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Software Defined Radio Handbook
Software Defined Radio Handbook

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Putting FPGAs to Work for Software Radio Handbook
Putting FPGAs to Work for Software Radio Handbook

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Putting FPGAs to Work for Software Radio Handbook
Critical Techniques for High-Speed A/D Converters in Real-Time Systems Handbook

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High-Speed Switched Serial Fabrics Improve System Design Handbook
High-Speed Switched Serial Fabrics Improve System Design Handbook

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Pentek Introduces Modules for PC Platforms Targeted for Beamforming

  • Channel Summation Across Multiple Boards
  • Programmable Phase and Gain Adjustments Per Channel
  • Built-In Power Monitors and Power Threshold Detectors
  • Multi-Channel Turnkey Subsystem for PCs or Blade Servers
  • Ideal for Beamforming Applications in Communications and Radar

PC Platforms Targeted for Beamforming

Model 7753 and Model 7853 PCIe Modules

Pentek introduced two beamformer PCIe modules to its expansive product line. Each is a high-speed software radio board for processing baseband RF or IF signals and incorporates unique and powerful beamforming functions. Created to accelerate system level design and lower system cost, the boards bring high-performance built-in features and connectivity to PC platforms.

The Pentek Model 7753 and Model 7853 differ in the number of channels and PCIe lanes; eight channels and x16 wide PCIe interface in the former, four channels and x8 wide PCIe interface in the latter. Each module houses up to four or eight 200 MHz, 16-bit A/Ds, each equipped with its own wideband digital down converter (DDC).

Daisy Chaining Multiple Boards

By daisy chaining two or more boards through a pair of high-speed connectors mounted on the edge of each module, the beamforming chain can extend beyond the four or eight channels on each board. Xilinx's Aurora protocol provides an efficient x4 point-to-point data path between boards at 1.25 GB/sec. This connectivity supports large systems with numerous antennas.

In addition to the high speed x4 daisy chain, intermediate or final summation results are also available through the PCIe interface of each board for monitoring, recording or further analysis.

Beamforming and Summation

For antennas in an array, signals from a single source arrive at slightly different times, based on the distance between the source and each antenna. Beamforming involves compensating the gain and phase of each antenna signal before summation to line up the arrival phase for a particular angle of arrival from the source.

In other words, the gain and the phase of each channel can be adjusted so the antenna array is effectively 'steered' electronically. This provides a highly-agile directional sensitivity for the overall antenna array, and greatly enhances signal strength and signal/noise ratio for sources along the specified direction.

All of these essential beamforming functions are resident as factory-installed IP algorithms in the FPGAs of the 7753 and 7853.

Threshold Detectors and Power Meters

These boards include power meters for each of the DDC channels that calculate the signal strength for each antenna. These measured values are extremely useful in calibrating the gain matching from channel to channel to optimize the beamforming result.

In addition, power threshold detectors for each channel can be set to generate an interrupt to the host processor if the energy level exceeds or falls below a programmed level. This dramatically offloads the processor for the signal monitoring and scanning requirements that are often part of beamforming systems.

Demo Available

To view the product features above, an easy-to-follow 10-minute beamforming subsystem presentation is available, please click here.

For the latest pricing, availability and delivery information, please contact Mario Schiavone:

By phone at +1 (201) 818-5900 x229
or email

Additional beamforming modules available in other form factors.

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