各种遥控器编码整理

史上最全的红外遥控器编码协议目录1MIT-C8D8 40k2 MIT-C8D8 33K3SC50560-001003P4M504625M50119P-016M50119L7RECS808M30049LC7464M10LC7461-C1311IRT1250C5D6-0112Gemini-C6-A13Gemini-C614 Gemini-C17 3136K -115KONKA KK-Y26116PD6121G-F17DATA-6BIT18Custum-6BIT19M9148-120SC3010 RC-521 M50560-1 40K22 SC50560-B123C50560-002P24M50119P-0125M50119P-126M50119P27IRT1250C5D6-02 28HTS-C5D6P29Gemini-C1730Gemini-C17 -231data6bit-a32data6bit-c33X-Sat34Philips RECS-80 35Philips RC-MM36Philips RC-637Philips RC-538Sony SIRC39Sharp40Nokia NRC1741NEC42JVC43ITT44SAA3010 RC-536K45SAA3010 RC-538K46NEC2-E247 NEC-E348 RC-5x49 NEC1-X250 _pid006051 UPD1986C52 UPD1986C-A53 UPD1986C-C54 MV500-0155 MV500-0256 Zenith S101 MIT-C8D840KMIT-C8D840K是一种常见的红外遥控编码格式该格式出现在万能遥控器ZC-18A 600-917 中Features 基本特点18位地址码8位数据码结束码2脉宽调制方式PWM3载波400 KHZ4逻辑位时间com msModulation 调制逻辑0Logical0是由935us的无载波间隔和280us的40KHZ载波组成图中表示的是有载波和无载波间隔的总长度逻辑1Logical1是由280us的40KHZ载波和2156us的无载波间隔组成Protocol 协议从上图中可看到 MIT-C8D840K一帧码序列是由8位地址码8位数据码和结束码组成长按键不放发出的码波形序列如下图即将整个波形以周期4478ms进行重复2 MIT-C8D8 33KMIT-C8D8 33K 是一种常见的编码格式该格式来源于OMEGA万能遥控器码组号为0138及祝成万能遥控器ZC-18A码组号为644735736Features 基本特点18位地址码8位数据码2脉宽调制方式PWM3载波33KHZ4逻辑位的时间comsModulation 调制隔组成图中表示的是有载波和无载波间隔的总长度2逻辑1Logical1是由280us的33KHZ载波和2156us的无载波间隔组成Protocol 协议从上图可以看到MIT-C8D8 33K 一帧码序列是由8位地址码8位数据码长按键不放发出的码波形序列如下图就是将第一帧波形以周期501ms进行重复3 SC50560-001003P 分割码未有数据标注SC50560-001003P是一种常见的红外遥控编码格式该格式出现在CL311URC-8910RM-123CRM-139S的062码组ZC-18A600-917ZC-18A400-481RM-301C VT3620AVT3630RM-402C的TV-012码组Features 基本特点1引导码8位地址码分割码未有数据标注 8位数据码结束码2脉宽调制方式PWM3载波38KHZ4逻辑位时间comModulation 调制逻辑0Logical0是由520us的38KHZ载波和520us的无载波间隔组成图中表示的是有载波和无载波间隔的总长度隔组成Protocol 协议从上图中可看到 SC50560-001003P一帧码序列是由引导码 8ms 的载波和4ms的间隔 8位地址码分割码8位数据码和结束码组成长按键不放发出的码波形序列如下图即将整个波形以周期12002ms进行重复4 M50462M50462是一种常见的红外遥控编码格式该格式出现在RM-123CRM-139SZC-18A600-917RM-301C VT3620AVT3630RM-402C Features 基本特点18位地址码8位数据码结束码2脉宽调制方式PWM3载波38 KHZ4逻辑位时间comModulation 调制逻辑0Logical0是由260us的38KHZ载波和780us的无载波间隔组成图中表示的是有载波和无载波间隔的总长度逻辑1Logical1是由260us的38KHZ载波和1799us的无载波间隔组成Protocol 协议从上图中可看到 M50462一帧码序列是由8位地址码8位数据码和结束码组成长按键不放发出的码波形序列如下图即将整个波形以周期45ms 进行重复5 M50119P-0142K 分割码未有数据标注M50119P-0142K是一种常见的红外遥控编码格式该格式出现在URC-8910CBL-0009 ZC-18A 600-917 的736码组ZC-18A 400-481 VT3630的SAT-001码组Features 基本特点1数据帧4位地址码6位数据码分割码4位地址码相同码6位数据码相同码结束码重复帧用户码相同码结束码2脉宽调制方式PWM3载波418 KHZ4逻辑位时间comsModulation 调制逻辑0Logical0是由967us的418KHZ载波和967us的无载波间隔组成图中表示的是有载波和无载波间隔的总长度逻辑1Logical1是由967us的418KHZ载波和2901us的无载波间隔组成Protocol 协议从上图中可看到 M50119P-0142K两帧码序列是由数据帧4位地址码6位数据码分割码4位地址码相同码6位数据码相同码结束码重复帧地址码相同码结束码长按键不放后续发出的波形如下长按键不放发出的码波形序列如下图就是将重复帧波形以周期62855ms进行重复M50119LM50119L是一种常见的红外遥控编码格式该格式出现在万能遥控器CL311URC-8910VCR-0041INTER DIGI-SATVT3630中Features 基本特点13位地址码7位数据码结束码2脉宽调制方式PWM3载波379 KHZ4逻辑位时间comModulation 调制逻辑0Logical0是由260us的379KHZ载波和780us的无载波间隔组成图中表示的是有载波和无载波间隔的总长度逻辑1Logical1是由260us的379KHZ载波和1820us的无载波间隔组成Protocol 协议从上图中可看到 M50119L一帧码序列是由3位地址码7位数据码和结束码组成长按键不放发出的码波形序列如下图即将整个波形以周期255ms 进行重复7 RECS8068RECS8068是一种常见的红外遥控编码格式该格式来源于URC8910的CD-0764码组Features 基本特点12位控制码 3位地址码6位数据码结束码2脉宽调制方式PWM3载波33KHZ4逻辑位时间comModulation 调制逻辑0Logical0是由160us的33KHZ载波和5600us的无载波间隔组成图中表示的是有载波和无载波间隔的总长度逻辑1Logical1是由160us的33KHZ载波和8480us的无载波间隔组成Protocol 协议从上图中可看到RECS8068一帧码序列是由2位控制码 3位地址码6位数据码结束码组成的长按键不放发出的码波形序列如下图整个波形以周期1383ms进行重复8 M3004 CarrierM3004 Carrier是一种常见的红外遥控编码格式该格式出现在遥控器CL311 RM-123CRM-139S148ZC-18A600-917ZC-18A400-481RM-301CINTER-DIG I-SAT VT3620AVT3630RM-402CTV-060中Features 基本特点1引导码1位翻转码 3位地址码6位数据码结束码2脉宽调制方式PWM3载波38KHZ4逻辑位时间comModulation 调制逻辑0Logical0是由141us的38KHZ载波和4919us的无载波间隔组成图中表示的是有载波和无载波间隔的总长度逻辑1Logical1是由141us的38KHZ载波和7449us的无载波间隔组成Protocol 协议从上图中可看到 M3004 Carrier一帧码序列是由1位引导码 1位翻转码 3位地址码6位数据码结束码组成的长按键不放发出的码波形序列如下图整个波形以周期121651ms 进行重复9 LC7464M 校验码怎么算的LC7464M是一种常见的红外遥控编码格式该格式出现在万能遥控器CL311URC-8910 RM-139SZC-18A600-917ZC-18A400-481VT3620AVT3630Features 基本特点1引导码15位地址码4位校验码4位地址码28位数据码8位校验码结束码3载波38KHZ4逻辑位时间comModulation 调制逻辑0Logical0是由420us的38KHZ载波和420us的无载波间隔组成图中表示的是有载波和无载波间隔的总长度逻辑1Logical1是由420us的38KHZ载波和1260us的无载波间隔组成Protocol 协议从上图中可看到 LC7464M一帧码序列是由引导码 com的间隔15位地址码4位校验码4位地址码28位数据码8位校验码结束码组成长按键不放发出的码波形序列如下图整个波形以8297ms的周期进行重复10 LC7461-C13LC7461-C13是一种常见的红外遥控编码格式该格式出现在万能遥控器CL311URC-8910RM-123CRM-139S101ZC-18A600-917RM-301CVT3630RM-402C的TV-131码组Features 基本特点1数据帧引导码13位地址码13位地址码-反码8位数据码8位数据码反码结束码重复帧3载波38KHZ4逻辑位时间comModulation 调制逻辑0Logical0是由560us的38KHZ载波和560us的无载波间隔组成图中表示的是有载波和无载波间隔的总长度逻辑1Logical1是由560us的38KHZ载波和1680us的无载波间隔组成Protocol 协议数据帧从上图中可看到 LC7461-C13一帧码序列是由引导码 9-ms的载波和45ms的间隔 13位地址码13位地址码-反码 8位数据码8位数据码反码结束码组成重复帧由结束码组成长按键不放发出的后续波形如下图其发出的整个码波形序列如下图由重复帧开始以周期10811ms 进行重复11 IRT1250C5D6-010HzIRT1250C5D6-010Hz是一种常见的红外遥控编码格式该格式出现在万能遥控器VT3620A中Features 基本特点1引导码5位地址码6位数据码结束码3载波00 KHZ4逻辑位时间comsModulation 调制逻辑0Logical0是由16us的00KHZ载波和160us的无载波间隔组成图中表示的是有载波和无载波间隔的总长度逻辑1Logical1是由16us的00KHZ载波和368us的无载波间隔组成Protocol 协议从上图中可看到IRT1250C5D6-010Hz一帧码序列是由引导码0016 ms的载波和0545ms的间隔 5位地址码6位数据码结束码16-54316-593136us组成长按键不放发出的码波形序列如下图即将整个波形以周期596208ms进行重复12 Gemini-C6-A40KGemini-C6-A40K是一种常见的红外遥控编码格式该格式出现在万能遥控器VT3630的SAT-034码组Features 基本特点1地址帧引导码7位地址码2结束码数据帧引导码相同码7位数据码结束码地址帧相同帧数据帧相同帧2脉宽调制方式PWM3载波400 KHZ4逻辑位时间长度是105msModulation 调制逻辑0Logical0是由525us的无载波间隔和525us的40KHZ载波组成图中表示的是有载波和无载波间隔的总长度逻辑1Logical1是由525us的40KHZ载波和525us的无载波间隔组成Protocol 协议从上图中可看到 Gemini-C6-A40K由四帧码组成地址帧码序列由引导码 coms的间隔 7位地址码和结束码组成数据帧码序列由引导码相同码 coms的间隔 7位数据码和结束码组成地址帧相同帧同地址帧数据帧相同帧同数据帧长按键不放发出的码波形序列如下其整个码波形序列如下图就是将第三第四帧波形以周期693ms 进行重复13 Gemini-C63136Gemini-C63136是一种常见的红外遥控编码格式该格式出现在万能遥控器CL311与VT3620A中Features 基本特点1引导码7位数据码结束码2脉宽调制方式PWM3载波310 KHZ4逻辑位时间comsModulation 调制逻辑0Logical0是由496us的无载波间隔和496us的31KHZ载波组成图中表示的是有载波和无载波间隔的总长度逻辑1Logical1是由496us的31KHZ载波和496us的无载波间隔组成Protocol 协议从上图中可看到 Gemini-C63136一帧码序列是由引导码 053ms 的载波和265ms的间隔 7位和结束码组成长按键不放发出的码波形序列如下图即将整个波形以周期90724ms进行重复14 Gemini-C17 3136K -1Gemini-C17 3136K -1是一种常见的红外遥控编码格式该格式来源于CL311Features 基本特点1引导帧引导码10位地址码结束码地址帧引导码相同码10位地址码2结束码引导帧相同帧数据帧引导码相同码10位数据码结束码引导帧相同帧2脉宽调制方式PWM3载波304KHZ4逻辑位时间长度是106msModulation 调制逻辑0Logical0是由530us的304KHZ载波和530us的无载波间隔组成图中表示的是有载波和无载波间隔的总长度逻辑1Logical1是由530us的无载波间隔和530us的304KHZ载波组成Protocol 协议从上图中可看到 Gemini-C17 3136K -1帧码其依次为引导帧码序列是由引导码 com的间隔 10位地址码与结束码206ms组成用户帧码序列是由引导码-相同码 com的间隔 10位地址码2与结束码 1025ms 组成引导帧-相同帧码与引导帧码相同数据帧码序列是由引导码-相同码 com的间隔 10位数据码与结束码 11714ms 组成引导帧-相同帧码与引导帧码相同长按键不放后续发出的波形如下其整个码波形序列如下图就是将第四第五帧波形以周期1653ms 进行重复15 KONKA KK-Y261KONKA KK-Y261是一种常见的红外遥控编码格式该格式来源于RM-123CRM-139S的113码组RM-301C RM-402C的204码组Features 基本特点1引导码8位地址码 8位数据码结束码2脉宽调制方式PWM3载波38KHZ4逻辑位时间长度是3ms或2msModulation 调制逻辑0Logical0是由500us的38KHZ载波和1500us的无载波间隔组成图中表示的是有载波和无载波间隔的总长度逻辑1Logical1是由500us的38KHZ载波和2500us的无载波间隔组成Protocol 协议从上图中可看到 KONKA KK-Y261一帧码序列是由引导码 3ms的载波和3ms的间隔 8位地址码 8位数据码结束码组成长按键不放发出的码波形序列如下图即将整个波形以周期66ms 进行重复16 PD6121G-FPD6121G-F是一种常见的红外遥控编码格式Features 基本特点1引导码8位地址码8位地址码28位数据码8位数据码反码2脉宽调制方式PWM3载波38KHZ4逻辑位时间comsModulation 调制逻辑0Logical0是由564us的38KHZ载波和564us的无载波间隔组成图中表示的是有载波和无载波间隔的总长度逻辑1Logical1是由564us的38KHZ载波和1692us的无载波间隔组成Protocol 协议从上图中可看到 PD6121G-F一帧码序列是由引导码 coms的间隔 8位地址码8位地址码2 8位数据码8位数据码反码组成长按键不放发出的码波形序列如下图即将整个波形以周期108ms 进行重复17 DATA-6BITDATA-6BIT是一种常见种常见的红外遥控编码格式该格式来源于RM-301C RM-402C195Features 基本特点16位数据码2脉宽调制方式PWM3载波38KHZ4逻辑位时间comModulation 调制逻辑0Logical0是由440us的38KHZ载波和1540us的无载波间隔组成图中表示的是有载波和无载波间隔的总长度逻辑1Logical1是由440us的38KHZ载波和3362us的无载波间隔组成Protocol 协议从上图中可看到DATA-6BIT一帧码序列仅是由6位数据码组成长按键不放发出的码波形序列如下图即将第一帧波形以周期28ms进行重复18 CUSTUM6BITCustum-6BIT是一种常见的红外遥控编码格式该格式出现在CL311URC-8910RM-123CRM-139S148ZC-18A600-917ZC-18A400-481RM-301CINTER-DIGI-SAT VT3620AVT3630RM-402CFeatures 基本特点16位数据码2脉宽调制方式PWM3载波38KHZ4逻辑位时间com19 