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LT5500EGN#TRPBF Linear Technology LT5500 - 1.8GHz to 2.7GHz Receiver Front End; Package: SSOP; Pins: 24; Temperature Range: -40°C to 85°C visit Linear Technology - Now Part of Analog Devices Buy
LT5500EGN Linear Technology LT5500 - 1.8GHz to 2.7GHz Receiver Front End; Package: SSOP; Pins: 24; Temperature Range: -40°C to 85°C visit Linear Technology - Now Part of Analog Devices Buy
LT5500EGN#PBF Linear Technology LT5500 - 1.8GHz to 2.7GHz Receiver Front End; Package: SSOP; Pins: 24; Temperature Range: -40°C to 85°C visit Linear Technology - Now Part of Analog Devices Buy
LT5500EGN#TR Linear Technology LT5500 - 1.8GHz to 2.7GHz Receiver Front End; Package: SSOP; Pins: 24; Temperature Range: -40°C to 85°C visit Linear Technology - Now Part of Analog Devices Buy
LT1015MJ8/883B Linear Technology IC DUAL LINE RECEIVER, CDIP8, CERDIP-8, Line Driver or Receiver visit Linear Technology - Now Part of Analog Devices
LT1015CN8#PBF Linear Technology IC LINE RECEIVER, PDIP8, PLASTIC, DIP-8, Line Driver or Receiver visit Linear Technology - Now Part of Analog Devices

GPS Receiver RF Front End 44-LEAD

Catalog Datasheet MFG & Type PDF Document Tags

divide-by-32768

Abstract: GLONASS chip Global Positioning Products Description Data ref. GP2015 GPS receiver RF front end (48-lead TQFP package) DS4374 GP2010 GPS receiver RF front end (44-lead PQFP package) DS4056 , receiver employing a GP2010 or GP2015 RF front end, a GP2021 correlator and an ARM60 32-bit RISC , available from Zarlink Semiconductor , has 10 separate sets of SIGN/MAG inputs from RF front end devices , . PLL_LOCK. The PLL_LOCK pin is used to indicate (when high),that the phase locked loop in the RF front end
Zarlink Semiconductor
Original
DS4077 divide-by-32768 GLONASS chip GPS Orion GPS2000 philips ARM60 GP2021/IG/GQ1N GP2021/IG/GQ1Q P60ARM-B

gold code generator

Abstract: motion sensor doppler Global Positioning Products Description Data ref. GP2015 GPS receiver RF front end (48-lead TQFP package) DS4374 GP2010 GPS receiver RF front end (44-lead PQFP package) DS4056 , receiver employing a GP2010 or GP2015 RF front end, a GP2021 correlator and an ARM60 32-bit RISC , available from Zarlink Semiconductor , has 10 separate sets of SIGN/MAG inputs from RF front end devices , . PLL_LOCK. The PLL_LOCK pin is used to indicate (when high),that the phase locked loop in the RF front end
Zarlink Semiconductor
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gold code generator motion sensor doppler tic 136 TIC 136 Transistor tic 122 tic 226 bb

GOLD CODE

Abstract: ARM60 Global Positioning Products Description Data ref. GP2015 GPS receiver RF front end (48-lead TQFP package) DS4374 GP2010 GPS receiver RF front end (44-lead PQFP package) DS4056 , receiver employing a GP2010 or GP2015 RF front end, a GP2021 correlator and an ARM60 32-bit RISC , available from Zarlink Semiconductor , has 10 separate sets of SIGN/MAG inputs from RF front end devices , . PLL_LOCK. The PLL_LOCK pin is used to indicate (when high),that the phase locked loop in the RF front end
Zarlink Semiconductor
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GOLD CODE

utc 3845 D

Abstract: GP2021 Data ref. GP2015 GPS receiver RF front end (48-lead TQFP package) DS4374 GP2010 GPS receiver RF front end (44-lead PQFP package) DS4056 P60ARM-B 32 bit RISC microprocessor The , receiver employing a GP2010 or GP2015 RF front end, a GP2021 correlator and an ARM60 32-bit RISC , available from Zarlink Semiconductor , has 10 separate sets of SIGN/MAG inputs from RF front end devices , . PLL_LOCK. The PLL_LOCK pin is used to indicate (when high),that the phase locked loop in the RF front end
Zarlink Semiconductor
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utc 3845 D tic 120 TIC 122 Transistor GP2021/IG/GQ2Q GP2021/IG/GQ2N

