. Automatically resets when coolerTXMUTE when the TX is disabled (internally by alarms or externally)OSLOCK OS PLL is not lockedUCLOCK UC PLL is not lockedN5V the –5V supply failed. Probable PA damage if PA is not shut down.

ANACOM 3072307

Appendix B B-2 ANACOM ANASAT®–C Transceiver

For situations when the ALARM_MODE is set to PROTECTION, the alarm relays are re-defined as TX and RX alarm relays instead of MAJOR and MINOR. The M & C softwarestill considers the alarms as either major or minor and will communicate alarms via theserial ports and the front panel red LED as major or minor.

In PROTECTION mode, the alarm relays will engage based on the following alarm list:

TX

OSLOCK the OS PLL fails to lock

TXLOCK the TX PLL fails to lock

PATEMP the PA temperature is too high

N5V the –5V supply is out of tolerance

PA one of the PA supply voltages is out of tolerance

- external power loss

RX

LNCV LNC voltage too low

OSLOCK OS PLL is not locked

RXLOCK RX PLL is not locked

RXOUT RX output noise floor is too low (low gain)

- external power loss

ANACOM 3072307

ANACOM ANASAT®–C Transceiver C-1 Appendix C

Appendix C. Serial Port WiringCOM1, 6-Pin Circular Weathertight Connector

Cable End ViewCable Wire View

Pin Signal Description1 DTR Data Terminal Ready2 DCD Data Carrier Detect3 DSR Data Set Ready4 RXD Receive Data5 TXD Transmit Data6 GND Ground

Note dimple next to pin 1

COM0, 18-Pin Circular Weathertight Connector

Cable Wire ViewCable End View

18 17

1615

14

1312

11

10

9

78

65

4

3

21

1 65

4

32

65

43

2

1

1

2

3

456

7

9

10 1112

13

141516

17 18

8

Pin Signal Description10 RX+ Differential Receive Data11 RX- Differential Receive Data12 RS485 RS485 Jumper (open for 232)13 TXM TX Mute*14 DTR Data Terminal Ready15 DCD Data Carrier Detect16 RXD Receive Data17 TXD Transmit Data18 GND Ground

Pin Signal Description1 RY1NO Minor Alarm Normally Open2 RY1NC Minor Alarm Normally Close3 RY1C Minor Alarm Common4 RY2NO Major Alarm Normally Open5 RY2NC Major Alarm Normally Close6 RY2C Major Alarm Common7 P13V +13V DC Power8 TX+ Differential Transmit Data9 TX- Differential Transmit Data

Note dimple next to pin 1

ANACOM 3072307

Appendix C C-2 ANACOM ANASAT®–C Transceiver

Figure C-1. RS232 Serial Cable Connections. Computer or terminal connections.

Note: Select either the 9 or 25 pin female “D” connector to match your particular data terminal.Some terminals may not need the DTR, DSR, or DCD connections.

RS485/RS232 Selection(COM1, 18-Pin Connector Only)

Pin 12 of the 18-pin Weathertight circular connector is the RS485/RS232 mode selectpumper pin. Connect Pin 12 to Ground (Pin 18) for RS485 operation. Leave open forRS232 operation. This has no effect on the other serial port.

Data Terminal ConnectionUsing a serial cable with a connector on one end that matches your terminal equip-

ment (either a “dumb” terminal or a computer running terminal emulator or modem soft-ware), connect the 6-pin or 18-pin Weathertight circular connector to the other end, follow-ing Figure C-5 and the applicable previous table.

Alternative Alarm Relay WiringFor protected installations, it may be desired to operate the transceiver with the alarm

relays reporting separate TX and RX alarms instead of the normal Major and Minor alarms.See Appendix A for the ALARM_MODE command. When operating in PROTECTIONmode, the alarm relays on the M&C connector should be wired per this chart:

Pin Signal Description1 RY1NC RX Alarm Normally Closed2 RY1NO RX Alarm Normally Open3 RY1C RX Alarm Common4 RY2NO TX Alarm Normally Open5 RY2NC TX Alarm Normally Closed6 RY2C TX Alarm Common

Note: Only the first 6 pins of this 18 pin connector are shown. All other pins areas shown on the previous page.

25 pin “D” 9 pin “D” SIGNAL 6 pin circular 18 pin circular

7 5 GROUND 6 183 2 TX DATA 5 172 3 RX DATA 4 166 6 DSR 38 1 DCD 2

20 4 DTR 1

Anacom provides a 10 ft. long M&C cable with each unit with DB-9 & 6 pin circularconnectors.

ANACOM 3072307

ANACOM ANASAT®–C Transceiver D-1 Appendix D

Appendix D. Hardware Configuringthe Transceiver(Optional switch package required)

The optional switch package is located on the end of the M & C board opposite thecrystal oscillator.

!

Use extreme caution when opening the transceiver. Donot expose the unprotected transceiver or subassembliesto moisture.

M & C Board. Switches are on the upperright side of the board (inside box).

A close-up view of the optional switch package.

Switch Package

DOWN UP DOWN UPS5

ANACOM 3072307

Appendix D D-2 ANACOM ANASAT®–C Transceiver

Switch Function OFF ON1 Reserved — —2 Clear Password Normal Clear Password3 Terminal Baud Rate Selection (see Table)4 Terminal Baud Rate Selection (see Table)5 Terminal Baud Rate Selection (see Table)6 Terminal Type TTY VT1007 Terminal Mode (note 1) DTE1 DCE18 Hard Reset (note 2) Normal Reset on reboot

Note 1: DTE1 is PC or terminal mode. DCE1 is modem mode.Note 2: DIP switch settings will override saved parameters.

Figure D-1. ANASAT®-C Internal DIP Switches. Switches shown in the factory default (OFF) position.

M & C Unit DIP Switch Positions

1 8765432

ONOFF

DIP Switch Baud Rate3 4 5 (bps)1 1 1 3000 0 0 12001 0 0 24000 1 0 48001 1 0 96000 0 1 19,2001 0 1 38,4000 1 1 57,600

Terminal Baud Rate Selection

Note: all serial communications with the ANASAT®-C Transceiver are accomplishedwith eight data bits, no parity, and one stop bit (8N1) protocol.

ANACOM 3072307

ANACOM ANASAT®–C Transceiver E-1 Appendix E

Ch. RX TXMHz MHz

Ch. RX TXMHz MHz

Ch. RX TXMHz MHz

Ch. RX TXMHz MHz

51 3750 597552 3751 597653 3752 597754 3753 597855 3754 597956 3755 598057 3756 598158 3757 598259 3758 598360 3759 598461 3760 598562 3761 598663 3762 598764 3763 598865 3764 598966 3765 599067 3766 599168 3767 599269 3768 599370 3769 599471 3770 599572 3771 599673 3772 599774 3773 599875 3774 599976 3775 600077 3776 600178 3777 600279 3778 600380 3779 600481 3780 600582 3781 600683 3782 600784 3783 600885 3784 600986 3785 601087 3786 601188 3787 601289 3788 601390 3789 601491 3790 601592 3791 601693 3792 601794 3793 601895 3794 601996 3795 602097 3796 602198 3797 602299 3798 6023100 3799 6024

