Anasat Ku Band Rev4

Standard-KuExtended-EKu

Super Extended-SEKu

Ku-Band TransceiverOperating Manual

Rev 04

ANASAT®-Ku Series

ANACOM, INC

ANACOM 3095604

ANACOM ANASAT®–Ku Transceiver Quick Start Guide

ANASAT®-Ku Quick Start GuideThere’s lots more inside the manual, but here are the most important steps:

1. Mount the transceiver and the LNC on the antenna.2. Connect the cables as shown in the drawing (See page 2-3 of the Operations Manual).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 blinking, indicating normal internal operation.The red LED must be OFF. If illuminated, it indicates an alarm condition requiring attention. Refer tothe ALARM command for details (Appendix A).

5. Using the terminal, configure the transceiver to the proper frequency:RXFREQ nnnnn (nnnnn in MHz—see Appendix D for channel)TXFREQ nnnnn (nnnnn in MHz—see Appendix D for channel)

6. Configure receive gain and transmit output power:RXGAIN nnn nnn ranges from 85 to 100TXGAIN nn nn ranges from: 10 to 36 [0Ku] 44 to 70 [2Ku] 47 to 73 [4Ku]

50 to 76 [8Ku] 53 to 79 [16Ku] 53 to 79 [20Ku]53 to 79 [23Ku] 53 to 79 [25Ku] 57 to 83 [40Ku]58 to 84 [50Ku] 59 to 85 [60Ku] 60 to 86 [80Ku]

7. Enable the Transmitter: 61 to 87 [100Ku] 62 to 88 [125Ku]TX ON (TX OFF takes the transmitter OFF air)

J3 TXIF J4 RXIF J5 M & C J6 R S232

ALARMPOWER

J1 LNB

GND

ACPower(side

mount)

To LNB

To AntennaFeed

TX Data from Modem

RX Data to ModemSerial ports for terminal or

computer

Ground Lug

"OK"GreenLED

"Alarm"Red LED

To LNC

J1 LNC

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

ANACOM

September 2008 ANACOM ANASAT®–Ku Transceiver

Ku-Band TransceiverOperating Manual

ANACOM

Standard-KuExtended-EKu

Super Extended-SEKu

ANASAT®-Ku Series

You have just received an AnaSat®-Ku Transceiver, a cost-effective product with no compromise on quality and reliability. This product should provide tireless performance in any reasonable operating environment. We, at ANACOM, have taken great care to provide a convenient, easy-to-use product in a single package. Our powerful Monitor and Control enables you to set transmit and receive frequencies and gains and monitor numerous major and minor operational parameters using a “dumb terminal” interface. There’s no need to worry about available voltages; the internal universal power supply can automatically accommodate virtually all AC voltage possibilities. Should a situation arise beyond the operator’s control, just give us a telephone call. Many situations can be diagnosed and solved by ANACOM’s trained customer-service personnel over the phone.

If you have any questions, require technical assistance or training please call ANACOM directly at (408) 519-2062 or FAX to us at (408) 519-2063. You can also send e-mail to [email protected] and one of our engineers will contact you.

ANACOM, INC.

1996 Lundy Ave.

San Jose, CA 95131 Tel: (408) 519-2062 Fax: (408) 519-2063

© 2008 AnaCom, Inc. All rights reserved. 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 rights of third parties resulting from its use. No license is granted by implication or otherwise under any patent or patent right of AnaCom, Inc. AnaCom reserves the right to change circuitry and specifications at any time without prior notice. The following terms are trademarks of their respective holders: AnaSat, AnaCom, Inc. Polyswitch Teflon Duroid VT52, VT100 Digital Equipment Corp. INTELSAT

ANACOM

Operating Manual

for the

ANASAT®-Ku-Series

Ku-Band Transceiver

Table of Contents

Subject Page

.................................................. 1-1........................................................................................ 1-2

Section 1. Product Introduction and Specifications Typical Operating Parameters

...................................................................................................................... 2-1.................................................................................................................... 2-1

.......................................................................................................... 2-2........................................................................................................ 2-2

........................................................................... 2-3...................................................................................................................... 2-3

............................................................................... 2-6.................................................................................................. 2-8

........................................................................................................... 2-9

Section 2. Installation Unpacking Packing List Safety Precautions Site Considerations Transceiver Mounting Considerations Grounding Cable and Waveguide Connections Water Resistance Wrap Quick Start Guide

........................................................................................................... 3-1

........................................................................................................... 3-2

........................................................................................................... 3-4

Section 3. Operation Preliminary Steps M & C Operation Gain Adjustments

1996 Lundy Ave. San Jose CA 95131 Tel: (408) 519-2062 Fax: (408) 519-2063

3095604

ANACOM ANASAT®–KuTransceiver iii

ANACOM 3095604

iv ANACOM ANASAT®–Ku Transceiver

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

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 Ku-Band Satellite Channel Frequencies

ANASAT®-Ku Transmit Channels .................................................. D-1ANASAT®-EKu Transmit Channels ................................................ D-3ANASAT®-SEKu Transmit Channels .............................................. D-5ANASAT®-Ku, EKu, SEKu Receive Channels ............................... D-8

Appendix E Converting dBm to Watts and Watts to dBm ............................E-1Appendix F Transceivers Weights & Dimensions ..........................................F-1

ANACOM 3095604

ANACOM ANASAT®–Ku Transceiver 1-1 Introduction

Section 1. Introduction

The ANASAT®-Ku transceiver upconverts themodulator’s 70 MHz IF output to an RF signal in the14 GHz range for transmission, and downconvertsthe 12 GHz received RF signal to a 70 MHz IF signalfor use by the demodulator.

The PA uses Internally-Matched Field-EffectTransistors (IMFET) to achieve highly linear powerand gain with minimal intermodulation distortion(IMD) products.

High Electron Mobility Transistors (HEMT)and Gallium-Arsenide Field-Effect Transistors (GaAsFET) enable the Low-Noise Down-Converter(LNC) to achieve a noise temperature better than80ºK.

The transmit (TX) and receive (RX) synthesiz-ers are locked to an oven controlled, high-stabilitycrystal oscillator (OCXO) and can provide 1 MHzfrequency selection step sizes over the entire band-width. TX and RX frequency selection is completelyindependent for extra flexibility.

Figure 1-1 The ANASAT®-Ku VSAT transceiver (2Wversion shown)

The ANASAT®-Ku VSAT series Ku-bandtransceivers are designed for continuous outdoorduty in all types of environments. Ideally suited forSCPC, MCPC, and DAMA applications, the ANA-SAT®-Ku series transceivers transmit in the 14 GHzfrequency range and receive in the 12 GHz range.

The ANASAT®-Ku VSAT transceivers inte-grate all necessary functions, including the solid-statepower amplifier (PA), into a small, highly integratedoutdoor package. The only cabling required to theindoor plant are the IF and AC power cables. TheLNC connects to the transceiver with a single co-axial cable.

Designed to interface with any 70 MHz mo-dem, the ANASAT®-Ku VSAT transceiver may beused in a wide variety of communication networks.The earth stations may be configured in Star, Mesh,or Ring networks and with the optional Station Man-agement System (SMS) tied to a PC, you can moni-tor and control all local transceivers and other net-work compatible equipment.

Figure 1-2. Another view of the ANASAT®-Ku

Introduction 1-2 ANACOM ANASAT®–Ku Transceiver

ANACOM 3095604

RF ELECTRICAL SPECIFICATIONS

A. FREQUENCIESModel

(1) Transmit RF Ku 14.0 —14.5 GHzWR-75 Flange (Threaded & Grooved) EKu 13.75 —14.25 GHz

SEKu 13.75 —14.50 GHz(1 MHz step size; M & C Controlled)

(2) Receive RF 10.95 —12.75 GHz(WR-75 Flange on LNC (1 MHz step size; M & C Controlled)Threaded & Grooved)

(3) Transmit IF (N-connector) 52 to 88MHz (70 ± 18 MHz)(4) Receive IF (N-connector) 52 to 88MHz (70 ± 18 MHz)

B. RF POWER LEVELS(1) Receiver Output

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

30 kHz apart

(2) Transceiver Input –40 to –20 dBm; +10 dBm max.

(3) Transceiver Input(a) + 25ºC at Transmit RF Connector

1dB COMP. PT 1dB COMP. PT(0 dBm) 0 dBm min. (25 watt) 44 dBm min.(2 watt) 33 dBm min. (40 watt) 46 dBm min.(4 watt) 36 dBm min. (50 watt) 47 dBm min.(8 watt) 39 dBm min. (60 watt) 47.8 dBm min.(16 watt) 42 dBm min. (80 watt) 49 dBm min.(20 watt) 43 dBm min. (100 watt) 50 dBm min.(23 watt) 43.6 dBm min. (125 watt) 51 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) –30 dBc max. (Two carriers at 9dB back-off)

C. RECEIVER GAIN

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

(2) Gain Variation under all conditions ± 2 dB

Typical Operating Parameters

ANACOM 3095604


RF ELECTRICAL SPECIFICATIONS, (Con’t)

D. RECEIVER NOISE FIGURE (standard) 1.96 dB / 165ºK(optional) 1.61 dB / 130ºK(optional) 1.4 dB / 110ºK

E. INSTANTANEOUS BANDWIDTH(1) Receiver RF to IF + 18 MHz for 70 MHz IF(optional) + 36 MHz for 140 MHz IF(2) Transmitter IF to RF + 18 MHz for 70 MHz IF(optional) + 36 MHz for 140 MHz IF

F. IMPEDANCE(1) Receiver Output 50W; (75W optional)(2) Transmitter Input 50W; (75W optional)

G. SYNTHESIZERS (Transmitter and Receiver)(1) Tuning Step Size 1 MHz (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–40ºC to +50ºC 1 x 10-8

Aging 1 x 10-9 / day

RF / IF CONNECTOR DESIGNATIONS

A. Receive Input on LNC WR-75 Flange (Threaded & Grooved)B. Transceiver LNC Input N-Type-FemaleC. LNC Output N-Type-FemaleD. Receive IF N-Type-FemaleE. Transmit IF N-Type-FemaleF. Transmit Output WR-75 Flange (Threaded & Grooved)

INTERFACE ELECTRICAL SPECIFICATIONS

(1) Power Requirement 100 to 240 VAC47--63 Hz

(2) Typical Power Consumption

0 dBm 41 VA 25 watt 302 VA2 watt 69 VA 40 watt 767 VA4 watt 91 VA 50 watt 804 VA8 watt 160 VA 60 watt 853 VA16 watt 272 VA 80 watt 1446 VA20 watt 294 VA 100 watt 1617 VA23 watt 298 VA 125 watt 1661 VA


ANACOM 3095604

INTERFACE ELECTRICAL SPECIFICATIONS (Con’t)

(3) Prime Power Recommendation

0 dBm 100 VA 25 watt 720 VA2 watt 175 VA 40 watt 1690 VA4 watt 225 VA 50 watt 1768 VA8 watt 400 VA 60 watt 1876 VA16 watt 690 VA 80 watt 3181 VA20 watt 700 VA 100 watt 3557 VA23 watt 710 VA 125 watt 3654 VA

INTERFACE CONNECTION DESIGNATIONS

(1) Ports (Configurable) 2 each RS-232 or1 RS-232 & 1 RS-485

(2) Protocol RS-232 port supports any “dumb” terminal or ASCII interfaceRS-485 port supports addressed packetized data

per ANACOM Supervisor™ software specifications

(3) Alarm Relays Form-C for Major and Minor alarms; isolated.Independent TX and RX relay alarms in Protection Mode.

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

MECHANICAL SPECIFICATIONS

A. WEIGHT(1) Transceiver

0 dBm 22 lbs (10.0 kg) max.2W 26 lbs (11.8 kg) max.4W 27 lbs (12.3 kg) max.8W 28 lbs (12.7 kg) max.16W 37 lbs (16.8 kg) max.20W, 23W and 25W 40 lbs (18.0 kg) max.40W, 50W and 60W 67 lbs (30.5 kg) max.80W, 100W and 125W 123 lbs (55.8 kg) max.

(2) LNC 1.75 lbs (0.79 kg) max.

B. SIZE(1) Transceiver

0dBm, 2W, 4W 21.6" x 9.0" x 7.0" (549 x 229 x 178 mm)8W 21.6” x 9.0” x 11.6” (549 x 229 x 295 mm)16W, 20W, 23W and 25W 21.6” x 9.0” x 13.0” (549 x 229 x 330 mm)40W, 50W and 60W 21.6” x 13” x 13.6” (549 x 330 x 353 mm)80W, 100W and 125W 34” x 11.5” x 13” (864 x 292 x 330 mm)

(2) LNC 8.4" x 2.9" x 1.75" - (213 x 74 x 44.4 mm)

ANACOM 3095604


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-K-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. (5000m)

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 3095604

ANACOM 3095604

ANACOM ANASAT®–Ku Transceiver 2-1 Installation

Section 2. Installation

The ANASAT®-Ku transceiver consists of thetransceiver, the Low Noise Converter (LNC), andthe LNC interconnection cable.

This chapter contains the general requirementsfor installing the transceiver and LNC on the antennaand making the cable and waveguide connections.Specific mounting methods may vary considerablydepending upon particular antenna and site charac-teristics. Refer to the antenna manufacturer’s in-structions for more detailed instructions.

ANASAT®-Ku transceivers are designed forinstallation and setup without removing the cover.The transceiver may be completely initialized for nor-mal operation using an ASCIIterminal or a local computer.

Table 2-1. ANASAT®-Ku Packing List

!Removal of any cover may jeopardizethe weather seal which may causeproblems later.

UnpackingCheck to make sure that the transceiver has

not suffered any damage in shipment. Compare con-tents of the crate to ensure items received matchthose listed on the packing slip. Retain all shippingcontainers for future use.

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

and any tools listed in your antenna installation in-structions.

