AN-102A APPLICATION NOTE Interface Circuits for the QD Series
... and Q outputs from a QD series demodulator into single-ended outputs. Since this method is ACcoupled, it cannot be used in applications that require I and Q DC response. The DC-blocking capacitors prevent self-modulation and degraded ...
... and Q outputs from a QD series demodulator into single-ended outputs. Since this method is ACcoupled, it cannot be used in applications that require I and Q DC response. The DC-blocking capacitors prevent self-modulation and degraded ...
MAX1470 315MHz Low-Power, +3V Superheterodyne Receiver General Description
... image rejection of the mixer. This device was designed to eliminate the need for a costly front-end SAW filter for many applications. The advantage of not using a SAW filter is increased sensitivity, simplified antenna matching, less board space, and lower cost. The mixer cell is a pair of double-ba ...
... image rejection of the mixer. This device was designed to eliminate the need for a costly front-end SAW filter for many applications. The advantage of not using a SAW filter is increased sensitivity, simplified antenna matching, less board space, and lower cost. The mixer cell is a pair of double-ba ...
expt11
... power source. We will use a small power supply that provides these voltages plus a zero to ±5 V variable DC output. The op-amp will supply a maximum output current of about 25 mA and has typical offset currents of about 20 nA. This implies that resistors in the range 1 k to 100 k should be used. U ...
... power source. We will use a small power supply that provides these voltages plus a zero to ±5 V variable DC output. The op-amp will supply a maximum output current of about 25 mA and has typical offset currents of about 20 nA. This implies that resistors in the range 1 k to 100 k should be used. U ...
Name - Seattle Central College
... Turn in your hand-drawn but legible and clear designs at the beginning of this week’s lab. Part 2: Circuit Designs, Procedures, Data, Analysis In your write-up you will show your circuits, describe your procedure and summarize how your excellent data proves you correct. Please word-process all text ...
... Turn in your hand-drawn but legible and clear designs at the beginning of this week’s lab. Part 2: Circuit Designs, Procedures, Data, Analysis In your write-up you will show your circuits, describe your procedure and summarize how your excellent data proves you correct. Please word-process all text ...
SG2525A SG3525A
... The SG3525Aseries of pulse width modulator integrated circuits are designed to offer improved performance and lowered external parts count when used in designing all types of switching power supplies. The on-chip + 5.1 V reference is trimmed to ± 1 % and the input common-mode range of the error ampl ...
... The SG3525Aseries of pulse width modulator integrated circuits are designed to offer improved performance and lowered external parts count when used in designing all types of switching power supplies. The on-chip + 5.1 V reference is trimmed to ± 1 % and the input common-mode range of the error ampl ...
doc - EECS @ UMich
... Describe how you went about designing your amplifier. How did you partition gain? How did you set bias currents? Resistors? DC bias voltages? What assumptions did you make and were these assumptions valid? For example, why is the collector current in your first stage the value that it is? How did yo ...
... Describe how you went about designing your amplifier. How did you partition gain? How did you set bias currents? Resistors? DC bias voltages? What assumptions did you make and were these assumptions valid? For example, why is the collector current in your first stage the value that it is? How did yo ...
LM317T 12V Lead-acid charger
... IC1 is a voltage comparator that is using the reference voltage from the TL431AIZ precision regulator. The reference voltage is 2.5V @ 1%. This reference voltage is applied to the non inverting input (pin5). The sample voltage from the current limit resistor (R1) is amplified by U2, and is applied t ...
... IC1 is a voltage comparator that is using the reference voltage from the TL431AIZ precision regulator. The reference voltage is 2.5V @ 1%. This reference voltage is applied to the non inverting input (pin5). The sample voltage from the current limit resistor (R1) is amplified by U2, and is applied t ...
Olin Student Projects 2008
... client computers via a TCP/IP Sockets protocol • Would be an extremely useful feature for beamline work. ...
... client computers via a TCP/IP Sockets protocol • Would be an extremely useful feature for beamline work. ...
