分类: LED控制系统

带干接点信号驱动的LED调光驱动

2012年5月22日 at 上午11:16分类:LED控制系统

◆单通道恒压输出调光控制,最大驱动能力8A。
干接点驱动功能,外接复位面板即可完成LED灯带调光。适用于普通家庭使用。
◆上电无爆闪,模拟电压直流 0/ 1-10V调光、无源1-10V调光通用,可与大型控制
系统做主从结构调光。
◆高频率 PWM 驱动输出,可应用到更高场合如摄影室,LED 输出更细腻平滑、无闪
烁。
◆完美的调光曲线,现有传统 0/1-10V 调光产品!在视觉上 70%以上亮度后,再调
节后基本看不到 LED 亮度还在变化,本产品在设计上通过芯片解码模拟值,突破
调光的直线比例采集,重新定义一个调光曲线值,做到低端不抖动,高端在 95%
以上的亮度值还看到明显的变化。
◆产品设有自测试功能,在没有信号输入时,亮度以最大值输出,可以通过输入端
短路测试产品是否在工作,输入端短路亮度会渐渐暗到最低值。开路时保持最大
亮度输出。

 

 

输入电压 输出电流 输出功率 功能简述
12-24V DC 10A*1通道 120-240W 1-10V通用接口
12-48V DC 700MA*1通道 3-36W 1-10V通用接口
12-48V DC 350MA*1通道 1-12W 1-10V通用接口
12-24V DC 4A*3通道 144-300W DMX解码器(数码管)
12-24V DC 4A*3通道 144-300W RGB控制器按键开关
12-24V DC 10A*1通道 120-240W 多功能控制器(DMX拨码开关,1-10V调光器)
6-24V DC 4A*3通道 144-300W DMX解码器,基础版,拨码开关
12-24V DC 4A*3通道 144-300W 多功能控制器(DMX1602显示屏,三通道调光器)
12-24V DC 4A*3通道 144-300W RGB恒压放大器(中转器)
12-48V DC 350MA*3通道 每通道3-12W RGB恒流放大器(中转器)
12-48V DC 700MA*3通道 每通道9-36W RGB恒流放大器(中转器)

LED可控硅调光驱动器(横流,恒压),LED调光电源,TRAIC调光,LED可控硅

2011年8月26日 at 上午11:00分类:LED控制系统 | 精品推荐

产品介绍
采用LED照明实现绿色节能已成为全球的一个发展趋势。传统的白炽灯、卤素灯的调光设计大都基于TRIAC(三端双向可控硅)实现,如何利用传统家庭商业的TRIAC可控硅调光器在对白炽灯、卤素灯调光的同时,又可以调节LED照明灯的亮度呢?如何让LED灯直接取代那些配有TRIAC调光器的白炽灯或卤素灯呢?这是推广新型LED节能照明的一个瓶颈! 我司最新开发的 TRIAC调光LED驱动器就针对解决这一问题。

TRIAC调光LED驱动器在保留原有可控硅调光器和不改变线路的情况下,由传统照明系统快速低成本地升级到LED照明系统。TRIAC调光LED驱动器适合全球范围的各种TRIAC(三端双向可控硅)墙壁式调光器的LED照明应用,而且能够提供宽范围的、稳定的亮度调整,并不会产生闪烁。

产品特点
1,适合全球各种TRAIC可控硅调光器的配套使用。

2,无频闪、调光曲线柔和、宽调光范围的调光性能。
●调光精度可达3-100%
●调光过程呈线性变化、柔和、平稳无频闪和抖动

3,高效节能绿色可靠设计方案。
●效率115V时≥85%、230V时>=87%
●功率因数(PF)大于0.9
●隔离模式设计

4,高可靠的多重保护及安全特性。
●输出短路保护、开路保护、过载、过温保护
●低电压、过电压保护,自动重启功能

5,当不使用可控硅调光器时,可做纯电源使用。

单路可控硅LED调光器

2010年12月14日 at 下午5:52分类:LED控制系统 | 精品推荐

产品特性:
模拟调光方式,AC85V-AC220V调光信号输入(可控硅输出)
单通道输出,最大驱动10A
调光曲线平滑,灯光无闪烁现象
调光0%~100%输出。

产品规格:
电源输入:DC12-24V
DC电源输入:DC24V(240W),DC12V(120W)
外观尺寸:165*39*26mm
重量:155克

LED系统用的OPTOTRONIC电子控制器–为各式各样的应用场合提供了解决方案

2010年7月26日 at 上午12:16分类:LED控制系统

LED系统用的OPTOTRONIC电子控制器–为各式各样的应用场合提供了解决方案


完整的系统

欧司朗的OPTOTRONICLED调光器的恒定电压应用(10伏和24伏)使LED系统完整. 除了LED模块和OPTOTRONIC转换器,还有各种OT调光器可用.调光器OPTOTRONIC 应用在电源的另一方面.

这意味着它们连接在OPTOTRONIC 恒定电压和LED模块之间。
OT DIM调光器

  • 1通道1 … 10 V的舒适的LED调光系统
  • 由10伏或24伏OPTOTRONIC 单位组成
  • 用PWM(脉宽调制)来为LED模块调光.
  • 初始端与次极端之间的绝缘按 SELV 要求,输入控制端是隔离的,从而保证整个系统的安全性

OT RGB DIM红绿,蓝三原色调光控制器

  • 3-通道1…10 V 控制器,用于调节LED模块中三种颜色的亮度.
  • 适用于10V和24V LED照明系统.
  • 用PWM(脉宽调制)来为LED模块调光.
  • 输出终端使用普通+作为电极。

OT RGB Sequencer红绿,蓝三原色音序器

  • 用于RGB三色LED模块的动态颜色变化
  • 通过3 × 1 … 10 V控制的输入,该序列的速度,亮度和8个预编程序列可以选择来控制。如需要,可设置一种特定的颜色的持久性.
  • 适用于10V和24V LED照明系统
  • 用PWM(脉宽调制)来为LED模块调光.
  • 输出终端使用普通+作为电极.