Unit Part Number Quantity

• Transceiver — 1• LNC, wide mouth 30784 1

Accessory Kit for Ku-Band:• 10 ft. (3m) LNC to Transceiver Cable with

male N-connectors (longer cables also available) 31198-010 1• Power Cable with 4-pin circular connector (one end) 31185 1• Cable-End Connectors:

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

• Supervisor Software CD 30673 1• 10 ft. (3m) M&C 6 Pin to DB-9 Pin RS232 Cable 30720-010 1• LNC Screws

Screw, 6-32 x 7/16" 11806007 5Washer, 6-32, Flat #6 11811001 5Washer, 6-32, Split #6 11815001 5Nut, 6-32 11819002 5O-Ring Gasket 10950 1

• Operating Manual 30956 1• Quick Start Guide 1

Optional Accessories:• Transceiver Mounting Kit, TX Reject Filter Contact Factory

ANASAT®-Ku Packing List

ANACOM 3095604

Installation 2-2 ANACOM ANASAT®–Ku Transceiver

LNCBe sure the LNC unit is properly terminated

prior to operation. Ensure all the correct waveguidegaskets are used to prevent water damage.

Site ConsiderationsPeculiar installation requirements of any par-

ticular site is the responsibility of the system opera-tor. ANACOM can engineer an optional installationmounting kit, customized for your site and hardware.Contact ANACOM for details.

AntennaThe transceiver must be attached to some form

of mounting structure which is usually the antennafeed boom or the antenna bracket structure. Specificmounting procedures will depend on the antennaused. The transceiver and LNC are designed to bemounted on most antennas. Locate and install theantenna according to the antenna manufacturer’sinstructions. Choose an area that is free of extrane-ous interference from motors and electronic equip-ment and has a clear line-of-sight from the antennato the satellite.

Lightning arrestors should be used at the site toprotect personnel and equipment. Size 3/0 or 4/0stranded copper wire should be used to bond thetransceiver to the antenna frame and to the lightningprotection ground rod.

Power RequirementsThe ANASAT®-Ku transceiver requires a

power source which supplies 110 VAC or 220 VACat 50 or 60 Hz, through a circuit breaker. Size of cir-cuit breaker depends on model. To assure uninter-rupted service, some method of back-up AC poweris recommended. Installing surge arrestors and ACpower line filters will reduce voltage surges from theAC power input. Provide an isolation filter to cleanup power line interference and/or voltage variations,as required.

NOTE: AC TRANSIENTS AND SURGES MAY CAUSE DATA TRANSMISSION ER-RORS AND LOSS OF SYNCHRONIZATION IN THE TRANSCEIVER SYNTHESIZERS

AND/OR THE EXTERNAL MODEM EQUIPMENT.

Safety Precautions

General

Ensure the ANASAT®-Ku transceiver andLNC are properly grounded. Do not rely on coaxialcable shields for the ground connection.

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

• gaskets are intact and free of damage priorto reinstallation

• mounting screws are properly installed

Ensure all connectors are properly water-proofed.

Power SupplyConfirm that AC Power is disconnected before

removing the transceiver or LNC cover.

TransceiverTake adequate precautions to ensure the

ANASAT®-Ku transceiver does not transmit a signaluntil it has been properly connected and set up forauthorized frequencies and power levels. The trans-mitter is normally shipped from the factory with TXON!

!

Observe normal safety precautionswhen operating this equipment.

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.

!

Power AmplifierBe sure the transceiver TX OUT port is prop-

erly terminated prior to operation. Ensure all the cor-rect waveguide gaskets are used to prevent waterdamage.

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

ANACOM 3095604


Transceiver MountingConsiderations

The ANASAT®-Ku transceiver must bemounted such that:

1. Sufficient support is afforded the transceiverto minimize the effects of antenna sway instrong winds.

2. Air movement is possible across the heatsink fins. Ideally, the fins should be alignedvertically, but this is not required.

NOTE: The length (and associated RF losses)of the interconnecting cables must be consideredwhen determining the location of the transceiver andLNC.

Transceiver MountingThe ANASAT®-Ku transceiver is designed for

mounting in any position. For optimal heat sink action,the heat sink fins should be vertical, or as nearly ver-tical as is practical. For transceivers equipped with afan, this suggestion does not apply.

Figure 2-1 shows a common installation ex-ample where the transceiver is mounted on the an-tenna feed support arm.

When mounting the transceiver, allow enoughroom to adjust the antenna’s azimuth and elevation.Throughout installation and during any polarization,azimuth, or elevation adjustment, ensure the cablesand waveguide are not crimped or pinched.

Figures 2-1a and 2-1b in next pages shows thetransceiver mounting for single thread.

GroundingElectrical bonding (grounding) of the trans-

ceiver is required to prevent possible damage fromlightning or other induced electrical surges.

The transceiver is provided with both an M3,and a #8 ground point. It is recommended that 000AWG copper wire or copper braid be used to bondthis unit to the earth ground (grounding rod) using themost direct (shortest) route possible.

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

directly bolted to the antenna RX feed. An appropri-ate waveguide gasket must be included at the feedpoint. Connect one end of the coaxial cable withmale N-connectors (included) to the LNC. Refer tothe note at the end of this section regarding water-tight connections. Route the 10-foot cable to thetransceiver and connect to the LNC N-connector.Longer cable lengths may be used under certain cir-cumstances; contact ANACOM for details.

Caution: Never touch the ground-plane an-tenna pin found inside the wave-guide flange of theLNC. The front-end preamp is susceptible to staticdischarge.

Figure 2-1. Typical transceiver mounting.

Ku-BAND FEED

TRANSCEIVER

MOUNTING KIT

2.4m 2-piece 0.6 f/dantenna

ANACOM 3095604


Figure 2-1a Transceiver Mounting for Single Thread

ANACOM 3095604


Figure 2-1b Transceiver Mounting for Single Thread

ANACOM 3095604


2. Transmitter FeedReferring to Figure 2-4, connect a section ofwaveguide between the OMT transmit portand the transceiver’s transmit output, TXOUT. Waveguide should be attached to theantenna feed per manufacturer’s instructions.Ensure a gasket is fitted at each flange andthat the connections are weather-tight.

3. 70MHz ModemAttach a coaxial cable with male N-connec-tors between the transceiver’s TX IF (seeFigure 2-5) and the modulator IF OUTPUT.Make sure that the connections are weather-tight.

Attach a coaxial cable with male N-connec-tors between the transceiver’s RX IF (seeFigure 2-5) and the demodulator IF INPUT.Make sure that the connections are weather-tight.

Cable and WaveguideConnections

Cabling RequirementsLocal regulations may require that cables in oc-

cupied buildings be installed in steel conduit. Localgovernment agencies may waive this requirement forthe use of Plenum cables, which are standard cablesentirely encased in solid Teflon. Check the codes inyour area.

NOTE: EQUIPMENT OUTAGES DUE TO FAULTY CABLE

MATERIALS OR INSTALLATION ARE NOT COVERED BY YOUR

WARRANTY.

Figures 2-3, 2-4, and 2-5 provides the cablingdiagram for the ANASAT®-Ku transceiver.

1. AC PowerAttach the AC input cable to the 4-pin con-nector on the transceiver. Run the AC cable tothe power source but do not attach. The sup-plied power cable has a four-pin weather-tightcircular connector attached to one end. Theother end is terminated with flying leads. At-tach the proper AC power connector for yourlocation to the other end of this cable.

Color code:

Brown..................AC Hot power leadBlue......................AC Neutral power leadGreen/Yellow......Ground

Figure 2-2. LNC assembly.

Figure 2-3. AC Power Connection.

ANACOM 3095604


Waveguide to transmitantenna interface(WR-75 flange) AC Power

(side mounted4-pin circular

connector)

Cable to LNCLNC Input(N-female)

Ground Lug See detail, below

Figure 2-5. ANASAT®-Ku Cabling Interconnections M & C and IF Connections close-up.

Ground Lug

RS-232 to terminal(6-pin circular)

RS-485/RS-232plus alarm output to terminal

(18-pin circular)

70MHz TX IF Input(N-female)

70MHz RX IF Output(N-female)

Status LEDs:

Red—ALARM

Flashing Green—“OK”

Figure 2-4. ANASAT®-Ku Cabling Interconnection Diagram for the entire transceiver.

ANACOM 3095604


4. LNCAttach the RF cable between the LNC con-nector and the transceiver LNC inputconnector(refer to Figure 2-4). If a longercable is required, ensure that the replacementcable is designed for low loss at microwavefrequencies. Maximum loss of the LNC cablemust be 10 dB or less at 10 GHz!

5. Terminal ConnectionsA data terminal or a computer with terminalsoftware connects to the ANASAT®-Ku viaeither RS-232 or RS-485 serial ports. Appen-dix C shows the pinout of the serial outputs.Both 6-pin and 18-pin weather-tight circularconnectors are included. An optional serialcomputer cable is available from ANACOM.

Final CheckRecheck all bolts and cabling. Refer to Figures

2-3, 2-4, and 2-5 to verify cable connections.

After all other connections have been made,connect the AC power cord to an active outlet.

Water Resistance WrapThe application of moisture-resistant wrap

(mastic tape) to all connectors is recommended toprevent water entry and resultant water damage.See Figure 2-6. Apply the mastic tape as follows:

1. Ensure that all connectors are tight.

2. Pre-cut the mastic tape to the desired sizeand remove the protective wax liner fromthe tape.

3. Center the tape on the connector to besealed and wrap the tape tightly around theconnector. Squeeze the tape tightly and en-sure that both ends of the tape have formedaround the connector and the cable.

4. Apply the mastic tape to all connectors thatmay be exposed to moisture.

Figure 2-6. Mastic Tape application

ANACOM 3095604


ANASAT®-Ku Quick Start GuideThere’s lots more inside the manual, but here are the most important steps:

1. Mount the transceiver and the LNC on the antenna.2. Connect the cables as shown in the drawing (See page 2-3 of the Operations Manual).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 blinking, indicating normal internal operation.The red LED must be OFF. If illuminated, it indicates an alarm condition requiring attention. Refer tothe ALARM command for details (Appendix A).

5. Using the terminal, configure the transceiver to the proper frequency:RXFREQ nnnnn (nnnnn in MHz—see Appendix D for channel)TXFREQ nnnnn (nnnnn in MHz—see Appendix D for channel)

6. Configure receive gain and transmit output power:RXGAIN nnn nnn ranges from 85 to 100TXGAIN nn nn ranges from: 10 to 36 [0Ku] 44 to 70 [2Ku] 47 to 73 [4Ku]

50 to 76 [8Ku] 53 to 79 [16Ku] 53 to 79 [20Ku]53 to 79 [23Ku] 53 to 79 [25Ku] 57 to 83 [40Ku]58 to 84 [50Ku] 59 to 85 [60Ku] 60 to 86 [80Ku]

7. Enable the Transmitter: 61 to 87 [100Ku] 62 to 88 [125Ku]TX ON (TX OFF takes the transmitter OFF air)

J3 TXIF J4 RXIF J5 M & C J6 R S232

ALARMPOWER

J1 LNB

GND

ACPower(side

mount)

To LNB

To AntennaFeed

TX Data from Modem

RX Data to ModemSerial ports for terminal or

computer

Ground Lug

"OK"GreenLED

"Alarm"Red LED

To LNC

J1 LNC

ANACOM 3095604


ANACOM 3095604

ANACOM ANASAT®–Ku Transceiver 3-1 Operation

Preliminary StepsAfter the ANACOM®-Ku hardware is mount-

ed and verified, the antenna must be aimed towardthe desired satellite. Follow the antenna/mount manu-facturer’s instructions, using coordinates provided bythe satellite operator. Do not transmit until youhave received authorization from the satellite net-work operation center, and a transmit power levelfrom its engineering staff.

Terminal Connection andConfiguration

AutolinkThe AnaCom M&C feature automatic baudrate

sensing on the serial ports. If wrong baudrate is de-tected, the M&C will drop to 1200 baud and wait foruser to move to 1200 baud. AnaCom provides a CDwith both our Supervisor and Supervisor Jr. soft-ware on it, that will establish a link with the ODUautomatically, regardless of the last used settings.

Connect a terminal or computer running termi-nal emulation software to either serial port. General-ly, COM 1 (using the 6-pin circular connector) isused for on-site maintenance and control. COM 0 isoften used in its RS-485 mode, with multi-unit, pack-etized protocol and differential mode signals good formoderately long distance (up to 4000 feet or 1200m)remote control. Either port or either serial protocolcan be used to accomplish setup. Set the terminal to1200 baud, eight data bits, no parity, and one stop bit(1200,N,8,1 protocol). Refer to Appendix C for wir-ing diagrams for the COM ports.

Frequency Programming

TXC; RXCThe transmit and receive frequencies are set

independently using the TXCHAN (TXC) and RX-CHAN (RXC) commands. Refer to Appendix E fora table of channel numbers versus frequency.NOTE: Appendix E assumes an IF of 70 MHz forboth TX IN and RX OUT. Add or subtract any dif-ference between the actual IF and 70 MHz to deter-mine the exact RF frequency employed.

TXF; RXFDirect frequency entry in MHz can also be

done by typing TXF**** or RXF**** where ****are the transceiver frequencies desired. This alsoassumes exactly 70MHz (or 140 MHz) TXIF &RXIF.

Operating frequencies for standard Ku-Bandchannels are calculated with the following formulas:

fTX = TX IFIN + 13929 + Ch# MHz

fRX = RX IFOUT + 10879 + Ch# MHz

For negative channels:

fTX = TX IFIN + 13930 + Ch# MHz

For example, if the following commands aregiven to the transceiver:

RXCHAN 50

TXCHAN 50

Then with a TX IN intermediate frequency of72.5 MHz the result is an output frequency of14,051.5 MHz. Likewise, with an RX OUT IF of67.5 MHz , then the received RF frequency is10,996.5 MHz.

Both fTX and fRX may be directly entered anddisplayed via the M & C by using the TXFREQ andRXFREQ commands. These commands will change

Section 3. Operation

!

AnaCom Transceivers are shippedfrom the factory with TX ON asactive.

