ETC SSL2108X/UBA3070

NXP LED 照明解决方案快速入门指导
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非隔离 LED 驱动器
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可调光 LED 驱动器
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大功率 LED 驱动器
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智能照明
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设计工具
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相关链接
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法律信息
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目录
快速入门指导网络版优点:
点击产品型号，进入 NXP 官网上相关的产品信息页面，可以找到数据手册和其他的设计支持文件。
进入 www.nxp.com/ledguide 获取在线选择指南。
此文档仅供参考。任何内容变更以官方英文数据手册为准。
概述
NXP 的 LED 照明方案组合包含一个很大的范围，从低功率，低价格，改造灯具到改造灯管或者更
大功率的照明工具。
这本小册子给设计者提供了一系列的设计方案。这些设计方案通过使用 www.nxp.com 上的支持工
具（包括测试板，电路图，Gerber 文件，用户手册„）来实现。册子中包含了比较全面的应用
要求，可以满足不同地区的强制要求。
NXP LED 照明驱动器可以满足：
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高效
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小的 PCB 板
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非常少的元器件数量
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系统元件价格低
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调光方案对前切和后切调光器兼容性好
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精确的 LED 电流
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高可靠性，安全性和寿命
解决方案基于下列产品：
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SSL2108X/UBA3070：非隔离型 LED 驱动器，高效，电流精确。在集成度，应用尺寸，系统
价格方面性能优越。
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SSL2101/ SSL2102/ SSL2103：和电源调光器兼容的 LED 驱动器，在设计参数上提供较大的
灵活性。
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SSL4101：应用在需要高效，高 PF，低 THD 的大功率场合。
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智能照明网络：和照明网络相关的硬件/软件方案。用户可以创建先进的照明网络，通过 IP
设备（智能手机，平板电脑和个人电脑）进行控制。
具有相同内核特征的 NXP 全系列产品用于设计所有照明光源的方案是很容易。
1
NXP 半导体
LED 照明解决方案快速入门指导
1. SSL2108X/UBA3070：非隔离型 LED 驱动器
SSL2108X/UBA3070 属于非隔离型 LED 驱动器，高效，电流精确。在集成度，应用尺寸，系统价
格方面性能优越。
1.1 100V，50-60HZ，7W，非隔离，不调光
SSL21081 是一款高集成度的开关模式 LED 驱动器芯片，标准的 SO8 封装，交流电源，恒流驱动。
它是小型 LED 改造灯具的应用解决方案。
主要特点：
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较少的器件数量：所有应用只需 14 个元器件
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线路板尺寸较小，可以满足 E17，GU10 灯型
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高效
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PWM 调光功能
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外部温度控制和保护功能
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兼容具有指示灯的墙壁开关
SSL21081 支持 buck 拓扑，可以应用于非隔离，非调光的 LED 改造灯具。支持驱动 LED 灯串，正
这种形式的 LED 组合是最高效的。
SSL2108X 系列定位于工作在高输出电压，
向压降可以达到 70V，
线路板可以应用在小外形的灯具中，比如 E17。
表 1. 线路板规格
参数
值
说明
AC 输入电压
85V-138V
线路板在 100V/60HZ 时性能最优
输出电压
>20V （DC）
-
输出电流
100mA
100V 输入，70V 输出
输出电流调整率
优于+5%
100V+10%输入，70V，100mA 输出
效率
>92%
100V+10%输入，70V，100mA 输出
功率因数
0.6
70V，100mA 输出
线路板尺寸
22X18X12
长 x 宽 x 高（mm）
2
NXP 半导体
LED 照明解决方案快速入门指导
SSL21081 测试板：在不同的 LED 负载条件下效率随输入电压的变化
SSL21081 测试板：遵照 FCC15 规范的 L 相 EMC 测试图
3
NXP 半导体
LED 照明解决方案快速入门指导
SSL21081 测试板电路图
SSL21081 实际的 PCB 板照片和布局
深度阅读：用户手册 UM10482，数据手册 SSL2108X
订单编号（12nc）：9352 959 23598
模板 ID：SSL21081DB01
4
NXP 半导体
LED 照明解决方案快速入门指导
1.2 100V 50-60HZ，10W-12W，非隔离，不可调光
SSL21082 是一款高集成度的开关模式 LED 驱动器芯片，交流供电，恒流驱动。它可以引用于小
型 LED 改造灯具，尤其适用于低功率因数设计。线路板可以应用在小外形的灯具中，比如 E26。
主要特点包括：
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较少的器件数量：所有应用只需 15 个元器件
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高效
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线路板尺寸较小，可以满足 E26 灯型
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PWM 调光功能
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外部温度控制和保护功能
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兼容具有指示灯的墙壁开关
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低电压保护
SSL21082 支持 buck 拓扑，可以应用于非隔离，非调光的 LED 改造灯具。在目前的 LED 组合中，
SSL21082 倾向于驱动需要较高输出电压的 LED 灯串。支持 PWM 调光，和具有指示灯的墙壁开关
兼容。除此之外，还具有外部温度保护功能防止线路板和 LED 灯珠温度过高。
表 2. 线路板规格
参数
值
说明
AC 输入电压
85V-138V
线路板在 100V/60HZ 时性能最优
输出电压
>20V （DC）
-
输出电流
100mA
100V 输入，70V 输出
输出电流变化
优于+5%
100V+10%输入，70V，125mA 输出
效率
>92%
100V+10%输入，70V，125mA 输出
功率因数
0.6
70V，125mA 输出
线路板尺寸
30X19X12
长 x 宽 x 高（mm）
5
NXP 半导体
LED 照明解决方案快速入门指导
SSL21082 测试板电路图
SSL21082 测试板：在 100，110，120VAC，50-60HZ 条件下效率随输出电压的变化
6
NXP 半导体
LED 照明解决方案快速入门指导
SSL21082 实际的 PCB 板照片和布局
深度阅读：用户手册 UM10481，数据手册 SSL2108X
订单编号（12nc）：9352 959 25598
线路板 ID：SSL21082DB01
7
NXP 半导体
LED 照明解决方案快速入门指导
1.3 230V，50HZ，7.5W-12W，非隔离，不可调光
SSL21083 和 SSL21084 是高集成度的开关模式 LED 驱动器芯片，交流供电，恒流驱动。它可以应
用于小型 LED 改造灯具，尤其适用于低功率因数设计。
主要特点包括：
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高效
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线路板尺寸较小，满足 GU10
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较少的器件数量：所有应用只需 14 个元器件
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低压保护（SSL21084）
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PWM 调光功能
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外部温度控制和保护功能
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兼容具有指示灯的墙壁开关
SSL21083 和 SSL21084 支持 buck 拓扑，可以应用于非隔离，非调光的 LED 改造灯具。典型应用
是驱动导通电压为 70V 的 LED 灯串。
SSL2108X 系列在目前的 LED 灯具组合具有更高的输出电压。
表 3. 线路板规格
参数
值
说明
AC 输入电压
170V-260V
线路板在 230V/50HZ 时性能最优
输出电压
20V-130V（DC）
-
输出电流
96mA 在 92V 输出
输出为 60-120V（+4%）
最大 LED 负载功率
12.5W
-
效率
>94%
96mA
功率因数
0.6
70V，96mA,10W 输出
>0.8
效率较低的情况下
线路板尺寸
17.5X53.5X17.5
长 x 宽 x 高（mm）
NTC 阈值
60℃
可通过 NTC 和 R3 调整
IEC61000-32
符合
Po>8.5W
IEC55015
符合
-
8
NXP 半导体
LED 照明解决方案快速入门指导
PCB 照片（正面：SSL21083；背面：SSL21084）
SSL21084 依据 EN55015 规范的 L 相 EMC 测试图
9
NXP 半导体
LED 照明解决方案快速入门指导
SSL21083 测试板：效率（左）和输出电流（右）曲线
测试板电路图（上面：SSL21083；下面：SSL21084）
深度阅读：用户手册 UM10501，数据手册 SSL2108X
订单号（12nc）：9352 959 27598
线路板 ID：SSL21083DB01
深度阅读：用户手册 UM10502，数据手册 SSL2108X
订单号（12nc）：9352 959 29598
线路板 ID：SSL21084DB01
10
NXP 半导体
LED 照明解决方案快速入门指导
2. SSL2101/ SSL2102/ SSL2103 可调光 LED 驱动器
SSL210[123]是可调光 LED 系列，兼容电源调光器，并且在设计参数上有较大的灵活性。
2.1 120V，60HZ，7.5W 隔离，可调光
这个线路板是基于 SSL2101 的 7.5W，120V 可调光 LED 驱动器。线路板具有兼容以 GU10 为基准的
LED 灯型号的尺寸。线路板采用反激式结构，提供隔离型，可调光的 LED 嵌灯解决方案。
主要特点包括：
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较宽的调光兼容性
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深度调光能力
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高功率因数
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小尺寸，满足 GU10
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成本优势
线路板具有两种不同的版本，分别应用于 5 个 LED 和 7 个 LED 输出功率为 7.5W 的负载。线路板
工作在 45KHZ，输出电流可以在 470mA（5 个 LED 负载）和 340mA（7 个 LED 负载）之间调整，效
率在 73%左右。两种版本都满足 EMC 标准。
表 4. 线路板规格
参数
值
说明
AC 输入电压
108V-132V
额定输入 120V，60HZ
输出电压
16V
5 个 LED 组成的灯串负载
7 个 LED 组成的灯串负载
22V
输出电流
455mA
5-LED；+3.5%
330mA
7-LED；+3.5%
效率
73%
-
功率因数
0.93
5 个 LED 组成的灯串负载
7 个 LED 组成的灯串负载
0.945
输出电流纹波
输出电流调整率
30%
5 个 LED 组成的灯串负载
22%
7 个 LED 组成的灯串负载
好于+5%
偏离额定电压+10%
11
NXP 半导体
LED 照明解决方案快速入门指导
SSL2101 测试板尺寸和照片
表 5. 调光兼容性
厂商
型号
LUTRON
S-600,S600P,S-600-H,TG-600PH,DVW-600PH,DVW-603GH,DVM-600PH,DV-603PG,DV-600P,
DV BETA BUILD,CTCL-153PDH,GL-600PH,CREDENZA S31
LEVITON
6631,6602,6602-1,RP106
SSL2101 测试板：功率因数随输入电压的变化规律
12
NXP 半导体
LED 照明解决方案快速入门指导
SSL2101 测试板电路图
深度阅读：用户手册 UM10479，数据手册 SSL2101
订单号：9352 962 53598
线路板 ID：SSL2101DB05
13
NXP 半导体
LED 照明解决方案快速入门指导
2.2 120V，60HZ，7W，非隔离，可调光
这个线路板是基于 SSL2101 的 7W 120V 的可控硅调光 LED 驱动器。线路板具有兼容以 GU10 为基
准的灯具的尺寸。在可调光的嵌灯里头用 buck 结构简单，高效，可以不使用隔离。
主要特点包括：
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深度调光能力
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较广的调光兼容性
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高功率因数
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小尺寸，满足 GU10
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成本优势
线路板驱动 5 个 LED 负载，输出功率接近 7W。典型的工作频率为 54KHZ，在效率>73%的情况下参
考板可以产生稳定的 440mA 输出电流。线路板完全满足 EMC 标准。
表 6. 线路板规格
参数
值
说明
AC 输入电压
108V-132V
额定输入 120V，60HZ
输出电压
16V，440mA
5 个 LED 组成的灯串负载
输出电流纹波
11.4%
-
输出电流调整率
+11.8%；-10%
偏离额定电压+10%
效率
>73%
-
功率因数
0.924
-
表 7. 调光兼容性
厂商
型号
LUTRON
S-600,S600P,S-600-H,TG-600PH,DVW-600PH,DVW-603GH,DVM-600PH,DV-603PG,DV-600P,
DV BETA BUILD,CTCL-153PDH,GL-600PH,CREDENZA S31
LEVITON
6631,6602,6602-1,RP106
14
NXP 半导体
LED 照明解决方案快速入门指导
SSL2101 测试板：效率随输入电压的变化规律
SSL2101 测试板：功率因数随输入电压的变化规律
15
NXP 半导体
LED 照明解决方案快速入门指导
SSL2101 测试板电路图
SSL2101 测试板：PCB 尺寸和照片
深度阅读：用户手册 UM10485，数据手册 SSL2101
订单号：9352 962 54598
线路板 ID：SSL2101DB06
16
NXP 半导体
LED 照明解决方案快速入门指导
2.3 230V，50HZ，12W，非隔离，可调光
使用 SSL2103 完成了一个临界导通模式的 BUCK 变换器，可以同时进行前切和后切调光。这个可
以用来演示 SSL2103 的高性能和高效率。在 230V 输入的条件下，线路板产生固定的 400mA 的电
流来驱动 10 个 LED 灯珠，效率可以达到 85%。
主要特点包括：
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BUCK 变换器工作在临界模式