101 3800 6025102 3801 6026103 3802 6027104 3803 6028105 3804 6029106 3805 6030107 3806 6031108 3807 6032109 3808 6033110 3809 6034111 3810 6035112 3811 6036113 3812 6037114 3813 6038115 3814 6039116 3815 6040117 3816 6041118 3817 6042119 3818 6043120 3819 6044121 3820 6045122 3821 6046123 3822 6047124 3823 6048125 3824 6049126 3825 6050127 3826 6051128 3827 6052129 3828 6053130 3829 6054131 3830 6055132 3831 6056133 3832 6057134 3833 6058135 3834 6059136 3835 6060137 3836 6061138 3837 6062139 3838 6063140 3839 6064141 3840 6065142 3841 6066143 3842 6067144 3843 6068145 3844 6069146 3845 6070147 3846 6071148 3847 6072149 3848 6073150 3849 6074

151 3850 6075152 3851 6076153 3852 6077154 3853 6078155 3854 6079156 3855 6080157 3856 6081158 3857 6082159 3858 6083160 3859 6084161 3860 6085162 3861 6086163 3862 6087164 3863 6088165 3864 6089166 3865 6090167 3866 6091168 3867 6092169 3868 6093170 3869 6094171 3870 6095172 3871 6096173 3872 6097174 3873 6098175 3874 6099176 3875 6100177 3876 6101178 3877 6102179 3878 6103180 3879 6104181 3880 6105182 3881 6106183 3882 6107184 3883 6108185 3884 6109186 3885 6110187 3886 6111188 3887 6112189 3888 6113190 3889 6114191 3890 6115192 3891 6116193 3892 6117194 3893 6118195 3894 6119196 3895 6120197 3896 6121198 3897 6122199 3898 6123200 3899 6124

ANASAT®-C Satellite Channels

1 3700 59252 3701 59263 3702 59274 3703 59285 3704 59296 3705 59307 3706 59318 3707 59329 3708 593310 3709 593411 3710 593512 3711 593613 3712 593714 3713 593815 3714 593916 3715 594017 3716 594118 3717 594219 3718 594320 3719 594421 3720 594522 3721 594623 3722 594724 3723 594825 3724 594926 3725 595027 3726 595128 3727 595229 3728 595330 3729 595431 3730 595532 3731 595633 3732 595734 3733 595835 3734 595936 3735 596037 3736 596138 3737 596239 3738 596340 3739 596441 3740 596542 3741 596643 3742 596744 3743 596845 3744 596946 3745 597047 3746 597148 3747 597249 3748 597350 3749 5974

ANACOM 3072307

Appendix E E-2 ANACOM ANASAT®–C Transceiver

Ch. RX TXMHz MHz

Ch. RX TXMHz MHz

Ch. RX TXMHz MHz

Ch. RX TXMHz MHz

201 3900 6125202 3901 6126203 3902 6127204 3903 6128205 3904 6129206 3905 6130207 3906 6131208 3907 6132209 3908 6133210 3909 6134211 3910 6135212 3911 6136213 3912 6137214 3913 6138215 3914 6139216 3915 6140217 3916 6141218 3917 6142219 3918 6143220 3919 6144221 3920 6145222 3921 6146223 3922 6147224 3923 6148225 3924 6149226 3925 6150227 3926 6151228 3927 6152229 3928 6153230 3929 6154231 3930 6155232 3931 6156233 3932 6157234 3933 6158235 3934 6159236 3935 6160237 3936 6161238 3937 6162239 3938 6163240 3939 6164241 3940 6165242 3941 6166243 3942 6167244 3943 6168245 3944 6169246 3945 6170247 3946 6171248 3947 6172249 3948 6173250 3949 6174

251 3950 6175252 3951 6176253 3952 6177254 3953 6178255 3954 6179256 3955 6180257 3956 6181258 3957 6182259 3958 6183260 3959 6184261 3960 6185262 3961 6186263 3962 6187264 3963 6188265 3964 6189266 3965 6190267 3966 6191268 3967 6192269 3968 6193270 3969 6194271 3970 6195272 3971 6196273 3972 6197274 3973 6198275 3974 6199276 3975 6200277 3976 6201278 3977 6202279 3978 6203280 3979 6204281 3980 6205282 3981 6206283 3982 6207284 3983 6208285 3984 6209286 3985 6210287 3986 6211288 3987 6212289 3988 6213290 3989 6214291 3990 6215292 3991 6216293 3992 6217294 3993 6218295 3994 6219296 3995 6220297 3996 6221298 3997 6222299 3998 6223300 3999 6224

301 4000 6225302 4001 6226303 4002 6227304 4003 6228305 4004 6229306 4005 6230307 4006 6231308 4007 6232309 4008 6233310 4009 6234311 4010 6235312 4011 6236313 4012 6237314 4013 6238315 4014 6239316 4015 6240317 4016 6241318 4017 6242319 4018 6243320 4019 6244321 4020 6245322 4021 6246323 4022 6247324 4023 6248325 4024 6249326 4025 6250327 4026 6251328 4027 6252329 4028 6253330 4029 6254331 4030 6255332 4031 6256333 4032 6257334 4033 6258335 4034 6259336 4035 6260337 4036 6261338 4037 6262339 4038 6263340 4039 6264341 4040 6265342 4041 6266343 4042 6267344 4043 6268345 4044 6269346 4045 6270347 4046 6271348 4047 6272349 4048 6273350 4049 6274

351 4050 6275352 4051 6276353 4052 6277354 4053 6278355 4054 6279356 4055 6280357 4056 6281358 4057 6282359 4058 6283360 4059 6284361 4060 6285362 4061 6286363 4062 6287364 4063 6288365 4064 6289366 4065 6290367 4066 6291368 4067 6292369 4068 6293370 4069 6294371 4070 6295372 4071 6296373 4072 6297374 4073 6298375 4074 6299376 4075 6300377 4076 6301378 4077 6302379 4078 6303380 4079 6304381 4080 6305382 4081 6306383 4082 6307384 4083 6308385 4084 6309386 4085 6310387 4086 6311388 4087 6312389 4088 6313390 4089 6314391 4090 6315392 4091 6316393 4092 6317394 4093 6318395 4094 6319396 4095 6320397 4096 6321398 4097 6322399 4098 6323400 4099 6324


ANACOM 3072307


Ch. RX TXMHz MHz

Ch. RX TXMHz MHz

Ch. RX TXMHz MHz

Ch. RX TXMHz MHz

401 4100 6325402 4101 6326403 4102 6327404 4103 6328405 4104 6329406 4105 6330407 4106 6331408 4107 6332409 4108 6333410 4109 6334411 4110 6335412 4111 6336413 4112 6337414 4113 6338415 4114 6339416 4115 6340417 4116 6341418 4117 6342419 4118 6343420 4119 6344421 4120 6345422 4121 6346423 4122 6347424 4123 6348425 4124 6349426 4125 6350427 4126 6351428 4127 6352429 4128 6353430 4129 6354431 4130 6355432 4131 6356433 4132 6357434 4133 6358435 4134 6359436 4135 6360437 4136 6361438 4137 6362439 4138 6363440 4139 6364441 4140 6365442 4141 6366443 4142 6367444 4143 6368445 4144 6369446 4145 6370447 4146 6371448 4147 6372449 4148 6373450 4149 6374

451 4150 6375452 4151 6376453 4152 6377454 4153 6378455 4154 6379456 4155 6380457 4156 6381458 4157 6382459 4158 6383460 4159 6384461 4160 6385462 4161 6386463 4162 6387464 4163 6388465 4164 6389466 4165 6390467 4166 6391468 4167 6392469 4168 6393470 4169 6394471 4170 6395472 4171 6396473 4172 6397474 4173 6398475 4174 6399476 4175 6400477 4176 6401478 4177 6402479 4178 6403480 4179 6404481 4180 6405482 4181 6406483 4182 6407484 4183 6408485 4184 6409486 4185 6410487 4186 6411488 4187 6412489 4188 6413490 4189 6414491 4190 6415492 4191 6416493 4192 6417494 4193 6418495 4194 6419496 4195 6420497 4196 6421498 4197 6422499 4198 6423500 4199 6424

