FM Demodulators in Software-Defined Radio Using FPGAs with ...
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Putting FPGAs to Work in Software Radio Systems
PPPPPentek, Inc.entek, Inc.entek, Inc.entek, Inc.entek, Inc.One Park Way, Upper Saddle River, New Jersey 07458
Tel: (201) 818-5900 • Fax: (201) 818-5904Email: [email protected] • http://www.pentek.com
Copyright © 2005, 2007, 2008, 2009, 2010, 2011, 2012, 2013 Pentek, Inc.Last Updated: November 2013
All rights reserved.Contents of this publication may not be reproduced in any form without written permission.
Specifications are subject to change without notice.Pentek, GateFlow, ReadyFow, SystemFlow and Cobalt are registered trademarks of Pentek, Inc.
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FPGA RFPGA RFPGA RFPGA RFPGA Resourcesesourcesesourcesesourcesesources
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by
RRRRRodger Hodger Hodger Hodger Hodger H. Hosking. Hosking. Hosking. Hosking. HoskingVice-President & Cofounder of Pentek, Inc.
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Seventh Edition
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Preface
FPGAs have become an increasingly important resource for software radio systems. Programmable logic technology nowoffers significant advantages for implementing software radio functions such as DDCs (Digital Downconverters). Over the past
few years, the functions associated with DDCs have seen a shift from being delivered in ASICs (Application-Specific ICs) tooperating as IP (Intellectual Property) in FPGAs.
For many applications, this implementation shift brings advantages that include design flexibility, higher precisionprocessing, higher channel density, lower power, and lower cost per channel. With the advent of each new, higher-performance
FPGA family, these benefits continue to increase.
This handbook introduces the basics of FPGA technology and its relationship to SDR (Software Defined Radio) systems.A review of Pentek’s GateFlow FPGA Design Resources is followed by a discussion of features and benefits of FPGA-based DDCs.
Pentek SDR products that utilize FPGA technology and applications based on such products are also presented.
For a more in-depth discussion of SDR systems, the reader is referred to Pentek’s Software Defined Radio HandbookFor more information on complementary subjects, the reader is referred to these Pentek Handbooks:
Critical Techniques for High-Speed A/D Converters in Real-Time SystemsHigh-Speed Switched Serial Fabrics Improve System Design
High-Speed, Real-Time Recording Systems
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DIGITAL
MIXER
DIGITAL
LOCAL
OSC
DSP
DDC
Digital Downconverter
RF
TUNER
Analog
IF Signal
Analog
RF SignalA/D
CONV
Digital IF
Samples LOWPASS
FILTER
Digital
Baseband
Samples
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TTTTTypical Sofypical Sofypical Sofypical Sofypical Software Rtware Rtware Rtware Rtware Radio Systemadio Systemadio Systemadio Systemadio System SofSofSofSofSoftware Rtware Rtware Rtware Rtware Radio Tadio Tadio Tadio Tadio Tasksasksasksasksasks
We begin our discussion with the basic elements ofa software radio receiver system.
The front end usually contains an analog RFamplifier and often an analog RF translator. Thistranslates the high frequency RF signals down to afrequency that an A/D converter can handle. This isusually below 200 MHz and is often an IF output.
The A/D output feeds the DDC (Digital Down-converter) stage, which is typically contained in a mono-lithic chip which forms the heart of a software radio system.
Notice, that after the signal is digitized by the A/Dconverter, all further operations are performed by digitalsignal-processing hardware.
Here we’ve ranked some of the popular signal-process-ing tasks associated with SDR systems on a two axisgraph, with compute Processing Intensity on the verticalaxis and Flexibility on the horizontal axis.
What we mean by process intensity is the degree ofhighly-repetitive and rather primitive operations. At theupper left are dedicated functions like A/D convertersand DDCs that require specialized hardware structuresto complete the operations in real time. ASICs are usuallychosen for these functions.
Flexibility pertains to the uniqueness or variabilityof the processing and how likely the function may haveto be changed or customized for any specific application.At the lower right are tasks like analysis and decision-making which are highly variable and often subjective.
Programmable general-purpose processors or DSPsare usually chosen for these tasks since these tasks can beeasily changed by software.
Now let’s temporarily step away from the softwareradio tasks and take a deeper look at programmablelogic devices.
Figure 1 Figure 2
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Putting FPGAs to Work in Software Radio Systems
Early REarly REarly REarly REarly Roles for FPGAsoles for FPGAsoles for FPGAsoles for FPGAsoles for FPGAs LLLLLegacy FPGA Design Methodologiesegacy FPGA Design Methodologiesegacy FPGA Design Methodologiesegacy FPGA Design Methodologiesegacy FPGA Design Methodologies
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As true programmable gate functions becameavailable in the 1970’s, they were used extensively byhardware engineers to replace control logic, registers,gates and state machines which otherwise would haverequired many discrete, dedicated ICs.
Often these programmable logic devices were one-time factory-programmed parts that were soldered downand never changed after the design went into production.
These programmable logic devices were mostly thedomain of hardware engineers and the software toolswere tailored to meet their needs. You had tools foraccepting boolean equations or even schematics to helpgenerate the interconnect pattern for the growingnumber of gates.
Then, programmable logic vendors started offeringpredefined logic blocks for flip-flops, registers andcounters, that gave the engineer a leg up on popularhardware functions.
Nevertheless, the hardware engineer was stillintimately involved with testing and evaluating thedesign using the same skills he needed for testingdiscrete logic designs. He had to worry about propaga-tion delays, loading, clocking and synchronizing—alltricky problems that usually had to be solved the hardway—with oscilloscopes or logic analyzers.
Figure 3 Figure 4
� Tools were oriented to hardware engineers
� Schematic processors
� Boolean processors
� Gates, registers, counters, multipliers
� Successful designs required high-level
hardware engineering skills for:
� Critical paths and propagation delays
� Pin assignment and pin locking
� Signal loading and drive capabilities
� Clock distribution
� Input signal synchronization and skew analysis
� Used primarily to replace discrete digital
hardware circuitry for:
� Control logic
� Glue logic
� Registers and gates
� State machines
� Counters and dividers
� Devices were selected by hardware engineers
� Programmed functions were seldom changed
after the design went into production
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FPGAs: New Device TFPGAs: New Device TFPGAs: New Device TFPGAs: New Device TFPGAs: New Device Technologyechnologyechnologyechnologyechnology FPGAs: New Development TFPGAs: New Development TFPGAs: New Development TFPGAs: New Development TFPGAs: New Development Toolsoolsoolsoolsools
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Figure 5 Figure 6
� High Level Design Tools
� Block Diagram System Generators
� Schematic Processors
� High-level language compilers for
VHDL & Verilog
� Advanced simulation tools for modeling speed,
propagation delays, skew and board layout
� Faster compilers and simulators save time
� Graphically-oriented debugging tools
� IP (Intellectual Property) Cores
� FPGA vendors offer both free and licensed cores
� FPGA vendors promote third party core vendors
� Wide range of IP cores available
� 500+ MHz DSP slices and memory structures
Over 3500 dedicated on-chip hardware multipliers
On-board GHz serial transceivers
Partial reconfigurability maintains
operation during changes
Switched fabric interface engines
Over 690,000 logic cells
Gigabit Ethernet media access controllers
On-chip 405 PowerPC RISC microcontroller cores
Memory densities approaching 85 million bits
Reduced power with core voltages at 1 volt
Silicon geometries to 28 nanometers
High-density BGA and flip-chip packaging
Over 1200 user I/O pins
Configurable logic and I/O interface standards
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It’s virtually impossible to keep up to date on FPGAtechnology, since new advancements are being madeevery day.
The hottest features are processor cores inside thechip, computation clocks to 500 MHz and above, andlower core voltages to keep power and heat down.
Several years ago, dedicated hardware multipliersstarted appearing and now you’ll find literally thousandsof them on-chip as part of the DSP initiative launchedby virtually all FPGA vendors.
High memory densities coupled with very flexiblememory structures meet a wide range of data flowstrategies. Logic slices with the equivalent of over tenmillion gates result from silicon geometries shrinkingbelow 0.1 micron.
BGA and flip-chip packages provide plenty of I/Opins to support on-board gigabit serial transceivers andother user-configurable system interfaces.
New announcements seem to be coming out everyday from chip vendors like Xilinx and Altera in a never-ending game of outperforming the competition.
To support such powerful devices, new design toolsare appearing that now open up FPGAs to both hard-ware and software engineers. Instead of just acceptinglogic equations and schematics, these new tools acceptentire block diagrams as well as VHDL and Verilogdefinitions.
Choosing the best FPGA vendor often hingesheavily on the quality of the design tools available tosupport the parts.
Excellent simulation and modeling tools help toquickly analyze worst case propagation delays andsuggest alternate routing strategies to minimize themwithin the part. This minimizes some of the trickytiming work for hardware engineers and can save onehours of tedious troubleshooting during design verifica-tion and production testing.
In the last few years, a new industry of third partyIP (Intellectual Property) core vendors now offer thou-sands of application-specific algorithms. These are readyto drop into the FPGA design process to help beat thetime-to-market crunch and to minimize risk.
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FPGAs for SDRFPGAs for SDRFPGAs for SDRFPGAs for SDRFPGAs for SDR FPGAs Bridge the SFPGAs Bridge the SFPGAs Bridge the SFPGAs Bridge the SFPGAs Bridge the SDRDRDRDRDR Application T Application T Application T Application T Application Task Spaceask Spaceask Spaceask Spaceask Space
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As a result, FPGAs have significantly invaded theapplication task space as shown by the center bubble inthe task diagram above.
They offer the advantages of parallel hardware tohandle some of the high process intensity functions likeDDCs and the benefit of programmability to accommo-date some of the decoding and analysis functions of DSPs.
These advantages may come at the expense ofincreased power dissipation and increased product costs.However, these considerations are often secondary to theperformance and capabilities of these remarkable devices.
Like ASICs, all the logic elements in FPGAs canexecute in parallel. This includes the hardware multipli-ers, and you can now get over 3500 of them on a singleFPGA.
This is in sharp contrast to programmable DSPs,which normally have just a handful of multipliers thatmust be operated sequentially.
FPGA memory can now be configured with thedesign tool to implement just the right structure fortasks that include dual port RAM, FIFOs, shift registersand other popular memory types.
These memories can be distributed along the signalpath or interspersed with the multipliers and mathblocks, so that the whole signal processing task operatesin parallel in a systolic pipelined fashion.
Again, this is dramatically different from sequentialexecution and data fetches from external memory as in aprogrammable DSP.
As we said, FPGAs now have specialized serial andparallel interfaces to match requirements for high- speedperipherals and buses.
Figure 7 Figure 8
� Parallel Processing
� Hardware Multipliers for DSP
� FPGAs can now have over 500 hardware multipliers
� Flexible Memory Structures
� Dual port RAM, FIFOs, shift registers, look up tables, etc.
� Parallel and Pipelined Data Flow
� Systolic simultaneous data movement
� Flexible I/O
� Supports a variety of devices, buses and interface standards
� High Speed
� Available IP cores optimized for special functions
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Putting FPGAs to Work in Software Radio Systems
FPGA RFPGA RFPGA RFPGA RFPGA Resourcesesourcesesourcesesourcesesources
Figure 9
FPGA RFPGA RFPGA RFPGA RFPGA Resource Comparisonesource Comparisonesource Comparisonesource Comparisonesource Comparison
The above chart compares the available resources inthe five Xilinx FPGA families that are used in most ofthe Pentek products.
● Virtex-II Pro: VP● Virtex-4: FX, LX and SX● Virtex-5: LX and SX● Virtex-6: LX and SX● Virtex-7: VX
The Virtex-II family includes hardware multipliersthat support digital filters, averagers, demodulatorsand FFTs—a major benefit for software radio signalprocessing. The Virtex-II Pro family dramaticallyincreased the number of hardware multipliers and alsoadded embedded PowerPC microcontrollers.
The Virtex-4 family is offered as three subfamiliesthat dramatically boost clock speeds and reduce powerdissipation over previous generations.
The Virtex-4 LX family delivers maximum logic andI/O pins while the SX family boasts of 512 DSP slicesfor maximum DSP performance. The FX family is agenerous mix of all resources and is the only family tooffer RocketIO, PowerPC cores, and the newly addedgigabit Ethenet ports.
*Virtex-II Pro and Virtex-4 Slices actually represent 2.25 Logic Cells;*Virtex-5, Virtex-6 and Virtex-7 Slices actually represent 6.4 Logic Cells
VirVirVirVirVirtex-II Ptex-II Ptex-II Ptex-II Ptex-II Prororororo VirVirVirVirVirtex-4tex-4tex-4tex-4tex-4 VirVirVirVirVirtex-5tex-5tex-5tex-5tex-5 VirVirVirVirVirtex-6tex-6tex-6tex-6tex-6 VirVirVirVirVirtex-7tex-7tex-7tex-7tex-7VPVPVPVPVP FX, LX, SXFX, LX, SXFX, LX, SXFX, LX, SXFX, LX, SX LX, SXLX, SXLX, SXLX, SXLX, SX LX, SXLX, SXLX, SXLX, SXLX, SX VXVXVXVXVX
Logic Cells 53K–74K 55K–110K 52K–155K 128K–314K 326K–693KSlices* 23K–33K 24K–49K 8K–24K 20K–49K 51K–108KCLB Flip-Flops 46K–66K 48K–98K 32K–96K 160K–392K 408K–864KBlock RAM (kb) 4,176–5,904 4,176–6,768 4,752–8,784 9,504–25,344 27,000–52,920DSP Hard IP 18x18 Multipliers DSP48 DSP48E DSP48E DSP48EDSP Slices 232–328 96–512 128–640 480–1,344 1,120–3,600Serial Gbit Transceivers N/A 0–20 12–16 20–24 28–80PCI Express Support N/A N/A N/A Gen 2 x8 Gen 2 x8, Gen 3 x8User I/O 852–996 576–960 480–680 600–720 700–1,000
The Virtex-5 family LX devices offer maximumlogic resources, gigabit serial transceivers, and Ethernetmedia access controllers. The SX devices push DSPcapabilities with all of the same extras as the LX.
The Virtex-5 devices offer lower power dissipation,faster clock speeds and enhanced logic slices. They alsoimprove the clocking features to handle faster memoryand gigabit interfaces. They support faster single-endedand differential parallel I/O buses to handle fasterperipheral devices.
The Virtex-6 and Virtex-7 devices offer still higherdensity, more processing power, lower power consump-tion, and updated interface features to match the latesttechnology I/O requirements including PCI Express.Virtex-6 supports PCIe 2.0 and Virtex-7 supports PCIe 3.0
The ample DSP slices are responsible for themajority of the processing power of the Virtex-6 andVirtex-7 families. Increases in operating speed from 500 MHzin V-4, to 550 MHz in V-5, to 600 MHz in V-6, to900 MHz in V-7 and continuously increasing densityallow more DSP slices to be included in the same-sizepackage. As shown in the chart, Virtex-6 tops out at animpressive 1,344 DSP slices, while Virtex-7 tops out atan even more impressive 3,600 DSP slices.
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Putting FPGAs to Work in Software Radio Systems
� Allows FPGA design engineers to easily add
functions to standard factory configuration
� Includes VHDL source code for all standard functions:
� Control and status registers
� A/D and Digital receiver interfaces
� Mezzanine interfaces
� Triggering, clocking, sync and gating functions
� Data packing and formatting
� Channel selection
� A/D / Receiver multiplexing
� Interrupt generation
� Data tagging and channel ID
� User Block for inserting custom code
Figure 10 Figure 11
GateFlow FPGA Design RGateFlow FPGA Design RGateFlow FPGA Design RGateFlow FPGA Design RGateFlow FPGA Design Resourcesesourcesesourcesesourcesesources GateFlow FPGA Design KitGateFlow FPGA Design KitGateFlow FPGA Design KitGateFlow FPGA Design KitGateFlow FPGA Design Kit
FPGA RFPGA RFPGA RFPGA RFPGA Resourcesesourcesesourcesesourcesesources
GateFlow
FPGA
Design
Kit
GateFlow
Factory
Installed
IP Cores
If you want to add your own algorithms to Pentekcatalog products, we offer the GateFlow FPGA DesignKit that includes VHDL source code for all the standardfactory functions.
VHDL is one of the most popular languages used inthe FPGA design tools. The GateFlow Design Kit includesthe VHDL source code for every software module we useto create these standard factory features of the product.
The standard factory configuration supports a widerange of operating modes, timing and sync functions, aswell as several different data formatting options.
This includes control and status registers, peripheralinterfaces, mezzanine interfaces, timing functions, dataformatting, channel selection, interrupt support, anddata tagging.
These are also fully supported with our ReadyFlowBoard Support Package.
GateFlow® is Pentek’s flagship collection of FPGADesign Resources. The GateFlow line is compatiblewith the Xilinx Virtex products and is available as twoseparate offerings:
If you want to add your own custom algorithms, weoffer the GateFlow FPGA Design Kit.
We also offer popular high-performance signal-process-ing algorithms with the GateFlow factory-installed IPCores. These algorithms are designed and optimizedexpressly for Xilinx FPGAs and Pentek hardware products.
Installed Cores are delivered to you preinstalled inyour Pentek FPGA-based product of choice and are fullysupported with Pentek ReadyFlow® Board SupportPackages.
Let’s start with the GateFlow FPGA Design Kit.
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Putting FPGAs to Work in Software Radio Systems
FPGA RFPGA RFPGA RFPGA RFPGA Resourcesesourcesesourcesesourcesesources
GateFlow FPGA Design Kit for Cobalt or Onyx PGateFlow FPGA Design Kit for Cobalt or Onyx PGateFlow FPGA Design Kit for Cobalt or Onyx PGateFlow FPGA Design Kit for Cobalt or Onyx PGateFlow FPGA Design Kit for Cobalt or Onyx Productsroductsroductsroductsroducts
Front Panel Interface
Memory
Controller
MemoryController
Sync Bus
Interface
PCI Express Interface
Global Registers
FLASH Interface
ClockGenerator
Timestamp
TestGenerator
PCI Express Backend
MemoryController
Memory
Controller
V-6 or V-7-
FPGA
User Application Container
Defined and
documented
interface signals
Board
RegistersUser
Registers
DMAs P14
LVDS
P16
MGTs
Factory Installed
Base Function Application
A/D & D/A Control
Data Packing & Formatting
Meta Data Files
Linked-List A/D Control
Linked-List D/A Control
Figure 12
The GateFlow FPGA Design Kit allows the user tomodify, replace and extend the standard factory-installedfunctions in the FPGA to incorporate special modes ofoperation, new control structures, and specialized signal-processing algorithms.
The Cobalt and Onyx architectures configure theFPGA with standard factory-supplied interfaces includingmemory controllers, DMA engines, A/D and D/Ainterfaces, timing and synchronization structures,triggering and gating logic, time stamping and headertagging, data formatting engines, and the PCIe interface.These resources are connected to the User ApplicationContainer using well-defined ports that present easy-to-usedata and control signals, effectively abstracting the lowerlevel details of the hardware.
Shown here is the FPGA block diagram of a typicalCobalt or Onyx module. The User Application Containerholds a collection of different factory-installed IPmodules connected to the various interfaces through thestandard ports surrounding the container. The specific IPmodules for each product are described in further detail inthe datasheet of that product.
The GateFlow Design Kit provides a completeXilinx ISE Foundation Tool project folder containingall the files necessary for the FPGA developer torecompile the entire project with or without anyrequired changes. VHDL source code for each IPmodule provides excellent examples of how the IPmodules work, how they might be modified, and howthey might be replaced with custom IP to implement aspecific function.
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Putting FPGAs to Work in Software Radio Systems
FPGA RFPGA RFPGA RFPGA RFPGA Resourcesesourcesesourcesesourcesesources
Figure 13
GateFlow FPGA Design Kit for Other GateFlow FPGA Design Kit for Other GateFlow FPGA Design Kit for Other GateFlow FPGA Design Kit for Other GateFlow FPGA Design Kit for Other PPPPPentek entek entek entek entek PPPPProductsroductsroductsroductsroducts
The GateFlow FPGA Design Kit is intended for theprogramming of predefined user blocks located in the dataflow path specifically reserved for custom applications.These predefined blocks protect users from inadvertentlyaltering base functionality.
Pentek recommends user programming be limited tothe predefined user blocks to maintain base functional-ity. However, for more complex requirements, sufficientinformation is supplied in the kit for the user to modify,add to, or replace default board functions if necessary.Default configuration files are included with the DesignKit should it be necessary to restore standard factoryconfiguration.
Shown above is the block diagram of a typicalsoftware radio module. The diagram includes the FPGAand external hardware devices connected to it.
The blocks inside the FPGA are VHDL code modulesthat handle the standard factory functions and interfaces.The User Block is a VHDL module that sits in the datapath with pin definitions for input, output, status, controland clocks.
In the standard Design Kit product, the User Block isconfigured as a straight wire between the input and outputports. By creating a custom algorithm inside the block thatconforms to the pin definition, the user will have a low-riskexperience in recompiling and installing the custom code.Since Pentek provides source code for all the modules,changes outside the user block can also be made by the user.
EXT
CLK
XTAL
OSC
LVDS
CLK &
SYNC
CLOCK
CONTROL
SYNC / GATE /
TRIGGER
GENERATOR
INTERRUPT
GENERATORSTATUS &
CONTROL
A/D
DIGITAL
RECEIVER
ANALOG
INPUT DATA
SELECT
DATA
FORMATTER
CLOCK
& SYNC
DRIVERS
MEZZANINE
INTERFACE
DIGITAL
INPUT
DMA CONTROL
& COUNTERS
FPGA
USER BLOCK
INPUT OUTPUT
STATUSCONTROL
DEFAULT
BYPASS
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Putting FPGAs to Work in Software Radio Systems
GateFlow Installed IP CoresGateFlow Installed IP CoresGateFlow Installed IP CoresGateFlow Installed IP CoresGateFlow Installed IP Cores
Figure 14
� Pentek Installs IP Cores in Pentek Products
� Cores are tailored and optimized for:
� Specific devices and I/O found on Pentek products
� Efficient FPGA resource utilization
� Execution and throughput speed
� Eliminates need for customer FPGA development
� Fully supported with ReadyFlow Board Support Libraries
Pentek is an AllianceCore Member, a third partyprogram sponsored by Xilinx for companies thatspecialize in specific areas of expertise in developingFPGA algorithms for niche application areas. Theseinclude image processing, communications, telecom,telemetry, signal intelligence, wireless communications,wireless networking, and many other disciplines.
Pentek offers popular high-performance signalprocessing algorithms installed in Pentek products. Thesealgorithms are designed expressly for Xilinx FPGAs andPentek harware products. The cores take full advantageof the numerous hardware multipliers to achieve highly-parallel processing structures that can dramaticallyoutperform programmable RISC and DSP processors.
Installed Cores are optimized for efficient FPGAresource utilization, execution and throughput speed.They are delivered to you preinstalled in your PentekFPGA-based product of choice and are fully tested andsupported with the Pentek ReadyFlow Board SupportPackages. Purchasing these popular factory-installedcores saves you the time and costs of acquiring FPGAtools and developing custom FPGA code.
FPGA RFPGA RFPGA RFPGA RFPGA Resourcesesourcesesourcesesourcesesources
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Figure 15
Digital DownconverDigital DownconverDigital DownconverDigital DownconverDigital Downconverter Fter Fter Fter Fter Fundamentalsundamentalsundamentalsundamentalsundamentals
CICInitial
Downsample
CICCoarse Gain
CFIRPolyphaseDecimator
PFIRPolyphaseDecimator
Roundin
g
DDSNCO
Signal In
COMPLEXDIGITALMIXER I
Q
FilterCoefficients
Tuning Stage Data Reduction Gain Adjustment Additional Data Reductionand Signal Shaping
FilterCoefficients
SIN COS
TuningFrequency
Signal Out
Over the past few years, the functions associatedwith DDCs have seen a shift from being delivered inASICs (Application-Specific ICs) to operating as IP(Intellectual Property) in FPGAs.
For many applications, this implementation shiftbrings advantages that include: design flexibility, higher-precision processing, higher channel density, lowerpower, and lower cost per channel. With the advent ofeach new higher performance FPGA family during thepast few years, these benefits continue to increase.
To understand how FPGAs play a key role inimplementing DDCs that perform the function of areceiver, it’s important to break the DDC down into itsindividual functional blocks. The block diagram shows aclassic DDC. Regardless of whether it’s implemented inan ASIC or an FPGA, this is the common architectureof the DDC function.
The first stage of the DDC uses a complex digitalmixer to translate the frequency of interest down tobaseband. It uses a pair of multipliers and a DDS(Direct Digital Synthesizer) as the NCO (NumericallyControlled Oscillator). This function enables the user totune the receiver to the desired frequency of interest.The second stage of the DDC reduces the samplingfrequency of the signal to match the desired outputbandwidth. It uses a CIC (Cascaded Integrator Comb)filter to decimate the data.
A second CIC filter provides a coarse gain adjustmentstage. The signal is then passed to a pair of additionalpolyphase filters. First a CFIR (Compensation FiniteImpulse Response) filter then to a PFIR (ProgrammableFinite Impulse Response) filter. This filter pair providesadditional decimation and final signal shaping prior tothe rounding stage and final output.
When we get past all the acronyms, we realize thatmost of the individual function blocks of the DDC areimplemented using multipliers. It thus becomes appar-ent how the DDC might map into current FPGA families.Most new FPGAs include a wealth of DSP functionblocks which are primarily multipliers. The general-purpose logic resource and on-chip memory of FPGAsalso match the requirements of the DDC for implement-ing the required FIR filters and filter coefficient tables.
As part of their IP library series, Xilinx provides afree DDC core. The core serves as a good generalreference design, following the classic DDC architectureshown here. While this core can be used as a buildingblock for general purpose DDCs, the real advantages ofan IP-based implementation can be best seen in optimizedcustom cores that are designed to match the requirementsof a specific application.
Pentek offers a series of high-performance IP-basedDDCs and DUCs available preinstalled in their softwareradio boards. Each is optimized to match a specific rangeof application requirements.
FPGA RFPGA RFPGA RFPGA RFPGA Resourcesesourcesesourcesesourcesesources
➤
PPPPPentek, Inc.entek, Inc.entek, Inc.entek, Inc.entek, Inc. • One Park Way, Upper Saddle River, NJ 07458 • Tel: (201) 818-5900 • Fax: (201) 818-5904 • Email: [email protected] • http://www.pentek.com
1313131313
Putting FPGAs to Work in Software Radio Systems
These cores range from a 256-channel narrowbandwidth Core installed in the Model 7151 with quad200 MHz A/D, to the extended interpolation Coreinstalled in the Model 71671 with quad 1.25 GHz D/A.
These two and many other FPGA-based SDRproducts are available in industry-standard PMC/XMCmodules as well as CompactPCI, PCI Express, AMC andOpenVPX formats.
When compared on a size/power/cost per channelbasis, narrowband, high-channel-count DDC corescan be very efficiently implemented in FPGAs.Implementation of wideband DDCs consumes manymore FPGA DSP and logic resources. As a result, thenumber of channels that can be fit into a single FPGA islimited. Even with less cost-effective wideband DDCs,
IP Enables SofIP Enables SofIP Enables SofIP Enables SofIP Enables Software Rtware Rtware Rtware Rtware Radio Padio Padio Padio Padio Productsroductsroductsroductsroducts
the custom IP approach can usually provide the onlyviable solution when a specific performance character-istic is required.
An additional benefit of IP-based solutions is theflexible nature of their implementation. These productsare created by using the same hardware base with differentinstalled IP cores. They all share the same software baseallowing migration between different applications to beaccomplished with minimum software porting.
Again, this wide range of applications can besatisfied by using a small set of hardware with different,optimized IP cores. This is one of the fundamentalconcepts of SDR (Software-Defined Radio), and it’sdifficult, if not impossible, to achieve with ASIC-basedsolutions.
FPGA RFPGA RFPGA RFPGA RFPGA Resourcesesourcesesourcesesourcesesources
PPPPPentek, Inc.entek, Inc.entek, Inc.entek, Inc.entek, Inc. • One Park Way, Upper Saddle River, NJ 07458 • Tel: (201) 818-5900 • Fax: (201) 818-5904 • Email: [email protected] • http://www.pentek.com
1414141414
Putting FPGAs to Work in Software Radio Systems
PPPPProductsroductsroductsroductsroducts
Figure 16
The Pentek family of board-level software radioproducts is the most comprehensive in the industry.Most of these products are available in several formatsto satisfy a wide range of requirements.
In addition to their commercial versions, manysoftware radio products are available in ruggedized andconduction-cooled versions.
Most of the software radio products include input A/Dconverters. Some of these products are software radioreceivers in that they include only DDCs. Others aresoftware radio transceivers and they include DDCs aswell as DUCs with output D/A converters. These comewith independent input and output clocks.
All Pentek software radio products include multiboardsynchronization that facilitates the design of multichannelsystems with synchronous clocking, gating and triggering.
Pentek’s comprehensive software support includesthe ReadyFlow® Board Support Package, the GateFlow®
FPGA Design Kit and high-performance factory-installed IP cores that expand the features and rangeof many Pentek software radio products. In addition,Pentek high-speed recording systems are supported withSystemFlow® recording software that features a graphicaluser interface.
In addition to product overviews presented in thepages that follow, a complete listing of these productswith active links to their datasheets on Pentek’s website isincluded at the end of this handbook.
PMC, XMC, CompactPCI, PCI, PCI Express, OpenVPX, AMC, and VMEbus SofPMC, XMC, CompactPCI, PCI, PCI Express, OpenVPX, AMC, and VMEbus SofPMC, XMC, CompactPCI, PCI, PCI Express, OpenVPX, AMC, and VMEbus SofPMC, XMC, CompactPCI, PCI, PCI Express, OpenVPX, AMC, and VMEbus SofPMC, XMC, CompactPCI, PCI, PCI Express, OpenVPX, AMC, and VMEbus Software Rtware Rtware Rtware Rtware Radioadioadioadioadio
PMC/XMC Module
6U CompactPCIBoard
PCI Board
Full-lengthPCI Express Board
Half-lengthPCI Express Board
VMEbus Board
3U OpenVPX BoardsCOTS and Rugged
AMC Board
PPPPPentek, Inc.entek, Inc.entek, Inc.entek, Inc.entek, Inc. • One Park Way, Upper Saddle River, NJ 07458 • Tel: (201) 818-5900 • Fax: (201) 818-5904 • Email: [email protected] • http://www.pentek.com
1515151515
Putting FPGAs to Work in Software Radio Systems
DDR 2
SDRAM
256 MB
DDR 2
SDRAM
256 MB
DDR 2
SDRAM
256 MB
32 32 32
32
RF
XFORMR
RF Out
DAC5686
DIGITAL
UPCONVERTER
16-bit D/A
RF
XFORMR
LTC2255
125MHz
14-bit A/D
RF In
14
RF
XFORMR
LTC2255
125MHz
14-bit A/D
RF In
14
RF
XFORMR
LTC2255
125MHz
14-bit A/D
RF In
14
RF
XFORMR
LTC2255
125MHz
14-bit A/D
RF In
14
P15 XMC
VITA 42.0
P4 PMC
FPGA I/O
(Option –104)
64
64LOCAL
BUS
VIRTEX-4 FPGA
XC4VFX60 or XC4VFX100
PCI BUS
(64 Bits / 66 MHz)
PCI 2.2
INTERFACE
SERIAL
INTERFACE
32 32 32HI-SPEED
BUSES
VIRTEX-4 FPGA
XC4VSX55
DSP – Channelizer – Digital Delay – Demodulation – Decoding – Control – etc.
Control/
Status
TIMING BUS
GENERATOR A
XTL
OSC A
SYNC
INTERRUPTS
& CONTROL
TIMING BUS
GENERATOR B
XTL
OSC B
LVDS Clock A
LVDS Sync A
LVDS Gate A
TTL Gate/
Trigger
TTL Sync
LVDS Clock B
LVDS Sync B
LVDS Gate B
Clock/Sync/Gate
Bus A
Clock/Sync/Gate
Bus B
To All
Sections
Sample
Clock In
PPPPProductsroductsroductsroductsroducts
Model 7142PMC/XMC
Multichannel TMultichannel TMultichannel TMultichannel TMultichannel Transceivers with Virransceivers with Virransceivers with Virransceivers with Virransceivers with Virtex-4 FPGAstex-4 FPGAstex-4 FPGAstex-4 FPGAstex-4 FPGAs
Model 714Model 714Model 714Model 714Model 71422222 PMC/XMC PMC/XMC PMC/XMC PMC/XMC PMC/XMC ●●●●● Model 724 Model 724 Model 724 Model 724 Model 72422222 6U cPCI 6U cPCI 6U cPCI 6U cPCI 6U cPCI ●●●●● Model 734 Model 734 Model 734 Model 734 Model 73422222 3U cPCI 3U cPCI 3U cPCI 3U cPCI 3U cPCI ●●●●● Model 764Model 764Model 764Model 764Model 76422222 PCI PCI PCI PCI PCIModel 7Model 7Model 7Model 7Model 777777444442 F2 F2 F2 F2 Full-lengthull-lengthull-lengthull-lengthull-length PCIe PCIe PCIe PCIe PCIe ●●●●● Model 7 Model 7 Model 7 Model 7 Model 788888444442 Half-length2 Half-length2 Half-length2 Half-length2 Half-length PCIe PCIe PCIe PCIe PCIe ●●●●● Model Model Model Model Model 55555343434343422222 3U 3U 3U 3U 3U VPXVPXVPXVPXVPX
The Model 7142 is a Multichannel PMC/XMCmodule. It includes four 125 MHz 14-bit A/D convert-ers and one upconverter with a 500 MHz 16-bit D/Aconverter to support wideband receive and transmitcommunication channels.
Two Xilinx Virtex-4 FPGAs are included: anXC4VSX55 or LX100 and an XC4VFX60 or FX100.The first FPGA is used for control and signal processingfunctions, while the second one is used for implement-ing board interface functions including the XMC interface.
It also features 768 MB of SDRAM for implementingup to 2.0 sec of transient capture or digital delay memoryfor signal intelligence tracking applications at 125 MHz.
A 16 MB flash memory supports the boot code forthe two on-board IBM 405 PowerPC microcontrollercores within the FPGA.
A 9-channel DMA controller and 64 bit / 66 MHz PCIinterface assures efficient transfers to and from the module.
A high-performance 160 MHz IP core wideband digitaldownconverter may be factory-installed in the first FPGA.
Two 4X switched serial ports, implemented with theXilinx Rocket I/O interfaces, connect the second FPGAto the XMC connector with two 2.5 GB/sec data linksto the carrier board.
A dual bus system timing generator allows separateclocks, gates and synchronization signals for the A/Dand D/A converters. It also supports large, multichannelapplications where the relative phases must be preserved.
Versions of the 7142 are also available as a PCIe full-length board (Models 7742 and 7742D dual density),PCIe half-length board (Model 7842), 3U VPX (Model5342), PCI board (Model 7642), 6U cPCI (Models 7242and 7242D dual density), and 3U cPCI (Model 7342).
Figure 17
PPPPPentek, Inc.entek, Inc.entek, Inc.entek, Inc.entek, Inc. • One Park Way, Upper Saddle River, NJ 07458 • Tel: (201) 818-5900 • Fax: (201) 818-5904 • Email: [email protected] • http://www.pentek.com
1616161616
Putting FPGAs to Work in Software Radio Systems
PPPPProductsroductsroductsroductsroducts
TTTTTransceivers with Fransceivers with Fransceivers with Fransceivers with Fransceivers with Four Multiband DDCs and Interpolation Four Multiband DDCs and Interpolation Four Multiband DDCs and Interpolation Four Multiband DDCs and Interpolation Four Multiband DDCs and Interpolation Filter Installed Coresilter Installed Coresilter Installed Coresilter Installed Coresilter Installed Cores
Figure 18
The Pentek IP Core 428 includes four high-performance multiband DDCs and an interpolationfilter. Factory-installed in the Model 7142 FPGA,they add DDCs to the Model 7142 and extend therange of its DAC5686 DUC.