M9148-1M9148-1是一种常见的编码格式Features 基本特点13位地址码1位控制码8位数据码2脉宽调制方式PWM3载波38168KHZ4逻辑位的时间长度是1848msModulation 调制1逻辑0Logical0是由462us的38168KHZ载波和1386us的无载波间隔组成图中表示的是有载波和无载波间隔的总长度2逻辑1Logical1是由1386us的38168KHZ载波和462us的无载波间隔组成Protocol 协议从上图可以看到M9148-1一帧码序列是由3位地址码1位控制码8位数据码长按键不放发出的码波形序列如下图就是将第一帧波形以周期56023ms进行重复20 SC3010RC-5SC3010 RC-5是一种常见的编码格式该格式来源于众合万能遥控器RM-139S码组号为013208215216218及万能遥控器祝成ZC-18A码组号为682684685854691709Features 基本特点12位控制码1为翻转码5位地址码6位数据码2脉宽调制方式PWM3载波38KHZ4逻辑位的时间长度是1688msModulation 调制1逻辑0Logical0是由844us的38 KHZ载波和844us的无载波间隔组成图中表示的是有载波和无载波间隔的总长度2逻辑1Logical1是由844us的38KHZ载波和844us的无载波间隔组成Protocol 协议从上图可以看到SC3010 RC-5一帧码序列是由2位控制码1位翻转码5位地址码6位数据码长按键不放发出的码波形序列如下图就是将第一帧波形以周期127156ms进行重复21 M50560-1 40KM50560-1 40K 是一种常见的编码格式该格式来源于万能遥控器众合RM139-S码组号为040069076083068125127268及万能遥控器众合RM-33C码组号为0016006700720073Features 基本特点18位地址码8位数据码2脉宽调制方式PWM3载波40KHZ4逻辑位的时间长度是1ms或2msModulation 调制1逻辑0Logical0是由500us的40KHZ载波和500us的无载波间隔组成图中表示的是有载波和无载波间隔的总长度2逻辑1Logical1是由500us的40KHZ载波和1500us的无载波间隔组成Protocol 协议从上图可以看到M50560-1 40K 一帧码序列是由8位地址码8位数据码长按键不放发出的码波形序列如下图就是将第一帧波形以周期678ms进行重复22 SC50560-B1SC50560-B1是一种常见的编码格式Features 基本特点15位数据码2脉宽调制方式PWM3载波38KHZ4逻辑位的时间comModulation 调制1逻辑0Logical0是由520us的38KHZ载波和2080us的无载波间隔组成图中表示的是有载波和无载波间隔的总长度2逻辑1Logical1是由520us的38KHZ载波和4160us的无载波间隔组成Protocol 协议从上图可以看到SC50560-B1一帧码序列是由5位数据码长按键不放发出的码波形序列如下图就是将第一帧波形以周期120ms进行重复23 C50560-002PC50560-002P是一种常见的编码格式该格式来源于视贝万能DVB遥控器码组号为195Features 基本特点18位地址码8位数据码2脉宽调制方式PWM3载波38KHZ4逻辑位的时间comModulation 调制1逻辑0Logical0是由520us的38KHZ载波和520us的无载波间隔组成图中表示的是有载波和无载波间隔的总长度2逻辑1Logical1是由520us的38KHZ载波和1560us的无载波间隔组成Protocol 协议从上图可以看到M50560-002P 一帧码序列是由8位地址码8位数据码长按键不放发出的码波形序列如下图就是将第一帧波形以周期36006ms进行重复24 M50119P-01 38KM50119P-01 38K 是一种常见的编码格式Features 基本特点14位地址码4位地址码的相同码6位数据码6位数据码的相同码2脉宽调制方式PWM3载波38KHZ4逻辑位的时间comsModulation 调制1逻辑0Logical0是由967us的38KHZ载波和967us的无载波间隔组成图中表示的是有载波和无载波间隔的总长度2逻辑1Logical1是由967us的38KHZ载波和2901us的无载波间隔组成Protocol 协议从上图可以看到M50119P-01 38K 一数据帧码序列是由4位地址码6位数据码4位地址码相同码6位数据码相同码一重复帧由4位地址码相同码长按键不放发出的码波形序列如下图就是将第一帧波形以周期385156ms进行重复25 M50119P-1 40KM50119P-1 40K 是一种常见的编码格式该格式来源于OMEGA万能遥控器码组号为0041Features 基本特点13位地址码7位数据码2脉宽调制方式PWM3载波40KHZ4逻辑位的时间长度是1ms或2msModulation 调制1逻辑0Logical0是由500us的40KHZ载波和500us的无载波间隔组成图中表示的是有载波和无载波间隔的总长度2逻辑1Logical1是由500us的40KHZ载波和1500us的无载波间隔组成Protocol 协议从上图可以看到M50119P-1 40K 一帧码序列是由3位地址码7位数据码长按键不放发出的码波形序列如下图就是将第一帧波形以周期275ms进行重复26M50119PM50119P是一种常见的编码格式该格式来源于OMEGA万能遥控器码组号为0384及众合万能遥控器RM-139S码组号为041Features 基本特点13位地址码7位数据码2脉宽调制方式PWM3载波3791KHZ4逻辑位的时间长度是1ms或2msModulation 调制1逻辑0Logical0是由500us的379KHZ载波和500us的无载波间隔组成图中表示的是有载波和无载波间隔的总长度2逻辑1Logical1是由500us的379KHZ载波和1500us的无载波间隔组成Protocol 协议从上图可以看到M50119P一帧码序列是由3位地址码7位数据码长按键不放发出的码波形序列如下图就是将第一帧波形以周期30ms进行重复27IRT1250C5D6-02 0HzIRT1250C5D6-02 0Hz 是一种常见的编码格式Features 基本特点15位地址码6位数据码2脉宽调制方式PWM3载波无载波4逻辑位的时间comsModulation 调制1逻辑0Logical0是由16us的无载波和224us的无载波间隔组成图中表示的是无载波和无载波间隔的总长度2逻辑1Logical1是由16us的36KHZ载波和480us的无载波间隔组成Protocol 协议从上图可以看到IRT1250C5D6-02 0Hz 一帧码序列是由引导码0016ms的无载波和0732ms的间隔5位地址码6位数据码长按键不放发出的码波形序列如下图就是将第一帧波形以周期597251ms进行重复28HTS-C5D6PHTS-C5D6P是一种常见的编码格式该格式来源于OMEGA万能遥控器027*********Features 基本特点15位地址码6位数据码1位校验码2脉宽调制方式PWM3载波38KHZ4逻辑位的时间com4624msModulation 调制1逻辑0Logical0是由136us的38KHZ载波和1360us的无载波间隔组成图中表示的是有载波和无载波间隔的总长度2逻辑1Logical1是由136us的38KHZ载波和2856us的无载波间隔组成3逻辑3Logical3是由136us的38KHZ载波和4488us的无载波间隔组成Protocol 协议从上图可以看到HTS-C5D6P一帧码序列是引导码coms的间隔5位地址码6位用户码1位校验码长按键不放后续发出波形如下长按键不放发出的码波形序列如下图就是将第一帧波形以周期89381ms进行重复29Gemini-C17 3136KGemini-C17 3136K 是一种常见的编码格式该格式主要来源于OMEGA万能遥控器码组号分别为013402250289032203970400045104580859Features 基本特点110位地址码引导码的相同码10位数据码2脉宽调制方式PWM3载波304KHZ4逻辑位的时间长度是106msModulation 调制1逻辑0Logical0是由530us的304KHZ载波和530us的无载波间隔组成图中表示的是有载波和无载波间隔的总长度2逻辑1Logical1是由530us的304KHZ载波和530us的无载波间隔组成Protocol 协议从上图可以看到Gemini-C17 3136K 用户帧码序列是由引导码com的间隔10位地址码数据帧码序列由引导码的相同码10位数据码长按键不放后仍发出如下波形长按键不放出码的波形序列如下图就是将第一帧以周期19997ms 进行重复30Gemini-C17 3136K -2Gemini-C17 3136K -2是一种常见的编码格式该格式主要来源于OMEGA万能遥控器码组号分别为01350376Features 基本特点116位地址码 16位数据码2脉宽调制方式PWM3载波31KHZ4逻辑位的时间长度是106msModulation 调制1逻辑0Logical0是由530us的31KHZ载波和530us的无载波间隔组成图中表示的是有载波和无载波间隔的总长度2逻辑1Logical1是由530us的31KHZ载波和530us的无载波间隔组成Protocol 协议从上图可以看到Gemini-C17 3136K -2用户帧码序列是由引导码com的间隔16位地址码数据帧码序列由引导码com的间隔16位数据码长按键不放后仍发出如下波形长按键不放出码的波形序列如下图就是将第一帧以周期21609ms 进行重复31data6bit-adata6bit-a是一种常见的编码格式该格式来源于祝成万能遥控器ZC-18A码组号673Features 基本特点16位数据码2脉宽调制方式PWM3载波333KHZ4逻辑位的时间comsModulation 调制1逻辑0Logical0是由576us的333KHZ载波和1820us的无载波间隔组成图中表示的是有载波和无载波间隔的总长度2逻辑1Logical1是由576us的333KHZ载波和4200us的无载波间隔组成Protocol 协议从上图可以看到data6bit-a一帧码序列是6位数据码长按键不放发出的码波形序列如下图就是将第一帧波形以周期58092ms进行重复32data6bit-cFeatures 基本特点16位数据码2脉宽调制方式PWM3载波20KHZ4逻辑位的时间长度是2 ms或4msModulation 调制1逻辑0Logical0是由1000us的20KHZ载波和1000us的无载波间隔组成图中表示的是有载波和无载波间隔的总长度2逻辑1Logical1是由1000us的20KHZ载波和3000us的无载波间隔组成Protocol 协议从上图可以看到data6bit-c一帧码序列是6位数据码构成长按键不放发出的码波形序列如下图就是将第一帧波形以周期725ms进行重复33X-Sat ProtocolX-Sat ProtocolI call this the X-Sat protocol because it is used in the X-Sat CDTV 310 Satellite receiver made by the French company Xcom This protocol is probably also used in other X-Sat receivers but I have no means to verify that I havent seen this protocol anywhere else but that doesnt guarantee that it is unique to the X-Sat brandFeatures8 bit address and 8 bit command lengthPulse distance modulationCarrier frequency of 38kHzBit time of 1ms or 2msModulationThe X-Sat protocol uses pulse distance encoding of the bits Each pulse is a 526祍 long 38kHz carrier burst about 20 cycles A logical "1" takes 20ms to transmit while a logical"0" is only 10ms The recommended carrier duty cycle is 14 or 13ProtocolThe picture above shows a typical pulse train of the X-Sat protocol With this protocol the LSB is transmitted first In this case Address 59 and Command 35 is transmitted A message is started by a 8ms AGC burst which was used to set the gain of the earlier IR receivers This AGC burst is then followed by a 4ms space which is then followed by the Address and Command A peculiar property of the X-Sat protocol is the 4ms gap between the address and the command The total transmission time is variable because the bit times are variableAn IR command is repeated 60ms for as long as the key on the remote is held down34Philips RECS-80 Protocol 38kHz carrierThis protocol is designed by Philips and transmitters are produced by Philips SAA3008 and ST M3004 Personally I have never seen this protocol being used in real applications All information on this page is derived from the data sheet of the Philips SAA3008 and the ST M3004 10624pdfThere are 2 small differences between the two competitor ICs The Philips IC has two modes of operation one which iscompatible with the ST chip and one which can handle up to 20 sub-system addresses The ST chip has the capability of switching the modulation carrier offFeatures7 or 20 sub-system addresses 64 commands per sub-system address1 or2 toggle bits to avoid key bouncePulse distance modulationCarrier frequency of 38kHz or unmodulatedBit time logic "0" is 51ms logic "1" is 76ms 455kHz OscillatorCommand repetition rate 1215ms 55296 periods of the main oscillatorManufacturer Philips STModulation 13 duty cycleNormal Protocol The drawing below shows a typical pulse train of a normal RECS-80 message This example transmits command 36 to address 4Usually the first pulse is a reference pulse with a value of "1" The receiver may use this bit to determine the exact bit lengthThe next bit is a toggle bit Its value is toggled