Baseband
The original state of frequencies prior to modulation.
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PXIe-5820, 500 MHz, 1 GHz I/Q Bandwidth, Baseband PXI Vector Signal Transceiver
783967-01
500 MHz, 1 GHz I/Q Bandwidth, Baseband PXI Vector Signal Transceiver—The PXIe‑5820 is the baseband model of the second-generation vector signal transceiver (VST) with 1 GHz of complex I/Q bandwidth. It combines a wideband I/Q digitizer, wideband I/Q arbitrary waveform generator, and high-performance user-programmable FPGA in a single 2-slot PXI Express module. You can use the VST for a variety of applications including baseband I/Q test of wireless and cellular chipsets; envelope tracking of digitally predistorted waveforms for power amplifiers; and the generation and analysis of new wireless standards such as 5G, 802.11ax, and LTE-Advanced Pro.
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Blackfin Embedded Processors
Blackfin® 16-/32-bit embedded processors offer software flexibility and scalability for convergent applications: multiformat audio, video, voice and image processing, multimode baseband and packet processing, control processing, and real-time security.
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Socket Phone
Design for phone device test and system verify.Phone device: CPU,flash,baseband,LPDDR,power IC.etcPitch range from 0.30 to 1.27mmKey material: PEI,Peek,Torlon,PPS.etcContact with top pogo pin
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PXI-5652, 6.6 GHz RF Analog Signal Generator
779670-02
6.6 GHz PXI RF Analog Signal Generator—The PXI‑5652 features continuous-wave generation capabilities with FM, 2‑FSK, or OOK modulation. It uses direct digital synthesis (DDS) for high-resolution frequency hopping or phase-continuous sweeping for fixture and device characterization applications. The PXI‑5652 is ideal for clocking nonstandard sample rates, such as WCDMA signals at baseband or intermediate frequency (IF). With these versatile signal generators, you can perform analog and digital modulation through the onboard DDS circuit, which gives you frequency modulation and frequency-shift keying for applications such as bit error rate test, antenna testing, or even keyless entry. You can also perform amplitude modulation using on-off keying.
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Signal Analyzer
bsw TestSystems & Consulting AG
The simplest way to measure the phase noise is to compare the Device-Under-Test (DUT) to the source of a spectrum analyzer. With the SA set at the same frequency as the OUT, you see the sum of the SA's and DUT's sideband-power spectrum on the SA display. It is a simple and straight forward method well suited for free running VCO's where the SA is easily an order better.You can improve on this method by establishing a Phase Lock (PLL) between the DUT and the Local Oscillator and create a zero-IF or base-band spectrum analyzer system.
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Vector Signal Generator
SGT100A
The R&S®SGT100A has a clear focus on automated environments with high speed and a compact design. The radio frequency chain has been optimized for the fastest frequency and level switchover times. In the baseband, the multisegment waveform mode helps users quickly switch from one test signal to the next. Though compact in size, the R&S®SGT100A has excellent RF characteristics (signal quality and level accuracy). Maximum output level, level repeatability and excellent EVM performance are key characteristics in production environments. Equipped with a LAN and USB interface, the R&S®SGT100A enables remote control of test equipment in automated applications.
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60 GHz WR-15 Waveguide Tx Module
PEM010
The PEM010 is a highly integrated millimeter wave transmitter that covers the 60 GHz global unlicensed spectrum allocations packaged in a standard waveguide module. Transmitter architecture is a double conversion, sliding IF with wide bandwidth capability through the up-conversion chain from baseband to carrier. The I/Q interface accepts analog baseband signals which provides for flexibility in design and applications. The baseband input optionally supports FSK/MSK modulation for non-coherent applications. The transmitter incorporates a complete waveguide interface with low-loss transition between the chip and the WR15 waveguide port. The integrated package is small and lightweight, with a simple to use multi-pin ST4 connector for power, reference clock, digital control port and baseband signals. Either of two reference clocks can be used for setting 540 MHz or 500 MHz channel spacing.