The Core 428 downconverter translates any frequencyband within the input bandwidth range down to zerofrequency. The DDCs consist of two cascaded decimat-ing FIR filters. The decimation of each DDC can be setindependently. After each filter stage is a post filter gainstage. This gain may be used to amplify small signalsafter out-of-band signals have been filtered out.
The NCO provides over 108 dB spurious-freedynamic range (SFDR). The FIR filter is capable ofstoring and utilizing two independent sets of 18-bitcoefficients. These coefficients are user-programmable byusing RAM structures within the FPGA. NCO tuningfrequency, decimation and filter coefficients can bechanged dynamically.
Four identical Core 428 DDCs are factory installedin the 7142-428 FPGA. An input multiplexer allowsany DDC to independently select any of the four A/Dsources. The overal decimation range from 2 to 65,536,programmable in steps of 1, provides output bandwidthsfrom 50 MHz down to 1.52 kHz for an A/D samplingrate of 125 MHz and assuming an 80% filter.
The Core 428 interpolation filter increases the samplingrate of real or complex baseband signals by a factor of 16 to2048, programmable in steps of 4, and relieves the hostprocessor from performing upsampling tasks. The interpola-tion filter can be used in series with the DUC’s built-ininterpolation, for a maximum interpolation of 32,768.
Versions of the 7142-428 are also available as a PCIefull-length board (Models 7742-428 and 7742D-428 dualdensity), PCIe half-length board (Model 7842-428), PCIboard (Model 7642-428), 6U cPCI (Models 7242-428 and7242D-428 dual density), 3U cPCI (Model 7342-428),and 3U VPX (Model 5342-428).
.
RF
XFORMR
RF
XFORMR
RF
XFORMR
AD6645
105 MHz
14-bit A/D
CLOCK &
SYNC
GENERATOR
DAC 5686
DIGITAL
UPCONVERTER
16-bit
500 MHZ
D/A
PCI 2.2
INTERFACE
MEMORY
CONTROL &
DATA ROUTING
D/A
FIFO
MUXCFIR
FILTER
CIC
FILTER
MUX
DIGITAL
DOWNCONVERTR A
STAGE 1
DECIMATION: 2 – 256
CH A
RF In
CH B
RF In
RF Out
Sample
Clock In
Clock/Sync
Bus
A/D A
A/D A
A/D B
A/D A
MEMORY
D/A FIFO
PCI BUS
64 bit /
66 MHz
DIGITAL DOWNCONVERTER CORE
INTERPOLATION CORE XC4VSX55
RF
XFORMR
RF
XFORMR
RF
XFORMR
LTC2255
125 MHz
14-bit A/D
CLOCK &
SYNC
GENERATOR
XTAL
OSC A
XTAL
OSC B
DAC 5686
DIGITAL
UPCONVERTER
16-bit
500 MHZ
D/A
PCI 2.2
INTERFACE
LTC2255
125 MHz
14-bit A/D
RF
XFORMR
CH C
RF In
RF
XFORMR
LTC2255
125 MHz
14-bit A/D
RF
XFORMR
CH D
RF In
RF
XFORMR
LTC2255
125 MHz
14-bit A/D
A/D B
A/D C
A/D D
A/D C
A/D D
DIGITAL
DOWNCONVERTR A
STAGE 2
DECIMATION: 1 – 256
DIGITAL
DOWNCONVERTR B
STAGE 1
DECIMATION: 2 – 256
A/D A
A/D B
A/D C
A/D D
DIGITAL
DOWNCONVERTR B
STAGE 2
DECIMATION: 1 – 256
DIGITAL
DOWNCONVERTR C
STAGE 1
DECIMATION: 2 – 256
A/D A
A/D B
A/D C
A/D D
DIGITAL
DOWNCONVERTR C
STAGE 2
DECIMATION: 1 – 256
DIGITAL
DOWNCONVERTR D
STAGE 1
DECIMATION: 2 – 256
A/D A
A/D B
A/D C
A/D D
DIGITAL
DOWNCONVERTR D
STAGE 2
DECIMATION: 1 – 256
DDC A
MUX
A/D B
DDC B
MUX
A/D C
DDC C
MUX
A/D D
DDC D
D/A
M
U
X
M
U
X
M
U
X
M
U
X
MEM W
FIFO
MEM W
FIFO
A/D A
FIFO
A/D B
FIFO
A/D C
FIFO
A/D D
FIFO
256 MB DDR
SDRAM
256 MB DDR
SDRAM
256 MB DDR
SDRAM
Model 714Model 714Model 714Model 714Model 7142-4282-4282-4282-4282-428 PMC/XMC PMC/XMC PMC/XMC PMC/XMC PMC/XMC ●●●●● Model 724 Model 724 Model 724 Model 724 Model 7242-4282-4282-4282-4282-428 6U cPCI 6U cPCI 6U cPCI 6U cPCI 6U cPCI ●●●●● Model 734 Model 734 Model 734 Model 734 Model 7342-4282-4282-4282-4282-428 3U cPCI 3U cPCI 3U cPCI 3U cPCI 3U cPCIModel 7642-428 PCI Model 7642-428 PCI Model 7642-428 PCI Model 7642-428 PCI Model 7642-428 PCI ●●●●● Model 7742-428 F Model 7742-428 F Model 7742-428 F Model 7742-428 F Model 7742-428 Full-length PCIeull-length PCIeull-length PCIeull-length PCIeull-length PCIe
Model 7742-428 Model 7742-428 Model 7742-428 Model 7742-428 Model 7742-428 HalfHalfHalfHalfHalf-length PCIe-length PCIe-length PCIe-length PCIe-length PCIe ●●●●● Model Model Model Model Model 5555534343434342-4282-4282-4282-4282-428 3U 3U 3U 3U 3U VPXVPXVPXVPXVPX
PPPPPentek, Inc.entek, Inc.entek, Inc.entek, Inc.entek, Inc. • One Park Way, Upper Saddle River, NJ 07458 • Tel: (201) 818-5900 • Fax: (201) 818-5904 • Email: [email protected] • http://www.pentek.com
1717171717
Putting FPGAs to Work in Software Radio Systems
PPPPProductsroductsroductsroductsroducts
Model 7150 is a quad, high-speed data convertersuitable for connection as the HF or IF input of acommunications system. It features four 200 MHz,16-bit A/Ds supported by an array of data processingand transport resources idealy matched to the require-ments of high-performance systems. Model 7150 usesthe popular PMC format and supports the emergingVITA 42 XMC standard for switched fabric interfaces.
The Model 7150 architecture includes two Virtex-5FPGAs. The first FPGA is used primarily for signalprocessing while the second one is dedicated to boardinterfaces. All of the board’s data and control paths areaccessible by the FPGAs, enabling factory installedfunctions including data multiplexing, channel selection, datapacking, gating, triggering and SDRAM memory control.
Three independent 512 MB banks of DDR2SDRAM are available to the signal processing FPGA.Built-in memory functions include an A/D data transient
RF In
16
ADS5485
200 MHz
16-bit A/D
RF In
16
ADS5485
200 MHz
16-bit A/D
RF In
16
ADS5485
200 MHz
16-bit A/D
RF
XFORMR
RF In
16
ADS5485
200 MHz
16-bit A/D
RF
XFORMR
RF
XFORMR
RF
XFORMR
TIMING BUS
GENERATOR
Clock/ Sync /
Gate / PPS
XTL
OSC
Sample Clock In
TTL Gate / Trigger
Clock/Sync/
Gate/PPS Bus
TTL Sync / PPS
Sample Clk
Sync Clk
Gate A
Gate B
Sync
PPS
PPS In
PROCESSING FPGA
VIRTEX –5: LX50T, SX50T, SX95T, LX155T or FX100TTo All
Sections
Control/
Status
LOCAL BUS GTP GTP GTP
INTERFACE FPGA
VIRTEX-5: LX30T, SX50T or FX70T
PCI-X BUS
(32 or 64 Bits / 33, 66, 100 or 133 MHz)
P15 XMC
VITA 42.0
(Serial RapidIO,
PCI-Express,
etc.)P4 PMC
FPGA I/O
64
64
LOCAL BUS
x4
x4
x4x4
GTP
PCI-X LVDS GTP
x8
DDR 2
SDRAM
512 MB
1632 32 32
DDR 2
SDRAM
512 MB
DDR 2
SDRAM
512 MB
FLASH
32 MB
Model 7150PMC/XMC
capture mode with pre- and post-triggering. All memorybanks can be easily accessed through the PCI-X interface.
A 9-channel DMA controller and 64 bit / 100 MHzPCI-X interface assures efficient transfers to and from themodule.
Two 4X switched serial ports, implemented with theXilinx Rocket I/O interfaces, connect the FPGA to theXMC connector with two 2.5 GB/sec data links to thecarrier board.
A dual bus system timing generator allows separateclocks, gates and synchronization signals for the A/Dconverters. It also supports large, multichannel applica-tions where the relative phases must be preserved.
Versions of the 7150 are also available as a PCIe full-length board (Models 7750 and 7750D dual density),PCIe half-length board (Model 7850), PCI board (Model7650), 6U cPCI (Models 7250 and 7250D dual density),3U cPCI (Model 7350), and 3U VPX (Model 5350).
Quad 200 MHz 16-bit A/D with VirQuad 200 MHz 16-bit A/D with VirQuad 200 MHz 16-bit A/D with VirQuad 200 MHz 16-bit A/D with VirQuad 200 MHz 16-bit A/D with Virtex-5 FPGAstex-5 FPGAstex-5 FPGAstex-5 FPGAstex-5 FPGAs
Model 7150 PMC/XMC Model 7150 PMC/XMC Model 7150 PMC/XMC Model 7150 PMC/XMC Model 7150 PMC/XMC ●●●●● Model 7250 6U cPCI Model 7250 6U cPCI Model 7250 6U cPCI Model 7250 6U cPCI Model 7250 6U cPCI ●●●●● Model 7350 3U cPCI Model 7350 3U cPCI Model 7350 3U cPCI Model 7350 3U cPCI Model 7350 3U cPCI ●●●●● Model 7650 PCI Model 7650 PCI Model 7650 PCI Model 7650 PCI Model 7650 PCIModel 7750 FModel 7750 FModel 7750 FModel 7750 FModel 7750 Full-length PCIe ull-length PCIe ull-length PCIe ull-length PCIe ull-length PCIe ●●●●● Model 7850 Half-length PCIe Model 7850 Half-length PCIe Model 7850 Half-length PCIe Model 7850 Half-length PCIe Model 7850 Half-length PCIe ●●●●● Model 5350 3U VPX Model 5350 3U VPX Model 5350 3U VPX Model 5350 3U VPX Model 5350 3U VPX
Figure 19
PPPPPentek, Inc.entek, Inc.entek, Inc.entek, Inc.entek, Inc. • One Park Way, Upper Saddle River, NJ 07458 • Tel: (201) 818-5900 • Fax: (201) 818-5904 • Email: [email protected] • http://www.pentek.com
1818181818
Putting FPGAs to Work in Software Radio Systems
Figure 20
The Model 7151 PMC module is a 4-channel high-speed digitizer with a factory-installed 256-channelDDC core. The front end of the module accepts fourRF inputs and transformer-couples them into four16-bit A/D converters running at 200 MHz. Thedigitized output signals pass to a Virtex-5 FPGA forrouting, formatting and DDC signal processing.
The Model 7151 employs an advanced FPGA-baseddigital downconverter engine consisting of four identical64-channel DDC banks. Four independently controllableinput multiplexers select one of the four A/Ds as theinput source for each DDC bank. Each of the 256 DDCshas an independent 32-bit tuning frequency setting.
All of the 64 channels within a bank share a commondecimation setting that can range from 128 to 1024,programmable in steps of 64. For example, with a samplingrate of 200 MHz, the available output bandwidthsrange from 156.25 kHz to 1.25 MHz. Each 64-channelbank can have its own unique decimation setting
supporting as many as four different output bandwidthsfor the board.
The decimating filter for each DDC bank accepts aunique set of user-supplied 18-bit coefficients. The 80%default filters deliver an output bandwidth of 0.8*ƒs/N,where N is the decimation setting. The rejection ofadjacent-band components within the 80% output band-width is better than 100 dB.
Each DDC delivers a complex output streamconsisting of 24-bit I + 24-bit Q samples. Any numberof channels can be enabled within each bank, selectablefrom 0 to 64. Each bank includes an output sampleinterleaver that delivers a channel-multiplexed stream forall enabled channels within the bank.
Versions of the 7151 are also available as a PCIefull-length board (Models 7751 and 7751D dual density),PCIe half-length board (Model 7851), PCI board (Model7651), 6U cPCI (Models 7251 and 7251D dual density),3U cPCI (Model 7351), and 3U VPX (Model 5351).
.
RF
XFORMR
RF
XFORMR
AD6645
105 MHz
14-bit A/D
PCI 2.2
INTERFACE
MUXDIGITAL
DOWNCONVERTR
BANK 1: CH 1 - 64
DECIMATION: 128 - 1024
CH A
RF In
CH B
RF In
Sample
Clock In
Sync Bus
A/D A
A/D BI & Q
PCI BUS
64 bit /
66 MHz
DIGITAL DOWNCONVERTER CORE
XC5VSX95T
RF
XFORMR
RF
XFORMR
ADS5485
200 MHz
16-bit A/D
TIMING BUS
GENERATOR
Clock / Gate /
Sync / PPS
XTAL
OSC
PCI 2.2
INTERFACE
ADS5485
200 MHz
16-bit A/D
RF
XFORMR
CH C
RF In
RF
XFORMR
ADS5485
200 MHz
16-bit A/D
RF
XFORMR
CH D
RF In
RF
XFORMR
ADS5485
200 MHz
16-bit A/D
A/D C
A/D D
DDC BANK 1
MUX
MUX
MUX
M
U
X
M
U
X
M
U
X
M
U
X
A/D A
FIFO
A/D B
FIFO
A/D C
FIFO
A/D D
FIFO
PPS In
TTL In
A/D A
A/D B
A/D C
A/D D
A/D A
A/D B
A/D C
A/D D
A/D A
A/D B
A/D C
A/D D
DIGITAL
DOWNCONVERTR
BANK 2: CH 65 - 128
DECIMATION: 128 - 1024
DIGITAL
DOWNCONVERTR
BANK 3: CH 129 - 192
DECIMATION: 128 - 1024
DIGITAL
DOWNCONVERTR
BANK 4: CH 193 - 256
DECIMATION: 128 - 1024
A/D B
DDC BANK 2
A/D C
DDC BANK 3
A/D D
DDC BANK 4
I & Q
I & Q
I & Q
PPPPProductsroductsroductsroductsroducts
256- 256- 256- 256- 256-Channel DDC Installed Core with Quad 200 MHz, 16-bit A/DChannel DDC Installed Core with Quad 200 MHz, 16-bit A/DChannel DDC Installed Core with Quad 200 MHz, 16-bit A/DChannel DDC Installed Core with Quad 200 MHz, 16-bit A/DChannel DDC Installed Core with Quad 200 MHz, 16-bit A/D
Model 7151 PMC Model 7151 PMC Model 7151 PMC Model 7151 PMC Model 7151 PMC ●●●●● Model 7251 6U cPCI Model 7251 6U cPCI Model 7251 6U cPCI Model 7251 6U cPCI Model 7251 6U cPCI ●●●●● Model 7351 3U cPCI Model 7351 3U cPCI Model 7351 3U cPCI Model 7351 3U cPCI Model 7351 3U cPCI ●●●●● Model 7651 PCI Model 7651 PCI Model 7651 PCI Model 7651 PCI Model 7651 PCIModel 7751 FModel 7751 FModel 7751 FModel 7751 FModel 7751 Full-length PCIe ull-length PCIe ull-length PCIe ull-length PCIe ull-length PCIe ●●●●● Model 7851 Half-length PCIe Model 7851 Half-length PCIe Model 7851 Half-length PCIe Model 7851 Half-length PCIe Model 7851 Half-length PCIe ●●●●● Model 5351 3U VPX Model 5351 3U VPX Model 5351 3U VPX Model 5351 3U VPX Model 5351 3U VPX
PPPPPentek, Inc.entek, Inc.entek, Inc.entek, Inc.entek, Inc. • One Park Way, Upper Saddle River, NJ 07458 • Tel: (201) 818-5900 • Fax: (201) 818-5904 • Email: [email protected] • http://www.pentek.com
1919191919
Putting FPGAs to Work in Software Radio Systems
.
RF
XFORMR
RF
XFORMR
AD6645
105 MHz
14-bit A/D
PCI 2.2
INTERFACE
MUXDIGITAL
DOWNCONVERTR
BANK 1: CH 1 - 8
DEC: 16 - 8192
CH A
RF In
CH B
RF In
Sample
Clock In
Sync Bus
A/D A
A/D BI & Q
PCI BUS
64 bit /
66 MHz
DIGITAL DOWNCONVERTER CORE
XC5VSX95T
RF
XFORMR
RF
XFORMR
ADS5485
200 MHz
16-bit A/D
TIMING BUS
GENERATOR
Clock / Gate /
Sync / PPS
XTAL
OSC
PCI 2.2
INTERFACE
ADS5485
200 MHz
16-bit A/D
RF
XFORMR
CH C
RF In
RF
XFORMR
ADS5485
200 MHz
16-bit A/D
RF
XFORMR
CH D
RF In
RF
XFORMR
ADS5485
200 MHz
16-bit A/D
A/D C
A/D D
BANK 1
MUX
MUX
MUX
M
U
X
M
U
X
M
U
X
M
U
X
A/D A
FIFO
A/D B
FIFO
A/D C
FIFO
A/D D
FIFO
PPS In
TTL In
A/D A
A/D B
A/D C
A/D D
A/D A
A/D B
A/D C
A/D D
A/D A
A/D B
A/D C
A/D D
DIGITAL
DOWNCONVERTR
BANK 2: CH 9 - 16
DEC: 16 - 8192
DIGITAL
DOWNCONVERTR
BANK 3: CH 17 - 24
DEC: 16 - 8192
DIGITAL
DOWNCONVERTR
BANK 4: CH 25 - 32
DEC: 16 - 8192
A/D B
BANK 2
A/D C
BANK 3
A/D D
BANK 4
8 x 4
CHANNEL
SUMMATION
POWER
METER &
THRESHOLD
DETECT
POWER
METER &
THRESHOLD
DETECT
POWER
METER &
THRESHOLD
DETECT
POWER
METER &
THRESHOLD
DETECT
A/D B
I & Q
I & Q
I & Q
SUM
32-32-32-32-32-Channel DDC Installed Core with Quad 200 MHz, 16-bit A/DChannel DDC Installed Core with Quad 200 MHz, 16-bit A/DChannel DDC Installed Core with Quad 200 MHz, 16-bit A/DChannel DDC Installed Core with Quad 200 MHz, 16-bit A/DChannel DDC Installed Core with Quad 200 MHz, 16-bit A/D
Figure 21
The Model 7152 PMC module is a 4-channel high-speed digitizer with a factory-installed 32-channelDDC core. The front end of the module accepts fourRF inputs and transformer-couples them into four16-bit A/D converters running at 200 MHz. Thedigitized output signals pass to a Virtex-5 FPGA forrouting, formatting and DDC signal processing.
The Model 7152 employs an advanced FPGA-baseddigital downconverter engine consisting of four identical8-channel DDC banks. Four independently controllableinput multiplexers select one of the four A/Ds as theinput source for each DDC bank. Each of the 32 DDCshas an independent 32-bit tuning frequency setting.
All of the 8 channels within a bank share a commondecimation setting that can range from 16 to 8192,programmable in steps of 8. For example, with a samplingrate of 200 MHz, the available output bandwidths rangefrom 19.53 kHz to 10.0 MHz. Each 8-channel bank can
have its own unique decimation setting supporting asmany as four different output bandwidths for the board.
The decimating filter for each DDC bank accepts a uniqueset of user-supplied 18-bit coefficients. The 80% default filtersdeliver an output bandwidth of 0.8*ƒs/N, where N is thedecimation setting. The rejection of adjacent-band componentswithin the 80% output band-width is better than 100 dB.
Each DDC delivers a complex output stream consist-ing of 24-bit I + 24-bit Q samples. Any number of channelscan be enabled within each bank, selectable from 0 to 8.Each bank includes an output sample interleaver thatdelivers a channel-multiplexed stream for all enabledchannels within the bank. Gain and phase control, powermeters and threshold detectors are included.
Versions of the 7152 are also available as a PCIe full-length board (Models 7752 and 7752D dual density), PCIehalf-length board (Model 7852), PCI board (Model 7652),6U cPCI (Models 7252 and 7252D dual density), 3U cPCI(Model 7352), and 3U VPX (Model 5352).
PPPPProductsroductsroductsroductsroducts
Model 7152 PMC Model 7152 PMC Model 7152 PMC Model 7152 PMC Model 7152 PMC ●●●●● Model 7252 6U cPCI Model 7252 6U cPCI Model 7252 6U cPCI Model 7252 6U cPCI Model 7252 6U cPCI ●●●●● Model 7352 3U cPCI Model 7352 3U cPCI Model 7352 3U cPCI Model 7352 3U cPCI Model 7352 3U cPCI ●●●●● Model 7652 PCI Model 7652 PCI Model 7652 PCI Model 7652 PCI Model 7652 PCIModel 7752 FModel 7752 FModel 7752 FModel 7752 FModel 7752 Full-length PCIe ull-length PCIe ull-length PCIe ull-length PCIe ull-length PCIe ●●●●● Model 7852 Half-length PCIe Model 7852 Half-length PCIe Model 7852 Half-length PCIe Model 7852 Half-length PCIe Model 7852 Half-length PCIe ●●●●● Model 5352 3U VPX Model 5352 3U VPX Model 5352 3U VPX Model 5352 3U VPX Model 5352 3U VPX
PPPPPentek, Inc.entek, Inc.entek, Inc.entek, Inc.entek, Inc. • One Park Way, Upper Saddle River, NJ 07458 • Tel: (201) 818-5900 • Fax: (201) 818-5904 • Email: [email protected] • http://www.pentek.com
2020202020
Putting FPGAs to Work in Software Radio Systems
PPPPProductsroductsroductsroductsroducts
Figure 22
4-4-4-4-4-Channel DDC and Beamformer Installed Core with four 200 MHz, 16-bit A/DsChannel DDC and Beamformer Installed Core with four 200 MHz, 16-bit A/DsChannel DDC and Beamformer Installed Core with four 200 MHz, 16-bit A/DsChannel DDC and Beamformer Installed Core with four 200 MHz, 16-bit A/DsChannel DDC and Beamformer Installed Core with four 200 MHz, 16-bit A/Ds
Model 7153 PMC/XMC Model 7153 PMC/XMC Model 7153 PMC/XMC Model 7153 PMC/XMC Model 7153 PMC/XMC ●●●●● Model 7253 6U cPCI Model 7253 6U cPCI Model 7253 6U cPCI Model 7253 6U cPCI Model 7253 6U cPCI ●●●●● Model 7353 3U cPCI Model 7353 3U cPCI Model 7353 3U cPCI Model 7353 3U cPCI Model 7353 3U cPCI ●●●●● Model 7653 PCI Model 7653 PCI Model 7653 PCI Model 7653 PCI Model 7653 PCIModel 7753 FModel 7753 FModel 7753 FModel 7753 FModel 7753 Full-length PCIe ull-length PCIe ull-length PCIe ull-length PCIe ull-length PCIe ●●●●● Model 7853 Half-length PCIe Model 7853 Half-length PCIe Model 7853 Half-length PCIe Model 7853 Half-length PCIe Model 7853 Half-length PCIe ●●●●● Model 5353 3U VPX Model 5353 3U VPX Model 5353 3U VPX Model 5353 3U VPX Model 5353 3U VPX
.
RF
XFORMR
RF
XFORMR
AD6645
105 MHz
14-bit A/D
PCI 2.2
INTERFACE
MUXDIGITAL
DOWNCONVERTR
CH 1
DEC: 2 - 256
CH A
RF In
CH B
RF In
Sample
Clock In
Sync Bus
A/D A
A/D BI & Q
PCI BUS
64 bit /
66 MHz
DIGITAL DOWNCONVERTER CORE
XC5VSX50T
RF
XFORMR
RF
XFORMR
ADS5485
200 MHz
16-bit A/D
TIMING BUS
GENERATOR
Clock / Gate /
Sync / PPS
XTAL
OSC
PCI 2.2
INTERFACE
ADS5485
200 MHz
16-bit A/D
RF
XFORMR
CH C
RF In
RF
XFORMR
ADS5485
200 MHz
16-bit A/D
RF
XFORMR
CH D
RF In
RF
XFORMR
ADS5485
200 MHz
16-bit A/D
A/D C
A/D D
DDC 1
MUX
MUX
MUX
M
U
X
M
U
X
M
U
X
M
U
X
A/D A
FIFO
A/D B
FIFO
A/D C
FIFO
A/D D
FIFO
PPS In
TTL In
A/D A
A/D B
A/D C
A/D D
A/D A
A/D B
A/D C
A/D D
A/D A
A/D B
A/D C
A/D D
DIGITAL
DOWNCONVERTR
CH 2
DEC: 2 - 256
DIGITAL
DOWNCONVERTR
CH 3
DEC: 2 - 256
DIGITAL
DOWNCONVERTR
CH 4
DEC: 2 - 256
A/D B
DDC 2
A/D C
DDC 3
A/D D
DDC 4
4
CHANNEL
SUMMATION
POWER
METER &
THRESHOLD
DETECT
POWER
METER &
THRESHOLD
DETECT
POWER
METER &
THRESHOLD
DETECT
POWER
METER &
THRESHOLD
DETECT
A/D B
I & Q
I & Q
I & Q
SUM
Model 7153 is a 4-channel, high-speed software radiomodule designed for processing baseband RF or IF signals.It features four 200 MHz 16-bit A/Ds supported by a high-performance 4-channel DDC (digital downconverter)installed core and a complete set of beamforming functions.With built-in multiboard synchronization and an Auroragigabit serial interface, it provides everything needed forimplementing multichannel beamforming systems.
The Model 7153 employs an advanced FPGA-basedDDC engine consisting of four identical multiband banks.Four independently controllable input multiplexers selectone of the four A/Ds as the input source for each DDCbank. Each of the 4 DDCs has an independent 32-bittuning frequency setting.
All four DDCs have a decimation setting that canrange from 2 to 256, programmable independenly insteps of 1. The decimating filter for each DDC bankaccepts a unique set of user-supplied 18-bit coefficients.The 80% default filters deliver an output bandwidth of
0.8*ƒs/N, where N is the decimation setting. Therejection of adjacent-band components within the 80%output band-width is better than 100 dB.
In addition to the DDCs, the 7153 features a com-plete beamforming subsystem. Each channel containsprogramable I & Q phase and gain adjustments followedby a power meter that continuously measures the individualaverage power output. The time constant of the averaginginterval for each meter is programmable up to 8 ksamples.The power meters present average power measurements foreach channel in easy-to-read registers. Each channel alsoincludes a threshold detector that sends an interrupt tothe processor if the average power level of any DDCfalls below or exceeds a programmable threshold.
Versions of the 7153 are also available as a PCIe full-length board (Models 7753 and 7753D dual density),PCIe half-length board (Model 7853), PCI board (Model7653), 6U cPCI (Models 7253 and 7253D dual density),3U cPCI (Model 7353), and 3U VPX (Model 5353).
PPPPPentek, Inc.entek, Inc.entek, Inc.entek, Inc.entek, Inc. • One Park Way, Upper Saddle River, NJ 07458 • Tel: (201) 818-5900 • Fax: (201) 818-5904 • Email: [email protected] • http://www.pentek.com
2121212121
Putting FPGAs to Work in Software Radio Systems
PPPPProductsroductsroductsroductsroducts
Dual SDR TDual SDR TDual SDR TDual SDR TDual SDR Transceivers with 400 MHz A/D, 800 MHz D/A, and Virransceivers with 400 MHz A/D, 800 MHz D/A, and Virransceivers with 400 MHz A/D, 800 MHz D/A, and Virransceivers with 400 MHz A/D, 800 MHz D/A, and Virransceivers with 400 MHz A/D, 800 MHz D/A, and Virtex-5 FPGAstex-5 FPGAstex-5 FPGAstex-5 FPGAstex-5 FPGAs
Model 7156PMC/XMC
RF In
14
ADS5474
400 MHz
14-bit A/D
RF
XFORMR
RF In
14
ADS5474
400 MHz
14-bit A/D
RF
XFORMR
TIMING BUS
GENERATOR
Clock/ Sync /
Gate / PPS
Sample Clock In
TTL Gate / Trig
A/D Clock Bus
TTL Sync / PPS
Sample Clk
Sync Clk
Gate A
Gate B
Sync
PPS
PPS In
PROCESSING FPGA
VIRTEX –5: LX50T, SX50T, SX95T or FX100TTo All
Sections
Control/
Status
VCXO
GTP GTP GTP
INTERFACE FPGA
VIRTEX-5: LX30T, SX50T or FX70T
PCI-X BUS
(64 Bits
133 MHz)
P15 XMC
VITA 42.x
(PCIe, etc.)
P4 PMC
FPGA
I/O
64
32
4X
4X
4X4X
GTP
PCI-X GTP
1632 32
DDR 2
SDRAM
512 MB
DDR 2
SDRAM
512 MB
FLASH
32 MB
32
LVDS
LVDS
Timing Bus
D/A Clock Bus
32
RF
XFORMR
RF
XFORMR
RF Out RF Out
DIGITAL UPCONVERTER
800 MHz
16-bit D/A
800 MHz
16-bit D/A
64
Figure 23
Model 7156 PMC/XMC Model 7156 PMC/XMC Model 7156 PMC/XMC Model 7156 PMC/XMC Model 7156 PMC/XMC ●●●●● Model 7256 6U cPCI Model 7256 6U cPCI Model 7256 6U cPCI Model 7256 6U cPCI Model 7256 6U cPCI ●●●●● Model 7356 3U cPCI Model 7356 3U cPCI Model 7356 3U cPCI Model 7356 3U cPCI Model 7356 3U cPCI ●●●●● Model 7656 PCI Model 7656 PCI Model 7656 PCI Model 7656 PCI Model 7656 PCIModel 7756 FModel 7756 FModel 7756 FModel 7756 FModel 7756 Full-length PCIe ull-length PCIe ull-length PCIe ull-length PCIe ull-length PCIe ●●●●● Model 7856 Half-length PCIe Model 7856 Half-length PCIe Model 7856 Half-length PCIe Model 7856 Half-length PCIe Model 7856 Half-length PCIe ●●●●● Model 5356 3U VPX Model 5356 3U VPX Model 5356 3U VPX Model 5356 3U VPX Model 5356 3U VPX
Model 7156 is a dual high-speed data convertersuitable for connection as the HF or IF input of acommunications system. It features two 400 MHz 14-bitA/Ds, a DUC with two 800 MHz 16-bit D/As, andtwo Virtex-5 FPGAs. Model 7156 uses the popularPMC format and supports the VITA 42 XMC standardfor switched fabric interfaces.
The Model 7156 architecture includes two Virtex-5FPGAs. The first FPGA is used primarily for signalprocessing while the second one is dedicated to boardinterfaces. All of the board’s data and control paths areaccessible by the FPGAs, enabling factory installedfunctions such as data multiplexing, channel selection, datapacking, gating, triggering and SDRAM memory control.
Two independent 512 MB banks of DDR2 SDRAMare available to the signal processing FPGA. Built-inmemory functions include an A/D data transient capturemode with pre- and post-triggering. All memory bankscan be easily accessed through the PCI-X interface.
A high-performance IP core wideband DDC may befactory-installed in the processing FPGA.
A 5-channel DMA controller and 64 bit/100 MHz PCI-Xinterface assures efficient transfers to and from the module.
Two 4X switched serial ports implemented with theXilinx Rocket I/O interfaces, connect the FPGA to theXMC connector with two 2.5 GB/sec data links to thecarrier board.
A dual bus system timing generator allows forsample clock synchronization to an external systemreference. It also supports large, multichannel appli-cations where the relative phases must be preserved.
Versions of the 7156 are also available as a PCIe full-length board (Models 7756 and 7756D dual density),PCIe half-length board (Model 7856), PCI board(Model 7656), 6U cPCI (Models 7256 and 7256D dualdensity), 3U cPCI (Model 7356), and 3U VPX (Model5356). All these products have similar features.
PPPPPentek, Inc.entek, Inc.entek, Inc.entek, Inc.entek, Inc. • One Park Way, Upper Saddle River, NJ 07458 • Tel: (201) 818-5900 • Fax: (201) 818-5904 • Email: [email protected] • http://www.pentek.com
2222222222
Putting FPGAs to Work in Software Radio Systems
Dual SDR TDual SDR TDual SDR TDual SDR TDual SDR Transceivers with 500 MHz A/D, 800 MHz D/A, and Virransceivers with 500 MHz A/D, 800 MHz D/A, and Virransceivers with 500 MHz A/D, 800 MHz D/A, and Virransceivers with 500 MHz A/D, 800 MHz D/A, and Virransceivers with 500 MHz A/D, 800 MHz D/A, and Virtex-5 FPGAstex-5 FPGAstex-5 FPGAstex-5 FPGAstex-5 FPGAs
Model 7158 PMC/XMC Model 7158 PMC/XMC Model 7158 PMC/XMC Model 7158 PMC/XMC Model 7158 PMC/XMC ●●●●● Model 7258 6U cPCI Model 7258 6U cPCI Model 7258 6U cPCI Model 7258 6U cPCI Model 7258 6U cPCI ●●●●● Model 7358 3U cPCI Model 7358 3U cPCI Model 7358 3U cPCI Model 7358 3U cPCI Model 7358 3U cPCI ● ● ● ● ● Model 7658 PCIModel 7658 PCIModel 7658 PCIModel 7658 PCIModel 7658 PCIModel 7758 FModel 7758 FModel 7758 FModel 7758 FModel 7758 Full-length PCIe ull-length PCIe ull-length PCIe ull-length PCIe ull-length PCIe ●●●●● Model 7858 Half-length PCIe Model 7858 Half-length PCIe Model 7858 Half-length PCIe Model 7858 Half-length PCIe Model 7858 Half-length PCIe ●●●●● Model 5358 3U VPX Model 5358 3U VPX Model 5358 3U VPX Model 5358 3U VPX Model 5358 3U VPX
Figure 24
PPPPProductsroductsroductsroductsroducts
Model 7158PMC/XMC
RF In
14
ADS5463
500 MHz
12-bit A/D
RF
XFORMR
RF In
14
ADS5463
500 MHz
12-bit A/D
RF
XFORMR
TIMING BUS
GENERATOR
Clock/ Sync /
Gate / PPS
Sample Clock /
Reference Clock In
TTL Gate / Trig
A/D Clock Bus
TTL Sync / PPS
Sample Clk
Sync Clk
Gate A
Gate B
Sync
PPS
PPS In
PROCESSING FPGA
VIRTEX –5: LX50T, LX155T, SX50T, SX95T or FX100TTo All
Sections
Control/
Status
VCXO
GTP GTP GTP
INTERFACE FPGA
VIRTEX-5: LX30T, SX50T or FX70T
PCI-X BUS
(64 Bits
100 MHz)
P15 XMC
VITA 42.x
(PCIe, etc.)
P4 PMC
FPGA
I/O
64
32
4X
4X
4X4X
GTP
PCI-X GTP
1632 32
DDR 2
SDRAM
256 MB
DDR 2
SDRAM
256 MB
FLASH
32 MB
32
LVDS
LVDS
Timing Bus
D/A Clock Bus
32
RF
XFORMR
RF
XFORMR
RF Out RF Out
DIGITAL UPCONVERTER
800 MHz
16-bit D/A
800 MHz
16-bit D/A
64
Model 7158 is a dual high-speed data convertersuitable for connection as the HF or IF input of acommunications system. It features two 500 MHz 12-bitA/Ds, a digital upconverter with two 800 MHz 16-bitD/As, and two Virtex-5 FPGAs. Model 7158 uses thepopular PMC format and supports the VITA 42 XMCstandard for switched fabric interfaces.
