Business segments

Scientific research and experimental developments lie at the core of RIPR’s activity. The research is focused on various issues in the radio communication sphere – from high-power transmitters to automatic high-power radio stations and control complex development.

Today, the Russian Institute for Power Radioengineering, the first designer of HF and VLF radio transmitting equipment in modern Russian history, produces upwards of 200 types of equipment. Furthermore, over 20 types of products are under development right now.

Due to the constant commitment to scientific innovation and implementation of new technologies, the level of the “RIPR” designs complies with global trends in the communication tools development. Scientific and technological infrastructure of the company is a solid foundation for its development and a valuable contribution to the communication industry on the whole:

  • The unique lab for field-testing of radio equipment;
  • Experimental model production of new equipment samples in the shortest time possible;
  • Specific testing workbenches for checking, tuning and debugging the equipment in the status of production and development.

The following was developed and implemented by the company:

  • Resource-saving construction technologies for radio transmitting equipment.
  • Construction technologies for transistor radio transmitting equipment and for digital or linear microprocessor-based equipment.
  • Advanced computer technologies, new operation systems and high-level programming languages.

Power Radioengineering: development and upgrading.

  • High-power high-frequency generators and pulse modulators for laser pumping and charged particle accelerators.
  • VLF radio transmitting equipment for stationary facilities and containerized modifications.
  • Receiving and transmitting HF radio equipment.
  • High-power SLF transmitters and of control complexes.
  • Transistorised next-generation HF transmitter with a power up to 5 kW.
  • 100 kW HF transmitter with a digital exciter.
Power radio engineering

Technical Radioengineering: design and upgrading.

  • New unified series of solid-state HF transmitters.
  • New series of HF transceivers with a digital exciter.
  • Digital exciter with an automatic precompensation.
  • MF radio station “Parsek-M” designed to work as part of air traffic control and aircraft landing systems and to deliver voice messages via air-to-ground communication link.
  • New digital receiver-exciter and new generation HF receivers.
  • Controlled static converters for demagnetizer powering and ship’s hulls cathodic protection systems.
Technical radio engineering

Hardware systems and mobile communication control rooms: design and upgrading.

  • Adaptive and anti-interference radio communication systems with transmitters of various power.
  • Mobile communication control rooms incorporating HF means of communication.
  • Containerized communication systems (HF, combined with MF and VHF frequency ranges) for air communication, aircraft control and rescue team organization.
  • Antenna feeder systems for use as part of mobile communication control rooms.
Hardware systems and mobile complexes of technical means

Radio communication nodes, centers and networks: research, design, upgrading and participation in construction.

  • Standard structure of automatic stationary transmitting radio center designed for use in radio communication nodes of civil organisations and security agencies.
  • HF antenna feeder systems, phased-array antennas, switchers, automated working stations, antenna feeder systems for use in stationary radio centers and mobile communication nodes.
  • Unified series of MF antennas for AS and YO beacons of the aircraft.
  • Control systems of radio center facilities
  • Radio equipment for MF / HF communication centers providing navigation, flights of aircraft and rescue operations safety.

Communication nods, centers and radio networks

High-power VLF/ULF generators: design and upgrading.

  • ELF and SLF generating and converting energy systems designed to solve the broad-ranging issues of geologic exploration and geophysical investigation.

Powerful generators of VLF/ULF range

Antenna "Sector"

The rotary transceiver log-periodic antenna is designed to operate as part of semi-stationary and stationary radio-transmitting centers and HF radio communications complexes in omnidirectional trunk communications systems, on medium and long links of up to 8,000 km.

HF transceiver antenna

Designed to provide HF radio communications with aircrafts within a radius of up to 100 km when working with a transceiver.

Airfield for communications with the antenna field

Airfield "Nagurskoye" for communications with the antenna field on the island Aleksandra Land in Franz Josef Land.

Comprehensive project

Transceiving radio communications center along with a containerized homing with antenna complex.

Mast support

Installed units: load device UNR-100 (470х2), balance-to-unbalance converter UTS (50/600) and antenna tuning unit (ATU).

Antenna LA-516-12/25-1kW

Designed to provide HF radio communications of the border post with land correspondents, ships and aircraft at distances up to 2000 km.