GPS and DGPS overview, with a complete RF front-end design
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2004-11-24 |
| This app note presents an overview of how GPS and DGPS systems work |
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| 12 channel gps reference design
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2002-12-03 |
| This article describes the features of the 12 channel GPS reference design |
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| Designing low-cost, low-component-count GPS receiver
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2006-12-01 |
| The signals from L1-band global positioning satellites are among the weakest in commercial and private wireless applications. To successfully recover such weak signals, the receiver must have sufficiently high sensitivity, while rejecting out-of-band interferences. This application note described the key system parameters that should be considered when designing a low-cost, low-component-count, unassisted commercial GPS receiver |
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| GPS antenna considerations for automotive applications
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2001-06-15 |
| This application note discusses the design of active GPS antennas using Microstrip patch technology for automotive applications |
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| PC software AlmanacUploader for SMIQ with option SMIQB51 (digital standard GPS
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2002-10-03 |
| This application note describes how the AlmanacUploader converts GPS data from GPS satellite, and transfers it to the SMIQ signal generator to generate GPS signals |
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| Complete stand-alone GPS receiver solution with MAX2742
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2005-06-06 |
| This app note discusses a complete GPS receiver with MAX2742 |
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| MAX2653 LNA with gain-step, retuned for GPS applications
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2004-11-24 |
| This app note presents alternate RF matching networks for the MAX2563 SiGe LNA, tuned for the GPS band (1575MHz center frequency |
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| A Single Chip Silicon Bipolar Receiver for GPS/GLONASS Applications
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2000-02-22 |
| An RF/IF silicon bipolar ASIC, ROCIII (receiver-on-a-chip) has been designed to deliver a receiver solution for a range of GPS/GLONASS products aimed at the professional market. These applications include synchronization of cellular base stations (high blocking immunity) and survey grade receivers with sub-cm accuracy (low amplitude and phase noise). This application note describes the ROCIII |
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| Application of UART in GPS navigation system
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2005-06-09 |
| This app note shows how to combine a GPS module into a navigation system by using a Philips UART |
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| GPS receiver hardware design
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2002-12-04 |
| This application note shows how to construct a complete 12-channel GPS receiver engine using the GP2000 chipset |
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| GP2010 and GP2105: Reduction of VCO-related EMC radiation
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2003-08-15 |
| This application note briefs users of Zarlink's GP2010 and GP2105 GPS RF Front-End modules on how to reduce the radiated emissions of VCO harmonics |
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| Using the Murata SAFJA35M4WC0Z00 saw filter
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2002-12-02 |
| This article advises users of the Zarlink GP2015 (or GP2010) GPS RF front-end how to use a new 35.42MHz SAW which has recently become available from Murata |
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| MSP430 interface to TPS60250 via I²C master software
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2008-07-09 |
| This application report written by Randy Wu describes a simple hardware and software platform to demonstrate a Texas Instruments MSP430 MCU implementing an I²C master interface using two general-purpose I/O pins via I²C software emulation. |
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| Design a load sharing system power path management with Microchip's stand-alone Li-ion battery charger
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2008-02-11 |
| This application note will assist product designers by taking advantage of using Microchip's fully integrated simple Li-Ion battery charge management controllers with common directional control to build a system and battery load sharing circuitry. |
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| Selecting the right battery system for cost-sensitive portable applications while maintaining excellent quality
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2007-08-27 |
| This application note shows characteristics of some popular battery chemistries for portable applications and fully integrated low cost single-cell Li-ion/lithium polymer battery charge management solutions. |
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