The Model 7158 architecture includes two Virtex-5FPGAs. The first FPGA is used primarily for signalprocessing while the second one is dedicated to boardinterfaces. All of the board’s data and control paths areaccessible by the FPGAs, enabling factory installedfunctions such as data multiplexing, channel selection, datapacking, gating, triggering and SDRAM memory control.
Two independent 256 MB banks of DDR2 SDRAMare available to the signal processing FPGA. Built-inmemory functions include an A/D data transient capturemode with pre- and post-triggering. All memory bankscan be easily accessed through the PCI-X interface.
A 5-channel DMA controller and 64 bit / 100 MHzPCI-X interface assures efficient transfers to and from themodule.
Two 4X switched serial ports implemented with theXilinx Rocket I/O interfaces, connect the FPGA to theXMC connector with two 2.5 GB/sec data links to thecarrier board.
A dual bus system timing generator allows forsample clock synchronization to an external systemreference. It also supports large, multichannel appli-cations where the relative phases must be preserved.
Versions of the 7158 are also available as a PCIe full-length board (Models 7758 and 7758D dual density),PCIe half-length board (Model 7858), PCI board(Model 7658), 6U cPCI (Models 7258 and 7258D dualdensity), 3U cPCI (Model 7358), and 3U VPX (Model5358). All these products have similar features.
PPPPPentek, Inc.entek, Inc.entek, Inc.entek, Inc.entek, Inc. • One Park Way, Upper Saddle River, NJ 07458 • Tel: (201) 818-5900 • Fax: (201) 818-5904 • Email: [email protected] • http://www.pentek.com
2323232323
Putting FPGAs to Work in Software Radio Systems
Figure 25
PPPPProductsroductsroductsroductsroducts
3-3-3-3-3-Channel 200 MHz A/D, DUC, 2-Channel 200 MHz A/D, DUC, 2-Channel 200 MHz A/D, DUC, 2-Channel 200 MHz A/D, DUC, 2-Channel 200 MHz A/D, DUC, 2-Channel 800 MHz D/A, VirChannel 800 MHz D/A, VirChannel 800 MHz D/A, VirChannel 800 MHz D/A, VirChannel 800 MHz D/A, Virtex-6 FPGAtex-6 FPGAtex-6 FPGAtex-6 FPGAtex-6 FPGA3-3-3-3-3-Channel 200 MHz A/D, DUC, 2-Channel 200 MHz A/D, DUC, 2-Channel 200 MHz A/D, DUC, 2-Channel 200 MHz A/D, DUC, 2-Channel 200 MHz A/D, DUC, 2-Channel 800 MHz D/A, VirChannel 800 MHz D/A, VirChannel 800 MHz D/A, VirChannel 800 MHz D/A, VirChannel 800 MHz D/A, Virtex-6 FPGAtex-6 FPGAtex-6 FPGAtex-6 FPGAtex-6 FPGA
Model 71620XMC
TIMING BUSGENERATOR
Clock / Sync /Gate / PPS
VCXO
200 MHz16-BIT A/D
RFXFORMR
RFXFORMR
16
QDRII+SRAM8 MB
TTL Gate / TrigTTL Sync / PPS
Sample ClkReset
Gate A/DGate D/A
Sync / PPS A/D
Sync / PPS D/A
Timing Bus
200 MHz16-BIT A/D
Sample Clk /Reference Clk In
800 MHz16-BIT D/A
RFXFORMR
321616
RFXFORMR
16 16
ConfigFLASH64 MB
16
QDRII+SRAM8 MB
16
RFXFORMR
800 MHz16-BIT D/A
DIGITALUPCONVERTER
DDR3SDRAM512 MB
DDR3SDRAM512 MB
QDRII+ option 150
16
QDRII+SRAM8 MB
1616
QDRII+SRAM8 MB
16
DDR3SDRAM512 MB
DDR3SDRAM512 MB
RFXFORMR
200 MHz16-BIT A/D
16
Memory Banks 1 & 2 Memory Banks 3 & 4
DDR3 option 155
QDRII+ option 160
DDR3 option 165
RF In RF In RF In RF OutRF Out
D/AClock/Sync
Bus
A/DClock/Sync
Bus
RFXFORMR
40
GigabitSerial I/O
(option 105)
4X
GTX
4X
GTX LVDSGTX
FPGAGPIO
(option 104)
x8 PCIe
8X
P14PMC
P16XMC
P15XMC
VIRTEX-6 FPGA
LX130T, LX240T or SX315T
Model 71620 is a member of the Cobalt® family ofhigh performance XMC modules based on the XilinxVirtex-6 FPGA. A multichannel, high-speed dataconverter, it is suitable for connection to HF or IF portsof a communications or radar system. Its built-in datacapture and playback features offer an ideal turnkey solution.It includes three 200 MHz, 16-bit A/Ds, a DUC withtwo 800 MHz, 16-bit D/As and four banks of memory.In addition to supporting PCI Express Gen. 2 as anative interface, the Model 71620 includes generalpurpose and gigabit serial connectors for application-specific I/O .
The Pentek Cobalt architecture features a Virtex-6FPGA. All of the board’s data and control paths are acces-sible by the FPGA, enabling factory-installed functionsincluding data multiplexing, channel selection, data packing,gating, triggering and memory control. The Cobalt architec-ture organizes the FPGA as a container for data processingapplications where each function exists as an intellec-tual property (IP) module.
Each member of the Cobalt family is deliveredwith factory-installed applications ideally matched to theboard’s analog interfaces. The 71620 factory-installedfunctions include an A/D acquisition and a D/A waveformplayback IP module. In addition, IP modules for eitherDDR3 or QDRII+ memories, a controller for all dataclocking and synchronization functions, a test signalgenerator and a PCIe interface complete the factory-installed functions.
Multiple 71620’s can be driven from the LVPECLbus master, supporting synchronous sampling and syncfunctions across all connected modules. The architecturesupports up to four memory banks which can be configuredwith all QDRII+ SRAM, DDR3 SDRAM, or as combina-tion of two banks of each type of memory.
Versions of the 71620 are also available as a PCIe half-length board (Model 78620), 3U VPX (Models 52620 and53620), AMC (Model 56620), 6U cPCI (Models 72620and 74620 with dual density), and 3U cPCI (Model 73620).
Model 71620 XMC Model 71620 XMC Model 71620 XMC Model 71620 XMC Model 71620 XMC ●●●●● Model 78620 PCIe Model 78620 PCIe Model 78620 PCIe Model 78620 PCIe Model 78620 PCIe ●●●●● Model 52620 3U VPX Model 52620 3U VPX Model 52620 3U VPX Model 52620 3U VPX Model 52620 3U VPX ●●●●● Model 53620 3U VPX Model 53620 3U VPX Model 53620 3U VPX Model 53620 3U VPX Model 53620 3U VPXModel 56620 AMC Model 56620 AMC Model 56620 AMC Model 56620 AMC Model 56620 AMC ● ● ● ● ● Model 72620 6U cPCI Model 72620 6U cPCI Model 72620 6U cPCI Model 72620 6U cPCI Model 72620 6U cPCI ● ● ● ● ● Model 73620 3U cPCI Model 73620 3U cPCI Model 73620 3U cPCI Model 73620 3U cPCI Model 73620 3U cPCI ● ● ● ● ● Model 74620 6U cPCIModel 74620 6U cPCIModel 74620 6U cPCIModel 74620 6U cPCIModel 74620 6U cPCI
PPPPPentek, Inc.entek, Inc.entek, Inc.entek, Inc.entek, Inc. • One Park Way, Upper Saddle River, NJ 07458 • Tel: (201) 818-5900 • Fax: (201) 818-5904 • Email: [email protected] • http://www.pentek.com
2424242424
Putting FPGAs to Work in Software Radio Systems
3-3-3-3-3-Channel 200 MHz A/D, DUC, 2-Channel 200 MHz A/D, DUC, 2-Channel 200 MHz A/D, DUC, 2-Channel 200 MHz A/D, DUC, 2-Channel 200 MHz A/D, DUC, 2-Channel 800 MHz D/A, VirChannel 800 MHz D/A, VirChannel 800 MHz D/A, VirChannel 800 MHz D/A, VirChannel 800 MHz D/A, Virtex-7 FPGAtex-7 FPGAtex-7 FPGAtex-7 FPGAtex-7 FPGA
Figure 26
PPPPProductsroductsroductsroductsroducts
Model 71720XMC
TIMING BUSGENERATOR
Clock / Sync /Gate / PPS
VCXO
200 MHz16-BIT A/D
RFXFORMR
RFXFORMR
TTL Gate / TrigTTL Sync / PPS
Sample ClkReset
Gate A/DGate D/A
Sync / PPS A/D
Sync / PPS D/A
Timing Bus
200 MHz16-BIT A/D
Sample Clk /Reference Clk In
800 MHz16-BIT D/A
RFXFORMR
321616
RFXFORMR
RFXFORMR
800 MHz16-BIT D/A
DIGITALUPCONVERTER
RFXFORMR
200 MHz16-BIT A/D
16
RF In RF In RF In RF OutRF Out
D/AClock/Sync
Bus
A/DClock/Sync
Bus
RFXFORMR
GigabitSerial I/O(option 105)
GTXGTX LVDSGTX
FPGAGPIO(option 104)
PCIeGen. 3 x8
P14PMC
P16XMC
P15XMC
4X4X
VIRTEX-7 FPGA
VX330T or VX690T
CONFIGFLASH1 GB
DDR3SDRAM
1 GB
DDR3SDRAM
1 GB
DDR3SDRAM
1 GB
DDR3SDRAM
1 GB
48 32 32 32 32PCIeGen. 3 x8
FPGAConfigBus
GATEXPRESS PCIeCONFIGURATION
MANAGER
Model 71720 is a member of the Onyx® family ofhigh-performance XMC modules based on the XilinxVirtex-7 FPGA. A multichannel, high-speed data converter,it is suitable for connection to HF or IF ports of acommunications or radar system. Its built-in datacapture and playback features offer an ideal turnkeysolution. It includes three 200 MHz, 16-bit A/Ds, a DUCwith two 800 MHz, 16-bit D/As and four banks ofmemory. In addition to supporting PCI Express Gen. 3 asa native interface, the Model 71720 includes general-purpose and gigabit-serial connectors for application-specific I/O.
The Pentek Onyx architecture features a Virtex-7FPGA. All of the board’s data and control paths areaccessible by the FPGA, enabling factory-installedfunctions including data multiplexing, channel selection,data packing, gating, triggering and memory control. TheCobalt architecture organizes the FPGA as a container fordata processing applications where each function existsas an intellectual property (IP) module.
Each member of the Onyx family is delivered withfactory-installed applications ideally matched to the board’sanalog interfaces. The 71720 factory-installed functionsinclude three A/D acquisition and a D/A waveformplayback IP modules for simplifying data capture anddata transfer. IP modules for DDR3 SDRAM memories, acontroller for all data clocking and synchronization func-tions, a test signal generator, and a PCIe interfacecomplete the factory-installed functions.
Multiple 71720’s can be driven from the LVPECLbus master, supporting synchronous sampling and syncfunctions across all connected modules.
Versions of the 71720 are also available as a PCIe half-length board (Model 78720), 3U VPX (Models 52720 and53720), AMC (Model 56720), 6U cPCI (Models 72720and 74720 with dual density), and 3U cPCI (Model 73720).
GateXpress® is a sophisticated configurationmanager for loading and reloading the Virtex-7 FPGA.More information is available in the next page.
Model 71720 XMC Model 71720 XMC Model 71720 XMC Model 71720 XMC Model 71720 XMC ●●●●● Model 78720 PCIe Model 78720 PCIe Model 78720 PCIe Model 78720 PCIe Model 78720 PCIe ●●●●● Model 52720 3U VPX Model 52720 3U VPX Model 52720 3U VPX Model 52720 3U VPX Model 52720 3U VPX ●●●●● Model 53720 3U VPX Model 53720 3U VPX Model 53720 3U VPX Model 53720 3U VPX Model 53720 3U VPXModel 56720 AMC Model 56720 AMC Model 56720 AMC Model 56720 AMC Model 56720 AMC ● ● ● ● ● Model 72720 6U cPCI Model 72720 6U cPCI Model 72720 6U cPCI Model 72720 6U cPCI Model 72720 6U cPCI ● ● ● ● ● Model 73720 3U cPCI Model 73720 3U cPCI Model 73720 3U cPCI Model 73720 3U cPCI Model 73720 3U cPCI ● ● ● ● ● Model 74720 6U cPCIModel 74720 6U cPCIModel 74720 6U cPCIModel 74720 6U cPCIModel 74720 6U cPCI
PPPPPentek, Inc.entek, Inc.entek, Inc.entek, Inc.entek, Inc. • One Park Way, Upper Saddle River, NJ 07458 • Tel: (201) 818-5900 • Fax: (201) 818-5904 • Email: [email protected] • http://www.pentek.com
2525252525
Putting FPGAs to Work in Software Radio Systems
Figure 27
PPPPProductsroductsroductsroductsroducts
GateXpress for FPGAGateXpress for FPGAGateXpress for FPGAGateXpress for FPGAGateXpress for FPGA-PCIe Configuration Management-PCIe Configuration Management-PCIe Configuration Management-PCIe Configuration Management-PCIe Configuration Management
ONYX: VIRTEX-7 FPGA
VX330T or VX690T
40 Cobalt48 Onyx
4X
GTX
4X8X
GTX LVDS
Option-104FPGAGPIO
Option-105SerialI/O
P14PMC
P16XMC
GTX
P15XMC
CONFIGFLASH1 GB
PCIe
FPGAConfigBus
GATEXPRESS PCIeCONFIGURATION
MANAGER
32 32 32 32
DDR3SDRAM
1 GB
DDR3SDRAM
1 GB
DDR3SDRAM
1 GB
DDR3SDRAM
1 GB
The Onyx architecture includes GateXpress®, a sophisti-cated FPGA-PCIe configuration manager for loading andreloading the FPGA. At power up, GateXpress immediatelypresents a PCIe target for the host computer to discover,effectively giving the FPGA time to load from FLASH.This is especially important for larger FPGAs where theloading times can exceed the PCIe discovery window,typically 100 msec on most PCs.
The board’s configuration FLASH can hold fourFPGA images. Images can be factory-installed IP orcustom IP created by the user, and programmed into theFLASH via JTAG using Xilinx iMPACT or through theboard’s PCIe interface. At power up the user can choosewhich image will load based on a hardware switch setting.
Once booted, GateXpress allows the user threeoptions for dynamically reconfiguring the FPGA with anew IP image. The first is the option to load an alternateimage from FLASH through software control. The userselects the desired image and issues a reload command.
The second option is for applications where theFPGA image must be loaded directly through the PCIeinterface. This is important in security situations wherethere can be no latent user image left in nonvolatilememory when power is removed. In applications wherethe FPGA IP may need to change many times duringthe course of a mission, images can be stored on the hostcomputer and loaded through PCIe as needed.
The third option, typically used during development,allows the user to directly load the FPGA through JTAGusing Xilinx iMPACT.
In all three FPGA loading scenarios, GateXpresshandles the hardware negotiation simplifying and stream-lining the loading task. In addition, GateXpress preservesthe PCIe configuration space allowing dynamic FPGAreconfiguration without needing to reset the hostcomputer to rediscover the board. After the reload, thehost simply continues to see the board with the expecteddevice ID.
PPPPPentek, Inc.entek, Inc.entek, Inc.entek, Inc.entek, Inc. • One Park Way, Upper Saddle River, NJ 07458 • Tel: (201) 818-5900 • Fax: (201) 818-5904 • Email: [email protected] • http://www.pentek.com
2626262626
Putting FPGAs to Work in Software Radio Systems
PPPPProductsroductsroductsroductsroducts
PCIe INTERFACE
fromA/D Ch 1
fromA/D Ch 2
fromA/D Ch 3
PCIe
8Xfrom previousboard
to nextboard
sum out
sum in
VIRTEX-6 FPGA DATAFLOW DETAILVIRTEX-6 FPGA DATAFLOW DETAIL
A/DACQUISITIONIP MODULE 1
A/DACQUISITIONIP MODULE 2
A/DACQUISITIONIP MODULE 3
LINKED-LISTDMA ENGINE
LINKED-LISTDMA ENGINE
LINKED-LISTDMA ENGINE
METADATAGENERATOR
METADATAGENERATOR
METADATAGENERATORto
MemBank 1
MEMORYCONTROL
toMem
Bank 2
MEMORYCONTROL
toMem
Bank 3
MEMORYCONTROL
MUX MUX MUX
DATA PACKING &FLOW CONTROL
DATA PACKING &FLOW CONTROL
DATA PACKING &FLOW CONTROL
AURORAGIGABITSERIAL
INTERFACE
INPUT MULTIPLEXER
�
SUMMER
DDCDEC: 2 TO 65536
DDCDEC: 2 TO 65536
BEAMFORMER CORE
DDCDEC: 2 TO 65536
POWERMETER &
THRESHOLDDETECT
POWERMETER &
THRESHOLDDETECT
POWERMETER &
THRESHOLDDETECT
MUXDDC CORE DDC CORE DDC CORE
D/AWAVEFORMPLAYBACKIP MODULE
toD/A
D/A loopbackTEST
SIGNALGENERATOR
MUX
LINKED-LISTDMA ENGINE
toMem
Bank 4
MEMORYCONTROL
DATA PACKING &FLOW CONTROL
DATA UNPACKING& FLOW CONTROL
INTERPOLATOR2 TO 65536
IP CORE
8X4X 4X
3-3-3-3-3-Channel 200 MHz A/D, DUC, 2-Channel 200 MHz A/D, DUC, 2-Channel 200 MHz A/D, DUC, 2-Channel 200 MHz A/D, DUC, 2-Channel 200 MHz A/D, DUC, 2-Channel 800 MHz D/A, Installed IP Cores, VirChannel 800 MHz D/A, Installed IP Cores, VirChannel 800 MHz D/A, Installed IP Cores, VirChannel 800 MHz D/A, Installed IP Cores, VirChannel 800 MHz D/A, Installed IP Cores, Virtex-6 FPGAtex-6 FPGAtex-6 FPGAtex-6 FPGAtex-6 FPGA
Figure 28
Model 71621XMC
Model 71621 is a member of the Cobalt family of highperformance XMC modules based on the Xilinx Virtex-6FPGA. A multichannel, high-speed data converter based onthe Model 71620 described in the previous page, it includesfactory-installed IP cores to enhance the performance of the71620 and address the requirements of many applications.
The 71621 factory-installed functions include three A/Dacquisition and one D/A waveform playback IP modules.Each of the three acquisition IP modules contains apowerful, programmable DDC IP core. The waveformplayback IP module contains an interpolation IP core, idealfor matching playback rates to the data and decimationrates of the acquisition modules. IP modules for eitherDDR3 or QDRII+ memories, a controller for all dataclocking and synchronization functions, a test signalgenerator, an Aurora gigabit serial interface, and a PCIeinterface complete the factory-installed functions.
Each DDC has an independent 32-bit tuningfrequency setting that ranges from DC to ƒs, where ƒs is
the A/D sampling frequency. Each DDC can have itsown unique decimation setting, supporting as many asthree different output bandwidths for the board. Decima-tions can be programmed from 2 to 65,536 providing awide range to satisfy most applications.
The 71621 also features a complete beamformingsubsystem. Each DDC core contains programable I & Qphase and gain adjustments followed by a power meterthat continuously measures the individual average poweroutput. The power meters present average power measure-ments for each DDC core output in easy-to-read registers. Athreshold detector automatically sends an interrupt tothe processor if the average power level of any DDCcore falls below or exceeds a programmable threshold.
Versions of the 71621 are also available as a PCIe half-length board (Model 78621), 3U VPX (Models 52621 and53621), AMC (Model 56621), 6U cPCI (Models 72621and 74621 with dual density), and 3U cPCI (Model73621).
Model 71621 XMC Model 71621 XMC Model 71621 XMC Model 71621 XMC Model 71621 XMC ●●●●● Model 78621 PCIe Model 78621 PCIe Model 78621 PCIe Model 78621 PCIe Model 78621 PCIe ●●●●● Model 52621 3U VPX Model 52621 3U VPX Model 52621 3U VPX Model 52621 3U VPX Model 52621 3U VPX ●●●●● Model 53621 3U VPX Model 53621 3U VPX Model 53621 3U VPX Model 53621 3U VPX Model 53621 3U VPXModel 56621 AMC Model 56621 AMC Model 56621 AMC Model 56621 AMC Model 56621 AMC ●●●●● Model 72621 6U cPCI Model 72621 6U cPCI Model 72621 6U cPCI Model 72621 6U cPCI Model 72621 6U cPCI ● ● ● ● ● Model 73621 3U cPCI Model 73621 3U cPCI Model 73621 3U cPCI Model 73621 3U cPCI Model 73621 3U cPCI ● ● ● ● ● Model 74621 6U cPCIModel 74621 6U cPCIModel 74621 6U cPCIModel 74621 6U cPCIModel 74621 6U cPCI
PPPPPentek, Inc.entek, Inc.entek, Inc.entek, Inc.entek, Inc. • One Park Way, Upper Saddle River, NJ 07458 • Tel: (201) 818-5900 • Fax: (201) 818-5904 • Email: [email protected] • http://www.pentek.com
2727272727
Putting FPGAs to Work in Software Radio Systems
PPPPProductsroductsroductsroductsroducts
TIMING BUSGENERATOR
Clock / Sync /Gate / PPS D/A Clock/Sync Bus
VCXO
16
QDRII+SRAM8 MB
Gate InSync In
A/D Sync Bus
Sample Clk /Reference Clk In
A/D Clock/Sync Bus
16
16 16
ConfigFLASH64 MB
16
QDRII+SRAM8 MB
16
RFXFORMR
RF Out
RFXFORMR
DDR3SDRAM512 MB
DDR3SDRAM512 MB
QDRII+ option 150
16 1616 16
DDR3SDRAM512 MB
DDR3SDRAM512 MB
RF In
RFXFORMR
1 GHz12-BIT A/D
12
Memory Banks 1 & 2 Memory Banks 3 & 4DDR3 option 155 DDR3 option 165
Gate InSync In
D/A Sync Bus
1 GHz16-BIT D/A
TTLPPS/Gate/Sync
40 4X
GTX
4X
GTXLVDS GTX
OptionalFPGAGPIO
OptionalSerialI/O
8X
68-pinHeader
x8 PCI Express
Dual 4XSerialConn
x8 PCIe
VIRTEX-6 FPGA
LX130T, LX240T or SX315T
1 GHz A/D, 1 GHz D/A, Vir1 GHz A/D, 1 GHz D/A, Vir1 GHz A/D, 1 GHz D/A, Vir1 GHz A/D, 1 GHz D/A, Vir1 GHz A/D, 1 GHz D/A, Virtex-6 FPGAtex-6 FPGAtex-6 FPGAtex-6 FPGAtex-6 FPGA
Figure 29
Model 78630x8 PCIe
Model 78630 is a member of the Cobalt family of highperformance PCIe boards based on the Xilinx Virtex-6FPGA. A high-speed data converter, it is suitable forconnection to HF or IF ports of a communications or radarsystem. Its built-in data capture and playback features offeran ideal turnkey solution as well as a platform for develop-ing and deploying custom FPGA processing IP. It includes1 GHz, 12-bit A/D, 1 GHz, 16-bit D/A converters andfour banks of memory. In addition to supporting PCIExpress Gen. 2 as a native interface, the Model 78630includes optional general purpose and gigabit serial cardconnectors for application- specific I/O protocols.
The Pentek Cobalt architecture features a Virtex-6FPGA. All of the board’s data and control paths are acces-sible by the FPGA, enabling factory-installed functionsincluding data multiplexing, channel selection, data packing,gating, triggering and memory control. The Cobalt architec-ture organizes the FPGA as a container for data process-ing applications where each function exists as an intellec-tual property (IP) module.
Each member of the Cobalt family is deliveredwith factory-installed applications ideally matched to theboard’s analog interfaces. The 78630 factory-installedfunctions include an A/D acquisition and a D/A waveformplayback IP module. In addition, IP modules for eitherDDR3 or QDRII+ memories, a controller for all dataclocking and synchronization functions, a test signalgenerator and a PCIe interface complete the factory-installed functions.
Multiple 78630’s can be driven from the LVPECLbus master, supporting synchronous sampling and syncfunctions across all connected boards. The architecturesupports up to four memory banks which can be configuredwith all QDRII+ SRAM, DDR3 SDRAM, or as combina-tion of two banks of each type of memory.
Versions of the 78630 are also available as an XMCmodule (Model 71630), 3U VPX (Models 52630 and53630), AMC (Model 56630), 6U cPCI (Models 72630and 74630 with dual density), and 3U cPCI (Model 73630).
Model 78630 PCIe Model 78630 PCIe Model 78630 PCIe Model 78630 PCIe Model 78630 PCIe ● ● ● ● ● Model 71630 XMC Model 71630 XMC Model 71630 XMC Model 71630 XMC Model 71630 XMC ●●●●● Model 52630 3U VPX Model 52630 3U VPX Model 52630 3U VPX Model 52630 3U VPX Model 52630 3U VPX ● ● ● ● ● Model 53630 3U VPXModel 53630 3U VPXModel 53630 3U VPXModel 53630 3U VPXModel 53630 3U VPXModel 56630 AMC Model 56630 AMC Model 56630 AMC Model 56630 AMC Model 56630 AMC ●●●●● Model 72630 6U cPCI Model 72630 6U cPCI Model 72630 6U cPCI Model 72630 6U cPCI Model 72630 6U cPCI ● ● ● ● ● Model 73630 3U cPCI Model 73630 3U cPCI Model 73630 3U cPCI Model 73630 3U cPCI Model 73630 3U cPCI ● ● ● ● ● Model 74630 6U cPCIModel 74630 6U cPCIModel 74630 6U cPCIModel 74630 6U cPCIModel 74630 6U cPCI
PPPPPentek, Inc.entek, Inc.entek, Inc.entek, Inc.entek, Inc. • One Park Way, Upper Saddle River, NJ 07458 • Tel: (201) 818-5900 • Fax: (201) 818-5904 • Email: [email protected] • http://www.pentek.com
2828282828
Putting FPGAs to Work in Software Radio Systems
PPPPProductsroductsroductsroductsroducts
Figure 30
TIMING BUSGENERATOR
Clock / Sync /Gate / PPS
32
Gate In
Reset In
Sync Bus
Sample Clk
A/D Clock/Sync Bus
16
ConfigFLASH64 MB
32
DDR3SDRAM512 MB
DDR3SDRAM512 MB
3232
DDR3SDRAM512 MB
DDR3SDRAM512 MB
RF In
RFXFORMR
3.6 GHz (1 Channel)or
1.8 GHz (2 Channel)12-bit A/D
12
Memory Banks 1 & 2 Memory Banks 3 & 4
TTLPPS/Gate/Sync
RF In
RFXFORMR
Ref Clk In
Ref Clk Out 12
Block Diagram, Model 72640
Model 74640 doubles all resources
except the PCI-to-PCI Bridge
VIRTEX-6 FPGA
MODEL 73640
INTERFACES ONLY
PCIeto PCI
BRIDGE
40
LVDS GTX
OptionalFPGA I/O(Option -104)
PCI/PCI-X BUS32-bit, 33/66 MHz
J2
PCIeto PCI
BRIDGE
PCIto PCI
BRIDGE
From/To OtherXMC Module ofMODEL 74640
GTX
x4 PCIe
PCI/PCI-X BUS32/64-bit, 33/66 MHz
4X40
LVDS
OptionalFPGA I/O(Option -104)
J3
VIRTEX-6 FPGA
LX130T, LX240T or SX315T
Model 74640Dual Density
Model 73640Single Density
1- or 2-1- or 2-1- or 2-1- or 2-1- or 2-Channel 3.6 GHz and 2- or 4-Channel 3.6 GHz and 2- or 4-Channel 3.6 GHz and 2- or 4-Channel 3.6 GHz and 2- or 4-Channel 3.6 GHz and 2- or 4-Channel 1.8 GHz, 12-bit A/D, VirChannel 1.8 GHz, 12-bit A/D, VirChannel 1.8 GHz, 12-bit A/D, VirChannel 1.8 GHz, 12-bit A/D, VirChannel 1.8 GHz, 12-bit A/D, Virtex-6 FPGAtex-6 FPGAtex-6 FPGAtex-6 FPGAtex-6 FPGA
Models 72640, 73640 and 74640 are membersof the Cobalt family of high performance CompactPCIboards based on the Xilinx Virtex-6 FPGA. Theyconsist of one or two Model 71640 XMC modulesmounted on a cPCI carrier board. These models include oneor two 3.6 GHz, 12-bit A/D converters and four or eightbanks of memory.
The Pentek Cobalt architecture features a Virtex-6FPGA. All of the board’s data and control paths areaccessible by the FPGA, enabling factory-installedfunctions including data multiplexing, channel selec-tion, data packing, gating, triggering and memory control.The Cobalt architecture organizes the FPGA as a containerfor data processing applications where each function existsas an intellectual property (IP) module.
Each member of the Cobalt family is deliveredwith factory-installed applications ideally matched to theboard’s analog interfaces. The factory-installed functions ofthese models include one or two A/D acquisition IP
modules. In addition, IP modules for DDR3 memories,controllers for all data clocking and synchronizationfunctions, a test signal generator and a PCIe interfacecomplete the factory-installed functions.
The front end accepts analog HF or IF inputs ona pair of front panel SSMC connectors with transformercoupling into a Texas Instruments ADC12D1800 12-bitA/D. The converter operates in single-channel inter-leaved mode with a sampling rate of 3.6 GHz and aninput bandwidth of 1.75 GHz; or, in dual-channel modewith a sampling rate of 1.8 GHz and input bandwidth of2.8 GHz. The ADC12D1800 provides a programmable15-bit gain adjustment allowing these models to have a fullscale input range of +2 dBm to +4 dBm.
Model 72640 is a 6U cPCI board, while Model 73640is a 3U cPCI board; Model 74640 is a dual density 6UcPCI board. Also available is an XMC module (Model71640), PCIe half-length board (Model 78640), 3U VPX(Models 52640 and 53640), and AMC (Model 56640).
Model 72640 6U cPCI Model 72640 6U cPCI Model 72640 6U cPCI Model 72640 6U cPCI Model 72640 6U cPCI ● ● ● ● ● Model 73640 3U cPCI Model 73640 3U cPCI Model 73640 3U cPCI Model 73640 3U cPCI Model 73640 3U cPCI ● ● ● ● ● Model 74640 6U cPCI Model 74640 6U cPCI Model 74640 6U cPCI Model 74640 6U cPCI Model 74640 6U cPCI ● ● ● ● ● Model 71640 XMCModel 71640 XMCModel 71640 XMCModel 71640 XMCModel 71640 XMCModel 78640 PCIe Model 78640 PCIe Model 78640 PCIe Model 78640 PCIe Model 78640 PCIe ●●●●● Model 52640 3U VPX Model 52640 3U VPX Model 52640 3U VPX Model 52640 3U VPX Model 52640 3U VPX ●●●●● Model 53640 3U VPX Model 53640 3U VPX Model 53640 3U VPX Model 53640 3U VPX Model 53640 3U VPX ●●●●● Model 56640 AMCModel 56640 AMCModel 56640 AMCModel 56640 AMCModel 56640 AMC
PPPPPentek, Inc.entek, Inc.entek, Inc.entek, Inc.entek, Inc. • One Park Way, Upper Saddle River, NJ 07458 • Tel: (201) 818-5900 • Fax: (201) 818-5904 • Email: [email protected] • http://www.pentek.com
2929292929
Putting FPGAs to Work in Software Radio Systems
Figure 31
PPPPProductsroductsroductsroductsroducts
1- or 2-1- or 2-1- or 2-1- or 2-1- or 2-Channel 3.6 GHz and 2- or 4-Channel 3.6 GHz and 2- or 4-Channel 3.6 GHz and 2- or 4-Channel 3.6 GHz and 2- or 4-Channel 3.6 GHz and 2- or 4-Channel 1.8 GHz, 12-bit A/D, WChannel 1.8 GHz, 12-bit A/D, WChannel 1.8 GHz, 12-bit A/D, WChannel 1.8 GHz, 12-bit A/D, WChannel 1.8 GHz, 12-bit A/D, Wideband DDC, Virideband DDC, Virideband DDC, Virideband DDC, Virideband DDC, Virtex-6 FPGAtex-6 FPGAtex-6 FPGAtex-6 FPGAtex-6 FPGA
PCIe INTERFACE
fromA/D
PCIeFPGAGPIO
VIRTEX-6 FPGA DATAFLOW DETAILVIRTEX-6 FPGA DATAFLOW DETAIL
A/DACQUISITIONIP MODULE
MUX
INPUT MULTIPLEXERTEST
SIGNALGENERATOR
MEMORYCONTROLLER
8X 40toMem
Bank 2
toMem
Bank 1
fromA/D
LINKED-LISTDMA ENGINE
toMEM
CONTROL
MEMORYCONTROLLER
toMem
Bank 4
toMem
Bank 3
*Two channel mode shown.Programmable decimation of 8, 16 or 32
available in one channel mode.
DDC*DEC: 4, 8 or 16
POWERMETER &
THRESHOLDDETECT
DDC CORE
DATA PACKING &FLOW CONTROL
A/DACQUISITIONIP MODULE
MUX
LINKED-LISTDMA ENGINE
DDC*DEC: 4, 8 or 16
POWERMETER &
THRESHOLDDETECT
DDC CORE
DATA PACKING &FLOW CONTROL
METADATAGENERATOR
METADATAGENERATOR
Model 56641AMC
In single-channel mode, decimation can be programmedto 8x, 16x or 32x. In dual-channel mode, both channelsshare the same decimation rate, programmable to 4x, 8xor 16x.
The decimating filter for each DDC accepts aunique set of user-supplied 16-bit coefficients. The 80%default filters deliver an output bandwidth of 0.8*ƒs/N,where N is the decimation setting. The rejection ofadjacent-band components within the 80% outputbandwidth is better than 100 dB. Each DDC delivers acomplex output stream consisting of 16-bit I + 16-bit Qsamples at a rate of ƒs/N.
Versions of the 56641 are also available as an XMCmodule (Model 71641), PCIe half-length board (Model78641), 3U VPX (Models 52641 and 53641), 6U cPCI(Models 72641 and 74641 dual density), and 3U cPCI(Model 73641).
Model 56621 is a member of the Cobalt family of highperformance AMC modules based on the Xilinx Virtex-6FPGA. A very high-speed data converter based on the Model56640 described in the previous page, it includes additionalfactory-installed IP cores to enhance the performance of the56640 and address the requirements of many applications.
The 56641 factory-installed functions include an A/Dacquisition IP module. In addition, within the FPGA isa powerful factory-installed DDC IP core. The coresupports a single-channel mode, accepting data samplesfrom the A/D at the full 3.6 GHz rate. Additionally, adual-channel mode supports the A/D’s 1.8 GHz two-channel operation .
In dual-channel mode, each DDC has an indepen-dent 32-bit tuning frequency setting that ranges fromDC to ƒs, where ƒs is the A/D sampling frequency.
