Two-Point Modulation
Abstract: fm vco gmsk am modulation application circuit "Frequency Synthesizers" modulation techniques gmsk fm modulator
Text: Using Two-Point Modulation To Reduce Synthesizer Problems When Designing DC-Coupled GMSK Modulators Ron Hunter and Fred Kostedt MX-COM, Inc. 4800 Bethania Station Road Winston-Salem, NC 27105 336-744-5050 [email protected] [email protected] Abstract Data communications systems that employ modulation techniques requiring good low-frequency
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am radio station block diagram
Abstract: LA1130 LM1800 audio step up transformers lm1800 national 12V supply LM386 LM3089 MC13020P DS8911 MV104
Text: National Semiconductor Application Note 512 June 1988 INTRODUCTION This application note describes an AM FM radio implemented using the DS8911 Up-Conversion Frequency Synthesizer This synthesizer was designed to utilize up-conversion techniques to reduce the manufacturing costs and labor requirements associated with alignment of an AM radio front
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DS8911
am radio station block diagram
LA1130
LM1800
audio step up transformers
lm1800 national
12V supply LM386
LM3089
MC13020P
MV104
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Untitled
Abstract: No abstract text available
Text: Frequently Asked Questions Rev A For Series: EPSA13 1. What is this oscillator series? This series of devices are oscillators where the output frequency is primarily controlled by an internal quartz bulk acoustic wave BAW crystal resonator and an integrated complementary metal-oxide semiconductor (CMOS)
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EPSA13
EPSA13
TEN10-005-113
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Abstract: No abstract text available
Text: Frequently Asked Questions Rev B For Series: EMS11 1. What is this oscillator series? This series of devices are oscillators where the output frequency is primarily controlled by an internal microelectro-mechanical system MEMS resonator and an integrated complementary metal-oxide semiconductor
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EMS11
EMS11
TEN10-005-056
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Untitled
Abstract: No abstract text available
Text: Frequently Asked Questions Rev A For Series: EMS43 1. What is this oscillator series? This series of devices are oscillators where the output frequency is primarily controlled by an internal microelectro-mechanical system MEMS resonator and an integrated complementary metal-oxide semiconductor
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EMS43
EMS43
TEN10-005-111
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Untitled
Abstract: No abstract text available
Text: Frequently Asked Questions Rev B For Series: EMS21 1. What is this oscillator series? This series of devices are oscillators where the output frequency is primarily controlled by an internal microelectro-mechanical system MEMS resonator and an integrated complementary metal-oxide semiconductor
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EMS21
EMS21
TEN10-005-059
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Untitled
Abstract: No abstract text available
Text: Frequently Asked Questions Rev B For Series: EMS13 1. What is this oscillator series? This series of devices are oscillators where the output frequency is primarily controlled by an internal microelectro-mechanical system MEMS resonator and an integrated complementary metal-oxide semiconductor
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EMS13
EMS13
TEN10-005-058
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Untitled
Abstract: No abstract text available
Text: Frequently Asked Questions Rev A For Series: EMS41 1. What is this oscillator series? This series of devices are oscillators where the output frequency is primarily controlled by an internal microelectro-mechanical system MEMS resonator and an integrated complementary metal-oxide semiconductor
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EMS41
EMS41
TEN10-005-109
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Untitled
Abstract: No abstract text available
Text: Frequently Asked Questions Rev A For Series: EMS42 1. What is this oscillator series? This series of devices are oscillators where the output frequency is primarily controlled by an internal microelectro-mechanical system MEMS resonator and an integrated complementary metal-oxide semiconductor
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EMS42
EMS42
TEN10-005-110
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Untitled
Abstract: No abstract text available
Text: Frequently Asked Questions Rev B For Series: EMS22 1. What is this oscillator series? This series of devices are oscillators where the output frequency is primarily controlled by an internal microelectro-mechanical system MEMS resonator and an integrated complementary metal-oxide semiconductor
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EMS22
EMS22
TEN10-005-060
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Untitled
Abstract: No abstract text available
Text: Frequently Asked Questions Rev B For Series: EMS23 1. What is this oscillator series? This series of devices are oscillators where the output frequency is primarily controlled by an internal microelectro-mechanical system MEMS resonator and an integrated complementary metal-oxide semiconductor
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EMS23
EMS23
TEN10-005-061
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Untitled
Abstract: No abstract text available
Text: Frequently Asked Questions Rev B For Series: EMS12 1. What is this oscillator series? This series of devices are oscillators where the output frequency is primarily controlled by an internal microelectro-mechanical system MEMS resonator and an integrated complementary metal-oxide semiconductor
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EMS12
EMS12
TEN10-005-057
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ferroxcube 1408p-l00-3cb
Abstract: 1408P-L00-3CB 1408p ferroxcube 1408p circuit diagram of pulse width modulation PJ494CD ferroxcube 1408p-l00-3cb core PJ494 120T 27BSC
