Analog Devices, Inc.
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One Technology Way
Norwood, MA 02062-9106
USA
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Products for Analog Devices, Inc.:
Recent Articles for Analog Devices, Inc.:
Tiny ADC delivers superior dynamic performance, lowest power
Designed for medical imaging and communications applications, the four-channel, 16-bit, 125-Msamples/s AD9653 A/D converter delivers a high dynamic range: . . .
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D/A converters offer industry’s best performance, smallest packages
The AD5686R/AD5685R/AD5684R, members of the nanoDAC+ family, are low-power quad 16-/14-/12-bit buffered-voltage output DACs. They are claimed by the . . .
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What’s new at IMS2012
This year’s International Microwave Symposium (IMS2012) is being held in Montréal, Quebec, Canada, from June 17 to 22. It . . .
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Buck regulator uses <14 µA quiescent current
The ADP2370/71 15-V, 800-mA output dc/dc regulator targets battery-powered applications that use multiple alkaline/NiMH, lithium cells, or other standard . . .
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Processors target high performance vision apps
The ADSP-BF608 and ADSP-BF609 dual-core embedded processors are optimized for vision applications and feature a high performance video analytics . . .
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Videos for Analog Devices, Inc.:
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Analog Devices’ nanoDAC+ Converter
Analog Devices’ nanoDAC+ Converters offer Industry’s best D/A converter performance and smallest packages. Click on Electronic Products write up at http://bit.ly/JbCzuT
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Analog Devices’ nanoDAC+ Converters offer Industry’s best D/A converter performance and smallest packages. Click on Electronic Products write up at http://bit.ly/JbCzuT
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AD8229- High temperature. Low Noise Instrumentation Amplifier
Moshe Gerstenhaber from Analog Devices talks about the Industry's First Precision High-Temperature Instrumentation Amplifier
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Moshe Gerstenhaber, ADI Division Fellow talks about the AD8229 - an Industry's First Precision High-Temperature Instrumentation Amplifier
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Analog Devices - 3G Transmit Radio Reference Design
Steve Reine, Sr Application Engineer, RF Network Components from Analog Devices gives a brief talk and demo on a 3G radio ref design that includes the AD9122 1,230 MSPS DAC, the ADRF6702 IQ modulator, and AD9516 VCO
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3G Transmit Radio Reference Design, more info:
http://www.analog.com/en/digital-to-analog-converters/da-converters/ad9122/products/product.html
http://www.analog.com/en/rfif-components/timing-ics-clocks/ad9516-0/products/product.html
http://www.analog.com/en/rfif-components/modulatorsdemodulators/adrf6702/products/product.html
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IMS2011: See what is shown at Analog Devices booth
IMS2011: See what is shown at Analog Devices booth with Larry Hawkins, Business Development Engineer, RF components Products
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IMS2011: See what is shown at Analog Devices booth with Larry Hawkins, Business Development Engineer, RF components Products
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Femto Cells and the AD9963/1
Talk with Analog Device's Carlton Lane, Product Marketing Manager, High Speed Processing Group, Analog Semiconductor Group
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Brief discussion on emerging trends in the data converter space, femto cells, and upcoming products from ADI.
More info at
http://www.analog.com/static/imported-files/data_sheets/AD9961_9963.pdf
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Reference Design Documents for Analog Devices, Inc.:
Powering the AD9788 800 MSPS TxDAC Digital-to-Analog Converter Using the ADP2105 Synchronous Step-Down DC to DC Regulator for Increased Efficiency (CN0141)
This circuit utilizes a pair of ADP2105 synchronous step-down dc-to-dc regulators to provide the individual power supply rails required for the AD9788 dual channel, 16-bit, high dynamic range TxDAC174; digital-to-analog converter. The ADP2105 pair powers the AD9788 at greater than 85% efficiency, which is up to 50% higher than that obtained using a traditional linear regulator solution. Total circuit power dissipation using linear regulators is 1.4 W and using switching regulators only 0.88 W. This Circuits from the Lab; reference circuit has been engineered and tested for quick and easy system integration. For more info, visit analog.com/circuits.
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Using low noise linear drop-out regulators to power wideband PLL & VCO IC (CN0147)
This circuit uses low noise, low dropout (LDO) linear regulators to supply power to a wideband integrated PLL and VCO. Wideband voltage controlled oscillators (VCOs) may have increased sensitivity to power supply noise, hence, ultralow noise regulators are recommended for best performance.... This Circuits from the Lab; reference circuit has been engineered and tested for quick and easy system integration. For more info, visit analog.com/circuits.