Model 56641 AMC Model 56641 AMC Model 56641 AMC Model 56641 AMC Model 56641 AMC ●●●●● Model 71641 XMC Model 71641 XMC Model 71641 XMC Model 71641 XMC Model 71641 XMC ●●●●● Model 78641 PCIe Model 78641 PCIe Model 78641 PCIe Model 78641 PCIe Model 78641 PCIe ●●●●● Model 52641 3U VPX Model 52641 3U VPX Model 52641 3U VPX Model 52641 3U VPX Model 52641 3U VPXModel 53641 3U VPX Model 53641 3U VPX Model 53641 3U VPX Model 53641 3U VPX Model 53641 3U VPX ●●●●● Model 72641 6U cPCI Model 72641 6U cPCI Model 72641 6U cPCI Model 72641 6U cPCI Model 72641 6U cPCI ● ● ● ● ● Model 73641 3U cPCI Model 73641 3U cPCI Model 73641 3U cPCI Model 73641 3U cPCI Model 73641 3U cPCI ● ● ● ● ● Model 74641 6U cPCIModel 74641 6U cPCIModel 74641 6U cPCIModel 74641 6U cPCIModel 74641 6U cPCI
PPPPPentek, Inc.entek, Inc.entek, Inc.entek, Inc.entek, Inc. • One Park Way, Upper Saddle River, NJ 07458 • Tel: (201) 818-5900 • Fax: (201) 818-5904 • Email: [email protected] • http://www.pentek.com
3030303030
Putting FPGAs to Work in Software Radio Systems
PPPPProductsroductsroductsroductsroducts
2-2-2-2-2-Channel 500 MHz A/D, DUC, 2-Channel 500 MHz A/D, DUC, 2-Channel 500 MHz A/D, DUC, 2-Channel 500 MHz A/D, DUC, 2-Channel 500 MHz A/D, DUC, 2-Channel 800 MHz D/A, VirChannel 800 MHz D/A, VirChannel 800 MHz D/A, VirChannel 800 MHz D/A, VirChannel 800 MHz D/A, Virtex-6 FPGAtex-6 FPGAtex-6 FPGAtex-6 FPGAtex-6 FPGA
Figure 32
2-2-2-2-2-Channel 500 MHz A/D, DUC, 2-Channel 500 MHz A/D, DUC, 2-Channel 500 MHz A/D, DUC, 2-Channel 500 MHz A/D, DUC, 2-Channel 500 MHz A/D, DUC, 2-Channel 800 MHz D/A, VirChannel 800 MHz D/A, VirChannel 800 MHz D/A, VirChannel 800 MHz D/A, VirChannel 800 MHz D/A, Virtex-6 FPGAtex-6 FPGAtex-6 FPGAtex-6 FPGAtex-6 FPGA
Model 52650 3U VPX Model 52650 3U VPX Model 52650 3U VPX Model 52650 3U VPX Model 52650 3U VPX ●●●●● Model 53650 3U VPX Model 53650 3U VPX Model 53650 3U VPX Model 53650 3U VPX Model 53650 3U VPX ●●●●● Model 71650 XMC Model 71650 XMC Model 71650 XMC Model 71650 XMC Model 71650 XMC ● ● ● ● ● Model 78650 PCIe Model 78650 PCIe Model 78650 PCIe Model 78650 PCIe Model 78650 PCIe ●●●●●
Model 56650 AMC Model 56650 AMC Model 56650 AMC Model 56650 AMC Model 56650 AMC ●●●●● Model 72650 6U cPCI Model 72650 6U cPCI Model 72650 6U cPCI Model 72650 6U cPCI Model 72650 6U cPCI ● ● ● ● ● Model 73650 3U cPCI Model 73650 3U cPCI Model 73650 3U cPCI Model 73650 3U cPCI Model 73650 3U cPCI ●●●●● Model 74650 6U cPCI Model 74650 6U cPCI Model 74650 6U cPCI Model 74650 6U cPCI Model 74650 6U cPCI
Model 52650 3UVPX COTS and
rugged
D/AClock/Sync
Bus
VCXO
500 MHz12-BIT A/D
RF In
RFXFORMR
RF In
RFXFORMR
16
QDRII+SRAM8 MB
TTL Gate / Trig
TTL Sync / PPS
Sample Clk
Reset
Gate A/D
Gate D/A
Sync / PPS A/D
Sync / PPS D/A
Timing Bus
500 MHz12-BIT A/D
Sample Clk /Reference Clk In A/D
Clock/SyncBus 800 MHz
16-BIT D/A
RFXFORMR
321616
RF Out
RFXFORMR
16 16
ConfigFLASH64 MB
16
QDRII+SRAM8 MB
16
RFXFORMR
RF Out
RFXFORMR
800 MHz16-BIT D/A
DIGITALUPCONVERTER
DDR3SDRAM512 MB
DDR3SDRAM512 MB
QDRII+ option 150
16
QDRII+SRAM8 MB
1616
QDRII+SRAM8 MB
16
DDR3SDRAM512 MB
DDR3SDRAM512 MB
Memory Banks 1 & 2 Memory Banks 3 & 4
DDR3 option 155
QDRII+ option 160
DDR3 option 165
TTLPPS/Gate/Sync
TIMING BUSGENERATOR
Clock / Sync /Gate / PPS
LVDS
40
FPGAI/O
Option -104
VPX BACKPLANE
VPX-P2 VPX-P1
VIRTEX-6 FPGA
LX130T, LX240T or SX315T
GTXGTXGTX
GigabitSerial I/O
Option -105
4X4X 4X
x4PCIe
Model 52650 is a member of the Cobalt family ofhigh performance 3U VPX boards based on the XilinxVirtex-6 FPGA. A two-channel, high-speed dataconverter, it is suitable for connection to HF or IF portsof a communications or radar system. Its built-in datacapture and playback features offer an ideal turnkeysolution as well as a platform for developing and deployingcustom FPGA processing IP. The 52650 includes two500 MHz 12-bit A/Ds, one DUC, two 800 MHz 16-bitD/As and four banks of memory. It features built-insupport for PCI Express over the 3U VPX backplane.
The Pentek Cobalt architecture features a Virtex-6FPGA. All of the board’s data and control paths are acces-sible by the FPGA, enabling factory-installed functionsincluding data multiplexing, channel selection, data packing,gating, triggering and memory control. The Cobalt architec-ture organizes the FPGA as a container for data process-ing applications where each function exists as an intellec-tual property (IP) module.
Each member of the Cobalt family is deliveredwith factory-installed applications ideally matched to theboard’s analog interfaces. The 52650 factory-installedfunctions include an A/D acquisition and a D/A waveformplayback IP module. In addition, IP modules for eitherDDR3 or QDRII+ memories, a controller for all dataclocking and synchronization functions, a test signalgenerator and a PCIe interface complete the factory-installed functions.
Multiple 52650’s can be driven from the LVPECLbus master, supporting synchronous sampling and syncfunctions across all connected boards. The architecturesupports up to four memory banks which can be configuredwith all QDRII+ SRAM, DDR3 SDRAM, or as combina-tion of two banks of each type of memory.
Versions of the 52650 are also available as a 3U VPX(Model 53650), XMC module (Model 71650), as a PCIeboard (Model 78650), AMC (Model 56650), 6U cPCI (Models72650 and 74650 dual density), and 3U cPCI (Model 73650).
This Model is alsoavailable with 400 MHz,
14-bit A/Ds
PPPPPentek, Inc.entek, Inc.entek, Inc.entek, Inc.entek, Inc. • One Park Way, Upper Saddle River, NJ 07458 • Tel: (201) 818-5900 • Fax: (201) 818-5904 • Email: [email protected] • http://www.pentek.com
3131313131
Putting FPGAs to Work in Software Radio Systems
PPPPProductsroductsroductsroductsroducts
2- or 4-2- or 4-2- or 4-2- or 4-2- or 4-Channel 500 MHz A/D, with DDCs, DUCs, 2- or 4-Channel 500 MHz A/D, with DDCs, DUCs, 2- or 4-Channel 500 MHz A/D, with DDCs, DUCs, 2- or 4-Channel 500 MHz A/D, with DDCs, DUCs, 2- or 4-Channel 500 MHz A/D, with DDCs, DUCs, 2- or 4-Channel 800 MHz D/A, VirChannel 800 MHz D/A, VirChannel 800 MHz D/A, VirChannel 800 MHz D/A, VirChannel 800 MHz D/A, Virtex-6 FPGAtex-6 FPGAtex-6 FPGAtex-6 FPGAtex-6 FPGA
Figure 33
PCIe INTERFACE
fromA/D Ch 1
fromA/D Ch 2
PCIe
4Xfrom previousboard
to nextboard
sum out
sum in
VIRTEX-6 FPGA DATAFLOW DETAILVIRTEX-6 FPGA DATAFLOW DETAIL
A/DACQUISITIONIP MODULE 1
A/DACQUISITIONIP MODULE 2
LINKED-LISTDMA ENGINE
LINKED-LISTDMA ENGINE
METADATAGENERATOR
METADATAGENERATORto
MemBank 1
MEMORYCONTROL
toMem
Bank 2
MEMORYCONTROL
MUX MUX
DATA PACKING &FLOW CONTROL
DATA PACKING &FLOW CONTROL
AURORAGIGABITSERIAL
INTERFACE
INPUT MULTIPLEXER
�
SUMMER
DDCDEC: 2 TO 131027
DDCDEC: 2 TO 131027
BEAMFORMER CORE
POWERMETER &
THRESHOLDDETECT
POWERMETER &
THRESHOLDDETECT
MUXDDC CORE DDC CORE
D/AWAVEFORMPLAYBACKIP MODULE
toD/A
D/A loopbackTEST
SIGNALGENERATOR
MUX
LINKED-LISTDMA ENGINE
toMem
Bank 4
MEMORYCONTROL
DATA UNPACKING& FLOW CONTROL
INTERPOLATOR2 TO 65536
IP CORE
4X 4X
Model 74651Dual Density
Model 73651Single Density
Models 72651, 73651 and 74651 are members ofthe Cobalt family of high performance CompactPCI boardsbased on the Xilinx Virtex-6 FPGA. They consist ofone or two Model 71651 XMC modules mounted on acPCI carrier board. These models include two or four A/Ds,two or four multiband DDCs, one ot two DUCs, twoor four D/As and three or six banks of memory.
These models feature two or four A/D Acquisition IPmodules for easily capturing and moving data. Eachmodule can receive data from either of the two A/Ds, atest signal generator or from the D/A Waveform PlaybackIP module in loopback mode.
Within each A/D Acquisition IP Module is apowerful DDC IP core. Because of the flexible inputrouting of the A/D Acquisition IP Modules, many differentconfigurations can be achieved including one A/D drivingboth DDCs or each of the two A/Ds driving its own DDC.
Each DDC has an independent 32-bit tuningfrequency setting that ranges from DC to ƒs, where ƒs is
the A/D sampling frequency. Each DDC can have itsown unique decimation setting, supporting as many astwo or four different output bandwidths for the board.Decimations can be programmed from 2 to 131,072providing a wide range to satisfy most applications.
In addition to the DDCs, these models feature oneor two complete beamforming subsystems. Each DDCcore contains programable I & Q phase and gain adjust-ments followed by a power meter that continuouslymeasures the individual average power output. The timeconstant of the averaging interval for each meter is program-mable up to 8K samples. The power meters present averagepower measurements for each DDC core output in easy-to-read registers.
Model 72651 is a 6U cPCI board, while Model73651 is a 3U cPCI board; Model 74651 is a dualdensity 6U cPCI board. Also available is an XMC module(Model 71651), PCIe half-length board (Model 78651), 3UVPX (Models 52651 & 53651), and AMC (Model 56651).
Model 72651 6U cPCI Model 72651 6U cPCI Model 72651 6U cPCI Model 72651 6U cPCI Model 72651 6U cPCI ● ● ● ● ● Model 73651 3U cPCI Model 73651 3U cPCI Model 73651 3U cPCI Model 73651 3U cPCI Model 73651 3U cPCI ● ● ● ● ● Model 74651 6U cPCI Model 74651 6U cPCI Model 74651 6U cPCI Model 74651 6U cPCI Model 74651 6U cPCI ● ● ● ● ● Model 52651 3U VPXModel 52651 3U VPXModel 52651 3U VPXModel 52651 3U VPXModel 52651 3U VPXModel 53651 3U VPX Model 53651 3U VPX Model 53651 3U VPX Model 53651 3U VPX Model 53651 3U VPX ● ● ● ● ● Model 71651 XMC Model 71651 XMC Model 71651 XMC Model 71651 XMC Model 71651 XMC ●●●●● Model 78651 PCIe Model 78651 PCIe Model 78651 PCIe Model 78651 PCIe Model 78651 PCIe ●●●●● Model 56651 AMC Model 56651 AMC Model 56651 AMC Model 56651 AMC Model 56651 AMC
PPPPPentek, Inc.entek, Inc.entek, Inc.entek, Inc.entek, Inc. • One Park Way, Upper Saddle River, NJ 07458 • Tel: (201) 818-5900 • Fax: (201) 818-5904 • Email: [email protected] • http://www.pentek.com
3232323232
Putting FPGAs to Work in Software Radio Systems
PPPPProductsroductsroductsroductsroducts
Figure 34
4-4-4-4-4-Channel 200 MHz 16-bit A/D with VirChannel 200 MHz 16-bit A/D with VirChannel 200 MHz 16-bit A/D with VirChannel 200 MHz 16-bit A/D with VirChannel 200 MHz 16-bit A/D with Virtex-6 FPGAtex-6 FPGAtex-6 FPGAtex-6 FPGAtex-6 FPGA
Model 71660XMC
TIMING BUSGENERATOR
Clock / Sync /Gate / PPS
VCXO
200 MHz16-BIT A/D
RF In
RFXFORMR
RF In
RFXFORMR
16
QDRII+SRAM8 MB
TTL Gate / TrigTTL Sync / PPS
Sample ClkReset
Gate AGate B
Sync / PPS A
Sync / PPS B
Timing Bus
200 MHz16-BIT A/D
Sample Clk /Reference Clk In
A/D Clock/Sync Bus
1616
16 16
ConfigFLASH64 MB
16
QDRII+SRAM8 MB
16
DDR3SDRAM512 MB
DDR3SDRAM512 MB
QDRII+ option 150
16
QDRII+SRAM8 MB
1616
QDRII+SRAM8 MB
16
DDR3SDRAM512 MB
DDR3SDRAM512 MB
RF In
RFXFORMR
200 MHz16-BIT A/D
16
Memory Banks 1 & 2 Memory Banks 3 & 4
DDR3 option 155
QDRII+ option 160
DDR3 option 165
RF In
RFXFORMR
200 MHz16-BIT A/D
16
Gate / Trigger /Sync / PPS
40
GigabitSerial I/O
(option 105)
4X
GTX
4X
GTX LVDSGTX
FPGAGPIO
(option 104)
x8 PCIe
8X
P14PMC
P16XMC
P15XMC
VIRTEX-6 FPGA
LX130T, LX240T or SX315T
Model 71660 is a member of the Cobalt family ofhigh performance XMC modules based on the XilinxVirtex-6 FPGA. A multichannel, high-speed dataconverter, it is suitable for connection to HF or IF portsof a communications or radar system. Its built-in datacapture and playback features offer an ideal turnkey solutionas well as a platform for developing and deploying customFPGA processing IP. It includes four 200 MHz, 16-bit A/Dsand four banks of memory. In addition to supportingPCI Express Gen. 2 as a native interface, the Model71660 includes general purpose and gigabit serial connec-tors for application-specific I/O .
The Pentek Cobalt architecture features a Virtex-6FPGA. All of the board’s data and control paths are acces-sible by the FPGA, enabling factory-installed functionsincluding data multiplexing, channel selection, data packing,gating, triggering and memory control. The Cobalt architec-ture organizes the FPGA as a container for data processingapplications where each function exists as an intellec-tual property (IP) module.
Each member of the Cobalt family is deliveredwith factory-installed applications ideally matched to theboard’s analog interfaces. The 71660 factory-installedfunctions include four A/D acquisition IP modules. Inaddition, IP modules for either DDR3 or QDRII+memories, a controller for all data clocking and syn-chronization functions, a test signal generator and aPCIe interface complete the factory-installed functions.
Multiple 71660’s can be driven from the LVPECLbus master, supporting synchronous sampling and syncfunctions across all connected modules. The architecturesupports up to four memory banks which can be configuredwith all QDRII+ SRAM, DDR3 SDRAM, or as combina-tion of two banks of each type of memory.
Versions of the 71660 are also available as a PCIe half-length board (Model 78660), 3U VPX (Models 52660 and53660), AMC (Model 56660), 6U cPCI (Models 72660and 74660 with dual density), and 3U cPCI (Model73660).
Model 71660 XMC Model 71660 XMC Model 71660 XMC Model 71660 XMC Model 71660 XMC ●●●●● Model 78660 PCIe Model 78660 PCIe Model 78660 PCIe Model 78660 PCIe Model 78660 PCIe ●●●●● Model 52660 3U VPX Model 52660 3U VPX Model 52660 3U VPX Model 52660 3U VPX Model 52660 3U VPX ●●●●● Model 53660 3U VPX Model 53660 3U VPX Model 53660 3U VPX Model 53660 3U VPX Model 53660 3U VPXModel 56660 AMC Model 56660 AMC Model 56660 AMC Model 56660 AMC Model 56660 AMC ●●●●● Model 72660 6U cPCI Model 72660 6U cPCI Model 72660 6U cPCI Model 72660 6U cPCI Model 72660 6U cPCI ● ● ● ● ● Model 73660 3U cPCI Model 73660 3U cPCI Model 73660 3U cPCI Model 73660 3U cPCI Model 73660 3U cPCI ● ● ● ● ● Model 74660 6U cPCIModel 74660 6U cPCIModel 74660 6U cPCIModel 74660 6U cPCIModel 74660 6U cPCI
PPPPPentek, Inc.entek, Inc.entek, Inc.entek, Inc.entek, Inc. • One Park Way, Upper Saddle River, NJ 07458 • Tel: (201) 818-5900 • Fax: (201) 818-5904 • Email: [email protected] • http://www.pentek.com
3333333333
Putting FPGAs to Work in Software Radio Systems
4-4-4-4-4-Channel 200 MHz, 16-bit A/D with VirChannel 200 MHz, 16-bit A/D with VirChannel 200 MHz, 16-bit A/D with VirChannel 200 MHz, 16-bit A/D with VirChannel 200 MHz, 16-bit A/D with Virtex-7 FPGAtex-7 FPGAtex-7 FPGAtex-7 FPGAtex-7 FPGA
Model 71760 XMC Model 71760 XMC Model 71760 XMC Model 71760 XMC Model 71760 XMC ●●●●● Model 78760 PCIe Model 78760 PCIe Model 78760 PCIe Model 78760 PCIe Model 78760 PCIe ●●●●● Model 52760 3U VPX Model 52760 3U VPX Model 52760 3U VPX Model 52760 3U VPX Model 52760 3U VPX ●●●●● Model 53760 3U VPX Model 53760 3U VPX Model 53760 3U VPX Model 53760 3U VPX Model 53760 3U VPXModel 56760 AMC Model 56760 AMC Model 56760 AMC Model 56760 AMC Model 56760 AMC ●●●●● Model 72760 6U cPCI Model 72760 6U cPCI Model 72760 6U cPCI Model 72760 6U cPCI Model 72760 6U cPCI ● ● ● ● ● Model 73760 3U cPCI Model 73760 3U cPCI Model 73760 3U cPCI Model 73760 3U cPCI Model 73760 3U cPCI ● ● ● ● ● Model 74760 6U cPCIModel 74760 6U cPCIModel 74760 6U cPCIModel 74760 6U cPCIModel 74760 6U cPCI
Figure 35
PPPPProductsroductsroductsroductsroducts
Model 71760XMC
TIMING BUSGENERATOR
Clock / Sync /Gate / PPS
VCXO
200 MHz16-BIT A/D
RF In
RFXFORMR
RF In
RFXFORMR
VIRTEX-7 FPGA
VX330T or VX690T
TTL Gate / TrigTTL Sync / PPS
Sample ClkReset
Gate AGate B
Sync / PPS A
Sync / PPS B
Timing Bus
200 MHz16-BIT A/D
Sample Clk /Reference Clk In
A/D Clock/Sync Bus
1616
RF In
RFXFORMR
200 MHz16-BIT A/D
16
RF In
RFXFORMR
200 MHz16-BIT A/D
16
Gate / Trigger /Sync / PPS
GigabitSerial I/O(option 105)
GTXGTX LVDSGTX
FPGAGPIO(option 104)
PCIeGen. 3 x8
P14PMC
P16XMC
P15XMC
4X4XCONFIGFLASH1 GB
DDR3SDRAM
1 GB
DDR3SDRAM
1 GB
DDR3SDRAM
1 GB
DDR3SDRAM
1 GB
48 32 32 32 32PCIeGen. 3 x8
FPGAConfigBus
GATEXPRESS PCIeCONFIGURATION
MANAGER
Each member of the Onyx family is delivered with factory-installed applications ideally matched to the board’s analoginterfaces. The 71760 factory-installed functions include fourA/D acquisition IP modules for simplifying data capture anddata tranfer. IP modules for DDR3 SDRAM memories, acontroller for all data clocking and synchronization functions, atest signal generator, and a PCIe interface complete the factory-installed functions.
The 71760 architecture supports four independentDDR3 SDRAM memory banks. Each bank is 1 GB deepand is an integral part of the module’s DMA capabili-ties, providing FIFO memory space for creating DMApackets. Built-in memory functions include multichannelA/D data capture, tagging and streaming.
Versions of the 71760 are also available as a PCIe half-length board (Model 78760), 3U VPX (Models 52760 and53760), AMC (Model 56760), 6U cPCI (Models 72760and 74760 dual density), and 3U cPCI (Model 73760).
Please go to page 25 for information about GateXpress.
Model 71760 is a member of the Onyx family ofhigh performance XMC modules based on the XilinxVirtex-7 FPGA. A multichannel, high-speed data converter,it is suitable for connection to HF or IF ports of acommunications or radar system. Its built-in data capturefeatures offer an ideal turnkey solution as well as aplatform for developing and deploying custom FPGAprocessing IP. It includes four A/Ds and four banks ofmemory. In addition to supporting PCI Express Gen. 3 as anative interface, the Model 71760 includes general purposeand gigabit serial connectors for application-specific I/O.
Based on the proven design of the Pentek Cobalt family,Onyx raises the processing performance with the new flagshipfamily of Virtex-7 FPGAs from Xilinx. As the central feature ofthe board architecture, the FPGA has access to all data andcontrol paths, enabling factory-installed functions including datamultiplexing, channel selection, data packing, gating, triggeringand memory control. The Onyx Architecture organizes theFPGA as a container for data processing applications where eachfunction exists as an intellectual property (IP) module.
PPPPPentek, Inc.entek, Inc.entek, Inc.entek, Inc.entek, Inc. • One Park Way, Upper Saddle River, NJ 07458 • Tel: (201) 818-5900 • Fax: (201) 818-5904 • Email: [email protected] • http://www.pentek.com
3434343434
Putting FPGAs to Work in Software Radio Systems
PPPPProductsroductsroductsroductsroducts
Figure 36
4-4-4-4-4-Channel 200 MHz 16-bit A/D with Installed IP Cores, VirChannel 200 MHz 16-bit A/D with Installed IP Cores, VirChannel 200 MHz 16-bit A/D with Installed IP Cores, VirChannel 200 MHz 16-bit A/D with Installed IP Cores, VirChannel 200 MHz 16-bit A/D with Installed IP Cores, Virtex-6 FPGAtex-6 FPGAtex-6 FPGAtex-6 FPGAtex-6 FPGA
Model 71661 XMC Model 71661 XMC Model 71661 XMC Model 71661 XMC Model 71661 XMC ●●●●● Model 78661 PCIe Model 78661 PCIe Model 78661 PCIe Model 78661 PCIe Model 78661 PCIe ●●●●● Model 52661 3U VPX Model 52661 3U VPX Model 52661 3U VPX Model 52661 3U VPX Model 52661 3U VPX ●●●●● Model 53661 3U VPX Model 53661 3U VPX Model 53661 3U VPX Model 53661 3U VPX Model 53661 3U VPXModel 56661 AMC Model 56661 AMC Model 56661 AMC Model 56661 AMC Model 56661 AMC ●●●●● Model 72661 6U cPCI Model 72661 6U cPCI Model 72661 6U cPCI Model 72661 6U cPCI Model 72661 6U cPCI ● ● ● ● ● Model 73661 3U cPCI Model 73661 3U cPCI Model 73661 3U cPCI Model 73661 3U cPCI Model 73661 3U cPCI ● ● ● ● ● Model 74661 6U cPCIModel 74661 6U cPCIModel 74661 6U cPCIModel 74661 6U cPCIModel 74661 6U cPCI
Model 71661XMC
BEAMFORMER CORE
PCIe INTERFACE
fromA/D Ch 1
fromA/D Ch 2
fromA/D Ch 3
fromA/D Ch 4
PCIe
8Xfrom previousboard
to nextboard
sum out
sum in
VIRTEX-6 FPGA DATAFLOW DETAILVIRTEX-6 FPGA DATAFLOW DETAIL
A/DACQUISITIONIP MODULE 1
A/DACQUISITIONIP MODULE 2
A/DACQUISITIONIP MODULE 3
A/DACQUISITIONIP MODULE 4
LINKED-LISTDMA ENGINE
LINKED-LISTDMA ENGINE
LINKED-LISTDMA ENGINE
LINKED-LISTDMA ENGINE
METADATAGENERATOR
METADATAGENERATOR
METADATAGENERATOR
METADATAGENERATORto
MemBank 1
MEMORYCONTROL
toMem
Bank 2
MEMORYCONTROL
toMem
Bank 3
toMem
Bank 4
MEMORYCONTROL
MEMORYCONTROL
MUX MUX MUX MUX
DATA PACKING &FLOW CONTROL
DATA PACKING &FLOW CONTROL
DATA PACKING &FLOW CONTROL
DATA PACKING &FLOW CONTROL
AURORAGIGABITSERIAL
INTERFACE
INPUT MULTIPLEXER
�
SUMMER
DDCDEC: 2 TO 65536
DDCDEC: 2 TO 65536
DDCDEC: 2 TO 65536
DDCDEC: 2 TO 65536
POWERMETER &
THRESHOLDDETECT
POWERMETER &
THRESHOLDDETECT
POWERMETER &
THRESHOLDDETECT
POWERMETER &
THRESHOLDDETECT
MUXDDC CORE DDC CORE DDC CORE DDC CORE
TESTSIGNAL
GENERATOR
DATA PACKING &FLOW CONTROL
DATA PACKING &FLOW CONTROL
8X4X 4X
Model 71661 is a member of the Cobalt family of highperformance XMC modules based on the Xilinx Virtex-6FPGA. A multichannel, high-speed data converter based onthe Model 71660 described in the previous page, it includesfactory-installed IP cores to enhance the performance of the71620 and address the requirements of many applications.
The 71661 factory-installed functions include four A/Dacquisition IP modules. Each of the four acquisition IPmodules contains a powerful, programmable DDC IPcore. IP modules for either DDR3 or QDRII+ memo-ries, a controller for all data clocking and synchronizationfunctions, a test signal generator, an Aurora gigabitserial interface, and a PCIe interface complete thefactory-installed functions.
Each DDC has an independent 32-bit tuningfrequency setting that ranges from DC to ƒs, where ƒs isthe A/D sampling frequency. Each DDC can have itsown unique decimation setting, supporting as many asfour different output bandwidths for the board. Decima-
tions can be programmed from 2 to 65,536 providing awide range to satisfy most applications.
The 71661 also features a complete beamformingsubsystem. Each DDC core contains programable I & Qphase and gain adjustments followed by a power meterthat continuously measures the individual average poweroutput. The power meters present average power measure-ments for each DDC core output in easy-to-read registers. Athreshold detector automatically sends an interrupt tothe processor if the average power level of any DDCcore falls below or exceeds a programmable threshold.
For larger systems, multiple 71661’s can be chainedtogether via the built-in Xilinx Aurora gigabit serialinterface through the P16 XMC connector.
Versions of the 71661 are also available as a PCIe half-length board (Model 78661), 3U VPX (Models 52661 and53661), AMC (Model 56661), 6U cPCI (Models 72661and 74661 with dual density), and 3U cPCI (Model 73661).
PPPPPentek, Inc.entek, Inc.entek, Inc.entek, Inc.entek, Inc. • One Park Way, Upper Saddle River, NJ 07458 • Tel: (201) 818-5900 • Fax: (201) 818-5904 • Email: [email protected] • http://www.pentek.com
3535353535
Putting FPGAs to Work in Software Radio Systems
PPPPProductsroductsroductsroductsroducts
Figure 37
4-4-4-4-4-Channel 200 MHz 16-bit A/D with Installed IP Cores, VirChannel 200 MHz 16-bit A/D with Installed IP Cores, VirChannel 200 MHz 16-bit A/D with Installed IP Cores, VirChannel 200 MHz 16-bit A/D with Installed IP Cores, VirChannel 200 MHz 16-bit A/D with Installed IP Cores, Virtex-6 FPGAtex-6 FPGAtex-6 FPGAtex-6 FPGAtex-6 FPGA
Model 78662 PCIe Model 78662 PCIe Model 78662 PCIe Model 78662 PCIe Model 78662 PCIe ●●●●● Model 71662 XMC Model 71662 XMC Model 71662 XMC Model 71662 XMC Model 71662 XMC ●●●●● Model 52662 3U VPX Model 52662 3U VPX Model 52662 3U VPX Model 52662 3U VPX Model 52662 3U VPX ●●●●● Model 53662 3U VPX Model 53662 3U VPX Model 53662 3U VPX Model 53662 3U VPX Model 53662 3U VPXModel 56662 AMC Model 56662 AMC Model 56662 AMC Model 56662 AMC Model 56662 AMC ●●●●● Model 72662 6U cPCI Model 72662 6U cPCI Model 72662 6U cPCI Model 72662 6U cPCI Model 72662 6U cPCI ● ● ● ● ● Model 73662 3U cPCI Model 73662 3U cPCI Model 73662 3U cPCI Model 73662 3U cPCI Model 73662 3U cPCI ● ● ● ● ● Model 74662 6U cPCIModel 74662 6U cPCIModel 74662 6U cPCIModel 74662 6U cPCIModel 74662 6U cPCI
Model 78662 is a member of the Cobalt family ofhigh performance PCIe boards based on the Xilinx Virtex-6FPGA. Based on the Model 71660 presented previously,this four-channel, high-speed data converter withprogrammable DDCs is suitable for connection to HF orIF ports of a communications or radar system.
The 78662 factory-installed functions include four A/Dacquisition IP modules. Each of the four acquisition IPmodules contains a powerful, programmable 8-channelDDC IP core. IP modules for either DDR3 or QDRII+memories, a controller for all data clocking and synchroni-zation functions, a test signal generator, voltage andtemperature monitoring, and a PCIe interface complete thefactory-installed functions.
Each of the 32 DDC channels has an independent32-bit tuning frequency setting that ranges from DC toƒs, where ƒs is the A/D sampling frequency. All of the8 channels within a bank share a common decimationsetting ranging from 16 to 8192 programmable in steps
of eight. Each 8-channel bank can have its own uniquedecimation setting supporting a different bandwidthassociated with each of the four acquisition modules.
The decimating filter for each DDC bank acceptsa unique set of user-supplied 18-bit coefficients. The 80%default filters deliver an output bandwidth of 0.8*ƒs/N,where N is the decimation setting. The rejection ofadjacent-band components within the 80% outputbandwidth is better than 100 dB.
Each DDC delivers a complex output stream consistingof 24-bit I + 24-bit Q samples at a rate of ƒs/N. Anynumber of channels can be enabled within each bank,selectable from 0 to 8. Multiple 78662’s can be drivenfrom the LVPECL bus master, supporting synchronoussampling and sync functions across all connected boards.
Versions of the 78662 are also available as an XMCmodule (Model 71662), 3U VPX (Models 52662 & 53662),AMC (Model 56662), 6U cPCI (Models 72662 and74662 with dual density), and 3U cPCI (Model 73662).
Model 78662x8 PCIe
fromA/D Ch 1
fromA/D Ch 2
fromA/D Ch 3
fromA/D Ch 4
VIRTEX-6 FPGA DATAFLOW DETAILVIRTEX-6 FPGA DATAFLOW DETAIL
A/DACQUISITIONIP MODULE 1
A/DACQUISITIONIP MODULE 2
A/DACQUISITIONIP MODULE 3
A/DACQUISITIONIP MODULE 4
LINKED-LISTDMA ENGINE
LINKED-LISTDMA ENGINE
METADATAGENERATOR
METADATAGENERATOR
METADATAGENERATOR
METADATAGENERATORto
MemBank 1
MEMORYCONTROL
toMem
Bank 2
MEMORYCONTROL
toMem
Bank 3
toMem
Bank 4
MEMORYCONTROL
MEMORYCONTROL
MUX MUX MUX MUX
DATA PACKING &FLOW CONTROL
DATA PACKING &FLOW CONTROL
DATA PACKING &FLOW CONTROL
DATA PACKING &FLOW CONTROL
INPUT MULTIPLEXER
TESTSIGNAL
GENERATOR
DATA PACKING &FLOW CONTROL
DATA PACKING &FLOW CONTROL
DDCCORE
DIGITALDOWN-
CONVERTER
BANK 1: CH 1-8DEC: 16 TO 8192
.
DDCCORE
DIGITALDOWN-
CONVERTER
BANK 2: CH 9-16DEC: 16 TO 8192
.
DDCCORE
DIGITALDOWN-
CONVERTER
BANK 3: CH 17-24DEC: 16 TO 8192
.
DDCCORE
DIGITALDOWN-
CONVERTER
BANK 4: CH 18-32DEC: 16 TO 8192
.
MemoryBank 4
PCIe INTERFACE
PCIe8X
LINKED-LISTDMA ENGINE
LINKED-LISTDMA ENGINE
GigabitSerial I/O
FPGAGPIO
(supports user installed IP)
4X 4X 4032MemoryBank 3
32MemoryBank 2
32MemoryBank 1
32
PPPPPentek, Inc.entek, Inc.entek, Inc.entek, Inc.entek, Inc. • One Park Way, Upper Saddle River, NJ 07458 • Tel: (201) 818-5900 • Fax: (201) 818-5904 • Email: [email protected] • http://www.pentek.com
3636363636
Putting FPGAs to Work in Software Radio Systems
PPPPProductsroductsroductsroductsroducts
Figure 38
4-4-4-4-4-Channel 1.25 GHz D/A with DUC, VirChannel 1.25 GHz D/A with DUC, VirChannel 1.25 GHz D/A with DUC, VirChannel 1.25 GHz D/A with DUC, VirChannel 1.25 GHz D/A with DUC, Virtex-6 FPGAtex-6 FPGAtex-6 FPGAtex-6 FPGAtex-6 FPGA
Model 56670 AMC Model 56670 AMC Model 56670 AMC Model 56670 AMC Model 56670 AMC ●●●●● Model 71670 XMC Model 71670 XMC Model 71670 XMC Model 71670 XMC Model 71670 XMC ● ● ● ● ● Model 78670 PCIe Model 78670 PCIe Model 78670 PCIe Model 78670 PCIe Model 78670 PCIe ●●●●● Model 52670 3U VPX Model 52670 3U VPX Model 52670 3U VPX Model 52670 3U VPX Model 52670 3U VPXModel 53670 3U VPX Model 53670 3U VPX Model 53670 3U VPX Model 53670 3U VPX Model 53670 3U VPX ●●●●● Model 72670 6U cPCI Model 72670 6U cPCI Model 72670 6U cPCI Model 72670 6U cPCI Model 72670 6U cPCI ● ● ● ● ● Model 73670 3U cPCI Model 73670 3U cPCI Model 73670 3U cPCI Model 73670 3U cPCI Model 73670 3U cPCI ● ● ● ● ● Model 74670 6U cPCIModel 74670 6U cPCIModel 74670 6U cPCIModel 74670 6U cPCIModel 74670 6U cPCI
TIMING BUSGENERATOR
Clock / Sync /Gate / PPS
VCXO
16
Sample Clk /Reference Clk In
16
ConfigFLASH64 MB
16
DDR3SDRAM512 MB
DDR3SDRAM512 MB
1616
DDR3SDRAM512 MB
DDR3SDRAM512 MB
Memory Banks 1 & 2 Memory Banks 3 & 4
Clock/SyncBus A
40
LVDS
FPGAGPIO(option 104)
RFXFORMR
16-BIT D/A1.25 GHz
DIGITALUPCONVERTER
RF Out
RFXFORMR
RFXFORMR
1.25 GHz16-BIT D/A
DIGITALUPCONVERTER
RF Out
RFXFORMR
RFXFORMR
16-BIT D/A1.25 GHz
DIGITALUPCONVERTER
RF Out
RFXFORMR
RFXFORMR
1.25 GHz16-BIT D/A
DIGITALUPCONVERTER
RF Out
RFXFORMR
16 16
Gate InSync In
μSync Bus A
Gate InSync In
μSync Bus B
Trigger In
Clock/SyncBus B
VIRTEX-6 FPGA
LX130T, LX240T or SX315T
GTX
x8 PCIe
8X
FrontPanel
FrontPanel
AMCPorts 4 to 11
IPMICONTROLLER
RS-232
Model 56670AMC
Model 56670 is a member of the Cobalt family ofhigh performance AMC modules based on the XilinxVirtex-6 FPGA. This 4-channel, high-speed dataconverter is suitable for connection to transmit HF or IFports of a communications or radar system. Its built-indata playback features offer an ideal turnkey solutionfor demanding transmit applications. It includes fourD/As, four digital upconverters and four banks ofmemory. In addition to supporting PCI Express Gen. 2 asa native interface, the Model 56670 includes a frontpanel general-purpose connector for application-specificI/O.