whenever akey is released which results in a different code every time a new key is pressed This allows the receiver to discriminate between new key presses and key repetitionsOnly the ST chip M3004 can disable its carrier in which case the REF pulse is interpreted as a second toggle bit The 2-bit toggle value is incremented every time a key is released Thus only in this mode there is no real REF pulseThe next 3 pulses S2 to S0 represent the sub-system address bits sent with MSB first This would allow for 8 different sub-system addresses but both the SAA3008 and the M3004 can only generate 7 sub-system addresses in normal mode Next come the 6 command bits F to A also sent with MSB first allowing for 64 different commands per sub-system addressThe pulse train is terminated by a last pulse otherwise there is no way to know the duration of bit AThe entire command is repeated with unchanged toggle bits for as long as the key is held down The repetition rate is 1215ms 55296 periods of the oscillatorAddress assignments are a bit odd with this protocol You can not simply convert the binary value to a decimal value Below you see a table explaining the relationship between the binary and decimal sub-system address valuesExtended Protocol If you need more than 7 sub-system addresses you can use the extended protocol which allows 13 additional sub-system addresses only if you use the SAA3008 The drawing below shows an extended message This example transmits command 36 to address 10The first two pulses are a special start sequence The total duration of these pulses is equal to a normal "1" period The next bit is a toggle bit Its value is toggled whenever a key is released which results in a different code every time a new key is pressed This allows the receiver to discriminate between new key presses and key repetitionsThe next 4 pulses S3 to S0 represent the sub-system address bits This would allow for an additional 16 different sub-system addresses although the SAA3008 can only generate 13 additional sub-system addresses in this mode Next come the 6 command bits F to A also sent with MSB firstThe pulse train is terminated by a last pulse otherwise there is no way to know the duration of bit AThe entire command is repeated with unchanged toggle bits for as long as the key is held down The repetition rate is 1215ms 55296 periods of the oscillatorAddress assignments are a bit odd with this protocol Youcan not simply convert the binary value to a decimal value Below you see a table explaining the relationship between the binary and decimal sub-system address values35 Philips RC-MM ProtocolRC-MM was defined by Philips to be a multi-media IR protocol to be used in wireless keyboards mice and game pads For these purposes the commands had to be short and have low power requirementsWhether the protocol is actually used for these purposes today is unknown to me What I do know is that some Nokia digital satellite receivers use the protocol 9800 series Features 12 bits or 24 bits per messagePulse position coding sending 2 bits per IR pulseCarrier frequency of 36kHzMessage time ranges from 35 to 65 ms depending on data contentRepetition time 28 ms 36 messages per secondManufacturer PhilipsTransmission timingIn this diagram you see the most important transmission times The message time is the total time of a message counting form the beginning of the first pulse until the end of the lastpulse of the message This time can be 35 to 65 ms depending on the data content and protocol usedThe signal free time is the time in which no signal may be sent to avoid confusion with foreign protocols on the receivers side Philips recommends 1 ms for normal use or 336 ms when used together with RC-5 and RC-6 signals Since you can never tell whether a user has other remote controls in use together with an RC-MM controlled device I would recommend always to use a signal free time of 336 msThe frame time is the sum of the message time and the signal free time which can add up to just about 10 ms per message Finally the repetition time is the recommended repetition time of 27778 ms which allows 36 messages per second This is only a recommendation and is mainly introduced to allow other devices to send their commands during the dead times No provision is made for data collisions between two or more remote controls This means that there is no guarantee that the messages get acrossModulationWith this protocol a 36 kHz carrier frequency is used to transmit the pulses This helps to increase the noise immunity at the receiver side and at the same time it reduces powerdissipated by the transmitter LED The duty cycle of the pulses is 13 or 14Each message is preceded by a header pulse with the duration of 4167 μs 15 pulses of the carrier followed by a space of 2778 μs 10 periods of the carrier This header is followed by 12 or 24 bits of dataBy changing the distance between the pulses two bits of data are encoded per pulse Below you find a table with the encoding timesProtocol RCMM comes in 3 different flavours called modes Each mode is intended for a particular purpose and differs mainly in the number of bits which can be used by the application All data is sent with MSB firstThe 12 bit mode is the basic mode and allows for 2 address bits and 8 data bits per device family There are 3 different device families defined keyboard mouse and game pad The 2 address bits provide for a way to use more than 1 device simultaneously The data bits are the actual payload data The 24 bit mode also know as extended mode allows more data to be transmitted per message For instance for multi-lingual keyboards or a high resolution mouseIn the OEM mode the first 6 bits are always 0 0 0 0 1 1 The。

常用万能遥控器代码这是它的常用电器代码Manufacturer TV CodesSony 1Admiral 02,13,14,09,34AOC 12,11Audio Dynamic 14,37,12,35Bell & Howell 30,43,28,41,19,09,38Brocsonic 03,12,11Craig 22,23,20,21,19,17,18Croslex 11,10Curtis Mathis 03,19,23,16,20Daewoo 35,36,03,04,27,28,31,32,72,41Daytron 13,12Emerson 22,13,20,21,23,03,15,04,14,30,32,19,12,17,18,84,65,63,66,52,83,54,73,71Fisher 25,11,22,28,32,33,31,68,72General Electric 02,18,03,07,06,10,15,60,61,68,62,63 Goldstar 03,13,12,30,04,17,11,26,72,63,46Hitachi 31,13,03,32,02,04,29,27,12,28,74,75,69JC Penney 03,02,30,07,26,05,04,28JVC 28,29,09,25,82KTV 33,13,03,23,24,04,14,26,31,29,12,20,30,66,76,69,34LXI (Sears) 02,03,11,25,19,12,04,07,08,10,22,16 Magnavox 11,12,13,03,04,08,10,55,56,57,58,59 Mitsubishi/MGA 24,03,12,04,13,21,11,63,72NEC 03,12,04,11,72Panasonic 18,16,17,07,06,15,37,38,62,49PentexPhilco 11,13,03,04,08,10,12,72,59,55,56,58,57Philips 11,06,10Pioneer 37,18,19,16,33,11,69,15Quasar 18,07,06,15,62,48Radio Shack 02,12,24,23,11,21,20RCA/Proscan 02,03,04,05,06,07,08,10,21,22,23,24, 25,67,68,69,44,45,53Samsung 26,12,13,03,04,19,23,11,70,72Sanyo 25,11,22,78,79,33,38Scott 23,12,20,11,84Sharp 14,13,15,03,05,08,12Signature 2000 14,09,13,34Sylvania 11,12,03,04,08,10,13,55,56,57,58,59,77 Symphonic 23,39,14,20,36,40Toshiba 19,14,20,16,13Videch 31,03,12,27,03,11Wards 13,03,15,12,14,11Zenith 09,10,15,34************************************************ Manufacturer TV/VCR Combo CodesDaewoo (tv) 36,28,32 (vcr) 41,36,39Emerson (tv) 18,21,28,17 (vcr) 18,17,20,19,35,38,23,22 General Electric (tv) 27,24 (vcr) 21,22,19,20,24, 25 Goldstar (tv) TV Code (vcr) 