Text: PJ494 Switchmode Pulse Width Modulation Control Circuit T he PJ494 incorporates on a single monolithic chip all the functions required in the construction of a pulsewidth-modulation control circuit. Designed primarily for power supply control, these devices offer the systems
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PJ494
PJ494
250mA
27BSC
05BSC
ferroxcube 1408p-l00-3cb
1408P-L00-3CB
1408p
ferroxcube 1408p
circuit diagram of pulse width modulation
PJ494CD
ferroxcube 1408p-l00-3cb core
120T
27BSC
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ferroxcube 1408p-l00-3cb
Abstract: No abstract text available
Text: PJ494 Switchmode Pulse Width Modulation Control Circuit T he PJ494 incorporates on a single monolithic chip all approximately 5% dead time when externally altered. The on- the functions required in the construction of a pulse-width- chip oscillatory be bypassed by terminating RT pin 6 to the
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PJ494
PJ494
54BSC
OP-16
05BSC
27BSC
ferroxcube 1408p-l00-3cb
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circuit diagram of modulation qpsk
Abstract: frequency modulation using digital ic Quadrature Phase Shift Keying Modulator Demodulator sine wave phase shift oscillator modulation techniques phase shift oscillator pioneer fm tuner pioneer fm tuner chip MAX1002 MAX1003
Text: WIRELESS, RF, AND CABLE Application Note 686: Oct 13, 2000 QPSK Modulation Demystified Readers are presented with step by step derivations showing the operation of QPSK modulation and demodulation. The move from analog communication to digital has advanced the use of QPSK. Euler's relation is used to assist analysis of multiplication
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com/an686
MAX1002:
MAX1003:
MAX2102:
MAX2361:
MAX2411A:
MAX2450:
circuit diagram of modulation qpsk
frequency modulation using digital ic
Quadrature Phase Shift Keying Modulator Demodulator
sine wave phase shift oscillator
modulation techniques
phase shift oscillator
pioneer fm tuner
pioneer fm tuner chip
MAX1002
MAX1003
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MBE3-50
Abstract: MBE301 TOKO 113kn if transformer
Text: INTEGRATED CIRCUITS DATA SHEET TDA5637 Low power VHF, UHF and hyperband mixer/oscillator for TV and VCR 3-band tuners Objective specification File under Integrated Circuits, IC02 Philips Semiconductors 1995 Mar 21 Philips Semiconductors Objective specification
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TDA5637
MBE3-50
MBE301
TOKO 113kn if transformer
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Untitled
Abstract: No abstract text available
Text: DEVELOPMENT KIT Info Click here TX6004 • • • • • Designed for Short-Range Wireless Data Communications Supports RF Data Transmission Rates Up to 115.2 kbps 3 V, Low Current Operation plus Sleep Mode Stable, Easy to Use, Low External Parts Count
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TX6004
2002/95/EC
TX6004
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amplitude modulation transmitter circuit diagram
Abstract: TX6001 2506033017YO RX6001 SM-20H
Text: DEVELOPMENT KIT Info Click here TX6001 • • • • • Designed for Short-Range Wireless Data Communications Supports RF Data Transmission Rates Up to 115.2 kbps 3 V, Low Current Operation plus Sleep Mode Stable, Easy to Use, Low External Parts Count
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TX6001
2002/95/EC
TX6001
amplitude modulation transmitter circuit diagram
2506033017YO
RX6001
SM-20H
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Untitled
Abstract: No abstract text available
Text: DEVELOPMENT KIT Info Click here TX6001 • • • • • Designed for Short-Range Wireless Data Communications Supports RF Data Transmission Rates Up to 115.2 kbps 3 V, Low Current Operation plus Sleep Mode Stable, Easy to Use, Low External Parts Count
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TX6001
2002/95/EC
TX6001
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Untitled
Abstract: No abstract text available
Text: DEVELOPMENT KIT Info Click here TX5000 • • • • • Designed for Short-Range Wireless Data Communications Supports RF Data Transmission Rates Up to 115.2 kbps 3 V, Low Current Operation plus Sleep Mode Stable, Easy to Use, Low External Parts Count
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TX5000
2002/95/EC
TX5000
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HEF4751V
Abstract: HEF4750V HEF4750VD
Text: HEF4750V LSI FREQUENCY SYNTHESIZER The H EF4750V frequency synthesizer is one of a pair of LOCMOS devices, primarily intended for use in high-performance frequency synthesizers, e.g. in all communication, instrumentation, television and broadcast applications. A combination of analogue and digital techniques results in an integrated
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HEF4750V
HEF4750V
EF4751V.
EF4751V)
EF4750V
HEF4751V
HEF4750VD
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HEF4751V
Abstract: hef4751
Text: HEF4750V LSI FREQUENCY SYNTHESIZER The H EF4750V frequency synthesizer is one o f a pair of LO CM O S devices, primarily intended for use in high-performance frequency synthesizers, e.g. in all communication, instrumentation, television and broadcast applications. A combination o f analogue and digital techniques results in an integrated
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HEF4750V
HEF4750V
HEF4751V.
HEF4751VJ
HEF475GV
HEF4751V
hef4751
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HEF4750V
Abstract: No abstract text available
Text: HEF4750V LSI FREQUENCY SYNTHESIZER The HEF4750V frequency synthesizer is one of a pair of LOCMOS devices, primarily intended for use in high-performance frequency synthesizers, e.g. in all communication, instrumentation, television and broadcast applications. A combination of analogue and digital techniques results in an integrated
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HEF4750V
HEF4750V
HEF4751V.
HEF4751V)
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Untitled
Abstract: No abstract text available
Text: S i GEC PLESSEY ADVANCE INFORMATION SEMICONDUCTORS SL5067 MULTI - STANDARD VIDEO MODULATOR The SL5067 is a video up converter, capable of operating at frequencies up to 900MHz. It is compatible with both PAL and NTSC, accepting baseband video and sound inputs and
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SL5067
SL5067
900MHz.
470nF.
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