gm8180-tw2835_evb_1v1_080331

· 8MP, 1/2.7" CMOS image sensor, low illuminance, high image definition· Outputs max. 8MP (3840 × 2160) @15 fps, and supports 2688×1520(2688 × 1520) @25/30 fps· H.265 codec, high compression rate, ultra-low bit rate· Built-in IR LED, max IR distance: 30 m· ROI, SMART H.264/H.265, flexible coding, applicable to variousbandwidth and storage environments· Rotation mode, WDR, 3D DNR, HLC, BLC, digital watermarking,applicable to various monitoring scenes· Intelligent detection: Intrusion, tripwire· Abnormality detection: Motion detection, video tampering, no SD card,SD card full, SD card error, network disconnection, IP conflict, illegalaccess, voltage detection· Supports max. 256 GB Micro SD card· 12V DC/PoE power support· IP67, IK10 protectionSystem OverviewWith upgraded H.265 encoding technology, Dahua Lite series networkcamera has efficient video encoding capacity, which saves bandwidthand storage space. This camera adopts the latest starlight technologyand displays better color image in the condition of low illumination.It supports SD card storage, dust-proof function, waterproof functionand vandal-proof function, complying to the standards of IP67 and IK10(Supported by some select models).FunctionsSmart CodecWith advanced scene-adaptive rate control algorithm, Dahua smartencoding technology realizes the higher encoding efficiency than H.265and H.264, provides high-quality video, and reduces the cost of storageand transmission.WDRWith advanced Wide Dynamic Range (WDR) technology, Dahua networkcamera provides clear details in the environment of strong brightnesscontrast. The bright and dark area can get clear video even in highbrightness environment or with backlight shadow.StarlightDahua Starlight technology mainly applies to the environment oflow illuminance, and it can provide clear colorful video. Even in theenvironment of ultra-low illuminance, the technology can guarantee thegood image effect.IVSWith advanced video algorithm, Dahua IVS technology supportsintelligent functions, such as tripwire and intrusion.Protection (IP67, IK10, wide voltage)IP67: The camera passes a series of strict test on dust and soak. It hasdust-proof function, and the enclosure can works normal after soakingin 1 m deep water for 30 minutes.IK10: The enclosure can stand the punch more than 5 times from a 5 kghammer falling from a height of 40 cm (Impact energy is 20J).Wide voltage: The camera allows ±30% input voltage tolerance (widevoltage range), and it is widely applied to outdoor environment withinstable voltage.8Mp H.265+StarlightVandal-proofIVSRev 001.001© 2019 Dahua. All rights reserved. Design and specifications are subject to change without notice.Pictures in the document are for reference only, and the actual product shall prevail.PFM114TLC SD CardAccessories Optional:PFA136Junction Box PFA200W Rain Shade PFA106Mount Adapter PFA152-E Pole Mount PFB220C Celling MountPFB203W Wall MountPFM321D DC12V1A PowerAdapterLR1002-1ET/1EC Single-port Long Reach Ethernet over Coax ExtenderPFM900-E Integrated MountTester。

