Optical converter and driver amplifier
The iT6134 from iTerra generates an RZ format from a NRZ data stream and clock signal, and is optimized for 11.1 Gbps long-haul LiNbO3 applications. It has typical peak-to-peak jitter of less than 10 ps, high-input sensitivity from 250 m
Bipolar power transistor
M/A-COM's MAPRST1030-1KS is a 1000 W peak, class C bipolar transistor designed for 1030 MHz pulsed avionics applications. The transistor is suited to operate in IFF/TACAN (tactical air navigation system) or similar short-pulse formats, and features a minimum gain of 8.0 dB (greater than 8.6 dB typical) with 45% minimum collector efficiency (greater than 50% typical) on a 50 Vdc supply.
Designed for maximum durability, the device is housed in a hermetic, ceramic/metal package for high reliability that can tolerate a load mismatch ratio of 10:1 without damage or loss in performance. Driver stages for the MAPRST1030-1KS are also available, including the MRF10005, MRF10031 and MRF10150. The MAPRST1030-1KS is priced at $393 for 100 pieces.
Mini-Circuits' ZHL high-power amplifiers are designed for heavy-duty, reliable operation for extreme communication applications. The family covers power ratings of 5 W, 10 W, 20 W, 50 W, and 100 W. They are available with an optional heat sink/fan. Each unit operates from +24 Vdc, including the fan. Collectively, the family covers the 20 MHz to 2 GHz range.
The ZHL-5W-2G operates from 800 MHz to 2000 MHz, with a typical gain of 45 dB, a maximum output power of 38 dBm, a NF of 8.0 dB, an output VSWR of 1.5:1.0, and consumes a maximum supply current of 2 A.
The ZHL-10W-2G operates from 800 MHz to 2000 MHz, with a typical gain of 43 dB, a maximum output power of 41 dBm, a NF of 7.0 dB, an output VSWR of 1.3:1.0, and consumes a maximum supply current of 5 A.
The ZHL-20W-13 operates from 20 MHz to 1000 MHz, with a typical gain of 50 dB, a maximum output power of 43 dBm, a NF of 3.5 dB, an output VSWR of 2.5:1.0, and consumes a maximum supply current of 2.8 A.
The ZHL-50W-52 operates from 50 MHz to 500 MHz, with a typical gain of 50 dB, a maximum output power of 48 dBm, a NF of 6.0 dB, an output VSWR of 2.0:1.0, and consumes a maximum supply current of 9.3 A.
The ZHL-100W-52 operates from 50 MHz to 500 MHz, with a typical gain of 50 dB, a maximum output power of 48.5 dBm, a NF of 6.5 dB, an output VSWR of 2.5:1.0, and consumes a maximum supply current of 9.3 A.
Pricing is from $945 each for one to nine units.
The NPT25190 and NPT25240 from Nitronex are 48 V GaN-on-silicon devices designed for WiMAX and 3G/3G LTE waveforms operating in frequency bands of 2.3 GHz to 2.7 GHz. Typical performance is rated using a mobile WiMAX waveform defined as a single-carrier OFDM signal 64 QAM ¾, 8 burst, 7 MHz channel bandwidth, 10.3 dB PAR at 0.01% probability on CCDF. Under these test conditions, the NPT25190 will deliver 15 dB of gain (typical), 22% efficiency, and less than 2.5% EVM at greater than 24 W of power at elevated flange temperatures (above 95 °C) required by next-generation systems. The NPT25190 is rated for 190 W typical P3dB at 2.6 GHz. The NPT25240 is rated for 240 W typical P3dB at 2.6 GHz. Breakdown voltage for both devices is greater than 200 V. The planned availability is for initial samples in the third quarter and production quantities in the fourth quarter.
Compact military radio
FreeWave Technologies' MM2 900 MHz radio is a spread-spectrum unit with a compact form factor. The radio is suited for advanced military equipment where space is at a premium, such as unmanned aerial vehicles (UAV), robotic and guided parachute applications.
