100 Examples of sentences containing the noun "amperage"

Definition

Amperage refers to the strength of an electric current measured in amperes (amps). It is a crucial concept in electrical engineering and physics, indicating the amount of electric charge flowing through a conductor or circuit per unit time.

Synonyms

• Current
• Electric current
• Intensity
• Charge flow

Antonyms

• Voltage
• Resistance
• Impedance

Examples

1. The technician measured the amperage in the circuit to ensure it was within safe limits.
2. Too much amperage can cause wires to overheat and potentially start a fire.
3. The device requires a specific amperage to function correctly.
4. We need to calculate the amperage before installing the new equipment.
5. The amperage rating of the fuse is critical for preventing electrical overload.
6. An increase in amperage often results in increased heat generation within the circuit.
7. The electrician advised me to check the amperage of the power supply.
8. High amperage can lead to circuit failure if not managed properly.
9. The amperage displayed on the multimeter indicated a significant draw from the battery.
10. Adjusting the amperage settings on the welder improved the quality of the weld.
11. The amperage flowing through the wires was higher than expected.
12. Surge protectors help manage sudden spikes in amperage.
13. The power supply should match the required amperage for optimal performance.
14. I noticed the amperage fluctuating during peak usage times.
15. A lower amperage can result in longer battery life for portable devices.
16. The amperage output of the solar panels was impressive.
17. To avoid damage, the amperage should be kept below the maximum rating.
18. The technician explained how to read the amperage on the gauge.
19. The amperage must be adjusted for different types of lighting fixtures.
20. The circuit breaker tripped due to excessive amperage.
21. We monitored the amperage to ensure stable operation of the machinery.
22. The amperage required for the electric motor was specified in the manual.
23. Measuring the amperage can help diagnose electrical issues.
24. The amperage flowing through the circuit was consistent throughout the test.
25. Over time, high amperage can degrade the insulation of wires.
26. The lab experiment involved varying the amperage to observe the effects.
27. The amperage must be compatible with the appliance's specifications.
28. Safety equipment is essential when working with high amperage.
29. The surge in amperage caused the lights to flicker.
30. The amperage reading indicated a short circuit in the system.
31. The generator's maximum amperage was tested before use.
32. A digital display showed the real-time amperage of the system.
33. I adjusted the amperage to optimize the performance of the laser cutter.
34. The manual provided guidelines on the acceptable amperage range.
35. The amperage was too low to power the appliance effectively.
36. We used a clamp meter to measure the amperage without interrupting the circuit.
37. The amperage surge damaged several components in the device.
38. An understanding of amperage is vital for anyone working with electronics.
39. The amperage needs to be regulated to prevent overheating.
40. Each appliance has a different amperage requirement.
41. The technician recommended lowering the amperage setting for safety.
42. The readings showed a steady amperage throughout the experiment.
43. Maintenance checks often include testing the amperage levels.
44. A rise in amperage can indicate a fault in the circuit.
45. We calculated the total amperage needed for the project.
46. The amperage was monitored to ensure compliance with safety regulations.
47. The new circuit design improved the amperage efficiency.
48. It’s important to understand how amperage affects circuit operation.
49. The amperage rating of the charger was lower than expected.
50. A high amperage is often required for industrial machinery.
51. The fluctuating amperage posed a risk to the sensitive equipment.
52. The amperage must be tested after any significant modifications to the circuit.
53. The multimeter displayed the amperage in real time.
54. The amperage fluctuates based on the load connected to the circuit.
55. We had to reduce the amperage to prevent overheating during the test.
56. The amperage was stable, indicating a well-functioning system.
57. Understanding amperage is crucial for safe electrical work.
58. The amperage of the circuit is critical for its overall performance.
59. The amperage rating can usually be found on the device's label.
60. A sudden increase in amperage can trigger safety protocols.
61. The amperage was measured using a specialized tool.
62. The refrigerator operates at a specific amperage to maintain efficiency.
63. A high amperage can lead to more significant power losses.
64. The amperage was within the acceptable range during testing.
65. The circuit experienced a drop in amperage during the test.
66. The amperage required for the heater was higher than expected.
67. We used a shunt to measure the amperage accurately.
68. The amperage of the solar inverter must match the load.
69. The technician adjusted the settings to achieve the desired amperage.
70. The amperage limit ensures that the circuit does not overload.
71. The amperage can vary based on the appliance being used.
72. We documented the amperage readings for future reference.
73. The amperage output was tested under various conditions.
74. The circuit diagram indicated the maximum amperage for each component.
75. The amperage surged briefly during startup.
76. The power distribution board regulates the amperage supplied to each circuit.
77. The amperage was too high for the existing wiring.
78. The technician was careful to avoid any sudden changes in amperage.
79. The amperage required for the pump was noted in the specifications.
80. We conducted a thorough analysis of the amperage flow.
81. The amperage levels were restored after the fault was fixed.
82. A transformer can help manage the amperage in large systems.
83. The amperage was consistent throughout the testing phase.
84. The device's performance is directly related to the amperage supplied.
85. A drop in amperage can indicate a potential issue in the circuit.
86. The amperage rating for the circuit breaker was appropriate for the load.
87. The amperage was monitored continuously during the operation.
88. We compared the amperage readings before and after the upgrade.
89. The amperage in the circuit exceeded the designed limits.
90. The amperage needed for the air conditioner was significant.
91. The technician was trained to handle high amperage safely.
92. The amperage levels were recorded for each test sample.
93. The cable must be rated for the expected amperage to prevent overheating.
94. The amperage was checked regularly as part of the maintenance schedule.
95. The amperage indicated a malfunction in the system.
96. The amperage in the circuit was stable after the repairs.
97. The team adjusted the amperage to optimize the performance of the server.
98. The amperage needed for industrial applications often exceeds residential levels.
99. The multimeter allowed us to measure both voltage and amperage.
100. The amperage fluctuated during the testing process, prompting further investigation.