op-amp parameters
... a measure of an op-amp's ability to reject common-mode signals. An infinite value of CMRR means that the output is zero when the same signal is applied to both inputs (common-mode), An infinite CMRR is never achieved in practice, but a good op-amp does have a very high value of CMRR. Common-mode sig ...
... a measure of an op-amp's ability to reject common-mode signals. An infinite value of CMRR means that the output is zero when the same signal is applied to both inputs (common-mode), An infinite CMRR is never achieved in practice, but a good op-amp does have a very high value of CMRR. Common-mode sig ...
Schmitt trigger package
... The aim of this assignment is to develop an understanding of the non-inverting op-amp Schmitt trigger circuit and to be able to calculate switching voltage levels. Use the Support Booklet to complete the following tasks. ...
... The aim of this assignment is to develop an understanding of the non-inverting op-amp Schmitt trigger circuit and to be able to calculate switching voltage levels. Use the Support Booklet to complete the following tasks. ...
On the Loading of Power Modules in a Three Phase Voltage Source
... temperature variations smaller then 30 oC do not fatigue devices within the power module. Temperatures T jc _ D and T jc _ IGBT were computed using steady state thermal resistances junction - case and locally averaged dissipation over fundamental period. They are approximate steady state junction te ...
... temperature variations smaller then 30 oC do not fatigue devices within the power module. Temperatures T jc _ D and T jc _ IGBT were computed using steady state thermal resistances junction - case and locally averaged dissipation over fundamental period. They are approximate steady state junction te ...
MAX9110/MAX9112 Single/Dual LVDS Line Drivers with Ultra-Low Pulse Skew in SOT23 General Description
... Logic states are determined by the direction of current flow through the termination resistor. With a typical 3.5mA output current, the MAX9110/MAX9112 produce an output voltage of 350mV when driving a 100Ω load. The steady-state-voltage peak-to-peak swing is twice the differential voltage, or 700mV ...
... Logic states are determined by the direction of current flow through the termination resistor. With a typical 3.5mA output current, the MAX9110/MAX9112 produce an output voltage of 350mV when driving a 100Ω load. The steady-state-voltage peak-to-peak swing is twice the differential voltage, or 700mV ...
psaa electromotive force worksheet
... 1. If the charge is not moving or is moving in the same direction as the magnetic fields, then there is no force. But, if the charge is moving across the field lines, then the charge has force acting upon it and an electrical current can be measured. 2. Hans Oersted showed that electricity can have ...
... 1. If the charge is not moving or is moving in the same direction as the magnetic fields, then there is no force. But, if the charge is moving across the field lines, then the charge has force acting upon it and an electrical current can be measured. 2. Hans Oersted showed that electricity can have ...
Low-Voltage Bipolar-Type DC Microgrid for Super High Quality
... Fig. 1 shows a concept of the low-voltage bipolar-type dc microgrid. The utility grid voltage 6.6 kV is converted into dc 340 V by a transformer and a rectifier. It is the characteristic of the system to adopt three-wire dc distribution that consists of +170 V line, neutral line, and −170 V line. Th ...
... Fig. 1 shows a concept of the low-voltage bipolar-type dc microgrid. The utility grid voltage 6.6 kV is converted into dc 340 V by a transformer and a rectifier. It is the characteristic of the system to adopt three-wire dc distribution that consists of +170 V line, neutral line, and −170 V line. Th ...
Armstrong 521/525 output transistor replacement
... Armstrong 521/525 output transistor replacement This modification will allow you to keep your Armstrong 521 or 525 running if the original AL102's fail as mine have now done. A silicon pnp device such as a MJ2955 will suffice ( it is a better spec than the old Germanium AL102 ). A few resistors have ...
... Armstrong 521/525 output transistor replacement This modification will allow you to keep your Armstrong 521 or 525 running if the original AL102's fail as mine have now done. A silicon pnp device such as a MJ2955 will suffice ( it is a better spec than the old Germanium AL102 ). A few resistors have ...
International Electrical Engineering Journal (IEEJ) Vol. 5 (2014) No.11, pp. 1619-1625
... importing reactive power. However, as the magnitude of the reactive power will be small compared to that of the power (unless some form of compensation is used), the RP+XQ term will tend to be positive. Thus, the voltage at the point of connection of the generator to the 11kV system will rise above ...
... importing reactive power. However, as the magnitude of the reactive power will be small compared to that of the power (unless some form of compensation is used), the RP+XQ term will tend to be positive. Thus, the voltage at the point of connection of the generator to the 11kV system will rise above ...