有源阻尼和浪涌抑制电路

前后切调光器调光

内置短路保护

满足 E27 灯具

表 7. 主板规格
参数
值
说明
交流输入
200V 到 260V
230V（+10%）性能最优
输出电压
31V
10 个 LED 组成的灯串
过压保护
36V
-
输出电流
400mA
在额定输入电压的情况下
输出功率
12.5W
10 个 LED 组成的灯串
效率
>85%
在额定输入电压的情况下
功率因数
>0.8
在额定输入电压的情况下
负载电流精确度
好于 10%
在 T=25℃，输入电压为 230V+10%
调光范围
100%到 10%
前切调光
线路板尺寸
63X32X18
长 X 宽 X 高（mm）
SSL2103 测试板照片
17
NXP 半导体
LED 照明解决方案快速入门指导
SSL2103 测试板：效率随输入电压的变化规律
SSL2103 测试板：调光曲线：输出电流随输入电压的变化
18
NXP 半导体
LED 照明解决方案快速入门指导
SSL2103 测试板电路图
SSL2103 测试板：传导干扰测试：交流输入 230V，50HZ（EN55015）
19
NXP 半导体
LED 照明解决方案快速入门指导
表 9. 测试过的前切调光器
厂商
型号
Berker
2819
Berker
2873
Bush-Jaeger
2250U
Bush-Jaeger
2200U
Ehmann
T10
Gira
0300
Gira
1184
Opus
852.390x
表 10. 测试过的后切调光器
厂商
型号
Jung
243EX
Jung
225TDE
Berker
2874
Berker
286710
Bush-Jaeger
6513U
Gira
0307
PEHA
433HAB
Legrand
784.06
深度阅读：用户手册 UM10474，数据手册 SSL2103
订单号（12nc）：9352 956 58598
线路板 ID：SSL2103DB04
20
NXP 半导体
LED 照明解决方案快速入门指导
3. SSL4101 大功率 LED 驱动器
SSL4101 专为大功率的应用场合设计，具有高效，高功率因数，低 THD 值的特点。
3.1 通用电源，150W，高效，4 通道 LED 驱动器
该测试板具有较高的灵活性和较优越的性能，结合了 SSL4101 AC 到 DC SSL 驱动器，TEA1761 同
步整流器，UBA3070 DC-DC Buck 变换器。整个线路板的效率达到 92%，整个方案满足所有的安全
和 EMI 标准。主要应用在路灯，停车场照明，工业深照明和低湾照明，以及商业照明。
主要特点包括：

4 个通道的电流输出，在 36V（DC）每个通道 1A

高效>90%

高功率因数>0.90

通用电源：输入 108V-305V（AC）

低电流谐波失真度<10%（全载的情况）

4 个 PWM 调光控制

小尺寸

较少的元器件
21
NXP 半导体
LED 照明解决方案快速入门指导
SSL4101DB01 AC-DC 变换器的效率随直流输出功率的变化规律；
（1）277V；
（2）230V；
（3）120V
SSL4101DB01 DC-DC 变换器的效率随 LED 数目的变化规律
22
NXP 半导体
LED 照明解决方案快速入门指导
PFC+FB 控制器 SSL4101 和同步整流器 TEA1761 的电路图
基于 UBA3070 的 4 个 DC-DC Buck 变换器，其中之一的电路
23
NXP 半导体
LED 照明解决方案快速入门指导
SSL4101DB01 输入电流的谐波失真度随 DC 输出功率的变化规律
150W 基于 SSL4101 和 UBA3070 的 4 通道高效 LED 驱动器
深度阅读：用户手册 UM10469，UM10478，数据手册 SSL4101，UBA3070
订单号（12nc）：9352 954 98598
线路板 ID：SSL4101DB02
24
NXP 半导体
LED 照明解决方案快速入门指导
4. 智能照明
我们完整的软硬件解决方案允许 IP 连接，每个灯泡都有它自己的 IP 地址，这样你就可以创建先
进的照明系统，通过诸如智能手机，平板电脑，个人电脑来进行控制。
4.1 120V，15W 智能 LED 照明设计参考
基于 SSL21081,15W 可调光 LED 驱动器
主要参数包括：

精确的恒流源

PWM 调光

Buck 模式，效率>95%

NTC 温度反馈

没有 LED 导通电压要求

少量的元器件和小尺寸

多重保护

SO8 封装
RF 线路板上的主要特点包括：

符合 2.4GHZ IEEE802.15.4

低工作功率：15/17.5 mA Tx/Rx

低待机电流：带有 IO 唤醒功能的深度睡眠 0.1uA，定时器工作 0.5uA

98dB 的链路预算

128 位 AES 加密安全处理器

多种多样的 MAC 加速功能

高性能 32 位，32MHZ RISC CPU

128KB ROM,32/128KB RAM

大量的外围设备，包括 I2C,SPI,UART,ADC,DAC,PWM,TIMERS,GPIO

片上温度传感器

QFN40/56 封装
其余信息可以根据需要获取。
25
NXP 半导体
LED 照明解决方案快速入门指导
NXP 智能照明解决平台
15W 的智能照明参考设计图
26
NXP 半导体
LED 照明解决方案快速入门指导
上：LED 驱动器 SSL21081；下：无线模块 DR1166
27
NXP 半导体
LED 照明解决方案快速入门指导
5. 设计工具
5.1 LED 驱动器设计工具
我们最新的 SSL 设计工具主要针对于 2W-25W 的 LED 驱动器。应用包括：