目录JBL音响系列 (6)JBL 3635 (6)JBL 3677 (6)JBL 3678 (7)JBL 3731 (8)JBL 3732 (9)JBL 4641 (10)JBL 4642A (10)JBL 4645C (11)JBL 4670D (12)JBL 4675C (12)JBL 4675C-4(8)LF (13)JBL 4722/4722N (14)JBL 4732 (15)JBL 5672 (16)JBL 5674 (17)JBL 8320 (17)JBL 8340A (18)JBL 8350 (19)JBL AC15 (19)JBL AC16 (20)JBL AC18/26 (21)JBL AC18/95 (21)JBL AC25 (22)JBL AC26 (22)JBL AC28/26 (23)JBL AC28/95 (24)JBL AL6115 (24)JBL AM4200/64 (26)JBL AM4200/95 (27)JBL AM4215/64 (28)JBL AM4215/95 (29)JBL AM4315/64 (31)JBL ASB4128 (32)JBL ASB6118 (33)JBL BC Series Cinema (33)JBL 3252N和3252 (34)JBL4181 (35)JBL 8281 (37)JBL CBT 100LA (38)JBL CBT 70J (40)JBL CBT 70JE (41)JBL CONTROL 1 PRO (42)JBL CONTROL 100 系列 (43)JBL CONTROL 23 (43)JBL CONTROL 25AV (44)JBL CONTROL 29AV-1 (46)JBL CONTROL 30 (47)JBL CONTROL 300 系列 (49)Control 328C/328CT (49)Control 321C/321CT (50)Control 321C/321CT (50)Control 312S (51)MTC-300BB8 (51)MTC-300SG12 (51)MTC-300RG8 (52)MTC-300T150 (52)JBL CONTROL 5 (53)JBL CONTROL 924C/924CT (54)JBL CONTROL 925 (56)JBL CONTROL 926C/926CT (58)JBL CONTROL 928 (59)JBL CONTROL CRV (61)JBL CONTROL SB210 (63)JBL CSA-2120 2 x120W 音频放大器 (64)JBL CSM-21 (65)JBL CSM-32 公共广播放大器 (67)JBL CSS-1S/T (69)JBL CSS-8006BM 吸顶扬声器 (71)JBL CST-2120 70V/100V 变压器套件 (72)JBL EON 210P (73)JBL EON 305 (74)JBL EON 315 (75)JBL EON 510 (76)JBL EON 515 (77)JBL EON 515XT (78)JBL EON 518S (79)JBL JRX112M (80)JBL JRX112Mi (81)JBL JRX115 (82)JBL JRX115i (83)JBL JRX118S (84)JBL JRX118SP (85)JBL KP610 (86)JBL KP612 (88)JBL KP615 (89)JBL KP618S (90)JBL KS308 (92)JBL KS310 (93)JBL KS312 (94)JBL LSR4312P (95)JBL LSR4326P (96)JBL LSR4328P (99)JBL MDD200 系列音箱 (103)JBL MP510 (104)JBL MRX512M (105)JBL MRX515 (105)JBL MRX518S (106)JBL MRX525 (107)JBL MRX528S (107)JBL PRX400 系列 (108)PRX412M12“两路舞台监听扬声器系统 (108)PRX415M15“两路舞台监听扬声器系统 (109)PRX42515寸两分频扬声器系统 (110)PRX418S18“重低音 (110)JBL PRX512M (111)JBL PRX515 (112)JBL PRX518S (113)JBL PRX525 (114)JBL PRX535 (114)JBL PRX612M (115)JBL PRX615M (116)JBL PRX618S (117)JBL PRX618S-XLF (118)JBL PRX625 (118)JBL PRX635 (119)JBL SRX700 系列 (120)SRX712M: (120)SRX715 (121)SRX718S (121)SRX722 (122)SRX725 (122)SRX728S (122)SRX738 (123)JBL SRX712M (123)JBL SRX715F (124)JBL SRX722F (126)JBL SRX725F (126)JBL SRX728S (127)JBL SRX738F (128)JBL STX800 系列 (129)STX812M 12”两分频，低音反射式，舞台返听/通用式 (129)STX815M 15”两分频，低音反射式，舞台返听/通用式 (130)STX825 双15”两分频，低音反射式 (131)STX835 Dual 15" 双15”三分频，加载中/高音号筒，槽孔式加载低音 (132)STX818S 单18”低音反射式套装选配件 (133)STX828S 双18”低音反射式 (134)JBL VP7212-64DPAN (135)JBL VP7212-95DPAN (135)JBL VP7215-64DPAN (136)JBL VP7215-95DPAN (137)JBL VP7315-64DPAN (138)JBL VPSB7118DPAN (138)JBL VRX915M (139)JBL VRX915S (140)JBL VRX918S (140)JBL VRX918SP (141)JBL VRX928LA (141)JBL VRX932LA-1 (142)JBL VRX932LAP (142)JBL VT4880 (143)JBL VT4881A (143)JBL VT4881ADP (144)JBL VT4882 (144)JBL VT4882DP (145)JBL VT4883 (145)JBL VT4886 (146)JBL VT4887A (147)JBL VT4887ADP (147)JBL VT4888 (148)JBL VT4888DP (149)JBL VT4889 (150)SHURE 话筒系列 (150)Shure Beta 52A (150)Shure Beta 56A (152)Shure Beta 57A (153)Shure Beta 58A (154)Shure Beta 87A (155)Shure Beta 87C (156)Shure PGX1 (158)Shure PGX2 (158)Shure PGX4 (159)Shure PSM200 (159)Shure SLX (162)Shure SLX1 (164)Shure SLX2 (165)Shure SLX4 (166)Shure SM48 (168)Shure SM57 (169)Shure SM58 (170)Shure SM81 (171)Shure SM87A (172)Shure SM94 (173)Shure ULX (175)Shure ULX1 (177)Shure ULX2 (179)Shure ULXP4 (180)JBL音响系列JBL 3635影院次低频扬声器规格频率范围28Hz - 500kHz (-10dB) 频率响应38Hz - 100kHz (±3dB) 额定功率300W分频点100Hz灵敏度100dB @ 1W,1m阻抗8 欧姆低频驱动器(S) 2042H体积(高x 阔x 深) 1168 x 651 x 368mm 净重(每只51kgJBL 3677影院扬声器规格频率范围40Hz - 20kHz (-10dB) 频率响应45Hz - 12kHz (±3dB) 额定功率250W覆盖角度水平：90°垂直：40°分频点 1.2kHz灵敏度99dB SPL @ 1W,1m 阻抗8 欧姆低频驱动器(S) 2035H高频驱动器2416-1号角2373低频-高频-体积(高x 阔x 深) 765 x 651 x 292 mm JBL 3678规格频率范围30Hz - 20kHz (-10dB) 频率响应45Hz - 12kHz (±3dB) 额定功率300W覆盖角度水平：90°垂直：90°分频点1kHz灵敏度98dB SPL @ 1W,1m 阻抗8 欧姆低频驱动器(S) 2226H高频驱动器2425HS号角2342系统组合低频：3678 – HF高频：3678 - HF体积(高x 阔x 深) 1019 x 651 x 292 mmJBL 37313731 三分频银幕线阵列•专门用于后期制作室、VIP 电影厅、审片室•保证了高品质的声音，同时适应了小型放映场所的需要•应用了多项JBL 的专利先进技术•可选择以双功放或三功放驱动•出厂预装及指向调校完毕规格频率范围(-10dB) 30Hz - 20kH频率响应(±3dB) 40Hz - 19kHz指向性因数(Q 10.0指向性指数(DI) 10dB最大声压级125dB @ 1m分频点频率350Hz, [1.2kHz]灵敏度103dB, 2.83V@1m阻抗8 欧姆额定功率LF: 600WM/HF: 150W, [HF:85W]系统组合5641/3732 -M/HF体积(高x 阔x 深) 1600 x 762 x 450 mm 净重(每只) 51.8 kgJBL 37323732 三分频银幕线阵列•可用于最大300 座位的影厅•应用了与4632 一样的先进的技术•可以满足各种预算•可选择以双功放或三功放驱动•出厂预装及指向调校完毕规格频率范围30Hz - 20kHz (-10dB)频率响应40Hz - 19kHz (±3dB)指向性因数(Q) 10.0指向性指数(DI) 10dB最大声压级125dB @ 1m分频点频率350Hz, [1.2kHz]灵敏度103dB, 2.83V@1m阻抗: 4 欧姆额定功率LF: 500WM/HF: 150W, [HF:85W]系统组合3639/3732 -M/HF[4639/3732 - M/HF - T]体积(高x 阔x 深) 1937 mm x 762 mm x 450 mm 净重(每只) 77.9kgJBL 46414641 影院次低频扬声器•性能价格比优越的次低频系统•单460-mm(18英寸)JBL 2241 VGC TM (孔隙冷却技术)2241H低频换能器规格频率范围25Hz - 500kHz (-10dB)频率响应(±3dB) -额定功率600W分频点100Hz灵敏度100dB @ 1W,1m阻抗8 欧姆低频驱动器(S) 2042H体积(高x 阔x 深) 1010 mm x 674 mm x 450 mm 净重(每只) 60kgJBL 4642A4642A 影院次低频扬声器•双460-mm (18英寸)单元•应用了VGC TM (孔隙冷却技术) 2241H 低频换能器•1200 瓦功率，平滑的频率响应规格频率范围(-10dB) 22Hz - 500Hz频率响应(±3dB) -额定功率1200W分频点80 to 100Hz灵敏度101dB SPL @ 1W,1m阻抗4/8 欧姆低频驱动器(S) 2 x 2241H体积(高x阔x深) 762 mm x 1219 mm x 610 mm 净重(每只) 98kgJBL 4645C4645C 影院次低频扬声器•单460-mm (18英寸) 直辐射低频反射式超低音系统•应用了2242 SVG TM (超级孔隙)技术•800 瓦输出功率规格频率范围(-10dB) To 22Hz (no EQ)频率响应(±3dB) -额定功率800W分频点80 to 100Hz灵敏度：1W,1m 97dB (40 - 100Hz)阻抗8 欧姆低频驱动器(S) 2242H体积(高x阔x深) 1010 mm x 674 mm x 450mm 净重(每只) 63 kgJBL 4670D4670D 影院扬声器•4070D 是一宽频带系统，有着出色的动态范围及均匀的覆盖。