30,35Magnavox (tv) 11,18,10,15 (vcr) 09,10,07,08Panasonic (tv) 18,06,15 (vcr) 08,09,04,07,06, 11,12Quasar (tv) 18,15,48 (vcr) 09,07RCA/Proscan (tv) 18,15 (vcr) 08,06Samsung (tv) 23,27,33,20,24 (vcr) 21,22,26,41,24,19,20,25,29Symphonic (tv) 23,14,20 (vcr) 38,28,36,41Toshiba (tv) 19,14,20,16,13 (vcr) 12,11,07,10,09,15,14,52 ************************************************* Manufacturer VCR CodesSony 01,02,03,04,05,06Admiral 27,25,30Akai 52,53,54Aiwa 38,36,41,44,50AOC 12Audio Dynamic 17,40Bell & Howell 14,09,38,13,34,35,33,46Brocsonic 17,19,20,22,17Cannon 09,08,07,06,12,11Citizen 32,30,35Craig 15,02,32,13,78,18,35Criterion 15Curtis Mathis 04,38,09,36,07,41,12Daewoo 41,12,09,04,20,36,39,10,07,76,44,15DBX 14,36,37,12,34,35,17,39,40Dimensia 04,07Emerson 41,19,20,16,17,18,21,29,32,35,38,15,14,12,03,54,61,44,22,23Fisher 30,34,35,33,09,10,11,14,28,32,31,22,78,37, 38,36 Funai 28,38,36,41General Electric 29,04,09,07,37,27,80,32,12General InstrumentGoldstar 32,24,30,71,35Go Video 51,42,43Hitachi 08,04,05,06,07,59,11,38HQ 15Instant Replay 09,08,07,06,12,11JC Penney 09,05,04,30,14,12,34,35,36,37,08,07,33,17, 39,40 JVC 14,36,37,15,12,58,34,35,57,17,47,48,49,39, 40Kenwood 14,36,32,37,12,34,30,35,17,39,40LXI (Sears) 38,32,05,33,34,30,35,06,09,11,14,24,31,28,41,08,36,37,52Magnavox 10,08,09,04,05,06,07,82,13,12,11Marantz 14,36,37,12,34,35,17,39,40Marta 32,30,35Memorex 09,35,07,33,12,38Minolta 05,04,08,07Mitsubishi/MGA 23,24,25,26,17,18,21,22,65,66,67,27,28,29, 56,57 Mutitech 28,41,24NEC 14,36,37,15,22,30,12,34,35,12,57,17,39,40Olympic 09,08,07,06,12,11Optimus 27Panasonic 08,09,06,07,04,05,42,43,10,11,12Pentex 05,04,06,07Philco 08,09,04,05,06,07,11,12Philips 10,08,09,04,05,06,07,82,13,11,12Pioneer 08,10,09,06,11Quasar 08,09,04,05,06,07,73,54,54,56,11,12,10RCA/Proscan 04,05,08,09,10,11,12,13,06,07,19,20,23,80,81,14,15,16Realistic 09,30,28,35,24,38,07,26,33,22,36,12,31,27,41 Samsung 23,31,41,22,20,11,19,62,63,64,25,16,24Sansui 14,12,17Sanyo 30,35,14,28,33,68,25,38Scott 12,13,21,35,23,10,11,19,54,33,22,24,25,26,15,16,38,27,28,29Sharp 27,28,12,13,25,26,67,30,31Shintom 15,33,13,18Signature 2000 38,27,36,25,41,30Singer 15,13,18Sylvania 10,08,09,38,04,05,06,07,36,82,13,11,12,41 Symphonic 38,28,36,41Tashiro 32,30,35Tatung 14,36,37,12,34,35,17,39,40Teac 14,36,38,37,12,34,36,35,17,39,41,40Technics 09,08,07,06,12,11Toshiba 12,11,07,10,09,15,14,52Wards 27,28,35,31,32,25,26,33,30,31,38,34Yamaha 30,14,36,37,33,17,39,40Zenith 31,16,29,34************************************************** Manufacturer Cable Box CodesHamlin/Regal 22,23,24,25,26Jerrold/G.I. 01,02,03,04,05,06,07,08,18Oak 27,28,29Panasonic 19,20,21Pioneer 14,15Scientific Atlanta 09,10,11Tocom 16,17Zenith 12,13Manufacturer Receiver/Amplifier CodesSony 01Aiwa 22,27Denon 12,13,14Fisher 34JVC 05,06Kenwood 03,04Magnavox 35Nakamichi 16Onkyo 09,20Panasonic 21Philips 24Pioneer 02,25RCA 28,29,31Sansui 16,17,23Sharp 12,30Teac 15,18,19Technics 07,08,21Yamaha 10,11************************************************* Manufacturer CD Player CodesSony 01Aiwa 30,32Denon 24Fisher 27JVC 05,06,07Kardon 40Kenwood 08,09,10Magnavox 22,23Nakamichi 14Onkyo 17,18Panasonic 29Philips 22,26Pioneer 02,13RCA 12,38,39Sansui 14,16,34Sanyo 27Shewood 41Sharp 24,28Teac 15,25,37Technics 03,04,29Yamaha 19,20,21*************************************************** Manufacturer DBS Tuner CodesSony 01Hughes 04Panasonic 03RCA/Proscan 02Toshiba 06*************************************************** Mini Hi-Fi component system codesManufact. Code Number for each sectionReceiver CD TapeSony 0l 01 01Admiral 33 33 -Aiwa 22 30 -27 32 16Denon 12 24 13Garrard 19 37 -Harman 38 43 -Jensen 37 31 29JVC 06 06 0405 05 03Kenwood 04 09 0g03 08 07Marantz 32 26 28Mclntosh 39 43 -Onkyo 09 17 09Panasonic 21 29 19Pioneer 25 13 20RCA 26 11 25Sansui 17 16 18Sharp 30 28 -12 24 13Sound-sigh 36 35 -Teac 15 - 14Technics 21 29 1907 03 0508 04 06Yamaha l0 19 1111 20 121。

史上最全的红外遥控器编码协议目录1MIT-C8D8 40k2 MIT-C8D8 33K3SC50560-001003P4M504625M50119P-016M50119L7RECS808M30049LC7464M10LC7461-C1311IRT1250C5D6-0112Gemini-C6-A13Gemini-C614 Gemini-C17 3136K -115KONKA KK-Y26116PD6121G-F17DATA-6BIT18Custum-6BIT19M9148-120SC3010 RC-521 M50560-1 40K22 SC50560-B123C50560-002P24M50119P-0125M50119P-126M50119P27IRT1250C5D6-02 28HTS-C5D6P29Gemini-C1730Gemini-C17 -231data6bit-a32data6bit-c33X-Sat34Philips RECS-80 35Philips RC-MM36Philips RC-637Philips RC-538Sony SIRC39Sharp40Nokia NRC1741NEC42JVC43ITT44SAA3010 RC-536K45SAA3010 RC-538K46NEC2-E247 NEC-E348 RC-5x49 NEC1-X250 _pid006051 UPD1986C52 UPD1986C-A53 UPD1986C-C54 MV500-0155 MV500-0256 Zenith S101 MIT-C8D840KMIT-C8D840K是一种常见的红外遥控编码格式该格式出现在万能遥控器ZC-18A 600-917 中Features 基本特点18位地址码8位数据码结束码2脉宽调制方式PWM3载波400 KHZ4逻辑位时间com msModulation 调制逻辑0Logical0是由935us的无载波间隔和280us的40KHZ载波组成图中表示的是有载波和无载波间隔的总长度逻辑1Logical1是由280us的40KHZ载波和2156us的无载波间隔组成Protocol 协议从上图中可看到 MIT-C8D840K一帧码序列是由8位地址码8位数据码和结束码组成长按键不放发出的码波形序列如下图即将整个波形以周期4478ms进行重复2 MIT-C8D8 33KMIT-C8D8 33K 是一种常见的编码格式该格式来源于OMEGA万能遥控器码组号为0138及祝成万能遥控器ZC-18A码组号为644735736Features 基本特点18位地址码8位数据码2脉宽调制方式PWM3载波33KHZ4逻辑位的时间comsModulation 调制隔组成图中表示的是有载波和无载波间隔的总长度2逻辑1Logical1是由280us的33KHZ载波和2156us的无载波间隔组成Protocol 协议从上图可以看到MIT-C8D8 33K 一帧码序列是由8位地址码8位数据码长按键不放发出的码波形序列如下图就是将第一帧波形以周期501ms进行重复3 SC50560-001003P 分割码未有数据标注SC50560-001003P是一种常见的红外遥控编码格式该格式出现在CL311URC-8910RM-123CRM-139S的062码组ZC-18A600-917ZC-18A400-481RM-301C VT3620AVT3630RM-402C的TV-012码组Features 基本特点1引导码8位地址码分割码未有数据标注 8位数据码结束码2脉宽调制方式PWM3载波38KHZ4逻辑位时间comModulation 调制逻辑0Logical0是由520us的38KHZ载波和520us的无载波间隔组成图中表示的是有载波和无载波间隔的总长度隔组成Protocol 协议从上图中可看到 SC50560-001003P一帧码序列是由引导码 8ms 的载波和4ms的间隔 8位地址码分割码8位数据码和结束码组成长按键不放发出的码波形序列如下图即将整个波形以周期12002ms进行重复4 M50462M50462是一种常见的红外遥控编码格式该格式出现在RM-123CRM-139SZC-18A600-917RM-301C VT3620AVT3630RM-402C Features 基本特点18位地址码8位数据码结束码2脉宽调制方式PWM3载波38 KHZ4逻辑位时间comModulation 调制逻辑0Logical0是由260us的38KHZ载波和780us的无载波间隔组成图中表示的是有载波和无载波间隔的总长度逻辑1Logical1是由260us的38KHZ载波和1799us的无载波间隔组成Protocol 协议从上图中可看到 M50462一帧码序列是由8位地址码8位数据码和结束码组成长按键不放发出的码波形序列如下图即将整个波形以周期45ms 进行重复5 M50119P-0142K 分割码未有数据标注M50119P-0142K是一种常见的红外遥控编码格式该格式出现在URC-8910CBL-0009 ZC-18A 600-917 的736码组ZC-18A 400-481 VT3630的SAT-001码组Features 基本特点1数据帧4位地址码6位数据码分割码4位地址码相同码6位数据码相同码结束码重复帧用户码相同码结束码2脉宽调制方式PWM3载波418 KHZ4逻辑位时间comsModulation 调制逻辑0Logical0是由967us的418KHZ载波和967us的无载波间隔组成图中表示的是有载波和无载波间隔的总长度逻辑1Logical1是由967us的418KHZ载波和2901us的无载波间隔组成Protocol 协议从上图中可看到 M50119P-0142K两帧码序列是由数据帧4位地址码6位数据码分割码4位地址码相同码6位数据码相同码结束码重复帧地址码相同码结束码长按键不放后续发出的波形如下长按键不放发出的码波形序列如下图就是将重复帧波形以周期62855ms进行重复M50119LM50119L是一种常见的红外遥控编码格式该格式出现在万能遥控器CL311URC-8910VCR-0041INTER DIGI-SATVT3630中Features 基本特点13位地址码7位数据码结束码2脉宽调制方式PWM3载波379 KHZ4逻辑位时间comModulation 调制逻辑0Logical0是由260us的379KHZ载波和780us的无载波间隔组成图中表示的是有载波和无载波间隔的总长度逻辑1Logical1是由260us的379KHZ载波和1820us的无载波间隔组成Protocol 协议从上图中可看到 M50119L一帧码序列是由3位地址码7位数据码和结束码组成长按键不放发出的码波形序列如下图即将整个波形以周期255ms 进行重复7 RECS8068RECS8068是一种常见的红外遥控编码格式该格式来源于URC8910的CD-0764码组Features 基本特点12位控制码 3位地址码6位数据码结束码2脉宽调制方式PWM3载波33KHZ4逻辑位时间comModulation 调制逻辑0Logical0是由160us的33KHZ载波和5600us的无载波间隔组成图中表示的是有载波和无载波间隔的总长度逻辑1Logical1是由160us的33KHZ载波和8480us的无载波间隔组成Protocol 协议从上图中可看到RECS8068一帧码序列是由2位控制码 3位地址码6位数据码结束码组成的长按键不放发出的码波形序列如下图整个波形以周期1383ms进行重复8 M3004 CarrierM3004 Carrier是一种常见的红外遥控编码格式该格式出现在遥控器CL311 RM-123CRM-139S148ZC-18A600-917ZC-18A400-481RM-301CINTER-DIG I-SAT VT3620AVT3630RM-402CTV-060中Features 基本特点1引导码1位翻转码 3位地址码6位数据码结束码2脉宽调制方式PWM3载波38KHZ4逻辑位时间comModulation 