The Pentek Cobalt Architecture features a Virtex-6FPGA. All of the board’s data and control paths areaccessible by the FPGA, enabling factory-installedfunctions including data multiplexing, channel selection,data packing, gating, triggering and memory control.The Cobalt Architecture organizes the FPGA as acontainer for data processing applications where eachfunction exists as an intellectual property (IP) module.
Each member of the Cobalt family is delivered withfactory-installed applications ideally matched to the board’sanalog interfaces. The 56670 factory-installed functionsinclude four D/A waveform playback IP modules, to supportwaveform generation through the D/A converters. IP modulesfor DDR3 SDRAM memories, a controller for all dataclocking and synchronization functions, a test signal generator,and a PCIe interface complete the factory-installed functionsand enable the 56670 to operate as a complete turnkeysolution, without the need to develop any FPGA IP.
The Model 56670 factory-installed functionsinclude a sophisticated D/A Waveform Playback IPmodule. Four linked-list controllers support waveformgeneration to the four D/As from tables stored in eitheron-board memory or off-board host memory.
Versions of the 56670 are available as an XMC (Model71670), PCIe half-length board (Model 78670), 3U VPX(Models 52670 and 53670), 6U cPCI (Models 72670 and74670 dual density), and 3U cPCI (Model 73670).
PPPPProductsroductsroductsroductsroducts
PPPPPentek, Inc.entek, Inc.entek, Inc.entek, Inc.entek, Inc. • One Park Way, Upper Saddle River, NJ 07458 • Tel: (201) 818-5900 • Fax: (201) 818-5904 • Email: [email protected] • http://www.pentek.com
3737373737
Putting FPGAs to Work in Software Radio Systems
PPPPProductsroductsroductsroductsroducts
Figure 39
4-4-4-4-4-Channel 1.25 GHz D/A with DUC, Extended InterpolationChannel 1.25 GHz D/A with DUC, Extended InterpolationChannel 1.25 GHz D/A with DUC, Extended InterpolationChannel 1.25 GHz D/A with DUC, Extended InterpolationChannel 1.25 GHz D/A with DUC, Extended Interpolation, Vir, Vir, Vir, Vir, Virtex-6 FPGAtex-6 FPGAtex-6 FPGAtex-6 FPGAtex-6 FPGA
Model 71671 XMC Model 71671 XMC Model 71671 XMC Model 71671 XMC Model 71671 XMC ● ● ● ● ● Model 78671 PCIe Model 78671 PCIe Model 78671 PCIe Model 78671 PCIe Model 78671 PCIe ●●●●● Model 52671 3U VPX Model 52671 3U VPX Model 52671 3U VPX Model 52671 3U VPX Model 52671 3U VPX ●●●●● Model 53671 3U VPX Model 53671 3U VPX Model 53671 3U VPX Model 53671 3U VPX Model 53671 3U VPXModel 56671 AMC Model 56671 AMC Model 56671 AMC Model 56671 AMC Model 56671 AMC ●●●●● Model 72671 6U cPCI Model 72671 6U cPCI Model 72671 6U cPCI Model 72671 6U cPCI Model 72671 6U cPCI ● ● ● ● ● Model 73671 3U cPCI Model 73671 3U cPCI Model 73671 3U cPCI Model 73671 3U cPCI Model 73671 3U cPCI ● ● ● ● ● Model 74671 6U cPCIModel 74671 6U cPCIModel 74671 6U cPCIModel 74671 6U cPCIModel 74671 6U cPCI
D/AWAVEFORMPLAYBACK
IP MODULE 1
toD/A Ch 1 & 2
GigabitSerial I/OPCIe
FPGAGPIO
(supports user installed IP)
MemoryBank 1
MemoryBank 2
MemoryBank 3
MemoryBank 4
VIRTEX-6 FPGA DATAFLOW DETAILVIRTEX-6 FPGA DATAFLOW DETAIL
DATAUNPACKING
& FLOWCONTROL
MUX
LINKED-LISTDMA ENGINE
toMem
Bank 1
MEMORYCONTROL
8X 4X 4X 40
D/AWAVEFORMPLAYBACK
IP MODULE 2
DATAUNPACKING
& FLOWCONTROL
MUX
LINKED-LISTDMA ENGINE
toMem
Bank 2
MEMORYCONTROL
D/AWAVEFORMPLAYBACK
IP MODULE 3
DATAUNPACKING
& FLOWCONTROL
MUX
LINKED-LISTDMA ENGINE
toMem
Bank 3
MEMORYCONTROL
D/AWAVEFORMPLAYBACK
IP MODULE 4
DATAUNPACKING
& FLOWCONTROL
MUX
LINKED-LISTDMA ENGINE
toMem
Bank 4
MEMORYCONTROL
TESTSIGNAL
GENERATOR
PCIe INTERFACE
DATAINTERLEAVER
16toD/A Ch 3 & 4
DATAINTERLEAVER
16
INTERPOLATOR2 TO 65536
IP CORE
INTERPOLATOR2 TO 65536
IP CORE
INTERPOLATOR2 TO 65536
IP CORE
INTERPOLATOR2 TO 65536
IP CORE
Model 71671XMC
Model 71671 is a member of the Cobalt family of highperformance XMC modules based on the Xilinx Virtex-6FPGA. A multichannel, high-speed data converter based onthe Model 71670 described in the previous page, it includesfactory-installed IP cores to enhance the performance of the71670 and address the requirements of many applications.
The Model 56671 factory-installed functionsinclude a sophisticated D/A Waveform Playback IPmodule. Four linked-list controllers support waveformgeneration to the four D/As from tables stored in eitheron-board memory or off-board host memory.
Two Texas Instruments DAC3484s provide four DUC(digital upconverter) and D/A channels. Each channelaccepts a baseband real or complex data stream from theFPGA and provides that input to the upconvert, interpo-late and D/A stage.
When operating as a DUC, it interpolates and trans-lates real or complex baseband input signals to a user
selectable IF center frequency. It delivers real or quadra-ture (I+Q) analog outputs to a 16-bit D/A converter.
If translation is disabled, each D/A acts as aninterpolating 16-bit D/A with output sampling rates upto 1.25 GHz. In both modes, the D/A provides interpolationfactors of 2x, 4x, 8x and 16x.
In addition to the DAC3484, the 71671 features anFPGA-based interpolation engine which adds twoadditonal interpolation stages programmable from 2x to256x. The combined interpolation results in a rangefrom 2x to 1,048,576x for each D/A channel and is idealfor matching the digital downconversion and datareduction used on the receiving channels of manycommunications systems.
Versions of the 71671 are also available as a PCIe half-length board (Model 78671), 3U VPX (Models 52671 and53671), AMC (Model 56671), 6U cPCI (Models 72671and 74671 with dual density), and 3U cPCI (Model 73671).
PPPPPentek, Inc.entek, Inc.entek, Inc.entek, Inc.entek, Inc. • One Park Way, Upper Saddle River, NJ 07458 • Tel: (201) 818-5900 • Fax: (201) 818-5904 • Email: [email protected] • http://www.pentek.com
3838383838
Putting FPGAs to Work in Software Radio Systems
PPPPProductsroductsroductsroductsroducts
LLLLL-Band RF T-Band RF T-Band RF T-Band RF T-Band RF Tuner with 2-uner with 2-uner with 2-uner with 2-uner with 2-Channel 200 MHz A/D and VirChannel 200 MHz A/D and VirChannel 200 MHz A/D and VirChannel 200 MHz A/D and VirChannel 200 MHz A/D and Virtex-6 FPGAtex-6 FPGAtex-6 FPGAtex-6 FPGAtex-6 FPGA
Model 53690 3U VPX Model 53690 3U VPX Model 53690 3U VPX Model 53690 3U VPX Model 53690 3U VPX ●●●●● Model 52690 3U VPX Model 52690 3U VPX Model 52690 3U VPX Model 52690 3U VPX Model 52690 3U VPX ●●●●● Model 71690 XMC Model 71690 XMC Model 71690 XMC Model 71690 XMC Model 71690 XMC ●●●●● Model 78690 PCIe Model 78690 PCIe Model 78690 PCIe Model 78690 PCIe Model 78690 PCIeModel 56690 AMC Model 56690 AMC Model 56690 AMC Model 56690 AMC Model 56690 AMC ●●●●● Model 72690 6U cPCI Model 72690 6U cPCI Model 72690 6U cPCI Model 72690 6U cPCI Model 72690 6U cPCI ● ● ● ● ● Model 73690 3U cPCI Model 73690 3U cPCI Model 73690 3U cPCI Model 73690 3U cPCI Model 73690 3U cPCI ● ● ● ● ● Model 74690 6U cPCIModel 74690 6U cPCIModel 74690 6U cPCIModel 74690 6U cPCIModel 74690 6U cPCI
Figure 40
Model 53690 3U VPXCOTS and rugged
VCXO
16
QDRII+SRAM8 MB
TTL Gate / TrigTTL Sync / PPS
Sample ClkRef In
Gate AGate B
Sync / PPS A
Sync / PPS B
Timing Bus
Sample Clk /Reference Clk In
A/D Clock/Sync
16 16
ConfigFLASH64 MB
16
QDRII+SRAM8 MB
16
DDR3SDRAM512 MB
DDR3SDRAM512 MB
QDRII+ option 150
16
QDRII+SRAM8 MB
1616
QDRII+SRAM8 MB
16
DDR3SDRAM512 MB
DDR3SDRAM512 MB
Memory Banks 1 & 2 Memory Banks 3 & 4
DDR3 option 155
QDRII+ option 160
DDR3 option 165
Trigger 1
200 MHz16-BIT A/D
200 MHz16-BIT A/D
1616
MAX2112
I Q
RefIn
RFIn
RefOut
12-BITD/A
2
I C2
GC
Control
Trigger 2
TIMINGGENERATOR
Clock / Sync /Gate / PPS
Ref
40
FPGAI/O
Option -104
VPX BACKPLANE
VPX-P2
GTXGTXGTXLVDS
Gigabit Serial I/O
4XGbitSerial
4XGbitSerial
4XGbitSerial
4XGbitSerial
CROSSBARSWITCH
VPX-P1
4X8X 4X
x8PCIe
Option -105
VIRTEX-6 FPGA
LX130T, LX240T or SX315T
Model 53690 is a member of the Cobalt family ofhigh performance 3U VPX boards based on the XilinxVirtex-6 FPGA. A 2-Channel high-speed data converter,it is suitable for connection directly to the RF port of acommunications or radar system. Its built-in data capturefeatures offer an ideal turnkey solution. The Model 53690includes an L-Band RF tuner, two 200 MHz, 16-bitA/Ds and four banks of memory. It features built-insupport for PCI Express over the 3U VPX backplane.
The Pentek Cobalt architecture features a Virtex-6FPGA. All of the board’s data and control paths are acces-sible by the FPGA, enabling factory-installed functionsincluding data multiplexing, channel selection, data packing,gating, triggering and memory control. The Cobalt architec-ture organizes the FPGA as a container for data processingapplications where each function exists as an intellec-tual property (IP) module.
Each member of the Cobalt family is delivered withfactory-installed applications ideally matched to the
board’s analog interfaces. The 53690 factory-installedfunctions include two A/D acquisition IP modules. IPmodules for either DDR3 or QDRII+ memories, acontroller for all data clocking and synchronizationfunctions, a test signal generator, and a PCIe interfacecomplete the factory-installed functions.
A front panel connector accepts L-Band signalsbetween 925 MHz and 2175 MHz from an antennaLNB. A Maxim MAX2112 tuner directly convertsthese signals to baseband using a broadband I/Qdownconverter. The device includes an RF variable-gainLNA (low-noise amplifier), a PLL synthesized localoscillator, quadrature (I + Q) downconverting mixers,baseband lowpass filters and variable-gain basebandamplifiers.
Versions of the 53690 are also available as a 3U VPX(Model 52690), an XMC (Model 71690), as a PCIe (Model78690), AMC (Model 56690), 6U cPCI (Models 72690and 74690 with dual density), and 3U cPCI (Model 73690).
PPPPPentek, Inc.entek, Inc.entek, Inc.entek, Inc.entek, Inc. • One Park Way, Upper Saddle River, NJ 07458 • Tel: (201) 818-5900 • Fax: (201) 818-5904 • Email: [email protected] • http://www.pentek.com
3939393939
Putting FPGAs to Work in Software Radio Systems
PPPPProductsroductsroductsroductsroducts
Figure 41
Model 6890 - VMEModel 6890 - VMEModel 6890 - VMEModel 6890 - VMEModel 6890 - VME
2.2 GHz Clock, Sync and Gate Distribution Board2.2 GHz Clock, Sync and Gate Distribution Board2.2 GHz Clock, Sync and Gate Distribution Board2.2 GHz Clock, Sync and Gate Distribution Board2.2 GHz Clock, Sync and Gate Distribution Board
BUFFER1:2
BUFFER1:2
BUFFER1:2
PROGDELAY
PROGDELAY
MUX2:1
MUX2:1
FrontPanelSync
Output
FrontPanelClock
Output
FrontPanelGate
Output
Ch 1
Ch 1
Ch 1
Ch 2
Ch 2
Ch 2
Ch 3
Ch 3
Ch 3
Ch 4
Ch 4
Ch 4
Ch 5
Ch 5
Ch 5
Ch 6
Ch 6
Ch 6
Ch 7
Ch 7
Ch 7
Ch 8
Ch 8
Ch 8
LVPECLBUFFER
1:8
LVPECLBUFFER
1:8
POWERSPLITTER
1:8
POWERSPLITTER
1:2
TTL / PECLSELECTOR
TTL / PECLSELECTOR
TTL / PECLSELECTOR
TTL / PECLSELECTOR
GATECONTROL
SYNCCONTROL
FrontPanelClockInput
FrontPanelGateInput
FrontPanelSyncInput
FrontPanelGate
Enable
FrontPanelSync
Enable REG
REG
Model 6890VME
Model 6890 Clock, Sync and Gate DistributionBoard synchronizes multiple Pentek I/O boards within asystem. It enables synchronous sampling and timingfor a wide range of multichannel high-speed dataacquisition, DSP and software radio applications. Upto eight boards can be synchronized using the 6890,each receiving a common clock of up to 2.2 GHz alongwith timing signals that can be used for synchronizing,triggering and gating functions.
Clock signals are applied from an external sourcesuch as a high performance sine wave generator. Gateand sync signals can come from an external source, orfrom one supported board set to act as the master.
The 6890 accepts clock input at +10 dBm to +14 dBmwith a frequency range from 800 MHz to 2.2 GHz anduses a 1:2 power splitter to distribute the clock. The firstoutput of this power splitter sends the clock signal to a1:8 splitter for distribution to up to eight boards usingSMA connectors. The second output of the 1:2 power
splitter feeds a 1:2 buffer which distributes the clocksignal to both the gate and synchronization circuits.
The 6890 features separate inputs for gate/triggerand sync signals with user-selectable polarity. Each ofthese inputs can be TTL or LVPECL. Separate GateEnable and Sync Enable inputs allow the user to enableor disable these circuits using an external signal.
A programmable delay allows the user to maketiming adjustments on the gate and sync signals beforethey are sent to an LVPECL buffer. A bank of eightMMCX connectors at the output of each buffer deliverssignals to up to eight boards.
A 2:1 multiplexer in each circuit allows the gate/trigger and sync signals to be registered with the inputclock signal before output, if desired.
Sets of input and output cables for two to eightboards are available from Pentek.
PPPPPentek, Inc.entek, Inc.entek, Inc.entek, Inc.entek, Inc. • One Park Way, Upper Saddle River, NJ 07458 • Tel: (201) 818-5900 • Fax: (201) 818-5904 • Email: [email protected] • http://www.pentek.com
4040404040
Putting FPGAs to Work in Software Radio Systems
PPPPProductsroductsroductsroductsroducts
System Synchronizer and Distribution BoardSystem Synchronizer and Distribution BoardSystem Synchronizer and Distribution BoardSystem Synchronizer and Distribution BoardSystem Synchronizer and Distribution Board
Model 6891 - VMEModel 6891 - VMEModel 6891 - VMEModel 6891 - VMEModel 6891 - VME
BUFFER1:2
BUFFER1:2
PROGDELAY
PROGDELAY
MUX2:1
MUX2:1
Ch 1
Ch 1
Ch 1
Ch 2
Ch 2
Ch 2
Ch 3
Ch 3
Ch 3
Ch 4
Ch 4
Ch 4
Ch 5
Ch 5
Ch 5
Ch 6
Ch 6
Ch 6
Ch 7
Ch 7
Ch 7
Ch 8
Ch 8
Ch 8
SYNCLVPECLBUFFER
1:8
GATELVPECLBUFFER
1:8
CLOCKLVPECLBUFFER
1:10
GATECONTROL
Front PanelClock Input
Front PanelGateInput
Front PanelSync Input
Front PanelGate Enable
Front PanelSync Enable REG
REG
Gate
SyncClockSync Bus
Input
MUX2:1
MUX2:1
MUX2:1
SYNCCONTROL
Gate
SyncClock Sync Bus
Output 8
Gate
SyncClock Sync Bus
Output 7
Gate
SyncClock Sync Bus
Output 6
Gate
SyncClock Sync Bus
Output 5
Gate
SyncClock Sync Bus
Output 4
Gate
SyncClock Sync Bus
Output 3
Gate
SyncClock Sync Bus
Output 2
Gate
SyncClock Sync Bus
Output 1
to Sync BusOutputs 2-8
to Sync BusOutputs 2-8
to Sync BusOutputs 2-8
Model 6891VME
Model 6891 System Synchronizer and DistributionBoard synchronizes multiple Pentek I/O modules within asystem. It enables synchronous sampling and timing for awide range of multichannel high-speed data acquisition,DSP and software radio applications.
Up to eight modules can be synchronized using the6891, each receiving a common clock up to 500 MHzalong with timing signals that can be used for synchroniz-ing, triggering and gating functions. For larger systems,up to eight 6891’s can be linked together to providesynchronization for up to 64 I/O modules producingsystems with up to 256 channels.
Model 6891 accepts three TTL input signals fromexternal sources: one for clock, one for gate or triggerand one for a synchronization signal. Two additionalinputs are provided for separate gate and sync enable signals.
Clock signals can be applied from an external sourcesuch as a high performance sine-wave generator. Gate/triggerand sync signals can come from an external system source.Alternately, a Sync Bus connector accepts LVPECL inputsfrom any compatible Pentek products to drive the clock,sync and gate/trigger signals.
The 6891 provides eight front panel Sync Bus outputconnectors, compatible with a wide range of Pentek I/Omodules. The Sync Bus is distributed through ribboncables, simplifying system design. The 6891 accepts clockinput at +10 dBm to +14 dBm with a frequency rangefrom 1 kHz to 800 MHz. This clock is used to registerall sync and gate/trigger signals as well as providing asample clock to all connected I/O modules.
A programmable delay allows the user to maketiming adjustments on the gate and sync signals beforethey are sent to an LVPECL buffer for output throughthe Sync Bus connectors.
Figure 42
PPPPPentek, Inc.entek, Inc.entek, Inc.entek, Inc.entek, Inc. • One Park Way, Upper Saddle River, NJ 07458 • Tel: (201) 818-5900 • Fax: (201) 818-5904 • Email: [email protected] • http://www.pentek.com
4141414141
Putting FPGAs to Work in Software Radio Systems
ReferenceIn
Control
PCI INTERFACE
PCI BUS(32 Bits / 66 MHz)32
Clock Out1
Clock Out2
Clock Out3
Clock Out4
Clock Out5
Clock Out6
Clock Out7
Clock Out8
CLOCKSYNTHESIZER
AND JITTERCLEANER
A
1÷÷ 2÷ 4÷ 8÷16
QUADVCXO
A
CLOCKSYNTHESIZER
AND JITTERCLEANER
B
1÷÷ 2÷ 4÷ 8÷16
CLOCKSYNTHESIZER
AND JITTERCLEANER
C
1÷÷ 2÷ 4÷ 8÷16
CLOCKSYNTHESIZER
AND JITTERCLEANER
D
1÷÷ 2÷ 4÷ 8÷16
Supports:any In to any Out,any In to multiple
Outs
CROSSBAR
SWITCH
In
In
In
In
Out
Out
Out
Out
Out
QUADVCXO
B
QUADVCXO
C
QUADVCXO
D
PPPPProductsroductsroductsroductsroducts
Figure 43
Multifrequency Clock SynthesizerMultifrequency Clock SynthesizerMultifrequency Clock SynthesizerMultifrequency Clock SynthesizerMultifrequency Clock Synthesizer
Model 7190PMC
Model 7190 generates up to eight synthesized clocksignals suitable for driving A/D and D/A converters inhigh-performance real-time data acquisition and softwareradio systems. The clocks offer exceptionally low phase noiseand jitter to preserve the signal quality of the data converters.These clocks are synthesized from on-board quad VCXOsand can be phase-locked to an external reference signal.
The 7190 uses four Texas Instruments CDC7005 clocksynthesizer and jitter cleaner devices. Each CDC7005 is pairedwith a dedicated VCXO to provide the base frequency forthe clock synthesizer. Each of the four VCXOs can beindependently programmed to generate one of four frequen-cies between 50 MHz and 700 MHz.
The CDC7005 can output the selected frequencyof its associated VCXO, or generate submultiples usingdivisors of 2, 4, 8 or 16. The four CDC7005’s can outputup to five frequencies each. The 7190 can be programmed toroute any of these 20 frequencies to the module’s fiveoutput drivers.
The CDC7005 includes phase-locking circuitrythat locks the frequency of its associated VCXO to aninput reference of 5 MHz to 100 MHz.
Eight front panel SMC connectors supply synthesizedclock outputs driven from the five clock output drivers.This supports a single identical clock to all eight outputsor up to five different clocks to various outputs. Withfour independent quad VCXOs and each CDC7005capable of providing up to five different submultipleclocks, a wide range of clock configurations is possible. Insystems where more than five different clock outputs arerequired simultaneously, multiple 7190’s can be used andphase-locked with the 5 MHz to 100 MHz system reference.
Versions of the 7190 are also available as a PCIe full-length board (Models 7790 and 7790D dual density),PCIe half-length board (Model 7890), 3U VPX board(Model 5390), PCI board (Model 7690), 6U cPCI(Models 7290 and 7290D dual density), or 3U cPCI(Model 7390).
Model 7190 PMC Model 7190 PMC Model 7190 PMC Model 7190 PMC Model 7190 PMC ●●●●● Model 7290 6U cPCI Model 7290 6U cPCI Model 7290 6U cPCI Model 7290 6U cPCI Model 7290 6U cPCI ●●●●● Model 7390 3U cPCI Model 7390 3U cPCI Model 7390 3U cPCI Model 7390 3U cPCI Model 7390 3U cPCI ●●●●● Model 7690 PCI Model 7690 PCI Model 7690 PCI Model 7690 PCI Model 7690 PCIModel 7790 FModel 7790 FModel 7790 FModel 7790 FModel 7790 Full-length PCIe ull-length PCIe ull-length PCIe ull-length PCIe ull-length PCIe ●●●●● Model 7890 Half-length PCIe Model 7890 Half-length PCIe Model 7890 Half-length PCIe Model 7890 Half-length PCIe Model 7890 Half-length PCIe ●●●●● Model 5390 3U VPX Model 5390 3U VPX Model 5390 3U VPX Model 5390 3U VPX Model 5390 3U VPX
PPPPPentek, Inc.entek, Inc.entek, Inc.entek, Inc.entek, Inc. • One Park Way, Upper Saddle River, NJ 07458 • Tel: (201) 818-5900 • Fax: (201) 818-5904 • Email: [email protected] • http://www.pentek.com
4242424242
Putting FPGAs to Work in Software Radio Systems
ReferenceIn
Control
PCI INTERFACE
PCI BUS(32 Bits / 66 MHz)32
Clock Out1
Clock Out2
Clock Out3
Clock Out4
Clock Out5
Clock Out6
Clock Out7
Clock Out8
CLOCKSYNTHESIZER
AND JITTERCLEANER
A
1÷÷ 2÷ 4÷ 8÷16
PROGRAMVCXO
A
CLOCKSYNTHESIZER
AND JITTERCLEANER
B
1÷÷ 2÷ 4÷ 8÷16
CLOCKSYNTHESIZER
AND JITTERCLEANER
C
1÷÷ 2÷ 4÷ 8÷16
CLOCKSYNTHESIZER
AND JITTERCLEANER
D
1÷÷ 2÷ 4÷ 8÷16
Supports:any In to any Out,any In to multiple
Outs
CROSSBAR
SWITCH
In
In
In
In
Out
Out
Out
Out
Out
PROGRAMVCXO
B
PROGRAMVCXO
C
PROGRAMVCXO
D
PPPPProductsroductsroductsroductsroducts
Figure 44
PPPPProgrammable Multifrequency Clock Synthesizerrogrammable Multifrequency Clock Synthesizerrogrammable Multifrequency Clock Synthesizerrogrammable Multifrequency Clock Synthesizerrogrammable Multifrequency Clock Synthesizer
Model 7191 PMC Model 7191 PMC Model 7191 PMC Model 7191 PMC Model 7191 PMC ●●●●● Model 7291 6U cPCI Model 7291 6U cPCI Model 7291 6U cPCI Model 7291 6U cPCI Model 7291 6U cPCI ●●●●● Model 7391 3U cPCI Model 7391 3U cPCI Model 7391 3U cPCI Model 7391 3U cPCI Model 7391 3U cPCI ●●●●● Model 7691 PCI Model 7691 PCI Model 7691 PCI Model 7691 PCI Model 7691 PCIModel 7791 FModel 7791 FModel 7791 FModel 7791 FModel 7791 Full-length PCIe ull-length PCIe ull-length PCIe ull-length PCIe ull-length PCIe ●●●●● Model 7891 Half-length PCIe Model 7891 Half-length PCIe Model 7891 Half-length PCIe Model 7891 Half-length PCIe Model 7891 Half-length PCIe ●●●●● Model 5391 3U VPX Model 5391 3U VPX Model 5391 3U VPX Model 5391 3U VPX Model 5391 3U VPX
Model 7191 generates up to eight synthesized clocksignals suitable for driving A/D and D/A converters inhigh-performance real-time data acquisition and softwareradio systems. The clocks offer exceptionally low phase noiseand jitter to preserve the signal quality of the data converters.These clocks are synthesized from programmable VCXOsand can be phase-locked to an external reference signal.
The 7191 uses four Texas Instruments CDC7005 clocksynthesizer and jitter cleaner devices. Each CDC7005 is pairedwith a dedicated VCXO to provide the base frequency forthe clock synthesizer. Each of the four VCXOs can beindependently programmed to a desired frequency between50 MHz and 700 MHz with 32-bit tuning resolution.
The CDC7005 can output the programmed frequencyof its associated VCXO, or generate submultiples usingdivisors of 2, 4, 8 or 16. The four CDC7005’s can outputup to five frequencies each. The 7191 can be programmed toroute any of these 20 frequencies to the module’s fiveoutput drivers.
The CDC7005 includes phase-locking circuitrythat locks the frequency of its associated VCXO to aninput reference of 5 MHz to 100 MHz.
Eight front panel SMC connectors supply synthesizedclock outputs driven from the five clock output drivers.This supports a single identical clock to all eight outputsor up to five different clocks to various outputs. Withfour programmable VCXOs and each CDC7005capable of providing up to five different submultipleclocks, a wide range of clock configurations is possible. Insystems where more than five different clock outputs arerequired simultaneously, multiple 7191’s can be used andphase-locked with the 5 MHz to 100 MHz system reference.
Versions of the 7191 are also available as a PCIe full-length board (Models 7791 and 7791D dual density),PCIe half-length board (Model 7891), 3U VPX board(Model 5391), PCI board (Model 7691), 6U cPCI(Models 7291 and 7291D dual density), or 3U cPCI(Model 7391).
Model 7191PMC
PPPPPentek, Inc.entek, Inc.entek, Inc.entek, Inc.entek, Inc. • One Park Way, Upper Saddle River, NJ 07458 • Tel: (201) 818-5900 • Fax: (201) 818-5904 • Email: [email protected] • http://www.pentek.com
4343434343
Putting FPGAs to Work in Software Radio Systems
Figure 45
Model 7192 PMC/XMC Model 7192 PMC/XMC Model 7192 PMC/XMC Model 7192 PMC/XMC Model 7192 PMC/XMC ●●●●● Model 7892 Half-length PCIe Model 7892 Half-length PCIe Model 7892 Half-length PCIe Model 7892 Half-length PCIe Model 7892 Half-length PCIe ●●●●● Model 5292 3U VPX Model 5292 3U VPX Model 5292 3U VPX Model 5292 3U VPX Model 5292 3U VPXModel 7292 6U cPCI Model 7292 6U cPCI Model 7292 6U cPCI Model 7292 6U cPCI Model 7292 6U cPCI ●●●●● Model 7392 3U cPCI Model 7392 3U cPCI Model 7392 3U cPCI Model 7392 3U cPCI Model 7392 3U cPCI ● ● ● ● ● Model 7492 6U cPCIModel 7492 6U cPCIModel 7492 6U cPCIModel 7492 6U cPCIModel 7492 6U cPCI
High-Speed Synchronizer and Distribution BoardHigh-Speed Synchronizer and Distribution BoardHigh-Speed Synchronizer and Distribution BoardHigh-Speed Synchronizer and Distribution BoardHigh-Speed Synchronizer and Distribution Board
Model 7192PMC/XMC
PLL&
DIVIDER
Gate / Trigger Out
Sample Clk /Reference
Clk InMUX
ClkIn
RefIn
:N
PROGRAMMABLEVCXO
Clock /Calibration Out
:N
BUFFER&
PROGRAMDELAYS
Clk/RefIn
Sync OutReference Clk Out
TWSI Control InReference Clk In *
Gate / Trigger OutSync OutReference Clk Out
MUX
Trig/GateIn
SyncIn
TWSICONTROL
Gate / Trigger OutSync OutReference Clk Out
Gate / Trigger OutSync OutReference Clk Out
Gate / Trigger In
Sync In
�Sync 3
�Sync 2
�Sync 1
�Sync 4
* For 71640 A/D calibration
The Model 7192 High-Speed Synchronizer andDistribution Board synchronizes multiple Pentek Cobaltor Onyx modules within a system. It enables synchronoussampling and timing for a wide range of multichannelhigh-speed data acquisition, DSP, and software radioapplications. Up to four modules can be synchronizedusing the 7192, with each receiving a common clockalong with timing signals that can be used for synchro-nizing, triggering and gating functions.
Model 7192 provides three front panel MMCXconnectors to accept input signals from external sources:one for clock, one for gate or trigger and one for a synchro-nization signal. Clock signals can be applied from anexternal source such as a high performance sine-wavegenerator. Gate/trigger and sync signals can come froman external system source. In addition to the MMCXconnector, a reference clock can be accepted through thefirst front panel µSync output connector, allowing asingle Cobalt or Onyx board to generate the clock forall subsequent boards in the system.
The 7192 provides four front panel µSync outputconnectors, compatible with a range of high-speedPentek Cobalt and Onyx modules. The µSync signalsinclude a reference clock, gate/trigger and sync signals and aredistributed through matched cables, simplifying systemdesign. The 7192 features a calibration output specifi-cally designed to work with the 71640 or 717403.6 GHz A/D module and provide a signal reference forphase adjustment across multiple D/As.
The 7192 supports all high-speed models in the Cobaltfamily including the 71630 1 GHz A/D and D/A XMC,the 71640 3.6 GHz A/D XMC and the 71670 Four-channel 1.25 GHz, 16-bit D/A XMC. The 7192 will alsosupport high-speed models in the Onyx family as theybecome available.
Versions of the 7192 are also available as a PCIe half-length board (Model 7892), 3U VPX (Model 5292), 6UcPCI (Models 7292 and 7492 dual density), and 3UcPCI (Model 7392).
PPPPProductsroductsroductsroductsroducts
PPPPPentek, Inc.entek, Inc.entek, Inc.entek, Inc.entek, Inc. • One Park Way, Upper Saddle River, NJ 07458 • Tel: (201) 818-5900 • Fax: (201) 818-5904 • Email: [email protected] • http://www.pentek.com
4444444444
Putting FPGAs to Work in Software Radio Systems
Figure 46
Model 7893 - Half-length PCIeModel 7893 - Half-length PCIeModel 7893 - Half-length PCIeModel 7893 - Half-length PCIeModel 7893 - Half-length PCIe
System Synchronizer and Distribution BoardSystem Synchronizer and Distribution BoardSystem Synchronizer and Distribution BoardSystem Synchronizer and Distribution BoardSystem Synchronizer and Distribution Board
PPPPProductsroductsroductsroductsroducts
PLL&
DIVIDER
CLKIN
PROGRAMVCXO
Clock Out 1: N
BUFFER&
PROGRAMDELAYS
TTLSync / PPS B In
Timing Bus Out 2through
Timing Bus Out 7
USBINTERFACE
USB
Sample Clk A
Sample Clk BGate / Trig AGate / Trig B
Sync / PPS A
Sync / PPS B
Timing Bus In
Sample Clk ASample Clk BGate / Trig AGate / Trig BSync / PPS A
Sync / PPS B
Timing Bus Out 1
Sample Clk ASample Clk BGate / Trig AGate / Trig BSync / PPS A
Sync / PPS B
Timing Bus Out 8
MUX
TTLSync / PPS A In
MUX
MUX
MUX
TTLGate / Trig In
MUX
Sample Clk /Reference Clk In
Clock Out 2
Clock Out 3
Clock Out 4
: N
: N
: N
: N
Gate / Trig A
Gate / Trig B
Sync / PPS A
Sync / PPS B
MUX
USB Sync / PPS
USB Gate / Trig
REFCLKIN
CONTROLVOLTAGE
Sample Clk A
Sample Clk B
Sample Clk A
Sample Clk B
Control
USB Gate / Trig
USB Sync / PPS
Model 7893 System Synchronizer and DistributionBoard synchronizes multiple Pentek Cobalt and Onyxboards within a system. It enables synchronous sampling,playback and timing for a wide range of multichannelhigh-speed data acquisition, DSP and software radioapplications.
Up to eight boards can be synchronized using the7893, each receiving a common clock up to 800 MHzalong with timing signals that can be used for synchroniz-ing, triggering and gating functions. For larger systems,up to eight 7893s can be linked together to provide synchro-nization for up to 64 Cobalt or Onyx boards.
The Model 7893 provides four front panel SMAconnectors to accept LVTTL input signals fromexternal sources: two for Sync/PPS and one for Gate/Trigger. In addition to the synchronization signals, a frontpanel SMA connector accepts sample clocks up to 800 MHzor, in an alternate mode, accepts a 10 MHz referenceclock to lock an on-board VCXO sample clock source.
The 7893 provides eight timing bus output connec-tors for distributing all needed timing and clock signalsto the front panels of Cobalt and Onyx boards via ribboncables. The 7893 locks the Gate/Trigger and Sync/PPSsignals to the system’s sample clock. The 7893 alsoprovides four front panel SMA connectors for distrib-uting sample clocks to other boards in the system.
The 7893 can accept a clock from either the front panelSMA connector or from the timing bus input connector. Aprogrammable on-board VCXO clock generator can belocked to a user-supplied, 10 MHz reference.