部分电视机CPU型号及简单代换部分电视机CPU型号及简单代换8879CPBNG6V38 海信CPU8873CPBNG6U73 创维CPUTOSHIBA-HAY-22、8873CSCNG6PR6 通用CPUTDA9373PS/N2/AI1115 SVA CPU13-TB73-TM1V001、LC863332A-5T25、LC863332A-5S97 夏华CPU88CS38N-3P48、TMP88PS38 夏华K2918、K2926，解码TB1251TDA9381PS/N3/2/1741 索尼CPUTDA9381PS/N2/3I0837 LG CPUTDA9381PS/N2/3I0975 三星CPUTDA9373PS/N2/AI0939（Haier9373-V2.0）Haier9373-V1.0 海尔CPU V1.0的可以换空白存储器，按遥控器数字8、V+ 进总线LC863324B-54M2、LC863324A-5W21、LC863324C-55M5 海信CPUOM8370-A-3NC、NOM8370-A-1NC 海信、西湖、夏华、彩星CP-2156TCL-M18V3PNICAN、TCL-M11V1P 王牌CPUH13V02-T0、8829CSNG5CJ2、H13V01-T0 TCL CPUTDA9370PS/N2/AI1429（4706-D93705-64）3P36、4P36 创维CPU 4706-D83702-64CH05T1501 长虹CHD2590M37210M3-551SP日立25M8C CPUTDA9373PS/N2/AI0911（A01V01-PH）TDA9373PS/N2/AI0996 TCL 2990UHD0401、S3F880AXZZ 创维（3S30/5S30/5S31）MN152811TJS 松下CPU 85元LC863524C-55L7、53P4、52Y7、TH-50J2 杂牌CPULC863524C-55L6、55Y5、55K8 杂牌CPU87CK38N-3647（TMP87CK38N-3675、1C48）澳柯玛、松王M37221M6-309S 厦华R2920 CPUTDA9380PS/N1/IS0380（TCL-UOC-V01）王牌CPU，用TDA9383PS代替要把60脚接地13-T00S23-03M01、8879CSBNG6K02 乐华25G6BCH08T2602（8873CSANG6JH8）长虹CPUOM8373PS/N3/2/1870（4706-D83732-64）创维短管机专用CPULC863328A-51J8 嘉华CPU8803CPAN-3PE8（8823CPNG4JR6）换存储器、39脚，C205换1UF，ST6378B1/FKF 4S02-3008 创维数码3008TMP47C434N-3526 通用王牌TCL M14VBC 王牌CPUST6367BB1/BFX 不详LC863324A-5N09 海信CPULC864512V-5C77 海信CPUM34300N4-565SPKY88C94 夏华CPUM34300N4-555SP 日立CPULC863328A-5S15 高路华、海信CPUMC8902A-5Y83 熊猫、高路华CPUMC8904A-5Z25 熊猫、高路华、海信、西湖CPUM37210M3-807SP 康力CPUT-P-16 8823CPNG5RH6 熊猫CPU SAA5647HL/M1 飞利蒲CPUOM8373PS/N3/A/1914（OM8373PS/N3/A/1854）康佳短管CPUTMP47C634AN RC18 厦华CPUHAIER1132S、HAIER1532S 海尔21T8D-S、21F9G-Shisense 8803-1（8803CPBNG3VG6）8823CPNG3PE8 海信TC2111A 换存储器、39脚，C205换1UF，OM8370PS/N3/1（HZ10V01）（TOUL 12-02M00）TCL CPUHAIER8829-V2.0（8829CPNG4PG3）海尔CPUCH0504、CH0503 长虹CPUM34302M8-612SP SONY CPUCH04T1306 长虹CPUNOM8370-A-11B 西湖CPUTCL-T00Y12-02M01（LA76931）、TOOY12-01M01 TCL CPUCKP1302S1（8829CPNG6FP6）CKP1302S 康佳CPUP88P8432N、S3C8849X13-AQB7 嘉华CPU OM8373-B-3NC 海信TF2507FLC863328C-55N6、5T45 康佳CPUTDA9373PS/N2/AI0889、4706-D93731-64 5P30 创维CPULC863328B-53P5、LC863328C-56M9、LC863328B-52E4、50J1 SVA CPUR2J10160G8-A12FP、R2J1016008-A06FP 数源S21A07 等13-TOOS13-08M01、8873CSBNG6N15 TCL CPU8873CPANG6HV9 数源TJ21A23 CPU87CM38N-1K45、87CM38N-1U87 夏华XT-259ATAVC139 三洋CPULC863320A-5N94、LC863320A-5N17（3Y01）创维CPUCH05T1604（TDA9370PS/N2/AI0848）长虹超级芯片CH05T1607（TDA9370PS/N2/AI1092）TDA9370PS 长虹超级芯片CH05T1606（TDA9373PS/N2/AI1087）TDA9373PS 长虹超级芯片CH05T1630、OM8373PS/N3/A/1842（CH05T1621）长虹，按键功能错乱，伴音失控。

中之光电科技有限公司ZT3528W0S1-****(0.06W)规格书3.5 mm SMD Hyper White Top LED 3.5 mm 贴片超亮白色发光二极管Features 特征• Package Size ：3.5 (L) ×2.8(W) × 1.2 (T) mm封装尺寸： 3.5 (长) ×2.8 (宽) ×1.2 (厚) mm •Silicone Packed 采用硅胶封装•Super long lifetime超长寿命 •Anti UV 防紫外线•White colors are available in(1800K-15000K) 可供白光(1800K-15000K) •High CRI products 高显色性产品 •Wide viewing angle (2θ1/2=120°) 宽角度 (2θ1/2=120°)Applications •产品应用•Indoor lighting : Fluorescent lamp, tube •室内照明：日光灯管、灯条•Commercial illumination and displays : •商业照明显示：广告字、广告灯箱 Advertising words, light box•LCD Backlighting •LCD 背光源•Decorative lighting : light strip •装饰照明：柔性灯条•Automotive interior auxiliary lighting •Other illumination and displays •其它照明和显示类OOTop View 顶视Side View 侧视OOBin Range of Forward Voltage电压等级代码(at I F = 20 mA, T a = 25 O C )Part No. Description产品型号说明Color Bin Limit色度代码;(at I F = 20 mA, T a = 25 O C )Color Bin色坐标常用BIN区(Common Bin)可选BIN区（Optional Bin）Typical Electro-Optical Characteristics Curves 典型光-电特性曲线图Solder Pad一、PRECAUTONS IN USE LED/使用LED注意事项；LED Soldering condition/ LED焊接条件；1：烙铁焊接：烙铁最高30W尖端温度不超过300℃；焊接时不超过3秒；Manual soldering：iron Maximum 30W，iron bit temperature can not over 300 degree；soldering time should not be more than 3 seconds；Cleanout/清洗；当用化学品清洗LED胶体时须特别小心，因为有些化学品对胶体表面有损伤并引起褪色如三氯乙烯、丙酮，可用乙醇擦拭浸渍，时间在常温下不超过2分钟。

