Application Notes
... Series vs. Parallel resonance: When a crystal is operating at series resonance (Fs), it looks resistive in the circuit. At this point \XL\ = \XC\. In series resonance, load capacitance does not have to be specified. The antiresonant frequency (Fa) occurs when the reactance in the series branch is eq ...
... Series vs. Parallel resonance: When a crystal is operating at series resonance (Fs), it looks resistive in the circuit. At this point \XL\ = \XC\. In series resonance, load capacitance does not have to be specified. The antiresonant frequency (Fa) occurs when the reactance in the series branch is eq ...
Capture range control mechanism for voltage controlled oscillators
... in such a system the method 800 preferably prevents cali bration of the VCO during the time slots that voice/data is being received or transmitted”, and in US. Pat. No. 6,137, 373 in column 9 line 49 Where it states that “If desired, the discrete control 502 may continue to monitor the output freque ...
... in such a system the method 800 preferably prevents cali bration of the VCO during the time slots that voice/data is being received or transmitted”, and in US. Pat. No. 6,137, 373 in column 9 line 49 Where it states that “If desired, the discrete control 502 may continue to monitor the output freque ...
Optimized Distribution Feeder Protection With Remote and Local
... The circuit in Figure 11a shows that both voltage inputs VA-N and VS-NS are connected phase-toneutral on either side of the breaker. However, synchronism check voltage input VS/NS is beyond a delta-wye transformer bank, just as it would be for a unit transformer connected to a generator. The resulta ...
... The circuit in Figure 11a shows that both voltage inputs VA-N and VS-NS are connected phase-toneutral on either side of the breaker. However, synchronism check voltage input VS/NS is beyond a delta-wye transformer bank, just as it would be for a unit transformer connected to a generator. The resulta ...
ELE6308
... PSRR of 2-Stage Opamp (cont’d) • Another significant source of coupling between the supply rails and the output is commonly referred to as “supply” capacitance. This term refers to the coupling from one, or both, of the supply rails into the input nodes of an op amp. It is primarily in circuits suc ...
... PSRR of 2-Stage Opamp (cont’d) • Another significant source of coupling between the supply rails and the output is commonly referred to as “supply” capacitance. This term refers to the coupling from one, or both, of the supply rails into the input nodes of an op amp. It is primarily in circuits suc ...
MAX9984 SiGe High-Linearity, 400MHz to 1000MHz Downconversion Mixer with LO Buffer/Switch General Description
... Note 4: Compression point characterized. It is advisable not to operate continuously the mixer RF input above +12dBm. Note 5: Guaranteed by design and characterization. Note 6: Measured with external LO source noise filtered so the noise floor is -174dBm/Hz. This specification reflects the effects o ...
... Note 4: Compression point characterized. It is advisable not to operate continuously the mixer RF input above +12dBm. Note 5: Guaranteed by design and characterization. Note 6: Measured with external LO source noise filtered so the noise floor is -174dBm/Hz. This specification reflects the effects o ...
MAX44264 Ultra-Low Power Op Amp in a Tiny 6-Bump WLP General Description
... Ground Sensing The common-mode input range of the MAX44264 extends down to ground, and offers excellent commonmode rejection. These devices are guaranteed not to undergo phase reversal when the input is overdriven. ...
... Ground Sensing The common-mode input range of the MAX44264 extends down to ground, and offers excellent commonmode rejection. These devices are guaranteed not to undergo phase reversal when the input is overdriven. ...
1. dnp implementation
... Function Codes ................................................................................................................... 4 1.4.1.2.1 Read ( Function 1 ) ......................................................................................................... 4 1.4.1.2.2 Write ( Function 2 ...
... Function Codes ................................................................................................................... 4 1.4.1.2.1 Read ( Function 1 ) ......................................................................................................... 4 1.4.1.2.2 Write ( Function 2 ...
Single-stage Amplifier-CS
... By replacing a passive load (resistor) with a MOS transistor (called an active load), minimize chip area Active load : produce higher values of resistance higher gain Types of active load : G-D load and current source load. ...
... By replacing a passive load (resistor) with a MOS transistor (called an active load), minimize chip area Active load : produce higher values of resistance higher gain Types of active load : G-D load and current source load. ...
MAX44264 Ultra-Low Power Op Amp in a Tiny 6
... The common-mode input range of the MAX44264 extends down to ground, and offers excellent commonmode rejection. These devices are guarante ed not to undergo phase reversal when the input is overdriven. Power Supplies and Layout applications, good layout is extremely important because low-power requir ...
... The common-mode input range of the MAX44264 extends down to ground, and offers excellent commonmode rejection. These devices are guarante ed not to undergo phase reversal when the input is overdriven. Power Supplies and Layout applications, good layout is extremely important because low-power requir ...
Document
... The neutral point potential unp of the load is positive when more than one upper half-bridge switch is closed, Figure 4-7b; it is negative when more than one lower half-bridge switch is closed. The respective voltage levels given in Figure 4-7b hold for symmetrical load impedances. The waveform of t ...
... The neutral point potential unp of the load is positive when more than one upper half-bridge switch is closed, Figure 4-7b; it is negative when more than one lower half-bridge switch is closed. The respective voltage levels given in Figure 4-7b hold for symmetrical load impedances. The waveform of t ...
LabVIEW Project - UCONN School of Engineering
... By driving the shaker with a sine wave, the aluminum beam vibrates with simple harmonic motion. Left to vibrate freely, without applied external forces, the beam will vibrate at its natural frequency, n, and its amplitude of the response will decrease with time, as energy in the system is lost. The ...
... By driving the shaker with a sine wave, the aluminum beam vibrates with simple harmonic motion. Left to vibrate freely, without applied external forces, the beam will vibrate at its natural frequency, n, and its amplitude of the response will decrease with time, as energy in the system is lost. The ...
APP014 - 3 Phase 2 Wattmeter Explained
... the power, if a wattmeter were connected to phase 3 would equal zero as P = IV. This is because although current will be flowing the voltage would be zero. As we know the LineLine voltage is 3 x Line-Neutral Voltage, even before performing some calculations it may be apparent that the power in the 3 ...
... the power, if a wattmeter were connected to phase 3 would equal zero as P = IV. This is because although current will be flowing the voltage would be zero. As we know the LineLine voltage is 3 x Line-Neutral Voltage, even before performing some calculations it may be apparent that the power in the 3 ...
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.