Part Number
    Please enter a valid full or partial manufacturer part number with a minimum of 3 letters or numbers

    BLOCKING OSCILLATOR USES Search Results

    BLOCKING OSCILLATOR USES Result Highlights (5)

    Part ECAD Model Manufacturer Description Download Buy
    TCK22921G
    		Toshiba Electronic Devices & Storage Corporation Load Switch IC, 1.1 to 5.5 V, 2.0 A, Reverse current blocking / Auto-discharge, WCSP6E Datasheet
    TCK22946G
    		Toshiba Electronic Devices & Storage Corporation Load Switch IC, 1.1 to 5.5 V, 0.4 A, Reverse current blocking / Auto-discharge, WCSP6E Datasheet
    TCK22910G
    		Toshiba Electronic Devices & Storage Corporation Load Switch IC, 1.1 to 5.5 V, 2.0 A, Reverse current blocking, WCSP6E Datasheet
    TCK207AN
    		Toshiba Electronic Devices & Storage Corporation Load Switch IC, 0.75 to 3.6 V, 2.0 A, Reverse current blocking / Auto-discharge, DFN4A Datasheet
    TCK111G
    		Toshiba Electronic Devices & Storage Corporation Load Switch IC, 1.1 to 5.5 V, 3.0 A, Inrush current reducing / Reverse current blocking, WCSP6C Datasheet

    BLOCKING OSCILLATOR USES Datasheets Context Search

    Catalog Datasheet Type Document Tags PDF

    Stanford amplifier

    Contextual Info: Preliminary Product Description SGA-2286 Stanford Microdevices’ SGA-2286 is a high performance cascadeable 50-ohm amplifier designed for operation from a 2.7-volt supply. This RFIC uses the latest Silicon Germanium Heterostructure Bipolar Transistor SiGe HBT


    Original     		SGA-2286 50-ohm SGA-2286 DC-3500 Stanford amplifier PDF

    Contextual Info: Preliminary Product Description SGA-3286 Stanford Microdevices’ SGA-3286 is a high performance cascadeable 50-ohm amplifier designed for operation at voltages as low as 2.7V. This RFIC uses the latest Silicon Germanium Heterostructure Bipolar Transistor SiGe HBT


    Original     		SGA-3286 50-ohm SGA-3286 DC-3600 PDF

    Stanford amplifier

    Contextual Info: Preliminary Product Description SGA-4286 Stanford Microdevices’ SGA-4286 is a high performance cascadeable 50-ohm amplifier designed for operation at voltages as low as 3.3V. This RFIC uses the latest Silicon Germanium Heterostructure Bipolar Transistor SiGe HBT


    Original     		SGA-4286 50-ohm SGA-4286 DC-3500 Stanford amplifier PDF

    Contextual Info: Preliminary Product Description SGA-4486 Stanford Microdevices’ SGA-4486 is a high performance cascadeable 50-ohm amplifier designed for operation at voltages as low as 3.3V. This RFIC uses the latest Silicon Germanium Heterostructure Bipolar Transistor SiGe HBT


    Original     		SGA-4486 50-ohm SGA-4486 DC-2000 PDF

    Contextual Info: Preliminary Product Description SGA-2386 Stanford Microdevices’ SGA-2386 is a high performance cascadeable 50-ohm amplifier designed for operation at voltages as low as 2.7V. This RFIC uses the latest Silicon Germanium Heterostructure Bipolar Transistor SiGe HBT


    Original     		SGA-2386 50-ohm SGA-2386 DC-2800 PDF

    Contextual Info: Preliminary Product Description SGA-2486 Stanford Microdevices’ SGA-2486 is a high performance cascadeable 50-ohm amplifier designed for operation at voltages as low as 2.7V. This RFIC uses the latest Silicon Germanium Heterostructure Bipolar Transistor SiGe HBT


    Original     		SGA-2486 50-ohm SGA-2486 DC-2000 PDF

    Contextual Info: Preliminary Product Description SGA-4386 Stanford Microdevices’ SGA-4386 is a high performance cascadeable 50-ohm amplifier designed for operation at voltages as low as 3.3V. This RFIC uses the latest Silicon Germanium Heterostructure Bipolar Transistor SiGe HBT


    Original     		SGA-4386 50-ohm SGA-4386 DC-2500 PDF

    3386 transistor

    Contextual Info: Preliminary Product Description SGA-3386 Stanford Microdevices’ SGA-3386 is a high performance cascadeable 50-ohm amplifier designed for operation at voltages as low as 2.7V. This RFIC uses the latest Silicon Germanium Heterostructure Bipolar Transistor SiGe HBT