SSL 改造型灯具（例如 GU10，E27）

LED 模块，区别于开关电源，例如 LED 电光源，大堂射灯

LED 灯串，例如零售展示

LED 镇流器

轮廓照明

通道信照明

其他的照明应用
工具可以形成电路图，材料和变压器参数清单，计算设计的效率，并且提供所有的损耗。所以，
为了更好理解设计，你可以在线或者下载电路图和仿真器进行仿真。
从今天开始：http://www.nxp.com/design-portal/ssl
28
NXP 半导体
LED 照明解决方案快速入门指导
6. 相关链接
6.1 相关应用手册
AN10829：SSL2101 可调光高效反激式设计
AN10754：SSL2101 和 SSL2102 可调光 LED 驱动器
AN10831：SSL2102 30W 反激式前切可调光 LED 驱动器
AN10952：SSL2103 灵活的，电源调光 LED 驱动器
AN11041：SSL 应用的 SSL2108X 驱动器
AN11054：III+绿色芯片 SSL4101 集成 PFC 和反激控制器
AN10894：UBA3070 开关模式的 LED 驱动器的应用范畴
AN10912：SMPS EMC 和布线指导
AN10937：可调光的 LED 灯
AN10876：SSL 应用的 BUCK 型变换器
6.2 用户手册
UM10474：SSL2103 230V 12W E27 改造型 LED 驱动器测试板
UM10485：基于 SSL2101 的 120V 7W GU10 BUCK 型 LED 驱动测试板
UM10479：SSL2101 120V 7.5W GU10 反激式测试板
UM10481：SSL21082 测试板
UM10482：SSL21081 LED 驱动器测试板
UM10469：基于 SSL4101 48V/150W 的测试板
UM10478：高效的 UBA3070 四通道 DC-DC LED 驱动器测试板
UM10501：SSL21083 测试板用户手册
UM10502：SSL21084 测试板
6.3 文献
智能照明报告
6.4 在线工具
LED 设计工具 http://www.nxp.com/design-portal/ssl
SSL2108X BUCK 设计工具：需申请
29
NXP 半导体
LED 照明解决方案快速入门指导
7. 法律信息
7.1 免责声明
有条件的保修和责任——本文档中的信息是准确和可靠的。但是恩智浦半导体公司不会对此信息的准确性或完整性给出任何明
示或暗示的陈述或担保，而且对于使用此信息的后果也不承担任何责任。
在任何间接、偶然发生、恶劣、特殊或者从属损害（包括—未采取限制措施—丧失利润、丧失储蓄、破产、移除或者替代任何
产品的成本或者再次加工的费用），不论这些损害是在民事侵权（包括失职）
、担保、违约或者其他法律规定基础上发生的。
尽管，客户所遭受的一些损害无论存在什么原因，NXP 半导体都会统计和整理，客户如认为手册中所描述的产品信息有限，可以
依照 NXP 半导体商业销售的条款和规定。
修改的权力——恩智浦半导体公司有权在任何时候对本资料中出版的信息进行更改，包括但不限于技术规格和产品描述，随时
都可能并且不会另行通知。本资料取代和替换在此出版之间提供的所有信息。
适用性——恩智浦半导体公司的产品没有设计、授权或担保能适用于生命支持、生命危险或安全危险的系统或设备，或者是在
合理地预计到恩智浦半导体公司产品的故障或功能失常能导致人员伤害、死亡或严重财产或环境损坏之场合的应用。对于恩智
浦半导体公司产品在此类设备或应用中的包含和/或使用，恩智浦半导体公司不承担任何责任；因此，此类包含和/或使用应该
由客户独自承担风险。
应用——此处对任何产品的应用的描述只是为了举例。恩智浦半导体公司不会做出任何表示和担保，在更多的测试和修改前，
该应用能用于规范使用。
客户要对设计和运行他们的产品（使用恩智浦半导体公司的产品）负责，并且恩智浦半导体公司可以对任何应用和客户设计提
供无责任的援助。对于客户和第三方客户的设计和使用，决定恩智浦半导体产品是否适用是客户的首要责任。客户应该提供合
适的设计和运行安全保障，以保证产品的风险降至最低。
由于客户或第三方客户自身的不慎或违规操作而导致的失灵、损坏、费用、问题，恩智浦半导体公司概不负责。对于使用恩智
浦半导体产品的客户的产品，客户有责任作出所有必要的测试，以避免出现故障。
出口管理——此处的文件和项目描述会受到出口管理规定的制约。出口首先要获得进口国的许可。
30
NXP 半导体
LED 照明解决方案快速入门指导
7.2 商标
说明：所有参考到的品牌、产品名称、服务名称和商标均是它们各自所有人的财产。
GreenChip 是 NXP B.V.s 的注册商标。
31
NXP 半导体
LED 照明解决方案快速入门指导
目录
概述 .................................................................................................................................................. 1
1. SSL2108X/UBA3070：非隔离型 LED 驱动器 ...................................................................... 2
1.1 100V，50-60HZ，7W，非隔离，不调光 ......................................................................... 2
SSL21081 测试板：在不同的 LED 负载条件下效率随输入电压的变化规律............... 3
SSL21081 测试板：依据 FCC15 规范的 L 相 EMC 测试图 ............................................. 3
SSL21081 测试板电路图 .................................................................................................. 4
SSL21081 实际的 PCB 板照片和布线 .............................................................................. 4
1.2 100V 50-60HZ，10W-12W，非隔离，不可调光.............................................................. 5
SSL21082 测试板电路图 ................................................................................................. 6
SSL21082 测试板：在 100，110，120VAC，50-60HZ 条件下效率随输出电压的变化
规律................................................................................................................................... 6
SSL21082 实际的 PCB 板照片和布线 .............................................................................. 7
1.3 230V，50HZ，7.5W-12W，非隔离，不可调光 ............................................................... 8
PCB 照片（正面：SSL21083；背面：SSL21084）......................................................... 9
SSL21084 依据 EN55015 规范的 L 相 EMC 测试图........................................................ 9
SSL21083 测试板：效率（左）和输出电流（右）曲线............................................. 10
测试板电路图（上面：SSL21083；下面：SSL21084） .............................................. 10
2. SSL2101/ SSL2102/ SSL2103 可调光 LED 驱动器................................................................... 11
2.1 120V，60HZ，7.5W 隔离，可调光 ............................................................................... 11
SSL2101 测试板尺寸和照片 .......................................................................................... 12
SSL2101 测试板：功率因数随输入电压的变化规律................................................... 12
SSL2101 测试板电路图 .................................................................................................. 13
2.2 120V，60HZ，7W，非隔离，可调光............................................................................. 14
SSL2101 测试板：效率随输入电压的变化规律 .......................................................... 15
SSL2101 测试板：功率因数随输入电压的变化规律................................................... 15
SSL2101 测试板电路图 ................................................................................................. 16
SSL2101 测试板：PCB 尺寸和照片 ............................................................................... 16
2.3 230V，50HZ，12W，非隔离，可调光........................................................................... 17
SSL2103 测试板照片 ...................................................................................................... 17
SSL2103 测试板：效率随输入电压的变化规律 .......................................................... 18
SSL2103 测试板：调光曲线：输出电流随输入电压的变化....................................... 18
SSL2103 测试板电路图 .................................................................................................. 19
SSL2103 测试板：传导干扰测试：交流输入 230V，50HZ（EN55015） .................. 19
3. SSL4101 大功率 LED 驱动器 ................................................................................................. 21
3.1 通用电源，150W，高效，4 通道 LED 驱动器 ............................................................. 21
SSL4101DB01 AC-DC 变换器的效率随直流输出功率的变化规律；
（1）277V；
（2）230V；
（3）120V ...................................................................................................................... 22
SSL4101DB01 DC-DC 变换器的效率随 LED 数目的变化规律 ...................................... 22
PFC+FB 控制器 SSL4101 和同步整流器 TEA1761 的电路图 ........................................ 23
基于 UBA3070 的 4 个 DC-DC Buck 变换器，其中之一的电路 ................................... 23
SSL4101DB01 输入电流的谐波失真度随 DC 输出功率的变化规律 .......................... 24
150W 基于 SSL4101 和 UBA3070 的 4 通道高效 LED 驱动器 ..................................... 24
32
NXP 半导体
LED 照明解决方案快速入门指导
智能照明................................................................................................................................. 25
4.1 120V，15W 智能 LED 照明设计参考 .............................................................................. 25
NXP 智能照明解决平台 ................................................................................................. 26
15W 的智能照明参考设计图 ........................................................................................ 26
上面：LED 驱动器 SSL21081；下面：无线模块 DR1166 ............................................ 27
5. 设计工具................................................................................................................................. 28
5.1 LED 驱动器设计工具........................................................................................................ 28
6. 相关链接................................................................................................................................. 29
6.1 相关应用手册.................................................................................................................. 29
6.2 用户手册.......................................................................................................................... 29