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PXI-5650, 1.3 GHz RF Signal Generator
779670-00
The PXI‑5650 features continuous-wave generation capabilities with FM, 2‑FSK, or OOK modulation. It uses direct digital synthesis (DDS) for high-resolution frequency hopping or phase-continuous sweeping for fixture and device characterization applications. The PXI‑5650 is ideal for clocking nonstandard sample rates, such as WCDMA signals at baseband or intermediate frequency (IF). With these versatile signal generators, you can perform analog and digital modulation through the onboard DDS circuit, which gives you frequency modulation and frequency-shift keying for applications such as bit error rate test, antenna testing, or even keyless entry. You can also perform amplitude modulation using on-off keying.
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STEREO PERFORMANCE METER
SPM-1
The SPM-1 measures the stereo content present in any left and right audio program material. It measures 0-50 dB separation on live program material by cross correlating the right and left base-band audio information.
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Mixed Domain Oscilloscope
3 Series MDO
With the largest display in class, improved low-level signal measurement accuracy and industry-leading probe performance, the 3 Series MDO sets a new standard for bench oscilloscopes. Whether you’re testing your baseband design for IoT or just for simple EMI sniffing, the 3 Series has a unique true hardware spectrum analyzer built right in with superior RF test performance and guaranteed RF specifications.
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Standards Reference for Test Systems PXI Card
GX1034
The GX1034 offers PXI system designers the capability to develop a system re-certification strategy that employs only internal system resources. By incorporating the GX1034 as part of a system configuration, it is possible to develop a system accuracy verification strategy that can recertify a system's source and measure baseband instrumentation resulting in simplified support / maintenance logistics and improved system availability.
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PXIe-5652, 6.6 GHz RF Analog Signal Generator
781217-01
PXIe, 6.6 GHz, PXI RF Analog Signal Generator—The PXIe‑5652 features continuous-wave generation capabilities with FM, 2‑FSK, or OOK modulation. It uses direct digital synthesis (DDS) for high-resolution frequency hopping or phase-continuous sweeping for fixture and device characterization applications. The PXIe‑5652 is ideal for clocking nonstandard sample rates, such as WCDMA signals at baseband or intermediate frequency (IF). With these versatile signal generators, you can perform analog and digital modulation through the onboard DDS circuit, which gives you frequency modulation and frequency-shift keying for applications such as bit error rate test, antenna testing, or even keyless entry. You can also perform amplitude modulation using on-off keying.
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RF Signal Generators
As Rigol's RF first signal source, the DSG3000 series offers standard AM/FM/ØM analog modulation, as well as options for I/Q modulation and I/Q baseband output. The instrument is available with maximum frequencies of either 3 GHz or 6 GHz. Featuring a high signal purity with phase noise measuring <-110dBc/Hz@20kHz (typical) and a wide output range of -130dBm to +13dBm, the DSG3000 RF signal generator has standard pulse modulation with an on/off ratio of up to 80dB, with optional pulse train generator available. The DSG3000 series also has an amplitude accuracy of <0.5dB (typical).
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PXIe Precision AWG: 4 Channels, 400 MHz
M5301A
The M5301A is a single-slot PXIe module with four baseband AWG outputs, clock input and output, and four triggers. It provides high performance with easy-to-use programming libraries, real-time sequencing technology, and FPGA programming.
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USRP‑2930, 20 MHz Bandwidth, 50 MHz to 2.2 GHz, Included GPS-Disciplined OCXO, USRP Software Defined Radio Device
781910-01
20 MHz Bandwidth, 50 MHz to 2.2 GHz, Included GPS-Disciplined OCXO, USRP Software Defined Radio Device - The USRP‑2930 is a tunable RF transceiver with a high-speed analog‑to‑digital converter and digital‑to‑analog converter for streaming baseband I and Q signals to a host PC over 1 Gigabit Ethernet. It also features a GPS-disciplined oscillator (GPSDO) with PPS accuracy of ±50 ns. You also can use the NI USRP‑2930 for the following communications applications: white space; broadcast FM; public safety; land-mobile, low-power unlicensed devices on industrial, scientific, and medical (ISM) bands; sensor networks; cell phone; amateur radio; or GPS.