    Original     		SGA-3386 50-ohm SGA-3386 DC-3600 3386 transistor PDF

    Contextual Info: Preliminary Product Description SGA-3486 Stanford Microdevices’ SGA-3486 is a high performance cascadeable 50-ohm amplifier designed for operation at voltages as low as 3V. This RFIC uses the latest Silicon Germanium Heterostructure Bipolar Transistor SiGe HBT


    Original     		SGA-3486 50-ohm SGA-3486 DC-2000 PDF

    SGA-0363

    Abstract: EDS-101495
    Contextual Info: Preliminary Preliminary Product Description SGA-0363 Stanford Microdevices’ SGA-0363 is a high performance cascadeable 50-ohm amplifier designed for operation at voltages as low as 2.5V. This RFIC uses the latest Silicon Germanium Heterostructure Bipolar Transistor SiGe HBT


    Original     		SGA-0363 50-ohm SGA-0363 DC-5000 DC-500evices EDS-101495 PDF

    germanium transistor ac 129

    Abstract: SGA-3563
    Contextual Info: Preliminary Preliminary Product Description SGA-3563 Stanford Microdevices’ SGA-3563 is a high performance cascadeable 50-ohm amplifier designed for operation at voltages as low as 3.2V. This RFIC uses the latest Silicon Germanium Heterostructure Bipolar Transistor SiGe HBT


    Original     		SGA-3563 SGA-3563 50-ohm DC-5000 EDS-101496 germanium transistor ac 129 PDF

    marking A45

    Abstract: germanium transistor ac 128 SGA-4563 marking A45 RF TRANSISTOR 726
    Contextual Info: Preliminary Preliminary Product Description SGA-4563 Stanford Microdevices’ SGA-4563 is a high performance cascadeable 50-ohm amplifier designed for operation at voltages as low as 3.4V. This RFIC uses the latest Silicon Germanium Heterostructure Bipolar Transistor SiGe HBT


    Original     		SGA-4563 SGA-4563 50-ohm DC-2500 EDS-101803 marking A45 germanium transistor ac 128 marking A45 RF TRANSISTOR 726 PDF

    marking g45

    Abstract: germanium transistor ac 128 SGA-0163
    Contextual Info: Preliminary Preliminary Product Description SGA-0163 Stanford Microdevices’ SGA-0163 is a high performance cascadeable 50-ohm amplifier designed for operation at voltages as low as 2.1V. This RFIC uses the latest Silicon Germanium Heterostructure Bipolar Transistor SiGe HBT


    Original     		SGA-0163 SGA-0163 50-ohm DC-4500 EDS-101494 marking g45 germanium transistor ac 128 PDF

    SGA-0363

    Contextual Info: Preliminary Preliminary Product Description SGA-0363 Stanford Microdevices’ SGA-0363 is a high performance cascadeable 50-ohm amplifier designed for operation at voltages as low as 2.5V. This RFIC uses the latest Silicon Germanium Heterostructure Bipolar Transistor SiGe HBT


    Original     		SGA-0363 SGA-0363 50-ohm DC-5000 EDS-101495 PDF

    Contextual Info: Easy to Use, Low Power, Sub GHz, ISM/SRD, FSK/GFSK, Transceiver IC ADF7024 Data Sheet FEATURES Receiver performance Highly linear: −11.5 dBm input IP3 Blocking: 76 dB at 10 MHz offset Receiver sensitivity, bit error rate BER −111 dBm at 9.6 kbps −105 dBm at 100 kbps


    Original     		ADF7024 ADF7024DB3Z EVAL-ADF7024DB4Z 32-Lead D12027-0-7/14 CP-32-13 PDF

    led rolls

    Abstract: multiple output timer in one
    Contextual Info: Implementing Virtual Peripheral Timers Introduction This application note presents programming techniques for creating multiple, programmable, 16-bit timers/frequency outputs which take advantage of the SX's internal interrupt feature to allow background operation of the timers as virtual peripherals. This example uses the Parallax demo board, taking advantage of


    Original     		16-bit RS232C led rolls multiple output timer in one PDF

    SGA-5589

    Abstract: OPERATION AMPLIFIER FOR 40 MHZ BUFFER 24.1 GHz amplifier transistor A55
    Contextual Info: Preliminary Product Description SGA-5589 Stanford Microdevices’ SGA-5589 is a high performance cascadeable 50-ohm amplifier designed for operation at voltages as low as 3.9V. This RFIC uses the latest Silicon Germanium Heterostructure Bipolar Transistor SiGe HBT


    Original     		SGA-5589 SGA-5589 50-ohm DC-4000 EDS-101443 OPERATION AMPLIFIER FOR 40 MHZ BUFFER 24.1 GHz amplifier transistor A55 PDF