6.3 文献 ................................................................................................................................. 29
6.4 在线工具.......................................................................................................................... 29
7. 法律信息.................................................................................................................................... 30
7.1 免责声明.......................................................................................................................... 30
7.2 商标 ................................................................................................................................. 31
4.
与本资料及其所描述产品相关的重要注意事项已经包括在“法律信息”部分。
© NXP B.V. 2011。版权所有。
有关详细信息，请访问： http://www.nxp.com
销售办事处的地址，请发电子邮件至: [email protected]
发布日期： 2012 年 1 月
文档标识符：9397 750 17223
33
NXP 半导体
LED 照明解决方案快速入门指导
LED Lighting Solutions
Quick Start Guide
With NXP Driver ICs
Non-Isolated
LED Drivers
Page 2
Mains
Dimmable
LED Drivers
Page 11
LED Lighting Solutions
Quick Start Guide
With NXP Driver ICs
High Power
LED Driver
Page 21
Smart
Lighting
Page 25
Design
Tools
Page 28
Relevant
Links
Page 29
Legal
Information
Page 30
Index
Page 32
Benefit from interactive features in the online edition of this quick start
guide : A click on a product type takes you to the corresponding product
information page on the NXP website. There you’ll find data sheets and
other design-support documents. To access the online selection guide, go
to www.nxp.com/ledguide
Introduction
NXP’s portfolio for LED lighting covers a wide range of applications, from low power,
low cost, retrofit lamps to tube retrofit or higher power luminaires.
This booklet will provide designers with solutions that can easily be implemented using
the design support material available on www.nxp.com (reference boards, schematics,
Gerber files, user manuals…). It covers a full range of typical requirements, optimized for
regional regulatory constraints.
NXP’s LED drivers for lighting allow you to design for:
}} High efficiency
}} Small PCB area
}} Very low component count
}} Low cost system BOM
}} Mains dimmable applications with high leading or trailing edge dimmer
compatibility
}} Accurate LED current
}} High reliability, safety and lifetime
The solutions are based on the following product ranges:
}} SSL2108x / UBA3070: a family of LED drivers for non-isolated applications that
feature a very high efficiency and current accuracy, with a special focus on ease
of integration, application size, and low system cost.
}} SSL2101 / SSL2102 / SSL2103: a family of LED drivers compatible with mains
dimmers, offering full flexibility on design parameters.
}} SSL4101: for higher power applications when very high efficiency, high PF, and
low THD are major targets.
}} Smart Lighting Networks: hardware/software solution for connected light
networks so you can create advanced lighting systems that are easily controlled
by IP-enabled devices like Smartphones, Tablets, and PCs.
Designing a whole luminaire range is easy using NXP’s full range of products that share
the same core characteristics.
Visit us at www.nxp.com
1
NXP SEMICONDUCTORS
LED System Solution Quick Start Guide
1.
SSL2108x / UBA3070 Non-Isolated LED Drivers
The SSL2108x and UBA3070 are a family of LED drivers for non-isolated applications
that feature a very high efficiency and current accuracy, with a special focus on ease of
integration, application size, and low system cost.
1.1 100V, 50-60 Hz, 7W, Non-Isolated, Non-Dimmable
The SSL21081 is a highly integrated switching mode LED driver which enables constant
current driving from the AC mains input in a standard SO8 package. It is a solution for
small LED retrofit lamp applications.
Key features include:
}} Low BOM count: full application with 14 components is possible
}} Small board size, fits E17, GU10
}} High efficiency
}} PWM dimming option
}} External temperature control and protection option
}} Compatible with wall switches with indication light
The SSL21081 supports buck converter topology and is suitable for non-isolated,
non-dimmable LED retrofit lamps. It can drive a long LED string, up to a 70 V forward
voltage and is most efficient with this type of LED module. The SSL2108x series is
intended to operate at high output voltages. This board can be used in applications
with small form factor lamp fittings, such as E17.
Table 1. Board Specifications
PARAMETER
VALUE
COMMENT
AC line input voltage
85 V to 138 VAC
The board is optimized for 100 V/60 Hz.
Output voltage
> 20 V (DC)
-
Output current
100 mA
at 100 VAC mains; 70 V LED
Output current dependency
better than ±5%
100 VAC ±10% at 70 V; 100 mA output
Efficiency
> 92%
100 VAC ±10% at 70 V; 100 mA output
Power factor
0.6
at 70 V; 100 mA output
Board dimension
22 x 18 x 12
Length x width x height in mm
2
NXP SEMICONDUCTORS
LED System Solution Quick Start Guide
SSL21081 Demo Board: Efficiency as a Function of Input Voltage for
Different LED Configurations
019aac535
93
η
(%)
(1)
(2)
91
(3)
89
(4)
(5)
(6)
87
65
85
105
125
Vi (V)
145
(1) 70 V; 50 Hz, (2) 70 V; 60 Hz, (3) 48 V; 50 Hz, (4) 48 V; 60 Hz, (5) 35 V; 50 Hz, (6) 35 V; 60 Hz
SSL21081 Demo Board: EMC Measurement L-Phase According to FCC15 Norm
aaa-000148
3
NXP SEMICONDUCTORS
LED System Solution Quick Start Guide
SSL21081 Board Schematic
L1
1 J3
LED+
330 µF
U2
S1ZB60
J1 1
VIN1
F1
1A
(125 V)
2
3
C1
8.2 µF
(200 V)
C2
0.22 µF
(250 V)
HV
SOURCE
4
VCC
J2 1
VIN2
C3
0.47 µF
(250 V)
D1
STTH2R06A
1
R1
NTC
10 Ω
1W
R2B
4.7 Ω
1%
R2A
4.3 Ω
1%
C6
1000 pF
C5
1 µF
(25 V)
U1
1
2
8
SSL21081
7
3
6
4
5
DRAIN
GND2
GND1
L2
1 J4
LED-
1 mH
C4
150 pF
(630 V)
DVDT
RT1
R3
1 kΩ
1% 1608
aaa-000147
Actual SSL21081 PCB Photo and Layout
aaa-000151
aaa-000150
aaa-000152
aaa-000153
Further Reading: User Manual UM10482, Datasheet SSL2108x
Order Number (12nc): 9352 959 23598
Board ID: SSL21081DB01
4
NXP SEMICONDUCTORS
LED System Solution Quick Start Guide
1.2 100 V 50-60 Hz, 10 W-12 W, Non-Isolated, Non-Dimmable
The SSL21082 is a highly integrated switching mode LED driver which enables constant
current driving from mains input. It is a solution for small LED retrofit lamp application’s,
especially for low-power factor design. This board can be used in applications with small
form factor lamp fittings, such as E26.
Key features include:
}} Low BOM count, a full application is possible with 15 components
}} High efficiency
}} Small board size, fits E26
}} PWM dimming option
}} External temperature control and protection option
}} Compatible with wall switches that have an indication light
}} Brownout protection
The SSL21082 supports buck converter topology and is suitable for non-isolated, nondimmable LED retrofit lamps. It can drive long LED strings with, for example, a 70 V
forward voltage. The SSL2108 series is intended to operate with higher output voltages,
as present in modern LED modules. It supports PWM dimming, is compatible with wall
switches that have indication lights, and has an external temperature protection option
to protect the board or the LEDs against over temperature.
Table 2. Board Specifications
PARAMETER
VALUE
COMMENT
AC line input voltage
85 V to 138 VAC
The board is optimized for 100 VAC/60 Hz.
Output voltage
> 20 V (DC)
-
Output current
100 mA
at 100 VAC mains; 70 V LED
Output current dependency
better than ±5%
100 VAC ±10% at 70 V; 125 mA output
Efficiency
> 92%
100 VAC ±10% at 70 V; 125 mA output
Power factor
0.6
at 70 V; 125 mA output
