2STA1695
... Information in this document is provided solely in connection with ST products. STMicroelectronics NV and its subsidiaries (“ST”) reserve the right to make changes, corrections, modifications or improvements, to this document, and the products and services described herein at any time, without notic ...
... Information in this document is provided solely in connection with ST products. STMicroelectronics NV and its subsidiaries (“ST”) reserve the right to make changes, corrections, modifications or improvements, to this document, and the products and services described herein at any time, without notic ...
Power System Harmonics and Passive Filter Designs. IEEE Press Series... Power Engineering Brochure
... harmonics, and presents its state–of–the–art technology and advancements This book is the first to cover Power System Harmonics in–depth, including real world, illustrative case studies. Written by a well–known author with extensive experience designing harmonic filters, this book is written in a th ...
... harmonics, and presents its state–of–the–art technology and advancements This book is the first to cover Power System Harmonics in–depth, including real world, illustrative case studies. Written by a well–known author with extensive experience designing harmonic filters, this book is written in a th ...
Resonant circuits – measuring inductance
... again, and if you keep your head the value can still be ...
... again, and if you keep your head the value can still be ...
494-148
... Abstract - The need for effective utilization of electrical power has increased the area of application of power electronics. Due to extensive use of power control devices, an increasing deviation of the system voltage and current waveforms is observed. The presence of harmonics in the power lines r ...
... Abstract - The need for effective utilization of electrical power has increased the area of application of power electronics. Due to extensive use of power control devices, an increasing deviation of the system voltage and current waveforms is observed. The presence of harmonics in the power lines r ...
Technical Design Report: Passive Analog Filter Implementation
... greater than requested gain. The bandpass filter is highly recommended for applications of similar output load while connected to a 50 Ohm impendence input. Due to the close tolerances to which the bandpass filter was matched, it is recommended to keep the input impendence and output load as close t ...
... greater than requested gain. The bandpass filter is highly recommended for applications of similar output load while connected to a 50 Ohm impendence input. Due to the close tolerances to which the bandpass filter was matched, it is recommended to keep the input impendence and output load as close t ...
AN1993 High sensitivity applications of low
... power ICs, Philips Semiconductors SA602 and SA604A, it is possible to build highly producible IF strips and receivers with input frequencies to several hundred megahertz, IF frequencies of 10.7 or 21.4MHz, and sensitivity less than 2µV (in many cases less than 1µV). The Philips Semiconductors new SA ...
... power ICs, Philips Semiconductors SA602 and SA604A, it is possible to build highly producible IF strips and receivers with input frequencies to several hundred megahertz, IF frequencies of 10.7 or 21.4MHz, and sensitivity less than 2µV (in many cases less than 1µV). The Philips Semiconductors new SA ...
Electric Reliability Troubleshooting Guide
... Don’t use PLC for control Try separating wiring Install noise filter Improve shielding Replace/install battery back-up Install surge protector with “sine wave tracking” Discontinue using disturbing appliance Try a different clock Modify or replace hearing aid ...
... Don’t use PLC for control Try separating wiring Install noise filter Improve shielding Replace/install battery back-up Install surge protector with “sine wave tracking” Discontinue using disturbing appliance Try a different clock Modify or replace hearing aid ...
Amateur Radio Technician Class Element 2 Course Presentation
... A resistor in series should be added to an existing resistor in a circuit to increase circuit resistance. (G5C03) The total resistance of three 100-ohm resistors in parallel is 33.3 ohms. (G5C04) • For identical resistors in parallel simply divide the resistance of one resistor by the number of ...
... A resistor in series should be added to an existing resistor in a circuit to increase circuit resistance. (G5C03) The total resistance of three 100-ohm resistors in parallel is 33.3 ohms. (G5C04) • For identical resistors in parallel simply divide the resistance of one resistor by the number of ...
A 40 meters CW QRP Transceiver
... A particular care was dedicated to the filter design, in fact I wanted to obtain a device suited also for SSB reception. I chose a ladder 4 poles design, employing some cheap 4.433 MHz crystals for TV use. In this manner I obtained a 1.8 KHz bandpass, an acceptable compromise to receive both the CW ...
... A particular care was dedicated to the filter design, in fact I wanted to obtain a device suited also for SSB reception. I chose a ladder 4 poles design, employing some cheap 4.433 MHz crystals for TV use. In this manner I obtained a 1.8 KHz bandpass, an acceptable compromise to receive both the CW ...
Application Note CV/F Converter ICs Handle Frequency
... faster response and less ripple for high input frequencies. Although the circuit specifies a 15V power supply, you can use any regulated supply between 4 VDC and 40 VDC. The output voltage can extend to within 3 VDC of the supply voltage, so choose RL to maintain that output range. Adding a 220 kΩ/0 ...
