fault location calculation based on two terminal
... Assistant Lecturer & Head of the Department, Department of Electrical & Computer Engineering, Samara University, Ethiopia ...
... Assistant Lecturer & Head of the Department, Department of Electrical & Computer Engineering, Samara University, Ethiopia ...
Rebuilt and Modified Altec 1567A: A Technical
... auxiliary panel. The VU meter was also optional equipment, but this unit was equipped with a working one and a single working #44 lamp (half the number required). Lamp type is not specified in the schematic or manual, so I used two #47s, which run cooler than #44s. The unit had four model 4722 input ...
... auxiliary panel. The VU meter was also optional equipment, but this unit was equipped with a working one and a single working #44 lamp (half the number required). Lamp type is not specified in the schematic or manual, so I used two #47s, which run cooler than #44s. The unit had four model 4722 input ...
Smart Ground Test Report Springfield Energy
... This report describes the ground tests and analysis of the Springfield Power Station. The objective of the test and analysis was to evaluate the plant grounding system with respect to safety performance, and transfer voltage to control circuits and if necessary, to recommend grounding design enhance ...
... This report describes the ground tests and analysis of the Springfield Power Station. The objective of the test and analysis was to evaluate the plant grounding system with respect to safety performance, and transfer voltage to control circuits and if necessary, to recommend grounding design enhance ...
Measurement Theory Principles
... Available power is defined as the maximum power that can be delivered to a load from a source having fixed nonzero resistance ...
... Available power is defined as the maximum power that can be delivered to a load from a source having fixed nonzero resistance ...
HIN202, HIN206, HIN207, HIN208, HIN211, HIN213
... generate +10V and -10V. The nominal clock frequency is 125kHz. During phase one of the clock, capacitor C1 is charged to VCC . During phase two, the voltage on C1 is added to VCC , producing a signal across C3 equal to twice VCC . During phase two, C2 is also charged to 2VCC , and then during phase ...
... generate +10V and -10V. The nominal clock frequency is 125kHz. During phase one of the clock, capacitor C1 is charged to VCC . During phase two, the voltage on C1 is added to VCC , producing a signal across C3 equal to twice VCC . During phase two, C2 is also charged to 2VCC , and then during phase ...
MMFE-8-Specification
... The MMFE-8 board is the front-end electronics for ATLAS Micromegas (MM) detectors. It is the interface between the MM detectors and the trigger (ADDC) and data acquisition (L1DDC) electronics. The “-8” refers to the fact that the front-end card contains eight VMM ASIC’s. The VMM ASIC performs amplif ...
... The MMFE-8 board is the front-end electronics for ATLAS Micromegas (MM) detectors. It is the interface between the MM detectors and the trigger (ADDC) and data acquisition (L1DDC) electronics. The “-8” refers to the fact that the front-end card contains eight VMM ASIC’s. The VMM ASIC performs amplif ...
Selecting the Right Cable System for Your Environment
... cable; and • conductor resistance, which affects voltage drop over a power line. Electrical performance is typically very reliable when there are not other environmental factors; however, when you add mechanical, environmental, or application-specific stress, it can become very difficult to maintain ...
... cable; and • conductor resistance, which affects voltage drop over a power line. Electrical performance is typically very reliable when there are not other environmental factors; however, when you add mechanical, environmental, or application-specific stress, it can become very difficult to maintain ...
Study of Transformer Resonant Overvoltages Caused by
... Case 1) Ground fault initiation (Fig. 3). If a ground fault occurs at the far end of the feeder cable which connects to the high-voltage side of an unloaded transformer, a coaxial wave starts propagating back and forth between the two cable ends. This results in an oscillating voltage on the cable e ...
... Case 1) Ground fault initiation (Fig. 3). If a ground fault occurs at the far end of the feeder cable which connects to the high-voltage side of an unloaded transformer, a coaxial wave starts propagating back and forth between the two cable ends. This results in an oscillating voltage on the cable e ...
S-parameters - WordPress.com
... Insertion and Return losses include effects such as impedance discontinuities and resonance effects, which are not true losses Loss free networks can still exhibit significant insertion and return losses due to impedance discontinuities ...
... Insertion and Return losses include effects such as impedance discontinuities and resonance effects, which are not true losses Loss free networks can still exhibit significant insertion and return losses due to impedance discontinuities ...
Force Control with A Muscle-Activated Endoskeleton Please share
... constraint will show that workless forces may, in fact, be used to reduce effort and energy consumption. Another basic fact of muscle physiology is that skeletal muscles pull but don’t push; to achieve both flexion and extension of the joints, they are deployed in opposing or antagonist groups. Howeve ...
... constraint will show that workless forces may, in fact, be used to reduce effort and energy consumption. Another basic fact of muscle physiology is that skeletal muscles pull but don’t push; to achieve both flexion and extension of the joints, they are deployed in opposing or antagonist groups. Howeve ...
Nominal impedance
Nominal impedance in electrical engineering and audio engineering refers to the approximate designed impedance of an electrical circuit or device. The term is applied in a number of different fields, most often being encountered in respect of:The nominal value of the characteristic impedance of a cable or other form of transmission line.The nominal value of the input, output or image impedance of a port of a network, especially a network intended for use with a transmission line, such as filters, equalisers and amplifiers.The nominal value of the input impedance of a radio frequency antennaThe actual impedance may vary quite considerably from the nominal figure with changes in frequency. In the case of cables and other transmission lines, there is also variation along the length of the cable, if it is not properly terminated. It is usual practice to speak of nominal impedance as if it were a constant resistance, that is, it is invariant with frequency and has a zero reactive component, despite this often being far from the case. Depending on the field of application, nominal impedance is implicitly referring to a specific point on the frequency response of the circuit under consideration. This may be at low-frequency, mid-band or some other point and specific applications are discussed in the sections below.In most applications, there are a number of values of nominal impedance that are recognised as being standard. The nominal impedance of a component or circuit is often assigned one of these standard values, regardless of whether the measured impedance exactly corresponds to it. The item is assigned the nearest standard value.