Board dimension
30 x 19 x 12
Length x width x height in mm
5
NXP SEMICONDUCTORS
LED System Solution Quick Start Guide
SSL21082 Board Schematic
L1
J3
LED+
330 µH
U1
1 S1ZB60
J1
VIN1
J2
VIN2
F1
2
3
1A
(125 V)
C1
10 µF
C2
0.22 µF
(250 V)
HV
GND
SOURCE
VCC
NTC
GND
4
R1
10 Ω
1W
R2
2.2 Ω
1%
R3
7.5 Ω
1%
C3
1 µF
(25 V)
RT1
R4
1 kΩ
1%
U2
1
C7
0.47 µF
(250 V)
D1
STTH2R06A
12
11
2
10
3
SSL21082
9
4
8
5
7
6
L2
DRAIN
0.7 mH
GND
GND
DVDT
TONMAX
GND
J4
LED-
C6
150 pF
(630 V)
C4
1000 pF
C5
n.m.
019aac539
SSL21082 Demo Board: Efficiency as a Function of Output Voltage;
for 100, 110, 120 VAC, 50-60 Hz
019aac534
100
η
(%)
(1)
80
(2)
(3)
(4)
(5)
(6)
60
40
0
40
80
Vo (V)
120
(1) 100 V; 50 Hz, (2) 100 V; 60 Hz, (3) 110 V; 50 Hz, (4) 110 V; 60 Hz, (5) 120 V; 50 Hz, (6) 120 V; 60 Hz
6
NXP SEMICONDUCTORS
LED System Solution Quick Start Guide
Actual SSL21082 PCB Photos and Layout
aaa-000045
aaa-000046
aaa-000143
aaa-000142
Further Reading: User manual UM10481, Datasheet SSL2108x
Order Number (12nc): 9352 959 25598
Board ID: SSL21082DB01
7
NXP SEMICONDUCTORS
LED System Solution Quick Start Guide
1.3 230 V, 50 Hz, 7.5 W-12 W, Non-Isolated, Non-Dimmable
The SSL21083 and SSL21084 are highly integrated switching mode LED drivers which
enable constant current driving from the mains input. It is a solution for small LED
retrofit lamp applications, especially for low-power factor design.
Key features include:
}} High efficiency
}} Small board size, fits GU10
}} Low BOM count; full application with 14 components is possible
}} Brownout protection (SSL21084)
}} PWM dimming option
}} External temperature control and protection option
}} Compatible with wall switches with indication light
The SSL21083 and SSL21084 are buck converters that are controller suitable for nonisolated, non-dimmable LED retrofit lamps. They can drive long LED strings with,
typically, 70 V forward voltages. The SSL2108x series is intended to operate with higher
output voltages, as present in modern LED modules.
Table 3. Board Specifications
PARAMETER
VALUE
COMMENT
AC line input voltage
170 V (AC) to 260 V (AC)
optimized for 230 V (AC), 50 Hz
Output voltage
20 V (DC) to 130 V (DC)
-
Output current
96 mA at 92 V LED
±4% for 60 - 120 V LED
Maximum power into LED load
12.5W
-
Efficiency
> 94%
96 mA
Power factor
0.6
> 0.8
At 10 W; 70 V; 96 mA
possible with lower efficiency
Board dimensions
17.5 x 53.5 x 17.5
Length x width x height in mm
NTC threshold
60 °C
Adjustable depending on NTC and R3
IEC61000-3-2 compliant
Yes
Po > 8.5W
IEC55015 compliant
Yes
-
8
NXP SEMICONDUCTORS
LED System Solution Quick Start Guide
PCB Photo (top: SSL21083; bottom: SSL21084)
aaa-000511
aaa-000512
aaa-000645
aaa-000646
(1) Only inner part is needed for actual lamp.
SSL21084 EMC Measurement L-Phase According to EN55015 Norm
NXP Semiconductors
15.Jun 11 15:30
dBµV
100
EN55015Q
Att 10 dB
100 kHz
RBW
9 kHz
MT
15 ms
PREAMP OFF
1 MHz
Marker 1 [T2 ]
50.97 dBµV
9.000000000 kHz
10 MHz
90
1 PK
MAXH
SGL
80
2 AV
CLRWR
TDF
70
60
1
EN55015A
50
6DB
40
30
20
10
0
9 kHz
30 MHz
aaa-000462
9
NXP SEMICONDUCTORS
LED System Solution Quick Start Guide
SSL21083 Demo Board: Efficiency (left) and Output Line Regulation (right)
η
(%)
aaa-000498
100
aaa-000497
97
lo
(mA) 96
98
95
96
94
93
94
92
92
91
90
170
190
210
230
250
Vi (V)
90
170
270
190
210
230
250
270
Vi (V)
Board Schematics (top: SSL21083; bottom: SSL21084)
J5 (1 to 3)
L1
1.5 mH
C1
100 nF
400 V
D1 1
J6-1
R1
L
22 Ω
J6-2
2
R2
13 J
300 V
C2
2.2 µF
400 V
HV
SOURCE
3
VCC
NTC
4
R5
4.3 Ω
N
D2
U1
1
2
3
8
SSL21083
4
7
6
5
L2
DRAIN
DVDT
LED+
J5 (4 to 6)
3.3 mH
GND
GND
C6
0.47 μF
250 V
LED-
C5
100 pF
630 V
R6
4.7 Ω
C3
1 µF
16 V
C4
1 nF
250 V
R4
NTC
100 Ω
R3
18 kΩ
aaa-000504
J5 (1 to 3)
L1
1.5 mH
LED+
D2
C1
100 nF
400 V
C2
2.2 µF
400 V
HV
GND
D1 1
J6-1
R1
L
22 Ω, 2 W
J6-2
2
R2
13 J
300 V
SOURCE
3
VCC
NTC
4
N
GND
R5
4.3 Ω
U1
1
12
2
11
3
4
SSL21084
10
9
5
8
6
7
C6
0.47 μF
250 V
DRAIN
GND
GND
DVDT
L2
J5 (4 to 6)
3.3 mH
LED-
C5
100 pF
630 V
TONMAX
GND
R6
4.7 Ω
C7
0603
n.m.
C3
1 µF
16 V
C4
1000 pF
R3
18 kΩ
R4
NTC
100 Ω
aaa-000464
Further Reading: User Manual UM10501, Datasheet SSL2108x
Order Number (12nc): 9352 959 27598
Board ID: SSL21083DB01
Further Reading: User Manual UM10502, Datasheet SSL2108x
Order Number (12nc): 9352 959 29598
Board ID: SSL21084DB01
10
NXP SEMICONDUCTORS
LED System Solution Quick Start Guide
2.
SSL2101 / SSL2102 / SSL2103 Mains Dimmable LED Drivers
The SSL210[123] is a family of LED drivers compatible with mains dimmers and offering
full flexibility on design parameters.
2.1 120 V, 60 Hz, 7.5W, Isolated, Dimmable
This board is a 7.5W 120 V dimmable LED driver featuring the SSL2101. The board has
a form factor that is compatible with the base of a GU10 LED lamp. The board uses a
flyback converter to provide an isolated solution for mains-dimmable LED recessed-light
applications.
Key features include:
}} Wide dimming compatibility
}} Deep dimming capability
}} High power factor
}} Small form factor, fits GU10
}} Cost-effective
The board is available in two different versions, designed to support either a 5-LED
or a 7-LED load with an output power of approximately 7.5W. The board operates at
approximately 45 kHz and produces a regulated output current of 470 mA for the 5-LED
load or 340 mA for the 7-LED load, with an efficiency of around 73%. Both versions are
fully compliant with EMC regulations.
Table 4. Board Specifications
PARAMETER
VALUE
COMMENT
AC line input voltage
108 V (AC) to 132 V (AC)
Nominal input 120 V, 60 Hz
Output voltage
16 V
22 V
5-LED string load
7-LED string load
Output current
455 mA
330 mA
5-LED; ±3.5%
7-LED; ± 3.5%
Efficiency
73%
Power factor
0.93
0.945
5-LED string load
7-LED string load
Output current ripple
30%
22%
5-LED string load
7-LED string load
Output current regulation
better than ±5%
±10% offset nominal line voltage
11
NXP SEMICONDUCTORS
LED System Solution Quick Start Guide
SSL2101 Board Dimensions and Photo
20.6 mm
18 mm
18 mm
34.1 mm
2
9.
m
m
019aac434
019aac460
Table 5. Dimmer Compatibility
MANUFACTURER
TYPES
LUTRON
S-600, S-600P, S-600-H, TG-600PH, DVW-600PH, DVW-603GH, DVM-600PH,
DV-603PG, DV-600P, DV Beta Build, CTCL-153PDH, GL-600PH, Credenza S31
LEVITON
6631, 6602, 6602-I, RPI06
SSL2101 Demo Board: Power Factor Over Input Voltage Range
019aac465
1.00
power
factor
0.95
(2)
0.90
(1)
0.85
0.80
0.75
108
114
120
126
132
input voltage (V)
(1) 5-LED (2) 7-LED
12
NXP SEMICONDUCTORS
LED System Solution Quick Start Guide
SSL2101 Board Schematic
W1
R1
68 Ω
MOV1
W2
C10
0.1 µF
250 V
C2
47 nF
250 V
BD1
R9
3.9 kΩ
D1
L1
US1G-13-F
MB2S
RGND
R2
68 Ω
Q2
MPSA92
R7
470 kΩ
680 µH
C1
0.1 µF
630 V
isolation
R18
330 Ω
D2
US1G-13-F
pri
2.4 kΩ
RGND
2.7 kΩ
R4
4.7 kΩ
SBLEED
R5
110 kΩ
VCC
C7
10 µF
16 V
C3
100 pF
C13
0.22 µF
630 V
R6
R3
R8
14.3 kΩ
C4
0.1 µF
630 V
GND
VCC
GND
GND
GND
BRIGHTNESS
R11
R10
470 kΩ
16.2 kΩ
RC2
RC
SSL2101
T1
7
1
6
2
aux
D5
3A
100 V
4 sec
10
DRAIN
WBLEED
GND
R25
330 Ω
U1
8
9
LED+
C5
1000 μF
25 V
C11
1000 μF
25 V
LED-
R19
5
0.3 Ω
C12
22 nF
2 kV
R12
SOURCE
R13
33 kΩ
0.68 Ω
AUX
ISENSE
GND 2
R14
10 Ω
R20
10 kΩ
VCC
PWMLIMIT
C8
R15
R16
18.7 kΩ
20 kΩ
C9
330 pF
180 pF
RGND
D6
BAV103
D3
BZV55-B20
R21
16.5 kΩ
R22
22 kΩ
R23
20 kΩ
D7
BZV55-B15
Q1
BCM847
R17
C6
10 Ω
4.7 µF
25 V
IN4148
4
1
D4
U2
LTV817
3
R24
330 Ω
2
GND 2
GND 2
019aac453
Further Reading: User Manual UM10479, Datasheet SSL2101
Order Number (12nc): 9352 962 53598
Board ID: SSL2101DB05
13
NXP SEMICONDUCTORS
LED System Solution Quick Start Guide