ANACOM 3095604

Operation 3-2 ANACOM ANASAT®–Ku Transceiver

the terminal display from channel number to RF fre-quency. These frequencies assume an IF of exactly70 MHz.

Antenna Adjustment

Do not transmit while adjusting theantenna position.

Follow the antenna manufacturer’s instructionsfor antenna position adjustment. For final alignment,contact the satellite operator and get the correct po-larization, azimuth, and elevation of the satellite andalso confirm the desired transponder is operational.

Apply power to the ANASAT®-Ku. While thetransceiver requires about 5 minutes for the OCXOto reach full stability, antenna adjustments may beperformed by monitoring other signals, such as bea-cons, immediately.

Connect a spectrum analyzer to the RX IF out-put. Set the ANASAT®-Ku to the desired frequencyusing the RXCHAN (or RXFREQ) command, asdescribed above. While monitoring the output with aspectrum analyzer, slowly sweep the antenna throughazimuth and elevation. Adjust antenna position formaximum signal strength.

Please note that the fan, on units so equipped, isthermostatically controlled and does not turn on whenthe unit is very cold.

M & C Operation

Terminal DisplayThe M & C terminal display gives a complete

accounting of transceiver alarms and status. Thedisplay is sent to the terminal every 30 seconds. Thisinterval can be changed with the UTIMER com-mand. (See Appendix A).

The top line shows the transceiver model andserial number.

The second line gives the primary transceiveroperating parameters:

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

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

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

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

AnaSat 2Ku Transceiver REV:04 S/N:006592TKREQ on | TX ON AIRalarm status: CLEAR

TXCHAN: 251 RXCHAN: 901TXGAIN: 64.0 RXGAIN: 100

monitor points: TXMUTE: clear TXLOCK: locked RXLOCK: locked PA1: 8.6FANERR: clear TXPLL: 6.9 RXPLL: 7.7 PA2: 8.6TEMP: 25C DIP: 00000000 TXOPLL: 6.6 FTLLOCK: locked PA3: 8.4XTAL: normal P12V: 13.4 TXin: -49 FTLPLL: 7.2 PA4: 10.2N5V: -5.4 P5V: 5.0 TXout: 11 RXout: > -3 PA5: 10.3last reset: 44 seconds TXpeak: 11 LNCV: 13.2 PA6: N/ADTE1 PC_MODE UTIMER off TERMTYPE TTY ECHO on|CRLP on BAUDRATE 9600

COMMAND >

!

ANACOM 3095604


The third line gives a summary alarm indication.The alarm can be “CLEAR”, “MINOR”, or “MA-JOR”. See Appendix B for specific alarms.

The fourth and fifth lines give TX and RX chan-nel (or frequency) and gain values.

· TXCHAN number is the actual transmitchannel selected. Alternately, TXFREQnumber is the actual transmit frequency for70 MHz (140 MHz) input. Valid channelnumbers range from 1 to 501, depending onmodel.

· TXGAIN is the actual transmit gain valueselected in dBm.

· RXCHAN number is the actual receivechannel selected; or RXFREQ number isthe actual receive frequency for 70 MHz

(140 MHz) output. Valid channel numbersrange from 1 to 1801.

· RXGAIN is the actual receiver gain valueselected in dBm.

The remainder for the display give detailedmonitoring information as follows:

· OSL LOCK gives alarm status of theOSL phase locked loop; NORMAL or FAULT

· TXLOCK gives alarm status of the trans-mit phase locked loop; NORMAL or FAULT

· RXLOCK gives alarm status of the re -ceive phase locked loop; NORMAL or FAULT

· FANERR gives alarm status of the cooling fan (if a fan is installed).

· OSLPLL shows the actual VCO controlvoltage of the offset loop.

· TXPLL shows the actual VCO controlvoltage of the TX synthesizer.

· RXPLL shows the actual VCO controlvoltage of the RX synthesizer.

· TEMP shows the internal heat sink tem-perature in °C.

· TXMUTE gives the status of the TX override circuits, any of which will turn off the

transmitter.

· LNC shows the LNC supply voltage.

· XTAL gives the status of the internal ref-erence crystal. The two possible status areWARMING or NORMAL. By default, WARM-ING will disable the transmitter.

· P12V shows the internal 13 volt powersupply voltage.

· P5V shows the internal 5 volt power sup-ply voltage.

· N5V shows the internal –5 volt powersupply voltage.

· UTIMER gives the present value of theuser timer which controls the cycle time ofthe display in seconds.

· TXin shows the approximate transmitterinput (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 terminaltype selection. Options are: “TTY”, “VT52”,and “VT100”.

· ECHO gives the present setting for theterminal echo function. When “ON”, the seri-al port will echo all characters typed. Whenthis parameter is “OFF” then the port will notecho characters.

· CRLF gives the present setting for theserial port to issue a line feed (LF) aftereach carriage return (CR). Options are “ON”or “OFF”.

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

· PA1 through PA6 gives the voltages foreach stage of the transmitter power amplifi-er. Note that some low power models do notuse all six voltages. As a special case, the0dBm uses PA1 through PA6 to display up

ANACOM 3095604


to six different status or voltage points on anexternal high power amplifier. (HPA)

Gain AdjustmentsTransmitter Gain

After the transceiver has warmed up for atleast 5 minutes (OCXO warm-up) the transmittermay be activated. Set the transmit gain to achievethe desired output level (in dBm) with the transmitgain control, TXGAIN. Output power is selectable in1 dB steps. Smaller steps can be entered, for exam-ple: TXG 62.5 and the M&C will attempt to providethat gain as closely as possible.

Maintaining proper output power is vital formaximizing signal-to-noise ratios over the radio path.Low power levels produce noisy signals; excessivepower robs downlink strength from other stationssharing the transponder.

Adjust the transmitter gain to attain the desiredoutput power level. Use a calibrated watt meter forthis task. The M&C gives an uncalibrated reading ofoutput power which is good for long term monitoring,but it is not intended to replace a calibrated meter.

When transmitting multiple carriers, run the out-put power with an output back-off sufficient to meetthe spectral density mask requirements.

Caution: It is recommended that the transmit-ter not be driven into saturation for long periods oftime. The input power in dBm plus the requested TXgain in dB should not exceed the P1dB rating for thegiven transmitter.

TX input (dBm) + TX Gain (dBm) <= TX p1dB rating (dBm)

Receiver GainSet receive gain by monitoring RX IF output

level and adjust the RXGAIN parameter via the ter-minal. RXGAIN allow adjustment over a 15dBrange, from 85dB to 100dB (including LNC gain), in1 dB steps. Smaller step sizes can be entered, forexample: RXG 87.5

Receiver gain should be set to a value wherethe desired receive signal is centered in the modemAGC range. At the same time, the composite signal,containing all received signals in the transceiver

passband, must not exceed the modem’s maximumrated input level. Account for IF cabling losses whencalculating the RXGAIN value.

RX IF output is monitored by the M & C unit;a Summary alarm is generated if this output leveldrops below a specific level (generally when theLNC is not attached). The M & C uses an internaldetector on the RX output to monitor RX outputpower. This is shown in the terminal display windowin dBm. The RX output power value shown is notaccurate enough to rely on for measuring the desiredsignal. The detector is broadband and will respond toALL signals in the transponder, including noise.

Receiver gain setting is usually not as critical astransmit gain: excessive gain may cause modem re-ceiver overloading and result in distortion on the re-ceived signal; insufficient gain presents reduced sig-nal-to-noise ratios. Ideal RX gain puts the desired IFsignal amplitude near the midpoint of the modemAGC range.

Basic M & C Commands1. Using the terminal, configure the transceiver

to the proper frequency:

RXCHAN nnnn nnnn ranges from 1 to 1801TXCHAN nnn nnn ranges from 1 to 501

(see Appendix D).

2. Configure receive gain and transmit gain.

RXGAIN nnn nnn ranges from 85 to 100TXGAIN nn nn ranges from:

10 to 36 [0Ku] 44 to 70 [2Ku]47 to 73 [4Ku] 50 to 76 [8Ku]53 to 79 [16Ku] 53 to 79 [20Ku]53 to 79 [23Ku] 53 to 79 [25Ku]57 to 83 [40Ku] ]58 to 84 [50Ku]59 to 85 [60Ku] 60 to 86 [80Ku]61 to 87 [100Ku] 62 to 88 [125Ku]

Note:

Gain settings and power readings are not intended toreplace a calibrated Power Meter.

ANACOM 3095604


TX and RX gains are adjustable in 1 dB steps; toprogram 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 3095604


ANACOM 3095604

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

Section 4. Theory of Operation

tored. An active feedback negative bias voltage sup-ply guarantees proper control of PA power.

Two LEDs, a flashing green indicating properoperation and a red warning of a Summary alarm,are mounted on the transceiver for status indication.

Low Noise ConverterThe receive signal from the antenna’s feed

horn is fed via a WR-75 waveguide flange into theLNC, which is bolted to the feed horn of the an-tenna. The LNC consists of two blocks: a Ku-bandlow noise amplifier (LNA) and a block converter thatmixes the Ku-band receive signal with the local oscil-lator (LO) from the receive converter module to pro-duce an L-band output. (See Figure 4.2)

The LNA consists of a three-stage GaAs FETpreamplifier. Negative gate bias for the GaAs FETsis generated inside the block converter.

If the LNC has been purchased with the RFport option, then the signal at its RF frequency isavailable with about 20 dB of gain.

The amplified Ku-band signal is mixed with theLO signal from the converter module in the trans-ceiver. A filter passes the difference frequency andoutputs this L-band signal to an N-connector. A cablecarries this output to the converter module inside thetransceiver.

Only one coaxial cable is needed between thetransceiver and the LNC. This cable carries threesignals:

• L-band signal output from the LNC• LO input from the converter• +13V DC power from the converter module.

Combination and separation are accomplishedwith an inductor for the supply voltage and a pick-offcoupling for the LO.

The ANASAT®-Ku transceiver consists of fivemajor blocks, as shown in Figure 4-1. These blocksare:

• Low Noise Converter (LNC)

• 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

waveguide into the Low Noise Converter (LNC),with its integral Transmit Reject (TR) Filter, whichseparates the transmit signal and receiver image fre-quencies. The LNC amplifies and mixes the Ku-bandreceive signal, outputting an L-band IF signal to theconverter module. The receive converter portion ofthe converter module synthesizes the proper mixerfrequencies for the second converter, which outputsthe (nominal) 70 MHz receive output at the RX IFN-connector on the transceiver.

Transmit signals at (nominally) 70MHz are in-put to the TX IF N-connector on the transceiver.This signal is double converted to the desired Ku-band frequency in the converter module and outputto the linear power amplifier (PA). PA output of upto 50W, depending upon transceiver version, feedsthe antenna.

Control and Power SystemsThe microprocessor-based M & C unit moni-

tors the transceiver’s parameters to ensure properoperation and reliable, long term service. Two serialports provide local or remote terminal access.

Power distribution is controlled with each ofseveral supply voltages and currents carefully moni-

ANACOM 3095604

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

Figure 4-1. ANASAT®-Ku Transceiver Block Diagram

BP

F

BP

FB

PF

BP

FB

PF

BP

FB

PF

BP

F

BP

FB

PF

BP

FB

PF

High

Sta

bility

OCX

O

TX G

ain S

et 1

70M

Hz

L-ba

nd T

X IF

TX S

ynth

esize

r

RX

Synt

hesi

zer

≈ 14

GHz

L-ba

nd IF

10 G

Hz

LO

70M

Hz

RX G

ain S

et

LNB

Powe

r

TX I

F

In (N)

RX I

F

Out (N

)

(N)

(N)

WR

-75

Wa

veg

uide

Fla

nge

WR

-75

Wav

egu

ide

Fla

ng

e

Pow

er A

mpl

ifier

LNC

Conv

erte

r Mod

ule

Mon

itor &

Con

trol

(M &

C) U

nit

RX G

ainTX

Gain

RX C

han

TX C

han

Alar

mRe

lays

Ser

0RS

-485

RS-2

32Po

wer

Supp

lyAC

Inpu

t

Pow

erCo

ntro

l

UART

Alar

m R

egist

er

FLAS

H M

emor

ySt

atus

Reg

ister

Cont

rol R

egis

ter

A/D

D/ASt

atus

Reg

ister Da

ta B

us

Anal

og I/

OPo

wer

Digit

al I/

OAn

alog

I/O

Powe

r

Man

ual C

ontro

l (O

ptio

nal S

witc

h Pa

ckag

e re

quire

d)

TX O

ffset

Ser

1(R

S-2

32)

Micr

o-pr

oces

sor

RX O

ffset

Mon

itor

Reg

iste

r

ANACOM 3095604


range and is operator-adjustable by terminal com-mands via the M & C unit. A final LC bandpass filterconnects the variable gain amplifier to the 50Ω N-connector output on the transceiver. An external 50Ωto 75Ω transformer is available from ANACOM asan option.

The +13V DC supply to the LNC is fused witha self-resetting “polyfuse”. This polyfuse is locatedon the M & C board.

Frequency SynthesizersThe converter module generates all necessary

frequencies with phase-locked-loop (PLL) synthesiz-ers. All PLLs are referenced from a single 10 MHzclock mounted on the M & C board. The master os-cillator is a highly stable 10 MHz oven controlledcrystal oscillator (OXCO) accurate to 1 x 10-8 Hz (0.01 Hz at 10MHz). This oscillator is fine tuned tocompensate for normal aging effects automaticallyfrom the M & C unit.

Transmit Offset LoopThe first synthesized frequency is the L-band

offset loop signal that is used by the transmit con-verter. This signal is fed to the first transmit mixer.

Converter ModuleThe converter module is located inside the

transceiver and consists of two sections, the receiveconverter and the transmit converter. The convertermodule takes an extremely stable 10 MHz referencesignal from the Monitor & Control unit and synthe-sizes all necessary mixing frequencies.