OT DMX RGB DIM和 OT DMX 3 x1 RGB DIM

  • 3-通道DMX控制器,用于单独调节LED模块中三种颜色.
  • 适用于10V和24V LED照明系统
  • 用PWM(脉宽调制)来为LED模块调光
  • 3个独立的DMX调光回路,可控制单颜色.
  • 采用编码开关寻址
  • 输出终端使用普通+作为电极.

OPTOTRONIC LED 调光控制器的特点

  • 5种类型,涵盖了广大范围的应用领域
  • 标准激励源,并且也可通过 1…10 V接口连接分压器和数字信号以达到控制的目的.
  • 通过DMX接口,采用旋转开关或双列直插式组装编码.
  • 1通道控制器,多个LED模块可并联在两端.
  • 能量损耗小.
  • 可在环境温度 -20 °C 到 +50 °C条件下运行.
  • 可用于细长的轮廓较浅的照明场合,通过电缆夹具单独安装
  • 控制器适用于10V和24V LED照明系统,因此普遍适用.

Simple LED dimmer circuits

2009年11月26日 at 下午10:46分类:LED控制系统

The circuits on this page are designed to very simple, built with minumum number of components.

The downside of them is that their efficiency is not good (considerable power is lost in control circuit).

Dimmer controller for 1W LED or 3x1W RGB LED

This circuit takes 0-10V control voltage input and is designed to run on 1W white LED. The + power needs to be connected to 12-15V DC power (up to 350 mA current consumption).

LED dimmer current generator

Component list:
R1 = 1.2 kohms 0.25W
R2 = open circuit (no resistor)
R3 = 33 ohms 5W
T1 = BWD93

The circuit works in such way that 0V makes LED to be off and 10V it to be completely on. Dimming works at approximate voltages between 1.3V and 9V. You should not need any heatsink for the transistor. Most of the power loss (maximum 10V * 350 mA = 3.5W) happens on the resistor.

NOTE: The circuit efficiency is not good, because for driving a 1W LED you would take more than 4W from the power source and more than 3W of it would be lost on the dimmer circuit when LED is fully on. The efficiency is around the same also at other dimmer settings (aroubnd 3/4 of the power lost on dimmer circuit). This is the price of the simplicity.

Controlling more than one LED

It is possible to use this circuit to run many LEDs in series connected in series in place of the one LED in the circuit. If you are driving more than one LED, you will need a higher control voltage power source (around 3-4V higher for every added LED) and a heatsink for the transistor.

Controlling RGB LEDs

By building three of this type circuits you can control easily RGB LED that has there 1W LEDs in it.

Adaptation for lower power supply voltage

The voltage loss one the T1 and R3 can be reduced by changing to use the following component values:

Component list:
R1 = 2.2 kohms 0.25W
R2 = 2.2 kohms 0.25W
R3 = 15 ohms 2W
T1 = BWD93

Now the voltage loss on T1 + R3 is now approximately 5V maximum. This means that you can power the whole circuit (dimmer + one LED) with 8V or higher power supply voltage. Please note that if you use original 12V power supply, you will need a heatsink for T1.

Adaptation for 0-5V control voltage

 

Component list:
R1 = 1.2 kohms 0.25W
R2 = open circuit (no resistor)
R3 = 15 ohms 2W
T1 = BWD93

Remeber to put heatsink for T1.

Warning: Higher than 5V control voltage fed to the input of this 0-5V circuit can cause too much current to flow to to LED, which can destroy the LED. If you have risk for that, you can put a 5.1V zener diode in place of R2 to make sure that the control voltage that goes to T1 base will never get considerable higher than 5V.

NOTE: This 0-5V circuit should be suitable to be used as LED driver for PWM controlled application. You should be able to put PWM signal (0V or 5V) to the control voltage input and control the LED brightness with the pulse width.

Dimmer for 1W LEDs driven with constant current source

This circuit is designed to be wired in parallel with a 1W LED powered with constant current power source. The idea is that when you want to dim a LED, this circuit will take some part of current that normally goes through the LED so it becomes dimmer. The constant current source will always give same current to LED + dimmer circuit, so more the dimmer circuit takes less is left for LED.

Component list:
R1 = 2.2 kohms 0.25W
R2 = 2.2 kohms 0.25W
R3 = 4.7 ohms 2W
T1 = TIP41A

NOTE1: This circuit is designed only for applications which use a real contstant current power source. If your LED driving circuit is not a real constant current source then this circuit does not work properly and you risk damaging your LED power source.

NOTE2: The circuit works in opposite to normal 0-10V dimmers. Control voltage at is 0V makes LED to be fully on. Control voltage of around 10V makes LED to be off. Dimming works at voltages between them.

This circuit can also used in application where there are many LEDs in series. You can put all the LEDs you want to dim in place of the LED in this circuit. Then add suitable heatsink for the transistor (capable of handling the power of those LEDs). It is also possible to have non-dimmed LEDs on the same LED string, just connect thise LEDs that need to be at full brightness outside of this circuit (between circuit and power- or power+). In this way you can mix both full brightness LEDs and dimmed LEDs on the same LED circuit powered by the same constant current LED power supply.