调制逻辑0Logical0是由141us的38KHZ载波和4919us的无载波间隔组成图中表示的是有载波和无载波间隔的总长度逻辑1Logical1是由141us的38KHZ载波和7449us的无载波间隔组成Protocol 协议从上图中可看到 M3004 Carrier一帧码序列是由1位引导码 1位翻转码 3位地址码6位数据码结束码组成的长按键不放发出的码波形序列如下图整个波形以周期121651ms 进行重复9 LC7464M 校验码怎么算的LC7464M是一种常见的红外遥控编码格式该格式出现在万能遥控器CL311URC-8910 RM-139SZC-18A600-917ZC-18A400-481VT3620AVT3630Features 基本特点1引导码15位地址码4位校验码4位地址码28位数据码8位校验码结束码3载波38KHZ4逻辑位时间comModulation 调制逻辑0Logical0是由420us的38KHZ载波和420us的无载波间隔组成图中表示的是有载波和无载波间隔的总长度逻辑1Logical1是由420us的38KHZ载波和1260us的无载波间隔组成Protocol 协议从上图中可看到 LC7464M一帧码序列是由引导码 com的间隔15位地址码4位校验码4位地址码28位数据码8位校验码结束码组成长按键不放发出的码波形序列如下图整个波形以8297ms的周期进行重复10 LC7461-C13LC7461-C13是一种常见的红外遥控编码格式该格式出现在万能遥控器CL311URC-8910RM-123CRM-139S101ZC-18A600-917RM-301CVT3630RM-402C的TV-131码组Features 基本特点1数据帧引导码13位地址码13位地址码-反码8位数据码8位数据码反码结束码重复帧3载波38KHZ4逻辑位时间comModulation 调制逻辑0Logical0是由560us的38KHZ载波和560us的无载波间隔组成图中表示的是有载波和无载波间隔的总长度逻辑1Logical1是由560us的38KHZ载波和1680us的无载波间隔组成Protocol 协议数据帧从上图中可看到 LC7461-C13一帧码序列是由引导码 9-ms的载波和45ms的间隔 13位地址码13位地址码-反码 8位数据码8位数据码反码结束码组成重复帧由结束码组成长按键不放发出的后续波形如下图其发出的整个码波形序列如下图由重复帧开始以周期10811ms 进行重复11 IRT1250C5D6-010HzIRT1250C5D6-010Hz是一种常见的红外遥控编码格式该格式出现在万能遥控器VT3620A中Features 基本特点1引导码5位地址码6位数据码结束码3载波00 KHZ4逻辑位时间comsModulation 调制逻辑0Logical0是由16us的00KHZ载波和160us的无载波间隔组成图中表示的是有载波和无载波间隔的总长度逻辑1Logical1是由16us的00KHZ载波和368us的无载波间隔组成Protocol 协议从上图中可看到IRT1250C5D6-010Hz一帧码序列是由引导码0016 ms的载波和0545ms的间隔 5位地址码6位数据码结束码16-54316-593136us组成长按键不放发出的码波形序列如下图即将整个波形以周期596208ms进行重复12 Gemini-C6-A40KGemini-C6-A40K是一种常见的红外遥控编码格式该格式出现在万能遥控器VT3630的SAT-034码组Features 基本特点1地址帧引导码7位地址码2结束码数据帧引导码相同码7位数据码结束码地址帧相同帧数据帧相同帧2脉宽调制方式PWM3载波400 KHZ4逻辑位时间长度是105msModulation 调制逻辑0Logical0是由525us的无载波间隔和525us的40KHZ载波组成图中表示的是有载波和无载波间隔的总长度逻辑1Logical1是由525us的40KHZ载波和525us的无载波间隔组成Protocol 协议从上图中可看到 Gemini-C6-A40K由四帧码组成地址帧码序列由引导码 coms的间隔 7位地址码和结束码组成数据帧码序列由引导码相同码 coms的间隔 7位数据码和结束码组成地址帧相同帧同地址帧数据帧相同帧同数据帧长按键不放发出的码波形序列如下其整个码波形序列如下图就是将第三第四帧波形以周期693ms 进行重复13 Gemini-C63136Gemini-C63136是一种常见的红外遥控编码格式该格式出现在万能遥控器CL311与VT3620A中Features 基本特点1引导码7位数据码结束码2脉宽调制方式PWM3载波310 KHZ4逻辑位时间comsModulation 调制逻辑0Logical0是由496us的无载波间隔和496us的31KHZ载波组成图中表示的是有载波和无载波间隔的总长度逻辑1Logical1是由496us的31KHZ载波和496us的无载波间隔组成Protocol 协议从上图中可看到 Gemini-C63136一帧码序列是由引导码 053ms 的载波和265ms的间隔 7位和结束码组成长按键不放发出的码波形序列如下图即将整个波形以周期90724ms进行重复14 Gemini-C17 3136K -1Gemini-C17 3136K -1是一种常见的红外遥控编码格式该格式来源于CL311Features 基本特点1引导帧引导码10位地址码结束码地址帧引导码相同码10位地址码2结束码引导帧相同帧数据帧引导码相同码10位数据码结束码引导帧相同帧2脉宽调制方式PWM3载波304KHZ4逻辑位时间长度是106msModulation 调制逻辑0Logical0是由530us的304KHZ载波和530us的无载波间隔组成图中表示的是有载波和无载波间隔的总长度逻辑1Logical1是由530us的无载波间隔和530us的304KHZ载波组成Protocol 协议从上图中可看到 Gemini-C17 3136K -1帧码其依次为引导帧码序列是由引导码 com的间隔 10位地址码与结束码206ms组成用户帧码序列是由引导码-相同码 com的间隔 10位地址码2与结束码 1025ms 组成引导帧-相同帧码与引导帧码相同数据帧码序列是由引导码-相同码 com的间隔 10位数据码与结束码 11714ms 组成引导帧-相同帧码与引导帧码相同长按键不放后续发出的波形如下其整个码波形序列如下图就是将第四第五帧波形以周期1653ms 进行重复15 KONKA KK-Y261KONKA KK-Y261是一种常见的红外遥控编码格式该格式来源于RM-123CRM-139S的113码组RM-301C RM-402C的204码组Features 基本特点1引导码8位地址码 8位数据码结束码2脉宽调制方式PWM3载波38KHZ4逻辑位时间长度是3ms或2msModulation 调制逻辑0Logical0是由500us的38KHZ载波和1500us的无载波间隔组成图中表示的是有载波和无载波间隔的总长度逻辑1Logical1是由500us的38KHZ载波和2500us的无载波间隔组成Protocol 协议从上图中可看到 KONKA KK-Y261一帧码序列是由引导码 3ms的载波和3ms的间隔 8位地址码 8位数据码结束码组成长按键不放发出的码波形序列如下图即将整个波形以周期66ms 进行重复16 PD6121G-FPD6121G-F是一种常见的红外遥控编码格式Features 基本特点1引导码8位地址码8位地址码28位数据码8位数据码反码2脉宽调制方式PWM3载波38KHZ4逻辑位时间comsModulation 调制逻辑0Logical0是由564us的38KHZ载波和564us的无载波间隔组成图中表示的是有载波和无载波间隔的总长度逻辑1Logical1是由564us的38KHZ载波和1692us的无载波间隔组成Protocol 协议从上图中可看到 PD6121G-F一帧码序列是由引导码 coms的间隔 8位地址码8位地址码2 8位数据码8位数据码反码组成长按键不放发出的码波形序列如下图即将整个波形以周期108ms 进行重复17 DATA-6BITDATA-6BIT是一种常见种常见的红外遥控编码格式该格式来源于RM-301C RM-402C195Features 基本特点16位数据码2脉宽调制方式PWM3载波38KHZ4逻辑位时间comModulation 调制逻辑0Logical0是由440us的38KHZ载波和1540us的无载波间隔组成图中表示的是有载波和无载波间隔的总长度逻辑1Logical1是由440us的38KHZ载波和3362us的无载波间隔组成Protocol 协议从上图中可看到DATA-6BIT一帧码序列仅是由6位数据码组成长按键不放发出的码波形序列如下图即将第一帧波形以周期28ms进行重复18 CUSTUM6BITCustum-6BIT是一种常见的红外遥控编码格式该格式出现在CL311URC-8910RM-123CRM-139S148ZC-18A600-917ZC-18A400-481RM-301CINTER-DIGI-SAT VT3620AVT3630RM-402CFeatures 基本特点16位数据码2脉宽调制方式PWM3载波38KHZ4逻辑位时间com19 M9148-1M9148-1是一种常见的编码格式Features 基本特点13位地址码1位控制码8位数据码2脉宽调制方式PWM3载波38168KHZ4逻辑位的时间长度是1848msModulation 调制1逻辑0Logical0是由462us的38168KHZ载波和1386us的无载波间隔组成图中表示的是有载波和无载波间隔的总长度2逻辑1Logical1是由1386us的38168KHZ载波和462us的无载波间隔组成Protocol 协议从上图可以看到M9148-1一帧码序列是由3位地址码1位控制码8位数据码长按键不放发出的码波形序列如下图就是将第一帧波形以周期56023ms进行重复20 SC3010RC-5SC3010 RC-5是一种常见的编码格式该格式来源于众合万能遥控器RM-139S码组号为013208215216218及万能遥控器祝成ZC-18A码组号为682684685854691709Features 基本特点12位控制码1为翻转码5位地址码6位数据码2脉宽调制方式PWM3载波38KHZ4逻辑位的时间长度是1688msModulation 调制1逻辑0Logical0是由844us的38 KHZ载波和844us的无载波间隔组成图中表示的是有载波和无载波间隔的总长度2逻辑1Logical1是由844us的38KHZ载波和844us的无载波间隔组成Protocol 协议从上图可以看到SC3010 RC-5一帧码序列是由2位控制码1位翻转码5位地址码6位数据码长按键不放发出的码波形序列如下图就是将第一帧波形以周期127156ms进行重复21 M50560-1 40KM50560-1 40K 是一种常见的编码格式该格式来源于万能遥控器众合RM139-S码组号为040069076083068125127268及万能遥控器众合RM-33C码组号为0016006700720073Features 基本特点18位地址码8位数据码2脉宽调制方式PWM3载波40KHZ4逻辑位的时间长度是1ms或2msModulation 调制1逻辑0Logical0是由500us的40KHZ载波和500us的无载波间隔组成图中表示的是有载波和无载波间隔的总长度2逻辑1Logical1是由500us的40KHZ载波和1500us的无载波间隔组成Protocol 协议从上图可以看到M50560-1 40K 一帧码序列是由8位地址码8位数据码长按键不放发出的码波形序列如下图就是将第一帧波形以周期678ms进行重复22 SC50560-B1SC50560-B1是一种常见的编码格式Features 基本特点15位数据码2脉宽调制方式PWM3载波38KHZ4逻辑位的时间comModulation 调制1逻辑0Logical0是由520us的38KHZ载波和2080us的无载波间隔组成图中表示的是有载波和无载波间隔的总长度2逻辑1Logical1是由520us的38KHZ载波和4160us的无载波间隔组成Protocol 协议从上图可以看到SC50560-B1一帧码序列是由5位数据码长按键不放发出的码波形序列如下图就是将第一帧波形以周期120ms进行重复23 C50560-002PC50560-002P是一种常见的编码格式该格式来源于视贝万能DVB遥控器码组号为195Features 基本特点18位地址码8位数据码2脉宽调制方式PWM3载波38KHZ4逻辑位的时间comModulation 调制1逻辑0Logical0是由520us的38KHZ载波和520us的无载波间隔组成图中表示的是有载波和无载波间隔的总长度2逻辑1Logical1是由520us的38KHZ载波和1560us的无载波间隔组成Protocol 协议从上图可以看到M50560-002P 一帧码序列是由8位地址码8位数据码长按键不放发出的码波形序列如下图就是将第一帧波形以周期36006ms进行重复24 M50119P-01 38KM50119P-01 38K 是一种常见的编码格式Features 基本特点14位地址码4位地址码的相同码6位数据码6位数据码的相同码2脉宽调制方式PWM3载波38KHZ4逻辑位的时间comsModulation 调制1逻辑0Logical0是由967us的38KHZ载波和967us的无载波间隔组成图中表示的是有载波和无载波间隔的总长度2逻辑1Logical1是由967us的38KHZ载波和2901us的无载波间隔组成Protocol 协议从上图可以看到M50119P-01 38K 一数据帧码序列是由4位地址码6位数据码4位地址码相同码6位数据码相同码一重复帧由4位地址码相同码长按键不放发出的码波形序列如下图就是将第一帧波形以周期385156ms进行重复25 M50119P-1 40KM50119P-1 40K 是一种常见的编码格式该格式来源于OMEGA万能遥控器码组号为0041Features 基本特点13位地址码7位数据码2脉宽调制方式PWM3载波40KHZ4逻辑位的时间长度是1ms或2msModulation 调制1逻辑0Logical0是由500us的40KHZ载波和500us的无载波间隔组成图中表示的是有载波和无载波间隔的总长度2逻辑1Logical1是由500us的40KHZ载波和1500us的无载波间隔组成Protocol 协议从上图可以看到M50119P-1 40K 一帧码序列是由3位地址码7位数据码长按键不放发出的码波形序列如下图就是将第一帧波形以周期275ms进行重复26M50119PM50119P是一种常见的编码格式该格式来源于OMEGA万能遥控器码组号为0384及众合万能遥控器RM-139S码组号为041Features 基本特点13位地址码7位数据码2脉宽调制方式PWM3载波3791KHZ4逻辑位的时间长度是1ms或2msModulation 调制1逻辑0Logical0是由500us的379KHZ载波和500us的无载波间隔组成图中表示的是有载波和无载波间隔的总长度2逻辑1Logical1是由500us的379KHZ载波和1500us的无载波间隔组成Protocol 协议从上图可以看到M50119P一帧码序列是由3位地址码7位数据码长按键不放发出的码波形序列如下图就是将第一帧波形以周期30ms进行重复27IRT1250C5D6-02 0HzIRT1250C5D6-02 0Hz 是一种常见的编码格式Features 基本特点15位地址码6位数据码2脉宽调制方式PWM3载波无载波4逻辑位的时间comsModulation 调制1逻辑0Logical0是由16us的无载波和224us的无载波间隔组成图中表示的是无载波和无载波间隔的总长度2逻辑1Logical1是由16us的36KHZ载波和480us的无载波间隔组成Protocol 协议从上图可以看到IRT1250C5D6-02 0Hz 一帧码序列是由引导码0016ms的无载波和0732ms的间隔5位地址码6位数据码长按键不放发出的码波形序列如下图就是将第一帧波形以周期597251ms进行重复28HTS-C5D6PHTS-C5D6P是一种常见的编码格式该格式来源于OMEGA万能遥控器027*********Features 基本特点15位地址码6位数据码1位校验码2脉宽调制方式PWM3载波38KHZ4逻辑位的时间com4624msModulation 调制1逻辑0Logical0是由136us的38KHZ载波和1360us的无载波间隔组成图中表示的是有载波和无载波间隔的总长度2逻辑1Logical1是由136us的38KHZ载波和2856us的无载波间隔组成3逻辑3Logical3是由136us的38KHZ载波和4488us的无载波间隔组成Protocol 协议从上图可以看到HTS-C5D6P一帧码序列是引导码coms的间隔5位地址码6位用户码1位校验码长按键不放后续发出波形如下长按键不放发出的码波形序列如下图就是将第一帧波形以周期89381ms进行重复29Gemini-C17 3136KGemini-C17 3136K 是一种常见的编码格式该格式主要来源于OMEGA万能遥控器码组号分别为013402250289032203970400045104580859Features 