AB04404170177
... Consequences: Increased probability in occurrence of resonance, neutral overload in 3phase systems, overheating of all cables and equipment, loss of efficiency in electric machines, electromagnetic interference with communication systems, errors in measures when using average reading meters, nuisanc ...
... Consequences: Increased probability in occurrence of resonance, neutral overload in 3phase systems, overheating of all cables and equipment, loss of efficiency in electric machines, electromagnetic interference with communication systems, errors in measures when using average reading meters, nuisanc ...
Introducing-Current-Electricity
... the voltage will push and pull electrons through a conductor. – One terminal has extra electrons thus a negative charge. The other terminal has a deficit of electrons and thus a positive charge. – Electrons in the wire are pushed by the negative terminal and pulled by the positive terminal through t ...
... the voltage will push and pull electrons through a conductor. – One terminal has extra electrons thus a negative charge. The other terminal has a deficit of electrons and thus a positive charge. – Electrons in the wire are pushed by the negative terminal and pulled by the positive terminal through t ...
AN1308: A Unique Coax Cable Driver Circuit with Common
... resistor of 75Ω, the CMV error will be about 16mV per volt of CMV. The load termination will divide this error in two so the CMV error at the load is approximately 8mV per one volt of CMV. The maximum CMV that can be rejected is 2.4VPEAK with ±5V amps for AC-coupled video and 2VPEAK for DC-coupled v ...
... resistor of 75Ω, the CMV error will be about 16mV per volt of CMV. The load termination will divide this error in two so the CMV error at the load is approximately 8mV per one volt of CMV. The maximum CMV that can be rejected is 2.4VPEAK with ±5V amps for AC-coupled video and 2VPEAK for DC-coupled v ...
Generator II
... – Individual generators may be removed from the power system for maintenance without shutting down the load; – A single generator not operating at near full load might be quite inefficient. When having several generators in parallel, it is possible to turn off some, and operate the rest at near full ...
... – Individual generators may be removed from the power system for maintenance without shutting down the load; – A single generator not operating at near full load might be quite inefficient. When having several generators in parallel, it is possible to turn off some, and operate the rest at near full ...
DATASHEET SEARCH SITE | WWW.ALLDATASHEET.COM
... The NCP1200 automatically skips switching cycles when the output power demand drops below a given level. This is accomplished by monitoring the FB pin. In normal operation, pin 2 imposes a peak current accordingly to the load value. If the load demand decreases, the internal loop asks for less peak ...
... The NCP1200 automatically skips switching cycles when the output power demand drops below a given level. This is accomplished by monitoring the FB pin. In normal operation, pin 2 imposes a peak current accordingly to the load value. If the load demand decreases, the internal loop asks for less peak ...
PSS15S92F6-AG
... Input drive is High-active type. There is a minimum 3.3kΩ pull-down resistor in the input circuit of IC. To prevent malfunction, the wiring of each input should be as short as possible. When using RC coupling circuit, make sure the input signal level meet the turn-on and turn-off threshold voltage. ...
... Input drive is High-active type. There is a minimum 3.3kΩ pull-down resistor in the input circuit of IC. To prevent malfunction, the wiring of each input should be as short as possible. When using RC coupling circuit, make sure the input signal level meet the turn-on and turn-off threshold voltage. ...
AMT – 101 General Aircraft Technology Drawings
... • Service brushes and clean commutator • Resistance still high, field coil is broken - replace alternator ...
... • Service brushes and clean commutator • Resistance still high, field coil is broken - replace alternator ...
SD57030
... The SD57030 is a common source N-channel enhancement-mode lateral Field-Effect RF power transistor designed for broadband commercial and industrial applications at frequencies up to 1.0 GHz. The SD57030 is designed for high gain and broadband performance operating in common source mode at 28 V. It i ...
... The SD57030 is a common source N-channel enhancement-mode lateral Field-Effect RF power transistor designed for broadband commercial and industrial applications at frequencies up to 1.0 GHz. The SD57030 is designed for high gain and broadband performance operating in common source mode at 28 V. It i ...
Buck converter
A buck converter is a voltage step down and current step up converter.The simplest way to reduce the voltage of a DC supply is to use a linear regulator (such as a 7805), but linear regulators waste energy as they operate by dissipating excess power as heat. Buck converters, on the other hand, can be remarkably efficient (95% or higher for integrated circuits), making them useful for tasks such as converting the main voltage in a computer (12V in a desktop, 12-24V in a laptop) down to the 0.8-1.8V needed by the processor.