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Parts by Number Top

Part # Distributor Manufacturer Product Category Description
DM164123 Microchip Technology, Inc. Microchip Technology, Inc. Not Provided mid-range PIC16F886 microcontroller, which supports the following components and functions: • MCLR reset line and switch. • Interrupt push button switches. • 4 LEDs. • I2C communications (SDA and SCL). • USART communications (TX and RX). • In-Circuit Serial Programming &trade...
DM163027-5 Microchip Technology, Inc. Microchip Technology, Inc. Not Provided complete hardware, software source code and printed circuit board (PCB) layout files needed to rapidly prototype wireless products. The demonstration kit includes the ZigBee protocol stack and two PICDEM Z boards, each with an RF daughter card. The demonstration board is also equipped with a 6-pin...
MCP6XXXDM-FLTR Microchip Technology, Inc. Microchip Technology, Inc. Not Provided to the other Printed Circuit Boards (PCB); it provides test points for connecting a lab power supply and a lab signal generator. Active Filter Sections – Four PCBs that support active filter designs with filter order between n = 1 and 8; each board supports a first or second order filter section...
AD5933YRSZ Digi-Key Analog Devices Inc Integrated Circuits (ICs) IC NTWK ANALYZER 12B 1MSP 16SSOP
AD5933YRSZ-REEL7 Digi-Key Analog Devices Inc Integrated Circuits (ICs) NETWORK ANALYZER 12B 1MSP 16SSOP
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Conduct Research Top

  • Application: Network Analyzers Use RF Reed Relays in Their Detection Circuits
    . • Qual-shield arrangement. Applications. Figure 2. This is a typical network analyzer with High Frequency Reed Relays used in. their attenuator circuit. • Excellent for attenuation circuits in network. analyzers and other instruments requiring RF. Ne. N t. e w. t o. w r. o k. r. k Ana. n l. a y. l z. y e. z
  • Interpretation of Fault Location Results Using the 6820 Series Scalar Analyzers (.pdf)
    and in the operating band (800 - 900 MHz), the return. 1.9 metres (6.2 feet), with a return loss of 13 dB and this shows. loss is about 30 dB which for most cellular systems would be with-. the danger of making a fault location measurement on its own. in specification. Clearly a cable with an open circuit
  • Time Domain for Vector Network Analyzers Application Note
    the design and production engineer. Figure 1 provides the time and frequency response of a microstrip circuit as measured by the MS4640A VNA.
  • Time Domain for Vector Network Analyzers (.pdf)
    for both the design and production engineer. Figure 1 shows both the time and frequency response of a microstrip circuit. The benefit of the Time Domain response is apparent. The Fourier transform has been used in many technologies and in the area of microwave measurements, it provides a method
  • Medical Device Link . Commercialization of a chemiluminescence-based analyzer
    to a previously stored value set at the factory. The DCF is used to normalize the sample reading after the dark pulses are subtracted. Normalized net sample reading = k * DCF (reading dark-pulse count) The constant k adjusts for the prescaler in the circuit. Calibration and Luminous Standards
  • Engineer's Assistant Using a PIC16F84A
    . detected and is indicated by turning on the LED for. The probe tip is the common input for all functions, and. 80 ms. the GND cable is used for connection to Vss of the. Logic State Analyzer. tested circuit. The analyzer fetches 300 single bit samples at a select-. Although there are a lot of functions
  • Wiring Guide for Dual Output Vibration and Temperature Sensors
    ). Type 1: The data-collector powered dual output sensor (Wilcoxon model 786T) is useful for acquiring data with any one of the many portable analyzers for collecting predictive data for vibration spectrum analysis. The temperature sensor is powered through the accelerometer powering circuit
  • Using a Digital Potentiometer to Optimize a Precision Single Supply Photo Detect
    Photodiodes bridge the gap between light and electronics. Many times precision applications such as CT scanners, blood analyzers, smoke detectors, position sensors, IR pyrometers and chromatographs utilize the basic transimpedance amplifier circuit that transforms light energy into a usable

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