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Audio / Video
Transport one or multiple baseband (composite) video and audio channels over a single fiber strand up to 120km.
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AC Coupled, 14-Bit Digitizer For ExpressCard 54, 2 Channels 150 MS/s
EC14150A
The EC14150A (EC) is an AC-coupled dual channel waveform capture board that provides a remarkable combination of high speed and high resolution sampling along with a very large memory capacity all in a very compact and low power consuming ExpressCard form factor. At 4.5 W, the EC represents one of the lowest power consuming digitizer cards ever created for its class. Signal frequencies up to 200 MHz can be accurately captured either in baseband or in higher order Nyquist zones using under-sampling techniques. Where DC-coupling is required, the EC14150D should be considered.
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Recorders
Kratos Defense & Security Solutions, Inc.
RT Logic recorder systems are trusted to record and faithfully replay the most critical signals and data streams—analog baseband, IF, digital serial, IP packets, and timing signals—from DC to multi-Gbps.
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Vector Signal Generator
VSG25A
The VSG25A is a 100 MHz to 2.5 GHz vector signal generator, featuring a 12-bit I/Q baseband arbitrary waveform generator which can be clocked at virtually any frequency from 54 kHz to 180 MHz, and includes a 4096×16 bit pattern buffer for built-in or custom modulation.
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L-Band RF Tuner and 2-Channel 200 MHz A/D with Virtex-6 FPGA - 6U VPX
Model 57690
- One L-Band tuners accept RF signals from 925 MHz to 2175 MHz- One programmable LNAs boost LNB (low-noise block) antenna signal levels with up to 60 dB gain- One programmable analog downconverters provide I + Q baseband signals with bandwidths ranging from 4 to 40 MHz- Two 200 MHz 16-bit A/Ds- Supports Xilinx Virtex-6 LXT and SXT FPGAs- Up to 2 GB of DDR3 SDRAM; or: 32 MB of QDRII+ SRAM- PCI Express (Gen. 1 & 2) interface up to x8- Clock/sync bus for multiboard synchronization- Optional user-configurable gigabit serial interface- Optional LVDS connections to the Virtex-6 FPGA for custom I/O- Ruggedized and conduction-cooled versions available- Synchronize up to eight modules with Model 7893 System Synchronization and Distribution Amplifier - PCIe
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L-Band RF Tuner and 4-Channel 200 MHz A/D with Virtex-6 FPGA - 6U VPX
Model 58690
- Two L-Band tuners accept RF signals from 925 MHz to 2175 MHz- Two programmable LNAs boost LNB (low-noise block) antenna signal levels with up to 60 dB gain- Two programmable analog downconverters provide I + Q baseband signals with bandwidths ranging from 4 to 40 MHz- Four 200 MHz 16-bit A/Ds- Supports Xilinx Virtex-6 LXT and SXT FPGAs- Up to 4 GB of DDR3 SDRAM; or: 64 MB of QDRII+ SRAM- PCI Express (Gen. 1 & 2) interface up to x8- Clock/sync bus for multiboard synchronization- Optional user-configurable gigabit serial interface- Optional LVDS connections to the Virtex-6 FPGA for custom I/O- Ruggedized and conduction-cooled versions available- Synchronize up to eight modules with Model 7893 System Synchronization and Distribution Amplifier - PCIe
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Modulators
CAES designs and manufactures a broad range of versatile custom design solutions for modulation of a radio frequency source from a baseband signal.
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Digital Signal Processing (DSP)
Digital signal processing (DSP) affords greater flexibility, higher performance (in terms of attenuation and selectivity), better time and environment stability, and lower equipment production costs than traditional analog techniques. Components available today let DSP extend from baseband to intermediate frequencies (IFs). This makes DSP useful for tuning and signal selectivity, and frequency up and down conversion.