●Customer:T e c h n i c a l D a t a S h e e tTOP View White LED (2835)For:IF=60mAContents1. Features2. Applications3. Package outline dimension4. Absolute maximum ratings5. Electrical-optical characteristics6. Tapping specifications7. Package method8. BIN code description9. BIN range10. Reliability test items and conditions11. Precautions for use12. Hazard substance analysisCustomer confirm ApprovedbyIssuedby※Features:1. Package: 3.5*2.8*0.75mm (TOP view white LED)2. Emitted Color: White3. Mono-color type4. Soldering methods: All SMT assembly methods5. Comply ROHS standard.※Applications:1. LCD back light.2. Mobile phones: LCD,3. Status indicators: Consumer & industrialelectronics.4.General use.※→Package Outline Dimension:NOTES:1.All dimensions are in millimeters (inches).2.Tolerance is ±0.10mm unless otherwise specified.3.Specifications are subject to change without notice.※ Absolute Maximum Ratings(Ta=25℃)Parameter SymbolRatingUnit Power Dissipation Pd240mWForward CurrentI F 60 mAPeak Forward Current ＊1 I FP 240mA Reverse Voltage V R 5 V Operating Temperature Topr -30℃~85℃ - Storage Temperature Tstg -40℃~85℃ - Electrostatic dischargeESD2000V＊1 I FP condition: pulse of 1/10 duty and 0.1ms width.※ Electrical-optical characteristics(Ta=25℃)Parameter Symbol Min. Typ. Max. Unit ConditionForward Voltage Vf 3.0 3.4 V Luminous Intensity Lm 20 23 lm Luminous Intensity Iv65007500mcdColor temperatureCT 3900 4500 K Viewing Angle 2θ1/2 - 120 degI F =60mAReverse CurrentI R - 10 μA VR =5VNote: 1. Tolerance of luminous intensity is ±10%2.Tolerance of forward voltage is ±0.05V色区、色温对照表色区典型CIE坐标色温范围(K) 推荐色区备注WA0.3710.391WB0.3670.371√ 4200KWC 0.3720.3423800-4500WD0.3920.407WE0.3850.3843900KWF 0.3780.3633700-4100WG0.4160.424WH0.4050.397 3500KWI 0.3950.3733400-3700WJ0.439 0.436WK0.4280.4093000K,暖白WL 0.4150.3823000-3400WM0.4670.448WN0.452 0.419 2700KWO 0.4340.3882700-3000WP0.4910.457WQ0.4750.4292500KWR 0.4550.3992500-2700※BIN rangeLuminous intensity (tolerance is ±10%@ If=60mA):BIN CODEMin. (mcd)Max. (mcd)15 5500 6500 16 6500 7500 1775008500※ Forward voltage (tolerance is ±0.05V@If=60mA):BIN CODEMin.(v)Max.(v)7-1 3.0 3.17-2* 3.1 3.2 8-1* 3.2 3.3 8-2* 3.3 3.49-1* 3.4 3.5 9-2*3.53.6※ Reliability test items and conditions:No.Test Item Test ConditionsSample sizeAc/Re1 Operation Life Test If=DC60mATemp: Room temperatureTest time=1000hrs 22 0/12 High Temperature High HumidityTemp. =+85℃RH=85%HRTest time=1000hrs22 0/13 Thermal Shock -35℃ ~ +85℃20min 10s 20minTest Time=300cycles22 0/1 4High Temperature Storage High Temp. =+85℃ Test time=1000hrs22 0/1 5Low TemperatureStorage Low Ta=-35℃ Test time=1000hrs22 0/1 6 Temperature Cycle -35℃ ~ +100℃15min 5min 15minTest Time=300cycle 22 0/1 7 Reflow SolderingOperation heating ：245℃(Max.), within 10seconds. (Max.) 22 0/1※ Judgment criteria of failure for the reliability·Iv: Below 50% of initial values ·Vf: Over 20% of upper limit value ·IR: Over 2 times of upper limit valueNote: Measurement shall be taken between 2 hours and after the test LED have been returned to normal ambient conditions after completion of each test.※ Precautions for use :1. Customer must apply the current limiting resistor in the circuit so as to drive the LEDs within therated current. Otherwise slight voltage shift maybe will cause big current change and burn out will happen.2. Also, caution should be taken not to overload the LEDs with instantaneous high voltage at theturning ON and OFF of the circuit. 3. Storage:3.1 Don’t open the moisture proof bag before ready to use the LEDs.3.2 The LEDs should be kept at 30℃ or less and 60%RH or less before opening the package. The max. storage period before opening the package is 1 year.3.3 After opening the package, the LEDs should be kept at 30℃/35%RH or less, and it shouldbe used within 7 days.3.4 If the LEDs be kept over the conditions of 3.4, baking is required before mounting. Bakingcondition as below: 75±5℃ for 24 hrs. 4. Soldering condition: 4.1 Manual of soldering ：The temp. of the iron should be lower than 230℃ and soldering within 3sec per solder-pad isto be observed.4.2 Pb-free solder temp. –time profileNote: a) Reflow soldering should not be done more than two times. b) Don’t put stress on the LEDs when soldering.c) Don’t warp the circuit board before it have been returned to normal ambientconditions after soldering.Loaded quantity: 3000 pcs/reel ※Package Method:(unit:mm)。

经典分立元件H桥驱动电机专用（稳定、低成本，经典分立元件H桥驱动电机专用(稳定、低成本，经典分立元件H桥驱动电机专用(稳定、低成本，可代替IR21XX集成IC驱动) 测试结果Mos IRF2807不如改用STP75NF75，所有的关键指标都比2807强，而且也是75V 80A级别的。

D2PAK的也能买到，价格应该和2807差不多。

本电路是在48V直流电机驱动上使用非常普遍的分立元件MOS管驱动电路，适用频率可达30kHz左右，稳定可靠，在成本局限的产品上可代替IR21XX驱动IC。

这个电路已经经历了多年的商业化检验，保证你按照电路里的参数制作就可正常工作。

制作时要注意以下几点:1)如果你的电机工作电压低于等于12V可能需要调整上桥臂晶体管的工作状态。

2)自举电容C5 C6要使用低漏电的。

3)D5 D6如成本允许应使用快恢复型二极管如FR157。

4)主滤波电容C11 C12必须是高频低阻电容，否则纹波容易引起发烫。

5)C9 C10耐压应是电源的至少一倍。

6)注意布线～～～尤其是高频部分(参考IR的一系列布线文档) 7)由于使用了自举电路，启动时必须先开下桥再开上桥(PWM只能在下桥上加，上桥只加开关信号);而且PWM不能大于95%，否则重载启动、短路测试时烧你没商量(这点连IR21XX也是一样)。

这个驱动稳定，目前电动车控制器里用的基本上都是这个电路。

实验室测的有堵转启动、堵死启动、运行时短路相线、启动时短路相线。

工业化生产时一般只抽检不做全检。

序流程很简单:1.上电初始化，H桥四个输入端均为高电平。

【启动电机】1.获得启动电机命令后先打开下桥2，输出80%占空比的PWM(因为本H桥驱动是低电平开启，80%PWM实际为100%-80%=20%)2.四到八个PWM周期延迟后打开上桥1(延迟不必控制得很严格)3.如设定转速应高于20%占空比PWM的转速，在半秒内逐渐增加下桥2PWM至设定的PWM(如设定电机应全速运转，则由最初80%占空比PWM逐渐降低至5%) 注:反转则为开上桥1-下桥2，过程相同不再复述。

