Our Applications & Solutions

QPSK Satellite Modulator

The M6100 Broadcast Satellite Modulator is for contribution, distribution and direct-to-home applications.

Part Number:



The M6100 Broadcast Satellite Modulator is the latest generation satellite modulator – built from the ground up for contribution, distribution and direct-to-home applications.

The M6100 Broadcast Satellite Modulator is the new generation DVB-S2, DVB-DSNG and DVB-S modulator specifically designed for broadcast direct-to-home, primary distribution and contribution applications. The modulator supports the new DVB-S2X transmission standard to achieve barrier-breaking efficiency.


M6100 – IF output, Single PSU Satellite Modulator Chassis
Base Chassis Functionality Includes:

  • IF frequency range output
  • Single AC power supply
  • DVB RF Carrier ID and CID in the NIT
  • Up to 36MSyms operation
  • 5% to 35% rolloff
  • IP or ASI Transport stream inputs
  • Capable of DVB-S, DVB-S2, DVB-S2X and higher symbol rates
  • Transport Stream Analyzer with PCR jitter measurement
  • IP based SNMP and Web browser remote control
  • Integration with nCompass Control

Product Files

Our Solutions

System Solutions

To grow your business – and your revenue – operators want the Knowledge, Assets and impartial technical guidance only a true Partner can deliver! From HFC and DOCSIS to x-PHYTM; from FTTx – GPON and RFoG to IPTV; from Linear Video to Multi-Screen; MHz best-in-class Technologies and Client Services will meet your goals while exceeding your expectations…

Read More

Client Services

Too much on your plate?
Not enough hours in your day?

The next time you need, Linear Video or Multi-Screen, MPEG, DOCSIS or x-PHYTM, IP or RF resources to support the operation of Multi-Vendor, Multi-Technology products deployed in your HFC or FTTx network, MHz can help!

Choose from a customized package of remote “Fractional Engineering” hours you can use over an extended period of time; or our on-site Integration and Activation Services.

Both can offset your temporary work-load.

Read More