基本特点110位地址码引导码的相同码10位数据码2脉宽调制方式PWM3载波304KHZ4逻辑位的时间长度是106msModulation 调制1逻辑0Logical0是由530us的304KHZ载波和530us的无载波间隔组成图中表示的是有载波和无载波间隔的总长度2逻辑1Logical1是由530us的304KHZ载波和530us的无载波间隔组成Protocol 协议从上图可以看到Gemini-C17 3136K 用户帧码序列是由引导码com的间隔10位地址码数据帧码序列由引导码的相同码10位数据码长按键不放后仍发出如下波形长按键不放出码的波形序列如下图就是将第一帧以周期19997ms 进行重复30Gemini-C17 3136K -2Gemini-C17 3136K -2是一种常见的编码格式该格式主要来源于OMEGA万能遥控器码组号分别为01350376Features 基本特点116位地址码 16位数据码2脉宽调制方式PWM3载波31KHZ4逻辑位的时间长度是106msModulation 调制1逻辑0Logical0是由530us的31KHZ载波和530us的无载波间隔组成图中表示的是有载波和无载波间隔的总长度2逻辑1Logical1是由530us的31KHZ载波和530us的无载波间隔组成Protocol 协议从上图可以看到Gemini-C17 3136K -2用户帧码序列是由引导码com的间隔16位地址码数据帧码序列由引导码com的间隔16位数据码长按键不放后仍发出如下波形长按键不放出码的波形序列如下图就是将第一帧以周期21609ms 进行重复31data6bit-adata6bit-a是一种常见的编码格式该格式来源于祝成万能遥控器ZC-18A码组号673Features 基本特点16位数据码2脉宽调制方式PWM3载波333KHZ4逻辑位的时间comsModulation 调制1逻辑0Logical0是由576us的333KHZ载波和1820us的无载波间隔组成图中表示的是有载波和无载波间隔的总长度2逻辑1Logical1是由576us的333KHZ载波和4200us的无载波间隔组成Protocol 协议从上图可以看到data6bit-a一帧码序列是6位数据码长按键不放发出的码波形序列如下图就是将第一帧波形以周期58092ms进行重复32data6bit-cFeatures 基本特点16位数据码2脉宽调制方式PWM3载波20KHZ4逻辑位的时间长度是2 ms或4msModulation 调制1逻辑0Logical0是由1000us的20KHZ载波和1000us的无载波间隔组成图中表示的是有载波和无载波间隔的总长度2逻辑1Logical1是由1000us的20KHZ载波和3000us的无载波间隔组成Protocol 协议从上图可以看到data6bit-c一帧码序列是6位数据码构成长按键不放发出的码波形序列如下图就是将第一帧波形以周期725ms进行重复33X-Sat ProtocolX-Sat ProtocolI call this the X-Sat protocol because it is used in the X-Sat CDTV 310 Satellite receiver made by the French company Xcom This protocol is probably also used in other X-Sat receivers but I have no means to verify that I havent seen this protocol anywhere else but that doesnt guarantee that it is unique to the X-Sat brandFeatures8 bit address and 8 bit command lengthPulse distance modulationCarrier frequency of 38kHzBit time of 1ms or 2msModulationThe X-Sat protocol uses pulse distance encoding of the bits Each pulse is a 526祍 long 38kHz carrier burst about 20 cycles A logical "1" takes 20ms to transmit while a logical"0" is only 10ms The recommended carrier duty cycle is 14 or 13ProtocolThe picture above shows a typical pulse train of the X-Sat protocol With this protocol the LSB is transmitted first In this case Address 59 and Command 35 is transmitted A message is started by a 8ms AGC burst which was used to set the gain of the earlier IR receivers This AGC burst is then followed by a 4ms space which is then followed by the Address and Command A peculiar property of the X-Sat protocol is the 4ms gap between the address and the command The total transmission time is variable because the bit times are variableAn IR command is repeated 60ms for as long as the key on the remote is held down34Philips RECS-80 Protocol 38kHz carrierThis protocol is designed by Philips and transmitters are produced by Philips SAA3008 and ST M3004 Personally I have never seen this protocol being used in real applications All information on this page is derived from the data sheet of the Philips SAA3008 and the ST M3004 10624pdfThere are 2 small differences between the two competitor ICs The Philips IC has two modes of operation one which iscompatible with the ST chip and one which can handle up to 20 sub-system addresses The ST chip has the capability of switching the modulation carrier offFeatures7 or 20 sub-system addresses 64 commands per sub-system address1 or2 toggle bits to avoid key bouncePulse distance modulationCarrier frequency of 38kHz or unmodulatedBit time logic "0" is 51ms logic "1" is 76ms 455kHz OscillatorCommand repetition rate 1215ms 55296 periods of the main oscillatorManufacturer Philips STModulation 13 duty cycleNormal Protocol The drawing below shows a typical pulse train of a normal RECS-80 message This example transmits command 36 to address 4Usually the first pulse is a reference pulse with a value of "1" The receiver may use this bit to determine the exact bit lengthThe next bit is a toggle bit Its value is toggled whenever akey is released which results in a different code every time a new key is pressed This allows the receiver to discriminate between new key presses and key repetitionsOnly the ST chip M3004 can disable its carrier in which case the REF pulse is interpreted as a second toggle bit The 2-bit toggle value is incremented every time a key is released Thus only in this mode there is no real REF pulseThe next 3 pulses S2 to S0 represent the sub-system address bits sent with MSB first This would allow for 8 different sub-system addresses but both the SAA3008 and the M3004 can only generate 7 sub-system addresses in normal mode Next come the 6 command bits F to A also sent with MSB first allowing for 64 different commands per sub-system addressThe pulse train is terminated by a last pulse otherwise there is no way to know the duration of bit AThe entire command is repeated with unchanged toggle bits for as long as the key is held down The repetition rate is 1215ms 55296 periods of the oscillatorAddress assignments are a bit odd with this protocol You can not simply convert the binary value to a decimal value Below you see a table explaining the relationship between the binary and decimal sub-system address valuesExtended Protocol If you need more than 7 sub-system addresses you can use the extended protocol which allows 13 additional sub-system addresses only if you use the SAA3008 The drawing below shows an extended message This example transmits command 36 to address 10The first two pulses are a special start sequence The total duration of these pulses is equal to a normal "1" period The next bit is a toggle bit Its value is toggled whenever a key is released which results in a different code every time a new key is pressed This allows the receiver to discriminate between new key presses and key repetitionsThe next 4 pulses S3 to S0 represent the sub-system address bits This would allow for an additional 16 different sub-system addresses although the SAA3008 can only generate 13 additional sub-system addresses in this mode Next come the 6 command bits F to A also sent with MSB firstThe pulse train is terminated by a last pulse otherwise there is no way to know the duration of bit AThe entire command is repeated with unchanged toggle bits for as long as the key is held down The repetition rate is 1215ms 55296 periods of the oscillatorAddress assignments are a bit odd with this protocol Youcan not simply convert the binary value to a decimal value Below you see a table explaining the relationship between the binary and decimal sub-system address values35 Philips RC-MM ProtocolRC-MM was defined by Philips to be a multi-media IR protocol to be used in wireless keyboards mice and game pads For these purposes the commands had to be short and have low power requirementsWhether the protocol is actually used for these purposes today is unknown to me What I do know is that some Nokia digital satellite receivers use the protocol 9800 series Features 12 bits or 24 bits per messagePulse position coding sending 2 bits per IR pulseCarrier frequency of 36kHzMessage time ranges from 35 to 65 ms depending on data contentRepetition time 28 ms 36 messages per secondManufacturer PhilipsTransmission timingIn this diagram you see the most important transmission times The message time is the total time of a message counting form the beginning of the first pulse until the end of the lastpulse of the message