Results 301 to 310 of about 221,172 (361)
Some of the next articles are maybe not open access.
Transactions of the American Institute of Electrical Engineers, Part I: Communication and Electronics, 1956
THIS paper describes a transistor voltage regulator circuit which takes advantage of the high voltage gain and low emitter resistance exhibited by the junction transistor. Emphasis is on a regulator circuit using a single transistor.
R. H. Spencer, T. S. Gray
openaire +1 more source
THIS paper describes a transistor voltage regulator circuit which takes advantage of the high voltage gain and low emitter resistance exhibited by the junction transistor. Emphasis is on a regulator circuit using a single transistor.
R. H. Spencer, T. S. Gray
openaire +1 more source
2016
A primary issue in the design of a conventional on-chip voltage converter is the physical area. The on-chip passive LC filter within a monolithic buck converter occupies a large area. Multiple on-chip buck converters are therefore infeasible due to the significant area of the passive components (such as in a multi-voltage microprocessor).
Inna P.-Vaisband +5 more
openaire +1 more source
A primary issue in the design of a conventional on-chip voltage converter is the physical area. The on-chip passive LC filter within a monolithic buck converter occupies a large area. Multiple on-chip buck converters are therefore infeasible due to the significant area of the passive components (such as in a multi-voltage microprocessor).
Inna P.-Vaisband +5 more
openaire +1 more source
1987
Voltage regulators fitted to private motor cars were required to operate within the range of 15.8 to 16.4 volts, and the following investigation (Desmond, 1954) was conducted to estimate the pattern of variability encountered in production. Normal procedure was for a regulator from the production line to be passed to one of a number of setting stations,
openaire +1 more source
Voltage regulators fitted to private motor cars were required to operate within the range of 15.8 to 16.4 volts, and the following investigation (Desmond, 1954) was conducted to estimate the pattern of variability encountered in production. Normal procedure was for a regulator from the production line to be passed to one of a number of setting stations,
openaire +1 more source
Journal of Scientific Instruments, 1942
A D.C. regulating circuit based on the use of a Stabilovolt tube is described. This circuit allows much greater loads to be handled than the regulator tube in the normal set-up is capable of doing. This is achieved by the insertion of a small metal rectifier in the link connecting the load to the rectifier circuit.
openaire +1 more source
A D.C. regulating circuit based on the use of a Stabilovolt tube is described. This circuit allows much greater loads to be handled than the regulator tube in the normal set-up is capable of doing. This is achieved by the insertion of a small metal rectifier in the link connecting the load to the rectifier circuit.
openaire +1 more source
Journal of Scientific Instruments, 1944
The majority of the voltage-regulating devices described in recent years, especially those of the thermionic type, are restricted in their application to the stabilization of currents of the order of a few milliamperes. Bridge voltage regulators, in which one or more of the bridge arms consist of barretters or electronic semi-conductors, are capable of
openaire +1 more source
The majority of the voltage-regulating devices described in recent years, especially those of the thermionic type, are restricted in their application to the stabilization of currents of the order of a few milliamperes. Bridge voltage regulators, in which one or more of the bridge arms consist of barretters or electronic semi-conductors, are capable of
openaire +1 more source
1997
In Chapter 4, the effects of load and input line changes on the steady-state duty cycle of power switch were shown to be directly embeded in all three coefficients (A, B, and C) of the governing quadratic equation (4.8) while the output, V0, is holding steady. This mathematical artifact may mislead the reader to believe that the output can be perfectly
openaire +1 more source
In Chapter 4, the effects of load and input line changes on the steady-state duty cycle of power switch were shown to be directly embeded in all three coefficients (A, B, and C) of the governing quadratic equation (4.8) while the output, V0, is holding steady. This mathematical artifact may mislead the reader to believe that the output can be perfectly
openaire +1 more source