The varactor resonator shown is resonant at 135 MHz. In the circuit
... an available (maximum) power of 10 mW. ...
... an available (maximum) power of 10 mW. ...
Data Transmission
... distance occupied by one cycle between two points of corresponding phase in two consecutive cycles assuming signal velocity v have = vT or equivalently f = v ...
... distance occupied by one cycle between two points of corresponding phase in two consecutive cycles assuming signal velocity v have = vT or equivalently f = v ...
SAIL Technical Papers Electronics
... 25.D. Donor impurity elements given electrons to form N - type semi-conductor. Arsenic and Antimony are used for Germanium and phosphorous for Silicon. Acceptor impurity elements take electrons to form P - type semiconductor. Gallium and Indium for Germanium and Aluminium and Boron for Silicon. 26.A ...
... 25.D. Donor impurity elements given electrons to form N - type semi-conductor. Arsenic and Antimony are used for Germanium and phosphorous for Silicon. Acceptor impurity elements take electrons to form P - type semiconductor. Gallium and Indium for Germanium and Aluminium and Boron for Silicon. 26.A ...
Wireless multi-sensor measurement system
... The wireless multi-sensor measurement system consists of a fast high resolution analog-to-digital recorder and logger. They are designed to be operated in the rotating frame of reference up steady accelerations of 15’000 g. Each boards has 4 analogue input channels synchronized from a single optical ...
... The wireless multi-sensor measurement system consists of a fast high resolution analog-to-digital recorder and logger. They are designed to be operated in the rotating frame of reference up steady accelerations of 15’000 g. Each boards has 4 analogue input channels synchronized from a single optical ...
Lab 0: Introduction to Lab Equipment and Components Introduction
... NEVER USE AUTOSET! It will not work in many cases (like the next step), and it clears all of the oscilloscope settings. Plus, you would not learn how to use an oscilloscope properly if you keep relying it. There are many oscilloscopes that do not even have an autoset. ...
... NEVER USE AUTOSET! It will not work in many cases (like the next step), and it clears all of the oscilloscope settings. Plus, you would not learn how to use an oscilloscope properly if you keep relying it. There are many oscilloscopes that do not even have an autoset. ...
Introduction to Electronic Signals
... circuits use two types of signals: • INPUT − provides information about operating conditions (switches, sensors) • OUTPUT − causes an electrical or electronic device to operate ...
... circuits use two types of signals: • INPUT − provides information about operating conditions (switches, sensors) • OUTPUT − causes an electrical or electronic device to operate ...
HFAM - 26 - Photonic Solutions
... 8 Channel GHz Wide Band Amplifier with Overload Detection for PMTs or MCPs ...
... 8 Channel GHz Wide Band Amplifier with Overload Detection for PMTs or MCPs ...
W3-1Rev
... lowest frequencies in a band In digital networks, bandwidth is used to refer to the amount of data that can be sent per second (bit rate or bandwidth). ...
... lowest frequencies in a band In digital networks, bandwidth is used to refer to the amount of data that can be sent per second (bit rate or bandwidth). ...
Oscilloscopes and their Calibration
... square wave signal for vertical gain calibration. Most modern models using solid-state displays, e.g., liquid crystal displays (LCDs), are typically calibrated using a DC stimulus, with some models utilizing the consecutive application of a zero-centered, ±DC signal for gain calibration, where othe ...
... square wave signal for vertical gain calibration. Most modern models using solid-state displays, e.g., liquid crystal displays (LCDs), are typically calibrated using a DC stimulus, with some models utilizing the consecutive application of a zero-centered, ±DC signal for gain calibration, where othe ...
Chapter 3 - William Stallings, Data and Computer Communications
... is also an increasing function of frequency so equalize attenuation across band of frequencies used ...
... is also an increasing function of frequency so equalize attenuation across band of frequencies used ...
AC Series and Parallel Circuits
... Step Three: Instructor or lab assistant verification that pre-lab calculations are complete. ______________________________ Page 2 of 6 ...
... Step Three: Instructor or lab assistant verification that pre-lab calculations are complete. ______________________________ Page 2 of 6 ...
Triangle to Sine Conversion (Nonlinear Function Fitting)
... for this assertion follows with the following reasoning. Imagine the range from (say –3 ≤ x≤ 3) to correspond to a half-cycle of a periodic function by applying a triangular waveform. This is illustrated below; the triangular wave is applied as the base signal of the differential pair, with the peak ...
... for this assertion follows with the following reasoning. Imagine the range from (say –3 ≤ x≤ 3) to correspond to a half-cycle of a periodic function by applying a triangular waveform. This is illustrated below; the triangular wave is applied as the base signal of the differential pair, with the peak ...
Slides: Physical Layer
... Simply two wires twisted together - the twisting cuts down on electrical interference. Heavily used in the phone system - the typical office has four pairs for phones, etc. Category 3 and 5 - with 5 having more twists and better insulation. BASEBAND COAXIAL CABLE: Used for digital transmissi ...
... Simply two wires twisted together - the twisting cuts down on electrical interference. Heavily used in the phone system - the typical office has four pairs for phones, etc. Category 3 and 5 - with 5 having more twists and better insulation. BASEBAND COAXIAL CABLE: Used for digital transmissi ...
DataTransmission
... • is also an increasing function of frequency • so equalize attenuation across band of frequencies used – eg. using loading coils or amplifiers ...
... • is also an increasing function of frequency • so equalize attenuation across band of frequencies used – eg. using loading coils or amplifiers ...
Capacitor Self
... To make the graph of I vs. V, the oscilloscope is put in X-Y mode. Channel 1 is connected to the supply voltage and becomes the X-axis, while the Channel 2 voltage is the circuit current (multiplied by 10 ohm) and becomes the Y-axis. Procedure A - Observing And Measuring Lamp In-rush Current At Tur ...
... To make the graph of I vs. V, the oscilloscope is put in X-Y mode. Channel 1 is connected to the supply voltage and becomes the X-axis, while the Channel 2 voltage is the circuit current (multiplied by 10 ohm) and becomes the Y-axis. Procedure A - Observing And Measuring Lamp In-rush Current At Tur ...
1 (Vahid 4.1) Given a timer ... frequency of 10 MHz: (a)Determine ...
... frequency of 10 MHz: (a)Determine its range and resolution. (b) Calculate the terminal count value needed to measure 3 ms intervals. (c) If a prescaler is added, what is the minimum division needed to measure an interval of 100 ms? (Divisions should be in powers of 2). Determine this design’s range ...
... frequency of 10 MHz: (a)Determine its range and resolution. (b) Calculate the terminal count value needed to measure 3 ms intervals. (c) If a prescaler is added, what is the minimum division needed to measure an interval of 100 ms? (Divisions should be in powers of 2). Determine this design’s range ...
Tektronix analog oscilloscopes
Tektronix vintage analog oscilloscopes technologies and evolution.