Keysight E5052B Signal Source Analyzer
... Figure 4 and Figure 5 are measured results of 835 MHz free‑running VCO by the E5052B in phase noise (PN) and amplitude noise (AM). Figure 4 shows two results in parallel and Figure 5 shows a user display window with two traces in the same vertical scale. Typically spectrum analyzer’s measured result ...
... Figure 4 and Figure 5 are measured results of 835 MHz free‑running VCO by the E5052B in phase noise (PN) and amplitude noise (AM). Figure 4 shows two results in parallel and Figure 5 shows a user display window with two traces in the same vertical scale. Typically spectrum analyzer’s measured result ...
Protection of Six Phase Transmission Line Against Phase to Phase
... Simpowersystem® toolboxes have been used to simulate the six phase transmission line. Fundamental components of six phase voltages and currents have been used as inputs for training of the Artificial Neural Network for detection and classification of faulted phase using neural network toolbox of MAT ...
... Simpowersystem® toolboxes have been used to simulate the six phase transmission line. Fundamental components of six phase voltages and currents have been used as inputs for training of the Artificial Neural Network for detection and classification of faulted phase using neural network toolbox of MAT ...
the garabi 2000 mw interconnection back-to-back hvdc
... presented little problem. The long 60 Hz line was a considerable challenge to avoid compensation at an intermediate point. For the chosen transmission line parameters, the short circuit capacity at the Garabi phase two 60 Hz side is about 2000 MVA, dropping to about 1600 MVA under contingency condit ...
... presented little problem. The long 60 Hz line was a considerable challenge to avoid compensation at an intermediate point. For the chosen transmission line parameters, the short circuit capacity at the Garabi phase two 60 Hz side is about 2000 MVA, dropping to about 1600 MVA under contingency condit ...
OPA843 Wideband, Low Distortion, Medium Gain, Voltage-Feedback OPERATIONAL AMPLIFIER DESCRIPTION
... The OPA843’s combination of speed and dynamic range is useful in a wide variety of application circuits, as long as simple guidelines common to all high-speed amplifiers are observed. For example, good power-supply decoupling, as shown in Figure 1, is essential to achieve the lowest possible harmoni ...
... The OPA843’s combination of speed and dynamic range is useful in a wide variety of application circuits, as long as simple guidelines common to all high-speed amplifiers are observed. For example, good power-supply decoupling, as shown in Figure 1, is essential to achieve the lowest possible harmoni ...
Low Cost Instrumentation Amplifier AD622 FEATURES
... shown in Figure 17, a gain of 10 is required to receive and amplify a 0 to 20 mA signal from the AD694 current transmitter. The current is converted to a voltage in a 50 Ω shunt. In applications where transmission is over long distances, line impedance can be significant so that differential voltage ...
... shown in Figure 17, a gain of 10 is required to receive and amplify a 0 to 20 mA signal from the AD694 current transmitter. The current is converted to a voltage in a 50 Ω shunt. In applications where transmission is over long distances, line impedance can be significant so that differential voltage ...
Sep 2001 New 16-Bit 50Msps DAC Offers Highest AC and DC
... an 83dB SFDR at 2.5MHz but the SFDR rolls off with increasing output frequency. On the other hand, a 12dB reduction in digital signal amplitude results in an SFDR that is a little lower at low frequencies (78dB at 2.5MHz) but it remains virtually flat up to 10MHz, giving a much better result than th ...
... an 83dB SFDR at 2.5MHz but the SFDR rolls off with increasing output frequency. On the other hand, a 12dB reduction in digital signal amplitude results in an SFDR that is a little lower at low frequencies (78dB at 2.5MHz) but it remains virtually flat up to 10MHz, giving a much better result than th ...
MT-044: Op Amp Open Loop Gain and Open Loop
... From basic feedback theory, it is understood that in order to maintain accuracy, a precision amplifier's dc open-loop gain, AVOL, should be high. This can be seen by examining the closedloop gain equation, including errors due to finite gain. The expression for closed loop gain with a finite gain er ...
... From basic feedback theory, it is understood that in order to maintain accuracy, a precision amplifier's dc open-loop gain, AVOL, should be high. This can be seen by examining the closedloop gain equation, including errors due to finite gain. The expression for closed loop gain with a finite gain er ...
a 250 MHz, 10 ns Switching Multiplexers w/Amplifier AD8170/AD8174
... current feedback output amplifier whose gain can be programmed via external resistors and is capable of delivering 50 mA of output current. They offer –3 dB signal bandwidth of 250 MHz and slew rate of greater than 1000 V/µs. Additionally, the AD8170 and AD8174 have excellent video specifications wi ...
... current feedback output amplifier whose gain can be programmed via external resistors and is capable of delivering 50 mA of output current. They offer –3 dB signal bandwidth of 250 MHz and slew rate of greater than 1000 V/µs. Additionally, the AD8170 and AD8174 have excellent video specifications wi ...
three phase circuit
... loads by two outer wires and the neutral: Single Phase Three Wire. • Terminal voltages have same magnitude and the same phase. ...
... loads by two outer wires and the neutral: Single Phase Three Wire. • Terminal voltages have same magnitude and the same phase. ...
ENERGY CONVERSION ONE
... harmonic current flow, produced and do not let build up of large 3rd voltages . Also provides a return path for any current imbalances in load • Adding a third winding (tertiary) connected in Δ (a) 3rd harmonic components of voltage in Δ will add up, causing a circulating current flow within winding ...
... harmonic current flow, produced and do not let build up of large 3rd voltages . Also provides a return path for any current imbalances in load • Adding a third winding (tertiary) connected in Δ (a) 3rd harmonic components of voltage in Δ will add up, causing a circulating current flow within winding ...
three phase circuit - GTU e
... loads by two outer wires and the neutral: Single Phase Three Wire. • Terminal voltages have same magnitude and the same phase. ...
... loads by two outer wires and the neutral: Single Phase Three Wire. • Terminal voltages have same magnitude and the same phase. ...
Dual Single-Supply Audio Operational Amplifier SSM2135 *
... The SSM2135 is a low voltage audio amplifier that has exceptionally low noise and excellent sonic quality even when driving loads as small as 25 W. Designed for single supply use, the SSM2135’s inputs common-mode and output swing to 0 V. Thus with a supply voltage at 5 V, both the input and output w ...
... The SSM2135 is a low voltage audio amplifier that has exceptionally low noise and excellent sonic quality even when driving loads as small as 25 W. Designed for single supply use, the SSM2135’s inputs common-mode and output swing to 0 V. Thus with a supply voltage at 5 V, both the input and output w ...
Voltage-to-Frequency and Frequency-to
... output. A pull-up resistor is usually connected to a 5V logic supply to create standard logic-level pulses. It can, however, be connected to any power supply up to +VCC. Output pulses have a constant duration and positive-going during the oneshot period. Current flowing in the open-collector output ...
... output. A pull-up resistor is usually connected to a 5V logic supply to create standard logic-level pulses. It can, however, be connected to any power supply up to +VCC. Output pulses have a constant duration and positive-going during the oneshot period. Current flowing in the open-collector output ...
Bode plot
In electrical engineering and control theory, a Bode plot /ˈboʊdi/ is a graph of the frequency response of a system. It is usually a combination of a Bode magnitude plot, expressing the magnitude of the frequency response, and a Bode phase plot, expressing the phase shift. Both quantities are plotted against a horizontal axis proportional to the logarithm of frequency.