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L-Band IF Application Guide 

 

Page L-Band - 1 

 

PSM-4900L L-Band IF Satellite Modem 

 Application Guide 

 

1.0 Introduction 

The purpose of this document is to provide a quick start application guide to users already 
familiar with Datum Systems M5 series of satellite modems, and as an aid to setting up an L-
Band IF based small station. 
 
The PSM-4900L modem brings all the advantages of Datum System’s direct modulation and 
demodulation design, superior performance and high digital integration for low cost assembly to 
the VSAT station. Because this new modem costs little more than a standard 70 MHz IF modem 
and significantly reduces the complexity and cost of the up and down conversion equipment, it 
promises to provide a new high in performance per dollar. Two expensive parts of the converter 
equipment have however been transferred to the modem – that is the high stability reference 
oscillator and the ODU power supply. 
 
A significant aspect of small station design using an L-Band interface modem is that all of the 
complexity and “smarts” are contained within the modem itself. The Block UpConverter or “BUC” 
and the Low Noise Block DownConverter or “LNB” now each contain a single fixed local 
oscillator, not required to tune for operation over the entire satellite band covering all 
transponders. The PSM-4900L tunes over an extended range of 950 to 1750 MHz (transmit) or 
950 to 1900 MHz (receive) in 1 Hz increments allowing it to access 800 MHz of Transmit RF 
spectrum and 950 MHz of Receive RF spectrum without any converter settings. 
 
Aside from the many advantages, using L-Band as an inter-facility link frequency results in the 
need to carefully consider the components, frequencies and construction techniques used to 
insure proper operation. Part of the purpose of this addendum is to spell out those areas where 
special care must be used to achieve a reliable station operation. 
 
For the purposes of the remainder of this document the names, acronyms and meanings used 
which may be new for this type modem are: 
 

  “

Modem

” - Refers to the PSM-4900L modem capable of both transmit and receive 

operation. 

  “

IF

”. The modems Intermediate Frequency used to connect to the Up and 

DownConversion equipment. 

  “

BUC

” – Block Up Converter, Often with an integrated power amplifier for installation 

directly to the feed at the antenna. 

  “

LNB

” – Low Noise Block Down Converter. Includes a low noise RF front end and single 

down conversion stage to L-Band frequencies. In a VSAT, especially at low data rates, 
this is a significantly better device than the typical free running LNB used for video 
broadcast reception. A “data grade” LNB must have very low phase noise and a phase 
locked LO for proper performance. 

  “

Bias T Mux

”. This is a device that multiplexes power, IF signals and often a reference 

frequency onto a single cable going up to the BUC or LNB. 

  “

Terrestrial

” side. The Line or data side of the modem. 

  “

VSAT

” – Vary Small Aperture Station, referring to a station with a small antenna, 

typically 1 to 4.5 meters in diameter. 

  “

LO

” – Local Oscillator frequency used for up or down conversion of RF frequenies. 

 

DATUM

SYSTEMS

 

Содержание PSM-4900L

Страница 1: ...MHz of Transmit RF spectrum and 950 MHz of Receive RF spectrum without any converter settings Aside from the many advantages using L Band as an inter facility link frequency results in the need to carefully consider the components frequencies and construction techniques used to insure proper operation Part of the purpose of this addendum is to spell out those areas where special care must be used ...

Страница 2: ... and 950 MHz receive range to accommodate as many satellite range converter LO schemes as possible One scheme seems to be fairly common for C Band ODUs using a BUC transmit LO of 4900 MHz while the LNB uses an LO of 5150 MHz The PSM 4900L provides two methods of specifying transmit and receive frequencies Added transmit and receive parameter inputs are provided for the transmit BUC and receive LNB...

Страница 3: ...h side LO for both C and L Band transmit frequencies For a C Band BUC using a High side LO going from 950 1450 MHz to 5925 6425 MHz the LO frequency would be 7375 MHz 950 6425 MHz There would be an inversion in the transmit output spectrum Notice also that the highest transmit output frequency results from using the lowest L Band modem transmit frequency The same schemes are possible at Ku Band fr...

Страница 4: ...date a wide range of cable length and LNB gains The LNB gain minus the cable loss should always fall within the range of 40 dB to 70 dB of overall gain As long as this gain is achieved the demodulator will function properly at all data rates from 1 2 kpbs to 4 92 Mbps requiring no further system level engineering For example a typical data grade LNB has a gain of approximately 60 dB This would all...