divide-by-32768

Abstract: GLONASS chip Global Positioning Products Description Data ref. GP2015 GPS receiver RF front end (48-lead TQFP package) DS4374 GP2010 GPS receiver RF front end (44-lead PQFP package) DS4056 , receiver employing a GP2010 or GP2015 RF front end, a GP2021 correlator and an ARM60 32-bit RISC , available from Zarlink Semiconductor , has 10 separate sets of SIGN/MAG inputs from RF front end devices , . PLL_LOCK. The PLL_LOCK pin is used to indicate (when high),that the phase locked loop in the RF front end
Zarlink Semiconductor
Original
CH7E gps glonass

utc 3845 D

Abstract: divide-by-32768 Part GP2015 Description Data ref. DS4374 DS4056 DS3861 DS3553 GPS receiver RF front end (48-lead TQFP package) GP2010 GPS receiver RF front end (44-lead PQFP package) DW9255 35.42MHz SAW filter P60ARM , employing a GP2010 or GP2015 RF front end, a GP2021 correlator and an ARM60 32-bit RISC microprocessor. A single front end may be used, since all GPS satellites use the same L1 frequency of 1575·42 MHz. However , inputs from RF front end devices, which can be configured to connect independent to any of 6 correlator
Mitel Semiconductor
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GP2021 IG GQ1R CH9E 854S GPS Receiver RF Front End 44-LEAD utc 3845 MIL-STD-883B GP2021/IG/GQ1R

motion sensor doppler

Abstract: GLONASS chip Global Positioning Products Description Data ref. GP2015 GPS receiver RF front end (48-lead TQFP package) DS4374 GP2010 GPS receiver RF front end (44-lead PQFP package) DS4056 , receiver employing a GP2010 or GP2015 RF front end, a GP2021 correlator and an ARM60 32-bit RISC , available from Zarlink Semiconductor , has 10 separate sets of SIGN/MAG inputs from RF front end devices , . PLL_LOCK. The PLL_LOCK pin is used to indicate (when high),that the phase locked loop in the RF front end
Zarlink Semiconductor
Original
motion sensor based on doppler effect glonass TIC 122 Transistor datasheet PIN DIAGRAM OF 80186 tic 260

murata 455KHz ceramic filter

Abstract: MURATA TRIPLEXER ) Receiver Front End 560.0MHz BLM SAW Filters for GPS Receiver Front End 1575.42, 1575.5MHz , GPS Receiver Front End 1575.42, 1575.5MHz Receiver Front End 850, 900, 1800, 1900MHz bands , Integrated SAW Filter Filters IF Receiver Front End SFECF RF Output Components SFPKA CFUK , Multilayer LC Filters (Trap) Receiver Front End 560.0MHz BLM SAW Filters for GPS Receiver , Receiver Front End SFECF RF Output Components SFPKA CFUK Product Type CFUL CFWKA CFWL
muRata
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murata 455KHz ceramic filter MURATA TRIPLEXER MuRata Gigafil murata 10.7Mhz ceramic filter murata 455khz filter murata vco mqr LFB32 MM8430 MM8130

metal detector plans

Abstract: metal detector plans schematic GPS Receiver RF Front End IC Preliminary PT9120 BLOCK DIAGRAM PT9120 PRE1.0 -2- , ://www.princeton.com.tw GPS Receiver RF Front End IC Preliminary PT9120 FUNCTION DESCRIPTION The PT9120 low , Fax: 886-2-29174598 URL: http://www.princeton.com.tw GPS Receiver RF Front End IC Preliminary , : http://www.princeton.com.tw GPS Receiver RF Front End IC Preliminary PT9120 The IF , URL: http://www.princeton.com.tw GPS Receiver RF Front End IC Preliminary PT9120
Princeton Technology
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metal detector plans metal detector plans schematic 16.368mhz PRE10 bandpass filter for GPS L1 front end GPS Receiver RF Front End 28-PIN MO-220 24PIN 28PIN