Specific features of the MM2 include dimensions of 50.8 mm (length) × 31.5 mm (width) × 9.6 mm (height), a GAsFET RF front end with good overload immunity and sensitivity, selectable speeds ranging 56 kilobytes per second to 1.2 megabytes per second, and high noise immunity. The radio can operate simultaneously as a slave and as a repeater, and uses proprietary spread-spectrum technology to prevent detection and unauthorized access.
The unit features 128-bit AES encryption, and is 100% reliability tested for RF performance from -40 °C to +85 °C. The MM2 900 MHz radio will be available for shipment in the fourth quarter.
Fairchild Semiconductor's FXL4TD245 is a four-bit, low-voltage dual-supply voltage translator with independent-direction controls. This control feature increases design flexibility by allowing designers to control the direction of each bit individually compared to typical configurations that control the direction of bidirectional voltage translators in groups of four, eight or 16 bits. The translator's voltage range of 1.1 V to 3.6 V simplifies designs and accommodates the voltage requirements of a variety of applications. The translator's 2.5 mm × 3.5 mm DQFN package also provides 65% board space savings compared to TSSOP packaging.
The FXL4TD245 is fully configurable. The A port tracks the level of the VCCA supply and the B port tracks the level of the VCCB supply. Both supplies are independent, allowing designers to select the translation levels and set the high sideor low side according to their specifications. Other translator solutions force designers to use a preset high side or low side and to determine the voltage. Samples are available, and pricing is $0.48 for 1000 pieces.
Power over fiber system
The RLH fiber-optic link power over fiber (PoF) system from RLH Industries provides power transmission over three multimode optical fibers. It is designed to provide true isolated power to a fiber-optic-link CO side card when line sealing current or local ac power is not available. The PoF system delivers constant power and does not require backup batteries at the remote location. Using photonic technology, the PoF system eliminates the need to run conductive copper wire into a high ground potential rise (GPR) zone, and is a reliable and convenient remote-powering solution.
The PoF system comprises two units: a transmitter unit to produce the light energy, and a receiver unit to convert that energy into dc power that can run a full spectrum of RLH fiber-optic links. The PoF transmitter unit is a self-contained housing that may be 19/23 inches rack or wall-mounted and measures 3.5 in. × 13 in. × 11 in. It operates from a 24 Vdc to 56 Vdc power source, and LED and LCD indicators located on the front panel report system status and operation. The transmitter unit provides the light energy required for the receiver unit over two fiber strands. A third feedback fiber is used for system-diganostics, and to control and monitor the receiver unit.
The PoF receiver unit is a standard RLH single card form factor (7 in. × 4 in. × 1 in.) unit, and may be installed into any RLH fiber-optic link card housing. The receiver has two fiber ST photovoltaic power receivers that convert the laser light into electrical energy, and a single fiber ST transmitter for monitoring and safety shut-offs in the event of a break in fiber continuity. The PoF receiver provides 24 Vdc up to 20 mA (0.5 W). For higher power or voltage applications, multiple receivers can be connected in series or parallel.
Raven Industries' touch-screen-based field computer, the Viper PRO, builds off of the Raven Viper by adding a faster processor, more memory, and added features. Other options include real-time weather information collected by sensors mounted on the machine, wireless connectivity to allow for Internet access including file transfer, text messaging, and vehicle location maps. The Viper PRO can also be used with an N-Tech GreenSeeker variable-rate control system. Another new feature is the Raven LastPass 3-D guidance. The LastPass 3-D guidance program was initially introduced to the ag market in the Raven Envizio and Envizio Plus systems. Adding this feature allows the Viper PRO to be used with the Raven SmarTrax and QuickTrax assisted-steering systems.
The Viper PRO also has a 10.4-inch color LCD touch-screen, an 800 MHz Intel processor, 256 MB of RAM and 2 GB internal storage, and runs Windows XP OS. The computer also supports five-product flow control (liquid, granular, NH3, planter and injection). The unit includes an Ethernet connection for future wireless communications. It is priced at $4945.