各种LED恒流驱动及恒流IC芯片盘点LED恒流驱动简介山于LED是特性敬感的半导体器件，乂具有负温度特性，因而在应用过程中需要对其进行稳定工作状态和保护，从而产生了驱动的概念。

LED器件对驱动电源的要求近乎于苛刻, LED不像普通的白炽灯泡，可以直接连接220V的交流市电。

LED是2〜3伏的低电压驱动, 必须要设计复杂的变换电路，不同用途的LED灯，要配备不同的电源适配器。

国际市场上国外客户对LED驱动电源的效率转换、有效功率、恒流精度、电源寿命、电磁兼容的要求都非常高，设计一款好的电源必须要综合考虑这些因数，因为电源在整个灯具中的作用就好比像人的心脏一样重要。

LED驱动电源把电源供应转换为特定的电压电流以驱动LED发光的电压转换器，通常情况下：LED驱动电源的输入包括高压工频交流（即市电）、低压直流、高压直流、低压高频交流（如电子变压器的输出）等。

而LED驱动电源的输出则大多数为可随LED正向压降值变化而改变电压的恒定电流源。

LED电源核心元件包括开关控制器、电感器、开关元器件（MOSFET）.反馈电阻、输入滤波器件、输出滤波器件等等。

根据不同场合要求、还要有输入过压保护电路、输入欠压保护电路，LED开路保护、过流保护等电路。

LED的恒流驱动用LED作为显示器或其他照明设备或背光源时，需要对其进行恒流驱动，主要原因是:1.避免驱动电流超出最大额定值，影响其可鼎性。

2.获得预期的亮度要求，并保证各个LED亮度、色度的一致性3.能有效的避免雷击，电网的浪涌，过电流，过电压的保护，使LED寿命提高。

存在问题：要处理好散热问题，散热问题没有处理好就会影响LED寿命。

口前LED均采用直流驱动，因此在市电与LED之间需要加一个电源适配器即LED驱动电源。

它的功能是把交流市电转换成合适LED的直流电。

根据电网的用电规则和LED的驱动特性要求，在选择和设计LED驱动电源时要考虑到以下儿点：1•高可鼎性特别像LED路灯的驱动电源，装在高空，维修不方便，维修的花费也大。

英飞拓产品型号英飞拓产品型号渠道产品，价格优惠，不满意可退货 150********2．1 固定摄像机-PALV5101-A50142 ⼀体化摄像机2．3 因定半球摄像机2．4 V1700A系列快球2．5 V1750A系列充氮快球2．6 V1700S系列内置单模光端机的快球2．7 V1900A系列快球2．8⼀体化云台摄像机2．9恒速球形护罩/云台2．10快球零部件1．模拟监控前端产品2．1 固定摄像机V5101-A2014 V5101-A3014 V5101-A5014 V5101-A2019 V5101-A3019 V5102-A2014 V5102⽇夜型因定摄像机V5102-A3014 V5102-A5014V5102-A3019 V5102-A2019V5103宽动态彩⾊固定摄像机V5103-A3014V1025-1H⾼解析度彩⾊摄像机V1025-1HV1026-1⾼解析度⽇夜转换型摄像机V1026-1V1027-1 1/2英⼨宽动态⾼灵敏度低照度彩⾊摄像机V1027-1V1033-1宽动态⽇夜转换型摄像机V1033-12．2⼀体化摄像机PALV1224⼀体化彩⾊摄像机V1224-22A14V1244⼀体化⽇夜转换摄像机V1244-23A14 V1244-26A14 V5411-A2014ST V5411-A2014SU V5411-A2014SV 2．3固定半球摄像机PALV5411-A2014SW V5411-A2014SX V5411-A2014SYV5411-A2014SZ480线⼿动变焦⾃动光圈镜头V5411-A2014 SBV5411-A2014 SDV5411-A2014SE V5411-A2014SC V5411-A2014SF520线固定焦距镜头V5411-A3014ST V5411-A3014SU V5411-A3014SV V5411-A3014SW V5411-A3014SX V5411-A3014SY V5411-A3014SZ520线⼿动变焦⾃动光圈镜头V5411-A3014SB V5411-A3014SD V5411-A3014SE V5411-A3014SCV5512室内⽇夜型因定半球摄像机V5411-A3014SF V5512-A2014SB V5512-A2014SE520线⼿动变焦⾃动光圈镜头V5512-A3014SB V5512-A3014SEV5413室内宽动态彩⾊固定半球摄像机V5512-A3014SB V5413-A3024SB V5413-A3024SE2．3固定半球摄像机PALV5411-A2014ST V5411-A2014SU V5411-A2014SV V5411-A2014SW V5411-A2014SXV5411-A2014SY480线⼿动变焦⾃动光圈镜头V5411-A2014SZ V5411-A2014SB V5411-A2014SD V5411-A2014SE V5411-A2014SC V5411-A2014SF520线固定焦距镜头V5411-A3014ST V5411-A3014SU V5411-A3014SV V5411-A3014SW V5411-A3014SZ V5411-A3014SY V5411-A3014SX520线⼿动变焦⾃动光圈镜头V5411-A3014SB V5411-A3014SD V5411-A3014SE V5411-A3014SCV5512室内⽇夜型因定半球摄像机V5411-A3014SF V5512-A2014SB520线⼿动变焦⾃动光圈镜头V5512-A2014SE V5512-A3014SB V5512-A3014SB V5512-A3014SEV5413室内宽动态彩⾊固定半球摄像机V5413-A3024SBV1700A系列快球PAL室内吸顶装快球V1725A-C1C2C6 V1726A-C1C2C6 V1727A-C1C2C6 V1728A-C1C2C6 V1724A-C1C2C6 V1729A-C1C2C6 V1723A-C1C2C6室内⽀架装快球V1725A-C1C2B6 V1726A-C1C2B6 V1727A-C1C2B6 V1728A-C1C2B6 V1724A-C1C2B6 V1729A-C1C2B6 V1723A-C1C2B6室外吸顶装快球V1745A-C1C2C6 V1746A-C1C2C6 V1747A-C1C2C6 V1748A-C1C2C6 V1744A-C1C2C6 V1749A-C1C2C6 V1743A-C1C2C6室外⽀架装快球V1745A-C1C2B6 V1746A-C1C2B6 V1747A-C1C2B6 V1748A-C1C2B6 V1744A-C1C2B6 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A2020X-128X8 A2020X-128X12 A2020X-128X16 A2020X-128X20 A2020X-128X24 A2020X-128X28 A2020X-128X32A2020X-144X4 A2020X-144X8 A2020X-144X12 A2020X-144X16 A2020X-144X20 A2020X-144X24 A2020X-144X28 A2020X-144X32 A2020X-160X4 A2020X-160X8 A2020X-160X12 A2020X-160X16 A2020X-160X20 A2020X-160X24 A2020X-160X28A2020X-160X32 A2020X-176X4 A2020X-176X8 A2020X-176X12 A2020X-176X16 A2020X-176X20A2020X-176X24 A2020X-176X28 A2020X-176X32 A2020X-192X4 A2020X-192X8 A2020X-192X12 A2020X-192X16 A2020X-192X20 A2020X-192X24 A2020X-192X28 A2020X-192X32 A2020X-208X4 A2020X-208X8。

