QUARTZ 3.58 Search Results

Cordless Phone circuit diagram

Abstract: Cordless Phone block diagram AK2357 50mhz crystal oscillator DIP Scrambler high frequency pll board
Contextual Info: AKM — C O M M U NIC ATION PRODUCTS Frequency Inverter Scrambler 3 @ © © ® High quality decoded voice: S /N > 45dB Four inversion frequencies are selectable Scrambler/Descrambler bypass mode On chip oscillator circuit for 3.58MHz quartz crystal

AK2366

Abstract: frequency inverter scrambler MICROPHONE 3.6864MHz crystal Scrambler inversion
Contextual Info: AKM ► COM M UNIC ATION PRODUCTS Frequency Inverter Scrambler for Cordless Telephone Sets High quality decoded voice: S / N > 4 5 d B <D Four inversion frequencies are selectable @ Scrambler/Descrambler full bypass mode @ On chip oscillator circuit for 3.58MHz quartz crystal

Contextual Info: QKT - HC49S QUARTZ CRYSTAL PICTURE FEATURES Low cost, Good aging Wide frequency range, Pb-free & RoHS Compliance SPECIFICATIONS Holder Type Frequency Range Operating Temperature Range Storage Temperature Range Drive Level Load Capacitance Frequency Tolerance

OP4012B

Abstract: OP4005B
Contextual Info: • • • • • OP4012B Quartz SAW Stabilized Differential Output Technology Very Low Jitter Fundamental-Mode Operation at 644.53125 MHz Voltage Tunable for Phase Locked Loop Applications Timing Reference for 10G Optical Ethernet Communications Systems

Contextual Info: Preliminary OP4005B • • • • Quartz SAW Stabilized Differential Output Technology Very Low Jitter Fundamental-Mode Operation at 622.08 MHz Voltage Tunable for Phase Locked Loop Applications Timing Reference for Optical Data Communications Systems

cm8870 dtmf decoder circuit diagram

Abstract: pin diagram of CM8870 CM8870 16DTMF
Contextual Info: A om d C M 8870 Microcircuits_ CMOS DTMF Integrated Receivers FEATURES GENERAL DESCRIPTION • Full DTMF receiver • Less than 35 mW power consumption • Industrial temperature range • Uses quartz crystal or ceramic resonators

OP4012B

Contextual Info: OP4012B • • • • Quartz SAW Stabilized Differential Output Technology Very Low Jitter Fundamental-Mode Operation at 644.53125 MHz Voltage Tunable for Phase Locked Loop Applications Timing Reference for 10G Optical Ethernet Communications Systems

Contextual Info: Preliminary OP4008B • • • • Quartz SAW Stabilized and Filtered “Diff Sine” Technology Fundamental-Mode Oscillation at 669.327 MHz Voltage Tunable for Phase Lock Loop Operations Optical Timing Reference for Forward Error Correction Applications

Contextual Info: Preliminary OP4005B • • • • Quartz SAW Stabilized Differential Output Technology Very Low Jitter Fundamental-Mode Operation at 622.08 MHz Voltage Tunable for Phase Locked Loop Applications Timing Reference for Optical Data Communications Systems

Contextual Info: A CM8870C/CM8871C/CM8872C CMD Microcircuits CMOS DTMF Integrated Receivers GENERAL DESCRIPTION FEATURES Full DTMF receiver Less than 35 mW power consumption Industrial temperature range Uses quartz crystal or ceramic resonators Adjustable acquisition and release times

Contextual Info: Preliminary OP4005B • • • • Quartz SAW Stabilized Differential Output Technology Very Low Jitter Fundamental-Mode Operation at 622.08 MHz Voltage Tunable for Phase Locked Loop Applications Timing Reference for Optical Data Communications Systems

Contextual Info: Preliminary OP4005B • • • • Quartz SAW Stabilized Differential Output Technology Very Low Jitter Fundamental-Mode Operation at 622.08 MHz Voltage Tunable for Phase Locked Loop Applications Timing Reference for Optical Data Communications Systems