Implantable-grade radio chip
The ZL70101 transceiver chip from Zarlink Semiconductor is an ultralow-power RF system-on-a-chip solution for use in implanted medical devices, programmers, and monitoring base stations. Building on Zarlink's MICS technology platform, the chip delivers high data rates, low power consumption and unique wake-up circuitry. Previous home-health monitoring systems required the patient to accurately position an inductive wand over the implanted device. In comparison, using MICS technology, patient health and implanted device performance data can be stored in the implanted medical device's memory and wirelessly transmitted to a base station, without requiring patient intervention. If a problem is detected, the physician will schedule a patient follow-up visit where the two-way RF link can be used to interrogate and adjust implanted device performance.
During surgery to implant medical devices, the longer operating range of the ZL70101 chip allows the base station/programmer to be located outside the sterile environment. This potentially shortens surgery times and reduces healthcare costs, as programming equipment does not have to be sterilized for use in the operating room.
The ZL70101 transceiver also incorporates a unique “wake-up” receiver that allows the integrated circuit to operate in a 250 nA sleep mode. Communication is then initiated using a specially coded wake-up signal from the base station transmitter. When in full operation the ZL70101 typically consumes 5 mA of supply current.
The ZL70101 transceiver chip is available as implantable-grade wire-bondable die or in a 48-pin QFN package for the non-implanted base station applications. The chip is fully supported by a reference system and application development kit.
Renaissance Electronics' series of carrier class components that support WiMAX base stations are produced in three circulator designs. These devices are high-reliability, extended-temperature devices with minimal insertion loss. These parts replace older-style crimp components with more reliable screw top designs. The screw top design is better suited for mass production with consistent test results particularly at the higher 3.3 GHz to 3.8 GHz frequencies. They also cover the entire WiMAX bandwidth with one device.
The 2.3 GHz to 2.5 GHz, and the 3.3 GHz to 3.8 GHz devices conform to 0.75 in. drop-in package applications while the 4.9 GHz to 5.9 GHz design supports 0.5 in. drop-in applications. Samples and test fixtures are available from Renaissance at volume price points.
Panasonic's PAN4555 IEEE 802.15.4 ZigBee-ready module is fully compatible with the IEEE802.15.4 standard, and sized at 12.2 mm × 16.4 mm while delivering the same functionality as larger modules. The unit is Panasonic's smallest ZigBee module. Based upon Freescale's MC13213 ZigBee chipset, Panasonic miniaturized the module to be smaller than a penny while porting all of the chipset's functionality to the surface-mounted device pads. The extremely low weight facilitates wireless connectivity in portable applications. Operating in the 2.4 GHz ISM band, the PAN4555 is pending FCC part 15 approval and is available at Digi-Key, Arrow and other electronic component distributors.
Laser pump reflectors
With greater than 99% reflectance, Labsphere's Spectralon laser pump reflectors provide high levels of diffusion efficiency for peak laser output power. The high efficiency, coupled with economical machined part flexibility, is an ideal choice for laser original equipment manufacturers. Lamp- and diode-pumped lasers and dye lasers rely on the efficiency of their laser pump reflectors for optimum performance.
The more predictable beam profile resulting from the use of Spectralon has reduced susceptibility to parasitic oscillations compared to metal-, ceramic-, or powder-based reflectors. Spectralon's long-term optical stability ensures consistent and reliable laser performance over time. Furthermore, these reflectors can be economically fabricated into a wide variety of shapes to meet any reflector design. In-house machining allows samples to be created quickly and easily, and modified throughout the design, prototyping and testing process. This manufacturing flexibility means low- or high-volume quantities can be ordered without affecting price.
Labsphere's engineering staff has knowledge and experience in laser cavity design, and often collaborates with customers to develop custom laser pump reflector designs. To request a laser pump reflector prototype, submit a specification drawing to firstname.lastname@example.org. For more information on Labsphere products and services visit the company web site.