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RF Generator
SIGLENT’S SSG3000X series of signal generators have a frequency range of 9 kHz to 2.1 GHz/3.2 GHz. They provide normal analog modulation such as AM, FM, and PM. They also provide pulse modulation and pulse train generator. In addition, when used with baseband generator such as SDG6000X, They can generate IQ modulated signals. With their high accuracy and pure outputs, the SSG3000X series is the right choice for R&D, education, and manufacturing.
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PXI-5142, 100 MHz, 100 MS/s, 14-Bit PXI Oscilloscope
779587-02
100 MHz, 100 MS/s, 14-Bit PXI Oscilloscope—The PXI-5142 high-resolution oscilloscope has two channels that are capable of high-resolution, low-noise measurements with up to 100 MHz of bandwidth and onboard resources for quadrature digital downconversion and baseband I/Q decimation. This device is ideal for communications measurements and applications that require interfacing with a RF downconverter. The PXI-5142 also features PXI synchronization and data streaming capabilities.
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NI-5782, 100 MHz Bandwidth Transceiver Adapter Module for FlexRIO
782705-02
The NI‑5782 is ideal for applications that require the acquisition and generation of IF or baseband signals with in-line, real-time processing. You can analyze acquired signals in the PXI FPGA Module for FlexRIO to perform measurements and generate response signals. Application areas include RF modulation and demodulation, channel emulation, bit error rate testing (BERT), signal intelligence, radio frequency identification (RFID) and near-field communication (NFC) test, real-time spectrum analysis, and software defined radio (SDR).
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USRP‑2932, 20 MHz Bandwidth, 400 MHz to 4.4 GHz Software Defined Radio Device
781909-01
20 MHz Bandwidth, 400 MHz to 4.4 GHz Software Defined Radio Device - The USRP‑2922 is a tunable RF transceiver with a high-speed analog‑to‑digital converter and digital‑to‑analog converter for streaming baseband I and Q signals to a host PC over 1 Gigabit Ethernet. You can also use the USRP‑2922 for the following communications applications: WiFi, WiMax, S‑band transceivers, and 2.4 GHz industrial, scientific, and medical (ISM) band transceivers.
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L-Band RF Tuner and 2-Channel 500 MHz A/D with Virtex-7 FPGA - XMC
Model 71791
- Accepts RF Signals from 925 MHz to 2175 MHz- Programmable LNA handles L-Band input signal levels from -50 dBm to +10 dBm- Programmable analog downconverter provides IF or I+Q baseband signals at frequencies up to 123 MHz- Two 500 MHz 12-bit A/Ds digitize IF or I+Q signals synchronously; optional: 400 MHz 14-bit A/Ds- Two FPGA-based multiband digital downconverters- Xilinx Virtex-7 VX330T or VX690T FPGAs- 4 GB of DDR3 SDRAM- Sample clock synchronization to an external system reference- PCI Express (Gen. 1, 2 & 3) interface, up to x8- Clock/sync bus for multimodule synchronization- VITA 42.0 XMC compatible with switched fabric interfaces- Optional user-configurable gigabit serial interface- Optional LVDS connections to the Virtex-7 FPGA for custom I/O
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DC Coupled, 14-Bit Digitizer For ExpressCard 54, 2 Channels 150 MS/s
EC14150D
The EC14150D (EC) is an DC-coupled dual channel waveform capture board that provides a remarkable combination of high speed and high resolution sampling along with a very large memory capacity all in a very compact and low power consuming ExpressCard form factor. At 4.5 W, the EC represents one of the lowest power consuming digitizer cards ever created for its class. Signal frequencies up to 200 MHz can be accurately captured either in baseband or in higher order Nyquist zones using under-sampling techniques. Where DC-coupling is required, the EC14150D should be considered.
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RF Test Spectrum Measurements over CPRI
Integris 3000
Most modern cell tower network configurations place the Remote Radio Head (RRH) at the top of the tower and the baseband unit(BBU) at the bottom of the tower. While this configuration is advantageous for both computational efficiency and mitigation of RF loss across the cable, it means the only place along RF can be accessed is at the top of the tower. This forces field technicians to have to climb the tower to measure and debug RF noise problems.