Страница 5: ...to 90 MHz 4 bytes in binary command Is 950 to 1750 MHz 5 bytes in binary command OR 800 MHz of RF frequency range when the LO input not 0 Demodulator Carrier Frequency Was 50 to 90 MHz 4 bytes in binary command Is 950 to 1750 MHz 6 bytes in binary command OR 950 MHz of RF frequency range when the LO input not 0 3 0 Designing and Setting up an L Band Station The equipment complement at any station ...

Страница 6: ...ut The typical input power required for full power output varies between 20 and 30 dB Maximum phase noise levels need to be determined based on the data rates being used Frequency stability Determined by externally applied 10 MHz reference oscillator Typically requires an approximate 1 part in 107 OCXO for C or Ku Band operation This represents a possible 600 Hz error at 6 GHz or 1 4 kHz at 14 GHz...

Страница 7: ...rrier would require approximately 2 parts in 107 stability minimum This is 1200 Hz at 6 GHz transmit frequency A Ku Band BUC would require 1 part in 107 stability for a 32 kbps data rate Higher data rates would require less stability The typical BUC level requirement for the reference input is usually somewhere between 5 and 3 or 5 dBm from a sine wave oscillator The PSM 4900 output is nominally 3...

Страница 8: ...f setting the antenna size The demodulator uses a sliding AGC window with an approximate AGC range of 55 dB at any given data rate As the data rate is decreased the AGC window moves down to accommodate the decreasing signal level The transmit levels must be carefully controlled however Most BUCs have no internal gain control and therefore represent a fixed gain block The output power is thus direc...

Страница 9: ...rift frequency limits there might be a tendency for the receive to attempt locking to its own transmit signal 4 Considering the L Band IF range is 800 MHz or more spanning close to an octave the variation in loss between the high and low ends of the IF range may be significant A nominal design point may be to allow for 10 to 15 dB of total cable losses and select cable that will reliably achieve t...

Страница 10: ... cable types The maximum length that RG214 would be used assuming the approx 15 dB loss criteria would be 150 ft or 50 meters Times LMR 400 cable would be usable over 300 ft At less cost Both of these examples assume that the DC loss of the BUC power is within tolerance For many receive applications RG6 cable is a good choice The typical DC resistance of 0 405 inch class 50 Ohm cables such as RG21...

Страница 11: ...endently Forward Error Correction Optional Turbo Product Codes Optional Concatenated Reed Solomon Viterbi k 7 Rates 1 2 3 4 or 7 8 Standard and Short Block n 126 k 112 t 7 or n 219 k 201 t 9 or programmable with depth of 4 or 8 FEC Viterbi or TPC Rates Selectable 1 2 3 4 or 7 8 Data Rates Programmable at FEC rate 1 2 without IBS mux or R S option 1 2 kbps to 1 230 kbps BPSK 2 4 kbps to 2 460 kbps ...

Страница 12: ... WARNING It may be difficult in many programming languages to generate a 6 byte number representation for binary programming of the modem Like the front panel controls the remote control procedures for specifying transmit and receive IF frequencies are dependant upon wether a BUC and or LNB LO frequency has been supplied If a non zero frequency has been input from any source then the transmit and ...

Страница 13: ... 5 to 600 10mA Increments Bytes 16 17 BUC Current Min Signed 16b 5 to 600 10mA Increments Bytes 18 23 BUC LO Frequency Unsigned 48b 0 to 50 000 000 000 1Hz Increments Bytes 24 33 Spare Mod BUC Write Enable Flags Bit 0 Bit 1 Bit 2 Bit 3 Bit 4 Bit 5 Bit 6 Bit 7 Byte 0 BucPwr 0 VMin 0 IMax IMin Ref LoFrq Byte 1 0 0 0 0 0 0 0 0 Byte 2 0 0 0 0 0 0 0 0 Byte 3 0 0 0 0 0 0 0 0 Mod BUC Write Flags Bit 0 Bi...

Страница 14: ...0 1mA Increments Bytes 16 17 LNB Current Min Signed 16b 5 to 500 1mA Increments Bytes 18 23 LNB LO Frequency Unsigned 48b 0 to 50 000 000 000 1Hz Increments Bytes 24 33 Spare Demod LNB Write Enable Flags Bit 0 Bit 1 Bit 2 Bit 3 Bit 4 Bit 5 Bit 6 Bit 7 Byte 0 BucPwr 0 0 0 IMax IMin Ref LoFrq Byte 1 0 0 0 0 0 0 0 0 Byte 2 0 0 0 0 0 0 0 0 Byte 3 0 0 0 0 0 0 0 0 Demod LNB Write Flags Bit 0 Bit 1 Bit 2...

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