100 Examples of sentences containing the common noun "transistor"

Definition

A transistor is a semiconductor device used to amplify or switch electronic signals and electrical power. It consists of three layers of semiconductor material, each capable of carrying a current. Transistors are fundamental components in modern electronic devices, including computers, radios, and smartphones.

Synonyms

Semiconductor
Amplifier
Switch
Oscillator
Microchip (in some contexts)

Antonyms

Resistor (in terms of functionality)
Insulator (in terms of electrical conductivity)

Examples

The engineer transistor the signal to improve clarity.
She transistor the network to ensure faster data transmission.
The technician transistor the old circuits with new components.
He transistor the sound system for better audio output.
The team transistor the power levels during testing.
They transistor the device to enhance its functionality.
The project manager transistor the design to meet the specifications.
The professor transistor the concept of transistors in his lecture.
The student transistor the circuit diagram for his project.
The workshop transistor outdated technologies for modern applications.
She transistor the communication system to reduce noise.
The inventor transistor his prototype before the final release.
The company transistor its manufacturing process for efficiency.
He transistor the circuit to incorporate new features.
The researcher transistor the findings in her paper.
They transistor the device to accommodate higher voltages.
The technician transistor the faulty components swiftly.
The lab transistor its equipment to improve accuracy.
The architect transistor the design to include more features.
She transistor the old radio for better performance.
The workshop transistor the educational materials for clarity.
The engineer transistor the power supply to avoid fluctuations.
He transistor the analysis of the system's performance.
She transistor the layout to minimize interference.
The developer transistor the software to enhance compatibility.
They transistor the data for proper interpretation.
The technician transistor the firmware of the device.
He transistor the measurements for accuracy.
The scientist transistor the experiment results.
The team transistor the production schedule for efficiency.
She transistor the quality control process.
The engineer transistor the layout of the circuit board.
They transistor the specifications for better understanding.
He transistor the project timeline for better management.
The company transistor the marketing strategy.
She transistor the electrical system for safety.
The technician transistor the backup system.
He transistor the configuration settings.
The researcher transistor the experiment protocols.
The engineer transistor the integration of the new system.
She transistor the wiring for compliance.
They transistor the software to fix bugs.
The team transistor the circuit design for optimization.
He transistor the electrical load calculations.
The professor transistor the importance of transistors in electronics.
She transistor the feedback from the users.
The workshop transistor the materials for better durability.
The technician transistor the input signals correctly.
He transistor the frequency response of the circuit.
The team transistor the power consumption analysis.
She transistor the research paper for publication.
The engineer transistor the efficiency of the circuit.
They transistor the prototype for user testing.
He transistor the installation procedures.
The scientist transistor the hypothesis based on findings.
The technician transistor the assembly line processes.
She transistor the collaboration with other departments.
The developer transistor the application features.
He transistor the measurements for the experiment.
The team transistor the final report before submission.
She transistor the operating system for improvements.
The engineer transistor the load testing procedures.
They transistor the layout of the power grid.
He transistor the performance metrics.
The technician transistor the maintenance schedule.
She transistor the voltage levels for safety.
The project leader transistor the tasks among the team.
He transistor the circuit for educational purposes.
The researcher transistor the implications of the study.
The engineer transistor the parameters for the simulation.
She transistor the usage guidelines for users.
The company transistor its policies for better service.
He transistor the data for analysis.
The technician transistor the settings before testing.
They transistor the feedback from clients.
She transistor the design to reduce costs.
The engineer transistor the schematic for clarity.
He transistor the project goals for alignment.
The team transistor the budget for the upcoming project.
She transistor the workflow for efficiency.
The developer transistor the app for better user experience.
He transistor the electrical connections for safety.
The technician transistor the setup for troubleshooting.
She transistor the guidelines for compliance.
The workshop transistor the curriculum for better learning.
The engineer transistor the installation guide.
They transistor the project scope for clarity.
He transistor the electrical system for performance.
The researcher transistor the results for validation.
The technician transistor the procedure for accuracy.
She transistor the materials for the study.
The team transistor their strategies for the competition.
He transistor the process documentation for reference.
The company transistor the customer service approach.
She transistor the operational efficiency metrics.
The engineer transistor the circuit board layout.
They transistor the electrical safety standards.
He transistor the communication protocols.
The technician transistor the system diagnostics.
She transistor the project timeline for better tracking.