Category
Electronics (9)Music (5)Aviation (4)Radio (4)Telecommunications (3)Technology (3)Engineering (3)Science (2)Audio Equipment (2)Acoustics (2)Manufacturing (2)Broadcasting (2)Astronomy (2)Chemistry (2)Music Production (1)Audio Systems (1)Consumer Electronics (1)Automotive (1)Hobby (1)Radio Communications (1)Collectibles (1)Law Enforcement (1)Security (1)Measurement (1)Radio Technology (1)Antiques (1)Medical Imaging (1)Household Appliances (1)Research (1)History (1)Instrumentation (1)Optics (1)Communication (1)Meteorology (1)Building Maintenance (1)Electrical Engineering (1)Personal Care (1)Physics (1)Shopping (1)Communications (1)Computing (1)Automobiles (1)Signal Processing (1)Metal Detection (1)
Usage Examples
Filter by Meaning The radio receiver can heterodyne different frequencies to tune into different stations.
The heterodyne process is used in ultrasound technology to create images of internal organs.
The heterodyne frequency can be altered by changing the oscillator frequency.
The heterodyne interference can be detected by analyzing the audio signal with a spectrum analyzer.
The heterodyne principle is used in radar technology to detect objects at long range.
The heterodyne effect can cause interference between different electronic devices.
The heterodyne process is essential in the production of electronic music.
The use of a heterodyne receiver made it possible to detect the first transatlantic radio transmission.
The use of a heterodyne receiver helped the pilot navigate through bad weather.
The heterodyne radio helped me tune in to my favorite station.
The heterodyne technique enabled detection of weak signals.
The heterodyne receiver is capable of filtering out unwanted noise.
The heterodyne processing circuitry used a digital signal processor.
The heterodyne oscillator was used to mix the two input signals.
The heterodyne receiver was able to amplify signals from far away stations.
The heterodyne mixer used a balanced diode design.
The heterodyne process is often used in radio astronomy to detect weak signals.
The heterodyne signal was stronger than the original signal.
The heterodyne beat frequency could be heard on the radio.
The heterodyne response had a very narrow bandwidth.
The heterodyne wave produced a new frequency that was more easily detectable.
The heterodyne frequency was precisely tuned to the local oscillator frequency.
The faulty fan in the room produced a constant heterodyne whine.
The electric shaver was making a heterodyne sound due to a damaged motor.
The broken projector produced a heterodyne noise.
The heterodyne hum in the amplifier was due to a grounding issue.
The broken speaker emitted a heterodyne sound.
The buzzing noise in the car radio was caused by a heterodyne effect.
The malfunctioning amplifier was producing a loud heterodyne buzz.
The satellite receiver produced a loud heterodyne sound during the storm.
The radio technician was trying to isolate the source of the heterodyne noise in the system.
The heterodyne signal is used to detect objects with radar.
The heterodyne local oscillator is used in phase-locked loops for frequency synthesis.
The heterodyne demodulator is used in radio communication to extract information from a modulated signal.
The heterodyne method is used in signal processing to extract information from a signal.
The heterodyne frequency mixer is used in a variety of electronic applications to produce new frequencies.
The heterodyne receiver is a common type of receiver used in radio communication.
The heterodyne process is commonly used in musical synthesizers to create new sounds.
The heterodyne spectrum analyzer is used in electronics testing to analyze frequency spectra.
The heterodyne principle is used in radar systems for target detection.
The heterodyne demodulator is used to recover information from amplitude-modulated signals.
Heterodyne is a technique used in radio communications to generate new frequencies.
The heterodyne method is used in spectroscopy to analyze the spectra of different materials.
The radio technician used a heterodyne to diagnose the problem.
The engineer designed the heterodyne to produce precise signals for the receiver.
The heterodyne on the circuit board was responsible for mixing two frequencies.
The radio operator used the heterodyne to tune in to a specific frequency for communication.
The company invested in new heterodyne technology to enhance their communication systems.
The operator adjusted the settings on the heterodyne to improve reception quality.
The radio repairman used a heterodyne to test the radio circuitry.
Post a Comment