Receive Converter Signal PathThe receive converter takes its input from the

LNC via an N-connector on the transceiver (refer toFigure 4-3). A short coaxial cable connects the type-N connector on the heat sink to the converter unititself. A diplexer at this input allows this single con-nector to perform three functions: signal IF inputfrom the LNC, LO output to the LNC, and DCpower to the LNC.

The L-band receive signal is extracted by theinput diplexer and is filtered by a mechanically-tuned6-pole filter. A single-stage amplifier provides +10 dBof gain. Another mechanical filter cleans the signalbefore it is mixed with an L-band LO frequency, pro-ducing the (nominal) 70 MHz receive output. An L-Cnetwork selects only the 70 MHz mixer output andpasses this signal to a variable gain amplifier. Thisvariable gain amplifier is adjustable over a 15dB

Figure 4-2. The LNC

ANACOM 3095604


Transmit Converter Signal PathThe Transmit converter takes the nominal 70

MHz signal input from a 50Ω N-connector on thetransceiver (refer to Figure 4-4). (Note: an external75Ω to 50Ω transformer is available fromANACOM as an option). This signal passes throughan LC filter and into the transmit variable gain ampli-fier. This amplifier is gain-adjusted by a control volt-age from the M & C unit, and has a gain variation of26dB in 1dB steps. Another LC bandpass filter re-moves any out-of-band noise and presents the signalto the first transmit mixer. This mixer adds the offsetloop frequency to the TX IF, producing an S-bandoutput. This output passes through a mechanical filterinto the second gain block and then through anothermechanical filter.

The S-band output is now applied to the secondtransmit mixer, where it is combined with the 10 GHztransmit synthesizer output and becomes a Ku-bandsignal of the desired frequency. A mechanicalbandpass filter selects the proper mixer product andapplies it to a three-stage amplifier. A final mechani-cal filter is used before the transmit signal is appliedto the PA.

Power AmplifierANASAT®-Ku series transceivers are available

in thirteen different versions, with maximum transmitoutput powers of up to 125 watts.

Thirteen different power amplifier (PA) mod-ules are employed to economically achieve the dif-ferent output ratings.

NOTE: the 0 dBm transceiver has no power amplifier. Theup converter output is fed directly to the outside with atype N-connector.

ConstructionThe PA module is a highly linear amplifier built

on soft-board Duroid™ PC board substrate materialsilver epoxied inside a machined aluminum block.This assembly is bolted to the center of the trans-ceiver heat sink for excellent thermal conductivity.Power for each stage is provided via individual feed-throughs drilled into the machined block and hasseparate ferrite bead isolation for each connection.Aluminum bars securely fasten the soft board intothe cavity.

PA ModuleThe PA module takes its input from the transmit

converter on the converter module. This input handlesup to +10 dBm and is connected to the converter boardvia semi-rigid cable using SMA connectors.

Good RF grounding and thermal properties areassured by the use of Teflon® (Duroid™) PC boardsubstrate material which is permanently attached tothe cavity.

Transmit input is applied to a hybrid couplerwhich feeds a balanced amplifier. A second hybridcoupler converts this balanced output to a single-ended input for the amplifier.

This drive power is fed into another hybrid cou-pler and on into the balanced final amplifier. This bal-anced output passes through another hybrid to com-bine the signal into a single-ended output which is fedinto a WR-75 waveguide flange that mates directlyto the PA module and bolts to the heat sink. A direc-tional coupler monitors output characteristics and re-ports to the M & C unit.

Power for each stage of the higher power PAsis individually filtered and applied through ferrite

BPF

BPF BPF

BPF BPF BPF BPF BPF

BPF BPF BPF BPF

High Stability OCXO

TX Gain Set 1

70MHz L-band TX IF

TX Synthesizer

RX Synthesizer

≈ 14 GHz

L-band RX IF

10 GHz LO

70MHz

RX Gain Set

LNB Power

RX IF Out

(N)

(N)

(N)

W R- 75W av e gu i de

LNC/TR FilterConverter Module

TX Offset

RX Offset

Figure 4-3. Converter Module, Receive Portion.

S-band TXS-band TX

ANACOM 3095604


beads via cutouts in the aluminum housing. Both gatebias and drain power for the final three stages arefed with press-fit filtered terminals for excellent seal-ing and isolation.

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

4-6 and 4-7, is a microprocessor-based controllerproviding transceiver diagnostics, remote command,power distribution, active bias voltage for the PA,and a highly accurate and stable reference fre-quency.

Microprocessor-BasedFunctions

The heart of the M & C unit is the 80C188 mi-croprocessor, operating at 16 MHz. It has 128K ofSRAM and two 1MB FLASH electrically erasableprogrammable read-only memories for program andvariable storage.

The microprocessor allows long term, com-pletely unattended remote operation of theANASAT®-Ku transceiver. All functions are acces-sible remotely via either of the two serial ports,which allow remote monitoring and diagnostics aswell as normal frequency and power control.

Analog-to-digital (ADC) and digital-to-analog(DAC) converters are used by the microprocessor tomonitor operating parameters and control the trans-ceiver. Two external LEDs, a flashing green lampindicating proper system operation, and a red onewarning of a Summary alarm are controlled by themicroprocessor. These lamps provide obvious, imme-diate status feedback to any on-site operator ormaintenance personnel.

Serial PortsSerial communications are provided through

two communications ports. COM0 is either RS-232or RS-485 compatible. COM1 is RS-232 compatible.Both ports allow communications rates between300bps and 57.6kbps, and use eight data bits, no par-ity, and one stop bit. Both ports are set at the factoryto 1200bps.

Monitor InputsThe following analog inputs are monitored by

the microprocessor via the ADC:

Figure 4-4. Converter Module, Transmit Portion.

!

DO NOT ATTEMPT REPAIR ORREMOVE THE P.A. CIRCUITBOARD! SEVERE DAMAGE WILLRESULT.

BPF BPF BPF BPF BPF BPF

BPF BPF BPF BPF

High Stability OCXO

TX Gain Set 1

70MHz L-band TX IF

TX Synthesizer

RX Synthesizer

≈ 14 GHz

L-band RX IF

10 GHz LO

70MHz

RX Gain Set

LNB Power

TX IF In

(N)

W R- 75F lan ge

Power Amplifier

Converter Module

TX Offset

RX Offset

Figure 4-5 50 Watt EKu Band unit

S-band TX

ANACOM 3095604


• Serial control data for the transmit and re-ceive frequency synthesizers.

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

The programmable counters in the PLL fre-quency synthesizers are loaded by the microproces-sor. Both are connected to the same data and clocklines, and have independent strobes.

Non-Microprocessor-BasedMonitor Functions

Separate monitor functions are implemented inhardware as a fail-safe in the unlikely event of a mi-croprocessor lock-up. These functions disable thetransmitter independently of any microprocessorcommands.

• Heat sink overtemperature fault

• –5V GaAs FET bias supply failure

• Transmit offset PLL failure

• Transmit synthesizer failure

Alarm RelaysTwo mechanical relays are used in the ANA-

SAT®-Ku transceiver for alarm indication. One is formajor alarms and the other is for minor alarm condi-tions. The red LED mounted on the transceiver is

• PA temperature• All four PLL synthesizer VCO control volt-

ages• PA power output• –5V DC supply• 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 monitored bythe microprocessor:

• Synthesizer lock detect alarms

• Cooling fan failure (on units equipped with afan)

Control OutputsThe microprocessor controls:

• TX gain• RX gain• OCXO fine frequency adjust• Transmit ON/OFF switching• Sequenced PA power supply control

Figure 4-6 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)

Monitor Register

ANACOM 3095604


illuminated whenever either the minor or major alarmrelays indicate a problem exists.

The major alarm relay has normally-closed con-tacts, so it defaults to the alarm state when power isoff.

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

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

system power supply and generates several addi-tional supplies:

• +5V for the M & C unit

• +5V for the converter unit

• +13V for programming the FLASH memoryand running the LNC

• –5V for the GaAs FET active bias

• +11V for the PA (PA1 through PA6)

All supplies are regulated through low noise lin-ear regulators. The 11V supply for the PA is actuallyfour, five, or six separate regulators (the number ofregulators employed depends upon which transceiverPA power level used) for isolation and power surgecontrol reasons. Voltage and/or current is monitoredfor each supply. Additionally, a high accuracy, tem-perature compensated voltage reference is employedfor the DAC and ADC.

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

tive gate voltage for operation. These very expensivedevices are easily destroyed with improper bias.ANASAT®-Ku transceivers employ an active biascircuit with feedback to automatically control the DCpower consumption of each PA stage.

Microwave SynthesizerFrequency Reference

All transceiver operating frequencies are syn-thesized from one 10 MHz reference oscillator. Thisclock is a high accuracy, high stability oven controlledcrystal oscillator (OCXO) module guaranteed within± 1 x 10–8 Hz. The ANASAT®-Ku M & C unit peri-odically compensates for crystal aging automatically.

If your transceiver has been ordered with theEXTERNAL 10 MHz CRYSTAL REFERENCESWITCH option, then that option can be activatedusing the EXTREF command.

Example:

EXTREF ON

When active, the transceiver’s synthesizerslock the external reference. If this option has beenactivated, but an inadequate external reference signalis present, then the EXTREF alarm will be raised:this is a MAJOR alarm. The transceiver is not goingto switch back to the internal crystal reference when

Figure 4-7 Monitor and Control Board.

ANACOM 3095604


this option is active but an external source is missingor inadequate.

To return to conventional operation using theinternal reference source, use the command:

EXTREF OFF

A minimum signal level recommended for anexternal reference is +5 dBm.

Figure 4-8a The 13V Power supply is mounted inside the bottom cover. Model 4Watt.

Figure 4-8b The 13V Power supply is mounted inside the bottom cover. Model 16Watt.

Power SupplyANASAT®-Ku transceivers use a wide input

voltage (100 to 240VAC, 47 to 63Hz) switchingpower supply to develop the +13V used as the inter-nal power source. An internal circuit senses whichinput voltage range is being used and automaticallyswitches modes. Figure 4-8a and 48b shows how thepower supply is mounted in the transceiver. The ACinput is connected via a 4-pin circular connector.

ANACOM 3095604

ANACOM ANASAT®–Ku Transceiver 5-1 Maintenance

Section 5. Maintenance

ANASAT®-Ku series transceivers are designedfor a minimum of maintenance. The on-board micro-processor monitors all vital functions to ensureproper operation. Periodic scheduled maintenance isnot required.

Aging of the ovenized reference oscillator isautomatically microprocessor compensated, furtherreducing maintenance worries.

Various operational voltages may be monitoredvia either serial port. At the time of installation, it is

recommended that each of these points be recorded.If problems occur later, these initial recorded valuescan be of great help troubleshooting the system. Thefollowing table may be used to record the operatingparameters. Note that several of these values arespecific to the setup. For example, the RX SYNTHvoltage will change if RX CHAN (the receive fre-quency) is changed.

Parameter Normal Range Installed ValueTXCHAN model dependent

TXGAIN model dependent

RXCHAN 1 to 1801

RXGAIN 85 to 100

OSLPLL 1.9 to 11 volts

TXPLL 1.9 to 11 volts

RXFTL 1.9 to 11 volts

RXCTL 1.9 to 11 volts

TEMP –30 to +50

LNC +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 N/A

PA2 N/A

PA3 N/A

PA4 N/A

PA5 N/A

PA6 N/A

ANACOM 3095604

Maintenance 5-2 ANACOM ANASAT®–Ku Transceiver

LNC ReplacementAlthough the ANASAT®-Ku family of trans-

ceivers is designed to need no normal maintenance, ifit ever becomes necessary to replace the LNC, thisprocedure may be accomplished in the field with aminimum of equipment.

Two indications point to a faulty LNC; althougha faulty LNC cable can also cause these symptoms.

1) Improper LNC Voltage

2) Receive IF output level low

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

LNC Replacement Procedure

1) Remove power from the transceiver.

2) Disconnect the coax cable to the N-connec-tor on the LNC.

3) Unbolt the LNC from the antenna mount.Save the weather tight gasket for reuse.

4) Attach the new LNC to the flange, using thegasket.

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 gain witha known signal.

1) Connect a satellite modem or a spectrumanalyzer to the transceiver IF output (RXIF).

2) Monitor RXIF output from a known signalsource (satellite or signal generator source).

3) Connect a terminal to the RS-232 or M & Cports on the transceiver. Using the commandRXGAIN nnnn (see Appendix A), adjustreceive gain until the modem or spectrumanalyzer reports an acceptable signal level.

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

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 3095604

ANACOM ANASAT®–Ku Transceiver 5-3 Maintenance

LIMITED WARRANTY

If this product should fail due to defects in materials or workmanship, AnaCom, Inc., will, at its soleoption, repair or replace it with new or rebuilt parts free of charge for a period of two (2) years from thedate of shipment from the AnaCom factory. This warranty covers only failures due to defects in materialsand workmanship that occurs during the period of the warranty. It does not cover damage that occursduring shipment, failure caused by operation of the product outside the published electrical or environ-mental specifications, or malfunctions caused by misuse of the product. Expendable components are notcovered under this warranty.

In order for the customer to exercise their rights to repairs under the warranty, the customer must firstcontact AnaCom to obtain a repair authorization number (RMA). If it is necessary to return the productfor repair, the customer is responsible for paying the cost of shipping it to AnaCom. AnaCom will paythe cost of shipping the product back to the customer when the repairs are completed. All import duties,customs fees, taxes of any kind, or any related fees are the sole responsibility of the customer.

Spare parts, repairs, or replacements are warranted to be free from defects in material or workmanship forninety (90) days or the remainder of the limited warranty period, whichever is longer.

There are no express or implied warranties except as listed above. In no event shall AnaCom be liable forspecial, incidental, or consequential damages arising from the use of this product, or arising out of anybreach of this warranty. All express and implied warranties, including the warranties of merchantabilityand fitness for a particular purpose, are limited to the applicable warranty period set forth above. Noemployee or representative of AnaCom is authorized to modify this warranty or AnaCom’s standardwarranty for any product.