DW9255

Abstract: bandpass filter for GPS Global Positioning System (GPS) receiver chip-set. The GP2000 GPS chip set from Zarlink Semiconductor comprises the GP2010 and GP2015 RF front end ICs along with the GP2021 12-channel GPS correlator. It is , Operates With Zarlink GP2010 and GP2015 RF Front End ICs I Centre Frequency of 35.42MHz I Insertion Loss , GP2010 GPS receiver RF Front-end DS4056 GP2015 Miniature GPS receiver RF Front-end DS4374 , section of the GPS receiver, hence it is critical to the receiver performance. The filter should be flat
Dynex
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bandpass filter for GPS DS3961-4

DS4808

Abstract: DS4374 GPS receiver RF front end Miniature GPS receiver RF front end 12 Channel GPS correlator 12 Channel GPS , system. A GPS receiver which uses a GP2010 or GP2015 RF Front-end, must ensure that the 2nd IF filtering , - I/P 3+ GP2015 Figure 4 Connections between Toko SA035WA-004 SAW and GP2015 RF Front -end , SAW filter for a GPS receiver This Application Brief has been prepared to advise users of the Mitel GP2015 (or GP2010) GPS RF Front-end how to use a new 35.42MHz SAW which has recently become available
Mitel Semiconductor
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DS4808 TOKO AB5162

MAX2563

Abstract: SAW GPS GLONASS filter , front end, ASIC Jun 01, 2001 APPLICATION NOTE 602 RF IC Building Block Solutions for GPS , Maxim > App Notes > Wireless, RF, and Cable Keywords: GPS receiver, voltage controlled oscillator , , With a Complete RF Front-End Design" Application note 3447, "Complete Stand-Alone GPS Receiver , own proprietary ASICs, but lack an RF-to-IF front end for downconverting the transmitted GPS , . Table 1. CMOS GPS RF Front-End Receiver IC Selector Guide Supply Supply Reference IF Noise Conversion
Maxim Integrated Products
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MAX2742 MAX2653 MAX2655 MAX2681 MAX2538 MAX2741 MAX2563 SAW GPS GLONASS filter max2744 GPS chip 2001 DGPS receiver 1575MH REP024

"Rf Front-End"

Abstract: ARM 7TDMI 32 BIT MICROPROCESSOR GP2010 Description GPS Receiver RF Front End (TQFP 48 package) GPS Receiver RF Front End (TQFP 44 , to pin 60 (GND) to ensure optimum noise immunity Master Clock Input from RF front end 40MHz 100mV rms. Inverted Master Clock Input from RF front end: 40MHz 100mV rms. Table 1 - Pin descriptions , /O JTAG/SSM Description Sampled Sign (polarity) data from RF front end. Sampled Mag (amplitude) data from RF front end. Sample Clock output to the RF front end. Provides a 5·714MHz clock
Zarlink Semiconductor
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GP4020 ARM 7TDMI 32 BIT MICROPROCESSOR ARM 7TDMI MICROPROCESSOR E911 ARM6 different TMS 3450 DS5134 GP4020/IG/GQ1N GP4020/IG/GQ1Q

2kx32

Abstract: 2k332 RF Front End (TQFP 48 package) GPS Receiver RF Front End (TQFP 44 package) Data sheet DS4374 DS4056 , GP4020 Typical GPS Receiver Figure 3 shows a typical GPS receiver employing a GP2015 RF front end and a , immunity Master Clock Input from RF front end 40MHz 100mV rms. Inverted Master Clock Input from RF front , CORR PCL SCG SCG Sampled Sign (polarity) data from RF front end. Sampled Mag (amplitude) data from RF front end. Sample Clock output to the RF front end. Provides a 5·714MHz clock with a 4:3 mark to
Zarlink Semiconductor
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2kx32 2k332 MARK NUB