2.2 120 V, 60 Hz, 7W, Non-Isolated, Dimmable
This board is a 7W 120 VAC triac dimmable LED driver featuring SSL2101. The board has
a form factor that is compatible with the base of a GU10 LED lamp. The buck converter
topology provides a simple and efficient solution for mains-dimmable LED recessed
light applications not requiring galvanic isolation.
Key features include:
}} Deep dimming capability
}} Wide dimmer compatibility
}} High power factor
}} Small form factor, fits GU10
}} Cost-effectiveness
The board is designed to drive a 5-LED load, delivering an output power of
approximately 7W. The typical operating frequency is 54 kHz, and the reference board
produces a steady output current of 440 mA at an efficiency > 73%. The board is fully
compliant with EMC regulations.
Table 6. Board Specifications
PARAMETER
VALUE
COMMENT
AC mains supply voltage
108 V (AC) to 132 V (AC)
nominal line input 120 V (AC), 60 Hz
Output
16 V; 440 mA
load: 5-LED string
Output current ripple
11.4%
-
Output current regulation
+11.8%; -10%
±10% offset nominal line voltage
Efficiency
>73%
-
Power Factor
0.924
-
Table 7. Dimmer Compatibility
MANUFACTURER
TYPES
LUTRON
S-600, S-600P, S-600-H, TG-600PH, DVW-600PH, DVW-603GH, DVM-600PH,
DV-603PG, DV-600P, DV Beta Build, CTCL-153PDH, GL-600PH, Credenza S31
LEVITON
6631, 6602, 6602-I, RPI06
14
NXP SEMICONDUCTORS
LED System Solution Quick Start Guide
SSL2101 Demo Board: Efficiency as a Function of AC Mains Input Voltage
019aac584
80
η
(%)
70
60
50
108
114
120
126
Vi (V)
132
SSL2101 Demo Board: Power Factor as a Function of AC Mains Input Voltage
019aac586
1.00
PF
0.95
0.90
0.85
0.80
0.75
108
114
120
126
Vi (V)
132
15
NXP SEMICONDUCTORS
LED System Solution Quick Start Guide
SSL2101 Board Schematic
W1
R1
68 Ω
MOV1
BD1
C10
0.22 µF
B6S-G
W2
D1
L2
1 mH
US1G-13-F
C2
10 µF
C1
0.1 µF
RGND
R2
D4
BAV103
C4
0.1 µF
D3
68 Ω
D5
MURS120
C5
470 µF
BAV103
Q2
MPSA92
D2
BAV103
R6
C3
10 µF
2
2.4 kΩ
RGND
R3
SBLEED
2.7 kΩ
R4
R5
4.7 kΩ
R7
150 kΩ
110 kΩ
VCC
U1
WBLEED
GND
VCC
GND
GND
GND
D8
BZV55B75
R8
14 kΩ
BRIGHTNESS
C7
4.7 µF
R11
R10
100 kΩ
7.5 kΩ
3
RC2
RC
T1
5
R13
GND
SSL2101
6
DRAIN
100 kΩ
R12
SOURCE
0.56 Ω
AUX
R14
10 Ω
ISENSE
VCC
R15
R16
18.7 kΩ
20 kΩ
C9
PWMLIMIT
C8
D6
BAV103
330 pF
D7
BZV55C15
180 pF
RGND
R17
C6
10 Ω
4.7 µF
019aac663
SSL2101 Demo Board: PCB Dimensions and Photo
15.3 mm
18 mm
18 mm
32.5 mm
2
9.
m
m
019aac591
Further Reading: User Manual UM10485, Datasheet SSL2101
Order Number (12nc): 9352 962 54598
Board ID: SSL2101DB06
16
NXP SEMICONDUCTORS
LED System Solution Quick Start Guide
2.3 230 V, 50 Hz, 12 W, Non-Isolated, Dimmable
This circuit implements a Boundary Conduction Mode (BCM) buck converter using the
SSL2103. It is mains-dimmable for both leading edge (triac) and trailing edge (transistor)
dimmers. It is designed for demonstrating high performance and high efficiency. It
produces a 400 mA regulated output current to drive 10 LEDs at a 230 V (AC) input.
Efficiencies of up to 85% can be achieved.
Key features include:
}} Buck converter operating in Boundary Conduction Mode (BCM)
}} Active damper and inrush current limiter
}} Mains-dimmable with leading and trailing edge dimmers
}} Intrinsically protected against short circuit
}} Fits E27
Table 8. Board Specifications
PARAMETER
VALUE
COMMENT
AC input voltage
200 V (AC) to 260 V (AC)
optimized for 230 V (AC) with 10% variation
Output voltage
31 V (DC)
10 LEDs connected
Output voltage protection
36 V (DC)
-
Output current
400 mA
At nominal input voltage
Output power
12.5 W
10 LEDs connected
Efficiency
> 85%
At nominal input voltage
Power factor
> 0.8
at nominal input voltage
Load current accuracy
better than 10%
at Tamb = 25 °C; Vi = 230 V (AC), ±10%
Dimming range
100% to10%
For triac dimmer
Board dimensions
63x 32 x 18
Length x width x height in mm
SSL2103 Demo Board Photo
019aac543
17
NXP SEMICONDUCTORS
LED System Solution Quick Start Guide
SSL2103 Demo Board: Efficiency as a Function of Input Voltage
019aac551
95
η
(%)
91
87
83
79
75
190
210
230
250
Vi (RMS)
270
SSL2103 Demo Board: Dimming Curve : Output current as a Function of Input Voltage
019aac549
500
Io
(mA)
400
300
200
100
0
110
150
190
230
Vi (RMS)
270
18
NXP SEMICONDUCTORS
LED System Solution Quick Start Guide
SSL2103 Board Schematic
TP1
line
F1
1A
C4
220 nF
(310 V)
D5
MBS6
C6
470 pF
TP3
neutral
Vrect
R15
2.2 kΩ
2W
L2
D7
R33
82 kΩ
TP4
LED+
ELC10D182E
RS1J
R32
82 kΩ
D12
D10
SMAJ400A
300 kΩ
BAV21WS-V
Q1
MMBT2222A
D11
BZX84-C15
C17
1 nF
RGND
C2
150 nF
(300 V)
R30
C18
100 nF
3
2
1
C20
47 nF
R10
R6
120 Ω
2W
R18
2
4
2
R5
R19
43 kΩ
1
3.9 kΩ
C19
1.5 nF
3
R11
100 Ω
A
3
SB_DRV
1
4
WB_DRV
R26
C12
C7
10 nF
RC
220 kΩ
R29
6.8 kΩ
330 pF
RC2
BRIGHTNESS
PWMLIMIT
C9
1 nF
R20
22 kΩ
100 Ω
ISENSE
D3
1 kΩ
D6
BZX384-C4V7
R7
2
R23
56 kΩ
D1
R1
100 nF
BAV21WS-V
100 Ω
U1
1
Vrect
Vrect
D9
R27
180 kΩ
BZD27C 150P
200 kΩ
9.1 kΩ
R28
13 kΩ
C13
4.7 µF
(25 V)
VCC
3
2
9
7
12
11
5
8
R24
14
13
6
R25
R22
5
C14
100 nF
BAS28
R16
TP2
LED-
1
CSV-RM6S_1S-6P-G
VCC
A
C15
R14
L1
3
120 Ω
2W
2
R35
10 kΩ
10 Ω
R4
560 Ω
1W
4
D8
BZG03C36
C10
1000 µF
(35 V)
D4
ES2G
T3
BSP298
1
3
R3
560 Ω
1W
PBHV8140Z
C3
100 nF
(310 V)
R31
1 kΩ
2.2 Ω
Vrect
C5
100 nF
(310 V)
4
10
GND
HVDET
DRAIN
PWR_DRV
VCC
C1
47 µF
(25 V)
D2
BZX384-C24
R21
10 Ω
AUX
R9
10 Ω
T2
R17
2
1
IPD60R385CP
10 Ω
SOURCE
3
AUX
R2
47 kΩ
R13
1.5 Ω
R8
1.2 Ω
R12
1.2 Ω
C8
100 pF
AUX
1 kΩ
C16
1 nF
C11
1 nF
019aac546
SSL2103 Demo Board: Conducted Emissions for Line: AC Input = 230 V at 50 Hz
(EN55015)
019aac556
19
NXP SEMICONDUCTORS
LED System Solution Quick Start Guide
Table 9. Tested TRIAC Dimmers
MANUFACTURER
TYPE
Berker
2819
Berker
2873
Bush-Jaeger
2250U
Bush-Jaeger
2200U
Ehmann
T10
Gira
0300
Gira
1184
Opus
852.390x
Table 10. Tested Transistor Dimmers
MANUFACTURER
TYPE
Jung
243 EX
Jung
225 TDE
Berker
2874
Berker
286710
Bush-Jaeger
6513U
Gira
0307
PEHA
433 HAB
Legrand
784.06
Further Reading: User Manual UM10474, Datasheet SSL2103
Order Number (12nc): 9352 956 58598
Board ID: SSL2103DB04
20
NXP SEMICONDUCTORS
LED System Solution Quick Start Guide
3.
SSL4101 High Power LED Driver
The SSL4101 is intended for higher power applications when very high efficiency, high
PF, and low THD are major targets.
3.1 Universal Mains, 150W, High Efficiency, 4-Channel LED Driver
This board combines the SSL4101 AC-to-DC SSL driver, the TEA1761 synchronous
rectifier, and UBA3070 DC-to-DC buck controller IC for maximum flexibility and
performance. The overall efficiency for the unit from AC input to 4-channel DC output
is 92%. The complete solution meets all safety and EMI regulations. Typical applications
include street lighting, parking garage and area lighting, industrial high-bay and low-bay
lighting and commercial interior lighting.
Key features include:
}} 4-channel current output, 1A per channel @ 36 V (DC)
}} Highly efficient > 90%
}} High power factor > 0.90
}} Universal mains: input 108-305 V (AC)
}} Low input current total harmonic distortion (THD) < 10% (at full load)
}} 4 x PWM dimming input control
}} Small form factor
}} Low BOM count.
21
NXP SEMICONDUCTORS
LED System Solution Quick Start Guide
SSL4101DB01 Efficiency (η)
AC-DC converter as a function of DC output power (Po); (1) 277V; (2) 230V; (3) 120V
019aac392
97
η
(%)
(1)
95
(2)
93
(3)
91
89
0
50
100
DC load (W)
150
SSL4101DB01 Efficiency (η)
DC-DC convert as function of number of LEDs
019aac489
100
η
(%)
90
80
70
60
50
40
30
20
10
1
3
5
7
9
11
13
number of LEDs
22
NXP SEMICONDUCTORS
