Dimmable commerical LED lighting:0-10V Vs. 1-10V Dimming
Par Amy Topsun lighting
July 19th, 2025
72 vues
Table of Contents
What is 0-10V dimming?
The difference between 0-10V dimming and 1-10V dimming
1. Core differences: signal range and minimum state
2. Key Function Comparison
Why are there two standards?
Application of 0-10V and 1-10V dimming
Notes on practical applications
Conclusion |
What is 0-10V dimming?
0-10V dimming, also known as 0-10V signal dimming, is a dimming method that controls the output current of the power supply by changing the voltage. The basic principle is that a control chip is added when the power supply is designed. When a 0-10V dimmer is connected, the power supply changes its output current according to the voltage change of the dimmer output, thereby controlling the brightness of the light. Specifically, when the output voltage of the dimmer is 0V, the light will turn off; as the voltage gradually increases, the brightness of the light will also increase accordingly; when the voltage reaches 10V, the light reaches the maximum brightness.
In addition, it is worth noting that 0-10V dimming is also divided into two modes: 0-10V and 1-10V.
The difference between 0-10V dimming and 1-10V dimming
0-10V dimming and 1-10V dimming are two mainstream analog dimming methods in LED lighting control systems. They have significant differences in dimming logic, function implementation, and applicable scenarios. Next, we will discuss the differences between them:1. Core differences: signal range and minimum state0-10V dimmingThe voltage range of the dimming signal is 0V to 10V, and its core logic is:10V corresponds to 100% brightness of the lamp (full power);0V corresponds to the lamp completely turned off (no output);The voltage between 0-10V corresponds to the brightness ratio linearly (such as 3V=30% brightness).1-10V dimmingThe voltage range of the dimming signal is 1V to 10V, and its core logic is:10V corresponds to 100% brightness of the lamp;1V corresponds to the minimum brightness of the lamp (non-off, such as 5%-10% dimming);Linear adjustment between 1-10V, voltage below 1V is usually designed as "forced off" (requires additional definition).2. Key Function ComparisonFunctional Dimension: 0-10V Dimming, 1-10V DimmingShutdown Method: Natural Support (0V directly cuts off the output), requires additional design (such as forced shutdown below 1V or independent switch signal)Low Brightness Stability: Poor (0-1V is susceptible to interference and may cause flickering), Better (avoid noise near 0V, stable signal above 1V)Brightness Adjustment Range: 0%-100% (including complete shutdown), Minimum Brightness (such as 5%)-100% (need to be turned off separately)Compatibility: Not directly compatible with 1-10V (0V may be misjudged as signal loss), partially compatible with 0-10V (need to set 1V as the starting point)Why are there two standards?The birth of 0-10V: In the early days, to meet the intuitive demand of "off means 0V", the logic was simple (such as office lighting needs to be turned off with one button), but the low voltage segment (0-1V) is susceptible to electromagnetic interference (such as cable noise), causing the lamps to flicker in dim light.Improvement of 1-10V: To solve the problem of low-brightness interference, the minimum signal is increased to 1V, avoiding noise-sensitive areas, and ensuring stable output of dim light (such as emergency lighting always on 10%), but the cost is the loss of the natural function of "0V off", and additional shutdown logic needs to be designed (such as adding relays or digital switches).Applicable scenarios0-10V dimming: suitable for scenarios that need to be completely turned off, such as:Office and conference room lighting (lights need to be completely turned off after getting off work);Home lighting (no dimming requirements at night).1-10V dimming: suitable for scenarios that require continuous minimum brightness, such as:Emergency lighting (dim light indication needs to be maintained during power outages);Industrial equipment indicator lights (need to operate at low brightness for 24 hours);Museum track lights: Some use 1-10V (to avoid completely shutting down and causing light and dark impact on exhibits), and some use 0-10V with an automatic sensing function to realize the function of turning on the lights when people come and turning off the lights when people leave.Notes on practical applicationsCompatibility issues:0-10V controller connected to 1-10V lamp: the lamp may not be turned off at 0V (still maintaining the brightness corresponding to 1V), and an additional switch is required.1-10V controller connected to 0-10V lamp: the lamp may be misjudged as "not started" at 1V, resulting in abnormal brightness.Wiring requirements: Both require shielded wires to reduce interference, and 1-10V is more sensitive to cable resistance (avoid 1V signal being pulled below the threshold).Shutdown logic design: A 1-10V system needs to clearly define the "shutdown signal" (such as an independent live wire switch) to avoid false operation due to voltage signal dependence.ConclusionWhether to choose 0-10V or 1-10V depends on whether you need the "complete shutdown" function:To shut down → choose 0-10V (intuitive but easy to interfere with low brightness);To stabilize dim light → choose 1-10V (strong anti-interference but requires additional shutdown design).
LED 0/1-10V dimming technology, as a commonly used dimming method, plays an important role in the field of LED lighting. It controls the brightness of the LED through a continuously adjustable voltage signal, achieving a smooth and delicate dimming effect. This dimming technology is not only suitable for various types of LED lamps(like Linear LED lighting, LED downlight, LED track light, etc), but also compatible with a variety of control systems to meet complex lighting needs.
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