Introduction to MultiSim – Part 1
... All that is left is to wire the multimeter terminals. Complete the wiring as shown in figure 14. Connect to the wires to the multimeter on the workspace. As you make the connections, MultiSim highlights the terminals on the frontpanel. 11. To simulate the circuit, Left-click the “Simulate” button in ...
... All that is left is to wire the multimeter terminals. Complete the wiring as shown in figure 14. Connect to the wires to the multimeter on the workspace. As you make the connections, MultiSim highlights the terminals on the frontpanel. 11. To simulate the circuit, Left-click the “Simulate” button in ...
MAX15041 Low-Cost, 3A, 4.5V to 28V Input, 350kHz, PWM General Description
... 4.5V to 28V and provides an adjustable output voltage from 0.6V to 90% of VIN, set with two external resistors. The MAX15041 is ideal for distributed power systems, preregulation, set-top boxes, television, and other consumer applications. The MAX15041 features a peak-current-mode PWM controller wit ...
... 4.5V to 28V and provides an adjustable output voltage from 0.6V to 90% of VIN, set with two external resistors. The MAX15041 is ideal for distributed power systems, preregulation, set-top boxes, television, and other consumer applications. The MAX15041 features a peak-current-mode PWM controller wit ...
Part 2: Using the multimeter as a voltmeter or ammeter
... A voltmeter is a device for measuring voltage. It measures the voltage drop from the red to the black probes. The voltmeter is placed in parallel with the circuit element whose voltage is to be measured. Recall that two elements are in parallel when they share the same pair of nodes and hence share ...
... A voltmeter is a device for measuring voltage. It measures the voltage drop from the red to the black probes. The voltmeter is placed in parallel with the circuit element whose voltage is to be measured. Recall that two elements are in parallel when they share the same pair of nodes and hence share ...
AD7899 5 V Single Supply 14-Bit 400 kSPS ADC
... m, n = 0, 1, 2, 3, etc. Intermodulation terms are those for which neither m nor n are equal to zero. For example, the second order terms include (fa + fb) and (fa – fb), while the third order terms include (2fa + fb), (2fa – fb), (fa + 2fb) and (fa – 2fb). The AD7899 is tested using two input freque ...
... m, n = 0, 1, 2, 3, etc. Intermodulation terms are those for which neither m nor n are equal to zero. For example, the second order terms include (fa + fb) and (fa – fb), while the third order terms include (2fa + fb), (2fa – fb), (fa + 2fb) and (fa – 2fb). The AD7899 is tested using two input freque ...
DWYER INSTRUMENTS, INC.
... The maximum length of connecting wire between the transmitter and the receiver is a function of wire size and receiver resistance. That portion of the total current loop resistance represented by the resistance of the connecting wires themselves should not exceed 10% of the receiver resistance. For ...
... The maximum length of connecting wire between the transmitter and the receiver is a function of wire size and receiver resistance. That portion of the total current loop resistance represented by the resistance of the connecting wires themselves should not exceed 10% of the receiver resistance. For ...
A.M. Stankovic, D.J. Perreault, and K. Sato, Synthesis of Dissipative Nonlinear Controllers for Series Resonant DC/DC Converters, IEEE Transactions on Power Electronics , Vol. 14, No. 4, July 1999, pp. 673-682.
... real poles (for typical component values), and the dominant pole (i.e., the one closer to the origin) approximately equals . (The approximation is based on the Taylor series expansion for the square root function and uses is much smaller than other terms in the the fact that characteristic equation. ...
... real poles (for typical component values), and the dominant pole (i.e., the one closer to the origin) approximately equals . (The approximation is based on the Taylor series expansion for the square root function and uses is much smaller than other terms in the the fact that characteristic equation. ...
Propagation in dielectrics
... e is the electric polarizability of the aperture. m is the magnetic polarizability of the aperture. (x0, y0, z0) are the coordinates of the center of the aperture. ...
... e is the electric polarizability of the aperture. m is the magnetic polarizability of the aperture. (x0, y0, z0) are the coordinates of the center of the aperture. ...
Ohm`s Law: Resistance and Simple Circuits
... I . The phrase IRdrop is often used for this voltage. For instance, the headlight in Example 1 (Calculating Resistance: An Automobile Headlight) has an IR drop of 12.0 V. If voltage is measured at various points in a circuit, it will be seen to increase at the voltage source and decrease at the resi ...
... I . The phrase IRdrop is often used for this voltage. For instance, the headlight in Example 1 (Calculating Resistance: An Automobile Headlight) has an IR drop of 12.0 V. If voltage is measured at various points in a circuit, it will be seen to increase at the voltage source and decrease at the resi ...
MM74HC4046 CMOS Phase Lock Loop
... means that the VCO’s frequency must be increased to bring its leading edge into proper phase alignment. Thus the phase detector II output is set high. This will cause the loop filter to charge up the VCO input increasing the VCO frequency. Once the leading edge of the comparator input is detected th ...
... means that the VCO’s frequency must be increased to bring its leading edge into proper phase alignment. Thus the phase detector II output is set high. This will cause the loop filter to charge up the VCO input increasing the VCO frequency. Once the leading edge of the comparator input is detected th ...
Valve RF amplifier
A valve RF amplifier (UK and Aus.) or tube amplifier (U.S.), is a device for electrically amplifying the power of an electrical radio frequency signal.Low to medium power valve amplifiers for frequencies below the microwaves were largely replaced by solid state amplifiers during the 1960s and 1970s, initially for receivers and low power stages of transmitters, transmitter output stages switching to transistors somewhat later. Specially constructed valves are still in use for very high power transmitters, although rarely in new designs.