The 7893 supports a wide range of products in theCobalt family including the 78620 and 78621 three-channelA/D 200 MHz transceivers, the 78650 and 78651 two-channelA/D 500 MHz transceivers, the 78660, 78661 and 78662four-channel 200 MHz A/Ds, and the 78690 L-Band RFTuner. The 7893 also supports the Onyx 78760 four-channel 200 MHz A/D and will support all complemen-tary models in the Onyx family as they become available.
PPPPPentek, Inc.entek, Inc.entek, Inc.entek, Inc.entek, Inc. • One Park Way, Upper Saddle River, NJ 07458 • Tel: (201) 818-5900 • Fax: (201) 818-5904 • Email: [email protected] • http://www.pentek.com
4545454545
Putting FPGAs to Work in Software Radio Systems
Model 7194 PMC/XMC Model 7194 PMC/XMC Model 7194 PMC/XMC Model 7194 PMC/XMC Model 7194 PMC/XMC ●●●●● Model 7894 Half-length PCIe Model 7894 Half-length PCIe Model 7894 Half-length PCIe Model 7894 Half-length PCIe Model 7894 Half-length PCIe ●●●●● Model 5294 3U VPX Model 5294 3U VPX Model 5294 3U VPX Model 5294 3U VPX Model 5294 3U VPXModel 5694 AMC Model 5694 AMC Model 5694 AMC Model 5694 AMC Model 5694 AMC ●●●●● Model 7294 6U cPCI Model 7294 6U cPCI Model 7294 6U cPCI Model 7294 6U cPCI Model 7294 6U cPCI ●●●●● Model 7394 3U cPCI Model 7394 3U cPCI Model 7394 3U cPCI Model 7394 3U cPCI Model 7394 3U cPCI ● ● ● ● ● Model 7492 6U cPCIModel 7492 6U cPCIModel 7492 6U cPCIModel 7492 6U cPCIModel 7492 6U cPCI
High-Speed Clock GeneratorHigh-Speed Clock GeneratorHigh-Speed Clock GeneratorHigh-Speed Clock GeneratorHigh-Speed Clock Generator
PPPPProductsroductsroductsroductsroducts
Figure 47
FREQUENCYSYNTHESIZER
OVENSTABlLIZED
OSCILLATOR
Clock Out 1
ReferenceClock In
Clock Out 2
frequency setby board option
Clock Out 4
REFERENCECLOCK
IN
SAMPLECLOCK
OUT
POWERSPLITTER
ReferenceClock Out
Clock Out 3
Model 7194PMC/XMC
Model 7194 High-Speed Clock Generator providesfixed-frequency sample clocks to Cobalt and Onyxmodules in multiboard systems. It enables synchronoussampling, playback and timing for a wide range ofmultichannel high-speed data acquisition and softwareradio applications.
The Model 7194 uses a high-precision, fixed-frequency, PLO (Phase-Locked Oscillator) to generatean output sample clock. The PLO accepts a 10 MHzreference clock through a front panel SMA connector.The PLO locks the output sample clock to the incomingreference. A power splitter then receives the sample clockand distributes it to four front panel SMA connectors.
The 7194 is available with sample clock frequenciesfrom 1.4 to 2.0 GHz.
In addition to accepting a reference clock on the frontpanel, the 7194 includes an on-board 10 MHzreference clock. The reference is an OCXO (Oven-Controlled Crystal Oscillator), which provides anexceptionally precise frequency standard with excellentphase noise characteristics.
The 7194 is a standard PMC/XMC module. Themodule does not require programming and the PMCP14 or XMC P15 connector is used solely for power.The module can be optionally configured with a PCIe-style 6-pin power connector allowing it to be used invirtually any chassis or enclosure.
Versions of the 7194 are also available as a PCIe half-length board (Model 7894), 3U VPX (Model 5294),AMC (Model 5694), 6U cPCI (Models 7294 and 7494dual density), and 3U cPCI (Model 7394).
PPPPPentek, Inc.entek, Inc.entek, Inc.entek, Inc.entek, Inc. • One Park Way, Upper Saddle River, NJ 07458 • Tel: (201) 818-5900 • Fax: (201) 818-5904 • Email: [email protected] • http://www.pentek.com
4646464646
Putting FPGAs to Work in Software Radio Systems
PPPPProductsroductsroductsroductsroducts
Figure 48
Clock and Sync Generator for I/O ModulesClock and Sync Generator for I/O ModulesClock and Sync Generator for I/O ModulesClock and Sync Generator for I/O ModulesClock and Sync Generator for I/O Modules
ToModuleNo. 80
FromModuleMasterSource
ToModuleNo. 2
ToModuleNo. 1
OPTIONALINTERNAL
OSCILLATOR
LVDSDIFF.
RECEIVER
LVDSDIFF.
DRIVERS
LVDSDIFF.
DRIVERS
LVDSDIFF.
DRIVERS
FrontPanel
OutputSMA
Connectors
LINEDRIVERS
FrontPanelInputSMA
Connectors
TimingSignals
MultiplexerSwitches
TimingSignals
TimingSignals
Ext. Clock
ClockLINERCVRS
Model 9190
Model 9190 - RModel 9190 - RModel 9190 - RModel 9190 - RModel 9190 - Rackmountackmountackmountackmountackmount
Model 9190 Clock and Sync Generator synchronizesmultiple Pentek I/O modules within a system to providesynchronous sampling and timing for a wide range ofhigh-speed, multichannel data acquisition, DSP andsoftware radio applications. Up to 80 I/O modules canbe driven from the Model 9190, each receiving acommon clock and up to five different timing signalswhich can be used for synchronizing, triggering andgating functions.
Clock and timing signals can come from six frontpanel SMA user inputs or from one I/O module set to actas the timing signal master. (In this case, the master I/Omodule will not be synchronous with the slave modulesdue to delays through the 9190.) Alternately, the masterclock can come from a socketed, user-replaceable crystaloscillator within the Model 9190.
Buffered versions of the clock and five timingsignals are available as outputs on the 9190’s front panelSMA connectors.
Model 9190 is housed in a line-powered, 1.75 in.high metal chassis suitable for mounting in a standard19 in. equipment rack, either above or below the cageholding the I/O modules.
Separate cable assemblies extend from openings inthe front panel of the 9190 to the front panel clock andsync connectors of each I/O module. Mounted betweentwo standard rack-mount card cages, Model 9190 candrive a maximum of 80 clock and sync cables, 40 to thecard cage above and 40 to the card cage below. Fewercables may be installed for smaller systems.
PPPPPentek, Inc.entek, Inc.entek, Inc.entek, Inc.entek, Inc. • One Park Way, Upper Saddle River, NJ 07458 • Tel: (201) 818-5900 • Fax: (201) 818-5904 • Email: [email protected] • http://www.pentek.com
4747474747
Putting FPGAs to Work in Software Radio Systems
PPPPProductsroductsroductsroductsroducts
High-Speed System Synchronizer UnitHigh-Speed System Synchronizer UnitHigh-Speed System Synchronizer UnitHigh-Speed System Synchronizer UnitHigh-Speed System Synchronizer Unit
Model 9192 - RModel 9192 - RModel 9192 - RModel 9192 - RModel 9192 - Rackmountackmountackmountackmountackmount
PLL&
DIVIDER
Gate / Trigger Out
Sample Clk /Reference
Clk InMUX
ClkIn
RefIn
:N
PROGRAMMABLEVCXO
Clock Out 1
:N
BUFFER&
PROGRAMDELAYS
ClkRefIn
Sync OutReference Clk Out
TWSI Control InReference Clk In *
Gate / Trigger OutSync OutReference Clk Out
MUX
Trig/GateIn
SyncIn
TWSICONTROL
Gate / Trigger OutSync OutReference Clk Out
Gate / Trigger In
Sync In
�Sync 2
�Sync 1
�Sync 12
* For 71640 A/D calibration
�Sync 3through
�Sync 11
Clock Out 2
Clock Out 12
CLOCKSPLITTER
Clock Out 3throughClock Out 11
External Clk In
MUX
USB-TO-TWSIINTERFACE
USB
Model 9192
Model 9192 Rackmount High-Speed SystemSynchronizer Unit synchronizes multiple Pentek Cobalt orOnyx modules within a system. It enables synchronoussampling and timing for a wide range of multichannelhigh-speed data acquisition, DSP, and software radioapplications. Up to twelve boards can be synchronizedusing the 9192, each receiving a common clock alongwith timing signals that can be used for synchronizing,triggering and gating functions.
Model 9192 provides four rear panel SMA connec-tors to accept input signals from external sources: twofor clock, one for gate or trigger and one for a synchro-nization signal. Clock signals can be applied from anexternal source such as a high performance sine-wavegenerator. Gate/trigger and sync signals can come from anexternal system source. In addition to the SMA connector,a reference clock can be accepted through the first rearpanel µSync output connector, allowing a single Cobaltor Onyx board to generate the clock for all subsequentboards in the system.
Figure 49
The 9192 provides four rear panel µSync outputconnectors, compatible with a range of high-speed PentekCobalt and Onyx boards. The µSync signals include areference clock, gate/trigger and sync signals and are distrib-uted through matched cables, simplifying system design.
The 9192 features twelve calibration outputsspecifically designed to work with the 71640 or 717403.6 GHz A/D module and provide a signal reference forphase adjustment across multiple D/As.
The 9192 allows programming of operation parametersincluding: VCXO frequency, clock dividers, and delays thatallow the user to make timing adjustments on the gate andsync signals. These adjustments are made before they are sentto buffers for output through the µSync connectors.
The 9192 supports all high-speed models in the Cobaltfamily including the 71630 1 GHz A/D and D/A XMC, the71640 3.6 GHz A/D XMC and the 71670 Four-channel1.25 GHz, 16-bit D/A XMC. The 9192 will also support high-speed models in the Onyx family as they become available.
PPPPPentek, Inc.entek, Inc.entek, Inc.entek, Inc.entek, Inc. • One Park Way, Upper Saddle River, NJ 07458 • Tel: (201) 818-5900 • Fax: (201) 818-5904 • Email: [email protected] • http://www.pentek.com
4848484848
Putting FPGAs to Work in Software Radio Systems
PPPPProductsroductsroductsroductsroducts
ChannelsIn
ChannelsOut
200 MHz16-bit A/D
Up to 8Channels
DIGITALDOWN-
CONVERTERDecimation:2 to 65,536
INTELPROCESSOR
SYSTEM DRIVEDDR
SDRAM
HOST PROCESSORRUNNING SYSTEMFLOW
UP TO 20 TB RAID
DATA DRIVES DATA DRIVES
DATA DRIVES DATA DRIVES
MODEL RTS 2706
USB 2.0
GigabitEthernet
PS/2Keyboard
PS/2Mouse
VideoOutput
2
6
eSATA2
GPSAntenna(Optional)
800 MHzor 1.25 GHz16-bit D/A
Up to 8Channels
DIGITALUP-
CONVERTERDecimation:2 to 65,536
Model RTS 2706 Model RTS 2706 Model RTS 2706 Model RTS 2706 Model RTS 2706
Figure 50
The Talon® RTS 2706 is a turnkey, multibandrecording and playback system for recording andreproducing high-bandwidth signals. The RTS 2706uses 16-bit, 200 MHz A/D converters and providessustained recording rates up to 2.0 GB/sec in four-channelconfiguration.
The RTS 2706 uses Pentek’s high-powered Virtex-6-basedCobalt modules, that provide flexibility in channel count,with optional digital downconversion capabilities. Optional16-bit, 800 MHz D/A converters with digital upconversionallow real-time reproduction of recorded signals.
A/D sampling rate, DDC decimation and bandwidth,D/A sampling rate and DUC interpolation are amongthe GUI-selectable system parameters, providing a fully-programmable system capable of recording and reproduc-ing a wide range of signals.
Included with this system is Pentek’s SystemFlowrecording software. Optional GPS time and positionstamping allows the user to record this critical signalinformation.
Built on a Windows® 7 Professional workstation withhigh performance Intel® CoreTM i7 processor, the RTS 2706allows the user to install post-processing and analysistools to operate on the recorded data. The instrumentrecords data to the native NTFS file system, providingimmediate access to the data.
The RTS 2706 is configured in a 4U 19" rackmoun-table chassis, with hot-swap data drives, front panel USBports and I/O connectors on the rear panel. Systems arescalable to accommodate multiple chassis to increasechannel counts and aggregate data rates. All recorderchassis are connected via Ethernet and can be controlledfrom a single GUI either locally or from a remote PC.
Model RTS 2706COTS
Model RTS 2706Rugged
Eight-Eight-Eight-Eight-Eight-Channel RF/IFChannel RF/IFChannel RF/IFChannel RF/IFChannel RF/IF, 200 MS/sec R, 200 MS/sec R, 200 MS/sec R, 200 MS/sec R, 200 MS/sec Rackmount Rackmount Rackmount Rackmount Rackmount Recorderecorderecorderecorderecorder
PPPPPentek, Inc.entek, Inc.entek, Inc.entek, Inc.entek, Inc. • One Park Way, Upper Saddle River, NJ 07458 • Tel: (201) 818-5900 • Fax: (201) 818-5904 • Email: [email protected] • http://www.pentek.com
4949494949
Putting FPGAs to Work in Software Radio Systems
PPPPProductsroductsroductsroductsroducts
Model RTS 2707 Model RTS 2707 Model RTS 2707 Model RTS 2707 Model RTS 2707
Figure 51
FFFFFourourourourour-----Channel RF/IFChannel RF/IFChannel RF/IFChannel RF/IFChannel RF/IF, 500 MS/sec R, 500 MS/sec R, 500 MS/sec R, 500 MS/sec R, 500 MS/sec Rackmount Rackmount Rackmount Rackmount Rackmount Recorderecorderecorderecorderecorder
INTELPROCESSOR
SYSTEM DRIVEDDR
SDRAM
HOST PROCESSORRUNNING SYSTEMFLOW
RAID DATA STORE
DATA DRIVES DATA DRIVES
DATA DRIVES DATA DRIVES
MODEL RTS 2707
USB 2.0
GigabitEthernet
PS/2Keyboard
PS/2Mouse
VideoOutput
GPSAntenna(Optional)
ChannelsIn
ChannelsOut
DIGITAL DOWN-CONVERTERDEC: 2 to 64K
800 MHz16-bit D/A
Up to 4Channels
500 MHz12-bit A/D
or400 MHz
14-bit A/DUp to 4
Channels
DIGITAL UP-CONVERTERINT: 2 to 64K
The Talon RTS 2707 is a turnkey, multibandrecording and playback system for recording and repro-ducing high-bandwidth signals. The RTS 2707 uses 12-bit,500 MHz A/D converters and provides sustained recordingrates up to 1.6 GB/sec in two-channel configuration.
The RTS 2707 uses Pentek’s high-powered Virtex-6-basedCobalt modules, that provide flexibility in channel count,with optional digital downconversion capabilities. Optional16-bit, 800 MHz D/A converters with digital upconversionallow real-time reproduction of recorded signals.
A/D sampling rate, DDC decimation and bandwidth,D/A sampling rate and DUC interpolation are amongthe GUI-selectable system parameters, providing a fully-programmable system capable of recording and reproducinga wide range of signals.
Optional GPS time and position stamping allowsthe user to record this critical signal information.
Included with the system is the SystemFlow Record-ing Software. SystemFlow features a Windows-basedGUI that provides a simple means to configure andcontrol the recorder. SystemFlow also includes signalviewing and analysis tools, that allow the user to monitorthe signal prior to, during, and after a recording session.These tools include a virtual oscilloscope and a virtualspectrum analyzer.
Built on a Windows 7 Professional workstation,the RTS 2707 allows the user to install post-processingand analysis tools to operate on the recorded data. TheRTS 2707 records data to the native NTFS file system,providing immediate access to the data.
The RTS 2707 is configured in a 4U 19" rackmount-able chassis, with hot-swappable data drives, front panelUSB ports and I/O connectors on the rear panel. Systemsare scalable to increase channel counts and aggregate data rates.
PPPPPentek, Inc.entek, Inc.entek, Inc.entek, Inc.entek, Inc. • One Park Way, Upper Saddle River, NJ 07458 • Tel: (201) 818-5900 • Fax: (201) 818-5904 • Email: [email protected] • http://www.pentek.com
5050505050
Putting FPGAs to Work in Software Radio Systems
Ultra WUltra WUltra WUltra WUltra Wideband One- or Tideband One- or Tideband One- or Tideband One- or Tideband One- or Twowowowowo-----Channel RF/IFChannel RF/IFChannel RF/IFChannel RF/IFChannel RF/IF, 3.2 GS/sec R, 3.2 GS/sec R, 3.2 GS/sec R, 3.2 GS/sec R, 3.2 GS/sec Rackmount Rackmount Rackmount Rackmount Rackmount Recorderecorderecorderecorderecorder
Channel 1In 3.6 GHz
(1 Channel)or
1.8 GHz(2 Channel)12-Bit A/D
INTELPROCESSOR
SYSTEM DRIVEDDR
SDRAM
HOST PROCESSORRUNNING SYSTEMFLOW
UP TO 20 TB RAID
DATA DRIVES DATA DRIVES
DATA DRIVES DATA DRIVES
MODEL RTS 2709
USB
GigabitEthernet
Keyboard
Mouse
VideoOutput
eSATA
GPSAntenna(Optional)
Channel 2In
The RTS 2709 includes the SystemFlow RecordingSoftware. SystemFlow features a Windows-based GUIthat provides a simple means to configure and control thesystem. Custom configurations can be stored as profilesand later loaded when needed, allowing the user to selectpreconfigured settings with a single click.
SystemFlow also includes signal viewing and analysistools that allow the user to monitor the signal prior to,during, and after a recording session.
Built on a Windows 7 Professional workstation,the RTS 2709 allows the user to install post-processingand analysis tools to operate on the recorded data. TheRTS 2709 records data to the native NTFS file systemthat provides immediate access to the data. The RTS 2709is configured in a 4U 19" rackmountable chassis, with hot-swap data drives, front panel USB ports and I/Oconnectors on the rear panel.
Model RTS 2709 Model RTS 2709 Model RTS 2709 Model RTS 2709 Model RTS 2709
Figure 52
The Talon RTS 2709 is a turnkey system used forrecording extremely high-bandwidth signals. The RTS 2709uses a 12-bit, 3.6 GHz A/D converter and can providesustained recording rates up to 3.2 GB/sec. It can beconfigured as a one- or two-channel system and can recordsampled data, packed as 8-bit wide consecutive samples,or as 16-bit wide consecutive samples (12-bit digitizedsamples residing in the 12 MSBs of the 16-bit word.)
The RTS 2709 uses Pentek’s high-powered Virtex-6-based Cobalt boards that provide the data streamingengine for the high-speed A/D converter. Channel andpacking modes as well as gate and trigger settings areamong the GUI-selectable system parameters, provid-ing complete control over this ultra wideband record-ing system.
Optional GPS time and position stamping allows the userto capture this information in the header of each data file.
PPPPProductsroductsroductsroductsroducts
PPPPPentek, Inc.entek, Inc.entek, Inc.entek, Inc.entek, Inc. • One Park Way, Upper Saddle River, NJ 07458 • Tel: (201) 818-5900 • Fax: (201) 818-5904 • Email: [email protected] • http://www.pentek.com
5151515151
Putting FPGAs to Work in Software Radio Systems
PPPPProductsroductsroductsroductsroducts
Model RTS 2715 Model RTS 2715 Model RTS 2715 Model RTS 2715 Model RTS 2715
Figure 53
TTTTTwowowowowo-----Channel 10-Channel 10-Channel 10-Channel 10-Channel 10-Gigabit Ethernet RGigabit Ethernet RGigabit Ethernet RGigabit Ethernet RGigabit Ethernet Rackmount Rackmount Rackmount Rackmount Rackmount Recorderecorderecorderecorderecorder
Ch 1In / Out 10G
Ethernet INTELPROCESSOR
SYSTEM DRIVEDDR
SDRAM
HOST PROCESSORRUNNING SYSTEMFLOW
UP TO 20 TB RAID
DATA DRIVES DATA DRIVES
DATA DRIVES DATA DRIVES
MODEL RTS 2715
USB 2.0
GigabitEthernet
PS/2Keyboard
PS/2Mouse
VideoOutput
2
6
eSATA2
GPSAntenna(Optional)
Ch 2In / Out 10G
Ethernet
The Talon RTS 2715 is a complete turnkey recordingsystem for storing one or two 10 gigabit Ethernet (10 GbE)streams. It is ideal for capturing any type of streaming sourcesincluding live transfers from sensors or data from other computersand supports both TCP and UDP protocols. Using highly-optimized disk storage technology, the system achievesaggregate recording rates up to 2.0 GB/sec.
Two rear panel SFP+LC connectors for 850 nm multi-mode or single-mode fibre cables, or CX4 connectors for coppertwinax cables accommodate all popular 10 GbE interfaces.Optional GPS time and position stamping accuratelyidentifies each record in the file header.
The RTS 2715 includes the SystemFlow RecordingSoftware. SystemFlow features a Windows-based GUI(Graphical User Interface) that provides a simple andintuitive means to configure and control the system.Custom configurations can be stored as profiles and later
loaded as needed, allowing the user to select preconfiguredsettings with a single click.
Built on a server-class Windows 7 Professionalworkstation, the RTS 2715 allows the user to installpost-processing and analysis tools to operate on therecorded data. The RTS 2715 records data to the nativeNTFS file system, providing immediate access to thedata.
The RTS 2715 is configured in a 4U or 5U 19" rack-mountable chassis, with hot-swap data drives, front panelUSB ports and I/O connectors on the rear panel. Systemsare scalable to accommodate multiple chassis to increasechannel counts and aggregate data rates.
All recorder chassis are connected via Ethernet andcan be controlled from a single GUI either locally orfrom a remote PC.
PPPPPentek, Inc.entek, Inc.entek, Inc.entek, Inc.entek, Inc. • One Park Way, Upper Saddle River, NJ 07458 • Tel: (201) 818-5900 • Fax: (201) 818-5904 • Email: [email protected] • http://www.pentek.com
5252525252
Putting FPGAs to Work in Software Radio Systems
PPPPProductsroductsroductsroductsroducts
Figure 54
Model RTS 2716 Model RTS 2716 Model RTS 2716 Model RTS 2716 Model RTS 2716
Eight-Eight-Eight-Eight-Eight-Channel Serial FPDP RChannel Serial FPDP RChannel Serial FPDP RChannel Serial FPDP RChannel Serial FPDP Rackmount Rackmount Rackmount Rackmount Rackmount Recorderecorderecorderecorderecorder
Ch 1In / Out Serial
FPDP
INTELPROCESSOR
SYSTEM DRIVEDDR
SDRAM
HOST PROCESSORRUNNING SYSTEMFLOW
UP TO 20 TB RAID
DATA DRIVES DATA DRIVES
DATA DRIVES DATA DRIVES
MODEL RTS 2716
USB 2.0
GigabitEthernet
PS/2Keyboard
PS/2Mouse
VideoOutput
2
6
GPSAntenna(Optional)
Ch 2In / Out Serial
FPDP
Ch 3In / Out Serial
FPDP
Ch 4In / Out Serial
FPDP
Ch 5In / Out Serial
FPDP
Ch 6In / Out Serial
FPDP
Ch 7In / Out Serial
FPDP
Ch 8In / Out Serial
FPDP
eSATA2
The Talon RTS 2716 is a complete turnkey recordingsystem capable of recording and playing multiple serialFPDP data streams. It is ideal for capturing any type ofstreaming sources including live transfers from sensorsor data from other computers and is fully compatiblewith the VITA 17.1 specification. Using highly-optimizeddisk storage technology, the system achieves aggregaterecording rates up to 3.4 GB/sec.
The RTS 2716 can be populated with up to eightSFP connectors supporting serial FPDP over copper,single-mode, or multi-mode fiber, to accommodate allpopular serial FPDP interfaces. It is capable of bothreceiving and transmitting data over these links andsupports real-time data storage to disk.
Programmable modes include flow control in bothreceive and transmit directions, CRC support, and copy/loop modes.The system is capable of handling 1.0625,
2.125, 2.5, 3.125 and 4.25 GBaud link rates supporting datatransfer rates of up to 425 MB/sec per serial FPDP link.
Built on a server-class Windows 7 Professional worksta-tion, the RTS 2716 allows the user to install post-processingand analysis tools to operate on the recorded data. TheRTS 2716 records data to the native NTFS file system,providing immediate access to the data.
The RTS 2716 is configured in a 4U or 5U 19" rack-mountable chassis, with hot-swap data drives, front panelUSB ports and I/O connectors on the rear panel. Up to24 hot-swappable SATA drives are optionally available,allowing up to 20 terabytes of real-time data storage spacein a single chassis.
The RTS 2716 includes the SystemFlow RecordingSoftware, which features a Windows-based GUI thatprovides a simple and intuitive means to configure andcontrol the system.
PPPPPentek, Inc.entek, Inc.entek, Inc.entek, Inc.entek, Inc. • One Park Way, Upper Saddle River, NJ 07458 • Tel: (201) 818-5900 • Fax: (201) 818-5904 • Email: [email protected] • http://www.pentek.com
5353535353
Putting FPGAs to Work in Software Radio Systems
Figure 55
PPPPProductsroductsroductsroductsroducts
Model RTS 2718 Model RTS 2718 Model RTS 2718 Model RTS 2718 Model RTS 2718
LLLLLVDS Digital I/O RVDS Digital I/O RVDS Digital I/O RVDS Digital I/O RVDS Digital I/O Rackmount Rackmount Rackmount Rackmount Rackmount Recorderecorderecorderecorderecorder
32-bitData In
32-bitLVDS I/ORecord
Interface
INTELPROCESSOR
SYSTEM DRIVEDDR
SDRAM
HOST PROCESSORRUNNING SYSTEMFLOW
UP TO 20 TB RAID
DATA DRIVES DATA DRIVES
DATA DRIVES DATA DRIVES
MODEL RTS 2718
USB
GigabitEthernet
Keyboard
Mouse
VideoOutput
2
8
GPSAntenna(Optional)
Clock
Data Valid
Data Suspend
32-bitData Out Optiional
32-bitLVDS I/OPlaybackInterface
Clock
Data Valid
Data Suspend
The Talon RTS 2718 is a complete turnkey systemfor recording and playing back digital data using aPentek LVDS digital I/O board. Using highly optimizeddisk storage technology, the system achieves sustainedrecording rates of up to 1 GB/sec.
The RTS 2718 utilizes a 32-bit LVDS interface thatcan be clocked at speeds up to 250 MHz. It includesData Valid and Suspend signals and provides the abilityto turn these signals on and off as well as control theirpolarity.
The RTS 2718 includes the SystemFlow RecordingSoftware. SystemFlow features a Windows-based GUIthat provides a simple means to configure and control thesystem. Custom configurations can be stored as profilesand later loaded when needed, allowing the user to selectpreconfigured settings with a single click.
Built on a Windows 7 Professional workstation,the RTS 2718 allows the user to install post-processingand analysis tools to operate on the recorded data. TheRTS 2718 records data to the native NTFS file system,providing immediate access to the recorded data.
Data can be off-loaded via two gigabit Ethernetports or eight USB ports. Additionally, data can becopied to optical disk using the 8X double layer DVD±R/RW drive.
The RTS 2718 is configured in a 4U 19" rack-mount-able chassis, with hot-swap data drives, front panel USBports and I/O connectors on the rear panel. Systems arescalable to accommodate multiple chassis to increasechannel counts and aggregate data rates. All recorderchassis are connected via Ethernet and can be controlledfrom a single GUI either locally or from a remote PC.
PPPPPentek, Inc.entek, Inc.entek, Inc.entek, Inc.entek, Inc. • One Park Way, Upper Saddle River, NJ 07458 • Tel: (201) 818-5900 • Fax: (201) 818-5904 • Email: [email protected] • http://www.pentek.com
5454545454
Putting FPGAs to Work in Software Radio Systems
PPPPProductsroductsroductsroductsroducts
Figure 56
FFFFFourourourourour-----Channel RF/IF 200 MS/sec RChannel RF/IF 200 MS/sec RChannel RF/IF 200 MS/sec RChannel RF/IF 200 MS/sec RChannel RF/IF 200 MS/sec Rugged Pugged Pugged Pugged Pugged Pororororortable Rtable Rtable Rtable Rtable Recorderecorderecorderecorderecorder
Model RTR 2726 Model RTR 2726 Model RTR 2726 Model RTR 2726 Model RTR 2726
The Talon RTR 2726 is a turnkey, multiband recordingand playback system designed to operate under conditionsof shock and vibration. It allows the user to record andreproduce high-bandwidth signals with a lightweight,portable and rugged package. The RTR 2726 providessustained recording rates of up to 1.6 GB/sec in a four-channelsystem and is ideal for the user who requires bothportability and solid performance in a compact record-ing system.
The RTR 2726 is supplied in a small footprintportable package measuring just 16.9" W x 9.5" D x13.4" H and weighing about 30 pounds. With measure-ments similar to a small briefcase, this portable workstationincludes an Intel Core i7 processor, a high-resolution17" LCD monitor, and a high-performance SATA RAIDcontroller.
At the heart of the RTR 2726 are Pentek CobaltSeries Virtex-6 software radio boards featuring A/D and
D/A converters, DDCs (Digital Downconverters), DUCs(Digital Upconverters), and complementary FPGA IPcores. This architecture allows the system engineer totake full advantage of the latest technology in a turnkeysystem. Optional GPS time and position stamping allowsthe user to record this critical signal information.
It is built on an extremely rugged, 100% aluminumalloy unit, reinforced with shock absorbing rubber cornersand an impact-resistant protective glass. Using vibrationand shock resistant SSDs, the RTR 2726 is designed toreliably operate as a portable field instrument in harshenvironments.
The eight hot-swappable SSDs provide a storagecapacity of up to 3.8 TB. The drives can be easily removedor exchanged during or after a mission to retrieve recordeddata. Because SSDs operate reliably under conditions ofvibration and shock, the RTR 2726 performs well inground, shipborne and airborne environments.
INTEL CORE i7PROCESSOR
SSDSYSTEM DRIVE
DDRSDRAM
WINDOWS HOST PROCESSOR
RAID DATA STORE
SSD DRIVES SSD DRIVES
SSD DRIVES SSD DRIVES
HIGH RESOLUTIONVIDEO DISPLAY
8x USB 2.0
1x GigabitEthernet
Aux VideoVGA Output
MODEL RTR 2726
ChannelsIn
ChannelsOut
2x eSATA 3
200 MHz16-bit A/D
Up to 4Channels
DIGITAL DOWNCONVERTERDEC: 2 to 64K
800 MHz16-bit D/A
Up to 2Channels
DIGITAL UPCONVERTER
INT: 2 to 512K
2x USB 3.0
PPPPPentek, Inc.entek, Inc.entek, Inc.entek, Inc.entek, Inc. • One Park Way, Upper Saddle River, NJ 07458 • Tel: (201) 818-5900 • Fax: (201) 818-5904 • Email: [email protected] • http://www.pentek.com
5555555555
Putting FPGAs to Work in Software Radio Systems
Figure 57
PPPPProductsroductsroductsroductsroducts
Model RTR 2727 Model RTR 2727 Model RTR 2727 Model RTR 2727 Model RTR 2727
TTTTTwowowowowo-----Channel RF/IF 500 MS/sec RChannel RF/IF 500 MS/sec RChannel RF/IF 500 MS/sec RChannel RF/IF 500 MS/sec RChannel RF/IF 500 MS/sec Rugged Pugged Pugged Pugged Pugged Pororororortable Rtable Rtable Rtable Rtable Recorderecorderecorderecorderecorder
INTEL CORE i7PROCESSOR
SSDSYSTEM DRIVE
DDRSDRAM
WINDOWS HOST PROCESSOR
RAID DATA STORE
SSD DRIVES SSD DRIVES
SSD DRIVES SSD DRIVES
HIGH RESOLUTIONVIDEO DISPLAY
8x USB 2.0
1x GigabitEthernet
Aux VideoVGA Output
MODEL RTR 2727
ChannelsIn
ChannelOut 2x eSATA 3
DIGITAL DOWN-CONVERTERDEC: 2 to 64K
800 MHz16-bit D/A
Up to 1Channel
500 MHz12-bit A/D
or400 MHz14-bit A/D
Up to 2Channels
DIGITAL UP-CONVERTERINT: 2 to 64K
2x USB 3.0
The Talon RTR 2727 is a turnkey, multiband recordingand playback system designed to operate under conditionsof shock and vibration. It allows the user to record andreproduce high-bandwidth signals with a lightweight,portable and rugged package. The RTR 2727 providessustained recording rates of up to 2.0 GB/sec in a two-channelsystem and is ideal for the user who requires bothportability and solid performance in a compact record-ing system.
The RTR 2727 is supplied in a small footprintportable package measuring just 16.9" W x 9.5" D x13.4" H and weighing about 30 pounds. With measure-ments similar to a small briefcase, this portable workstationincludes an Intel Core i7 processor, a high-resolution17" LCD monitor, and a high-performance SATA RAIDcontroller.
At the heart of the RTR 2727 are Pentek CobaltSeries Virtex-6 software radio boards featuring A/D and
D/A converters, DDCs (Digital Downconverters), DUCs(Digital Upconverters), and complementary FPGA IPcores. This architecture allows the system engineer totake full advantage of the latest technology in a turnkeysystem. Optional GPS time and position stamping allowsthe user to record this critical signal information.
It is built on an extremely rugged, 100% aluminumalloy unit, reinforced with shock absorbing rubber cornersand an impact-resistant protective glass. Using vibrationand shock resistant SSDs, the RTR 2727 is designed toreliably operate as a portable field instrument in harshenvironments.
The eight hot-swappable SSDs provide a storagecapacity of up to 3.8 TB. The drives can be easily removedor exchanged during or after a mission to retrieve recordeddata. Because SSDs operate reliably under conditions ofvibration and shock, the RTR 2727 performs well inground, shipborne and airborne environments.
PPPPPentek, Inc.entek, Inc.entek, Inc.entek, Inc.entek, Inc. • One Park Way, Upper Saddle River, NJ 07458 • Tel: (201) 818-5900 • Fax: (201) 818-5904 • Email: [email protected] • http://www.pentek.com
5656565656
Putting FPGAs to Work in Software Radio Systems
PPPPProductsroductsroductsroductsroductsPPPPProductsroductsroductsroductsroductsPPPPProductsroductsroductsroductsroducts
Figure 58
Eight-Eight-Eight-Eight-Eight-Channel Serial FPDP RChannel Serial FPDP RChannel Serial FPDP RChannel Serial FPDP RChannel Serial FPDP Rugged Pugged Pugged Pugged Pugged Pororororortable Rtable Rtable Rtable Rtable Recorderecorderecorderecorderecorder
Model RTR 2736 Model RTR 2736 Model RTR 2736 Model RTR 2736 Model RTR 2736
Ch 1In / Out Serial
FPDP
INTELPROCESSOR
SYSTEM DRIVEDDR
SDRAM
HOST PROCESSORRUNNING SYSTEMFLOW
UP TO 3.8 TB RAID
DATA DRIVES DATA DRIVES
DATA DRIVES DATA DRIVES
MODEL RTR 2736
USB 2.0
GigabitEthernet
PS/2Keyboard
PS/2Mouse
VideoOutput
1
8
eSATA2
GPSAntenna(Optional)
Ch 2In / Out Serial
FPDP
Ch 3In / Out Serial
FPDP
Ch 4In / Out Serial
FPDP
Ch 5In / Out Serial
FPDP
Ch 6In / Out Serial
FPDP
Ch 7In / Out Serial
FPDP
Ch 8In / Out Serial
FPDP
USB 3.02
The Talon RTR 2736 is a complete turnkey recordingsystem designed to operate under conditions of shock andvibration. It records and plays back multiple serial FPDPdata streams in a rugged, lightweight portable package.It is ideal for capturing any type of streaming sourcesincluding live transfers from sensors or data from othercomputers and is fully compatible with the VITA 17.1specification. Using highly-optimized disk storagetechnology, the system achieves aggregate recording ratesup to 1.6 GB/sec.