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USB Based Temperature Monitor Using the ADuC7122 Precision Analog Microcontroller and an External Thermistor (CN0153)
This circuit shows how the ADuC7122 precision analog microcontroller can be used in an accurate thermistor temperature monitoring application. The ADuC7122 integrates a multichannel 12-bit SAR ADC, twelve 12-bit DACs, a 1.2 V internal reference, as well as an ARM7 core, 126 kB flash, 8 kB SRAM, and various digital peripherals, such as UART, timers, SPI, and two I2C interfaces. The ADuC7122 is connected to a 4.7 k thermistor.... This Circuits from the Lab; reference circuit has been engineered and tested for quick and easy system integration. For more info, visit analog.com/circuits.
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Software Calibrated, 50 MHz to 9 GHz, RF Power Measurement System (CN0178)
This circuit uses the ADL5902 TruPwr detector to measure the rms signal strength of RF signals with varying crest factors (peak-to-average ratio) over a dynamic range of approximately 65 dB and operates at frequencies from 50 MHz up to 9 GHz. The measurement result is provided as serial data at the output of a 12-bit ADC (AD7466). A simple 4-point system calibration at ambient temperature is performed in the digital domain.... This Circuits from the Lab; reference circuit has been engineered and tested for quick and easy system integration. For more info, visit analog.com/circuits.
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Software Calibrated, 1 MHz to 8 GHz, 70 dB RF Power Measurement System Using the AD8318 Logarithmic Detector (CN0150)
This circuit measures RF power at any frequency from 1 MHz to 8 GHz over a range of approximately 60 dB. The measurement result is provided as a digital code at the output of a 12-bit ADC with serial interface and integrated reference. The output of the RF detector has a glueless interface to the ADC and uses most of the ADCs input range without further adjustment. A simple two-point system calibration is performed in the digital domain.... This Circuits from the Lab; reference circuit has been engineered and tested for quick and easy system integration. For more info, visit analog.com/circuits.
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eeTechBriefs –
15-Minute on-demand multimedia web casts covering the latest product developments.
Analog Devices offers a wide variety of Low Dropout Linear and Switching Regulators that offer high accuracy in small packages and include features like thermal overload protection, safety current limits and shutdown mode to drastically reduce current consumption.
Join Analog Devices' Noman Rangwala for an 22-minute Webcast discussing:
* LDO fundamentals and terminology
* LDO selection: linear or switching regulators?
* Supply quality and integrity
* Internal noise generation
* External noise rejection capability - PSRR
* New portable and fixed power LDOs
In less than 22 minutes, you'll learn how Analog Devices' performance LDOs can power and optimize mixed-signal, RF, Audio, GPS systems and low voltage digital cores, DSP and FPGAs.
The ADM3251E is a high speed, 2.5 kV fully isolated, single-channel RS-232 transceiver device that operates from a single 5 V power supply. The device is ideally suited for operation in electrically harsh environments or where RS 232 cables are frequently being plugged and unplugged due to high ESD protection. The ADM3251E incorporates dual-channel digital isolators with isoPower®-integrated, isolated power. Chip-scale transformer iCoupler® technology from Analog Devices is used both for the isolation of the logic signals as well as for the integrated DC/DC converter. The result is a total isolation solution.
Join Analog Devices' Norma O'Mahony for a 7-minute Webcast discussing:
- Target applications
- New design options for data transmission between multiple systems
- Key features
- Device operation
In less than 7 minutes, you'll gain an understanding of how the ADM3251E enables a total isolation solution in a small form factor by integrating a chip-scale DC/DC converter and dual-channel digital isolators.
SHARC® Processors from Analog Devices deliver exceptional core and memory performance complemented by outstanding I/O throughput. Starting at 319 MFLOPS per dollar, the industry standard SHARC family makes floating-point processing economical where dynamic range is a key consideration for applications such as home and car audio, medical, industrial and instrumentation.
Join Analog Devices’ David Miller for an 17-minute Webcast discussing:
- SHARC floating-point product portfolio
- Features, benefits and market-specific advantages
- Performance and integration levels
- ADI and third-party audio algorithm libraries
- CROSSCORE® development tools
In less than 17 minutes, you’ll gain insight into how to efficiently design with SHARC® processors, which deliver the highest levels of performance and integration for floating-point processors priced under $30.
Also, for a limited time, viewers of this Webcast are eligible for a 50% discount on popular SHARC development tools. Information about this offer and how to purchase the tools online is included in the presentation.
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