    SGA-5263

    Contextual Info: Preliminary Preliminary SGA-5263 Product Description Sirenza Microdevices’ SGA-5263 is a high performance cascadeable 50-ohm amplifier designed for operation at voltages as low as 3.4V. This RFIC uses the latest Silicon Germanium Heterostructure Bipolar Transistor SiGe HBT


    Original     		SGA-5263 SGA-5263 50-ohm DC-4500 EDS-101540 PDF

    Z2400

    Abstract: SGA-5263
    Contextual Info: Preliminary Preliminary Product Description SGA-5263 Stanford Microdevices’ SGA-5263 is a high performance cascadeable 50-ohm amplifier designed for operation at voltages as low as 3.4V. This RFIC uses the latest Silicon Germanium Heterostructure Bipolar Transistor SiGe HBT


    Original     		SGA-5263 SGA-5263 50-ohm DC-4500 EDS-101540 Z2400 PDF

    40khz fsk transceiver

    Abstract: PLL FSK DEMODULATOR TH7120 "application note" antenna 433.92 MHz Transceiver Power Amplifier Circuit garage door 300mhz transmitter circuits diagram RT-16 433.92 HC49 LQFP32 SFE10
    Contextual Info: TH7120 27 to 930MHz FSK/FM/ASK Transceiver Features ! Single chip solution with only a few external components ! Stand-alone fixed-frequency user mode ! Programmable multi-channel user mode ! Low current consumption in active mode and very low standby current


    Original     		TH7120 930MHz QS9000, ISO14001 March/03 40khz fsk transceiver PLL FSK DEMODULATOR TH7120 "application note" antenna 433.92 MHz Transceiver Power Amplifier Circuit garage door 300mhz transmitter circuits diagram RT-16 433.92 HC49 LQFP32 SFE10 PDF

    internal circuit diagram for ic 4047

    Abstract: PLL FSK DEMODULATOR IC 4047 working the working of IC 4047 data sheet of IC 4047 ASK DEMODULATOR circuit fsk transceiver FSK DEMODULATOR IC 4047 PLL FSK DEMODULATOR 10.7
    Contextual Info: TH7122 27 to 930MHz FSK/FM/ASK Transceiver Features ! Single chip solution with only a few external components ! Stand-alone fixed-frequency user mode ! Programmable multi-channel user mode ! Low current consumption in active mode and very low standby current


    Original     		TH7122 930MHz QS9000, ISO14001 internal circuit diagram for ic 4047 PLL FSK DEMODULATOR IC 4047 working the working of IC 4047 data sheet of IC 4047 ASK DEMODULATOR circuit fsk transceiver FSK DEMODULATOR IC 4047 PLL FSK DEMODULATOR 10.7 PDF

    433 MHz passive RFID

    Abstract: applications of blocking oscillator
    Contextual Info: CC1121 High Performance Low Power RF Transceiver •          Ultra low power wireless systems with channel spacing down to 50 kHz 170 / 433 / 868 / 915 / 950 MHz ISM/SRD band systems Wireless Metering and Wireless Smart Grid AMR and


    Original     		CC1121 433 MHz passive RFID applications of blocking oscillator PDF

    uk remote keyless rf transmitter

    Abstract: cell phone detector conclusion second order low pass filter advantage and disadvantages TR1001 tetra modulation block diagram ASK transmitter and receiver pair 125 KHz blocking oscillator uses rf communication saw resonator transmitter
    Contextual Info: ADVANCES IN SAW TECHNOLOGY DARRELL L. ASH RF MONOLITHICS, INC., DALLAS, TEXAS INTRODUCTION In today’s wireless world, going wireless is associated with eliminating cumbersome wires and cables, making it possible to roam with fully operational systems. There are three basic wireless requirements in


    Original     		PDF

    gsm signal amplifier circuit diagram

    Abstract: circuit diagram GSM transmitter receiver circuit diagram transceiver signal gsm GSM transmitter receiver UHF Phase Shifter blocking oscillator design 173 MHz RF receiver GSM signal processing block blocking oscillator uses W2020
    Contextual Info: Advance Data Sheet July 1995 Ü ^A T & T Microelectronics W2020 GSM Transceiver Features Applications • First commercial single-chip EGSM transceiver ■ GSM handportables ■ 2.7 V operation ■ GSM data services ■ Low power consumption ■ Single IF down conversion


    OCR Scan     		W2020 64-pin 001773b W2020 gsm signal amplifier circuit diagram circuit diagram GSM transmitter receiver circuit diagram transceiver signal gsm GSM transmitter receiver UHF Phase Shifter blocking oscillator design 173 MHz RF receiver GSM signal processing block blocking oscillator uses PDF