Non-warranty repair service is available from AnaCom for a nominal charge. Non-warranty repair servicecan be obtained by contacting AnaCom and requesting a return authorization number (RMA), as describedabove. The customer is responsible for paying the cost of the shipping to and from AnaCom for anynon-warranty repairs. Non-warranty repair service will be available for any AnaCom product for aminimum of five years from the date of its first shipment from AnaCom’s factory.

ANACOM 3095604

Maintenance 5-4 ANACOM ANASAT®–Ku Transceiver

ANACOM 3095604

ANACOM ANASAT®–Ku Transceiver A-1 Appendix A

Appendix A. M&C Command Set

The transceiver will not respond to any command until a carriage return has been entered, terminatingthe command input. Multiple commands may be entered before a carriage return, using “;” as a delimiter.Example: TXCHAN 54; RXCHAN 36; SAVE will set the transmit channel to 54, the receive channel to 36and save these changes to a nonvolatile FLASH EEPROM. A transceiver response to user input can also bedelimited in similar fashion.

If a command is not recognized, an error message is returned. For example, if “foo <cr>” is entered, thefollowing 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-3EXTREF ................................................................................................................................A-4ECHO ....................................................................................................................................A-4INFO .....................................................................................................................................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®–Ku Transceiver

ANACOM 3095604

ANASAT®-Ku Band M & C CommandsALARMS

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

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

Alarms are categorized as MAJOR and MINOR, major alarms cause the externalred LED on the transceiver to begin flashing. If there are no alarms, the status of the trans-ceiver 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 (units with fans only)TXIN raised when TX input is deemed by software to be too highTXOUT 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 alarms conditions which can shutdown the PA stage: WARMING andOSLOCK, TXLOCK, PATEMP, and N5V. When these alarms are active, the PA stage isshutdown via the supply lines which feed it. This may cause the PA alarm to be raised aswell. The WARMUP alarm may be disabled with the WARMUP command.

ALARM_MODE [ NORMAL | PROTECTION ]There are two modes for alarm relay operation: Normal and Protection. In the NOR-

MAL mode, the relays operate as MAJOR and MINOR relays as described above. In PRO-TECTION mode, the relays become redefined as TX and RX summary fault relays. Therelay normally called MAJOR becomes the TX relay and the relay normally called MINORbecomes the RX relay.

ANACOM 3095604


In normal operation, the MAJOR relay is energized so that a power fault causes the re-lay to relax and thus provide an alarm contact closure. The MINOR relay is normally not en-ergized (non-alarm state). During PROTECTION operation, both relays are normally ener-gized (no alarms). Therefore, the RX relay has reverse definition of its contacts (NO andNC) for PROTECTION operation compared to its NORMAL operation.

BAUDRATE [300 | 1200 | 2400 | 4800 | 9600 | 19200 | 38400 | 57600]This command sets the baudrate of the serial channel the user is presently connected to.

Both serial ports have been programmed for 8 bits, no parity and 1 stop bit. These parametersare 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) carriage-re-

turn/line-feed status. “CRLF ON” will command the M & C computer to insert a line-feed indisplay output following a carriage return. This can be necessary to make some terminal dis-plays operate properly. In other cases this would be redundant.

DTEDTE0 [COMMAND]DTE1 [COMMAND]

These commands return a string of data regarding the specified serial port. If no port isspecified then the present serial port is used.

Using DTE0 and DTE1 it is possible to change some of the serial port parameters forthe serial port other than the one the operator is presently connected to. This could be espe-cially useful for baud rate. Example of operator input from a terminal 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.

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 emulation program on his PCwith local echo disabled, type

ECHO ONto enable echo back from the M & C computer. If the terminal is displaying doubled up char-acters, use ECHO OFF.


ANACOM 3095604

EXTREF [ON | OFF]If ON, the ODU is programmed to accept an optional external 10MHz frequency refer-

ence source. If one is not present, a new alarm, EXTREF is raised. When an external refer-ence signal appears while the EXTREF alarm is raised, the alarm will be dropped.

If OFF is given, then the internal source is used regardless of whether the optional refer-ence source switch is indicating an external source is present or not.

The default setting is EXTREF OFF.

INFOReturns information about software and hardware revision numbers.

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 remain user accessibleare: UNLOCK, CLS, ALARMS, and LIST.

If a password has been established with the SET_PASSWORD command then thatpassword must be used with the LOCK command. If there is no established password (ifCLEAR_PASSWORD has been used, for instance), then M & C functions will be locked; butthey can be unlocked without a password. There are two solutions to the problem of havinga 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 phone lineand a Hayes compatible modem.

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

attached to the serial port. The way this would be used is a user would enter this commandfrom a PC using a null modem cable, then disconnect the PC and attach a modem directly tothe port via a modem cable. RX, TX, DCD and signal GND lines must be properly con-nected.

Once MODEM_MODE is activated, the M & C computer will no longer display dumb ter-minal display updates or generate packets in packet mode until the DATA-CARRIER_DETECT line becomes active, indicating the modem is off-hook and connected toanother modem.

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

ible initialization string of up to 40 characters to the modem to make sure it is properly config-ured. The user can get [set] this string via this command. The default string as part of fac-tory settings is:

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

ANACOM 3095604


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

sage to someone connected to the other port. A message received will appear on the otheroperator’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 otherwise be

transmitted. In other words, the TX gain range would be shifted down by two decibels. If aTXGAIN of 72 dB were requested, the calibration data interpolation would be done internallywith the value of 74 dB. If the user measures the TX gain with a power meter and finds thatgain is high by 1.5 dB, then he might enter:

OFFSET TXGAIN –1.5PC_MODE

This is the converse of MODEM_MODE. At any time, the user may type PC_MODEand the M & C computer will again behave as if a PC or network is directly attached to theserial port rather than a modem.

PORT_TO_PORT [ON|OFF]This command sets (gets) the status of the port_to_port function. When active on, then

function re-transmits all serial port data from COM0 to COM1 and also from COM1 toCOM0 regardless of data content. If the M & C interprets data as a legitimate commandthen the command is acted on. Otherwise the data is ignored by the M & C. When ON, theM & C does not issue ??????? when data is received which does not conform to a propercommand.

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 fre-

quency information. NOTE: Channel 0 is not a valid selection.

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

teger between 85 and 100 (dB).

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


ANACOM 3095604

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

use of this feature would be for leaving an ODU connected to a modem on an open telephoneline. A valid password must be an alphanumeric string with no imbedded blanks, and betweenfour and eight characters long inclusive. It must be given twice to ensure accuracy.

An existing password must first be cleared before setting a new password. This is donewith the CLEAR_PASSWORD command.

TERMTYPE [TTY | VT52 | VT100] (OLD UNITS,OBSOLETE)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” terminal

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 dis-

play 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 ignored in packetmode.

CTRL-E: This will erase the screen, similar to the CLS command.CTRL-R: This repeats execution of the last Carriage return terminated command.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 enabling the PAsupply voltages. TXREQ ON will indicate the operator’s desire to begin transmission. With noargument TXREQ simply return its present state as ON or OFF. Note that the unit will beshipped with TXREQ set to OFF.

Exactly when are we “ON AIR?” The answer is when TXREQ is ON, the hardwarealarm TXMUTE is clear, and the transmitter is not software inhibited to allow the crystal ref-erence oscillator time to warm-up at power-on. See the WARMUP command for 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. Channel 0 is not avalid selection.

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

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

ANACOM 3095604


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

range of the number is dependent upon model.

nn ranges from: 10 to 36 dB for the ANASAT 0Ku44 to 70 dB for the ANASAT 2Ku47 to 73 dB for the ANASAT 4Ku50 to 76 dB for the ANASAT 8Ku53 to 79 dB for the ANASAT 16Ku53 to 79 dB for the ANASAT 20Ku53 to 79 dB for the ANASAT 23Ku53 to 79 dB for the ANASAT 25Ku57 to 83 dB for the ANASAT 40Ku58 to 84 dB for the ANASAT 50Ku59 to 85 dB for the ANASAT 60Ku60 to 86 dB for the ANASAT 80Ku61 to 87 dB for the ANASAT 100Ku62 to 88 dB for the ANASAT 125Ku

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 baud rate will automaticallyrevert 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 set OFF, but can bechanged by the user. Because there is no way for the M & C computer to know how long ithas been off the air, a reset or momentary loss of power will cause a warm-up countdown tooccur when the feature is in use. WARMUP CANCEL will terminate a warm-up countdownand 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 for troubleshooting use onlyand transceiver should not be left in this mode as the numerical 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 troubleshooting use onlyand transceiver should not be left in this mode as the numerical compensation (temp. + freq.)would be disabled.


ANACOM 3095604

ANACOM ANASAT®–Ku Transceiver B-1 Appendix B

ANACOM 3095604

Appendix B. Alarm ListThe ANASAT®-Ku transceiver features sophistocated internal monitoring. If an abnormal condition

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

These alarms are divided into two categories: major alarms and minor alarms. When a TX major alarmcondition is detected, the transmitter is immediately pulled OFF the air. An advisory message is sent to theoperator via the serial port and the red ALARM LED, visible from outside the transceiver, begins flashing.Most major alarms are generated directly by hardware detectors inside the transceiver. Minor alarms do notdisable the transmitter or light the LED, but still cause an advisory message on the serial port. Most minoralarms are generated 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 is 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 (units with fans only)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 TRANSMITTER

WARMING 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 3095604

Appendix B B-2 ANACOM ANASAT®–Ku Transceiver

For situations when the ALARM_MODE is set to PROTECTION, the alarm relays are re-defined asTX and RX alarm relays instead of MAJOR and MINOR. The M & C software still considers the alarms aseither major or minor and will communicate alarms via the serial ports 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 lockTXLOCK the TX PLL fails to lockPATEMP the PA temperature is too highN5V the –5V supply is out of tolerancePA one of the PA supply voltages is out of tolerance— external power loss

RX

LNCV LNC voltage too lowOSLOCK OS PLL is not lockedRXLOCK RX PLL is not lockedRXOUT RX output noise floor is too low (low gain)— external power loss

ANACOM 3095604

ANACOM ANASAT®–Ku 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

1110

9

78

65

4

3

21

1 65

4

32

65

43

2

1

12

34

567

9

10 111213

14151617 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

TXD = Data to be transmitted by transceiverRXD = Data received by transceiver NOTE DIMPLE NEXT TO PIN 1

ANACOM 3095604

Appendix C C-2 ANACOM ANASAT®–Ku Transceiver

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

Pin 12 of the 18-pin Weathertight circular connector is the RS485/RS232 mode select pumper pin.Connect Pin 12 to Ground (Pin 18) for RS485 operation. Leave open for RS232 operation. This has noeffect on the other serial port.

Data Terminal ConnectionUsing a serial cable with a connector on one end that matches your terminal equipment (either a

“dumb” terminal or a computer running terminal emulator or modem software), connect the 6-pin or 18-pinWeathertight circular connector to the other end, following Figure C-1 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 theALARM_MODE command. When operating in PROTECTION mode, the alarm relays on the M&Cconnector 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 are as shown onthe previous page.

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. Someterminals may not need the DTR, DSR, or DCD connections.

AnaCom provides a 10 ft. long M&C cable with each unit with DB-9 & 6 pincircular connectors.

25-Pin “D” 9-Pin “D” SIGNAL 6-Pin circular 18-Pin circular

7 5 GROUND 6 183 2 RX DATA TX DATA 5 172 3 TX DATA RX DATA 4 166 6 DSR 3 --8 1 DCD 2 15

20 4 DTR 1 14

ANACOM 3095604

ANACOM ANASAT®–Ku Transceiver D-1 Appendix D

Appendix D. Ku-Band Satellite Channel Frequencies

Ch. Freq.(MHz)

Ch. Freq.(MHz)

Ch. Freq.(MHz)

Ch. Freq.(MHz)

Ch. Freq.(MHz)

Ch. Freq.(MHz)

1 140002 140013 140024 140035 140046 140057 140068 140079 1400810 1400911 1401012 1401113 1401214 1401315 1401416 1401517 1401618 1401719 1401820 1401921 1402022 1402123 1402224 1402325 1402426 1402527 1402628 1402729 1402830 1402931 1403032 1403133 1403234 1403335 1403436 1403537 1403638 1403739 1403840 1403941 1404042 1404143 1404244 1404345 14044

46 1404547 1404648 1404749 1404850 1404951 1405052 1405153 1405254 1405355 1405456 1405557 1405658 1405759 1405860 1405961 1406062 1406163 1406264 1406365 1406466 1406567 1406668 1406769 1406870 1406971 1407072 1407173 1407274 1407375 1407476 1407577 1407678 1407779 1407880 1407981 1408082 1408183 1408284 1408385 1408486 1408587 1408688 1408789 1408890 14089

91 1409092 1409193 1409294 1409395 1409496 1409597 1409698 1409799 14098100 14099101 14100102 14101103 14102104 14103105 14104106 14105107 14106108 14107109 14108110 14109111 14110112 14111113 14112114 14113115 14114116 14115117 14116118 14117119 14118120 14119121 14120122 14121123 14122124 14123125 14124126 14125127 14126128 14127129 14128130 14129131 14130132 14131133 14132134 14133135 14134

136 14135137 14136138 14137139 14138140 14139141 14140142 14141143 14142144 14143145 14144146 14145147 14146148 14147149 14148150 14149151 14150152 14151153 14152154 14153155 14154156 14155157 14156158 14157159 14158160 14159161 14160162 14161163 14162164 14163165 14164166 14165167 14166168 14167169 14168170 14169171 14170172 14171173 14172174 14173175 14174176 14175177 14176178 14177179 14178180 14179

181 14180182 14181183 14182184 14183185 14184186 14185187 14186188 14187189 14188190 14189191 14190192 14191193 14192194 14193195 14194196 14195197 14196198 14197199 14198200 14199201 14200202 14201203 14202204 14203205 14204206 14205207 14206208 14207209 14208210 14209211 14210212 14211213 14212214 14213215 14214216 14215217 14216218 14217219 14218220 14219221 14220222 14221223 14222224 14223225 14224