The RTR 2736 can be populated with up to eightSFP connectors supporting serial FPDP over copper, single-mode, or multi-mode fiber, to accommodate all popularserial FPDP interfaces. It is capable of both receiving andtransmitting data over these links and supports real-time datastorage to disk. The system is capable of handling 1.0625,2.125, 2.5, 3.125 and 4.25 GBaud link rates supportingdata transfer rates of up to 200 MB/sec per serial FPDP link.
The RTR 2736 includes the SystemFlow RecordingSoftware. SystemFlow features a Windows-based GUIthat provides a simple and intuitive means to configureand control the system. Custom configurations can bestored as profiles and later loaded as needed, allowing theuser to select preconfigured settings with a single click.
The RTR 2736 is configured in a portable, lightweightchassis with eight hot-swap SSDs, front panel USB portsand I/O connections on the side panel. It is built on anextremely rugged, 100% aluminum alloy unit, reinforcedwith shock absorbing rubber corners and an impact-resistantprotective glass. Using vibration and shock resistant SSDs,the RTR 2736 is designed to reliably operate as a portablefield instrument in harsh environments.
The eight hot-swappable SSDs provide storagecapacities of up to 3.8 TB. Drives can be easily removedor exchanged during or after a mission to retrieverecorded data.
PPPPPentek, Inc.entek, Inc.entek, Inc.entek, Inc.entek, Inc. • One Park Way, Upper Saddle River, NJ 07458 • Tel: (201) 818-5900 • Fax: (201) 818-5904 • Email: [email protected] • http://www.pentek.com
5757575757
Putting FPGAs to Work in Software Radio Systems
Figure 59
PPPPProductsroductsroductsroductsroducts
LLLLLVDS Digital I/O RVDS Digital I/O RVDS Digital I/O RVDS Digital I/O RVDS Digital I/O Rugged Pugged Pugged Pugged Pugged Pororororortable Rtable Rtable Rtable Rtable Recorderecorderecorderecorderecorder
Model RTR 2738 Model RTR 2738 Model RTR 2738 Model RTR 2738 Model RTR 2738
32-bitData In
32-bitLVDS I/ORecord
Interface
INTELPROCESSOR
SYSTEM DRIVEDDR
SDRAM
HOST PROCESSORRUNNING SYSTEMFLOW
UP TO 3.8 TB RAID
DATA DRIVES DATA DRIVES
DATA DRIVES DATA DRIVES
MODEL RTR 2738
USB 2.0
GigabitEthernet
Keyboard
PS2Mouse
VideoOutput
1
8
GPSAntenna(Optional)
Clock
Data Valid
Data Suspend
32-bitData Out Optiional
32-bitLVDS I/OPlaybackInterface
Clock
Data Valid
Data Suspend
USB 3.02
eSATA2
The Talon RTR 2738 is a complete turnkey systemfor recording and playing back digital data using aPentek LVDS digital I/O board. Using highly optimizeddisk storage technology, the rugged, lightweight portablepackage achieves sustained recording rates of up to1 GB/sec.
The RTR 2738 utilizes a 32-bit LVDS interfacethat can be clocked at speeds up to 250 MHz. It includesData Valid and Suspend signals and provides the abilityto turn these signals on and off as well as control theirpolarity. Optional GPS time and position stampingaccurately identifies each record in the file header.
The RTR 2738 includes the SystemFlow RecordingSoftware. SystemFlow features a Windows-based GUIthat provides a simple means to configure and control thesystem. Custom configurations can be stored as profilesand later loaded when needed, allowing the user to selectpreconfigured settings with a single click.
Built on a Windows 7 Professional workstation,the RTR 2738 allows the user to install post-processingand analysis tools to operate on the recorded data. TheRTR 2738 records data to the native NTFS file system,providing immediate access to the recorded data.
Data can be off-loaded via a gigabit Ethernet port,eight USB 2.0 ports, two USB 3.0 ports or two eSATA 3Ports. Additionally, data can be copied to optical disk, usingthe 8X double layer DVD ±R/RW drive.
The RTR 2738 is configured in a portable, lightweightchassis with eight hot-swap SSDs, front panel USB portsand I/O connections on the side panel. It is built on anextremely rugged, 100% aluminum alloy unit, reinforcedwith shock absorbing rubber corners and an impact-resistant protective glass. Using shock- and vibration-resistant SSDs, the RTR 2738 is designed to reliablyoperate as a portable field instrument.
PPPPPentek, Inc.entek, Inc.entek, Inc.entek, Inc.entek, Inc. • One Park Way, Upper Saddle River, NJ 07458 • Tel: (201) 818-5900 • Fax: (201) 818-5904 • Email: [email protected] • http://www.pentek.com
5858585858
Putting FPGAs to Work in Software Radio Systems
PPPPProductsroductsroductsroductsroducts
Model RTR 2746 Model RTR 2746 Model RTR 2746 Model RTR 2746 Model RTR 2746
Eight-Eight-Eight-Eight-Eight-Channel RF/IF 200 MS/Sec RChannel RF/IF 200 MS/Sec RChannel RF/IF 200 MS/Sec RChannel RF/IF 200 MS/Sec RChannel RF/IF 200 MS/Sec Rugged Rugged Rugged Rugged Rugged Rackmount Rackmount Rackmount Rackmount Rackmount Recorderecorderecorderecorderecorder
ChannelsIn
ChannelsOut
200 MHz16-bit A/D
Up to 8Channels
DIGITALDOWN-
CONVERTERDecimation:2 to 65,536
INTELPROCESSOR
SYSTEM DRIVEDDR
SDRAM
HOST PROCESSORRUNNING SYSTEMFLOW
UP TO 12 TB RAID
DATA DRIVES DATA DRIVES
DATA DRIVES DATA DRIVES
MODEL RTR 2746
USB 2.0
GigabitEthernet
PS/2Keyboard
PS/2Mouse
VideoOutput
2
6
eSATA2
GPSAntenna(Optional)
800 MHzor 1.25 GHz16-bit D/A
Up to 8Channels
DIGITALUP-
CONVERTERDecimation:2 to 65,536
The Talon RTR 2746 is a turnkey multiband recordingand playback system designed to operate under conditionsof shock and vibration. The RTR 2746 is intended formilitary, airborne, and UAV applications requiring a ruggedsystem. With scalable A/Ds, D/As and SSD (solid-statedrive) storage, the RTR 2746 can be configured to streamdata to and from disk at rates as high as 2.0 GB/sec.
The RTR 2746 uses Pentek’s high-performanceVirtex-6-based Cobalt boards, that provide flexibility inchannel count with optional digital downconversioncapabilities. Optional 16-bit, 800 MHz or 1.25 GHz D/Aconverters with digital upconversion allow real-timereproduction of recorded signals.
A/D sampling rate, DDC decimation and bandwidth,D/A sampling rate, and DUC interpolation are among theGUI-selectable system parameters, that provide a fullyprogrammable system.
The 24 hot-swappable SSD’s provide storage capacityof up to 12 TB. The drives can be easily removed orexchanged during or after a mission to retrieve recordeddata. Because SSDs operate reliably under conditions ofvibration and shock, the RTR 2746 performs well inground, shipborne and airborne environments.
The RTR 2746 is configured in a 4U 19" ruggedrackmountable chassis, with hot-swap data drives, frontpanel USB ports and I/O connectors on the rear panel.
All recorder chassis are connected via Ethernet and canbe controlled from a single GUI either locally or from aremote PC. Multiple RAID levels, including 0, 1, 5, 6, 10,and 50, provide a choice for the required level of redundancy.
Systems are scalable to accommodate multiple chassisto increase channel counts and aggregate data rates.
Figure 60
PPPPPentek, Inc.entek, Inc.entek, Inc.entek, Inc.entek, Inc. • One Park Way, Upper Saddle River, NJ 07458 • Tel: (201) 818-5900 • Fax: (201) 818-5904 • Email: [email protected] • http://www.pentek.com
5959595959
Putting FPGAs to Work in Software Radio Systems
Model RTR 2747 Model RTR 2747 Model RTR 2747 Model RTR 2747 Model RTR 2747
PPPPProductsroductsroductsroductsroducts
Figure 61
FFFFFourourourourour-----Channel RF/IF 500 MS/Sec RChannel RF/IF 500 MS/Sec RChannel RF/IF 500 MS/Sec RChannel RF/IF 500 MS/Sec RChannel RF/IF 500 MS/Sec Rugged Rugged Rugged Rugged Rugged Rackmount Rackmount Rackmount Rackmount Rackmount Recorderecorderecorderecorderecorder
INTELPROCESSOR
SYSTEM DRIVEDDR
SDRAM
HOST PROCESSORRUNNING SYSTEMFLOW
RAID DATA STORE
SSD DRIVES SSD DRIVES
SSD DRIVES SSD DRIVES
MODEL RTR 2747
USB 2.0
GigabitEthernet
PS/2Keyboard
PS/2Mouse
VideoOutput
GPSAntenna(Optional)
ChannelsIn
ChannelsOut
DIGITAL DOWN-CONVERTERDEC: 2 to 64K
800 MHz16-bit D/A
Up to 4Channels
500 MHz12-bit A/D
or400 MHz14-bit A/D
Up to 4Channels
DIGITAL UP-CONVERTERINT: 2 to 64K
The Talon RTR 2747 is a turnkey multiband recordingand playback system designed to operate under conditionsof shock and vibration. The RTR 2747 is intended formilitary, airborne, and UAV applications requiring a ruggedsystem. With scalable A/Ds, D/As and SSD (solid-statedrive) storage, the RTR 2747 can be configured to streamdata to and from disk at rates as high as 4.0 GB/sec.
The RTR 2747 uses Pentek’s high-performanceVirtex-6-based Cobalt boards, that provide flexibility inchannel count with optional digital downconversioncapabilities. Optional 16-bit, 800 MHz converters withdigital upconversion allow real-time reproduction ofrecorded signals.
A/D sampling rate, DDC decimation and bandwidth,D/A sampling rate, and DUC interpolation are among theGUI-selectable system parameters, that provide a fullyprogrammable system.
The hot-swappable SSD’s provide storage capacity ofup to 11.5 TB. The drives can be easily removed orexchanged during or after a mission to retrieve recordeddata. Because SSDs operate reliably under conditions ofvibration and shock, the RTR 2747 performs well inground, shipborne and airborne environments.
The RTR 2747 is configured in a 4U 19" ruggedrackmountable chassis, with hot-swap data drives, frontpanel USB ports and I/O connectors on the rear panel.
All recorder chassis are connected via Ethernet and canbe controlled from a single GUI either locally or from aremote PC. Multiple RAID levels, including 0, 1, 5, 6, 10,and 50, provide a choice for the required level of redundancy.
Systems are scalable to accommodate multiple chassisto increase channel counts and aggregate data rates.
PPPPPentek, Inc.entek, Inc.entek, Inc.entek, Inc.entek, Inc. • One Park Way, Upper Saddle River, NJ 07458 • Tel: (201) 818-5900 • Fax: (201) 818-5904 • Email: [email protected] • http://www.pentek.com
6060606060
Putting FPGAs to Work in Software Radio Systems
PPPPProductsroductsroductsroductsroducts
Figure 62
Ultra WUltra WUltra WUltra WUltra Wideband One- or Tideband One- or Tideband One- or Tideband One- or Tideband One- or Twowowowowo-----Channel RF/IFChannel RF/IFChannel RF/IFChannel RF/IFChannel RF/IF, 3.2 GS/sec R, 3.2 GS/sec R, 3.2 GS/sec R, 3.2 GS/sec R, 3.2 GS/sec Rugged Rugged Rugged Rugged Rugged Rackmount Rackmount Rackmount Rackmount Rackmount Recorderecorderecorderecorderecorder
Channel 1In 3.6 GHz
(1 Channel)or
1.8 GHz(2 Channel)12-Bit A/D
INTELPROCESSOR
SYSTEM DRIVEDDR
SDRAM
HOST PROCESSORRUNNING SYSTEMFLOW
UP TO 20 TB RAID
DATA DRIVES DATA DRIVES
DATA DRIVES DATA DRIVES
MODEL RTR 2749
USB
GigabitEthernet
Keyboard
Mouse
VideoOutput
eSATA
GPSAntenna(Optional)
Channel 2In
Designed to operate under conditions of shock andvibration, the Talon RTR 2749 is a turnkey system used forrecording extremely high-bandwidth signals. The RTR 2749uses a 12-bit, 3.6 GHz A/D converter and can providesustained recording rates up to 3.2 GB/sec. It can beconfigured as a one- or two-channel system and can recordsampled data, packed as 8-bit wide consecutive samples,or as 16-bit wide consecutive samples (12-bit digitizedsamples residing in the 12 MSBs of the 16-bit word.)
The RTR 2749 uses Pentek’s high-performanceVirtex-6-based Cobalt boards that provide the datastreaming engine for the high-speed A/D converter.Channel and packing modes as well as gate and triggersettings are among the GUI-selectable system parameters,providing complete control over this ultra-widebandrecording system. Optional GPS time and position stampingallows the user to capture this information in the header ofeach data file.
The RTR 2749 includes the SystemFlow RecordingSoftware. SystemFlow features a Windows-based GUIthat provides a simple means to configure and control thesystem. Custom configurations can be stored as profilesand later loaded when needed, allowing the user to selectpreconfigured settings with a single click. SystemFlowalso includes signal viewing and analysis tools that allowthe user to monitor the signal prior to, during, and aftera recording session.
Built on a Windows 7 Professional workstation,the RTR 2749 allows the user to install post-processingand analysis tools to operate on the recorded data.The hot-swappable SSDs provide a storage capacity of upto 19.2 TB. The drives can be easily removed or exchangedduring or after a mission to retrieve recorded data. BecauseSSDs operate reliably under conditions of vibrationand shock, the RTR 2749 performs well in ground,shipborne and airborne environments.
Model RTR 2749 Model RTR 2749 Model RTR 2749 Model RTR 2749 Model RTR 2749
PPPPPentek, Inc.entek, Inc.entek, Inc.entek, Inc.entek, Inc. • One Park Way, Upper Saddle River, NJ 07458 • Tel: (201) 818-5900 • Fax: (201) 818-5904 • Email: [email protected] • http://www.pentek.com
6161616161
Putting FPGAs to Work in Software Radio Systems
PPPPProductsroductsroductsroductsroducts
Model RTR 2755 Model RTR 2755 Model RTR 2755 Model RTR 2755 Model RTR 2755
TTTTTwowowowowo-----Channel 10-Channel 10-Channel 10-Channel 10-Channel 10-Gigabit Ethernet RGigabit Ethernet RGigabit Ethernet RGigabit Ethernet RGigabit Ethernet Rugged Rugged Rugged Rugged Rugged Rackmount Rackmount Rackmount Rackmount Rackmount Recorderecorderecorderecorderecorder
The RTR 2755 includes the SystemFlow RecordingSoftware that provides a simple and intuitive means toconfigure and control the system. Custom configurations canbe stored as profiles and later loaded as needed, allowing theuser to select preconfigured settings with a single click.
Built on a server-class Windows 7 Professionalworkstation, the RTR 2755 allows the user to installpost-processing and analysis tools to operate on therecorded data. The RTR 2755 records data to the nativeNTFS file system, providing immediate access to therecorded data.
Because SSDs operate reliably under conditions ofvibration and shock, the RTR 2755 performs well inground, shipborne and airborne environments. The 24 hot-swappable SSD’s provide a storage capacity of up to 12 TB.The drives can be easily removed or exchanged during orafter a mission to retrieve recorded data.
Figure 63
Ch 1In / Out 10G
Ethernet INTELPROCESSOR
SSDSYSTEM DRIVE
DDRSDRAM
WINDOWS HOST PROCESSOR
RAID DATA STORE
SSD DRIVES SSD DRIVES
SSD DRIVES SSD DRIVES
MODEL RTR 2755
USB 2.0
GigabitEthernet
PS/2Keyboard
PS/2Mouse
VideoOutput
2
6
eSATA2
GPSAntenna(Optional)
Ch 2In / Out 10G
Ethernet
Designed to operate under conditions of shock andvibration, the Talon RTR 2755 is a complete turnkeyrecording system for storing one or two 10 gigabit Ethernet(10 GbE) streams. It is ideal for capturing any type ofstreaming sources including live transfers from sensors or datafrom other computers and supports both TCP and UDPprotocols.
Using highly-optimized solid-state drive storagetechnology, the system guarantees loss-free performanceat aggregate recording rates up to 2.0 GB/sec.
Two rear panel SFP+ LC connectors for 850 nmmulti-mode or single-mode fibre cables, or CX4 connec-tors for copper twinax cables accommodate all popular10 GbE interfaces.
Optional GPS time and position stamping accuratelyidentifies each record in the file header.
PPPPPentek, Inc.entek, Inc.entek, Inc.entek, Inc.entek, Inc. • One Park Way, Upper Saddle River, NJ 07458 • Tel: (201) 818-5900 • Fax: (201) 818-5904 • Email: [email protected] • http://www.pentek.com
6262626262
Putting FPGAs to Work in Software Radio Systems
PPPPProductsroductsroductsroductsroducts
Model RTR 2756 Model RTR 2756 Model RTR 2756 Model RTR 2756 Model RTR 2756
Eight-Eight-Eight-Eight-Eight-Channel Serial FPDP RChannel Serial FPDP RChannel Serial FPDP RChannel Serial FPDP RChannel Serial FPDP Rugged Rugged Rugged Rugged Rugged Rackmount Rackmount Rackmount Rackmount Rackmount Recorderecorderecorderecorderecorder
Figure 64
Ch 1In / Out Serial
FPDP
INTELPROCESSOR
SYSTEM DRIVEDDR
SDRAM
HOST PROCESSORRUNNING SYSTEMFLOW
UP TO 20 TB RAID
DATA DRIVES DATA DRIVES
DATA DRIVES DATA DRIVES
MODEL RTR 2756
USB 2.0
GigabitEthernet
PS/2Keyboard
PS/2Mouse
VideoOutput
2
6
GPSAntenna(Optional)
Ch 2In / Out Serial
FPDP
Ch 3In / Out Serial
FPDP
Ch 4In / Out Serial
FPDP
Ch 5In / Out Serial
FPDP
Ch 6In / Out Serial
FPDP
Ch 7In / Out Serial
FPDP
Ch 8In / Out Serial
FPDP
eSATA2
Designed to operate under conditions of shock andvibration, the Talon RTR 2756 is a complete turnkeyrecording system capable of recording and playingmultiple serial FPDP data streams. It is ideal for capturingany type of streaming sources and is fully compatiblewith the VITA 17.1 specification. Using highly-optimizeddisk storage technology, the system achieves aggregaterecording rates up to 3.4 GB/sec.
The RTR 2756 can be populated with up to eightSFP connectors supporting serial FPDP over copper,single-mode, or multi-mode fiber to accommodate allpopular serial FPDP interfaces. It is capable of bothreceiving and transmitting data over these links andsupports real-time data storage to disk. The system iscapable of handling 1.0625, 2.125, 2.5, 3.125 and 4.25GBaud link rates supporting data transfer rates of up to425 MB/sec per serial FPDP link.
Built on a server-class Windows 7 Professional worksta-tion, the RTR 2756 allows the user to install post-processingand analysis tools to operate on the recorded data. TheRTR 2756 records data to the native NTFS file system,providing immediate access to the data.
Because SSDs operate reliably under conditions ofvibration and shock, the RTR 2756 performs well inground, ship and airborne environments. Configurablewith as many as 40 hot-swappable SSDs, the RTR 2756can provide storage capacities of up to 19.2 TB in a rugged4U chassis. Drives can be easily removed or exchangedduring or after a mission to retrieve recorded data.
Multiple RAID levels, including 0,1,5, 6, 10 and 50provide a choice for the required level on redundancy.Redundant power supplies are optionally available toprovide a robust and reliable high-performance recordingsystem.
PPPPPentek, Inc.entek, Inc.entek, Inc.entek, Inc.entek, Inc. • One Park Way, Upper Saddle River, NJ 07458 • Tel: (201) 818-5900 • Fax: (201) 818-5904 • Email: [email protected] • http://www.pentek.com
6363636363
Putting FPGAs to Work in Software Radio Systems
Model RTR 2758 Model RTR 2758 Model RTR 2758 Model RTR 2758 Model RTR 2758
LLLLLVDS Digital I/O RVDS Digital I/O RVDS Digital I/O RVDS Digital I/O RVDS Digital I/O Rugged Rugged Rugged Rugged Rugged Rackmount Rackmount Rackmount Rackmount Rackmount Recorderecorderecorderecorderecorder
Figure 65
PPPPProductsroductsroductsroductsroducts
32-bitData In
32-bitLVDS I/ORecord
Interface
INTELPROCESSOR
SYSTEM DRIVEDDR
SDRAM
HOST PROCESSORRUNNING SYSTEMFLOW
UP TO 19.2 TB RAID
DATA DRIVES DATA DRIVES
DATA DRIVES DATA DRIVES
MODEL RTR 2758
USB
GigabitEthernet
Keyboard
Mouse
VideoOutput
2
6
GPSAntenna(Optional)
Clock
Data Valid
Data Suspend
32-bitData Out Optiional
32-bitLVDS I/OPlaybackInterface
Clock
Data Valid
Data Suspend
eSATA
The Talon RTR 2758 is a complete turnkey systemfor recording and playing back digital data using aPentek LVDS digital I/O board. Using highly optimizeddisk storage technology, the rugged rackmount systemachieves sustained recording rates up to 1 GB/sec.
The RTR 2758 utilizes a 32-bit LVDS interfacethat can be clocked at speeds up to 250 MHz. It includesData Valid and Suspend signals and provides the abilityto turn these signals on and off as well as control theirpolarity. Optional GPS time and position stampingaccurately identifies each record in the file header.
The RTR 2758 includes the SystemFlow RecordingSoftware. SystemFlow features a Windows-based GUIthat provides a simple means to configure and control thesystem. Custom configurations can be stored as profilesand later loaded when needed, allowing the user to selectpreconfigured settings with a single click.
Built on a Windows 7 Professional workstation,the RTR 2758 allows the user to install post-processingand analysis tools to operate on the recorded data. TheRTR 2758 records data to the native NTFS file system,providing immediate access to the recorded data.
Because SSDs operate reliably under conditions ofshock and vibration, the RTR 2758 performs well in ground,shipborne and airborne environments. Configurablewith as many as 40 hot-swappable SSDs, the RTR 2758can provide storage capacities of up to 19.2 TB in a rugged4U chassis. Drives can be easily removed or exchangedduring or after a mission to retrieve recorded data.
The RTR 2758 is configured in a 4U 19" rack-mountable chassis, with hot-swap data drives, front panelUSB ports and I/O connectors on the rear panel. Systemsare scalable to accommodate multiple chassis that increasechannel counts and aggregate data rates.
PPPPPentek, Inc.entek, Inc.entek, Inc.entek, Inc.entek, Inc. • One Park Way, Upper Saddle River, NJ 07458 • Tel: (201) 818-5900 • Fax: (201) 818-5904 • Email: [email protected] • http://www.pentek.com
6464646464
Putting FPGAs to Work in Software Radio Systems
Model RTX 2786 Model RTX 2786 Model RTX 2786 Model RTX 2786 Model RTX 2786
Figure 66
FFFFFourourourourour-----Channel RF/IF 200 MS/Sec Extreme 3U VPX RChannel RF/IF 200 MS/Sec Extreme 3U VPX RChannel RF/IF 200 MS/Sec Extreme 3U VPX RChannel RF/IF 200 MS/Sec Extreme 3U VPX RChannel RF/IF 200 MS/Sec Extreme 3U VPX Recorderecorderecorderecorderecorder
CH 1In
200 MHz16-bit A/D
MODEL53621
Out
Sample Clk /Reference In
CLOCK &SYNC
GENERATOR
PROGRAMVCXO
DIGITALDOWN-
CONVERTER
DIGITALUPCONVERTER
INTELPROCESSOR
SYSTEM DRIVE
A
DDRSDRAM
HOST PROCESSOR
RAID
DATA DRIVES DATA DRIVES
DATA DRIVES DATA DRIVES
MODEL RTX 2786
USB 2.0
GigabitEthernet
VideoOutput
CH 2In
200 MHz16-bit A/D
DIGITALDOWN-
CONVERTER
CH 3In
200 MHz16-bit A/D
DIGITALDOWN-
CONVERTER
A
2
4
Three Record Channels and One Playback Channel.
800 MHz16-bit D/A
The Talon RTX 2786 is a turnkey, RF/IF signalrecorder designed to operate under extreme environmen-tal conditions. Housed in a ½ ATR chassis, the RTX2786 leverages Pentek’s 3U VPX SDR modules to provide arugged recording system with up to four 16-bit, 200 MHzA/D converters with built-in digital downconversioncapabilities. Optionally, the RTX 2786 provides one800 MHz, 16-bit D/A converter with a digital upconverterfor signal playback or waveform generation. As shown inthe block diagram, the maximum number of record channelswith this option is three.
The RTX 2786 uses conduction cooling to draw heatfrom the system components allowing it to operate in reducedair environments. It includes 1.92 TB of solid-state datastorage, that allows it to operate with no degradation underconditions of extreme shock and vibration. The system ishermetically sealed and provides five D38999 connectorsfor power and I/O with four SMA connectors for analog I/O.
The RTX 2786 includes Pentek’s SystemFlowRecording Software. SystemFlow features a Windows-based GUI that provides a simple means to configureand control the system. Custom configurations can bestored as profiles and later loaded when needed, allowingthe user to select preconfigured settings with a single click.SystemFlow also includes signal viewing and analysistools, that allow the user to monitor the signal prior to,during, and after a recording session. These tools include avirtual oscilloscope and a virtual spectrum analyzer.
The user API allows users to integrate the recorder asa subsystem of a larger system. The API is provided as a C-callable library and allows for the recorder to be controlledover Ethernet, thus providing the ability to remotelycontrol the recorder from a custom interface.
Four built-in solid-state drives provide reliable, high-speed storage with a total capacity of 1.92 TB.
PPPPProductsroductsroductsroductsroducts
PPPPPentek, Inc.entek, Inc.entek, Inc.entek, Inc.entek, Inc. • One Park Way, Upper Saddle River, NJ 07458 • Tel: (201) 818-5900 • Fax: (201) 818-5904 • Email: [email protected] • http://www.pentek.com
6565656565
Putting FPGAs to Work in Software Radio Systems
PPPPProductsroductsroductsroductsroducts
PPPPPentek SystemFlow Rentek SystemFlow Rentek SystemFlow Rentek SystemFlow Rentek SystemFlow Recording Sofecording Sofecording Sofecording Sofecording Software for Analog Rtware for Analog Rtware for Analog Rtware for Analog Rtware for Analog Recordersecordersecordersecordersecorders
Figure 67
Signal Viewer
Recorder Interface Hardware ConfigurationInterface
The Pentek SystemFlow Recording Software for AnalogRecorders provides a rich set of function libraries and toolsfor controlling all Pentek high-speed real-time recordingsystems. SystemFlow software allows developers toconfigure and customize system interfaces and behavior.
The Recorder Interface includes configuration, record,playback and status screens, each with intuitive controlsand indicators. The user can easily move between screensto set configuration parameters, control and monitor arecording, play back a recorded signal and monitorboard temperatures and voltage levels.
The Hardware Configuration Interface providesentries for input source, center frequency, decimation, aswell as gate and trigger information. All parameterscontain limit-checking and integrated help to provide aneasier-to-use out-of-the-box experience.
The SystemFlow Signal Viewer includes a virtualoscilloscope and spectrum analyzer for signal monitoringin both the time and frequency domains. It is extremelyuseful for previewing live inputs prior to recording, andfor monitoring signals as they are being recorded to helpensure successful recording sessions. The viewer can alsobe used to inspect and analyze the recorded files after therecording is complete.
Advanced signal analysis capabilities include automaticcalculators for signal amplitude and frequency, secondand third harmonic components, THD (total harmonicdistortion) and SINAD (signal to noise and distortion).With time and frequency zoom, panning modes and dualannotated cursors to mark and measure points of interest,the SystemFlow Signal Viewer can often eliminate theneed for a separate oscilloscope or spectrum analyzer inthe field.
PPPPPentek, Inc.entek, Inc.entek, Inc.entek, Inc.entek, Inc. • One Park Way, Upper Saddle River, NJ 07458 • Tel: (201) 818-5900 • Fax: (201) 818-5904 • Email: [email protected] • http://www.pentek.com
6666666666
Putting FPGAs to Work in Software Radio Systems
PPPPPentek SystemFlow Rentek SystemFlow Rentek SystemFlow Rentek SystemFlow Rentek SystemFlow Recording Sofecording Sofecording Sofecording Sofecording Software for Digital Rtware for Digital Rtware for Digital Rtware for Digital Rtware for Digital Recordersecordersecordersecordersecorders
Figure 68
PPPPProductsroductsroductsroductsroducts
The SystemFlow Software for Digital Resordersprovides the user with a control interface for the recordingsystem. It includes Configuration, Record, Playback, andStatus screens, each with intuitive controls and indicators.
The user can easily move between screens to setconfiguration parameters, control and monitor a recording,and play back a recorded stream. All parameters containlimit-checking and integrated help to provide an easier-to-use out-of-the-box experience.
The Configure Screen shows a block diagram ofthe system, and presents operational system parametersincluding temperature and voltages. Parameters areentered for each input or output channel specifyingUDP or TCP protocol, client or server connection, theIP address and port number.
The Recording and Playback Screen allows you tobrowse a folder and enter a file name for the recording.The length of the recording for each channel can bespecified in megabytes or in seconds. Intuitive buttonsfor Record, Pause and Stop simplify operation. Statusindicators for each channel display the mode, the numberof recorded bytes, and the average data rate. A Data Lossindicator alerts the user to any problem, such as a disk-full condition.
By checking the Master Record boxes, any combina-tion of channels in the lower screen can be grouped forsynchronous recording via the upper Master Record screen.The recording time can be specified, and monitoringfunctions inform the operator of recording progress.
Recording and Playback Screen
Configure Screen
Hardware Configuration
PPPPPentek, Inc.entek, Inc.entek, Inc.entek, Inc.entek, Inc. • One Park Way, Upper Saddle River, NJ 07458 • Tel: (201) 818-5900 • Fax: (201) 818-5904 • Email: [email protected] • http://www.pentek.com
6767676767
Putting FPGAs to Work in Software Radio Systems
PPPPProductsroductsroductsroductsroducts
Model 8266 Model 8266 Model 8266 Model 8266 Model 8266
Figure 69
PC Development System for PCIe Cobalt and Onyx BoardsPC Development System for PCIe Cobalt and Onyx BoardsPC Development System for PCIe Cobalt and Onyx BoardsPC Development System for PCIe Cobalt and Onyx BoardsPC Development System for PCIe Cobalt and Onyx Boards
The Model 8266 is a fully-integrated PC develop-ment system for Pentek 786xx Cobalt and 787xx OnyxPCI Express software radio, data acquisition, and I/Oboards. It was created to save engineers and systemintegrators the time and expense associated with buildingand testing a development system that ensures optimumperformance of Pentek boards.
A fully-integrated system-level solution, the 8266provides the user with a streamlined out-of-the-boxexperience. It comes preconfigured with Pentek hardware,drivers and software examples installed and tested to allowdevelopment engineers to run example applications outof the box.
Pentek ReadyFlow drivers and board supportlibraries are preinstalled and tested with the 8266.ReadyFlow includes example applications with fullsource code, a command line interface for custom
control over hardware, and Pentek’s Signal Analyzer, afull-featured analysis tool that continuously displays livesignals in both time and frequency domains.
Built on a professional 4U rackmount workstation,the 8266 is equipped with the latest Intel processor,DDR3 SDRAM and a high-performance motherboard.These features accelerate application code developmentand provide unhindered access to the high-bandwidthdata available with Cobalt and Onyx analog and digitalinterfaces. The 8266 can be configured with 64-bitWindows or Linux operating systems.
The 8266 uses a 19” 4U rackmount chassis thatis 21” deep. Enhanced forced-air ventilation assuresadequate cooling for Pentek Cobalt and Onyx boards. A1000-W power supply guarantees more than enoughpower for additional boards.
PPPPPentek, Inc.entek, Inc.entek, Inc.entek, Inc.entek, Inc. • One Park Way, Upper Saddle River, NJ 07458 • Tel: (201) 818-5900 • Fax: (201) 818-5904 • Email: [email protected] • http://www.pentek.com
6868686868
Putting FPGAs to Work in Software Radio Systems
RF SWITCH
RF In IF Out
RefIn
ExtLOIn
BANDPASSFILTER
STEPATTENUATOR
STEPATTENUATOR
MIXER IF FILTER
RF Attenuation
IF Attenuation
LO Select
LO Synthesizer Tuning Frequency
USBINTERFACE
LOWNOISEAMP
GAINBLOCK
GAINBLOCK
GAINBLOCK
GAINBLOCK
ControlIn
OVENCONTROLLED
CRYSTALOSCILLATOR
RefOut
LO
PPPPProductsroductsroductsroductsroducts
Model 8111 Model 8111 Model 8111 Model 8111 Model 8111
Figure 70
Bandit Modular Analog RF Slot RBandit Modular Analog RF Slot RBandit Modular Analog RF Slot RBandit Modular Analog RF Slot RBandit Modular Analog RF Slot Receivers and Downconvereceivers and Downconvereceivers and Downconvereceivers and Downconvereceivers and Downconverterstersterstersters
The Bandit® Model 8111 provides a series of high-perfor-mance, stand-alone RF slot receiver modules. Packaged ina small, shielded enclosure with connectors for easyintegration into RF systems, the modules offer programmablegain, high dynamic range and a low noise figure. Withinput options to cover specific frequency bands of the RFspectrum, and an IF output optimized for A/D converters,the 8111 is an ideal solution for amplifying and down-converting antenna signals for communications, radar andsignal intelligence systems.
The 8111 accepts RF signals on a front panel SMAconnector. An LNA (Low Noise-figure Amplifier) isprovided along with two programmable attenuatorsallowing downconversion of input signals ranging from–60 dBm to –20 dBm in steps of 0.5 dB. Higher levelsignals can be attenuated prior to input.
Seven different input-frequency band options areoffered, each tunable across a 400 MHz band, with anoverlap of 100 MHz between adjacent bands. As agroup, these seven options accommodate RF inputsignals from 800 MHz to 3.000 GHz as follows:
Option Frequency Band001 800-1200 MHz002 1100-1500 MHz003 1400-1800 MHz004 1700-2100 MHz005 2000-2400 MHz006 2300-2700 MHz007 2600-3000 MHz
An 80 MHz wide IF output is provided at a 225 MHzcenter frequency . This output is suitable for A/D conver-sion using Pentek high-performance signal acquisitionproducts, such as those in the Cobalt and Onyx families.
PPPPPentek, Inc.entek, Inc.entek, Inc.entek, Inc.entek, Inc. • One Park Way, Upper Saddle River, NJ 07458 • Tel: (201) 818-5900 • Fax: (201) 818-5904 • Email: [email protected] • http://www.pentek.com
6969696969
Putting FPGAs to Work in Software Radio Systems
ApplicationsApplicationsApplicationsApplicationsApplications
Figure 71
INTELPROCESSOR
SYSTEM DRIVEDDR
SDRAM
HOST PROCESSOR
UP TO 20 TB RAID
DATA DRIVES DATA DRIVES
DATA DRIVES DATA DRIVES
USB 2.0
GigabitEthernet
PS/2Keyboard
PS/2Mouse
VideoOutput
2
6
eSATA2
GPSAntenna
x8 PCIe
x8 PCIe
Input A
Input B
Input C
Input D
200 MHzA/D
200 MHzA/D
200 MHzA/D
200 MHzA/D
FPGAwith
4 banks of8-Channel
DDC
Pentek Cobalt 78622 PCIe Board
Input A
Input B
Input C
Input D
200 MHzA/D
200 MHzA/D
200 MHzA/D
200 MHzA/D
FPGAwith
4 banks of8-Channel
DDC
Pentek Cobalt 78622 PCIe Board
64-64-64-64-64-Channel SofChannel SofChannel SofChannel SofChannel Software Rtware Rtware Rtware Rtware Radio Radio Radio Radio Radio Recording Systemecording Systemecording Systemecording Systemecording System
Each DDC delivers a complex output stream consist-ing of 24-bit I + 24-bit Q samples at a rate of ƒs/N. Anynumber of channels can be enabled within each bank,selectable from 0 to 8. Each bank includes an outputsample interleaver that delivers a channel-multiplexedstream for all enabled channels within a bank.
