Most electronic equipment operates internally using DC power, while the main available power source in homes, factories, and infrastructure is usually AC. Electronic circuits such as processors, memory, communication ICs, and sensors cannot operate directly from AC voltage. Without proper conversion, AC supply can damage sensitive electronic components. An AC to DC converter solves this by converting AC input voltage into regulated DC output suitable for electronic circuits.
| Image | Part Number / Manufacturer | Description / Specs | MOQ | Datasheet | RFQ | |
|---|---|---|---|---|---|---|
| T60404E4623X121 Manufacturer: VACUUMSCHMELZE Category: Current Sense Transformers | 4623X121 | 1 | ||||
| CT25/5 Manufacturer: Mueller Electric Co Category: Current Sense Transformers | CURR SENSE XFMR 5A IN-LINE | 1 | ||||
| CT500/5 Manufacturer: Mueller Electric Co Category: Current Sense Transformers | CURR SENSE XFMR 5A IN-LINE | 1 | ||||
| AC1200 Manufacturer: Talema Group LLC Category: Current Sense Transformers | CURR SENSE XFMR 200A T/H | 1 | ||||
| CTCSF-51688 Manufacturer: Central Technologies Category: Current Sense Transformers | METAL ALLOY CURRENT SENSORS | 1 | ||||
| B78419A9394A003 Manufacturer: TDK Category: Current Sense Transformers | CURR SENSE XFMR | 1 | ||||
| B78418A1974A003 Manufacturer: TDK Category: Current Sense Transformers | CURR SENSE XFMR | 1 | ||||
| 750316796 Manufacturer: Würth Elektronik Category: Current Sense Transformers | CURR SENSE XFMR 1:120 40A SMD | 1 | ||||
| 750316795 Manufacturer: Würth Elektronik Category: Current Sense Transformers | CURR SENSE XFMR 1:150 40A SMD | 1 | ||||
| 750316794 Manufacturer: Würth Elektronik Category: Current Sense Transformers | CURR SENSE XFMR 1:100 40A SMD | 1 | ||||
| 750316793 Manufacturer: Würth Elektronik Category: Current Sense Transformers | CURR SENSE XFMR 1:50 40A SMD | 1 | ||||
| ENVOY AC (100A) Manufacturer: Verivolt LLC Category: Current Sense Transformers | CURR SENSE XFMR 100A IN-LINE | 1 | ||||
| ENVOY AC (60A) Manufacturer: Verivolt LLC Category: Current Sense Transformers | CURR SENSE XFMR 60A IN-LINE | 1 | ||||
| ENVOY AC (10A) Manufacturer: Verivolt LLC Category: Current Sense Transformers | CURR SENSE XFMR 10A IN-LINE | 1 | ||||
| ENVOY AC (1A) Manufacturer: Verivolt LLC Category: Current Sense Transformers | CURR SENSE XFMR 1A IN-LINE | 1 | ||||
| ENVOY AC-OC (200A) Manufacturer: Verivolt LLC Category: Current Sense Transformers | CURR SENSE XFMR 200A IN-LINE | 1 | ||||
| ENVOY AC-OC (100A) Manufacturer: Verivolt LLC Category: Current Sense Transformers | CURR SENSE XFMR 100A IN-LINE | 1 | ||||
| ENVOY AC-OC (5A) Manufacturer: Verivolt LLC Category: Current Sense Transformers | CURR SENSE XFMR 5A IN-LINE | 1 | ||||
| 7020-01046-0 Manufacturer: Murata Power Solutions Inc. Category: Current Sense Transformers | CURR SENSE XFMR 5A IN-LINE | 1 | ||||
| 7020-01045-0 Manufacturer: Murata Power Solutions Inc. Category: Current Sense Transformers | CURR SENSE XFMR 5A IN-LINE | 1 |
AC to DC converters are typically selected during early system power design and matched to input voltage range, load requirements, and thermal conditions. When an AC to DC converter reaches end-of-life, replacement may be difficult. Differences in output regulation behavior, ripple characteristics, or mechanical form factor can affect system performance and compliance.
This is common in industrial, medical, and telecom systems where equipment remains active for many years. Maintenance teams often require the same converter to avoid redesign or recertification. Delays in sourcing compatible converters can increase downtime and maintenance cost.
Maketronics supports global engineering and procurement teams with reliable sourcing of both active and obsolete AC to DC Converters.
An AC to DC converter converts alternating current (AC) from mains power into regulated direct current (DC) suitable for electronic circuits.
Electronic components require stable DC voltage to operate safely and reliably, while utility power is supplied as AC.
Linear converters are simple but less efficient, while switching converters offer higher efficiency, lower heat generation, and compact size.
Replacing an obsolete converter may require validation because differences in output regulation, ripple performance, and mechanical design can affect system compliance and reliability.