彩信红外监控相机 MG-582M /MG-882MK使用手册彩信红外监控相机 SG-550M/SG-880MK使用手册目 录1使用说明 (2)1.1 概述 (2)1.2 相机外观接口 (2)1.3 遥控说明 (3)1.3.1 操作 (4)1.3.2 描述 (4)1.3.3显示屏信息显示 (4)1.3.4 支持格式 (4)2注意事项 (5)3简易操作 (5)3.1 供电 (5)3.2 插入SD-SIM卡 (6)3.3 打开电源进入ON模式 (6)3.4 进入测试模式 (6)3.4.1 习惯设置 (6)3.4.2 手动拍摄 (6)3.4.3 查看图片或视频 (6)3.4.4 发送彩信 (6)3.5 关闭电源 (6)4高级操作 (7)4.1 设置菜单 (7)4.1.1 默认设置 (8)4.1.2 默认设置列表 (8)4.1.3 常规设置 (9)4.1.4 设置相机模式 (9)4.1.5 格式化SD卡 (9)4.1.6 设置图片像素 (10)4.1.7 设置视频像素 (10)4.1.8 设置时间和日期 (10)4.1.9 设置图片连拍 (10)4.1.10 设置视频时长 (10)4.1.11 设置视频声音 (10)4.1.12 设置触发间隔 (11)4.1.13 设置PIR灵敏度 (11)4.1.14 设置定时 (11)4.1.15 设置闪光灯照射距离 (11)4.1.16 彩信设置 (11)4.1.17 GPRS设置 (12)4.1.18 设置彩信发送模式 (12)4.1.19 设置发送彩信给 (12)4.1.20 输入口令 (13)4.1.21 恢复默认设置 (13)4.2 回放 (13)4.2.1 预览图片和视频 (13)4.2.2.1删除图片和视频 (13)4.2.3 手动发送彩信 (14)4.3 激光助描 (14)4.4 文件编号 (14)4.5 软件升级 (14)附录ⅠAppendixⅠ: 技术规格 (15)附录ⅡAppendixⅡ: 配件清单 (15)1使用说明1.1概述本产品是一款具有专利的800万像素带通讯功能的数字监控相机。