MECA's family 7/16 DIN-male coaxial loads support average power ratings of 1 W, 2 W, 5 W, 10 W, 35 W, 50 W and 100 W for next-generation equipment deployments. Their rugged construction and high performance (VSWR 1.10:1) across all wireless bands from dc to 6 GHz makes them ideal for base station and RF-lab applications. Peak power for the family ranges from 250 W to 5000 W.
Video processor software
Anchor Bay's v1.04 “Film Technology” free software upgrade for its DVDO iScan VP50 video processor allows the system to produce a 1080p-24 output for any standard- or high-definition input, enabling an artifact-free, theater-like viewing experience. The film technology feature is available as a software upgrade for the VP50 and is also slated for integration into Anchor Bay's forthcoming ABT2010 video processing chip.
The upgrade is available to Anchor Bay's customers as a free download on its web site, using either a serial or USB connection from the PC to the VP50. With the upgrade, the VP50 is the industry's first video processor with the ability to take all standard- and high-definition input signals and output them at 1080p-24, 1920x1080 pixel frames displayed at 24 frames per second.
Using Anchor Bay's PReP and Progressive Cadence Detection, the VP50 and ABT2010 are able to process interlaced and progressive signals correctly, recreating the original 24 frames that existed in the source from the 60 frames that the content is encoded in. The process results in an enhanced viewing experience without the artifacts that are typically introduced by high-resolution displays, such as judder, which manifests on the screen as jerky camera pans. For more information or to download the free software upgrade, visit the company web site.
Anchor Bay Technologies
Vimicro's VC0336 is a web camera processor targeting attachable web cameras and laptop-embedded cameras. The processor offers a vast array of functions for enhancing web camera multimedia experiences, such as high-definition video recording, audio recording, auto focus, and audio noise cancellation. The camera fully supports Web 2.0 functionality. The VC0336 can stream video at 60 frames per second (fps) with a resolution of 0.3 mega pixels, 30 fps with a resolution of 1.3 mega pixels, and 20 fps with a resolution of 2.0 mega pixels. The VC0336 is also equipped with two high-quality audio channels, which allow PC cameras using the processor to sample two streams of audio signals from two different microphones, simultaneously. The processor is fully compliant with Microsoft's universal audio architecture standard, and is integrated with microphone array technology. As a result of Vimicro's high-fidelity audio and beam-forming technology, the processor supports extremely clear audio conversation regardless of a web camera user's environment.
Test & Measurement
Cable and antenna analyzer
Anritsu's site master cable and antenna analyzer S311D and S312D weighs five pounds, including the battery, and is suited for cable and antenna land mobile radio (LMR) applications. The S311D and S312D contain the essential features needed for engineering and troubleshooting in the field. This includes frequency coverage up to 1.6 GHz, as well as a rugged streamlined frame. The unit can be configured to include a cable and antenna analyzer, spectrum analyzer, interference analyzer, channel scanner, RF power meter, AM/FM demodulation, transmission measurement, GPS receiver, RSSI monitor, and more. The unit also uses frequency-domain reflectometry (FDR) techniques for return loss/VSWR, cable loss and distance-to-fault (DTF) measurements so you can easily spot performance faults. For more information or to schedule a demonstration, contact Anritsu.
Synchronizing distribution board
Pentek's model 6890 is a 2.2 GHz clock, synch and gate distribution board for synchronizing multiple Pentek I/O modules. The model 6890 facilitates sampling and timing for a wide range of multichannel, high-speed data-acquisition, DSP and software-radio applications. Configured as a 6U VME board, the model 6890 synchronizes up to eight modules, each receiving a common clock up to 2.2 GHz along with timing signals for synchronizing, triggering and gating functions. The model 6890 currently supports Pentek's model 6826 dual 2 GHz, 10-bit ADC converter VME board. Developed specifically to address the critical timing needs of synchronous multichannel data-acquisition and DSP systems, the model 6890 board simplifies system integration tasks. For example, when combined with eight model 6826 dual-channel 2 GHz, 10-bit ADC modules, the resulting system provides 16 ADC converters all sampling at 2 GHz, plus eight FPGAs with a total of 352,000 programmable slices and 800,000 logic cells. Additional resources of up to 8 GB of DDR memory and 128 Mb of flash provide a complete real-time data acquisition and DSP environment for extremely wideband signals.