This time can be 35 to 65 ms depending on the data content and protocol usedThe signal free time is the time in which no signal may be sent to avoid confusion with foreign protocols on the receivers side Philips recommends 1 ms for normal use or 336 ms when used together with RC-5 and RC-6 signals Since you can never tell whether a user has other remote controls in use together with an RC-MM controlled device I would recommend always to use a signal free time of 336 msThe frame time is the sum of the message time and the signal free time which can add up to just about 10 ms per message Finally the repetition time is the recommended repetition time of 27778 ms which allows 36 messages per second This is only a recommendation and is mainly introduced to allow other devices to send their commands during the dead times No provision is made for data collisions between two or more remote controls This means that there is no guarantee that the messages get acrossModulationWith this protocol a 36 kHz carrier frequency is used to transmit the pulses This helps to increase the noise immunity at the receiver side and at the same time it reduces powerdissipated by the transmitter LED The duty cycle of the pulses is 13 or 14Each message is preceded by a header pulse with the duration of 4167 μs 15 pulses of the carrier followed by a space of 2778 μs 10 periods of the carrier This header is followed by 12 or 24 bits of dataBy changing the distance between the pulses two bits of data are encoded per pulse Below you find a table with the encoding timesProtocol RCMM comes in 3 different flavours called modes Each mode is intended for a particular purpose and differs mainly in the number of bits which can be used by the application All data is sent with MSB firstThe 12 bit mode is the basic mode and allows for 2 address bits and 8 data bits per device family There are 3 different device families defined keyboard mouse and game pad The 2 address bits provide for a way to use more than 1 device simultaneously The data bits are the actual payload data The 24 bit mode also know as extended mode allows more data to be transmitted per message For instance for multi-lingual keyboards or a high resolution mouseIn the OEM mode the first 6 bits are always 0 0 0 0 1 1 The。

万能遥控器代码一览表国内电视:长虹000. 008. 009. 091. 092. 093. 010. 011. 014. 016 .026. 028. 033. 051. 088.100.157.158.159. 160. 161. 180 .181. 185 .186 .191. 192 .210. 211. 212. 229. 230 .231 .232康佳011 .017 .029 .032 .034. 054 .067 .069 .071 .075 .076 .077 .0创维 .045.046.060 .070. 017 .072. 073. 074. 079. 083.010 .107. 108 .109 162 163 .164 .165 .166 .167. 168. 169. 177. 224.225. 235. 246熊猫001. 011. 016. 021. 022. 023 .024 .025. 026. 028 .033 .040 .043. 053. 056.009. 057. 058 051. 061. 062.073. 079. 089. 091 .124 .125 .234.237. 238. 239 .240.241.242. 243. 244 245 247. 248 .249 .250. 251TCL 051.053 .068. 071 .073. 082 .083.084 .085. 110 .111 .170 .171. 172.178. 179 .187.188.197 .198.199. 200 .233海尔103 .112 .118 .119. 150. 151 .152 .153 .154 .155 .156. 182. 183. 184. 193. 194 .213 .228海信000. 006 .007. 008. 010 .014 .015. 025. 045. 046 .103. 105.107 .115 .116 .128. 129.130.131138 .139.150 .151 .152 .153 .154 .155 .156 .182 .183 .184 .193 .194 .213 .228 金星007. 008. 011 .013. 024. 025. 032. 033 .039 .051 .065 .071 .073.079 .091 .097 .138福日007 .011 .015. 028. 033. 034. 040. 043. 053. 056. 060 .061 .065 .079 安华ANHUA 017. 001. 032. 047百花BAIHUA 016. 025 .033 .053. 056. 079百合花BAIHEHUA 023. 024. 040. 043百乐BAILE 016. 025. 012 .019. 026. 027.028. 029 .030. 031. 042宝声BAOSHENG 011. 025. 016北京 . 019 .016. 023. 024. 025. 027 .028.029 .030. 031.033 .044 .043 .050 .053 .056 .026 .079.091 .039. 042.051. 021. 122 .126宝花石BaoHuaShi 033.053.056. 079彩虹CAIHONG 011. 025. 016彩星CAIXING 023. 024. 040 .043长城011 .016 .017. 023 .024 .025.033. 040 .043 .053. 056 .001 .012. 029 031 .042. 079海虹HAIHONG 016 .025 .026 .027. 028 .029 .030海乐HAILE 032. 047海燕HAIYAN 011. 023. 024 .033. 040. 043.053 .056. 079环宇HUANY 011.015. 023. 024. 033 .040. 043. 053. 056 .009. 057. 058虹美HONGMEI 003. 011. 016 .018 .023. 024. 025 .033 .040. 043. 056. 009.057 .058. 079红岩HONGYAN 011.033. 053. 056. 079菊花JUHUA金海JINHAI金凤JINFENG .022金塔JINTA金鹊JINQUE嘉华JIAHUA .032昆仑KUNLUN凯歌KAIGE康力KANGLI 027.012.康虹KANGHONG康立KANGLI 016.023024.025.040.043.康艺KANGYI孔雀KONGQUE快乐KUAILE乐华ROWA龙江LONGJIANG利华LIHUA 011牡丹MUDAN .016.020.021.022.025.032.033.040.043.053.056.059. 美乐MEILE梦寐MENGMEI .043南声NANSHENG青岛QINGDAO如意RUYI神彩SHENCAI 9山茶SHANGCAI上海SHANGHAI韶峰SHAOFENG沈阳SHENGYAN塞格SAIGE三元SANYUAN泰山TAISHAN天鹅TIANE翔宇XIANGYU西湖XIHU 8厦华XIAHUA雪莲XUELIAN星海XINGHAI新日松XINRISONG莺歌0YINGGEYUHANG永固YONGGU永宝YONGBAO珠海ZHUHAI赣新GANXIN华发HUAFA华强HUAQIANG 033.053.056.07 9 ZAPAIJI飞跃FEIYUEFEILANG南宝NANBAOFEIYAN新思达123XINSIDA彩凌102CAILING高路华000CONROWA豁达特技032.001.017.047. HUODATEJIAOLINPIKECHENGDU长风CHANGFENG长飞CHANGFEI长海 .123CHANGHAI春兰142CHUNLAN春风CHUNFENG春笋 .CHUNSUN东宝TOBO东大016.025.DONGDA东海016.025.DONGHAI飞鹿FEILU黄河HUANGHEHUANGHAIMEI黄山HUANGSHANHUANGLONG华日HUARIDS6315三合一万能型电视遥控器代码表(续一) 国外电视:松下〔乐声〕PANASONIC〔NAYIONAL〕夏普SHARP .025.135.136.137三菱MITSUBISHI 011.051.东芝TOSHIBA三星SAMSUNG胜利JVC 004三洋SANYO高土达GOLDSTAR飞利浦PHILIPS爱华AIWAJVC 089日电NEC大宇DAYU皇冠033.053.056.012.IMPERIAL-COWN富土通FUJITSU 048华丽FULI 047尼康NIKON优拉纳斯YONLANASI奥林普AOLINGPU 104佳丽彩JIALICAIVCD局部：奇声QiSheng IRC-3039.IRC3030D, 300 影之宝YingZhiBao , 301索尼SONY, VCP-K10, 302东大DONGDA, 303杂牌机ZAPAIJI, 304奇声QiSheng, 305杂牌机ZAPAIJI,306新科Shinco, RC-006 , 307奇声QiSheng,IRC3020A, 308万利达MALATA, VCP-N28P, 309步步高BBK ,RCU-H, 310万利达MALATA, VCP-N28F, 311新科Shinco, RC-12G, 312索尼SONY, RMT-M40A, 313索尼SONY, RMT-D109E, 314杂牌机ZAPAIJI, 315杂牌机ZAPAIJI,ANB-999, 316杂牌机ZAPAIJI,317杂牌机ZAPAIJI ,VCD-A300,318杂牌机ZAPAIJI,319RMS,VD-30A ,320奇声QiSheng,IRC-3000, 320杂牌机ZAPAIJI,321杂牌机ZAPAIJI, 多用2220-001, 322亿通YITONG, Rm2004,323DONGAN, 324奇声QiSheng,IRC-3028,325新科Shinco,RC-002 RC-12S,326新科Shinco ,RC-16H RC-012 RC-260,327长虹CHANGHONG，VK1A，328长虹CHANGHONG，329步步高BBK，DF058(A)，330杂牌机ZAPAIJI，A9815，331健伍JIANGWU，RC-P0501，332安侨ANQIAO，RC-375DV，333帝禾DIWA，334日立HITACHI，SV-RMW1，335金格JINGE，336杂牌机ZAPAIJI，337厦新AMOI，RC-010 RC-010G，338飞利浦PHILIPS，339厦新AMOI，RC-012，340杂牌机ZAPAIJI，DVD，341长虹CHANGHONG ，VR4A，342爱多IDALL ，IV-730BK，343乐华ROWA，IV-830BK，343步步高BBK，AB007K，344厦新AMOI，RC-003，345步步高BBK，AB007K ，346新科Shinco，RC-08C，347爱多IDALL ，IV-820BK，348松下PANASONIC，RAK-SL429WH，349万利达MALATA，UCP-N28K，350松下PANASONIC，RAK-SL208WH RAK-SLA04SH，351 万利达MALATA，VCP-N30B，352松下PANASONIC，RAK-LX140WH，353万利达MALATA，VCP-N28 VCP- N30，354厦新AMOI，355杂牌机ZAPAIJI，036飞利浦PHILIPS，357爱多IDALL，IV-3DBK，358东芝TOSHIBA，359爱华AIWA，360先科XIANKE，361先科XIANKE，362万利达MALATA，VCP-N28B，363兆维ZHAOWEI，364长虹CHANGHONG，364杂牌机ZAPAIJI，365蚬华XIANHUA，VP-101D，366马士兰MaShiLan，RC500LV，367东芝TOSHIBA，VC-659 ，368爱多IDALL，RM-1，369东芝TOSHIBA，SE-R0037，370爱华AIWA，RC-8AT05，371先锋XIANFENG，CU-CLD151 CU-CLD145，372爱多IDALL，IV-620 ，373东芝TOSHIBA，RM-L8，374JVC，RM-RMV5U，375天龙TIANLONG，RC-543，376东鹏DONGPENG，CVD-970，377夏普SHARP，MV-K7000，378彩尼CAINI，VCD，379VICTOM，RM-SVD701，380杂牌机ZAPAIJI，381PHISONEET，382JVC，XL-M705，383RMS，384爱多IDALL ，308 320 330 350 385先锋XIANFENG，CU-DV003，386步步高BBK，AB903K，387金正NINTAUS，GVD-8801 N350D N350，388杂牌机ZAPAIJI，389步步高BBK AB-001A AB-007B 391新科Shinco，RC-007 RC-12E RC-12F RC-005RC-12B VCD-719 ，392 爱多IDALL，IV-361BK 360BK，393索尼SONY，394厦新AMOI，RC-001，395健伍JIANGWU，RC-L0200 RC-L0300，396三星SAMSUNG，397金正NINTAUS ，VCD-J7001H VCD-6803H，398金正NINTAUS，PDVD-N768 DVD-N700 DVD-N701 DVDN926F，399DS6315三合一万能型电视遥控器代码表(续三)DVD局部：厦新AMOI 107 114 189 190帝禾Dlwa ，433飞乐FEIYUE ，429.492科泰KETAI ，434松鼎SongDing ，431爱浪AILANG，435. 439华宝HUABAO ，437熊猫PANDA ，415TOSHIBA ，418索尼SONY ，456三水SHANSHUI，420SINGER ，425大宇DAYU，426主人ZHUREN ，427巨大JIUDA，436LG，441松下Panasonic ，442三星SAMSUNG ，443先峰XIANFENG,，444JVC，445。