广州凯图电子科技有限公司成立于2001年，是一家集研发制造、销售于一体的高科技公司，公司致力于智能家居和照明创新，总部位于中国广州。

带着在智能控制领域能创建一家有自主核心技术、能与国际一流品牌相媲美的民族品牌产品的激情与梦想、秉承敦行而致远、厚积而薄发的信念。

历经多年的磨砺与发展，凯图电子开发出EC-NET系列智能控制产品，成为国内极少数同时拥有智能控制系统三大核心技术的企业之一。

智能控制系统三大核心技术分别为：一、完整的系统安装架构和外形结构。

二、总线通信协议机制和网络拓扑架构。

三、控制编程平台和机制。

历经多年沉淀，广州凯图智能照明产品在国内获得多项殊荣，曾在2011年荣获多项品牌，包括：2011十大智能照明品牌、广货网上行名优企业、智能照明全国领先名牌。

凯图电子秉承因为专心，所以专业的信念，为客户提供可靠、稳定、智能型的照明产品和智能家居系统，让所有使用者都能得到安全,便捷,舒适,经济的智能化享受。

通过提供创新的产品和先进的解决方案来引领产业发展，并且让我们现在就能享受到将来的生活方式。

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Product Data Sheet DS312Bridgelux Thrive™ combines unique chip, phosphor and packaging technology to closely match the spectra of natural light over the visible wavelength range. Thrive can be used in constant color point luminaires to bring full spectrum natural light indoors or in tunable white luminaires to incorporate circadian elements that may impact human well-being. The high fidelity spectral output of Thrive creates stunning environments with excellent color rendering and outstanding TM30 metrics. Thrive is available in both SMD components and LED arrays to enable a broad range of lighting applications including retail, hospitality, office, education, architectural, museums, healthcare and residential lighting.Features• Engineered spectra to closely match natural light • CRI > 95, R1-R15 >90, high Rf and Rg values• High efficiency full spectrum solution• No violet chip augmentation• Hot color targeted• Industry standard 2835 footprint• Broad product platform availability (SMDs and COBs)Benefits• Full consistent spectrum with fewer spectral spikes • Natural and vivid color rendering• Greater energy savings, lower utility costs• Economical, high efficiency solution• Uniform and consistent white light under application conditions• Ease of design and rapid go-to-market• Enables greater design flexibility and platform color consistencyContentsProduct Feature Map2 Product Nomenclature2 Product Test Conditions2 Product Selection Guide3 Spectrum Characteristics4 Electrical Characteristics7 Absolute Maximum Ratings8 Product Bin Definitions9 Performance Curves12 Typical Radiation Pattern13 Mechanical Dimensions14 Reliability 15 Reflow Characteristics16 Packaging17 Design Resources19 Precautions19 Disclaimers19 About Bridgelux20Product Feature MapYellow phosphor Light Emitting Surface (LES)Product NomenclatureThe part number designation for Bridgelux SMD 2835 is explained as follows:Product Test ConditionsBridgelux SMD 2835 LEDs are tested and binned with a 10ms pulse of 150mA at T j (junction temperature)=T sp (solder point temperature) =25°C. Forward voltage and luminous flux are binned at a T j =T sp =25°C, while color is hot targeted at a T sp of 85°C.1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16Product FamilyColor Bin OptionsFlux BinsMinimum CRIS = ThriveForward Voltage Bins Nominal CCT27 = 2,700K 30 = 3,000K 40 = 4,000K 50 = 5,000KBXEN – 27 S – 1 1 M – 3 C –00 – 0 – 0Product VersionMid PowerDie count in parallelTypical Forward Voltage Die count in series Bridgelux SMD LED products come in industry standard package sizes and follow ANSI binning standards. These LEDs are optimized for cost and performance, helping to ensure highly competitive system lumen per dollar performance while addressing the stringent efficacy and reliability standards required for modern lighting applications.The following product configurations are available:7,8Notes for Tables 1 & 2:1. The last 6 characters (including hyphens ‘-’) refer to flux bins, forward voltage bins, and color bin options, respectively. “00-0-0” denotes the full distribution of flux, forward voltage, and 6 SDCM color.Example: BXEN-27S-11M-3C-00-0-0 refers to the full distribution of flux, forward voltage, and color within a 2700K 6-step ANSI standardchromaticity region with a minimum of 97 CRI, 1x1 die configuration, mid power, 3.1V typical forward voltage.2. Product CCT is hot targeted at Tsp= 85°C. Nominal CCT as defined by ANSI C78.377-2011.3. Listed CRIs are minimum values and include test tolerance.4. Products tested under pulsed condition (10ms pulse width) at nominal drive current where Tj =Tsp=25°C.5. Bridgelux maintains a ±7.5% tolerance on luminous flux measurements, ±0.1V tolerance on forward voltage measurements, and ±2 tolerance onCRI measurements for the SMD 2835.6. Refer to Table 6 and Table 7 for Bridgelux SMD 2835 Luminous Flux Binning and Forward Voltage Binning information.7. Typical pulsed test performance values are provided as reference only and are not a guarantee of performance.8. Typical performance is estimated based on operation under pulsed current with LED emitter mounted onto a heat sink with thermal interfacematerial and the solder point temperature maintained at 85°C. Based on Bridgelux test setup, values may vary depending on the thermal design of the luminaire and/or the exposed environment to which the product is subjected.9. Photosynthetic Photon Flux is measure of photon flux in the 400nm-700nm region.Product Selection Guide1Note for Table 3:1. Bridgelux maintains a tolerance of ± 3 on Color Rendering Index R1-R15 measurements and TM-30 measurements.2. Rn reference by Nominal Drive Current will have deviations when changed drive current .Figure 1: 2700K Thrive TM-30 GraphsFigure 2: 3000K Thrive TM-30 GraphsFigure 3: 4000K Thrive TM-30 GraphsFigure 4: 5000K Thrive TM-30 GraphsSpectral Matching to Natural LightHumans have evolved and thrived for millions of years under the sun’s natural daylight. While discussions continue regarding the development of LED prod-ucts with artificial spectra aimed at increasing productivity and focus or helping with relaxation, the long-term physiological effects of such altered environBridgelux Thrive is engineered to provide the closest match to natural light using proprietary chip, phosphor and packaging technology. Bridgelux is working with our customers and industry partners to define new metrics to describe and quantify this spectral matching; going beyond today’s quality of light metricsTo quantify spectral matching, Bridgelux has defined a new term; Average Spectral Difference (ASD). ASD is calculated by measuring the absolute difference between the LED spectrum and a natural light source spectrum at discrete wavelengths. These values are then averaged across different wavelength ranges and reported as a percentage. Natural light is defined by the Black Body Curve for sources below 5000K or by the CIE Standard Illuminant D for sources ofBridgelux Thrive has an ASD between 3% and 7% for all color points (2700K – 6500K) across the typical LED wavelength range of 440-650nm. This includes a very close spectral match, with an ASD of only 2% for some color point options, in the blue/cyan color range where most other LED light sources suffer. For comparison purposes, standard 80, 90 and 98 CRI light sources have an ASD that is 2-6 times larger than Thrive over the same wavelength range and up to 20 times greater in the cyan wavelength range.As the industry evolves toward human centric lighting, Bridgelux will work with our customers and industry experts to educate the market about the benefits of the ASD metric to further quantify the quality of light.Table 4:Electrical Characteristics1. The last 6 characters (including hyphens ‘-’) refer to flux bins, forward voltage bins, and color bin options, respectively. “00-0-00” denotes the full distribution of flux, forward voltage, and 6 SDCM color.Example: BXEN-27S-11M-3C-00-0-0 refers to the full distribution of flux, forward voltage, and color within a 2700K 6-step ANSI standardchromaticity region with a minimum of 97 CRI, 1x1 die configuration, mid power, 3.1V typical forward voltage.2. Bridgelux maintains a tolerance of ± 0.1V on forward voltage measurements. Voltage minimum and maximum values at the nominal drive current are guaranteed by 100% test.3. Products tested under pulsed condition (10ms pulse width) at nominal drive current where Tsp = 25°C.4. Thermal resistance value was calculated using total electrical input power; optical power was not subtracted from input power.Absolute Maximum RatingsNotes for Table 5:1. Bridgelux recommends a maximum duty cycle of 10% and pulse width of 10 ms when operating LED SMD at maximum peak pulsed current specified. Maxi-mum peak pulsed current indicate values where LED SMD can be driven without catastrophic failures.2. Light emitting diodes are not designed to be driven in reverse voltage and will not produce light under this condition. no rating is provided.Product Bin DefinitionsTable 6 lists the standard photometric luminous flux bins for Bridgelux SMD 2835 LEDs. Although several bins are listed, product availability in a particular bin varies by production run and by product performance. Not all bins are available in all CCTs.Note for Table 6:1. Bridgelux maintains a tolerance of ± 7.5% on luminous flux measurementsNote for Table 7:1. Bridgelux maintains a tolerance of ± 0.1V on forward voltage measurements.Product Bin DefinitionsNotes for Table 8:=85°C unless otherwise specified1. Color binning at Tsp2. Bridgelux maintains a tolerance of ± 0.007 on x and y color coordinates in the CIE 1931 color space.Product Bin DefinitionsFigure 6: C.I.E. 1931 Chromaticity Diagram (Color Targeted at T=85°C)Performance CurvesNote for Figures 7-11:1. Bridgelux does not recommend driving high power LEDs at low currents. Doing so may produce unpredictable results. Pulse width modulation (PWM) is recommended for dimming effects.2. Characteristics shown for warm white based on 2700K.3. Characteristics shown for neutral white based on 4000K.4. Characteristics shown for cool white based on 5000K.5. For other color SKUs, the shift in color will vary. Please contact your Bridgelux Sales Representative for more information .Figure 7: Drive Current vs. Voltage (T sp =25°C)Figure 8: Typical Relative Luminous Flux vs. Drive Current (T sp =25°C)1Figure 9: Typical Relative Flux vs. Solder Point Temperature 2,3,4,5Figure 10: Typical ccx Shift vs. Solder Point Temperature 2,3,4,5Figure 11: Typical ccy Shift vs. Solder Point Temperature 2,3,4,503060901201502.62.72.8 2.93.03.1F o r w a r d C u r r e n t (m A )Forward Voltage (V)0%25%50%75%100%0306090120150R e l a t i v e L u m i n o u s F l u xForward Current (mA)80%85%90%95%100%0255075100125R e l a t i v e L u m i n o u s F l u xSolder Point Temperature (℃)Warm White Neutral White Cool White-0.004-0.003-0.002-0.0010.000255075100125c c x S h i f tSolder Point Temperature (℃)Warm White Neutral White Cool White-0.008-0.006-0.004-0.0020.000255075100125c c y S h i f tSolder Point Temperature(℃)Warm White Neutral White Cool WhiteTypical Radiation PatternFigure 12: Typical Spatial Radiation Pattern at 150mA, T sp =25°CFigure 13: Typical Polar Radiation Pattern at 150mA, T sp =25°CNotes for Figure 12:1. Typical viewing angle is 116⁰.2.The viewing angle is defined as the off axis angle from the centerline where luminous intensity (Iv) is ½ of the peak value.Mechanical Dimensions Figure 14: Drawing for SMD 2835Notes for Figure 14:1. Drawings are not to scale.2. Drawing dimensions are in millimeters.3. Unless otherwise specified, tolerances are ± 0.10mm.ReliabilityTable 9:Reliability Test Items and ConditionsNotes for Table 9:1. Measurements are performed after allowing the LEDs to return to room temperature2. Tsld : reflow soldering temperature; Ta: ambient temperatureFigure 15 : Reflow ProfileReflow CharacteristicsFigure 16 : Pick and PlaceNote for Figure 16:1. When using a pick and place machine, choose a nozzle that has a larger diameter than the LED’s emitting surface. Using a Pick-and-Place nozzle witha smaller diameter than the size of the LEDs emitting surface will cause damage and may also cause the LED to not illuminate.Is greater than LEDsemitting surfacePackagingFigure 17: Emitter Reel DrawingsNote for Figure 17:1. Drawings are not to scale. Drawing dimensions are in millimeters.Figure 18: Emitter Tape DrawingsNote for Figure 18:1. Drawings are not to scale. Drawing dimensions are in millimeters.PackagingFigure 19: SMD 2835 Packaging and LabelingNote for Figure 19:1. Drawings are not to scale.Design ResourcesDisclaimersPrecautionsPlease contact your Bridgelux sales representative for assistance.MINOR PRODUCT CHANGE POLICYThe rigorous qualification testing on products offered by Bridgelux provides performance assurance. Slight cosmetic changes that do not affect form, fit, or function may occur as Bridgelux continues product optimization.CAUTION: CHEMICAL EXPOSURE HAZARDExposure to some chemicals commonly used in luminaire manufacturing and assembly can cause damage to the LED emitter. Please consult Bridgelux Application Note AN51 for additional information.CAUTION: EYE SAFETYEye safety classification for the use of Bridgelux SMD LED emitter is in accordance with IECspecification EN62778: Application of IEC 62471 for the assessment of blue light hazard to light sources and luminaires are classified as Risk Group 1 when operat -ed at or below the maximum drive current. Please use appropriate precautions. It is important that employees working with LEDs are trained to use them safely.CAUTION: RISK OF BURNDo not touch the SMD LED emitter during operation. Allow the emitter to cool for a sufficient period of time before handling. The SMD LED emitter may reachelevated temperatures such that could burn skin when touched.CAUTIONCONTACT WITH LIGHT EMITTING SURFACE (LES) Avoid any contact with the LES. Do not touch the LES of the emitter or apply stress to the LES (yellow phosphor resin area). Contact may cause damage to the emitterOptics and reflectors must not be mounted in contact with the LES (yellow phosphor resin area).STANDARD TEST CONDITIONSUnless otherwise stated, LED emitter testing is performed at the nominal drive current.About Bridgelux: Bridging Light and Life ™© 2020 Bridgelux, Inc. Product specifications are subject to change without notice. Bridgelux and the Bridgelux stylized logo design are registered trademarks of Bridgelux, Inc. Thrive is a trademark of Bridgelux, Inc. All other trademarks are the property of their respective owners.46430 Fremont Boulevard Fremont, CA 94538 USA Tel (925) At Bridgelux, we help companies, industries and people experience the power and possibility of light. Since 2002, we’ve designed LED solutions that are high performing, energy efficient, cost effective and easy to integrate. Our focus is on light’s impact on human behavior, delivering products that create better environments, experiences and returns—both experiential and financial. And our patented technology drives new platforms for commercial and industrial luminaires.For more information about the company, please visit /Bridgelux /Bridgelux/company/bridgelux-inc-_/user/Bridgelux WeChat ID: BridgeluxInChina。