LED System Solution Quick Start Guide
Schematic of the PFC+FB Controller SSL4101 together with the Synchronous Rectifier TEA1761
1.5 Arms
R3
1 MΩ
1 % HV
C4
100 nF
X2
E3
C2
4.7 nF
Y2
E1
2
L3
68 μH
D1
GBU806
696 μH
R2
1 MΩ
1 % HV
L4
C6
470 nF
X2
68 μH
108-305 V (AC)
C5
(1)
(1)
E2
D6
C12
10 nF
(2)
10 Ω (0.25 W)
R21
5.1 kΩ
R16
2Ω
(0.25 W)
R17
1 kΩ
R12
0.091 Ω
1 % (1 W)
C14
470 pF
R18
2Ω
(0.25 W)
(2)
R19
R14
1 kΩ
15 kΩ
n.c.
n.c.
13
14
15
1 kΩ
BAS21J
R9
220 Ω
U3
8
1
R45
0Ω
C22
100 nF
(2)
R23
61.9 kΩ
(2)
R25
33 kΩ
C18
2.2 μF
(10 V)
R30
66.5 kΩ 1%
C19
470 nF
(16 V)
(2)
(2)
C21
10 nF
(2)
(2)
(2)
3
(2)
(2)
C35
R37
VCC
93.1 kΩ
1%
U2
HCPL-817-W6CE
C25
330 nF
(16 V)
C24
10 nF
5
+19 V (DC)
C33
R44
1 nF 10 kΩ
10 nF 10 kΩ
R39
1
R28
39 kΩ
R27
NTC
100 kΩ
6
C32
100 nF
R41
220 Ω
19 V (DC)
4
R26
10 kΩ
C20
150 nF
(16 V)
7
C34
R29
4
R36
287 kΩ
1%
3
PMBD914
287 kΩ 1%
3
+48 V (DC)
R46
100 kΩ
D11
(2)
R47
2Ω
(0.25 W)
TEA1761
VCC
2
GND
FBCTRL
FBAUX
LATCH
PFCCMP
3
(2)
flyback power loop
Aux. supply power loops
4
D10
PMBD914
PFC unductor discharge loop
output power loop
VINSNS
PFCAUX
R24
1 MΩ
1%
PFC unductor charge loop
5
2
C11
220 pF
(100 V)
+19 V (DC)
6
(3)
1
E5
Q4
PBSS4032NT
D15
PMEG2005ET
D8
C23
33 μF
(35 V)
(1)
R35
4.99 kΩ
1%
R34
2Ω
(0.25 W)
R20
C17
7
C31
68 nF
X2
E4
Q2
SPA08N80C3
(2)
8
0.015 Ω
2010
(3)
SSL4101
1 nF
(100 V)
2
R32
Q3
PSMN057-200P
U1
16
C30
100 nF
(1)
R15
0.16 Ω
1 % (1 W)
220 nF
FBDRV
12
150 pF 220 Ω
(200 V)
(1)
R33
1 kΩ
C15
(2)
PFCDRV
FBSNS
VOSNS
PFCSNS
11
E3
+48 V (DC)
1
C29
390 μF
(63 V)
R31
10 Ω (0.25 W)
C16
470 pF
10
C27
R13
R22
1 MΩ
1%
9
D7
PMEG2005ET
D4
D5
MUR1100E
R11
12 kΩ
C13
100 nF
C28
390 μF (63 V)
SMAJ100A
(2) (1) E3
Q1
IPA60R385CP
2
TB2
15 A
R8
20 kΩ
(0.5 W)
C8
4.7 nF
Y2
1
C26
33 μF (35 V)
BAS21J
HV
HES_3323_B
C9
10 nF
(1 kV)
J1
D12
D16
C10
SMBJ78A
1 nF
(350 V)
D3
SMBJ78A
C7
68 μF
(500 V)
R6
53.6 kΩ
1%
PMEG2005ET
R10
H1
R4
4.7 MΩ
1 % HV
+19 V (DC)
secondary
T1
TPK-710u-2A6FX
+441 V (DC)
R5
4.7 MΩ
1 % HV
E3
100 nF
X2
(1)
primary
D2
L6
LPB-320u-4A3FX BYV25D-600
L5
DRIVER
C1
470 nF
X2
3
L2
5 mH
C3
4.7 nF
Y2
n.c.
L1
4 mH
OPTO
4A
GND
F1
NTC
7R-2A
VSENSE
R1
SRSENSE
1
ISENSE
TB1
8 A (300 V)
2
R38
47 nF 10 kΩ
R43
R40
4.99 kΩ
1%
C36
22 nF
1 MΩ
(3)
(3)
(2)
019aac283
Schematic of one of the 4 DC-DC Buck Converters with the UBA3070
VIN
1
+13 V
Cx3
0.1 µF
+5 V
Cx9
0.1 µF
TB51
1
VIN
PWMx
VCC
GND
PWM
Rx7
1 MΩ
MASK
Cx1
1 µF
Ux1
1
8
2
UBA3070
3
4
7
6
5
DRAIN
2
Cx5
22 pF
10 kΩ
47 µH
GATE
GATE2
RSENSE
Vsense
Cx4
Dx3
PMBD914
Rx3
10 kΩ
Dx2
PMBD914
Dx1
PMEG6010EP
Lx1
HVS
Rx4
C52
330 µF
Dx0
V8P10-M3/86A
DRAIN2
Cx2
4.7 µF
TBx1
2
TB-2-5MM
Qx1
PHT6N06T
Rx2
Rx1
0.25 Ω
1 nF 220 kΩ
TB-2-5MM
+13 V
+13 V
R35
TP1
470 Ω
TP2
D52
BZV55-C16
R51
1.5 kΩ
+5 V
D51
BZX84-C5V1
J2
VIN
1
2
3
4
5
+13 V
J1
1
PWM2
PWM1
2
3
C51
1 µF
PWM3
+5 V
PWM4
4
5
019aac496
23
NXP SEMICONDUCTORS
LED System Solution Quick Start Guide
SSL4101DB01 Input Current (II) THD as a Function of DC Output Power (Po)
019aac394
19
II THD
(%)
14
(1)
(2)
9
4
(3)
0
50
100
DC load (W)
150
(1) 277V (AC); (2) 230V (AC); (3) 120V (AC)
150W 4-Channel High Efficient LED Driver with SSL4101 and UBA3070
Further Reading: User Manual UM10469, UM10478, Datasheet SSL4101, UBA3070
Order Number (12nc): 9352 954 98598
Board ID: SSL4101DB02
24
NXP SEMICONDUCTORS
LED System Solution Quick Start Guide
4.
Smart Lighting
Our complete hardware/software solutions enable IP connectivity, where every light
bulb has its own IP address, so you can create advanced lighting systems that are easily
controlled by devices such as smartphones, tablets and PCs.
4.1 120 V, 15W Smart Lighting Reference Design LED Lamp
15 W dimmable SSL2108 LED driver, using the SSL21081.
Key features of the LED driver include:
}} True constant-current source
}} PWM dimmable
}} Buck mode, efficiency > 95%
}} NTC temperature feedback
}} No LED forward voltage required
}} Low BOM cost and small size
}} Extensive protections
}} SO8 package
Key features of the RF board include:
}} 2.4 GHz IEEE 802.15.4 compliant
}} Low operating power: 15/17.5 mA Tx/Rx
}} Low sleep current: 0.1 µA deep sleep with IO-wake-up, 0.5 µA with timer running
}} 98 dB link budget
}} 128-bit AES encryption security processor
}} Various MAC accelerator functions
}} High-performance 32-bit, 32 MHz RISC CPU
}} 128 kB ROM, 32/128 kB RAM
}} Extensive set of peripherals, including I2C, SPI, UART, ADC, DAC, PWM,
timers, GPIO
}} On-chip temperature sensor
}} QFN40/56 package
Additional information is available upon request.
25
NXP SEMICONDUCTORS
LED System Solution Quick Start Guide
NXP Smart Lighting Solutions Platforms
15W Smart Lighting Reference Design Board Schematic
J1
R1 4.7k
BD1
J3
L1
120VAC
680uH
J2
C1
RH06
C2
0.22uF 250v
0.1uF 250v
L2
C3
D3
S1G-13-F
22uF 100v
680uH
S1G-13-F
D1
S1G-13-F
C7
36v 300mA
C5
0.1uF 250v
D2
R2
4.7k
C6
100nF 50v
100uF 50v
D4
ES1F
C4
22uF 100v
J4
L3
560uH
HV
Q1
VBUS
NC
GND
C8
GND
NC
VCC
C9
L4
1.5mH
GND
SOURCE
GND
VCC
DVDT
NTC
TONMAX
GND
GND
0.22uF 25v
NC
NC
LBUCKH
J5
VDD
NC
LBUCKL
J6
ADC
VCCRF
DIO13
J4
DIO11
DIO3
DIO10
DIO4
RESETN
J2
GNDRF
BC847BVN
DR1166_0V8
DRAIN
GND
R5
150k
R6
1.5
C10
R4
33uF
220uF
22k
R7
1.8
Q1_1
BC847BVN
R3
2.49k
nxp
26
NXP SEMICONDUCTORS
LED System Solution Quick Start Guide
Top: LED Driver SSL21081; Bottom: Radio Module DR1166
27
NXP SEMICONDUCTORS
LED System Solution Quick Start Guide
5.
Design Tools
5.1 LED Driver Design Tool
Our latest SSL design tool focuses on creating LED drivers from 2 W up to 25 W.
The applications include:
}} SSL retro-fit lamps (e.g. GU10, E27)
}} LED modules, separate power supplies, e.g. LED spots, down-lights
}} LED strings, e.g. retail display
}} LED ballasts
}} Contour lighting
}} Channel letter lighting
}} Other lighting applications
The tool generates schematic, bill of material and transformer parameters, calculates
the design’s efficiency, and presents an overview of losses. Also, for a better
understanding of the application it can be simulated either online or even locally
after downloading the schematics and simulator.
Get started today: http://www.nxp.com/design-portal/ssl
28
NXP SEMICONDUCTORS
LED System Solution Quick Start Guide
6.
Relevant Links
6.1 Relevant Application Notes
AN10829 : SSL2101 dimmable high efficiency flyback design
AN10754 : SSL2101 and SSL2102 dimmable mains LED driver
AN10831 : SSL2102 30 W flyback triac dimmable LED driver
AN10952 : SSL2103 flexible, mains dimmable LED driver
AN11041 : SSL2108X driver for SSL applications
AN11054 : GreenChip III+ SSL4101 integrated PFC and flyback controller
AN10894 : Application aspects of the UBA3070 Switch-mode LED driver
AN10912 : SMPS EMC and layout guidelines
AN10937 : Dimmable LED based lamps
AN10876 : Buck converter for SSL applications
6.2 User Manuals
UM10474 : SSL2103 230 V 12 W E27 retrofit LED driver demo board
UM10485 : 120 V (AC) 7 W GU10 buck LED driver reference board using the SSL2101
UM10479 : SSL2101 120 V 7.5 W GU10 flyback reference board
UM10481 : SSL21082 reference board
UM10482 : SSL21081 LED driver reference board
UM10469 : 48 V/150 W demo board using the SSL4101
UM10478 : High-efficiency UBA3070 4-channel DC-to-DC LED driver demo board
UM10501 : SSL21083 reference board user manual
UM10502 : SSL21084 reference board
6.3Literature
Smart lighting backgrounder
6.4 Online Tools
LED Design Tool http://www.nxp.com/design-portal/ssl
SSL2108x Buck Design Tool: on request
29
NXP SEMICONDUCTORS
LED System Solution Quick Start Guide
7.
Legal information
7.1Disclaimers