The model 6826 features single- or dual-channel data acquisition at 2 Gsps with 10-bit resolution using the Atmel AT84AS008 ADC device. By accepting single-ended transformer or dc-coupled inputs, the board preserves signal integrity across a variety of analog signal sources.
With this density equivalent of more than 11 million system gates, the Xilinx XC2VP100 Virtex-II Pro FPGA offers a powerful signal-processing resource for the formidable stream of data from the ADC converters. Onboard logic first demultiplexes the 2 GHz raw 10-bit ADC samples by a factor of eight, producing 80-bit words at a reduced rate of 250 MHz for successful delivery to the FPGA. The FPGA then performs various standard functions on the data, including memory transfers, formatting, triggering, gating and delivery to the FPDP and VME-bus interfaces. The FPGA also handles the switched, serial-fabric VXS interface using the on-chip RocketIO Gb serial transceivers.
To support high-bandwidth data capture, the board includes several high-speed I/O channels to move the raw data off-board for storage or processing. Two or four channels of FPDP-II data ports, operating at up to 400 MBps each, deliver processed and demultiplexed data through legacy connections to other VME cards. In addition, the board offers two serial switched-fabric VXS connections, each running full-duplex at 1.25 Gbps to support the Xilinx Aurora, serial RapidIO and PCI Express protocols. LVDS I/O is also available at either front- or rear-panel connections.
Precise probe station lift
J microTechnology's LMS-45 adjustable Z-axis stage option is an adaptable pedestal adjustment for J microTechnology's JR-2745 probe station, and standard with the JR-2746 probe station. With the new stage, once the probe height is set for the device under test (DUT), a device of any thickness can be substituted repeatably and easily by adjusting its height to match that position. Gradations for 2° rotation and 0.01 mm height make it extremely precise. Based on a precision, rotary jack stand, the system adjusts the height and rotational position of the DUT, providing independent, lockable vertical and rotary motions. The controls are intuitive and easy to use. An added benefit is the additional fine precision control of the chuck and the DUT. This probe station system provides a flexible microprobing environment that engineers and scientists can use for electrical test and analytical evaluation of semiconductor devices, planar components, and microwave assemblies. Prices for the LMS-45 option start at $2000.
Error/noise performance test system
With the addition of the G.703 interface pod option, the Aeroflex FB100A bit error rate tester can now test a wide range of standardized telecommunications interfaces (from T1 at 1.544 Mbps to STS-3 and STM-1 at 155.52 Mbps). Adding the optional G.703 pod and optional noise-generation capabilities to the FB100A with its automatic and accurate carrier-to-noise-level calibration, gives users a comprehensive test solution ideal for effectively characterizing error/noise performance. The test pod is used to test a range of RF/IF modems and other equipment carrying digital data through standardized telecommunications interfaces.
The FastBit G.703 interface pod has the same form factor as other FB100A pods — the HSSI pod and the telecom data interface pod. It features a full range of standard instrument tests and results, including automatic bit-error-rate measurements (vs. carrier-to-noise) and frequency-tunable noise that ranges from 5 MHz to 2.4 GHz with selectable noise bandwidths. The pod uses a transmitter clock internal or receiver with a transmit frequency deviation of ±2000 ppm. The G.703 pod can operate in comprehensive loop-back mode, T1/E1 balanced and unbalanced mode, or monitor mode. Unframed operation is available for the following interfaces: T1, E1, T3, E3, E4, STS-1, STS-3, STM-1. A full range of interfaces is available for PDH, SDH and SONET systems up to 155 Mb/s.
The Aeroflex FastBit G.703 interface pod is available. Pricing varies with data rates: $3295 for E1/T1; $4395 for E3/T3; $4995 for E4/STM-1/STS-3; and $10,995 for the entire range of interfaces.