226 14225227 14226228 14227229 14228230 14229231 14230232 14231233 14232234 14233235 14234236 14235237 14236238 14237239 14238240 14239241 14240242 14241243 14242244 14243245 14244246 14245247 14246248 14247249 14248250 14249251 14250252 14251253 14252254 14253255 14254256 14255257 14256258 14257259 14258260 14259261 14260262 14261263 14262264 14263265 14264266 14265267 14266268 14267269 14268270 14269

ANASAT®-Ku Transmit Channels

ANACOM 3095604

Appendix D D-2 ANACOM ANASAT®–Ku Transceiver

Ch. Freq.(MHz)

Ch. Freq.(MHz)

Ch. Freq.(MHz)

Ch. Freq.(MHz)

Ch. Freq.(MHz)

Ch. Freq.(MHz)

271 14270272 14271273 14272274 14273275 14274276 14275277 14276278 14277279 14278280 14279281 14280282 14281283 14282284 14283285 14284286 14285287 14286288 14287289 14288290 14289291 14290292 14291293 14292294 14293295 14294296 14295297 14296298 14297299 14298300 14299301 14300302 14301303 14302304 14303305 14304306 14305307 14306308 14307309 14308310 14309311 14310312 14311313 14312314 14313315 14314316 14315317 14316318 14317319 14318320 14319

321 14320322 14321323 14322324 14323325 14324326 14325327 14326328 14327329 14328330 14329331 14330332 14331333 14332334 14333335 14334336 14335337 14336338 14337339 14338340 14339341 14340342 14341343 14342344 14343345 14344346 14345347 14346348 14347349 14348350 14349351 14350352 14351353 14352354 14353355 14354356 14355357 14356358 14357359 14358360 14359361 14360362 14361363 14362364 14363365 14364366 14365367 14366368 14367369 14368370 14369

371 14370372 14371373 14372374 14373375 14374376 14375377 14376378 14377379 14378380 14379381 14380382 14381383 14382384 14383385 14384386 14385387 14386388 14387389 14388390 14389391 14390392 14391393 14392394 14393395 14394396 14395397 14396398 14397399 14398400 14399401 14400402 14401403 14402404 14403405 14404406 14405407 14406408 14407409 14408410 14409411 14410412 14411413 14412414 14413415 14414416 14415417 14416418 14417419 14418420 14419

421 14420422 14421423 14422424 14423425 14424426 14425427 14426428 14427429 14428430 14429431 14430432 14431433 14432434 14433435 14434436 14435437 14436438 14437439 14438440 14439441 14440442 14441443 14442444 14443445 14444446 14445447 14446448 14447449 14448450 14449451 14450452 14451453 14452454 14453455 14454456 14455457 14456458 14457459 14458460 14459461 14460462 14461463 14462464 14463465 14464466 14465467 14466468 14467469 14468470 14469

471 14470472 14471473 14472474 14473475 14474476 14475477 14476478 14477479 14478480 14479481 14480482 14481483 14482484 14483485 14484486 14485487 14486488 14487489 14488490 14489491 14490492 14491493 14492494 14493495 14494496 14495497 14496498 14497499 14498500 14499501 14500

ANASAT®-Ku Transmit Channels

ANACOM 3095604


Ch. Freq.(MHz)

Ch. Freq.(MHz)

Ch. Freq.(MHz)

Ch. Freq.(MHz)

Ch. Freq.(MHz)

Ch. Freq.(MHz)

ANASAT®-EKu Transmit Channels

-250 13750-249 13751-248 13752-247 13753-246 13754-245 13755-244 13756-243 13757-242 13758-241 13759-240 13760-239 13761-238 13762-237 13763-236 13764-235 13765-234 13766-233 13767-232 13768-231 13769-230 13770-229 13771-228 13772-227 13773-226 13774-225 13775-224 13776-223 13777-222 13778-221 13779-220 13780-219 13781-218 13782-217 13783-216 13784-215 13785-214 13786-213 13787-212 13788-211 13789-210 13790-209 13791-208 13792-207 13793-206 13794-205 13795-204 13796-203 13797-202 13798-201 13799

-200 13800-199 13801-198 13802-197 13803-196 13804-195 13805-194 13806-193 13807-192 13808-191 13809-190 13810-189 13811-188 13812-187 13813-186 13814-185 13815-184 13816-183 13817-182 13818-181 13819-180 13820-179 13821-178 13822-177 13823-176 13824-175 13825-174 13826-173 13827-172 13828-171 13829-170 13830-169 13831-168 13832-167 13833-166 13834-165 13835-164 13836-163 13837-162 13838-161 13839-160 13840-159 13841-158 13842-157 13843-156 13844-155 13845-154 13846-153 13847-152 13848-151 13849

-150 13850-149 13851-148 13852-147 13853-146 13854-145 13855-144 13856-143 13857-142 13858-141 13859-140 13860-139 13861-138 13862-137 13863-136 13864-135 13865-134 13866-133 13867-132 13868-131 13869-130 13870-129 13871-128 13872-127 13873-126 13874-125 13875-124 13876-123 13877-122 13878-121 13879-120 13880-119 13881-118 13882-117 13883-116 13884-115 13885-114 13886-113 13887-112 13888-111 13889-110 13890-109 13891-108 13892-107 13893-106 13894-105 13895-104 13896-103 13897-102 13898-101 13899

-100 13900-99 13901-98 13902-97 13903-96 13904-95 13905-94 13906-93 13907-92 13908-91 13909-90 13910-89 13911-88 13912-87 13913-86 13914-85 13915-84 13916-83 13917-82 13918-81 13919-80 13920-79 13921-78 13922-77 13923-76 13924-75 13925-74 13926-73 13927-72 13928-71 13929-70 13930-69 13931-68 13932-67 13933-66 13934-65 13935-64 13936-63 13937-62 13938-61 13939-60 13940-59 13941-58 13942-57 13943-56 13944-55 13945-54 13946-53 13947-52 13948-51 13949

-50 13950-49 13951-48 13952-47 13953-46 13954-45 13955-44 13956-43 13957-42 13958-41 13959-40 13960-39 13961-38 13962-37 13963-36 13964-35 13965-34 13966-33 13967-32 13968-31 13969-30 13970-29 13971-28 13972-27 13973-26 13974-25 13975-24 13976-23 13977-22 13978-21 13979-20 13980-19 13981-18 13982-17 13983-16 13984-15 13985-14 13986-13 13987-12 13988-11 13989-10 13990-9 13991-8 13992-7 13993-6 13994-5 13995-4 13996-3 13997-2 13998-1 13999

1 140002 140013 140024 140035 140046 140057 140068 140079 1400810 1400911 1401012 1401113 1401214 1401315 1401416 1401517 1401618 1401719 1401820 1401921 1402022 1402123 1402224 1402325 1402426 1402527 1402628 1402729 1402830 1402931 1403032 1403133 1403234 1403335 1403436 1403537 1403638 1403739 1403840 1403941 1404042 1404143 1404244 1404345 1404446 1404547 1404648 1404749 1404850 14049

ANACOM 3095604


Ch. Freq.(MHz)

Ch. Freq.(MHz)

Ch. Freq.(MHz)

Ch. Freq.(MHz)

Ch. Freq.(MHz)

Ch. Freq.(MHz)

ANASAT®-EKu Transmit Channels

51 1405052 1405153 1405254 1405355 1405456 1405557 1405658 1405759 1405860 1405961 1406062 1406163 1406264 1406365 1406466 1406567 1406668 1406769 1406870 1406971 1407072 1407173 1407274 1407375 1407476 1407577 1407678 1407779 1407880 1407981 1408082 1408183 1408284 1408385 1408486 1408587 1408688 1408789 1408890 1408991 1409092 1409193 1409294 1409395 1409496 1409597 1409698 1409799 14098100 14099

101 14100102 14101103 14102104 14103105 14104106 14105107 14106108 14107109 14108110 14109111 14110112 14111113 14112114 14113115 14114116 14115117 14116118 14117119 14118120 14119121 14120122 14121123 14122124 14123125 14124126 14125127 14126128 14127129 14128130 14129131 14130132 14131133 14132134 14133135 14134136 14135137 14136138 14137139 14138140 14139141 14140142 14141143 14142144 14143145 14144146 14145147 14146148 14147149 14148150 14149

151 14150152 14151153 14152154 14153155 14154156 14155157 14156158 14157159 14158160 14159161 14160162 14161163 14162164 14163165 14164166 14165167 14166168 14167169 14168170 14169171 14170172 14171173 14172174 14173175 14174176 14175177 14176178 14177179 14178180 14179181 14180182 14181183 14182184 14183185 14184186 14185187 14186188 14187189 14188190 14189191 14190192 14191193 14192194 14193195 14194196 14195197 14196198 14197199 14198200 14199

201 14200202 14201203 14202204 14203205 14204206 14205207 14206208 14207209 14208210 14209211 14210212 14211213 14212214 14213215 14214216 14215217 14216218 14217219 14218220 14219221 14220222 14221223 14222224 14223225 14224226 14225227 14226228 14227229 14228230 14229231 14230232 14231233 14232234 14233235 14234236 14235237 14236238 14237239 14238240 14239241 14240242 14241243 14242244 14243245 14244246 14245247 14246248 14247249 14248250 14249

251 14250

ANACOM 3095604


Ch. Freq.(MHz)

Ch. Freq.(MHz)

Ch. Freq.(MHz)

Ch. Freq.(MHz)

Ch. Freq.(MHz)

Ch. Freq.(MHz)

ANASAT®-SEKu Transmit Channels

-250 13750-249 13751-248 13752-247 13753-246 13754-245 13755-244 13756-243 13757-242 13758-241 13759-240 13760-239 13761-238 13762-237 13763-236 13764-235 13765-234 13766-233 13767-232 13768-231 13769-230 13770-229 13771-228 13772-227 13773-226 13774-225 13775-224 13776-223 13777-222 13778-221 13779-220 13780-219 13781-218 13782-217 13783-216 13784-215 13785-214 13786-213 13787-212 13788-211 13789-210 13790-209 13791-208 13792-207 13793-206 13794-205 13795-204 13796-203 13797-202 13798-201 13799

-200 13800-199 13801-198 13802-197 13803-196 13804-195 13805-194 13806-193 13807-192 13808-191 13809-190 13810-189 13811-188 13812-187 13813-186 13814-185 13815-184 13816-183 13817-182 13818-181 13819-180 13820-179 13821-178 13822-177 13823-176 13824-175 13825-174 13826-173 13827-172 13828-171 13829-170 13830-169 13831-168 13832-167 13833-166 13834-165 13835-164 13836-163 13837-162 13838-161 13839-160 13840-159 13841-158 13842-157 13843-156 13844-155 13845-154 13846-153 13847-152 13848-151 13849

-150 13850-149 13851-148 13852-147 13853-146 13854-145 13855-144 13856-143 13857-142 13858-141 13859-140 13860-139 13861-138 13862-137 13863-136 13864-135 13865-134 13866-133 13867-132 13868-131 13869-130 13870-129 13871-128 13872-127 13873-126 13874-125 13875-124 13876-123 13877-122 13878-121 13879-120 13880-119 13881-118 13882-117 13883-116 13884-115 13885-114 13886-113 13887-112 13888-111 13889-110 13890-109 13891-108 13892-107 13893-106 13894-105 13895-104 13896-103 13897-102 13898-101 13899

-100 13900-99 13901-98 13902-97 13903-96 13904-95 13905-94 13906-93 13907-92 13908-91 13909-90 13910-89 13911-88 13912-87 13913-86 13914-85 13915-84 13916-83 13917-82 13918-81 13919-80 13920-79 13921-78 13922-77 13923-76 13924-75 13925-74 13926-73 13927-72 13928-71 13929-70 13930-69 13931-68 13932-67 13933-66 13934-65 13935-64 13936-63 13937-62 13938-61 13939-60 13940-59 13941-58 13942-57 13943-56 13944-55 13945-54 13946-53 13947-52 13948-51 13949

-50 13950-49 13951-48 13952-47 13953-46 13954-45 13955-44 13956-43 13957-42 13958-41 13959-40 13960-39 13961-38 13962-37 13963-36 13964-35 13965-34 13966-33 13967-32 13968-31 13969-30 13970-29 13971-28 13972-27 13973-26 13974-25 13975-24 13976-23 13977-22 13978-21 13979-20 13980-19 13981-18 13982-17 13983-16 13984-15 13985-14 13986-13 13987-12 13988-11 13989-10 13990-9 13991-8 13992-7 13993-6 13994-5 13995-4 13996-3 13997-2 13998-1 13999

1 140002 140013 140024 140035 140046 140057 140068 140079 1400810 1400911 1401012 1401113 1401214 1401315 1401416 1401517 1401618 1401719 1401820 1401921 1402022 1402123 1402224 1402325 1402426 1402527 1402628 1402729 1402830 1402931 1403032 1403133 1403234 1403335 1403436 1403537 1403638 1403739 1403840 1403941 1404042 1404143 1404244 1404345 1404446 1404547 1404648 1404749 1404850 14049

ANACOM 3095604


Ch. Freq.(MHz)

Ch. Freq.(MHz)

Ch. Freq.(MHz)

Ch. Freq.(MHz)

Ch. Freq.(MHz)

Ch. Freq.(MHz)


51 1405052 1405153 1405254 1405355 1405456 1405557 1405658 1405759 1405860 1405961 1406062 1406163 1406264 1406365 1406466 1406567 1406668 1406769 1406870 1406971 1407072 1407173 1407274 1407375 1407476 1407577 1407678 1407779 1407880 1407981 1408082 1408183 1408284 1408385 1408486 1408587 1408688 1408789 1408890 1408991 1409092 1409193 1409294 1409395 1409496 1409597 1409698 1409799 14098100 14099