遥控器对应万能代码杂牌的，代码101：50J1，50J2，07C，55L7，53P4，54B3，50S8，RS02，RS06，SG32900，52Y7，代码103：5Z26，55K2，54B4，57L5 代码104：52H4，52H8，5Y29，5Y29A,5R19还有一种37160的CPU，两台用同样的M301-RS09遥控器，但万能代码却有些不同，有178，180，117，268，等代码。

不知为什么。

发射芯片3010的，代码023，024-----------9012，代码033-----------50462，代码011下面这三种只是个大概：老东芝（黑机壳），代码000，014（都行，只是有无AV，菜单）---索尼--------------，代码005，094，049（都行，有无菜单）---松下--------------，代码002，020。

康佳KKY112，KKY141，KKY168，代码080，KKY239,代码081------KKY250，代码075，TCL：RC-R07T，代码110，-------RC-C08T，代码073，金星VM101，代码008，9028-011 代码 0797461（IR）代码1327462 代码011长虹K1系列，代码033K2系列，代码011K3系列，代码023，024K4系列，代码000，014以下括号内是科朗遥控器代码海尔/海信彩电遥控器型号对应编码HYDFSR-0102 305HYDFSR-0123 307 HYDFSR-0126 6122 339 HYDFSR-0134 304LCD20001EU 309 HTR-022 118 HTR-001 175 HTR-044 272 HYDFSR-0077/0079 116HYF40A 205 HY-2002/2004 189HY-2007/2000 190 HY-2011/2010 191 HYDFSR-0106 271 HYDFSR-0090 171 HYDFSR-0076/0076A 171 HYDFSR-0092 171 HYF-28D 073 HYDFSR-0045 299 HYDFSR-0037/0026/0060 115 HYDFSR-0041/0040/0047 115 HYDFSR-0091 172 HYDFSR-0070/0070A/0124 173 HYDFSR-0058/A003 193 HYDFSR-0021 224 HDP2999D/DP2902H 266DP2999/TDF2901 266 HYDFSR-0111 270 SR6333K 028 HYDFSR-0088 269 HYDFSR-0089 269 HYDFSR-A018 273 HYDFSR-0083/0094/0056 192HYDSR-0002 128 HYDFSR-0002 129YKF-36B 130 HYDFSR-0114 274HYF-26C 105(081) HYDFSR-0024/0010/0016/0027 105(081) HYDFSR-A011L/0001/0016 105(081)HYF-35A/34A/31H/31D 201HYF31H/29A 201HYF-31/33D/31T 119HYF-24F/24D/24S 103(028) HYDFSR-A016 131 HYDFSR-A200E 188 HYDFSR-0048/0046/0048L 178(030) HYDFSR-A027/0048LW/0046G 178(030) HYDFSR-0046GM/0073 178(030) HTR-003 178(030) HYDFSR-0081 187HTR-018 138 HYDFSR-0048A 139 HYDFSR-0043/0043L 174 HYDFSR-0054/0072/0084 186HX-0027/0016 (731) HYDSR-0122 (502)TF2111G (025) －001 (148)王牌彩电遥控器型号(彩电型号）对应编码LCD2726H 316NT21A41B 313 LCD37A71/42B66/32B66 315 LCD32B03 317RC-C10T/C08T/R08T/C01T 084(026)RC-F02T/14T/15T/E03T/E04T/10T/20T 068(017) RC-E05T/E06T/E35T 068(017)RC-E13T/E16T/E18T/E50T 083RC－E41T156RC-B01/06T 181(163)RC-061/091 053(348)背投247液晶等离子246C-TCL-02 244C-TCL-01 244TCL-432 111RC-G01T 144HID29181D 243RC-039/C09T/C11T 082(184)RC-098T 040RC-083 218RC-097H 249RC-078B/078D 085PDP4225 098RC-F46T/F62F/R06T/F38T/R05T 110PDP4226 216 34158H/29158/AT25181/21288 248 29T60HD/HID34158H/R/HID29158H/R 248HID29276PB/HID29276H 248RC-092 071(264) RC-F30T/F28T (813) RC-036 023(048) RC-F42T/F55T (016) AT21211A/AT2170/AT21228 110(168) RC-031/038 181(163)长虹彩电遥控器型号对应编码KLC5B 300K16C/D/E/G/H 087(405)K9E/F 100K9A/9C/9D 182K9B/K3B/D/E/H/K3B-A 218(381)K5C/D 058K6C-1/K6C/D/F/G/K/L 226KY1 025K2A/B 011K11B 052K1Q/L/A/B/D 079(916)K10B 086K8A/B/D 082(105)K1M 093K12A/D/G 088(031)K7B 183K4D/L/N 089K7A 090K11F/G 091K18D/E 159K16K/16A/KT5A/KDT5A/K16T/P/Q 162 K16J 184(865) K12S 290KDT3A 291KDT7A/B/KT8B 292K6C-3/K4A 288(055)K4K/P 289K6E (681)K12R (356)K11N 090(764)佳丽彩电彩电型号对应编码EC2103/EC2013/EC2187M 033(004) EC2183M 124(683)EC2061AR (148)EC2989MH (355)EC2123 053(673)孔雀彩电KQ-2188/G 024(698)KQ-2188D 011(328) KQ-2189 053 其它彩电彩电型号（遥控器型号）对应编码上海Z654－8H1/7E1（728）上海Z647－2A004百合花B2988－A063永固M50560－001122（457）凯歌4C4901－1051(277)赛博CU2981039（064）赛博CU2581039（064）康佳彩电遥控器型号对应编码Y286C 302Y252J 303Y274E 301Y125 252Y180 164Y194 164Y232A 235Y97/Y25 054Y98A 073Y160/Y202 078Y02 079(004) Y226A/Y239A/Y262A 081 Y216 081Y232/Y183/Y183A/Y183B 0816014A 0326014W/Y06 017Y15/Y19/Y01/Y07/Y58/Y08 051Y261 113Y252H 157Y252I 255Y274B 256Y274C 257Y92/Y55/Y16/Y85/Y84 034(340)Y93/Y100/Y166/Y181 080Y178/Y170/Y211/Y175 080Y168/Y179/Y212/Y172 080Y112/Y176/Y141 080Y80/Y52/Y17/Y05/Y59 043Y248/Y226C/Y226B 253Y259 163Y123B/Y123 165Y269B 163Y72 067Y60A 029Y113/Y159/Y119/Y96 076Y132/Y78/Y96/Y102 076Y98/Y103/Y104/Y86/Y79/Y60Y62 069Y225/Y186 077Y252E/Y252 117(354)Y268D 254Y268C/Y268D 254Y211/Y173/Y231/Y07/Y231A 075Y237A/Y237 075Y250/Y250A/Y250B/Y250C/Y250D 250 Y271A/Y252I 255(423) Y226C/Y248 (016) 松下彩电遥控器型号（彩电型号）对应编码52H8 104EUR644660/644661 020VJM-03 001TNQ2647 022EUR50700 066EUR50710/50708/50706 002EUR50707 002TNQE100/101 002EUR51914/511023 002EUR511022/511026 002TNQE098/099 002RS03 17821V1/21K3/25K2/29B1 24825V1/29AIP/29V1/29A1/25K3 248R2518 057106/YKF-3 011TC511-1R 025N21K7/N21K8/N21K9 268102K9 268105-198D 140TC-2188/TC-21E1R 002山东松下TC－2159068（342）高路华彩电遥控器型号（彩电型号）对应编码CON01056CON03056CON04212TC2181016CON06/02008D66001052183AA/TH-2192PLUS1312185M073DTV-2988/3488175TB01/TB03073LA01097TN－2965AE025TN－2183TD（455）TN－2956AE（132）创维彩电遥控器型号（彩电型号，机芯）对应编码21T16HN 27529T61HT30829T88HM309SYKYOP18/33T88HT 311HS－541310CW－07/5P03070CW－08/5A01/5P01 0714P30/4P36/3P30/5P30/3P21 169（356）5Y301965D70109LCD15AAB/8TT12825P10/3P20/5P201075D261986M202846D72/6D76168（025）6D78 209 （芯片是9012）3Y01/4Y01/3Y20（674）CW－4T36108（409）5N01/4N01 （021）29TP9000（040）3S35（596）3S30（107）6M23280CW－11/3Y01/3Y204Y01 0455S28/3S281763S30279f5D20/5D25/5D2614343PTV300/43P88HDI/51P88HDI 24343P580HD/51P580HD/45P800W 24348P800W/43P680HD/51P680HD 2435M011945I0119530LBAT276262CATW2774Y21101CW－03/4B25074（079）CW-04/5S01/5S01A 072CW－020604S011603N010465N01/4N010465N20/3N20 1804T01/5T03 0735T20200（058）5T28/5T30/5T36/3T30/4T30108（084）4T36/5T25 108(084)杂牌机/拼装机遥控器型号对应编码9L860044SL860A 036RS06D/RS03 1025Z26A/K39/KD06/55K2/57L5 103(028)54B4 103（028）52H8/52H8A/KD29/5Y29 1045Y27/52H4 10450J2/50J1A/53P4/55K8 klx-931y 101(006) SZY-B/52K7A 101(006)RC09 178RS09-M301/M301S/M304 268LB-N21K/W7-M30B 268RM03 07752E4/TX55L7/55Y5/EKEA 101(006)RS02 102J50S8/HJ-06/54B3/55K7 101(006)57S4/58D7/5Y30/54H6 101(006)西湖彩电遥控器型号对应编码HYDF－4P011（277）HYDF－8S219HYF－4T/4D/4I 038HYF-3L26E/3L26C 220(239)C6404 098HYF－3P221HYF－5G222HYF－3H079（105）HYF－10011（277）WL－7461B131（130）WL－001/SY016－M1 016(148) HYF-3L26A/3L26/3L26B 212(238) M304 268(459)三洋彩电遥控器型号对应编码JXPSA/JXMR 1057EC1 1027EC 0577E1 0977EA 0997EB 132SYT1700 1051LB4U10B01202 1051LB4U10B01201 1051AV0U10B00800 1051LB4U10B00400 202(993)CK21D100 (081)夏普彩电遥控器型号对应编码G1077PESA136G0833PESA136TC－9807003G1011CESA137G1274PESA/G1133PESA 135(171)G0676CESA/G0602CESA 018G0615CESA/G0771CESA 018G0756CE/G0933PESA 018G0816CESA 018G0329CESA 148三星彩电遥控器型号对应编码C-SS-01 122 3F14-00034-270 122 HYDF-A3 008 HYDF-A6 105 HYDF-F91 128 HYDF-B2 233 T-3004 160 3F14-00034-901/983/900 0503F14-00038-121 0503F14-0038-310 0503F14-0034-982/5S-3827 050BP59-00008B 265AA59-00312F 265 PS42P3S 298 HYDF-2162/FP5J 0243F14-00034-B90 0243F14-00038-242 0393F14-00038-150 039 HYDF-2163/AA59-10014R 0393F14-00038-450/HYDF-2181 039HYDF-B3/10 079。

电视遥控器常用格式规格简述1. 6122格式注：此格式重复码有两种，一种与首帧相同。

另一种重发类引导头2. 3010（8521）格式，带奇偶校验位（控制位）编码它由4部分组成，参见图：图1 数据格式图2 SAA3010编码方式发射波形a)起始位部分——1.5bit(2个逻辑“1”，或一个“1”和“0”)b)控制位部分——1bit（“1”或“0”用于判断按键是否持续和二次按键）持续按键保持原值”1”或”0”,二次按键原值取反，“1”变“0”，“0”变“1”。

c)用户编码位部分——5bitd)指令编码位部分——6bit图3 重复码发送时间图4 “0”和“1”的波形图5 载波波形码的传送采用双相位技术，请参看上图4，由1/12振荡频率、25%占空比脉冲调制的编码信号由MD OUT 端子输出。

码举例： 用户码：D8/F8 , 键码：2E ,2C SAA3010 RC-5: 111 11000 101110 2E SAA3010 RC-5: 110 11000 101110 2E SAA3010 RC-5: 111 11000 101100 2C SAA3010 RC-5: 110 11000 101100 2C用户码：A4/84 , 键码：28 ,25SAA3010 RC-5: 100 00100 101000 28SAA3010 RC-5: 101 00100 101000 28 SAA3010 RC-5: 100 00100 100101 25 SAA3010 RC-5: 101 00100 100101 253.7461格式4.504625.9012（9028）格式尾码中带的逻辑“0”或“1”为用户码C0位的反，C0=1,尾码为0，C0=0位码为1注：此格式持续按键有两种重发方式1.发尾码方式;2.重发发首帧方式6.50560格式7.3004格式，带奇偶验证位KONKA-3004码型的一帧数据由5位用户码、6位数据码组成。