501 4200 6425


ANACOM 3072307


Ch. RX TXMHz MHz

Ch. RX TXMHz MHz

Ch. RX TXMHz MHz

Ch. RX TXMHz MHz

ANASAT®-EC Satellite Channels

–75 3625 5850–74 3626 5851–73 3627 5852–72 3628 5853–71 3629 5854–70 3630 5855–69 3631 5856–68 3632 5857–67 3633 5858–66 3634 5859–65 3635 5860–64 3636 5861–63 3637 5862–62 3638 5863–61 3639 5864–60 3640 5865–59 3641 5866–58 3642 5867–57 3643 5868–56 3644 5869–55 3645 5870–54 3646 5871–53 3647 5872–52 3648 5873–51 3649 5874–50 3650 5875–49 3651 5876–48 3652 5877–47 3653 5878–46 3654 5879–45 3655 5880–44 3656 5881–43 3657 5882–42 3658 5883–41 3659 5884–40 3660 5885–39 3661 5886–38 3662 5887–37 3663 5888–36 3664 5889–35 3665 5890–34 3666 5891–33 3667 5892–32 3668 5893–31 3669 5894–30 3670 5895–29 3671 5896–28 3672 5897–27 3673 5898–26 3674 5899

–25 3675 5900–24 3676 5901–23 3677 5902–22 3678 5903–21 3679 5904–20 3680 5905–19 3681 5906–18 3682 5907–17 3683 5908–16 3684 5909–15 3685 5910–14 3686 5911–13 3687 5912–12 3688 5913–11 3689 5914–10 3690 5915–9 3691 5916–8 3692 5917–7 3693 5918–6 3694 5919–5 3695 5920–4 3696 5921–3 3697 5922–2 3698 5923–1 3699 59241 3700 59252 3701 59263 3702 59274 3703 59285 3704 59296 3705 59307 3706 59318 3707 59329 3708 593310 3709 593411 3710 593512 3711 593613 3712 593714 3713 593815 3714 593916 3715 594017 3716 594118 3717 594219 3718 594320 3719 594421 3720 594522 3721 594623 3722 594724 3723 594825 3724 5949

26 3725 595027 3726 595128 3727 595229 3728 595330 3729 595431 3730 595532 3731 595633 3732 595734 3733 595835 3734 595936 3735 596037 3736 596138 3737 596239 3738 596340 3739 596441 3740 596542 3741 596643 3742 596744 3743 596845 3744 596946 3745 597047 3746 597148 3747 597249 3748 597350 3749 597451 3750 597552 3751 597653 3752 597754 3753 597855 3754 597956 3755 598057 3756 598158 3757 598259 3758 598360 3759 598461 3760 598562 3761 598663 3762 598764 3763 598865 3764 598966 3765 599067 3766 599168 3767 599269 3768 599370 3769 599471 3770 599572 3771 599673 3772 599774 3773 599875 3774 5999

76 3775 600077 3776 600178 3777 600279 3778 600380 3779 600481 3780 600582 3781 600683 3782 600784 3783 600885 3784 600986 3785 601087 3786 601188 3787 601289 3788 601390 3789 601491 3790 601592 3791 601693 3792 601794 3793 601895 3794 601996 3795 602097 3796 602198 3797 602299 3798 6023100 3799 6024101 3800 6025102 3801 6026103 3802 6027104 3803 6028105 3804 6029106 3805 6030107 3806 6031108 3807 6032109 3808 6033110 3809 6034111 3810 6035112 3811 6036113 3812 6037114 3813 6038115 3814 6039116 3815 6040117 3816 6041118 3817 6042119 3818 6043120 3819 6044121 3820 6045122 3821 6046123 3822 6047124 3823 6048125 3824 6049

ANACOM 3072307


Ch. RX TXMHz MHz

Ch. RX TXMHz MHz

Ch. RX TXMHz MHz

Ch. RX TXMHz MHz

126 3825 6050127 3826 6051128 3827 6052129 3828 6053130 3829 6054131 3830 6055132 3831 6056133 3832 6057134 3833 6058135 3834 6059136 3835 6060137 3836 6061138 3837 6062139 3838 6063140 3839 6064141 3840 6065142 3841 6066143 3842 6067144 3843 6068145 3844 6069146 3845 6070147 3846 6071148 3847 6072149 3848 6073150 3849 6074151 3850 6075152 3851 6076153 3852 6077154 3853 6078155 3854 6079156 3855 6080157 3856 6081158 3857 6082159 3858 6083160 3859 6084161 3860 6085162 3861 6086163 3862 6087164 3863 6088165 3864 6089166 3865 6090167 3866 6091168 3867 6092169 3868 6093170 3869 6094171 3870 6095172 3871 6096173 3872 6097174 3873 6098175 3874 6099

226 3925 6150227 3926 6151228 3927 6152229 3928 6153230 3929 6154231 3930 6155232 3931 6156233 3932 6157234 3933 6158235 3934 6159236 3935 6160237 3936 6161238 3937 6162239 3938 6163240 3939 6164241 3940 6165242 3941 6166243 3942 6167244 3943 6168245 3944 6169246 3945 6170247 3946 6171248 3947 6172249 3948 6173250 3949 6174251 3950 6175252 3951 6176253 3952 6177254 3953 6178255 3954 6179256 3955 6180257 3956 6181258 3957 6182259 3958 6183260 3959 6184261 3960 6185262 3961 6186263 3962 6187264 3963 6188265 3964 6189266 3965 6190267 3966 6191268 3967 6192269 3968 6193270 3969 6194271 3970 6195272 3971 6196273 3972 6197274 3973 6198275 3974 6199

276 3975 6200277 3976 6201278 3977 6202279 3978 6203280 3979 6204281 3980 6205282 3981 6206283 3982 6207284 3983 6208285 3984 6209286 3985 6210287 3986 6211288 3987 6212289 3988 6213290 3989 6214291 3990 6215292 3991 6216293 3992 6217294 3993 6218295 3994 6219296 3995 6220297 3996 6221298 3997 6222299 3998 6223300 3999 6224301 4000 6225302 4001 6226303 4002 6227304 4003 6228305 4004 6229306 4005 6230307 4006 6231308 4007 6232309 4008 6233310 4009 6234311 4010 6235312 4011 6236313 4012 6237314 4013 6238315 4014 6239316 4015 6240317 4016 6241318 4017 6242319 4018 6243320 4019 6244321 4020 6245322 4021 6246323 4022 6247324 4023 6248325 4024 6249


176 3875 6100177 3876 6101178 3877 6102179 3878 6103180 3879 6104181 3880 6105182 3881 6106183 3882 6107184 3883 6108185 3884 6109186 3885 6110187 3886 6111188 3887 6112189 3888 6113190 3889 6114191 3890 6115192 3891 6116193 3892 6117194 3893 6118195 3894 6119196 3895 6120197 3896 6121198 3897 6122199 3898 6123200 3899 6124201 3900 6125202 3901 6126203 3902 6127204 3903 6128205 3904 6129206 3905 6130207 3906 6131208 3907 6132209 3908 6133210 3909 6134211 3910 6135212 3911 6136213 3912 6137214 3913 6138215 3914 6139216 3915 6140217 3916 6141218 3917 6142219 3918 6143220 3919 6144221 3920 6145222 3921 6146223 3922 6147224 3923 6148225 3924 6149