30 kHz - 300 kHz
... of AIRDUCER™ Transducers Designed for fast and easy evaluation of Airmar’s Ultrasonic Transducers, we are pleased to offer our versatile, T1 Transceiver Module. The entire frequency range of 30 kHz to 300 kHz Airmar transducers can be driven by the T1. With transmit voltage output of 400 Vpp and adj ...
... of AIRDUCER™ Transducers Designed for fast and easy evaluation of Airmar’s Ultrasonic Transducers, we are pleased to offer our versatile, T1 Transceiver Module. The entire frequency range of 30 kHz to 300 kHz Airmar transducers can be driven by the T1. With transmit voltage output of 400 Vpp and adj ...
Analog Devices Welcomes Hittite Microwave Corporation
... The HMC439QS16G & HMC439QS16GE are digital phase-frequency detectors intended for use in low noise phase-locked loop applications for inputs from 10 to 1300 MHz. Its combination of high frequency of operation along with its ultra low phase noise floor make possible synthesizers with wide loop bandwi ...
... The HMC439QS16G & HMC439QS16GE are digital phase-frequency detectors intended for use in low noise phase-locked loop applications for inputs from 10 to 1300 MHz. Its combination of high frequency of operation along with its ultra low phase noise floor make possible synthesizers with wide loop bandwi ...
Audio PreAmp ICs
... DC output voltage to half-supply value. Figure 13 is a magnetic phono preamp circuit that uses-RIAA equalization, with the DC output voltage set by R7 bM382 circuits The internal circuitry of each half of a LM382 is identical to a LM381, except for a 5-resistor matrix and elimination of certain term ...
... DC output voltage to half-supply value. Figure 13 is a magnetic phono preamp circuit that uses-RIAA equalization, with the DC output voltage set by R7 bM382 circuits The internal circuitry of each half of a LM382 is identical to a LM381, except for a 5-resistor matrix and elimination of certain term ...
oscillator - Vidyarthiplus
... The different types of feedback are: 1. Positive feedback, 2. Negative feedback. 3) Draw the block diagram of a feedback system. 4) (a) What is meant by positive feedback? (Or) Define direct feedback. (Or) Define Regenerative feedback. If feedback signal applied is in phase with the input signal and ...
... The different types of feedback are: 1. Positive feedback, 2. Negative feedback. 3) Draw the block diagram of a feedback system. 4) (a) What is meant by positive feedback? (Or) Define direct feedback. (Or) Define Regenerative feedback. If feedback signal applied is in phase with the input signal and ...
Design of an Audio Amplifier
... at different frequencies hence selected components of the amplifier can amplify certain range or band of frequencies [2]. An audio amplifier is one, which can amplify a band of frequencies. LM386 audio power amplifier chip is used in this project. LM386: The LM386 is an audio power amplifier that is ...
... at different frequencies hence selected components of the amplifier can amplify certain range or band of frequencies [2]. An audio amplifier is one, which can amplify a band of frequencies. LM386 audio power amplifier chip is used in this project. LM386: The LM386 is an audio power amplifier that is ...
Regenerative circuit
The regenerative circuit (or regen) allows an electronic signal to be amplified many times by the same active device. It consists of an amplifying vacuum tube or transistor with its output connected to its input through a feedback loop, providing positive feedback. This circuit was widely used in radio receivers, called regenerative receivers, between 1915 and World War II. The regenerative receiver was invented in 1912 and patented in 1914 by American electrical engineer Edwin Armstrong when he was an undergraduate at Columbia University. Due partly to its tendency to radiate interference, by the 1930s the regenerative receiver was superseded by other receiver designs, the TRF and superheterodyne receivers and became obsolete, but regeneration (now called positive feedback) is widely used in other areas of electronics, such as in oscillators and active filters. A receiver circuit that used regeneration in a more complicated way to achieve even higher amplification, the superregenerative receiver, was invented by Armstrong in 1922. It was never widely used in general receivers, but due to its small parts count is used in a few specialized low data rate applications, such as garage door openers, wireless networking devices, walkie-talkies and toys.