Limited warranty and liability — Information in this document is believed to be
accurate and reliable. However, NXP Semiconductors does not give any representations
or warranties, expressed or implied, as to the accuracy or completeness of such
information and shall have no liability for the consequences of use of such information.
In no event shall NXP Semiconductors be liable for any indirect, incidental, punitive,
special or consequential damages (including - without limitation - lost profits, lost
savings, business interruption, costs related to the removal or replacement of any
products or rework charges) whether or not such damages are based on tort (including
negligence), warranty, breach of contract or any other legal theory.
Notwithstanding any damages that customer might incur for any reason whatsoever,
NXP Semiconductors’ aggregate and cumulative liability towards customer for the
products described herein shall be limited in accordance with the Terms and Conditions
of commercial sale of NXP Semiconductors.
Right to make changes — NXP Semiconductors reserves the right to make changes to
information published in this document, including without limitation specifications and
product descriptions, at any time and without notice. This document supersedes and
replaces all information supplied prior to the publication hereof.
Suitability for use — NXP Semiconductors products are not designed, authorized
or warranted to be suitable for use in life support, life-critical or safety-critical
systems or equipment, nor in applications where failure or malfunction of an NXP
Semiconductors product can reasonably be expected to result in personal injury,
death or severe property or environmental damage. NXP Semiconductors accepts no
liability for inclusion and/or use of NXP Semiconductors products in such equipment or
applications and therefore such inclusion and/or use is at the customer’s own risk.
Applications — Applications that are described herein for any of these products are for
illustrative purposes only. NXP Semiconductors makes no representation or warranty
that such applications will be suitable for the specified use without further testing or
modification.
30
NXP SEMICONDUCTORS
LED System Solution Quick Start Guide
Customers are responsible for the design and operation of their applications and
products using NXP Semiconductors products, and NXP Semiconductors accepts
no liability for any assistance with applications or customer product design. It is
customer’s sole responsibility to determine whether the NXP Semiconductors product
is suitable and fit for the customer’s applications and products planned, as well as
for the planned application and use of customer’s third party customer(s). Customers
should provide appropriate design and operating safeguards to minimize the risks
associated with their applications and products.
NXP Semiconductors does not accept any liability related to any default, damage,
costs or problem which is based on any weakness or default in the customer’s
applications or products, or the application or use by customer’s third party
customer(s). Customer is responsible for doing all necessary testing for the customer’s
applications and products using NXP Semiconductors products in order to avoid a
default of the applications and the products or of the application or use by customer’s
third party customer(s). NXP does not accept any liability in this respect.
Export control — This document as well as the item(s) described herein may be
subject to export control regulations. Export might require a prior authorization from
national authorities.
7.2Trademarks
Notice: All referenced brands, product names, service names and trademarks are
property of their respective owners.
GreenChip is a trademark of NXP B.V.s a trademark of NXP B.V.
31
NXP SEMICONDUCTORS
LED System Solution Quick Start Guide
NXP Driver Quick Start Guide Index
1.
SSL2108x & UBA3070 Buck LED drivers
1.1
100V, 50-60Hz, 7W, Non-Isolated, Non-Dimmable, E17/GU10
2
SSL21081 Demo Board Efficiency as a Function of Input Voltage for Different LED Configuration
3
SSL21081 Demo Board EMC Measurement L-Phase According to FCC15 Norm
3
SSL21081 Board Schematic
4
Actual SSL21081 PCB Photo and Layout
4
100V 50-60Hz, 10W-12W, Non-Isolated, Non-Dimmable, E26
5
SSL21082 Board Schematic
6
SSL21802 Demo Board Effic. as a Function of Output Voltage; for 100, 110, 120 VAC, 50-60 Hz
6
Actual SSL21082 PCB Photos and Layout
7
230V, 50Hz, 7.5-12W, Non-Isolated, Non-Dimmable, GU10
8
PCB Photo (top: SSL21083; bottom: SSL21084)
9
SSL21084 EMC Measurement L-Phase According to EN55015 Norm
9
Board Schematics (top: SSL21083; bottom: SSL21084)
10
SSL21083 Demo Board Efficiency (left) and Output Line Regulation (right)
10
1.2
1.3
PAGE
2.
SSL2101/SSL2102/SSL2103 Mains dimmable LED drivers
2.1
120V, 60Hz, 7.5 W, Isolated, Dimmable, GU10
11
SSL2101 Board Dimensions and Photo
12
SSL2101 Demo Board Power Factor Over Input Voltage Range
12
SSL2101 Board Schematic
13
120V, 60Hz, 7W, Non-Isolated, Dimmable, GU10
14
SSL2101 Demo Board Efficiency as a Function of AC Mains Input Voltage
15
SSL2101 Demo Board Power Factor as a Function of AC Mains Input Voltage
15
SSL2101 Board Schematic
16
SSL2101 Demo Board PCB Dimensions and Photo
16
230V, 50Hz, 12W, Non-Isolated, Dimmable, E27
17
SSL2103 Demo Board Photo
17
SSL2103 Demo Board Efficiency as a Function of Input Voltage
18
SSL2103 Demo Board Dimming Curve : Output Current as a Function of Input Voltage
18
SSL2103 Board Schematic
19
SSL2103 Demo Board Conducted Emissions for Line: AC Input = 230 V at 50 Hz EN55015
19
2.2
2.3
PAGE
32
NXP SEMICONDUCTORS
LED System Solution Quick Start Guide
3.
SSL4101 High power LED driver
3.1
Universal mains, 150W, high efficiency 4 channel LED driver
21
SSL4101DB01 Efficiency (η) AC-DC converter as a function of DC output power (Po)
22
SSL4101DB01 Efficiency (η) DC-DC converter as a function of number of LEDs
22
Schematic of the PFC+FB Controller SSL4101 Together with the Synchronous Rectifier TEA1761
23
Schematic of one of the 4 DC-DC Buck Converters with the UBA3070
23
SSL4101DB01 Input Current (I I) THD as a Function of DC Output Power (Po)
24
150W 4-Channel High Efficient LED Driver with SSL4101 and UBA3070
24
PAGE
4.
Smart Lighting
4.1
110V Smart Lighting Reference Design
25
NXP Smart Lighting Solutions Platforms
26
15W Smart Lighting Reference Design Board Schematic
26
Top: LED Driver SSL21081 ; Bottom: Radio Module DR1166
27
PAGE
5.
Design Tools
5.1
LED Driver Design Tool
6.
Relevant Links
6.1
Relevant Application Notes
29
6.2
User Manuals
29
6.3
Literature
29
6.4
Online Tools
29
7.
Legal Information
7.1
Disclaimers
30
7.2
Trademarks
31
PAGE
28
PAGE
PAGE
33
NXP SEMICONDUCTORS
LED System Solution Quick Start Guide
www.nxp.com
© 2011 NXP Semiconductors N.V.
All rights reserved. Reproduction in whole or in part is prohibited without the prior written consent of the copyright owner.
The information presented in this document does not form part of any quotation or contract, is believed to be accurate and
reliable and may be changed without notice. No liability will be accepted by the publisher for any consequence of its use.
Publication thereof does not convey nor imply any license under patent- or other industrial or intellectual property rights.
Date of release: January 2012
Document order number: 9397 750 17223
Printed in the Netherlands