ANACOM 3072307


Ch. RX TXMHz MHz

Ch. RX TXMHz MHz

Ch. RX TXMHz MHz

Ch. RX TXMHz MHz

326 4025 6250327 4026 6251328 4027 6252329 4028 6253330 4029 6254331 4030 6255332 4031 6256333 4032 6257334 4033 6258335 4034 6259336 4035 6260337 4036 6261338 4037 6262339 4038 6263340 4039 6264341 4040 6265342 4041 6266343 4042 6267344 4043 6268345 4044 6269346 4045 6270347 4046 6271348 4047 6272349 4048 6273350 4049 6274351 4050 6275352 4051 6276353 4052 6277354 4053 6278355 4054 6279356 4055 6280357 4056 6281358 4057 6282359 4058 6283360 4059 6284361 4060 6285362 4061 6286363 4062 6287364 4063 6288365 4064 6289366 4065 6290367 4066 6291368 4067 6292369 4068 6293370 4069 6294371 4070 6295372 4071 6296373 4072 6297374 4073 6298375 4074 6299

376 4075 6300377 4076 6301378 4077 6302379 4078 6303380 4079 6304381 4080 6305382 4081 6306383 4082 6307384 4083 6308385 4084 6309386 4085 6310387 4086 6311388 4087 6312389 4088 6313390 4089 6314391 4090 6315392 4091 6316393 4092 6317394 4093 6318395 4094 6319396 4095 6320397 4096 6321398 4097 6322399 4098 6323400 4099 6324401 4100 6325402 4101 6326403 4102 6327404 4103 6328405 4104 6329406 4105 6330407 4106 6331408 4107 6332409 4108 6333410 4109 6334411 4110 6335412 4111 6336413 4112 6337414 4113 6338415 4114 6339416 4115 6340417 4116 6341418 4117 6342419 4118 6343420 4119 6344421 4120 6345422 4121 6346423 4122 6347424 4123 6348425 4124 6349

426 4125 6350427 4126 6351428 4127 6352429 4128 6353430 4129 6354431 4130 6355432 4131 6356433 4132 6357434 4133 6358435 4134 6359436 4135 6360437 4136 6361438 4137 6362439 4138 6363440 4139 6364441 4140 6365442 4141 6366443 4142 6367444 4143 6368445 4144 6369446 4145 6370447 4146 6371448 4147 6372449 4148 6373450 4149 6374451 4150 6375452 4151 6376453 4152 6377454 4153 6378455 4154 6379456 4155 6380457 4156 6381458 4157 6382459 4158 6383460 4159 6384461 4160 6385462 4161 6386463 4162 6387464 4163 6388465 4164 6389466 4165 6390467 4166 6391468 4167 6392469 4168 6393470 4169 6394471 4170 6395472 4171 6396473 4172 6397474 4173 6398475 4174 6399

476 4175 6400477 4176 6401478 4177 6402479 4178 6403480 4179 6404481 4180 6405482 4181 6406483 4182 6407484 4183 6408485 4184 6409486 4185 6410487 4186 6411488 4187 6412489 4188 6413490 4189 6414491 4190 6415492 4191 6416493 4192 6417494 4193 6418495 4194 6419496 4195 6420497 4196 6421498 4197 6422499 4198 6423500 4199 6424501 4200 6425


ANACOM 3072307


Ch. RX TXMHz MHz

Ch. RX TXMHz MHz

Ch. RX TXMHz MHz

Ch. RX TXMHz MHz

ANASAT®-XC Satellite Channels

1 4500.0 6700.02 4500.5 6700.53 4501.0 6701.04 4501.5 6701.55 4502.0 6702.06 4502.5 6702.57 4503.0 6703.08 4503.5 6703.59 4504.0 6704.010 4504.5 6704.511 4505.0 6705.012 4505.5 6705.513 4506.0 6706.014 4506.5 6706.515 4507.0 6707.016 4507.5 6707.517 4508.0 6708.018 4508.5 6708.519 4509.0 6709.020 4509.5 6709.521 4510.0 6710.022 4510.5 6710.523 4511.0 6711.024 4511.5 6711.525 4512.0 6712.026 4512.5 6712.527 4513.0 6713.028 4513.5 6713.529 4514.0 6714.030 4514.5 6714.531 4515.0 6715.032 4515.5 6715.533 4516.0 6716.034 4516.5 6716.535 4517.0 6717.036 4517.5 6717.537 4518.0 6718.038 4518.5 6718.539 4519.0 6719.040 4519.5 6719.541 4520.0 6720.042 4520.5 6720.543 4521.0 6721.044 4521.5 6721.545 4522.0 6722.046 4522.5 6722.547 4523.0 6723.048 4523.5 6723.549 4524.0 6724.050 4524.5 6724.5

51 4525.0 6725.052 4525.5 6725.553 4526.0 6726.054 4526.5 6726.555 4527.0 6727.056 4527.5 6727.557 4528.0 6728.058 4528.5 6728.559 4529.0 6729.060 4529.5 6729.561 4530.0 6730.062 4530.5 6730.563 4531.0 6731.064 4531.5 6731.565 4532.0 6732.066 4532.5 6732.567 4533.0 6733.068 4533.5 6733.569 4534.0 6734.070 4534.5 6734.571 4535.0 6735.072 4535.5 6735.573 4536.0 6736.074 4536.5 6736.575 4537.0 6737.076 4537.5 6737.577 4538.0 6738.078 4538.5 6738.579 4539.0 6739.080 4539.5 6739.581 4540.0 6740.082 4540.5 6740.583 4541.0 6741.084 4541.5 6741.585 4542.0 6742.086 4542.5 6742.587 4543.0 6743.088 4543.5 6743.589 4544.0 6744.090 4544.5 6744.591 4545.0 6745.092 4545.5 6745.593 4546.0 6746.094 4546.5 6746.595 4547.0 6747.096 4547.5 6747.597 4548.0 6748.098 4548.5 6748.599 4549.0 6749.0100 4549.5 6749.5

101 4550.0 6750.0102 4550.5 6750.5103 4551.0 6751.0104 4551.5 6751.5105 4552.0 6752.0106 4552.5 6752.5107 4553.0 6753.0108 4553.5 6753.5109 4554.0 6754.0110 4554.5 6754.5111 4555.0 6755.0112 4555.5 6755.5113 4556.0 6756.0114 4556.5 6756.5115 4557.0 6757.0116 4557.5 6757.5117 4558.0 6758.0118 4558.5 6758.5119 4559.0 6759.0120 4559.5 6759.5121 4560.0 6760.0122 4560.5 6760.5123 4561.0 6761.0124 4561.5 6761.5125 4562.0 6762.0126 4562.5 6762.5127 4563.0 6763.0128 4563.5 6763.5129 4564.0 6764.0130 4564.5 6764.5131 4565.0 6765.0132 4565.5 6765.5133 4566.0 6766.0134 4566.5 6766.5135 4567.0 6767.0136 4567.5 6767.5137 4568.0 6768.0138 4568.5 6768.5139 4569.0 6769.0140 4569.5 6769.5141 4570.0 6770.0142 4570.5 6770.5143 4571.0 6771.0144 4571.5 6771.5145 4572.0 6772.0146 4572.5 6772.5147 4573.0 6773.0148 4573.5 6773.5149 4574.0 6774.0150 4574.5 6774.5

