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Annapolis Micro Systems
WILD FMC+ DME1 ADC & DAC – WWDME1
The WILD FMC+ DME1 ADC & DAC is the industry’s first COTS product to feature Jariet’s ELECTRA 64.0/61.4 GS/s, 10-bit ADC and DAC Direct RF capability.
The SOSA-aligned DME1 integrates a Jariet Technologies transceiver and is targeted at demanding applications requiring direct sampling frequency coverage anywhere from 0.1 to 36 GHz (VHF through Ka-band), and/or wide instantaneous bandwidths.
Annapolis Micro Systems
WILDSTAR 2-Channel Direct RF 3U OpenVPX Module –WS3XV1+WHDMF1
The WILDSTAR™ 2-Channel Direct RF 3U OpenVPX Module is an assembled solution that is 100GbE-enabled, SOSA-aligned, and highly rugged and thermally-controlled.
Directly digitize and process wideband signals with the high-performance 64.0/61.4 GSPS Direct RF Module. This module combines the WS3XV1 (AMD Versal FPGA) baseboard with the WHDMF1 (Jariet Electra-MA ADC/DAC) mezzanine.
Annapolis Micro Systems
WILDSTAR 2-Channel Direct RF 3U OpenVPX Module – WS3XBP-67
The WILDSTAR™ 2-Channel Direct RF 3U OpenVPX Module is an assembled solution that is 100GbE-enabled, SOSA-aligned, and highly rugged and thermally-controlled.
Directly digitize and process wideband signals with the high-performance 64.0/61.4 GSPS Direct RF Module. This module combines the WB3XBP (AMD Virtex UltraScale+ FPGA) baseboard with the WWDME1 (Jariet Electra-MA ADC/DAC) mezzanine.
5G/6G Wireless
Jariet’s multi-channel RF-sampling transceiver ICs are so advanced they are being utilized in 6G cellular development.
The unique capability to operate in the traditional sub-6GHz bands as well as the k-band cellular frequencies (such as band n258 at 24.25-27.50GHz) makes the Jariet ICs the most flexible and reconfigurable on the market.
The wide IBW (instantaneous bandwidth) and multi-channel DFE (digital front-end) can easily handle the widest signals in use in 5G+ and in research for 6G. The very high useable frequency range eliminates analog frequency conversion for signals >30GHz, moving those functions into the software-defined DFE.
Aerospace / Satellite
Jariet is leading the industry in direct RF-sampling of the common satellite bands from VHF to Ka. The integrated ultra-high speed ADCs, DACs, and PLL/VCOs provide the range and bandwidth necessary to cover more bands than any other approach in a single chip.
The technology can be configured with a common internally-generated clock rate frequency for both ADC and DAC to receive the uplink band ~30GHz while transmitting in the downlink band ~20GHz full duplex and multi-channel. With RF range down to 100MHz, many other satellite bands can be supported for telemetry, navigation and communications.
The integrated DFE (digital front-end) provides the necessary up/down conversion to provide a manageable IQ interface rate to the baseband FPGA. By reconfiguring the DFE, bandwidths (IBW) and carrier bands can be adjusted in milliseconds.
Electronic Warfare
Jariet’s ICs provide the ability to observe and control more spectrum simultaneously than any other integrated solution. This provides the most advanced approach possible for EW, SIGINT, ELINT, DRFM and jamming applications.
Using integrated ADCs, DACs and PLL/VCOs sampling as fast as 64GSPS, signals from 100MHz to 32GHz can be monitored or jammed from a single SDR (software-defined radio) IC across multiple antenna.
The integrated DFE (digital front-end) provides software tunable NCOs (numerically-controlled oscillators), decimation, and interpolation as well as on-chip FFTs and loopback modes. The DFE and SerDes can be reconfigured to support wide or narrow IBWs (instantaneous bandwidth) within milliseconds and different frequencies in microseconds.
Control the electromagnetic spectrum with Jariet’s EW solutions. Contact us to discuss solutions
Quantum Computing
Quantum computing relies on precise and controlled manipulation of qubits, the basic units of quantum information. RF signals play a crucial role in this process by driving qubit state transitions and ensuring accurate quantum gate operations. In superconducting qubits, RF signals are used to control the energy levels of qubits. These signals must be finely tuned, with ultra-low noise and high stability, to minimize decoherence and maximize qubit fidelity.
RF signals enable the measurement of qubits, helping to translate quantum states into classical data. The performance of quantum computers depends significantly on the precision and control offered by these RF signals, which must operate at microwave frequencies and maintain stability across a variety of environmental conditions.
Radar
Jariet revolutionizes radar design with software-defined RF-sampling transceiver ICs that offer unmatched performance, flexibility, and bandwidth — enabling a unified small-signal architecture from L-band to Ka-band.
Performance
Jariet’s high-performance ADCs, DACs and PLL/VCOs deliver the noise spectral density (NSD), phase noise and third-order intermodulation (IMD3) performance necessary to detect small targets at a great distance and varying relative velocities.
Flexibility
By moving frequency conversion into the DFE (digital front end) up and down-converters, a common small-signal-to-FPGA design is possible. By simply reconfiguring the Jariet ICs, a different frequency band and bandwidth can be supported on a sub-microsecond timeline. The multi-channel DFE supports multi-band operation.
Bandwidth
Jariet’s technology is designed to support a wider range of frequencies than any direct RF approach prior, both in RF range and in IBW (instantaneous bandwidth). Presenting this huge spectral range to the DSP engine enables an entirely new generation of software-defined multi-function radar systems.
Whether the architecture is one converter per antenna, one hundred thousand converters per antenna, or anywhere in between, Jariet’s ICs deliver everything needed for RF-to-bits in electronic warfare and beamforming AESA (active electronically scanned array) systems for communications and radar applications.
Test and
Measurement
Explosive growth in wideband communications and sensing across the frequency spectrum presents a tremendous challenge for system and device test, verification and characterization.
Jariet’s high-performance IC transceivers deliver the performance, features, frequency range and bandwidth to tackle tough measurement requirements. Using integrated ADCs, DACs and PLL/VCOs sampling as fast as 64GSPS, signals from 100MHz to 36GHz can be captured or generated from a single SDR (software-defined radio) IC.
