2.4GHz Directional Coupler
... For example a typical 2.4GHz NIC card might generate 100mW, or 2.23V into 50Ω. The forward coupler should then pick up 0.23V, and perhaps a dc output of 0.3V. A gain of 30 should produce full-range on the meter (9V, 50µA, 180kΩ). The reflected wave may be negligible if the line is matched to a good ...
... For example a typical 2.4GHz NIC card might generate 100mW, or 2.23V into 50Ω. The forward coupler should then pick up 0.23V, and perhaps a dc output of 0.3V. A gain of 30 should produce full-range on the meter (9V, 50µA, 180kΩ). The reflected wave may be negligible if the line is matched to a good ...
Group 5
... Connecting the multi-meter to the circuit voltage was confusing With practice we learned exactly where the multi-meter needed to achieve the desired voltage. This was an important project as major portion will be discussed further in the ECE program as well as for future jobs in electrical areas. ...
... Connecting the multi-meter to the circuit voltage was confusing With practice we learned exactly where the multi-meter needed to achieve the desired voltage. This was an important project as major portion will be discussed further in the ECE program as well as for future jobs in electrical areas. ...
GP1S093HCZ0F Gap : 2mm Slit : 0.3mm Phototransistor Output
... --- Various safety devices, etc. (iii) SHARP devices shall not be used for or in connection with equipment that requires an extremely high level of reliability and safety such as: --- Space applications --- Telecommunication equipment [trunk lines] --- Nuclear power control equipment --- Medical and ...
... --- Various safety devices, etc. (iii) SHARP devices shall not be used for or in connection with equipment that requires an extremely high level of reliability and safety such as: --- Space applications --- Telecommunication equipment [trunk lines] --- Nuclear power control equipment --- Medical and ...
Lab 1 Basic Electricity
... can’t be hurt by touching anything. It will just cause errors in your work. Fill in the table below using five randomly chosen resistors. First, read the resistor color code. Write the colors in the first box. Then write the resistance the code stands for in the next box. This is called the resistor ...
... can’t be hurt by touching anything. It will just cause errors in your work. Fill in the table below using five randomly chosen resistors. First, read the resistor color code. Write the colors in the first box. Then write the resistance the code stands for in the next box. This is called the resistor ...
HP 4140B pA Meter / DC Voltage Source
... offers outstanding flexibility in the measurement of semiconductor devices. The capability of making current (I), current-voltage (I-V) and capacitance-voltage (C-V) measurements using the internal dc sources is standard in the 4140B. These measurements are made possible by internal ramp voltages, c ...
... offers outstanding flexibility in the measurement of semiconductor devices. The capability of making current (I), current-voltage (I-V) and capacitance-voltage (C-V) measurements using the internal dc sources is standard in the 4140B. These measurements are made possible by internal ramp voltages, c ...
Experiment 1: Multimeter Measurements on DC Resistive Circuits
... 1. Examine the pre-lab theoretical and measured values for voltage and current of the circuit in Figure 1. Comment on the differences. 2. Calculate theoretical voltages and currents using the measured resistance values for the circuit of Figure 2. Tabulate your results. Comment on the correlation of ...
... 1. Examine the pre-lab theoretical and measured values for voltage and current of the circuit in Figure 1. Comment on the differences. 2. Calculate theoretical voltages and currents using the measured resistance values for the circuit of Figure 2. Tabulate your results. Comment on the correlation of ...
Experiment5
... Measure the phase shift using the time method, t, for a set of 10 frequencies. Use a range from 10 Hz up to 500 Hz (it is your choice as to the specific values and range, but try to spread them out so that you sample the phase shift evenly between 0 and π/2). Keep track of ω and V0 for each frequen ...
... Measure the phase shift using the time method, t, for a set of 10 frequencies. Use a range from 10 Hz up to 500 Hz (it is your choice as to the specific values and range, but try to spread them out so that you sample the phase shift evenly between 0 and π/2). Keep track of ω and V0 for each frequen ...
EEL 3111 Circuits 1 1. Credits: 3 2. Text book, title, author, and year
... analysis: passive and active sign conventions; Ohm’s and Kirchhoff’s laws; network analysis, theorems as applied to dc and ac circuits; basic op-amp circuits; single time constant transient analysis; phasor representations and sinusoidal steady state; real and reactive single phase power. b. Prerequ ...
... analysis: passive and active sign conventions; Ohm’s and Kirchhoff’s laws; network analysis, theorems as applied to dc and ac circuits; basic op-amp circuits; single time constant transient analysis; phasor representations and sinusoidal steady state; real and reactive single phase power. b. Prerequ ...
1. introduction to analog electronics laboratory
... modern-day VLSI chips, power dissipation is a major consideration so that we can keep the power density under control. Since the source of power can be a battery, it is important to ensure long battery life through techniques such as clock gating, power gating, etc. The Power Management block is res ...
... modern-day VLSI chips, power dissipation is a major consideration so that we can keep the power density under control. Since the source of power can be a battery, it is important to ensure long battery life through techniques such as clock gating, power gating, etc. The Power Management block is res ...
CHARGING GUIDE Optima DC Rev_041110
... Continue charge at 14.7V until current < 1 Ampere 2 Ampere constant current 1 hour no voltage limit Float charge of 13.8V with max. current of 1 amp. ...
... Continue charge at 14.7V until current < 1 Ampere 2 Ampere constant current 1 hour no voltage limit Float charge of 13.8V with max. current of 1 amp. ...
Lab 3
... The op amp should straddle the trough in the center of your breadboard, with pins 1-4 inserted into the inner end holes of four different (unconnected) rows on one side of the trough, and pins 5-8 inserted into the inner end holes of four different rows on the other side of the trough. Refer to the ...
... The op amp should straddle the trough in the center of your breadboard, with pins 1-4 inserted into the inner end holes of four different (unconnected) rows on one side of the trough, and pins 5-8 inserted into the inner end holes of four different rows on the other side of the trough. Refer to the ...
8.71 GHz to 9.55 GHz MMIC VCO with Half Frequency Output HMC1161
... resonator, a negative resistance device, and a varactor diode, and features a half frequency output. ...
... resonator, a negative resistance device, and a varactor diode, and features a half frequency output. ...
Lecture6 - Faculty Of Engineering And Technology
... diode. Two condition must be met before SCR can conduct: – The SCR must be forward biased (VSCR>0) – Current must be applied to the gate of SCR ...
... diode. Two condition must be met before SCR can conduct: – The SCR must be forward biased (VSCR>0) – Current must be applied to the gate of SCR ...