151 4575.0 6775.0152 4575.5 6775.5153 4576.0 6776.0154 4576.5 6776.5155 4577.0 6777.0156 4577.5 6777.5157 4578.0 6778.0158 4578.5 6778.5159 4579.0 6779.0160 4579.5 6779.5161 4580.0 6780.0162 4580.5 6780.5163 4581.0 6781.0164 4581.5 6781.5165 4582.0 6782.0166 4582.5 6782.5167 4583.0 6783.0168 4583.5 6783.5169 4584.0 6784.0170 4584.5 6784.5171 4585.0 6785.0172 4585.5 6785.5173 4586.0 6786.0174 4586.5 6786.5175 4587.0 6787.0176 4587.5 6787.5177 4588.0 6788.0178 4588.5 6788.5179 4589.0 6789.0180 4589.5 6789.5181 4590.0 6790.0182 4590.5 6790.5183 4591.0 6791.0184 4591.5 6791.5185 4592.0 6792.0186 4592.5 6792.5187 4593.0 6793.0188 4593.5 6793.5189 4594.0 6794.0190 4594.5 6794.5191 4595.0 6795.0192 4595.5 6795.5193 4596.0 6796.0194 4596.5 6796.5195 4597.0 6797.0196 4597.5 6797.5197 4598.0 6798.0198 4598.5 6798.5199 4599.0 6799.0200 4599.5 6799.5

ANACOM 3072307


Ch. RX TXMHz MHz

Ch. RX TXMHz MHz

Ch. RX TXMHz MHz

Ch. RX TXMHz MHz


201 4600.0 6800.0202 4600.5 6800.5203 4601.0 6801.0204 4601.5 6801.5205 4602.0 6802.0206 4602.5 6802.5207 4603.0 6803.0208 4603.5 6803.5209 4604.0 6804.0210 4604.5 6804.5211 4605.0 6805.0212 4605.5 6805.5213 4606.0 6806.0214 4606.5 6806.5215 4607.0 6807.0216 4607.5 6807.5217 4608.0 6808.0218 4608.5 6808.5219 4609.0 6809.0220 4609.5 6809.5221 4610.0 6810.0222 4610.5 6810.5223 4611.0 6811.0224 4611.5 6811.5225 4612.0 6812.0226 4612.5 6812.5227 4613.0 6813.0228 4613.5 6813.5229 4614.0 6814.0230 4614.5 6814.5231 4615.0 6815.0232 4615.5 6815.5233 4616.0 6816.0234 4616.5 6816.5235 4617.0 6817.0236 4617.5 6817.5237 4618.0 6818.0238 4618.5 6818.5239 4619.0 6819.0240 4619.5 6819.5241 4620.0 6820.0242 4620.5 6820.5243 4621.0 6821.0244 4621.5 6821.5245 4622.0 6822.0246 4622.5 6822.5247 4623.0 6823.0248 4623.5 6823.5249 4624.0 6824.0250 4624.5 6824.5

251 4625.0 6825.0252 4625.5 6825.5253 4626.0 6826.0254 4626.5 6826.5255 4627.0 6827.0256 4627.5 6827.5257 4628.0 6828.0258 4628.5 6828.5259 4629.0 6829.0260 4629.5 6829.5261 4630.0 6830.0262 4630.5 6830.5263 4631.0 6831.0264 4631.5 6831.5265 4632.0 6832.0266 4632.5 6832.5267 4633.0 6833.0268 4633.5 6833.5269 4634.0 6834.0270 4634.5 6834.5271 4635.0 6835.0272 4635.5 6835.5273 4636.0 6836.0274 4636.5 6836.5275 4637.0 6837.0276 4637.5 6837.5277 4638.0 6838.0278 4638.5 6838.5279 4639.0 6839.0280 4639.5 6839.5281 4640.0 6840.0282 4640.5 6840.5283 4641.0 6841.0284 4641.5 6841.5285 4642.0 6842.0286 4642.5 6842.5287 4643.0 6843.0288 4643.5 6843.5289 4644.0 6844.0290 4644.5 6844.5291 4645.0 6845.0292 4645.5 6845.5293 4646.0 6846.0294 4646.5 6846.5295 4647.0 6847.0296 4647.5 6847.5297 4648.0 6848.0298 4648.5 6848.5299 4649.0 6849.0300 4649.5 6849.5

301 4650.0 6850.0302 4650.5 6850.5303 4651.0 6851.0304 4651.5 6851.5305 4652.0 6852.0306 4652.5 6852.5307 4653.0 6853.0308 4653.5 6853.5309 4654.0 6854.0310 4654.5 6854.5311 4655.0 6855.0312 4655.5 6855.5313 4656.0 6856.0314 4656.5 6856.5315 4657.0 6857.0316 4657.5 6857.5317 4658.0 6858.0318 4658.5 6858.5319 4659.0 6859.0320 4659.5 6859.5321 4660.0 6860.0322 4660.5 6860.5323 4661.0 6861.0324 4661.5 6861.5325 4662.0 6862.0326 4662.5 6862.5327 4663.0 6863.0328 4663.5 6863.5329 4664.0 6864.0330 4664.5 6864.5331 4665.0 6865.0332 4665.5 6865.5333 4666.0 6866.0334 4666.5 6866.5335 4667.0 6867.0336 4667.5 6867.5337 4668.0 6868.0338 4668.5 6868.5339 4669.0 6869.0340 4669.5 6869.5341 4670.0 6870.0342 4670.5 6870.5343 4671.0 6871.0344 4671.5 6871.5345 4672.0 6872.0346 4672.5 6872.5347 4673.0 6873.0348 4673.5 6873.5349 4674.0 6874.0350 4674.5 6874.5

351 4675.0 6875.0352 4675.5 6875.5353 4676.0 6876.0354 4676.5 6876.5355 4677.0 6877.0356 4677.5 6877.5357 4678.0 6878.0358 4678.5 6878.5359 4679.0 6879.0360 4679.5 6879.5361 4680.0 6880.0362 4680.5 6880.5363 4681.0 6881.0364 4681.5 6881.5365 4682.0 6882.0366 4682.5 6882.5367 4683.0 6883.0368 4683.5 6883.5369 4684.0 6884.0370 4684.5 6884.5371 4685.0 6885.0372 4685.5 6885.5373 4686.0 6886.0374 4686.5 6886.5375 4687.0 6887.0376 4687.5 6887.5377 4688.0 6888.0378 4688.5 6888.5379 4689.0 6889.0380 4689.5 6889.5381 4690.0 6890.0382 4690.5 6890.5383 4691.0 6891.0384 4691.5 6891.5385 4692.0 6892.0386 4692.5 6892.5387 4693.0 6893.0388 4693.5 6893.5389 4694.0 6894.0390 4694.5 6894.5391 4695.0 6895.0392 4695.5 6895.5393 4696.0 6896.0394 4696.5 6896.5395 4697.0 6897.0396 4697.5 6897.5397 4698.0 6898.0398 4698.5 6898.5399 4699.0 6899.0400 4699.5 6899.5

