
MODULE 3: Basic Circuits - Multimedia Communications Laboratory
... What happens when a conduit connects two points? Charge (and electrons) can flow between the points Short Circuit – Directly connecting two points of different voltage ...
... What happens when a conduit connects two points? Charge (and electrons) can flow between the points Short Circuit – Directly connecting two points of different voltage ...
Electronic Troubleshooting
... • Practical Reference Junction solutions • Isothermal block » Usually used with computerized (also microcontrollers) data collection systems » The isothermal block is a good conductor of heat not electrical current » However it’s resistance is effected measurably by changes in temperature » Block is ...
... • Practical Reference Junction solutions • Isothermal block » Usually used with computerized (also microcontrollers) data collection systems » The isothermal block is a good conductor of heat not electrical current » However it’s resistance is effected measurably by changes in temperature » Block is ...
ComponentIdentification
... types and package styles. • Demonstrate how to read a capacitor’s nominal value. ...
... types and package styles. • Demonstrate how to read a capacitor’s nominal value. ...
Direct Current Circuits
... current in R2 , because the current has an alternate zeroresistance path through the switch. There is current in R1 and this current is measured with the ammeter, at the right side of the circuit. If the switch is opened (Fig. B), there is current in R2 . What happens to the reading on the ammeter w ...
... current in R2 , because the current has an alternate zeroresistance path through the switch. There is current in R1 and this current is measured with the ammeter, at the right side of the circuit. If the switch is opened (Fig. B), there is current in R2 . What happens to the reading on the ammeter w ...
Direct Current Circuits
... through the switch. There is current in R1 and this current is measured with the ammeter, at the right side of the circuit. If the switch is opened (Fig. B), there is current in R2 . What happens to the reading on the ammeter when the switch is opened? (a) the reading goes up; (b) the reading goes d ...
... through the switch. There is current in R1 and this current is measured with the ammeter, at the right side of the circuit. If the switch is opened (Fig. B), there is current in R2 . What happens to the reading on the ammeter when the switch is opened? (a) the reading goes up; (b) the reading goes d ...
DRV103: PMW Low-Side Driver for Solenoids, Coils, Valves
... This reduces radiated RFI/EMI noise. A flyback diode is needed with inductive loads to conduct the load current during the off cycle. The external diode should be selected for low forward voltage and low storage time. The internal clamp diode (an ESD protection diode) provides some degree of back-EM ...
... This reduces radiated RFI/EMI noise. A flyback diode is needed with inductive loads to conduct the load current during the off cycle. The external diode should be selected for low forward voltage and low storage time. The internal clamp diode (an ESD protection diode) provides some degree of back-EM ...
YOSHI®AWS D3 Yoshi Air Water System
... The refrigerant (R410A) processed by the GHP flows through electronic expansion valve and enters the lower part of the AWS unit heat exchanger at low pressure. The gas evaporates in the plate heat exchanger by taking heat from the counter current water flow. It goes back to the GHP as overheated ste ...
... The refrigerant (R410A) processed by the GHP flows through electronic expansion valve and enters the lower part of the AWS unit heat exchanger at low pressure. The gas evaporates in the plate heat exchanger by taking heat from the counter current water flow. It goes back to the GHP as overheated ste ...
full text)
... gral of such that all current passes through that cross section. In our two-dimensional model, this cross-sectional integral is a line integral across one of the current leads, or an area integral across the junction. The technique as described thus far takes as an input and , the contact resistance ...
... gral of such that all current passes through that cross section. In our two-dimensional model, this cross-sectional integral is a line integral across one of the current leads, or an area integral across the junction. The technique as described thus far takes as an input and , the contact resistance ...
N5 Energy and Electricity
... At the very top of its swing it stops for a moment. It once again has no kinetic energy, but its gravitational potential energy is at a maximum. At all points during the swing, the total (GPE + KE) is constant. Note that in a real pendulum, the bob’s swing will become slightly lower with each swing, ...
... At the very top of its swing it stops for a moment. It once again has no kinetic energy, but its gravitational potential energy is at a maximum. At all points during the swing, the total (GPE + KE) is constant. Note that in a real pendulum, the bob’s swing will become slightly lower with each swing, ...
Lumped element model
The lumped element model (also called lumped parameter model, or lumped component model) simplifies the description of the behaviour of spatially distributed physical systems into a topology consisting of discrete entities that approximate the behaviour of the distributed system under certain assumptions. It is useful in electrical systems (including electronics), mechanical multibody systems, heat transfer, acoustics, etc.Mathematically speaking, the simplification reduces the state space of the system to a finite dimension, and the partial differential equations (PDEs) of the continuous (infinite-dimensional) time and space model of the physical system into ordinary differential equations (ODEs) with a finite number of parameters.