Microseconds example sentences

"Microseconds" Example Sentences

1. The computer can process a million instructions in a few microseconds.
2. The reaction time of a human to a visual stimulus is only a few microseconds.
3. The speed of light in a vacuum is about 299,792,458 meters per second or about 3.3356409519815 microseconds per meter.
4. The delay between the moment you hit the keyboard and the moment the character appears on screen is just a few microseconds.
5. The clock speed of modern processors is measured in gigahertz, which is billions of cycles per second or a few nanoseconds per cycle, which means that each instruction takes only a few microseconds to complete.
6. The sound of a lightning bolt can last for just a few microseconds.
7. The resolution of an oscilloscope determines the smallest time interval that can be measured, which can be as small as a few microseconds.
8. The shutter speed of a high-speed camera can be as small as a few microseconds, which allows it to capture fast-moving objects with great detail.
9. The duration of an action potential in a neuron is typically only a few microseconds.
10. The transfer of data over a high-speed network can take only a few microseconds per packet.
11. The response time of an LCD monitor is usually a few milliseconds, which is equivalent to a few thousand microseconds.
12. The refresh rate of a computer monitor is usually measured in hertz, which is cycles per second, or microseconds per cycle.
13. The time resolution of a radar system can be as small as a few microseconds, which allows it to detect fast-moving objects accurately.
14. The rise time of a digital signal is the time it takes for the signal to change from its minimum to its maximum level, and can be as small as a few microseconds.
15. The fall time of a digital signal is the time it takes for the signal to change from its maximum to its minimum level, and can also be as small as a few microseconds.
16. The propagation delay of a signal in a transmission line can be calculated using its characteristic impedance and its length, and can be as small as a few microseconds.
17. The precision of a global positioning system depends on the accuracy of its clocks, which must be synchronized to within a few microseconds.
18. The frequency of a radio signal is the number of cycles per second, or microseconds per cycle, and determines its wavelength.
19. The accuracy of a digital clock depends on the stability and precision of its oscillator, which must maintain a constant frequency to within a few microseconds.
20. The latency of a memory system is the time it takes for the processor to access a word of memory, and can be as small as a few microseconds.
21. The jitter of a clock signal is the variation in its period, and can be as small as a few nanoseconds or a few microseconds.
22. The error rate of a communication system can be reduced by using error-correcting codes, which can detect and correct errors that occur during transmission in just a few microseconds.
23. The bandwidth of a communication channel is the amount of information that can be transmitted per second, and can be measured in bits per second or microseconds per bit.
24. The time required to execute a program depends on the number of instructions and their execution time, which can be measured in microseconds.
25. The time required to perform a digital signal processing operation depends on the number of samples and their conversion time, which can be measured in microseconds.
26. The phase noise of a signal is the variation in its phase, and can be measured in radians or microseconds.
27. The time required to transmit a packet over a computer network depends on its length and the speed of the network, which can be measured in microseconds.
28. The time required to execute an arithmetic operation depends on the precision and the complexity of the operation, which can be measured in microseconds.
29. The time required to integrate an analog signal depends on the sampling rate and the number of samples, which can be measured in microseconds.
30. The jitter of a clock signal can be reduced by using a phase-locked loop, which can adjust the frequency and phase of the clock signal in just a few microseconds.

Common Phases

1. The response time of the server is in microseconds;
2. The computer processor can execute instructions in microseconds;
3. The timer can measure intervals in microseconds;
4. The transfer speed of data between devices is measured in microseconds;
5. The latency of the network connection is expressed in microseconds;
6. The duration of a single clock cycle is in microseconds;
7. The accuracy of some sensors is measured in microseconds;
8. The time it takes for a light signal to travel through an optical fiber is in microseconds;
9. The refresh rate of a display screen is measured in microseconds;
10. The pulse width of electronic signals can be in microseconds.