ANACOM 3072307


Ch. RX TXMHz MHz

Ch. RX TXMHz MHz

Ch. RX TXMHz MHz

Ch. RX TXMHz MHz


401 4700.0 6900.0402 4700.5 6900.5403 4701.0 6901.0404 4701.5 6901.5405 4702.0 6902.0406 4702.5 6902.5407 4703.0 6903.0408 4703.5 6903.5409 4704.0 6904.0410 4704.5 6904.5411 4705.0 6905.0412 4705.5 6905.5413 4706.0 6906.0414 4706.5 6906.5415 4707.0 6907.0416 4707.5 6907.5417 4708.0 6908.0418 4708.5 6908.5419 4709.0 6909.0420 4709.5 6909.5421 4710.0 6910.0422 4710.5 6910.5423 4711.0 6911.0424 4711.5 6911.5425 4712.0 6912.0426 4712.5 6912.5427 4713.0 6913.0428 4713.5 6913.5429 4714.0 6914.0430 4714.5 6914.5431 4715.0 6915.0432 4715.5 6915.5433 4716.0 6916.0434 4716.5 6916.5435 4717.0 6917.0436 4717.5 6917.5437 4718.0 6918.0438 4718.5 6918.5439 4719.0 6919.0440 4719.5 6919.5441 4720.0 6920.0442 4720.5 6920.5443 4721.0 6921.0444 4721.5 6921.5445 4722.0 6922.0446 4722.5 6922.5447 4723.0 6923.0448 4723.5 6923.5449 4724.0 6924.0450 4724.5 6924.5

451 4725.0 6925.0452 4725.5 6925.5453 4726.0 6926.0454 4726.5 6926.5455 4727.0 6927.0456 4727.5 6927.5457 4728.0 6928.0458 4728.5 6928.5459 4729.0 6929.0460 4729.5 6929.5461 4730.0 6930.0462 4730.5 6930.5463 4731.0 6931.0464 4731.5 6931.5465 4732.0 6932.0466 4732.5 6932.5467 4733.0 6933.0468 4733.5 6933.5469 4734.0 6934.0470 4734.5 6934.5471 4735.0 6935.0472 4735.5 6935.5473 4736.0 6936.0474 4736.5 6936.5475 4737.0 6937.0476 4737.5 6937.5477 4738.0 6938.0478 4738.5 6938.5479 4739.0 6939.0480 4739.5 6939.5481 4740.0 6940.0482 4740.5 6940.5483 4741.0 6941.0484 4741.5 6941.5485 4742.0 6942.0486 4742.5 6942.5487 4743.0 6943.0488 4743.5 6943.5489 4744.0 6944.0490 4744.5 6944.5491 4745.0 6945.0492 4745.5 6945.5493 4746.0 6946.0494 4746.5 6946.5495 4747.0 6947.0496 4747.5 6947.5497 4748.0 6948.0498 4748.5 6948.5499 4749.0 6949.0500 4749.5 6949.5

501 4750.0 6950.0502 4750.5 6950.5503 4751.0 6951.0504 4751.5 6951.5505 4752.0 6952.0506 4752.5 6952.5507 4753.0 6953.0508 4753.5 6953.5509 4754.0 6954.0510 4754.5 6954.5511 4755.0 6955.0512 4755.5 6955.5513 4756.0 6956.0514 4756.5 6956.5515 4757.0 6957.0516 4757.5 6957.5517 4758.0 6958.0518 4758.5 6958.5519 4759.0 6959.0520 4759.5 6959.5521 4760.0 6960.0522 4760.5 6960.5523 4761.0 6961.0524 4761.5 6961.5525 4762.0 6962.0526 4762.5 6962.5527 4763.0 6963.0528 4763.5 6963.5529 4764.0 6964.0530 4764.5 6964.5531 4765.0 6965.0532 4765.5 6965.5533 4766.0 6966.0534 4766.5 6966.5535 4767.0 6967.0536 4767.5 6967.5537 4768.0 6968.0538 4768.5 6968.5539 4769.0 6969.0540 4769.5 6969.5541 4770.0 6970.0542 4770.5 6970.5543 4771.0 6971.0544 4771.5 6971.5545 4772.0 6972.0546 4772.5 6972.5547 4773.0 6973.0548 4773.5 6973.5549 4774.0 6974.0550 4774.5 6974.5

551 4775.0 6975.0552 4775.5 6975.5553 4776.0 6976.0554 4776.5 6976.5555 4777.0 6977.0556 4777.5 6977.5557 4778.0 6978.0558 4778.5 6978.5559 4779.0 6979.0560 4779.5 6979.5561 4780.0 6980.0562 4780.5 6980.5563 4781.0 6981.0564 4781.5 6981.5565 4782.0 6982.0566 4782.5 6982.5567 4783.0 6983.0568 4783.5 6983.5569 4784.0 6984.0570 4784.5 6984.5571 4785.0 6985.0572 4785.5 6985.5573 4786.0 6986.0574 4786.5 6986.5575 4787.0 6987.0576 4787.5 6987.5577 4788.0 6988.0578 4788.5 6988.5579 4789.0 6989.0580 4789.5 6989.5581 4790.0 6990.0582 4790.5 6990.5583 4791.0 6991.0584 4791.5 6991.5585 4792.0 6992.0586 4792.5 6992.5587 4793.0 6993.0588 4793.5 6993.5589 4794.0 6994.0590 4794.5 6994.5591 4795.0 6995.0592 4795.5 6995.5593 4796.0 6996.0594 4796.5 6996.5595 4797.0 6997.0596 4797.5 6997.5597 4798.0 6998.0598 4798.5 6998.5599 4799.0 6999.0600 4799.5 6999.5601 4800.0 7000.0

ANACOM 3072307


Ch. RX TXMHz MHz

Ch. RX TXMHz MHz

Ch. RX TXMHz MHz

Ch. RX TXMHz MHz

ANASAT®-PC Satellite Channels

1 3400 64252 3401 64263 3402 64274 3403 64285 3404 64296 3405 64307 3406 64318 3407 64329 3408 643310 3409 643411 3410 643512 3411 643613 3412 643714 3413 643815 3414 643916 3415 644017 3416 644118 3417 644219 3418 644320 3419 644421 3420 644522 3421 644623 3422 644724 3423 644825 3424 644926 3425 645027 3426 645128 3427 645229 3428 645330 3429 645431 3430 645532 3431 645633 3432 645734 3433 645835 3434 645936 3435 646037 3436 646138 3437 646239 3438 646340 3439 646441 3440 646542 3441 646643 3442 646744 3443 646845 3444 646946 3445 647047 3446 647148 3447 647249 3448 647350 3449 6474

51 3450 647552 3451 647653 3452 647754 3453 647855 3454 647956 3455 648057 3456 648158 3457 648259 3458 648360 3459 648461 3460 648562 3461 648663 3462 648764 3463 648865 3464 648966 3465 649067 3466 649168 3467 649269 3468 649370 3469 649471 3470 649572 3471 649673 3472 649774 3473 649875 3474 649976 3475 650077 3476 650178 3477 650279 3478 650380 3479 650481 3480 650582 3481 650683 3482 650784 3483 650885 3484 650986 3485 651087 3486 651188 3487 651289 3488 651390 3489 651491 3490 651592 3491 651693 3492 651794 3493 651895 3494 651996 3495 652097 3496 652198 3497 652299 3498 6523100 3499 6524

101 3500 6525102 3501 6526103 3502 6527104 3503 6528105 3504 6529106 3505 6530107 3506 6531108 3507 6532109 3508 6533110 3509 6534111 3510 6535112 3511 6536113 3512 6537114 3513 6538115 3514 6539116 3515 6540117 3516 6541118 3517 6542119 3518 6543120 3519 6544121 3520 6545122 3521 6546123 3522 6547124 3523 6548125 3524 6549126 3525 6550127 3526 6551128 3527 6552129 3528 6553130 3529 6554131 3530 6555132 3531 6556133 3532 6557134 3533 6558135 3534 6559136 3535 6560137 3536 6561138 3537 6562139 3538 6563140 3539 6564141 3540 6565142 3541 6566143 3542 6567144 3543 6568145 3544 6569146 3545 6570147 3546 6571148 3547 6572149 3548 6573150 3549 6574