101 14100102 14101103 14102104 14103105 14104106 14105107 14106108 14107109 14108110 14109111 14110112 14111113 14112114 14113115 14114116 14115117 14116118 14117119 14118120 14119121 14120122 14121123 14122124 14123125 14124126 14125127 14126128 14127129 14128130 14129131 14130132 14131133 14132134 14133135 14134136 14135137 14136138 14137139 14138140 14139141 14140142 14141143 14142144 14143145 14144146 14145147 14146148 14147149 14148150 14149

151 14150152 14151153 14152154 14153155 14154156 14155157 14156158 14157159 14158160 14159161 14160162 14161163 14162164 14163165 14164166 14165167 14166168 14167169 14168170 14169171 14170172 14171173 14172174 14173175 14174176 14175177 14176178 14177179 14178180 14179181 14180182 14181183 14182184 14183185 14184186 14185187 14186188 14187189 14188190 14189191 14190192 14191193 14192194 14193195 14194196 14195197 14196198 14197199 14198200 14199

201 14200202 14201203 14202204 14203205 14204206 14205207 14206208 14207209 14208210 14209211 14210212 14211213 14212214 14213215 14214216 14215217 14216218 14217219 14218220 14219221 14220222 14221223 14222224 14223225 14224226 14225227 14226228 14227229 14228230 14229231 14230232 14231233 14232234 14233235 14234236 14235237 14236238 14237239 14238240 14239241 14240242 14241243 14242244 14243245 14244246 14245247 14246248 14247249 14248250 14249

251 14250252 14251253 14252254 14253255 14254256 14255257 14256258 14257259 14258260 14259261 14260262 14261263 14262264 14263265 14264266 14265267 14266268 14267269 14268270 14269271 14270272 14271273 14272274 14273275 14274276 14275277 14276278 14277279 14278280 14279281 14280282 14281283 14282284 14283285 14284286 14285287 14286288 14287289 14288290 14289291 14290292 14291293 14292294 14293295 14294296 14295297 14296298 14297299 14298300 14299

301 14300302 14301303 14302304 14303305 14304306 14305307 14306308 14307309 14308310 14309311 14310312 14311313 14312314 14313315 14314316 14315317 14316318 14317319 14318320 14319321 14320322 14321323 14322324 14323325 14324326 14325327 14326328 14327329 14328330 14329331 14330332 14331333 14332334 14333335 14334336 14335337 14336338 14337339 14338340 14339341 14340342 14341343 14342344 14343345 14344346 14345347 14346348 14347349 14348350 14349

ANACOM 3095604


Ch. Freq.(MHz)

Ch. Freq.(MHz)

Ch. Freq.(MHz)

Ch. Freq.(MHz)

Ch. Freq.(MHz)

Ch. Freq.(MHz)


351 14350352 14351353 14352354 14353355 14354356 14355357 14356358 14357359 14358360 14359361 14360362 14361363 14362364 14363365 14364366 14365367 14366368 14367369 14368370 14369371 14370372 14371373 14372374 14373375 14374376 14375377 14376378 14377379 14378380 14379381 14380382 14381383 14382384 14383385 14384386 14385387 14386388 14387389 14388390 14389391 14390392 14391393 14392394 14393395 14394396 14395397 14396398 14397399 14398400 14399

401 14400402 14401403 14402404 14403405 14404406 14405407 14406408 14407409 14408410 14409411 14410412 14411413 14412414 14413415 14414416 14415417 14416418 14417419 14418420 14419421 14420422 14421423 14422424 14423425 14424426 14425427 14426428 14427429 14428430 14429431 14430432 14431433 14432434 14433435 14434436 14435437 14436438 14437439 14438440 14439441 14440442 14441443 14442444 14443445 14444446 14445447 14446448 14447449 14448450 14449

451 14450452 14451453 14452454 14453455 14454456 14455457 14456458 14457459 14458460 14459461 14460462 14461463 14462464 14463465 14464466 14465467 14466468 14467469 14468470 14469471 14470472 14471473 14472474 14473475 14474476 14475477 14476478 14477479 14478480 14479481 14480482 14481483 14482484 14483485 14484486 14485487 14486488 14487489 14488490 14489491 14490492 14491493 14492494 14493495 14494496 14495497 14496498 14497499 14498500 14499

501 14500

ANACOM 3095604


Ch. Freq.(MHz)

Ch. Freq.(MHz)

Ch. Freq.(MHz)

Ch. Freq.(MHz)

Ch. Freq.(MHz)

Ch. Freq.(MHz)

ANASAT®-Ku/EKu/SEKu Receive Channels

1 109502 109513 109524 109535 109546 109557 109568 109579 1095810 1095911 1096012 1096113 1096214 1096315 1096416 1096517 1096618 1096719 1096820 1096921 1097022 1097123 1097224 1097325 1097426 1097527 1097628 1097729 1097830 1097931 1098032 1098133 1098234 1098335 1098436 1098537 1098638 1098739 1098840 1098941 1099042 1099143 1099244 1099345 1099446 1099547 1099648 1099749 1099850 10999

51 1100052 1100153 1100254 1100355 1100456 1100557 1100658 1100759 1100860 1100961 1101062 1101163 1101264 1101365 1101466 1101567 1101668 1101769 1101870 1101971 1102072 1102173 1102274 1102375 1102476 1102577 1102678 1102779 1102880 1102981 1103082 1103183 1103284 1103385 1103486 1103587 1103688 1103789 1103890 1103991 1104092 1104193 1104294 1104395 1104496 1104597 1104698 1104799 11048100 11049

101 11050102 11051103 11052104 11053105 11054106 11055107 11056108 11057109 11058110 11059111 11060112 11061113 11062114 11063115 11064116 11065117 11066118 11067119 11068120 11069121 11070122 11071123 11072124 11073125 11074126 11075127 11076128 11077129 11078130 11079131 11080132 11081133 11082134 11083135 11084136 11085137 11086138 11087139 11088140 11089141 11090142 11091143 11092144 11093145 11094146 11095147 11096148 11097149 11098150 11099

151 11100152 11101153 11102154 11103155 11104156 11105157 11106158 11107159 11108160 11109161 11110162 11111163 11112164 11113165 11114166 11115167 11116168 11117169 11118170 11119171 11120172 11121173 11122174 11123175 11124176 11125177 11126178 11127179 11128180 11129181 11130182 11131183 11132184 11133185 11134186 11135187 11136188 11137189 11138190 11139191 11140192 11141193 11142194 11143195 11144196 11145197 11146198 11147199 11148200 11149

201 11150202 11151203 11152204 11153205 11154206 11155207 11156208 11157209 11158210 11159211 11160212 11161213 11162214 11163215 11164216 11165217 11166218 11167219 11168220 11169221 11170222 11171223 11172224 11173225 11174226 11175227 11176228 11177229 11178230 11179231 11180232 11181233 11182234 11183235 11184236 11185237 11186238 11187239 11188240 11189241 11190242 11191243 11192244 11193245 11194246 11195247 11196248 11197249 11198250 11199

251 11200252 11201253 11202254 11203255 11204256 11205257 11206258 11207259 11208260 11209261 11210262 11211263 11212264 11213265 11214266 11215267 11216268 11217269 11218270 11219271 11220272 11221273 11222274 11223275 11224276 11225277 11226278 11227279 11228280 11229281 11230282 11231283 11232284 11233285 11234286 11235287 11236288 11237289 11238290 11239291 11240292 11241293 11242294 11243295 11244296 11245297 11246298 11247299 11248300 11249

ANACOM 3095604


Ch. Freq.(MHz)

Ch. Freq.(MHz)

Ch. Freq.(MHz)

Ch. Freq.(MHz)

Ch. Freq.(MHz)

Ch. Freq.(MHz)

301 11250302 11251303 11252304 11253305 11254306 11255307 11256308 11257309 11258310 11259311 11260312 11261313 11262314 11263315 11264316 11265317 11266318 11267319 11268320 11269321 11270322 11271323 11272324 11273325 11274326 11275327 11276328 11277329 11278330 11279331 11280332 11281333 11282334 11283335 11284336 11285337 11286338 11287339 11288340 11289341 11290342 11291343 11292344 11293345 11294346 11295347 11296348 11297349 11298350 11299

351 11300352 11301353 11302354 11303355 11304356 11305357 11306358 11307359 11308360 11309361 11310362 11311363 11312364 11313365 11314366 11315367 11316368 11317369 11318370 11319371 11320372 11321373 11322374 11323375 11324376 11325377 11326378 11327379 11328380 11329381 11330382 11331383 11332384 11333385 11334386 11335387 11336388 11337389 11338390 11339391 11340392 11341393 11342394 11343395 11344396 11345397 11346398 11347399 11348400 11349

401 11350402 11351403 11352404 11353405 11354406 11355407 11356408 11357409 11358410 11359411 11360412 11361413 11362414 11363415 11364416 11365417 11366418 11367419 11368420 11369421 11370422 11371423 11372424 11373425 11374426 11375427 11376428 11377429 11378430 11379431 11380432 11381433 11382434 11383435 11384436 11385437 11386438 11387439 11388440 11389441 11390442 11391443 11392444 11393445 11394446 11395447 11396448 11397449 11398450 11399

451 11400452 11401453 11402454 11403455 11404456 11405457 11406458 11407459 11408460 11409461 11410462 11411463 11412464 11413465 11414466 11415467 11416468 11417469 11418470 11419471 11420472 11421473 11422474 11423475 11424476 11425477 11426478 11427479 11428480 11429481 11430482 11431483 11432484 11433485 11434486 11435487 11436488 11437489 11438490 11439491 11440492 11441493 11442494 11443495 11444496 11445497 11446498 11447499 11448500 11449

501 11450502 11451503 11452504 11453505 11454506 11455507 11456508 11457509 11458510 11459511 11460512 11461513 11462514 11463515 11464516 11465517 11466518 11467519 11468520 11469521 11470522 11471523 11472524 11473525 11474526 11475527 11476528 11477529 11478530 11479531 11480532 11481533 11482534 11483535 11484536 11485537 11486538 11487539 11488540 11489541 11490542 11491543 11492544 11493545 11494546 11495547 11496548 11497549 11498550 11499

551 11500552 11501553 11502554 11503555 11504556 11505557 11506558 11507559 11508560 11509561 11510562 11511563 11512564 11513565 11514566 11515567 11516568 11517569 11518570 11519571 11520572 11521573 11522574 11523575 11524576 11525577 11526578 11527579 11528580 11529581 11530582 11531583 11532584 11533585 11534586 11535587 11536588 11537589 11538590 11539591 11540592 11541593 11542594 11543595 11544596 11545597 11546598 11547599 11548600 11549


ANACOM 3095604


Ch. Freq.(MHz)

Ch. Freq.(MHz)

Ch. Freq.(MHz)

Ch. Freq.(MHz)

Ch. Freq.(MHz)

Ch. Freq.(MHz)

601 11550602 11551603 11552604 11553605 11554606 11555607 11556608 11557609 11558610 11559611 11560612 11561613 11562614 11563615 11564616 11565617 11566618 11567619 11568620 11569621 11570622 11571623 11572624 11573625 11574626 11575627 11576628 11577629 11578630 11579631 11580632 11581633 11582634 11583635 11584636 11585637 11586638 11587639 11588640 11589641 11590642 11591643 11592644 11593645 11594646 11595647 11596648 11597649 11598650 11599

651 11600652 11601653 11602654 11603655 11604656 11605657 11606658 11607659 11608660 11609661 11610662 11611663 11612664 11613665 11614666 11615667 11616668 11617669 11618670 11619671 11620672 11621673 11622674 11623675 11624676 11625677 11626678 11627679 11628680 11629681 11630682 11631683 11632684 11633685 11634686 11635687 11636688 11637689 11638690 11639691 11640692 11641693 11642694 11643695 11644696 11645697 11646698 11647699 11648700 11649

701 11650702 11651703 11652704 11653705 11654706 11655707 11656708 11657709 11658710 11659711 11660712 11661713 11662714 11663715 11664716 11665717 11666718 11667719 11668720 11669721 11670722 11671723 11672724 11673725 11674726 11675727 11676728 11677729 11678730 11679731 11680732 11681733 11682734 11683735 11684736 11685737 11686738 11687739 11688740 11689741 11690742 11691743 11692744 11693745 11694746 11695747 11696748 11697749 11698750 11699

751 11700752 11701753 11702754 11703755 11704756 11705757 11706758 11707759 11708760 11709761 11710762 11711763 11712764 11713765 11714766 11715767 11716768 11717769 11718770 11719771 11720772 11721773 11722774 11723775 11724776 11725777 11726778 11727779 11728780 11729781 11730782 11731783 11732784 11733785 11734786 11735787 11736788 11737789 11738790 11739791 11740792 11741793 11742794 11743795 11744796 11745797 11746798 11747799 11748800 11749

801 11750802 11751803 11752804 11753805 11754806 11755807 11756808 11757809 11758810 11759811 11760812 11761813 11762814 11763815 11764816 11765817 11766818 11767819 11768820 11769821 11770822 11771823 11772824 11773825 11774826 11775827 11776828 11777829 11778830 11779831 11780832 11781833 11782834 11783835 11784836 11785837 11786838 11787839 11788840 11789841 11790842 11791843 11792844 11793845 11794846 11795847 11796848 11797849 11798850 11799

851 11800852 11801853 11802854 11803855 11804856 11805857 11806858 11807859 11808860 11809861 11810862 11811863 11812864 11813865 11814866 11815867 11816868 11817869 11818870 11819871 11820872 11821873 11822874 11823875 11824876 11825877 11826878 11827879 11828880 11829881 11830882 11831883 11832884 11833885 11834886 11835887 11836888 11837889 11838890 11839891 11840892 11841893 11842894 11843895 11844896 11845897 11846898 11847899 11848900 11849


ANACOM 3095604


Ch. Freq.(MHz)

Ch. Freq.(MHz)

Ch. Freq.(MHz)

Ch. Freq.(MHz)

Ch. Freq.(MHz)

Ch. Freq.(MHz)

