BladeRF - low-cost, professional USB 3.0 Software Defined Radio bladeRF is a Software Defined Radio (SDR) platform designed to enable a community of hobbyists, and professionals to explore and experiment with the multidisciplinary facets of RF communication. By providing source code, thorough documentation, easy to grasp tutorials, and a place for open discussion modern radio systems will be demystified by covering everything from the RF, analog, and digital hardware design to the firmware running on the ARM MCU and FPGA to Linux kernel device drivers. USB 3.0 interfaced through a Cypress FX3 ARM9 microcontroller. An Altera Cyclone IV FPGA provides the interface between the FX3 and RF transceiver. This FPGA has single-cycle access embedded memory, hard 18x18 multipliers for dedicated DSP and many general logic elements ready to be programmed.Fully bus-powered USB 3.0 SuperSpeed Software Defined Radio300MHz - 3.8GHz RF frequency rangeIndependent RX/TX 12-bit 40MSPS quadrature samplingOn-board 200MHz ARM9 with 512KB embedded SRAM (JTAG port available)On-board 15KLE or 115KLE Altera Cyclone 4 E FPGA (JTAG port available).

Dec 18, 2011 - SD (software-defined) radio receivers use a bare minimum of hardware, relying instead on their software capabilities. Lucky Ali New Album Xsuie Download. This SDR project demonstrates what's achievable, in this case a multi-purpose receiver covering all bands from 150 kHz to 30 MHz. It's been optimised for receiving DRM and AM. There are now dozens of software defined radio packages that support the ultra cheap RTL-SDR. On this page we will attempt to list, categorize and provide a brief.

Here is an highly configurable RF, well suited for reasonable perf/cost ratio SDR projects, coming in a 9x9 mm 120 pins aQFN. It covers 300 to 3800 MHz, with I/Q channels programmable from 1.5 to 28 MHz. 12 bits ADC and DAC are integrated. But remember to decimate in order to gain few bits, if you want to have quite high dynamic.12 bits is just enough in many cases. The 2.4 Hz resolution Frac-N synthesizer presents a phase noise roughly around -100 dBc at 800 MHz and -93 dBc in the 2 GHz region.

Not bad for a low cost wide band device. Noise figure and IP3 are acceptable.

Caterpillar Serial Number Year Of Manufacture. Output power is annouced at 6 dBm CW in the datasheet. Datasheet is there. Here is an interesting low cost SDR 'thing' (Thank you Akash!) ASRP3 is based on a classical I/Q direct conversion architecture using ADL5380 I/Q demod chip from Analog Device, as well as their famous AD9262 10 MHz 16 bits sigma delta ADC. The AD9262 presents 87 dB dynamic over the 10 MHz range, due to the 16 bits.Which is good for the price! Indeed, final dynamic will not be 87 dBs due to input stages, but we should obtain pretty good results from this device anyway.And you can still implement clever decimation to increase dynamic on a reduced bandwidth.