AC to DC conversions waste energy and money.

Replacing LED drivers wastes time and money.

Lighting unoccupied spaces wastes energy and money.

Not practical to daisy chain in PoE systems, making more "home runs" necessary. Additionally, 100 W PoE systems require heavier gauges; these Ethernet cables are more expensive than generic ones.

RJ45 plugs needed to terminate cables in PoE systems are ~$20 a piece because they need to support heavier gauges than typical Ethernet cables.

Each LED fixture needs an IP address in a PoE system. This can unnecessarily increase network overhead and IT management costs.

Save on project cabling costs with low-voltage wiring practices.

Save about 20% on energy for LED lighting and other DC powered loads.

Get the distance and power capabilities of traditional electrical systems.

GET CENCE

Click "Design System", and get started right away on designing a lighting project that makes your LED lighting even more efficient.

One of our engineers will reach out to you, answer any questions, and work with you to customize the ideal electrical solution for your lighting project.

Voltage Drop Calculator

DC power suffers less voltage drop along cables than AC power does at the same voltage. The increased efficiency of HVDC (high-voltage DC) over HVAC (high-voltage AC) reduces losses from 5 - 10% in an AC transmission system to around 2 - 3% for the same application in HVDC.

Use this calculator to calculate exactly what this would mean if you implemented DC power in your project.

Use this calculator to calculate exactly what this would mean if you implemented DC power in your project.

Thank you! Your submission has been received!

Oops! Something went wrong while submitting the form

Thank you! Your submission has been received!

Oops! Something went wrong while submitting the form.

DC power suffers less voltage drop along cables than AC power does at the same voltage. The increased efficiency of HVDC (high-voltage DC) over HVAC (high-voltage AC) reduces losses from 5 - 10% in an AC transmission system to around 2 - 3% for the same application in HVDC.

Use this calculator to calculate exactly what this would mean if you implemented DC power in your project.

Use this calculator to calculate exactly what this would mean if you implemented DC power in your project.

Thank you! Your submission has been received!

Oops! Something went wrong while submitting the form.

DC power suffers less voltage drop along cables than AC power does at the same voltage. The increased efficiency of HVDC (high-voltage DC) over HVAC (high-voltage AC) reduces losses from 5 - 10% in an AC transmission system to around 2 - 3% for the same application in HVDC.

Use this calculator to calculate exactly what this would mean if you implemented DC power in your project.

Use this calculator to calculate exactly what this would mean if you implemented DC power in your project.

Thank you! Your submission has been received!

Oops! Something went wrong while submitting the form.

Use this calculator to calculate exactly what this would mean if you implemented DC power in your project.

Thank you! Your submission has been received!

Oops! Something went wrong while submitting the form.