901 11850902 11851903 11852904 11853905 11854906 11855907 11856908 11857909 11858910 11859911 11860912 11861913 11862914 11863915 11864916 11865917 11866918 11867919 11868920 11869921 11870922 11871923 11872924 11873925 11874926 11875927 11876928 11877929 11878930 11879931 11880932 11881933 11882934 11883935 11884936 11885937 11886938 11887939 11888940 11889941 11890942 11891943 11892944 11893945 11894946 11895947 11896948 11897949 11898950 11899

951 11900952 11901953 11902954 11903955 11904956 11905957 11906958 11907959 11908960 11909961 11910962 11911963 11912964 11913965 11914966 11915967 11916968 11917969 11918970 11919971 11920972 11921973 11922974 11923975 11924976 11925977 11926978 11927979 11928980 11929981 11930982 11931983 11932984 11933985 11934986 11935987 11936988 11937989 11938990 11939991 11940992 11941993 11942994 11943995 11944996 11945997 11946998 11947999 119481000 11949

1001 119501002 119511003 119521004 119531005 119541006 119551007 119561008 119571009 119581010 119591011 119601012 119611013 119621014 119631015 119641016 119651017 119661018 119671019 119681020 119691021 119701022 119711023 119721024 119731025 119741026 119751027 119761028 119771029 119781030 119791031 119801032 119811033 119821034 119831035 119841036 119851037 119861038 119871039 119881040 119891041 119901042 119911043 119921044 119931045 119941046 119951047 119961048 119971049 119981050 11999

1051 120001052 120011053 120021054 120031055 120041056 120051057 120061058 120071059 120081060 120091061 120101062 120111063 120121064 120131065 120141066 120151067 120161068 120171069 120181070 120191071 120201072 120211073 120221074 120231075 120241076 120251077 120261078 120271079 120281080 120291081 120301082 120311083 120321084 120331085 120341086 120351087 120361088 120371089 120381090 120391091 120401092 120411093 120421094 120431095 120441096 120451097 120461098 120471099 120481100 12049

1101 120501102 120511103 120521104 120531105 120541106 120551107 120561108 120571109 120581110 120591111 120601112 120611113 120621114 120631115 120641116 120651117 120661118 120671119 120681120 120691121 120701122 120711123 120721124 120731125 120741126 120751127 120761128 120771129 120781130 120791131 120801132 120811133 120821134 120831135 120841136 120851137 120861138 120871139 120881140 120891141 120901142 120911143 120921144 120931145 120941146 120951147 120961148 120971149 120981150 12099

1151 121001152 121011153 121021154 121031155 121041156 121051157 121061158 121071159 121081160 121091161 121101162 121111163 121121164 121131165 121141166 121151167 121161168 121171169 121181170 121191171 121201172 121211173 121221174 121231175 121241176 121251177 121261178 121271179 121281180 121291181 121301182 121311183 121321184 121331185 121341186 121351187 121361188 121371189 121381190 121391191 121401192 121411193 121421194 121431195 121441196 121451197 121461198 121471199 121481200 12149


ANACOM 3095604


Ch. Freq.(MHz)

Ch. Freq.(MHz)

Ch. Freq.(MHz)

Ch. Freq.(MHz)

Ch. Freq.(MHz)

Ch. Freq.(MHz)

1201 121501202 121511203 121521204 121531205 121541206 121551207 121561208 121571209 121581210 121591211 121601212 121611213 121621214 121631215 121641216 121651217 121661218 121671219 121681220 121691221 121701222 121711223 121721224 121731225 121741226 121751227 121761228 121771229 121781230 121791231 121801232 121811233 121821234 121831235 121841236 121851237 121861238 121871239 121881240 121891241 121901242 121911243 121921244 121931245 121941246 121951247 121961248 121971249 121981250 12199

1251 122001252 122011253 122021254 122031255 122041256 122051257 122061258 122071259 122081260 122091261 122101262 122111263 122121264 122131265 122141266 122151267 122161268 122171269 122181270 122191271 122201272 122211273 122221274 122231275 122241276 122251277 122261278 122271279 122281280 122291281 122301282 122311283 122321284 122331285 122341286 122351287 122361288 122371289 122381290 122391291 122401292 122411293 122421294 122431295 122441296 122451297 122461298 122471299 122481300 12249

1301 122501302 122511303 122521304 122531305 122541306 122551307 122561308 122571309 122581310 122591311 122601312 122611313 122621314 122631315 122641316 122651317 122661318 122671319 122681320 122691321 122701322 122711323 122721324 122731325 122741326 122751327 122761328 122771329 122781330 122791331 122801332 122811333 122821334 122831335 122841336 122851337 122861338 122871339 122881340 122891341 122901342 122911343 122921344 122931345 122941346 122951347 122961348 122971349 122981350 12299

1351 123001352 123011353 123021354 123031355 123041356 123051357 123061358 123071359 123081360 123091361 123101362 123111363 123121364 123131365 123141366 123151367 123161368 123171369 123181370 123191371 123201372 123211373 123221374 123231375 123241376 123251377 123261378 123271379 123281380 123291381 123301382 123311383 123321384 123331385 123341386 123351387 123361388 123371389 123381390 123391391 123401392 123411393 123421394 123431395 123441396 123451397 123461398 123471399 123481400 12349

1401 123501402 123511403 123521404 123531405 123541406 123551407 123561408 123571409 123581410 123591411 123601412 123611413 123621414 123631415 123641416 123651417 123661418 123671419 123681420 123691421 123701422 123711423 123721424 123731425 123741426 123751427 123761428 123771429 123781430 123791431 123801432 123811433 123821434 123831435 123841436 123851437 123861438 123871439 123881440 123891441 123901442 123911443 123921444 123931445 123941446 123951447 123961448 123971449 123981450 12399

1451 124001452 124011453 124021454 124031455 124041456 124051457 124061458 124071459 124081460 124091461 124101462 124111463 124121464 124131465 124141466 124151467 124161468 124171469 124181470 124191471 124201472 124211473 124221474 124231475 124241476 124251477 124261478 124271479 124281480 124291481 124301482 124311483 124321484 124331485 124341486 124351487 124361488 124371489 124381490 124391491 124401492 124411493 124421494 124431495 124441496 124451497 124461498 124471499 124481500 12449


ANACOM 3095604


Ch. Freq.(MHz)

Ch. Freq.(MHz)

Ch. Freq.(MHz)

Ch. Freq.(MHz)

Ch. Freq.(MHz)

Ch. Freq.(MHz)

1501 124501502 124511503 124521504 124531505 124541506 124551507 124561508 124571509 124581510 124591511 124601512 124611513 124621514 124631515 124641516 124651517 124661518 124671519 124681520 124691521 124701522 124711523 124721524 124731525 124741526 124751527 124761528 124771529 124781530 124791531 124801532 124811533 124821534 124831535 124841536 124851537 124861538 124871539 124881540 124891541 124901542 124911543 124921544 124931545 124941546 124951547 124961548 124971549 124981550 12499

1551 125001552 125011553 125021554 125031555 125041556 125051557 125061558 125071559 125081560 125091561 125101562 125111563 125121564 125131565 125141566 125151567 125161568 125171569 125181570 125191571 125201572 125211573 125221574 125231575 125241576 125251577 125261578 125271579 125281580 125291581 125301582 125311583 125321584 125331585 125341586 125351587 125361588 125371589 125381590 125391591 125401592 125411593 125421594 125431595 125441596 125451597 125461598 125471599 125481600 12549

1601 125501602 125511603 125521604 125531605 125541606 125551607 125561608 125571609 125581610 125591611 125601612 125611613 125621614 125631615 125641616 125651617 125661618 125671619 125681620 125691621 125701622 125711623 125721624 125731625 125741626 125751627 125761628 125771629 125781630 125791631 125801632 125811633 125821634 125831635 125841636 125851637 125861638 125871639 125881640 125891641 125901642 125911643 125921644 125931645 125941646 125951647 125961648 125971649 125981650 12599

1651 126001652 126011653 126021654 126031655 126041656 126051657 126061658 126071659 126081660 126091661 126101662 126111663 126121664 126131665 126141666 126151667 126161668 126171669 126181670 126191671 126201672 126211673 126221674 126231675 126241676 126251677 126261678 126271679 126281680 126291681 126301682 126311683 126321684 126331685 126341686 126351687 126361688 126371689 126381690 126391691 126401692 126411693 126421694 126431695 126441696 126451697 126461698 126471699 126481700 12649

1701 126501702 126511703 126521704 126531705 126541706 126551707 126561708 126571709 126581710 126591711 126601712 126611713 126621714 126631715 126641716 126651717 126661718 126671719 126681720 126691721 126701722 126711723 126721724 126731725 126741726 126751727 126761728 126771729 126781730 126791731 126801732 126811733 126821734 126831735 126841736 126851737 126861738 126871739 126881740 126891741 126901742 126911743 126921744 126931745 126941746 126951747 126961748 126971749 126981750 12699

1751 127001752 127011753 127021754 127031755 127041756 127051757 127061758 127071759 127081760 127091761 127101762 127111763 127121764 127131765 127141766 127151767 127161768 127171769 127181770 127191771 127201772 127211773 127221774 127231775 127241776 127251777 127261778 127271779 127281780 127291781 127301782 127311783 127321784 127331785 127341786 127351787 127361788 127371789 127381790 127391791 127401792 127411793 127421794 127431795 127441796 127451797 127461798 127471799 127481800 127491801 12750


ANACOM 3095604


Ch. Freq.(MHz)

Ch. Freq.(MHz)

Ch. Freq.(MHz)

Ch. Freq.(MHz)

Ch. Freq.(MHz)

Ch. Freq.(MHz)

ANACOM 3095604

ANACOM ANASAT®–Ku Transceiver E-1 Appendix E

dBm W20............................... 0.1020.5............................ 0.1121............................... 0.1321.5............................ 0.1422............................... 0.1622.5............................ 0.1823............................... 0.2023.5............................ 0.2224............................... 0.2524.5............................ 0.2825............................... 0.3225.5............................ 0.3526............................... 0.4026.5............................ 0.4527............................... 0.5027.5............................ 0.5628.............................. 0.6328.5............................ 0.7129.............................. 0.7929.5............................ 0.8930.............................. 1.0030.5............................ 1.1231.............................. 1.2631.5............................ 1.4132.............................. 1.5832.5............................ 1.7833.............................. 2.0033.5............................ 2.2434.............................. 2.5134.5............................ 2.8235.............................. 3.1635.5............................ 3.5536.............................. 3.9836.5............................ 4.4737.............................. 5.0137.5............................ 5.6238.............................. 6.3138.5............................ 7.0839.............................. 7.9439.5............................ 8.9140.............................. 10.0040.5........................... 11.2241............................. 12.5941.5.......................... 14.1342............................. 15.8542.5.......................... 17.7843.............................. 19.9543.5............................ 22.3944.............................. 25.1244.5............................ 28.18

W dBm1 .............................. 30.002 .............................. 33.013 .............................. 34.774 .............................. 36.025 .............................. 36.996 .............................. 37.787 .............................. 38.458 .............................. 39.039 .............................. 39.5410 ............................ 40.0011 ............................ 40.4112 ............................ 40.7913 ............................ 41.1414 ............................ 41.4615 ............................ 41.7616 ............................ 42.0417 ............................ 42.3018 ............................ 42.5519 ............................ 42.7920 ............................ 43.0121 ............................ 43.2222 ............................ 43.4223 ............................ 43.6124 ............................ 43.8025 ............................ 43.9726 ............................ 44.1427 ............................ 44.3128 ............................ 44.4729 ............................ 44.6230 ............................ 44.7732 ............................ 45.0534 ............................ 45.3136 ............................ 45.5638 ............................ 45.840 ............................ 46.0242 ............................ 46.2344 ............................ 46.4346 ............................ 46.6348 ............................ 46.8150 ............................ 47.0055 ............................ 47.4060 ............................ 42.7865 ............................ 48.1370 ............................ 48.4575 ............................ 48.7580 ............................ 49.0585 ............................ 49.2990 ............................ 49.5495 ............................ 49.78100 .......................... 50.00

Appendix E. Converting dBm to Watts and Watts to dBm

Appendix E E-2 ANACOM ANASAT®–Ku Transceiver

ANACOM 3095604

ANACOM 3095604

ANACOM ANASAT®–Ku Transceiver F-1 Appendix F

Appendix F. Transceivers Weights & Dimensions

Ku, EKu and SEKu

Dimensions inches Dimensions mm Weight lbs Weight kg0dBm 21.6"x9.0"x7.0" 549 x 229 x 178 22.0 10.002 watts 21.6"x9.0"x7.0" 549 x 229 x 178 26.0 11.804 watts 21.6"x9.0"x7.0" 549 x 229 x 178 27.0 12.308 watts 21.6"x9.0"x11.6" 549 x 229 x 295 28.0 12.7016 watts 21.6"x9.0"x13" 549 x 229 x 330 37.0 16.8020 watts 21.6"x9.0"x13" 549 x 229 x 330 40.0 18.2023 watts 21.6"x9.0"x13" 549 x 229 x 330 40.0 18.2025 watts 21.6"x9.0"x13" 549 x 229 x 330 40.0 18.2040 watts 21.6"x13"x13.6" 549 x 330 x 353 67.1 30.5050 watts 21.6"x13"x13.6" 550 x 330 x 353 67.1 30.5060 watts 21.6"x13"x13.6" 550 x 330 x 353 67.1 30.5080 watts 34"x11.5"x13" 864 x 292 x 330 123.0 55.8100 watts 34"x11.5"x13" 864 x 292 x 330 123.0 55.8125 watts 34"x11.5"x13" 864 x 292 x 330 123.0 55.8

Protection Switch

P. S. 8.5"x9.5"x4.0" 216 x 241 x 102 3.0 1.36

LNC

Ku-Band 8.4" x 2.9" x 1.75" 213 x 74 x 44.4 1.75 0.79

Appendix F F-2 ANACOM ANASAT®–Ku Transceiver

ANACOM 3095604

Documents

Anasat Ku Band Rev4