Manufacturing a custom transformer depends upon transmission of applicable data. Once received, this information feeds to the engineer’s fabrication schematics, informing final design. The following info must be transmitted to inform engineering choices:
- Description of application
- Primary voltage requirements
- Secondary voltage
- Frequency range
- Output power
In general, most custom designs are made as single-phase systems. Nevertheless, 3-phase schematics are available upon request and are built according to specifications. Generally speaking, this team’s strength is in building high-frequency transformers and utilizing transmissions. See the listed standard transformers for reference when necessary. In addition, plant managers can check part numbers along with pricing by using the chart.
Multiple Phases Available for Design
Occasionally, a 3-phase design’s performance is preferred, such as in variable applications. However, the single-phase designs perform acceptably in the majority of use-cases. Overall, most of this company’s output transformers must have secure earth-ground connections. Otherwise, accidental death could occur if the device was in operation without it.
After receiving it, you must only use it within strictly defined operating parameters. Furthermore, operations managers should adjust amplitude slowly, decreasing the failure possibility. Thus, a transformer’s output voltage should never exceed 120% of the rated maximum. Over-voltage damages the device’s internal components, possibly causing system failures.
Variable Operating Frequency Range
They have designed several variations of the device, and each has a different range. For example, model AT-T250.1 operates within a frequency range of 100 Hz to 5,000 Hz. For more information, please visit Amp-Line Corp.