... faster response and less ripple for high input frequencies. Although the circuit specifies a 15V power supply, you can use any regulated supply between 4 VDC and 40 VDC. The output voltage can extend to within 3 VDC of the supply voltage, so choose RL to maintain that output range. Adding a 220 kΩ/0 ...
BUL129D
... Information in this document is provided solely in connection with ST products. STMicroelectronics NV and its subsidiaries (“ST”) reserve the right to make changes, corrections, modifications or improvements, to this document, and the products and services described herein at any time, without notic ...
... Information in this document is provided solely in connection with ST products. STMicroelectronics NV and its subsidiaries (“ST”) reserve the right to make changes, corrections, modifications or improvements, to this document, and the products and services described herein at any time, without notic ...
Laboratory Exercise 5
... 3 (a) About AM radio An AM (amplitude modulation) radio signal is a superposition of a high frequency wave (100’s to 1000’s of kHz) called a carrier wave (this is the “RF” signal) and a signal in the audio frequency range (only about 100 Hz to 7.5 kHz for the AM band in Australia). The carrier frequ ...
... 3 (a) About AM radio An AM (amplitude modulation) radio signal is a superposition of a high frequency wave (100’s to 1000’s of kHz) called a carrier wave (this is the “RF” signal) and a signal in the audio frequency range (only about 100 Hz to 7.5 kHz for the AM band in Australia). The carrier frequ ...
A Differential 4-bit 6.5–10-GHz RF MEMS Tunable Filter
... quency. The closed-form equations for the lumped elements of the differential filter of Fig. 1 are summarized as follows: ...
... quency. The closed-form equations for the lumped elements of the differential filter of Fig. 1 are summarized as follows: ...
Voltage Transducer CV 3-1500 V = 1000 V
... This transducer must be used in electric/electronic equipment with respect to applicable standards and safety requirements in accordance with the manufacturer’s operating instructions. ...
... This transducer must be used in electric/electronic equipment with respect to applicable standards and safety requirements in accordance with the manufacturer’s operating instructions. ...
Optimizing the Heathkit HW-101, SB100-102 Transceivers
... little closer to the filter center frequency than the Heath spec., i.e., rather than 1.6 kHz off center I went with 1.4 kHz. The frequency of the oscillator is lowered by placing a small amount of capacitance in parallel with the crystal, and the frequency is raised by putting capacitance in series ...
... little closer to the filter center frequency than the Heath spec., i.e., rather than 1.6 kHz off center I went with 1.4 kHz. The frequency of the oscillator is lowered by placing a small amount of capacitance in parallel with the crystal, and the frequency is raised by putting capacitance in series ...
Mechanical filter
A mechanical filter is a signal processing filter usually used in place of an electronic filter at radio frequencies. Its purpose is the same as that of a normal electronic filter: to pass a range of signal frequencies, but to block others. The filter acts on mechanical vibrations which are the analogue of the electrical signal. At the input and output of the filter, transducers convert the electrical signal into, and then back from, these mechanical vibrations.The components of a mechanical filter are all directly analogous to the various elements found in electrical circuits. The mechanical elements obey mathematical functions which are identical to their corresponding electrical elements. This makes it possible to apply electrical network analysis and filter design methods to mechanical filters. Electrical theory has developed a large library of mathematical forms that produce useful filter frequency responses and the mechanical filter designer is able to make direct use of these. It is only necessary to set the mechanical components to appropriate values to produce a filter with an identical response to the electrical counterpart.Steel and nickel–iron alloys are common materials for mechanical filter components; nickel is sometimes used for the input and output couplings. Resonators in the filter made from these materials need to be machined to precisely adjust their resonance frequency before final assembly.While the meaning of mechanical filter in this article is one that is used in an electromechanical role, it is possible to use a mechanical design to filter mechanical vibrations or sound waves (which are also essentially mechanical) directly. For example, filtering of audio frequency response in the design of loudspeaker cabinets can be achieved with mechanical components. In the electrical application, in addition to mechanical components which correspond to their electrical counterparts, transducers are needed to convert between the mechanical and electrical domains. A representative selection of the wide variety of component forms and topologies for mechanical filters are presented in this article.The theory of mechanical filters was first applied to improving the mechanical parts of phonographs in the 1920s. By the 1950s mechanical filters were being manufactured as self-contained components for applications in radio transmitters and high-end receivers. The high ""quality factor"", Q, that mechanical resonators can attain, far higher than that of an all-electrical LC circuit, made possible the construction of mechanical filters with excellent selectivity. Good selectivity, being important in radio receivers, made such filters highly attractive. Contemporary researchers are working on microelectromechanical filters, the mechanical devices corresponding to electronic integrated circuits.