An internal timing bus provides all timing and synchro-nization required by the eight A/D converters. It includesa clock, two sync and two gate or trigger signals. An on-board clock generator receives an external sample clock.This clock can be used directly by the A/D or divided bya built-in clock synthesizer circuit.
Built on a Windows 7 Professional workstation withhigh performance Intel® CoreTM i7 processor this systemallows the user to install post processing and analysistools to operate on the recorded data. The system recordsdata to the native NTFS file system, providing immediateaccess to the recorded data.
Included with this system is Pentek’s SystemFlowrecording software. Optional GPS time and positionstamping allows the user to record this critical signalinformation.
Shown above is a 64-channel recording system utilizingtwo Pentek Cobalt 78662 PCIe boards. The 78662samples four input channels at up to 200 megasamplesper second, thereby accommodating input signals withup to 80 MHz bandwidth.
Factory-installed in the FPGA of each 78662 is apowerful DDC IP core containing 32 channels. Each ofthe 32 channels has an independent 32-bit tuningfrequency setting that ranges from DC to ƒs, where ƒs isthe A/D sampling frequency. All of the 8 channelswithin each bank share a common decimation settingthat can range from 16 to 8192, programmable in stepsof 8. For example, with a sampling rate of 200 MHz, theavailable output bandwidths range from 19.53 kHz to10.0 MHz. Each 8-channel bank can have its ownunique decimation setting supporting a different band-width associated with each of the four acquisition modules.
The decimating filter for each DDC bank acceptsa unique set of user-supplied 18-bit coefficients. The 80%default filters deliver an output bandwidth of 0.8*ƒs/N,where N is the decimation setting. The rejection ofadjacent-band components within the 80% outputbandwidth is better than 100 dB.
PPPPPentek, Inc.entek, Inc.entek, Inc.entek, Inc.entek, Inc. • One Park Way, Upper Saddle River, NJ 07458 • Tel: (201) 818-5900 • Fax: (201) 818-5904 • Email: [email protected] • http://www.pentek.com
7070707070
Putting FPGAs to Work in Software Radio Systems
Figure 72
LLLLL-Band Signal P-Band Signal P-Band Signal P-Band Signal P-Band Signal Processing Systemrocessing Systemrocessing Systemrocessing Systemrocessing System
ApplicationsApplicationsApplicationsApplicationsApplications
The Cobalt Model 78690 L-Band RF Tuner targetsreception and processing of digitally-modulated RFsignals such as satellite television and terrestrial wirelesscommunications. The 78690 requires only an antennaand a host computer to form a complete L-band SDRdevelopment platform.
This system receives L-Band signals between 925 MHzand 2175 MHz directly from an antenna. Signals abovethis range such as C Band, Ku Band and K band can bedownconverted to L-Band through an LNB (Low NoiseBlock) downconverter installed in the receiving antenna.
The Maxim Max2112 L-Band Tuner IC features alow-noise amplifier with programmable gain from 0 to65 dB and a synthesized local oscillator programmablefrom 925 to 2175 MHz. The complex analog mixertranslates the input signals down to DC. Basebandamplifiers provide programmable gain from 0 to 15 dBin steps of 1 dB. The bandwidth of the baseband lowpassfilters can be programmed from 4 to 40 MHz . TheMaxim IC accommodates full-scale input levels of -50 dBmto +10 dbm and delivers I and Q complex baseband outputs.
Analog Digital
Baseband IL-Band
x8 PCIe
LNA
Analog Local
Oscillator
Synthesizer
Q
Baseband AmpsAnalog Mixer
Analog Mixer
I
AnalogLowpass
FilterA/D
A/D
FPGA
VIRTEX-6
PC
WINDOWS
RF Input Baseband Q
MaximMAX2112
Pentek 78690 PCIe Board
LowpassFilter
Analog
The complex I and Q outputs are digitized by two200 MHz 16-bit A/D converters operating synchronously.
The Virtex-6 FPGA is a powerful resource forrecovering and processing a wide range of signalswhile supporting decryption, decoding, demodula-tion, detection, and analysis. It is ideal for interceptingor monitoring traffic in SIGINT and COMINTapplications. Other applications that benefit includemobile phones, GPS, satellite terminals, military telem-etry, digital video and audio in TV broadcasting satellites,and voice, video and data communications.
This L-Band signal processing system is ideal as afront end for government and military systems. Its smallsize adderesses space-limited applications. Ruggedizedoptions are also available from Pentek with the Models71690 XMC module and the 53690 OpenVPX board toaddress UAV applications and other severe environments.
Development support for this system is provided bythe Pentek ReadyFlow board support package for Windows,Linux and VxWorks. Also available is the Pentek GateFlowFPGA Design Kit to support custom algorithm development.
PPPPPentek, Inc.entek, Inc.entek, Inc.entek, Inc.entek, Inc. • One Park Way, Upper Saddle River, NJ 07458 • Tel: (201) 818-5900 • Fax: (201) 818-5904 • Email: [email protected] • http://www.pentek.com
7171717171
Putting FPGAs to Work in Software Radio Systems
Figure 73
ApplicationsApplicationsApplicationsApplicationsApplications
8-8-8-8-8-Channel OpenVPX Beamforming SystemChannel OpenVPX Beamforming SystemChannel OpenVPX Beamforming SystemChannel OpenVPX Beamforming SystemChannel OpenVPX Beamforming System
Two Model 53661 boards are installed in slots 1 and2 of an OpenVPX backplane, along with a CPU boardin slot 3. Eight dipole antennas designed for receiving2.5 GHz signals feed RF Tuners containing low noiseamplifiers, local oscillators and mixers. The RF Tunerstranslate the 2.5 GHz antenna frequency signal downto an IF frequency of 50 MHz.
The 200 MHz 16-bit A/Ds digitize the IF signalsand perform further frequency downconversion to baseband,with a DDC decimation of 128. This provides I+Q complexoutput samples with a bandwidth of about 1.25 MHz. Phaseand gain coefficients for each channel are applied tosteer the array for directionality.
The CPU board in VPX slot 3 sends commandsand coefficients across the backplane over two x4 PCIelinks, or OpenVPX “fat pipes”.
The first four signal channels are processed in theupper left 53661 board in VPX slot 1, where the 4-channelbeamformed sum is propagated through the 4X AuroraSum Out link across the backplane to the 4X Aurora SumIn port on the second 53661 in slot 2. The 4-channel localsummation from the second 53661 is added to the propa-gated sum from the first board to form the complete 8-channelsum. This final sum is sent across the x4 PCIe link to theCPU card in slot 3.
Assignment of the three OpenVPX 4X links on theModel 53661 boards is simplified through the use of acrossbar switch which allows the 53661 to operate witha wide variety of different backplanes.
Because OpenVPX does not restrict the use of serialprotocols across the backplane links, mixed protocolarchitectures like the one shown are fully supported. ➤
VPX P1
Slot 1
EP02
EP01
DP01
FP C
VPX P1
Slot 2
VPX P1
Slot 3 CPU
EP02
EP01
DP01
FPC
x4 PCIe
x4 PCIe
200 MHz
16-bit A/D
DDC 4G + Phase
PCIe
x4
I/F
200 MHz16-bit A/D
200 MHz
16-bit A/D
200 MHz
16-bit A/D
AURORA
BEAMFORMSUMMATION
DDC 3
G + Phase
DDC 2G + Phase
DDC 1
G + Phase
4X Sum In
4X Sum Out
Model 53661
x4 PCIe
200 MHz
16-bit A/D
DDC 4
G + Phase
PCIe
x4
I/F
200 MHz16-bit A/D
200 MHz
16-bit A/D
200 MHz
16-bit A/D
AURORA
BEAMFORMSUMMATION
DDC 3
G + Phase
DDC 2
G + Phase
DDC 1
G + Phase
4X Sum In
4X Sum Out
x4 PCIe
Model 53661
RF Tuner
RF Tuner
RF Tuner
RF Tuner
RF Tuner
RF Tuner
RF Tuner
RF Tuner
FP B
FP A
DP01
DP02
OpenVPX
CPUBoard
VPXBACKPLANE
4X Aurora
PPPPPentek, Inc.entek, Inc.entek, Inc.entek, Inc.entek, Inc. • One Park Way, Upper Saddle River, NJ 07458 • Tel: (201) 818-5900 • Fax: (201) 818-5904 • Email: [email protected] • http://www.pentek.com
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ApplicationsApplicationsApplicationsApplicationsApplications
Figure 74
8-8-8-8-8-Channel OpenVPX Beamforming Demo systemChannel OpenVPX Beamforming Demo systemChannel OpenVPX Beamforming Demo systemChannel OpenVPX Beamforming Demo systemChannel OpenVPX Beamforming Demo system
➤ The beamforming demo system is equipped with aControl Panel that runs under Windows on the CPUboard. It includes an automatic signal scanner to detectthe strongest signal frequency arriving from a testtransmitter. This frequency is centered around the50 MHz IF frequency of the RF downconverter. Oncethe frequency is identified, the eight DDCs are setaccordingly to bring that signal down to 0 Hz forsummation.
The control panel software also allows specifichardware settings for all of the parameters for the eightchannels including gain, phase, and sync delay.
An additional display shows the beam-formed pattern ofthe array. This display is formed by adjusting the phaseshift of each of the eight channels to provide maximumsensitivity across arrival angles from -90O to +90O
perpendicular to the plane of the array.
The classic 7-lobe pattern for an ideal 8-elementarray for a signal arriving at 0O angle (directly in front ofthe array) is shown above. Below the lobe pattern is apolar plot showing a single vector pointing to thecomputed angle of arrival. This is derived from identify-ing the lobe with the maximum response.
An actual plot of a real-life transmitter is also shownfor a source directly in front of the display. In this casethe perfect lobe pattern is affected by physical objects,reflections, cable length variations and minor differencesin the antennas. Nevertheless, the directional informationis computed quite well. As the signal source is moved leftand right in front of the array, the peak lobe moves withit, changing the computed angle of arrival.
This demo system is available online at Pentek. Ifyou are interested in viewing a live demonstration, pleaselet us know of your interest by clicking on this link:
Beamforming Demo.
Beamforming Demo Control Panel Theoretical 7-lobe Beamforming Patern Real-Life Beamforming Patern
PPPPPentek, Inc.entek, Inc.entek, Inc.entek, Inc.entek, Inc. • One Park Way, Upper Saddle River, NJ 07458 • Tel: (201) 818-5900 • Fax: (201) 818-5904 • Email: [email protected] • http://www.pentek.com
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The following links provide you with additional information about the Pentek productspresented in this handbook: just click on the model number. Links are also provided to otherhandbooks or catalogs that may be of interest in your software radio development projects.
ModelModelModelModelModel DescriptionDescriptionDescriptionDescriptionDescription PPPPPageageageageage
7142 Multichannel Transceiver with Virtex-4 FPGAs - PMC/XMC 157242 Multichannel Transceiver with Virtex-4 FPGAs - 6U cPCI 157342 Multichannel Transceiver with Virtex-4 FPGAs - 3U cPCI 157642 Multichannel Transceiver with Virtex-4 FPGAs - PCI 157742 Multichannel Transceiver with Virtex-4 FPGAs - Full-length PCIe 157842 Multichannel Transceiver with Virtex-4 FPGAs - Half-length PCIe 155342 Multichannel Transceiver with Virtex-4 FPGAs - 3U VPX 157142-428 Multichannel Transceiver w. Four Multiband DDCs and Interpolation Filter - PMC/XMC 167242-428 Multichannel Transceiver w. Four Multiband DDCs and Interpolation Filter- 6U cPCI 167342-428 Multichannel Transceiver w. Four Multiband DDCs and Interpolation Filter- 3U cPCI 167642-428 Multichannel Transceiver w. Four Multiband DDCs and Interpolation Filter- PCI 167742-428 Multichannel Transceiver w. Four Multiband DDCs and Interpolation Filter- Full-length PCIe 167842-428 Multichannel Transceiver w. Four Multiband DDCs and Interpolation Filter- Half-length PCIe 165342-428 Multichannel Transceiver w. Four Multiband DDCs and Interpolation Filter- 3U VPX 167150 Quad 200 MHz, 16-bit A/D with Virtex-5 FPGAs - PMC/XMC 177250 Quad 200 MHz, 16-bit A/D with Virtex-5 FPGAs - 6U cPCI 177350 Quad 200 MHz, 16-bit A/D with Virtex-5 FPGAs - 3U cPCI 177650 Quad 200 MHz, 16-bit A/D with Virtex-5 FPGAs - PCI 177750 Quad 200 MHz, 16-bit A/D with Virtex-5 FPGAs - Full-length PCIe 177850 Quad 200 MHz, 16-bit A/D with Virtex-5 FPGAs - Half-length PCIe 175350 Quad 200 MHz, 16-bit A/D with Virtex-5 FPGAs - 3U VPX 177151 256-Channel DDC with Quad 200 MHz, 16-bit A/D - PMC 187251 256-Channel DDC with Quad 200 MHz, 16-bit A/D - 6U cPCI 187351 256-Channel DDC with Quad 200 MHz, 16-bit A/D - 3U cPCI 187651 256-Channel DDC with Quad 200 MHz, 16-bit A/D - PCI 187751 256-Channel DDC with Quad 200 MHz, 16-bit A/D - Full-length PCIe 187851 256-Channel DDC with Quad 200 MHz, 16-bit A/D - Half-length PCIe 185351 256-Channel DDC with Quad 200 MHz, 16-bit A/D - 3U VPX 187152 32-Channel DDC with Quad 200 MHz, 16-bit A/D - PMC 197252 32-Channel DDC with Quad 200 MHz, 16-bit A/D - 6U cPCI 197352 32-Channel DDC with Quad 200 MHz, 16-bit A/D - 3U cPCI 197652 32-Channel DDC with Quad 200 MHz, 16-bit A/D - PCI 197752 32-Channel DDC with Quad 200 MHz, 16-bit A/D - Full-length PCIe 197852 32-Channel DDC with Quad 200 MHz, 16-bit A/D - Half-length PCIe 195352 32-Channel DDC with Quad 200 MHz, 16-bit A/D - 3U VPX 197153 4-Channel DDC with Quad 200 MHz, 16-bit A/D - PMC/XMC 207253 4-Channel DDC with Quad 200 MHz, 16-bit A/D - 6U cPCI 207353 4-Channel DDC with Quad 200 MHz, 16-bit A/D - 3U cPCI 207653 4-Channel DDC with Quad 200 MHz, 16-bit A/D - PCI 207753 4-Channel DDC with Quad 200 MHz, 16-bit A/D - Full-length PCIe 207853 4-Channel DDC with Quad 200 MHz, 16-bit A/D - Half-length PCIe 205353 4-Channel DDC with Quad 200 MHz, 16-bit A/D - 3U VPX 20
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ModelModelModelModelModel DescriptionDescriptionDescriptionDescriptionDescription PPPPPageageageageage
7156 Dual SDR Transceiver, 400 MHz A/D, 800 MHz D/A, Virtex-5 FPGAs - PMC/XMC 217256 Dual SDR Transceiver, 400 MHz A/D, 800 MHz D/A, Virtex-5 FPGAs - 6U cPCI 217356 Dual SDR Transceiver, 400 MHz A/D, 800 MHz D/A, Virtex-5 FPGAs - 3U cPCI 217656 Dual SDR Transceiver, 400 MHz A/D, 800 MHz D/A, Virtex-5 FPGAs - PCI 217756 Dual SDR Transceiver, 400 MHz A/D, 800 MHz D/A, Virtex-5 FPGAs - Full-length PCIe 217856 Dual SDR Transceiver, 400 MHz A/D, 800 MHz D/A, Virtex-5 FPGAs - Half-length PCIe 215356 Dual SDR Transceiver, 400 MHz A/D, 800 MHz D/A, Virtex-5 FPGAs - 3U VPX 217158 Dual SDR Transceiver, 500 MHz A/D, 800 MHz D/A, Virtex-5 FPGAs - PMC/XMC 227258 Dual SDR Transceiver, 500 MHz A/D, 800 MHz D/A, Virtex-5 FPGAs - 6U cPCI 227358 Dual SDR Transceiver, 500 MHz A/D, 800 MHz D/A, Virtex-5 FPGAs - 3U cPCI 227658 Dual SDR Transceiver, 500 MHz A/D, 800 MHz D/A, Virtex-5 FPGAs - PCI 227758 Dual SDR Transceiver, 500 MHz A/D, 800 MHz D/A, Virtex-5 FPGAs - Full-length PCIe 227858 Dual SDR Transceiver, 500 MHz A/D, 800 MHz D/A, Virtex-5 FPGAs - Half-length PCIe 225358 Dual SDR Transceiver, 500 MHz A/D, 800 MHz D/A, Virtex-5 FPGAs - 3U VPX 2271620 3-Channel 200 MHz A/D, DUC, 2-Channel 800 MHz D/A, Virtex-6 FPGA - XMC 2378620 3-Channel 200 MHz A/D, DUC, 2-Channel 800 MHz D/A, Virtex-6 FPGA - PCIe 2352620 & 53620 3-Channel 200 MHz A/D, DUC, 2-Channel 800 MHz D/A, Virtex-6 FPGA - 3U VPX 2356620 3-Channel 200 MHz A/D, DUC, 2-Channel 800 MHz D/A, Virtex-6 FPGA - AMC 2372620 3-Channel 200 MHz A/D, DUC, 2-Channel 800 MHz D/A, Virtex-6 FPGA - 6U cPCI 2373620 3-Channel 200 MHz A/D, DUC, 2-Channel 800 MHz D/A, Virtex-6 FPGA - 3U cPCI 2374620 6-Channel 200 MHz A/D, DUC, 4-Channel 800 MHz D/A, Two Virtex-6 FPGAs - 6U cPCI 2371720 3-Channel 200 MHz A/D, DUC, 2-Channel 800 MHz D/A, Virtex-7 FPGA - XMC 2478720 3-Channel 200 MHz A/D, DUC, 2-Channel 800 MHz D/A, Virtex-7 FPGA - PCIe 2452720 & 52720 3-Channel 200 MHz A/D, DUC, 2-Channel 800 MHz D/A, Virtex-7 FPGA - 3U VPX 2456720 3-Channel 200 MHz A/D, DUC, 2-Channel 800 MHz D/A, Virtex-7 FPGA - AMC 2472720 3-Channel 200 MHz A/D, DUC, 2-Channel 800 MHz D/A, Virtex-7 FPGA - 6U cPCI 2473720 3-Channel 200 MHz A/D, DUC, 2-Channel 800 MHz D/A, Virtex-7 FPGA - 3U cPCI 2474720 6-Channel 200 MHz A/D, DUC, 4-Channel 800 MHz D/A, Two Virtex-7 FPGAs - 6U cPCI 24 — GateXpress for FPGA-PCIE Configuration Management 2571621 3-Channel 200 MHz A/D, DUC, 2-Channel 800 MHz D/A, Installed IP Cores - XMC 2678621 3-Channel 200 MHz A/D, DUC, 2-Channel 800 MHz D/A, Installed IP Cores - PCIe 2652621 & 53621 3-Channel 200 MHz A/D, DUC, 2-Channel 800 MHz D/A, Installed IP Cores - 3U VPX 2656621 3-Channel 200 MHz A/D, DUC, 2-Channel 800 MHz D/A, Installed IP Cores - AMC 2672621 3-Channel 200 MHz A/D, DUC, 2-Channel 800 MHz D/A, Installed IP Cores - 6U cPCI 2673621 3-Channel 200 MHz A/D, DUC, 2-Channel 800 MHz D/A, Installed IP Cores - 3U cPCI 2674621 6-Channel 200 MHz A/D, DUC, 4-Channel 800 MHz D/A, Installed IP Cores - 6U cPCI 2678630 1 GHz A/D, 1 GHz D/A, Virtex-6 FPGA - PCIe 2771630 1 GHz A/D, 1 GHz D/A, Virtex-6 FPGA - XMC 2752630 & 53630 1 GHz A/D, 1 GHz D/A, Virtex-6 FPGA - 3U VPX 2756630 1 GHz A/D, 1 GHz D/A, Virtex-6 FPGA - AMC 2772630 1 GHz A/D, 1 GHz D/A, Virtex-6 FPGA - 6U cPCI 2773630 1 GHz A/D, 1 GHz D/A, Virtex-6 FPGA - 3U cPCI 2774630 Two 1 GHz A/Ds, Two 1 GHz D/As, Two Virtex-6 FPGAs - 6U cPCI 27
PPPPPentek, Inc.entek, Inc.entek, Inc.entek, Inc.entek, Inc. • One Park Way, Upper Saddle River, NJ 07458 • Tel: (201) 818-5900 • Fax: (201) 818-5904 • Email: [email protected] • http://www.pentek.com
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ModelModelModelModelModel DescriptionDescriptionDescriptionDescriptionDescription PPPPPageageageageage72640 1-Channel 3.6 GHz and 2-Channel 1.8 GHz, 12-bit A/D, Virtex-6 FPGA - 6U cPCI 2873640 1-Channel 3.6 GHz and 2-Channel 1.8 GHz, 12-bit A/D, Virtex-6 FPGA - 3U cPCI 2874640 2-Channel 3.6 GHz and 4-Channel 1.8 GHz, 12-bit A/D, Virtex-6 FPGAs - 6U cPCI 2871640 1-Channel 3.6 GHz and 2-Channel 1.8 GHz, 12-bit A/D, Virtex-6 FPGA - XMC 2878640 1-Channel 3.6 GHz and 2-Channel 1.8 GHz, 12-bit A/D, Virtex-6 FPGA - PCIe 2852640 & 53640 1-Channel 3.6 GHz and 2-Channel 1.8 GHz, 12-bit A/D, Virtex-6 FPGA - 3U VPX 2856640 1-Channel 3.6 GHz and 2-Channel 1.8 GHz, 12-bit A/D, Virtex-6 FPGA - AMC 2856641 1-Channel 3.6 GHz and 2-Channel 1.8 GHz, 12-bit A/D, DDC, Virtex-6 FPGA - AMC 2971641 1-Channel 3.6 GHz and 2-Channel 1.8 GHz, 12-bit A/D, DDC, Virtex-6 FPGA - XMC 2978641 1-Channel 3.6 GHz and 2-Channel 1.8 GHz, 12-bit A/D, DDC, Virtex-6 FPGAs - PCIe 2952641 & 53641 1-Channel 3.6 GHz and 2-Channel 1.8 GHz, 12-bit A/D, DDC, Virtex-6 FPGA - 3U VPX 2972641 1-Channel 3.6 GHz and 2-Channel 1.8 GHz, 12-bit A/D, DDC, Virtex-6 FPGA - 6U cPCI 2973641 1-Channel 3.6 GHz and 2-Channel 1.8 GHz, 12-bit A/D, DDC, Virtex-6 FPGA - 3U cPCI 2974641 2-Channel 3.6 GHz and 4-Channel 1.8 GHz, 12-bit A/D, DDCs, Virtex-6 FPGA - 6U cPCI 2952650 & 53650 2-Channel 500 MHz A/D, DUC, 2-Channel 800 MHz D/A, Virtex-6 FPGA - 3U VPX 3071650 2-Channel 500 MHz A/D, DUC, 2-Channel 800 MHz D/A, Virtex-6 FPGA - XMC 3078650 2-Channel 500 MHz A/D, DUC, 2-Channel 800 MHz D/A, Virtex-6 FPGA - PCIe 3056650 2-Channel 500 MHz A/D, DUC, 2-Channel 800 MHz D/A, Virtex-6 FPGA - AMC 3072650 2-Channel 500 MHz A/D, DUC, 2-Channel 800 MHz D/A, Virtex-6 FPGA - 6U cPCI 3073650 2-Channel 500 MHz A/D, DUC, 2-Channel 800 MHz D/A, Virtex-6 FPGA - 3U cPCI 3074650 4-Channel 500 MHz A/D, DUC, 4-Channel 800 MHz D/A, Two Virtex-6 FPGAs - 6U cPCI 3072651 2-Channel 500 MHz A/D, with DDCs, DUC, 2-Channel 800 MHz D/A, Virtex-6 FPGA - 6U cPCI 3173651 2-Channel 500 MHz A/D, with DDCs, DUC, 2-Channel 800 MHz D/A, Virtex-6 FPGA - 3U cPCI 3174651 4-Channel 500 MHz A/D, with DDCs, DUCs, 4-Channel 800 MHz D/A, Virtex-6 FPGA- 6U cPCI 3171651 2-Channel 500 MHz A/D, with DDCs, DUC, 2-Channel 800 MHz D/A, Virtex-6 FPGA - XMC 3178651 2-Channel 500 MHz A/D, with DDCs, DUC, 2-Channel 800 MHz D/A, Virtex-6 FPGA - PCIe 3152651 & 53651 2-Channel 500 MHz A/D, with DDCs, DUC, 2-Channel 800 MHz D/A, Virtex-6 FPGA - 3U VPX 3156651 2-Channel 500 MHz A/D, with DDCs, DUC, 2-Channel 800 MHz D/A, Virtex-6 FPGA - AMC 3171660 4-Channel 200 MHz 16-bit A/D with Virtex-6 FPGA - XMC 3278660 4-Channel 200 MHz 16-bit A/D with Virtex-6 FPGA - PCIe 3252660 & 53660 4-Channel 200 MHz 16-bit A/D with Virtex-6 FPGA - 3U VPX 3256660 4-Channel 200 MHz 16-bit A/D with Virtex-6 FPGA - AMC 3272660 4-Channel 200 MHz 16-bit A/D with Virtex-6 FPGA - 6U cPCI 3273660 4-Channel 200 MHz 16-bit A/D with Virtex-6 FPGAs - 3U cPCI 3274660 8-Channel 200 MHz 16-bit A/D with Two Virtex-6 FPGAs - 6U cPCI 3271760 4-Channel 200 MHz 16-bit A/D with Virtex-7 FPGA - XMC 3378760 4-Channel 200 MHz 16-bit A/D with Virtex-7 FPGA - PCIe 3352760 & 53760 4-Channel 200 MHz 16-bit A/D with Virtex-7 FPGA - 3U VPX 3356760 4-Channel 200 MHz 16-bit A/D with Virtex-7 FPGA - AMC 3372760 4-Channel 200 MHz 16-bit A/D with Virtex-7 FPGA - 6U cPCI 3373760 4-Channel 200 MHz 16-bit A/D with Virtex-7 FPGA - 3U cPCI 3374760 8-Channel 200 MHz 16-bit A/D with Two Virtex-7 FPGAs - 6U cPCI 33
PPPPPentek, Inc.entek, Inc.entek, Inc.entek, Inc.entek, Inc. • One Park Way, Upper Saddle River, NJ 07458 • Tel: (201) 818-5900 • Fax: (201) 818-5904 • Email: [email protected] • http://www.pentek.com
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ModelModelModelModelModel DescriptionDescriptionDescriptionDescriptionDescription PPPPPageageageageage
71661 4-Channel 200 MHz 16-bit A/D with Installed IP Cores - XMC 3478661 4-Channel 200 MHz 16-bit A/D with Installed IP Cores - PCIe 3452661 & 53661 4-Channel 200 MHz 16-bit A/D with Installed IP Cores - 3U VPX 3456661 4-Channel 200 MHz 16-bit A/D with Installed IP Cores - AMC 3472661 4-Channel 200 MHz 16-bit A/D with Installed IP Cores - 6U cPCI 3473661 4-Channel 200 MHz 16-bit A/D with Installed IP Cores - 3U cPCI 3474661 8-Channel 200 MHz 16-bit A/D with Installed IP Cores - 6U cPCI 3478662 4-Channel 200 MHz 16-bit A/D with Installed IP Cores - PCIe 3571662 4-Channel 200 MHz 16-bit A/D with Installed IP Cores - XMC 3552662 & 53662 4-Channel 200 MHz 16-bit A/D with Installed IP Cores - 3U VPX 3556662 4-Channel 200 MHz 16-bit A/D with Installed IP Cores - AMC 3572662 4-Channel 200 MHz 16-bit A/D with Installed IP Cores - 6U cPCI 3573662 4-Channel 200 MHz 16-bit A/D with Installed IP Cores - 3U cPCI 3574662 8-Channel 200 MHz 16-bit A/D with Installed IP Cores - 6U cPCI 3556670 4-Channel 1.25 GHz D/A with DUC, Virtex-6 FPGA - AMC 3671670 4-Channel 1.25 GHz D/A with DUC, Virtex-6 FPGA - XMC 3678670 4-Channel 1.25 GHz D/A with DUC, Virtex-6 FPGA - PCIe 3652670 & 53670 4-Channel 1.25 GHz D/A with DUC, Virtex-6 FPGA - 3U VPX 3672670 4-Channel 1.25 GHz D/A with DUC, Virtex-6 FPGA - 6U cPCI 3673670 4-Channel 1.25 GHz D/A with DUC, Virtex-6 FPGA - 3U cPCI 3674670 8-Channel 1.25 GHz D/A with DUCs, and Two Virtex-6 FPGAs - 6U cPCI 3671671 4-Channel 1.25 GHz D/A with DUC, Extended Interpolation, Virtex-6 FPGA - XMC 3778671 4-Channel 1.25 GHz D/A with DUC, Extended Interpolation, Virtex-6 FPGA - PCIe 3752671 & 53671 4-Channel 1.25 GHz D/A with DUC, Extended Interpolation, Virtex-6 FPGA - 3U VPX 3756671 4-Channel 1.25 GHz D/A with DUC, Extended Interpolation, Virtex-6 FPGA - AMC 3772671 4-Channel 1.25 GHz D/A with DUC, Extended Interpolation, Virtex-6 FPGA - 6U cPCI 3773671 4-Channel 1.25 GHz D/A with DUC, Extended Interpolation, Virtex-6 FPGA - 3U cPCI 3774671 8-Channel 1.25 GHz D/A with DUCs, Ext. Interpolation, Two Virtex-6 FPGAs - 6U cPCI 3753690 & 52690 L-Band RF Tuner with 2-Channel 200 MHz A/D and Virtex-6 FPGA - 3U VPX 3871690 L-Band RF Tuner with 2-Channel 200 MHz A/D and Virtex-6 FPGA - XMC 3878690 L-Band RF Tuner with 2-Channel 200 MHz A/D and Virtex-6 FPGA - PCIe 3856690 L-Band RF Tuner with 2-Channel 200 MHz A/D and Virtex-6 FPGA - AMC 3872690 L-Band RF Tuner with 2-Channel 200 MHz A/D and Virtex-6 FPGA - 6U cPCI 3873690 L-Band RF Tuner with 2-Channel 200 MHz A/D and Virtex-6 FPGA - 3U cPCI 3874690 Dual L-Band RF Tuner with 4-Channel 200 MHz A/D and Two Virtex-6 FPGAs - 6U cPCI 386890 2.2 GHz Clock, Sync and Gate Distribution Board - VME 396891 System Synchronizer and Distribution Board - VME 407190 Multifrequency Clock Synthesizer - PMC 417290 Multifrequency Clock Synthesizer - 6U cPCI 417390 Multifrequency Clock Synthesizer - 3U cPCI 417690 Multifrequency Clock Synthesizer - PCI 417790 Multifrequency Clock Synthesizer - Full-length PCIe 417890 Multifrequency Clock Synthesizer - Half-length PCIe 415390 Multifrequency Clock Synthesizer - 3U VPX 41
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PPPPPentek, Inc.entek, Inc.entek, Inc.entek, Inc.entek, Inc. • One Park Way, Upper Saddle River, NJ 07458 • Tel: (201) 818-5900 • Fax: (201) 818-5904 • Email: [email protected] • http://www.pentek.com
7777777777
Putting FPGAs to Work in Software Radio Systems
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ModelModelModelModelModel DescriptionDescriptionDescriptionDescriptionDescription PPPPPageageageageage
7191 Programmable Multifrequency Clock Synthesizer - PMC 427291 Programmable Multifrequency Clock Synthesizer - 6U cPCI 427391 Programmable Multifrequency Clock Synthesizer - 3U cPCI 427691 Programmable Multifrequency Clock Synthesizer - PCI 427791 Programmable Multifrequency Clock Synthesizer - Full-length PCIe 427891 Programmable Multifrequency Clock Synthesizer - Half-length PCIe 425391 Programmable Multifrequency Clock Synthesizer - 3U VPX 427192 High-Speed Synchronizer and Distribution Board - PMC/XMC 437892 High-Speed Synchronizer and Distribution Board - PCIe 435292 High-Speed Synchronizer and Distribution Board - 3U VPX 437292 High-Speed Synchronizer and Distribution Board - 6U cPCI 437392 High-Speed Synchronizer and Distribution Board - 3U cPCI 437492 High-Speed Synchronizer and Distribution Board - 6U cPCI 437893 System Synchronizer and Distribution Board - PCIe 447194 High-Speed Clock Generator - PMC/XMC 457894 High-Speed Clock Generator - PCIe 455294 High-Speed Clock Generator - 3U VPX 455694 High-Speed Clock Generator - AMC 457294 High-Speed Clock Generator - 6U cPCI 457394 High-Speed Clock Generator - 3U cPCI 457494 High-Speed Clock Generator- 6U cPCI 459190 Clock and Sync Generator for I/O Modules - Rackmount 469192 High-Speed System Synchronizer Unit - Rackmount 47RTS 2706 Eight-Channel RF/IF 200 MS/sec Rackmount Recorder 48RTS 2707 Four-Channel RF/IF 500 MS/sec Rackmount Recorder 49RTS 2709 Ultra Wideband One- or Two-Channel RF/IF, 3.2 GS/sec Rackmount Recorder 50RTS 2715 Two-Channel 10 Gigabit Ethernet Rackmount Recorder 51RTS 2716 Eight-Channel Serial FPDP Rackmount Recorder 52RTS 2718 LVDS Digital I/O Rackmount Recorder 53RTR 2726 Four-Channel RF/IF 200 MS/sec Rugged Portable Recorder 54RTR 2727 Two-Channel RF/IF 500 MS/sec Rugged Portable Recorder 55RTR 2736 Eight-Channel Serial FPDP Rugged Portable Recorder 56RTR 2738 LVDS Digital I/O Rugged Portable Recorder 57RTR 2746 Eight-Channel RF/IF 200 MS/sec Rugged Rackmount Recorder 58RTR 2747 Four-Channel RF/IF 500 MS/sec Rugged Rackmount Recorder 59RTR 2749 Ultra Wideband One- or Two-Channel RF/IF, 3.2 GS/sec Rugged Rackmount Recorder 60RTR 2755 Two-Channel 10 Gigabit Ethernet Rugged Rackmount Recorder 61RTR 2756 Eight-Channel Serial FPDP Rugged Rackmount Recorder 62RTR 2758 LVDS Digital I/O Rugged Rackmount Recorder 63RTX 2786 Four-Channel RF/IF 200 MS/sec Extreme 3U VPX Recorder 648266 PC Development System for PCIe Cobalt and Onyx Boards 678111 Bandit Modular Analog RF Slot Receivers and Downconverters 68
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PPPPPentek, Inc.entek, Inc.entek, Inc.entek, Inc.entek, Inc. • One Park Way, Upper Saddle River, NJ 07458 • Tel: (201) 818-5900 • Fax: (201) 818-5904 • Email: [email protected] • http://www.pentek.com
7878787878
Putting FPGAs to Work in Software Radio Systems
Click here Software Defined Radio HandbookClick here Critical Techniques for High-Speed A/D Converters in Real-Time Systems HandbookClick here High-Speed Switched Serial Fabrics Improve System Design HandbookClick here High-Speed, Real-Time Recording Systems HandbookClick here Onyx Virtex-7 and Cobalt Virtex-6 Product CatalogClick here Pentek Product Catalog
Other Handbooks and CatalogsOther Handbooks and CatalogsOther Handbooks and CatalogsOther Handbooks and CatalogsOther Handbooks and Catalogs
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