SCM5B48-02 Accelerometer Input Module
... Six poles of signal filtering in the SCM5B48 module result in greater than 100dB of normal-mode rejection for signal frequencies above the cutoff frequency. One pole of filtering is on the field side of the isolation barrier for anti-aliasing purposes and the remaining five-pole programmable Bessel ...
... Six poles of signal filtering in the SCM5B48 module result in greater than 100dB of normal-mode rejection for signal frequencies above the cutoff frequency. One pole of filtering is on the field side of the isolation barrier for anti-aliasing purposes and the remaining five-pole programmable Bessel ...
Control 5 Specification Document
... ¼ x 20 threaded brass bushings, ¹Rating based on test signal of IEC filtered random noise with a peak-to-average ratio of 6 dB, two hours duration. Sensitivity is based on a swept 500 Hz to 2 5 kHz signal for an input of 2.0 V @ 4 ohms. ...
... ¼ x 20 threaded brass bushings, ¹Rating based on test signal of IEC filtered random noise with a peak-to-average ratio of 6 dB, two hours duration. Sensitivity is based on a swept 500 Hz to 2 5 kHz signal for an input of 2.0 V @ 4 ohms. ...
EL6413 Catalog Description
... transistors, biasing, and temperature compensation techniques. Physics, models, and biasing for field-effect transistors. General treatment of nonlinear controlled sources. High frequency models. Single and multistage broadband small signal amplifiers. Harmonic distortion analysis of amplifiers. Emi ...
... transistors, biasing, and temperature compensation techniques. Physics, models, and biasing for field-effect transistors. General treatment of nonlinear controlled sources. High frequency models. Single and multistage broadband small signal amplifiers. Harmonic distortion analysis of amplifiers. Emi ...
Low-Noise Amplifier
... Output of PFD for locked state • In locked state, narrow pulses are generated in both UP/DWN outputs. • The width of these pulses determines the amount of noise introduced to the VCO output by the charge-pump. • Timing mismatch between the UP/DWN pulses is a source of spurious tones. ...
... Output of PFD for locked state • In locked state, narrow pulses are generated in both UP/DWN outputs. • The width of these pulses determines the amount of noise introduced to the VCO output by the charge-pump. • Timing mismatch between the UP/DWN pulses is a source of spurious tones. ...
Systematic Design of Space-Time Trellis Codes for Wireless
... IF blocks: filter for high signal quality, and amplification, use circuits that work in only a constant IF, not a large band ...
... IF blocks: filter for high signal quality, and amplification, use circuits that work in only a constant IF, not a large band ...
Graphic Equalizer Design
... The flatness of the frequency responses of all the bands under full boost or unity gain conditions was not ideal, during experimentation the gain at the lower frequencies/bands was more than 6 dB higher than that for the bands 6 th and 7th, this problem was encountered as well during simulation and ...
... The flatness of the frequency responses of all the bands under full boost or unity gain conditions was not ideal, during experimentation the gain at the lower frequencies/bands was more than 6 dB higher than that for the bands 6 th and 7th, this problem was encountered as well during simulation and ...
Hardware Test Plan
... for probing locations), collect data, and plot in Excel. Plot points logarithmically (frequency on x-axis, ratio of output/input on y-axis). An example of a theoretical BPF response is shown in figure 2. Look for roll-off at lower frequencies (<20Hz) as well as high frequencies (>2000Hz). Greatest R ...
... for probing locations), collect data, and plot in Excel. Plot points logarithmically (frequency on x-axis, ratio of output/input on y-axis). An example of a theoretical BPF response is shown in figure 2. Look for roll-off at lower frequencies (<20Hz) as well as high frequencies (>2000Hz). Greatest R ...
Ringing artifacts
In signal processing, particularly digital image processing, ringing artifacts are artifacts that appear as spurious signals near sharp transitions in a signal. Visually, they appear as bands or ""ghosts"" near edges; audibly, they appear as ""echos"" near transients, particularly sounds from percussion instruments; most noticeable are the pre-echos. The term ""ringing"" is because the output signal oscillates at a fading rate around a sharp transition in the input, similar to a bell after being struck. As with other artifacts, their minimization is a criterion in filter design.