Solid-State RelayS
... NOTICE Specifications of the products displayed herein are subject to change without notice. Vishay Intertechnology, Inc., or anyone on its behalf, assumes no responsibility or liability for any errors or inaccuracies. Information contained herein is intended to provide a product description only. ...
... NOTICE Specifications of the products displayed herein are subject to change without notice. Vishay Intertechnology, Inc., or anyone on its behalf, assumes no responsibility or liability for any errors or inaccuracies. Information contained herein is intended to provide a product description only. ...
Electricity and Circuits
... Charge can never be created or destroyed. All the charge that flows through one point in the circuit must flow through the next point also. ...
... Charge can never be created or destroyed. All the charge that flows through one point in the circuit must flow through the next point also. ...
High voltage power supply (1 to 20 KV)
... flows through the secondary, due to a diode on the secondary, the energy is stored. b) When the input current in the primary is switched off, an emf is induced in the secondary, and this time the diode conducts, as its polarities are different. This induces a voltage, which is then rectified, and sm ...
... flows through the secondary, due to a diode on the secondary, the energy is stored. b) When the input current in the primary is switched off, an emf is induced in the secondary, and this time the diode conducts, as its polarities are different. This induces a voltage, which is then rectified, and sm ...
PHYS 100 Introductory Physics Laboratory V_F02
... Electric charge, like the mass, is an inherent property of matter. But unlike mass, charges can be positive (protons) or negative (electrons). When brought close to each other, these charges exert forces on each other. This kind of force, called the Coulomb force depends on the magnitude of the char ...
... Electric charge, like the mass, is an inherent property of matter. But unlike mass, charges can be positive (protons) or negative (electrons). When brought close to each other, these charges exert forces on each other. This kind of force, called the Coulomb force depends on the magnitude of the char ...
Ohm`s Law and DC Circuits
... behave very differently. While V=IR is always true for fixed values of V, I, and R, the graph of V vs. I is not necessarily linear. This is because R cannot be assumed to be a constant. We will plot V vs. I for several different devices so that you can observe this. Basic setup: Modify your potentio ...
... behave very differently. While V=IR is always true for fixed values of V, I, and R, the graph of V vs. I is not necessarily linear. This is because R cannot be assumed to be a constant. We will plot V vs. I for several different devices so that you can observe this. Basic setup: Modify your potentio ...
Pre-Physics I Can - Coldwater Community Schools
... ❏ Determine the direction of current, force, and the magnetic field using the right hand rule ❏ Explain electromagnetic induction ❏ Explain what a galvanometer is used for ❏ Explain how a generator makes electrical energy ❏ Explain how a motor uses electrical energy ❏ Compare and contrast alternatin ...
... ❏ Determine the direction of current, force, and the magnetic field using the right hand rule ❏ Explain electromagnetic induction ❏ Explain what a galvanometer is used for ❏ Explain how a generator makes electrical energy ❏ Explain how a motor uses electrical energy ❏ Compare and contrast alternatin ...
laboratory equipment - Electrical and Computer Engineering
... to read current presents a short circuit to the system when connected (in parallel) to read a voltage. A fuse will be blown, as a minimum, and other damage to the meter may also take place. You are responsible for learning and using the proper measurement techniques. A more likely problem than elect ...
... to read current presents a short circuit to the system when connected (in parallel) to read a voltage. A fuse will be blown, as a minimum, and other damage to the meter may also take place. You are responsible for learning and using the proper measurement techniques. A more likely problem than elect ...
DEI1166 OCTAL GND/OPEN INPUT, PARALLEL OUTPUT
... The DEI1166 is an eight-channel parallel-output discrete-to-digital interface BICMOS device. It senses eight Ground/Open discrete signals of the type commonly found in avionic systems. The data is read from the device via a parallel 3-state output. ...
... The DEI1166 is an eight-channel parallel-output discrete-to-digital interface BICMOS device. It senses eight Ground/Open discrete signals of the type commonly found in avionic systems. The data is read from the device via a parallel 3-state output. ...
PolySwitch® PTC Devices Specification Status: Released
... Warning: Application Limitations for the LVR Product Line 1. Users should independently evaluate the suitability of and test each product selected for their own application. 2. This product should not be used in an application where the maximum interrupt voltage or maximum interrupt current can be e ...
... Warning: Application Limitations for the LVR Product Line 1. Users should independently evaluate the suitability of and test each product selected for their own application. 2. This product should not be used in an application where the maximum interrupt voltage or maximum interrupt current can be e ...
Analog indicators
... Moving-iron meters indicate rms-values practically independent of wave form even of high harmonics. Error of indication may occur for extreme wave forms (e.g. phase gating controls) and / or frequencies above 100 Hz. These meters are not suitable for use with shunts or tachogenerators due to their h ...
... Moving-iron meters indicate rms-values practically independent of wave form even of high harmonics. Error of indication may occur for extreme wave forms (e.g. phase gating controls) and / or frequencies above 100 Hz. These meters are not suitable for use with shunts or tachogenerators due to their h ...
Critical Points of Simplified Model for Ferroresonance Phenomenon in Single Phase Power Transformers
... and inductance of the magnetizing branch are determined from open–circuit test. The ferroresonance resulting from energizing the transformer through a series capacitor is assessed and the calculated primary voltage and current values are compared with those measured experimentally. A robust meta-heu ...
... and inductance of the magnetizing branch are determined from open–circuit test. The ferroresonance resulting from energizing the transformer through a series capacitor is assessed and the calculated primary voltage and current values are compared with those measured experimentally. A robust meta-heu ...
RC Circuit
... An uncharged capacitor is connected to a dc voltage source via a switch. A resistor is placed in series with the capacitor. The switch is initially open. At t = 0, the switch is closed. A very long time after the switch is closed, the current in the circuit is 1. nearly zero 2. at a maximum and decr ...
... An uncharged capacitor is connected to a dc voltage source via a switch. A resistor is placed in series with the capacitor. The switch is initially open. At t = 0, the switch is closed. A very long time after the switch is closed, the current in the circuit is 1. nearly zero 2. at a maximum and decr ...
60Vdc, 100Vdc, 200Vdc and 250Vdc power
... built-in electronic circuit for the braking resistor control. This feature is useful to dissipate the energy in excess when the powered device acts like a generator. This happens frequently, for example, during motors deceleration activity (braking). The braking resistor assures that the bus DC volt ...
... built-in electronic circuit for the braking resistor control. This feature is useful to dissipate the energy in excess when the powered device acts like a generator. This happens frequently, for example, during motors deceleration activity (braking). The braking resistor assures that the bus DC volt ...