Selection of Antenna and Cable for Optimum Automotive GPS Performance

Abstract: 7 SEGMENT DISPLAY 8088 . One GPS receiver vendor suggests 26dB gain before the receiver (front end gain). Choosing the M/A-COM , CONNECTING COAX GPS RECEIVER FRONT END GAIN 5 VOLT POWER SUPPLY Figure 4: Antenna performance , overall front end gain, where front end gain is: (Equation 9): front end gain = GPS antenna LNA gain - , calculation of the sensitivity for any configuration. A method of testing the receiver's front end gain , . This means that the GPS receiver must act on statistically sampled noise. As the GPS signal is a
M/A-COM
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Selection of Antenna and Cable for Optimum Automotive GPS Performance 7 SEGMENT DISPLAY 8088 Antenna Specialists PARKING WARNING SYSTEM ANPC-131 ANPC135

ARM6 tdmi

Abstract: ARM 7TDMI 32 BIT MICROPROCESSOR GP2010 Description GPS Receiver RF Front End (TQFP 48 package) GPS Receiver RF Front End (PQFP 44 , to pin 60 (GND) to ensure optimum noise immunity Master Clock Input from RF front end 40MHz 100mV rms. Inverted Master Clock Input from RF front end: 40MHz 100mV rms. Table 1 - Pin descriptions , /O JTAG/SSM Description Sampled Sign (polarity) data from RF front end. Sampled Mag (amplitude) data from RF front end. Sample Clock output to the RF front end. Provides a 5·714MHz clock
Zarlink Semiconductor
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ARM6 tdmi ARM7 DATASHEET for gps vehicle tracking system MPC 2002 DM-500-3 2 pin crystal oscillator 20mhZ sinewave tracking position decoder

ARM 7TDMI 32 BIT MICROPROCESSOR

Abstract: correlator GP2010 Description GPS Receiver RF Front End (TQFP 48 package) GPS Receiver RF Front End (PQFP 44 , to pin 60 (GND) to ensure optimum noise immunity Master Clock Input from RF front end 40MHz 100mV rms. Inverted Master Clock Input from RF front end: 40MHz 100mV rms. Table 1 - Pin descriptions , /O JTAG/SSM Description Sampled Sign (polarity) data from RF front end. Sampled Mag (amplitude) data from RF front end. Sample Clock output to the RF front end. Provides a 5·714MHz clock
Zarlink Semiconductor
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correlator ARM7 microcontroller pin configuration

ARM 7TDMI 32 BIT MICROPROCESSOR

Abstract: DS4056 GP2010 Description GPS Receiver RF Front End (TQFP 48 package) GPS Receiver RF Front End (PQFP 44 , to pin 60 (GND) to ensure optimum noise immunity Master Clock Input from RF front end 40MHz 100mV rms. Inverted Master Clock Input from RF front end: 40MHz 100mV rms. Table 1 - Pin descriptions , /O JTAG/SSM Description Sampled Sign (polarity) data from RF front end. Sampled Mag (amplitude) data from RF front end. Sample Clock output to the RF front end. Provides a 5·714MHz clock
Zarlink Semiconductor
Original

ARM 7TDMI 32 BIT MICROPROCESSOR

Abstract: MPC 2002 GP2010 Description GPS Receiver RF Front End (TQFP 48 package) GPS Receiver RF Front End (PQFP 44 , to pin 60 (GND) to ensure optimum noise immunity Master Clock Input from RF front end 40MHz 100mV rms. Inverted Master Clock Input from RF front end: 40MHz 100mV rms. Table 1 - Pin descriptions , /O JTAG/SSM Description Sampled Sign (polarity) data from RF front end. Sampled Mag (amplitude) data from RF front end. Sample Clock output to the RF front end. Provides a 5·714MHz clock
Zarlink Semiconductor
Original
gps m 89 pin configuration

Plessey GP1010

Abstract: plessey LNA DS3076-3.2 GP1010 GLOBAL POSITIONING RECEIVER FRONT END The GP1010 implements a Global Positioning , Compatible On-chip PLL Including VCO Complete Triple Conversion Receiver 44-Lead Surface Mount Plastic , gain through the chip is sufficient forthe AGC to be operating on the self noise of the front end. The , at the antenna is about -130dBm so the wanted signal is actually buried in noise. The front end , jamming signals. The output of the front end at 175-42MHz can then be filtered before being input to the
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OCR Scan
Plessey GP1010 plessey LNA GEC Plessey amplifier plessey gps receiver ds3605 GP1010CGGPBR 175MH P1020 35-42MH DS3076 QG22SS3
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