Synopsis - School District #73
... Percent efficiency Reasons for different voltage levels 6. Identify common drawings for electric circuits. Pictoral diagram Block diagram One-line diagram 4|Page ...
... Percent efficiency Reasons for different voltage levels 6. Identify common drawings for electric circuits. Pictoral diagram Block diagram One-line diagram 4|Page ...
AMPLITUDE MODULATION
... This model uses a single sine wave - a ‘tone’ - as the message (or program) to be transmitted. This is a very convenient type of signal for initial setting-up, as it results in easy-to-recognise oscilloscope pictures, although not very interesting as a ‘program’. After setting up, it will be possib ...
... This model uses a single sine wave - a ‘tone’ - as the message (or program) to be transmitted. This is a very convenient type of signal for initial setting-up, as it results in easy-to-recognise oscilloscope pictures, although not very interesting as a ‘program’. After setting up, it will be possib ...
07LAB1 - University of Guelph Physics
... 3. Put the “DC offset” function onto the signal from your function generator, then see what the AC/DC coupling does on the scope. Write down your observation. (Note: The AC coupling on the scope puts a capacitor in series with the scope input, this could produce distortions of waveforms. Furthermore ...
... 3. Put the “DC offset” function onto the signal from your function generator, then see what the AC/DC coupling does on the scope. Write down your observation. (Note: The AC coupling on the scope puts a capacitor in series with the scope input, this could produce distortions of waveforms. Furthermore ...
Filters and Impedance Matching
... A. Mechanical deformation of material by the application of a voltage B. Mechanical deformation of material by the application of a magnetic field C. Generation of electrical energy in the presence of light D. Increased conductivity in the presence of ...
... A. Mechanical deformation of material by the application of a voltage B. Mechanical deformation of material by the application of a magnetic field C. Generation of electrical energy in the presence of light D. Increased conductivity in the presence of ...
Linear Circuit Elements
... Linear Circuit Elements Most microwave devices can be described or modeled in terms of the three standard circuit elements: 1. RESISTANCE (R) 2. INDUCTANCE (L) 3. CAPACITANCE (C) For the purposes of circuit analysis, each of these three elements are defined in terms of the mathematical relationship ...
... Linear Circuit Elements Most microwave devices can be described or modeled in terms of the three standard circuit elements: 1. RESISTANCE (R) 2. INDUCTANCE (L) 3. CAPACITANCE (C) For the purposes of circuit analysis, each of these three elements are defined in terms of the mathematical relationship ...
Current Electricity Lab
... 1. The voltage across each resistor can be added to find the voltage across the power supply. 2. The current is the same through each resistor. 3. The total resistance of the circuit is found by adding the resistor values ...
... 1. The voltage across each resistor can be added to find the voltage across the power supply. 2. The current is the same through each resistor. 3. The total resistance of the circuit is found by adding the resistor values ...
Electronics and Robotics
... Individual “hands-on” use of digital multimeters to take measurements of existing circuits. Teacher initiation discussions. Observed performance by the students. Assessment and feedback of topic specific worksheets. Electrical handout - an introduction to unit content. Topic specific worksheets and ...
... Individual “hands-on” use of digital multimeters to take measurements of existing circuits. Teacher initiation discussions. Observed performance by the students. Assessment and feedback of topic specific worksheets. Electrical handout - an introduction to unit content. Topic specific worksheets and ...
Radiation-hard ASICs for optical data transmission in the ATLAS pixel...
... In the third deep submicron submission, the differential preamp was replaced by a single-ended preamp. This allows for the PIN diode to be biased directly, keeping the up to 10 V high bias voltage off the DORIC chip. The chip was able to decode control data and clock correctly down to PIN diode curr ...
... In the third deep submicron submission, the differential preamp was replaced by a single-ended preamp. This allows for the PIN diode to be biased directly, keeping the up to 10 V high bias voltage off the DORIC chip. The chip was able to decode control data and clock correctly down to PIN diode curr ...
TQP369181 数据资料DataSheet下载
... that offers high dynamic range in a low-cost surfacemount package. At 1.9 GHz, the amplifier typically provides 15.3 dB gain, +29 dBm OIP3, and 3.6 dB Noise Figure while drawing 45 mA current. The device combines dependable performance with consistent quality to maintain MTTF values exceeding 100 ye ...
... that offers high dynamic range in a low-cost surfacemount package. At 1.9 GHz, the amplifier typically provides 15.3 dB gain, +29 dBm OIP3, and 3.6 dB Noise Figure while drawing 45 mA current. The device combines dependable performance with consistent quality to maintain MTTF values exceeding 100 ye ...
Combined Branch Protection and Semiconductor Fusing
... Combined Branch Protection and Semiconductor Fusing ...
... Combined Branch Protection and Semiconductor Fusing ...
a 380 MHz, 25 mA, Triple 2:1 Multiplexers AD8183/AD8185
... 380 MHz, along with slew rate of 1000 V/µs. With better than –90 dB of channel-to-channel crosstalk and isolation at 10 MHz, they are useful in many high-speed applications. The differential gain and differential phase errors of 0.01% and 0.02° respectively, along with 0.1 dB flatness to 90 MHz make ...
... 380 MHz, along with slew rate of 1000 V/µs. With better than –90 dB of channel-to-channel crosstalk and isolation at 10 MHz, they are useful in many high-speed applications. The differential gain and differential phase errors of 0.01% and 0.02° respectively, along with 0.1 dB flatness to 90 MHz make ...