151 3550 6575152 3551 6576153 3552 6577154 3553 6578155 3554 6579156 3555 6580157 3556 6581158 3557 6582159 3558 6583160 3559 6584161 3560 6585162 3561 6586163 3562 6587164 3563 6588165 3564 6589166 3565 6590167 3566 6591168 3567 6592169 3568 6593170 3569 6594171 3570 6595172 3571 6596173 3572 6597174 3573 6598175 3574 6599176 3575 6600177 3576 6601178 3577 6602179 3578 6603180 3579 6604181 3580 6605182 3581 6606183 3582 6607184 3583 6608185 3584 6609186 3585 6610187 3586 6611188 3587 6612189 3588 6613190 3589 6614191 3590 6615192 3591 6616193 3592 6617194 3593 6618195 3594 6619196 3595 6620197 3596 6621198 3597 6622199 3598 6623200 3599 6624

ANACOM 3072307


Ch. RX TXMHz MHz

Ch. RX TXMHz MHz

Ch. RX TXMHz MHz

Ch. RX TXMHz MHz

201 3600 6625202 3601 6626203 3602 6627204 3603 6628205 3604 6629206 3605 6630207 3606 6631208 3607 6632209 3608 6633210 3609 6634211 3610 6635212 3611 6636213 3612 6637214 3613 6638215 3614 6639216 3615 6640217 3616 6641218 3617 6642219 3618 6643220 3619 6644221 3620 6645222 3621 6646223 3622 6647224 3623 6648225 3624 6649226 3625 6650227 3626 6651228 3627 6652229 3628 6653230 3629 6654231 3630 6655232 3631 6656233 3632 6657234 3633 6658235 3634 6659236 3635 6660237 3636 6661238 3637 6662239 3638 6663240 3639 6664241 3640 6665242 3641 6666243 3642 6667244 3643 6668245 3644 6669246 3645 6670247 3646 6671248 3647 6672249 3648 6673250 3649 6674

ANASAT®-PC Satellite Channels

251 3650 6675252 3651 6676253 3652 6677254 3653 6678255 3654 6679256 3655 6680257 3656 6681258 3657 6682259 3658 6683260 3659 6684261 3660 6685262 3661 6686263 3662 6687264 3663 6688265 3664 6689266 3665 6690267 3666 6691268 3667 6692269 3668 6693270 3669 6694271 3670 6695272 3671 6696273 3672 6697274 3673 6698275 3674 6699276 3675 6700277 3676 6701278 3677 6702279 3678 6703280 3679 6704281 3680 6705282 3681 6706283 3682 6707284 3683 6708285 3684 6709286 3685 6710287 3686 6711288 3687 6712289 3688 6713290 3689 6714291 3690 6715292 3691 6716293 3692 6717294 3693 6718295 3694 6719296 3695 6720297 3696 6721298 3697 6722299 3698 6723300 3699 6724

301 3700 6725302 3701 6726

ANACOM 3072307


Ch. RX TXMHz MHz

Ch. RX TXMHz MHz

Ch. RX TXMHz MHz

Ch. RX TXMHz MHz

ANASAT®-RC Satellite Channels

51 3700 602552 3701 602653 3702 602754 3703 602855 3704 602956 3705 603057 3706 603158 3707 603259 3708 603360 3709 603461 3710 603562 3711 603663 3712 603764 3713 603865 3714 603966 3715 604067 3716 604168 3717 604269 3718 604370 3719 604471 3720 604572 3721 604673 3722 604774 3723 604875 3724 604976 3725 605077 3726 605178 3727 605279 3728 605380 3729 605481 3730 605582 3731 605683 3732 605784 3733 605885 3734 605986 3735 606087 3736 606188 3737 606289 3738 606390 3739 606491 3740 606592 3741 606693 3742 606794 3743 606895 3744 606996 3745 607097 3746 607198 3747 607299 3748 6073100 3749 6074

101 3750 6075102 3751 6076103 3752 6077104 3753 6078105 3754 6079106 3755 6080107 3756 6081108 3757 6082109 3758 6083110 3759 6084111 3760 6085112 3761 6086113 3762 6087114 3763 6088115 3764 6089116 3765 6090117 3766 6091118 3767 6092119 3768 6093120 3769 6094121 3770 6095122 3771 6096123 3772 6097124 3773 6098125 3774 6099126 3775 6100127 3776 6101128 3777 6102129 3778 6103130 3779 6104131 3780 6105132 3781 6106133 3782 6107134 3783 6108135 3784 6109136 3785 6110137 3786 6111138 3787 6112139 3788 6113140 3789 6114141 3790 6115142 3791 6116143 3792 6117144 3793 6118145 3794 6119146 3795 6120147 3796 6121148 3797 6122149 3798 6123150 3799 6124

151 3800 6125152 3801 6126153 3802 6127154 3803 6128155 3804 6129156 3805 6130157 3806 6131158 3807 6132159 3808 6133160 3809 6134161 3810 6135162 3811 6136163 3812 6137164 3813 6138165 3814 6139166 3815 6140167 3816 6141168 3817 6142169 3818 6143170 3819 6144171 3820 6145172 3821 6146173 3822 6147174 3823 6148175 3824 6149176 3825 6150177 3826 6151178 3827 6152179 3828 6153180 3829 6154181 3830 6155182 3831 6156183 3832 6157184 3833 6158185 3834 6159186 3835 6160187 3836 6161188 3837 6162189 3838 6163190 3839 6164191 3840 6165192 3841 6166193 3842 6167194 3843 6168195 3844 6169196 3845 6170197 3846 6171198 3847 6172199 3848 6173200 3849 6174

1 3650 59752 3651 59763 3652 59774 3653 59785 3654 59796 3655 59807 3656 59818 3657 59829 3658 598310 3659 598411 3660 598512 3661 598613 3662 598714 3663 598815 3664 598916 3665 599017 3666 599118 3667 599219 3668 599320 3669 599421 3670 599522 3671 599623 3672 599724 3673 599825 3674 599926 3675 600027 3676 600128 3677 600229 3678 600330 3679 600431 3680 600532 3681 600633 3682 600734 3683 600835 3684 600936 3685 601037 3686 601138 3687 601239 3688 601340 3689 601441 3690 601542 3691 601643 3692 601744 3693 601845 3694 601946 3695 602047 3696 602148 3697 602249 3698 602350 3699 6024

ANACOM 3072307


Ch. RX TXMHz MHz

Ch. RX TXMHz MHz

Ch. RX TXMHz MHz

Ch. RX TXMHz MHz

201 3850 6175202 3851 6176203 3852 6177204 3853 6178205 3854 6179206 3855 6180207 3856 6181208 3857 6182209 3858 6183210 3859 6184211 3860 6185212 3861 6186213 3862 6187214 3863 6188215 3864 6189216 3865 6190217 3866 6191218 3867 6192219 3868 6193220 3869 6194221 3870 6195222 3871 6196223 3872 6197224 3873 6198225 3874 6199226 3875 6200227 3876 6201228 3877 6202229 3878 6203230 3879 6204231 3880 6205232 3881 6206233 3882 6207234 3883 6208235 3884 6209236 3885 6210237 3886 6211238 3887 6212239 3888 6213240 3889 6214241 3890 6215242 3891 6216243 3892 6217244 3893 6218245 3894 6219246 3895 6220247 3896 6221248 3897 6222249 3898 6223250 3899 6224