Handheld LAN analyzer
AirMagnet's handheld analyzer 7.0 is a handheld tool for proactively diagnosing and troubleshooting WLANs. The latest release introduces support for the 802.11g wireless LAN protocol, giving organizations insight into wireless performance on the network. In addition to the currently supported 802.11b adapters, the unit includes support for the Summit Data Communications' SDC-CF20G 802.11g compact flash module with integrated antennas, to recognize and report on all 802.11g speeds and traffic information.
The analyzer also delivers the pre-802.11n alarm, which protects against pre-standard devices. Furthermore, the handheld analyzer 7.0 decodes and analyzes 802.11d information for those customers with devices implementing this standard. AirMagnet handheld analyzer 7.0 is priced at $2995 per license. Existing customers who have an active software support subscription are entitled to a free upgrade. The Summit card is $150.
MIMO Wi-Fi tester
Azimuth System's ADEPT-n MIMO test platform is a scalable, single-box, point-to-multipoint tester that enables repeatable performance, interoperability and functional testing of 802.11n devices. The platform provides a flexible framework for semiconductor vendors, device manufacturers and service providers to test client and access points, as well as to conduct protocol testing using advanced built-in capture capability. The ADEPT-n adds 802.11n testing capability with support for 4 × 4 MIMO paths and includes DIRECTOR II, Azimuth's second-generation test executive software, featuring an intuitive user interface and powerful new test-building capabilities that accelerate testing and lower the overall cost of test. The ADEPT-n facilitates product design, design verification testing (DVT) and quality assurance (QA) testing. This enables design engineers to test and debug performance algorithms or analyze traffic protocol across communication states; DVT engineers to validate interoperability between MIMO and/or SISO products; and QA managers to run regression tests or benchmark tests using standard scripts such as range and roaming, or by running custom scripts. The ADEPT-n is available in several engineering and QA test configurations, from base engineering solutions to full QA solutions, and is shipping to early access partners. In addition, Azimuth provides a testbed accessory, the MIMO static channel simulator (STACSIM), which can help facilitate disciplined MIMO testing.
IEEE 802.15.4 speech audio solution
Jennic has introduced a reference design that enables speech to be transmitted over an IEEE802.15.4 link using the company's JN5139 single-chip wireless microcontroller. The hardware and software design solution is aimed at applications from wireless headsets to network-wide audio. The reference design provides key benefits for audio applications, such as low-power operation with instant response and long standby battery life; secure speech with 128-bit AES encryption; simple development with no complex profiles, a range of greater than 200 m, and more addressable nodes than Bluetooth, making it suitable for public address or broadcast applications.
Voice compression in the reference design is implemented in software on Jennic's standard 32-bit CPU. This single-chip solution delivers the required processing power for ADPCM compression as well as the protocol and application. The reference design also features a hardware AES co-processor, making security transparent to the processor and removing the need for software support. RF channel agility ensures good performance even in the presence of interference from wireless LAN. The design features audio performance having THD+noise better than -77 dB.
The software features of the audio reference design include full-duplex, half-duplex (push-to-talk) or simplex configurations, ADPCM compression giving 32 kbps per audio stream, 8 kHz/16 kHz switchable sample rate, volume control, low-battery indicator, and 400 Hz test tone if required. The design can also support push-to-talk functionality. Available now, the audio reference design provides hardware schematics and board layouts, together with example software code and a comprehensive reference manual.
Protected UHF radios
Phoenix Contact's industrial digital UHF wireless radio modems provide protected FCC-licensed wireless communication and a high level of data protection. The UHF industrial radios feature collision avoidance, packet-error checking and security with AES 128-bit encryption. Each radio is equipped with remote network diagnostics, while intuitive user-friendly software allows the network owner full control and management of their system. The radios can support multiple protocols and multiple host stations using the same frequencies, a first in the industry with UHF technology. Two versions are available, one with advanced features and the other an economical standard version. Both are compatible with one another.
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