analog communication trainers
... AF generator with variable frequency 200Hz to 10KHz and with variable amplitude. RF generator with variable frequency up to 1200KHz and with variable amplitude. IC 1619 is used for AM receiver measurements. Built in AM Modulator ...
... AF generator with variable frequency 200Hz to 10KHz and with variable amplitude. RF generator with variable frequency up to 1200KHz and with variable amplitude. IC 1619 is used for AM receiver measurements. Built in AM Modulator ...
ISSCC 2014 / SESSION 12 / SENSORS, MEMS, AND DISPLAYS
... low power consumption, and ambient light insensitivity. Using pulse-echo time-of-flight, MEMS ultrasonic rangers work over distances of up to a meter and achieve sub-mm ranging accuracy [1,2]. Using a 2-dimensional array of transducers, objects can be localized in 3 dimensions. This paper presents a ...
... low power consumption, and ambient light insensitivity. Using pulse-echo time-of-flight, MEMS ultrasonic rangers work over distances of up to a meter and achieve sub-mm ranging accuracy [1,2]. Using a 2-dimensional array of transducers, objects can be localized in 3 dimensions. This paper presents a ...
Readout ASIC for SiPM detector of the CTA new
... ALPS chip– Layout sent to fabrication 03/03/2014 ...
... ALPS chip– Layout sent to fabrication 03/03/2014 ...
Experiment6
... B-1: Look at the input voltage V0 and the voltage across the resistor, VR , on the oscilloscope. Be sure to pay attention to where “ground” is located in your circuit and use the instrumentation amplifier if necessary. Determine the resonant frequency f0 = 0/2 by looking for the frequency at which ...
... B-1: Look at the input voltage V0 and the voltage across the resistor, VR , on the oscilloscope. Be sure to pay attention to where “ground” is located in your circuit and use the instrumentation amplifier if necessary. Determine the resonant frequency f0 = 0/2 by looking for the frequency at which ...
Handout 7
... voltmeter. It makes thousands of measurements per second. Each measurement results in a number that can be stored digitally (that is, only a finite number of significant digits of this number are recorded). This number is called a sample and the whole conversion of sound to a series of numbers is ca ...
... voltmeter. It makes thousands of measurements per second. Each measurement results in a number that can be stored digitally (that is, only a finite number of significant digits of this number are recorded). This number is called a sample and the whole conversion of sound to a series of numbers is ca ...
Capacitor Self
... for the potentiometer set at Ra = 0 Ω and Ra = 100 kΩ. Assume the 1 µF capacitor (DC block) to be a pure short circuit for your analaysis. YOU WILL NEED THIS FOR YOUR LAB. These questions deal with the non-idealities of the LM 741 op-amp. 2. Why is the load resistor (R L) of the LM 741 variable gain ...
... for the potentiometer set at Ra = 0 Ω and Ra = 100 kΩ. Assume the 1 µF capacitor (DC block) to be a pure short circuit for your analaysis. YOU WILL NEED THIS FOR YOUR LAB. These questions deal with the non-idealities of the LM 741 op-amp. 2. Why is the load resistor (R L) of the LM 741 variable gain ...
B++--The Design of A Low-Power Low-Noise Phase Lock
... reference signal remains constant or is zero However, if in the process due to some discrepancy a phase error builds up, a control mechanism gets triggered, which acts on the oscillator to counter-balance the so resulted phase error in such a manner that it is reduced to minimum until it is matched. ...
... reference signal remains constant or is zero However, if in the process due to some discrepancy a phase error builds up, a control mechanism gets triggered, which acts on the oscillator to counter-balance the so resulted phase error in such a manner that it is reduced to minimum until it is matched. ...
One-Stage Amplifier Design Consideration of a
... where: RTINOISE is the referred to input noise, in V/√Hz. K is the Boltzmann’s constant, = 1.3806505(24) × 10−23 J/K. T is the temperature. RP1 and RP2 are the parallel resistor values. EN is the voltage noise spectral density. IN is the current noise spectral density. ...
... where: RTINOISE is the referred to input noise, in V/√Hz. K is the Boltzmann’s constant, = 1.3806505(24) × 10−23 J/K. T is the temperature. RP1 and RP2 are the parallel resistor values. EN is the voltage noise spectral density. IN is the current noise spectral density. ...
LAB 7 – Skin Effect and Transmission Lines
... When we first learned about electric circuits, we learned that the solid lines on the schematic diagram represented wires, all points connected by a wire were always at the same voltage potential, and current flowing through a wire did not produce a voltage drop because wires had zero resistance. Wh ...
... When we first learned about electric circuits, we learned that the solid lines on the schematic diagram represented wires, all points connected by a wire were always at the same voltage potential, and current flowing through a wire did not produce a voltage drop because wires had zero resistance. Wh ...
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.