251 3900 6225252 3901 6226253 3902 6227254 3903 6228255 3904 6229256 3905 6230257 3906 6231258 3907 6232259 3908 6233260 3909 6234261 3910 6235262 3911 6236263 3912 6237264 3913 6238265 3914 6239266 3915 6240267 3916 6241268 3917 6242269 3918 6243270 3919 6244271 3920 6245272 3921 6246273 3922 6247274 3923 6248275 3924 6249276 3925 6250277 3926 6251278 3927 6252279 3928 6253280 3929 6254281 3930 6255282 3931 6256283 3932 6257284 3933 6258285 3934 6259286 3935 6260287 3936 6261288 3937 6262289 3938 6263290 3939 6264291 3940 6265292 3941 6266293 3942 6267294 3943 6268295 3944 6269296 3945 6270297 3946 6271298 3947 6272299 3948 6273300 3949 6274

301 3950 6275302 3951 6276303 3952 6277304 3953 6278305 3954 6279306 3955 6280307 3956 6281308 3957 6282309 3958 6283310 3959 6284311 3960 6285312 3961 6286313 3962 6287314 3963 6288315 3964 6289316 3965 6290317 3966 6291318 3967 6292319 3968 6293320 3969 6294321 3970 6295322 3971 6296323 3972 6297324 3973 6298325 3974 6299326 3975 6300327 3976 6301328 3977 6302329 3978 6303330 3979 6304331 3980 6305332 3981 6306333 3982 6307334 3983 6308335 3984 6309336 3985 6310337 3986 6311338 3987 6312339 3988 6313340 3989 6314341 3990 6315342 3991 6316343 3992 6317344 3993 6318345 3994 6319346 3995 6320347 3996 6321348 3997 6322349 3998 6323350 3999 6324

351 4000 6325352 4001 6326353 4002 6327354 4003 6328355 4004 6329356 4005 6330357 4006 6331358 4007 6332359 4008 6333360 4009 6334361 4010 6335362 4011 6336363 4012 6337364 4013 6338365 4014 6339366 4015 6340367 4016 6341368 4017 6342369 4018 6343370 4019 6344371 4020 6345372 4021 6346373 4022 6347374 4023 6348375 4024 6349376 4025 6350377 4026 6351378 4027 6352379 4028 6353380 4029 6354381 4030 6355382 4031 6356383 4032 6357384 4033 6358385 4034 6359386 4035 6360387 4036 6361388 4037 6362389 4038 6363390 4039 6364391 4040 6365392 4041 6366393 4042 6367394 4043 6368395 4044 6369396 4045 6370397 4046 6371398 4047 6372399 4048 6373400 4049 6374


ANACOM 3072307


Ch. RX TXMHz MHz

Ch. RX TXMHz MHz

Ch. RX TXMHz MHz

Ch. RX TXMHz MHz

401 4050 6375402 4051 6376403 4052 6377404 4053 6378405 4054 6379406 4055 6380407 4056 6381408 4057 6382409 4058 6383410 4059 6384411 4060 6385412 4061 6386413 4062 6387414 4063 6388415 4064 6389416 4065 6390417 4066 6391418 4067 6392419 4068 6393420 4069 6394421 4070 6395422 4071 6396423 4072 6397424 4073 6398425 4074 6399426 4075 6400427 4076 6401428 4077 6402429 4078 6403430 4079 6404431 4080 6405432 4081 6406433 4082 6407434 4083 6408435 4084 6409436 4085 6410437 4086 6411438 4087 6412439 4088 6413440 4089 6414441 4090 6415442 4091 6416443 4092 6417444 4093 6418445 4094 6419446 4095 6420447 4096 6421448 4097 6422449 4098 6423450 4099 6424

451 4100 6425452 4101 6426453 4102 6427454 4103 6428455 4104 6429456 4105 6430457 4106 6431458 4107 6432459 4108 6433460 4109 6434461 4110 6435462 4111 6436463 4112 6437464 4113 6438465 4114 6439466 4115 6440467 4116 6441468 4117 6442469 4118 6443470 4119 6444471 4120 6445472 4121 6446473 4122 6447474 4123 6448475 4124 6449476 4125 6450477 4126 6451478 4127 6452479 4128 6453480 4129 6454481 4130 6455482 4131 6456483 4132 6457484 4133 6458485 4134 6459486 4135 6460487 4136 6461488 4137 6462489 4138 6463490 4139 6464491 4140 6465492 4141 6466493 4142 6467494 4143 6468495 4144 6469496 4145 6470497 4146 6471498 4147 6472499 4148 6473500 4149 6474

501 4150 6475


ANACOM 3072307

ANACOM ANASAT®–C Transceiver F-1 Appendix F

Appendix F. Converting dBm to Watts and Watts to dBmdBm W W dBm20 ................................. 0.10 1 ................................... 3020.50 ............................ 0.11 2 ................................ 33.0121 ................................. 0.13 3 ................................ 34.7721.50 ............................ 0.14 4 ................................ 36.0222 ................................. 0.16 5 ................................ 36.9922.50 ............................ 0.18 6 ................................ 37.7823 ................................. 0.20 7 ................................ 38.4523.50 ............................ 0.22 8 ................................ 39.0324 ................................. 0.25 9 ................................ 39.5424.50 ............................ 0.28 10 .................................. 4025 ................................. 0.32 11 ............................... 40.4125.50 ............................ 0.35 12 ............................... 40.7926 ................................. 0.40 13 ............................... 41.1426.50 ............................ 0.45 14 ............................... 41.4627 ................................. 0.50 15 ............................... 41.7627.50 ............................ 0.56 16 ............................... 42.0428 ................................. 0.63 17 ............................... 42.3028.50 ............................ 0.71 18 ............................... 42.5529 ................................. 0.79 19 ............................... 42.7929.50 ............................ 0.89 20 ............................... 43.0130 ................................... 1 21 ............................... 43.2230.50 ............................ 1.12 22 ............................... 43.4231 ................................. 1.26 23 ............................... 43.6131.50 ............................ 1.41 24 ............................... 43.8032 ................................. 1.58 25 ............................... 43.9732.50 ............................ 1.78 26 ............................... 44.1433 ................................... 2 27 ............................... 44.3133.50 ............................ 2.24 28 ............................... 44.4734 ................................. 2.51 29 ............................... 44.6234.50 ............................ 2.82 30 ............................... 44.7735 ................................. 3.16 32 ............................... 45.0535.50 ............................ 3.55 34 ............................... 45.3136 ................................. 3.98 36 ............................... 45.5636.50 ............................ 4.47 38 .............................. 45.8037 ................................. 5.01 40 ............................... 46.0237.50 ............................ 5.62 42 ............................... 46.2338 ................................. 6.31 44 .............................. 46.4338.50 ............................ 7.08 46 ............................... 46.6339 ................................. 7.94 48 ............................... 46.8139.50 ............................ 8.91 50 ............................... 47.0040 .................................. 1040.50 ........................... 11.2241 ................................ 12.5941.50 ........................... 14.1342 ................................ 15.8542.50 ........................... 17.7843 ................................ 19.9543.50 ........................... 22.3944 ................................ 25.12

Appendix F F-2 ANACOM ANASAT®–C Transceiver

ANACOM 3072307

anacom anasat -c series c-band transceiver operating manual

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