4046 application note pll

Abstract: 4046 pll
Contextual Info: Preliminary OP4005B • • • • Quartz SAW Stabilized Differential Output Technology Very Low Jitter Fundamental-Mode Operation at 622.08 MHz Voltage Tunable for Phase Locked Loop Applications Timing Reference for Optical Data Communications Systems

cm8870 dtmf decoder circuit diagram

Abstract: cm8870decoder CM8870 08C3 CM8870C
Contextual Info: A CM8870C/CM8871C/CM8872C CMD Microcircuits CMOS DTMF Integrated Receivers GENERAL DESCRIPTION FEATURES Full DTMF receiver Less than 35 mW power consumption Industrial temperature range Uses quartz crystal or ceramic resonators Adjustable acquisition and release times

58MGW300A

Abstract: TC40H004P colpitts oscillator construction design CST3.58MGW Colpitts circuit design hcmos TOSHIBA Quartz resonator 12 Mhz hartley oscillator 4mhz resonator datasheet CSA3.58MG300B
Contextual Info: Piezoelectric Resonators Introduction Ceramic resonators are piezoelectric ceramic devices that are designed to oscillate at certain frequencies. They are highly stable, small, inexpensive, and do not require tuning or adjusting. Other common resonant devices are quartz

OP4005B

Abstract: OP4008B
Contextual Info: Preliminary OP4008B • • • • Quartz SAW Stabilized and Filtered “Diff Sine” Technology Fundamental-Mode Oscillation at 669.327 MHz Voltage Tunable for Phase Lock Loop Operations Optical Timing Reference for Forward Error Correction Applications

Contextual Info: Preliminary OP4005B • • • • Quartz SAW Stabilized Differential Output Technology Very Low Jitter Fundamental-Mode Operation at 622.08 MHz Voltage Tunable for Phase Locked Loop Applications Timing Reference for Optical Data Communications Systems

Contextual Info: Preliminary OP4005B • • • • Quartz SAW Stabilized Differential Output Technology Very Low Jitter Fundamental-Mode Operation at 622.08 MHz Voltage Tunable for Phase Locked Loop Applications Timing Reference for Optical Data Communications Systems

Contextual Info: Preliminary OP4012B • • • • Quartz SAW Stabilized Differential Output Technology Very Low Jitter Fundamental-Mode Operation at 644.53125 MHz Voltage Tunable for Phase Locked Loop Applications Timing Reference for 10G Optical Ethernet Communications Systems

Contextual Info: Preliminary OP4004B • • • • Quartz SAW Stabilized Differential Output Technology Very Low Jitter Fundamental-Mode Operation at 625.00 MHz Voltage Tunable for Phase Locked Loop Applications Timing Reference for 10G Optical Ethernet Communications Systems

Contextual Info: OP4008B • • • • Quartz SAW Stabilized and Filtered “Diff Sine” Technology Fundamental-Mode Oscillation at 669.327 MHz Voltage Tunable for Phase Lock Loop Operations Optical Timing Reference for Forward Error Correction Applications 669.327 MHz

Precision Monolithics

Abstract: OP4004B 1kilohm
Contextual Info: Preliminary OP4004B • • • • Quartz SAW Stabilized Differential Output Technology Very Low Jitter Fundamental-Mode Operation at 625.00 MHz Voltage Tunable for Phase Locked Loop Applications Timing Reference for 10G Optical Ethernet Communications Systems

Contextual Info: Preliminary OP4012B • • • • Quartz SAW Stabilized Differential Output Technology Very Low Jitter Fundamental-Mode Operation at 644.3125 MHz Voltage Tunable for Phase Locked Loop Applications Timing Reference for 10G Optical Ethernet Communications Systems

Contextual Info: Preliminary OP4012B • • • • Quartz SAW Stabilized Differential Output Technology Very Low Jitter Fundamental-Mode Operation at 644.53125 MHz Voltage Tunable for Phase Locked Loop Applications Timing Reference for 10G Optical Ethernet Communications Systems