Kramer Electronics, Ltd.USER MANUALModels:WP-561 HDMI Line TransmitterWP-562 HDMI Line ReceiverPT-561 HDMI Line TransmitterPT-562 HDMI Line ReceiverContents1 Introduction 12 Getting Started 12.1 Quick Start 23 Overview 2 3.1 WP-561/PT-561 HDMI Line Transmitter 3 3.2 WP-562/PT-562 HDMI Line Receiver4 3.3 About the Power Connect™ Feature 4 3.4 Using Twisted Pair Cable 4 3.5 About HDMI 53.6 Achieving the Best Performance 64 Your WP-561, WP-562 HDMI Transmitter/Receiver Pair 6 4.1 Your WP-561 HDMI Line Transmitter 74.2 Your WP-562 HDMI Line Receiver 95 Connecting the WP-561/WP-562 Transmitter/Receiver Pair 116 Your PT-561, PT-562 HDMI Transmitter/Receiver Pair 12 6.1 Your PT-561 HDMI Line Transmitter 126.2 Your PT-562 HDMI Line Receiver 137 Connecting the PT-561 and PT-562 14 7.1 Wiring the CAT 5 LINE IN/LINE OUT RJ-45 Connectors 167.2 Connecting an IR Receiver and Emitter 168 Technical Specifications 17 FiguresFigure 1: WP-561 HDMI Line Transmitter Belgian/German Model Functions 7 Figure 2: WP-561 HDMI Line Transmitter UK/European Model Functions 7 Figure 3: WP-561 HDMI Line Transmitter US Model Functions 8 Figure 4: WP-562 HDMI Line Receiver Belgian/German Model Functions 9 Figure 5: WP-562 HDMI Line Receiver UK/European Model Functions 9 Figure 6: WP-562 HDMI Line Receiver US Model Functions 10 Figure 7: PT-561 HDMI Line Transmitter 12 Figure 8: PT-562 HDMI Line Receiver 13 Figure 9: Connecting the PT-561/PT-562 HDMI Line Transmitter/Receiver 15 Figure 10: CAT 5 PINOUT 16TablesTable 1: WP-561 HDMI Line Transmitter Model Functions 8 Table 2: WP-562 HDMI Line Receiver Functions 10 Table 3: PT-561 HDMI Line Transmitter Features 12 Table 4: PT-562 HDMI Line Receiver Features 13 Table 5: CAT 5 PINOUT 16 Table 6: Technical Specifications 17KRAMER: SIMPLE CREATIVE TECHNOLOGY iiIntroduction1 IntroductionWelcome to Kramer Electronics! Since 1981, Kramer Electronics has been providing a world of unique, creative, and affordable solutions to the vast range of problems that confront the video, audio, presentation, and broadcasting professional on a daily basis. In recent years, we haveredesigned and upgraded most of our line, making the best even better! Our 1,000-plus different models now appear in 11 groups 1 that are clearly defined by function.Thank you for purchasing the Kramer Pico TOOLS™ PT-561 HDMI Line Transmitter, PT-562 HDMI Line Receiver, Kramer Wall Plates WP-561 HDMI Line Transmitter, and the WP-562 HDMI Line Receiver, which are ideal for:• Board, conference, and training rooms • Presentation systems• Signal distribution and home theaterEach package includes the following items:• PT-561 HDMI Line Transmitter or WP-561 HDMI LineTransmitter or PT-562 HDMI Line Receiver or WP-562 HDMI Line Receiver • This user manual 2• Power adapter (5V DC input) for the PT-561/WP-5612 Getting StartedWe recommend that you:• Unpack the equipment carefully and save the original box andpackaging materials for possible future shipment • Review the contents of this user manual• Use Kramer high-performance high-resolution cables 31 GROUP 1: Distribution Amplifiers; GROUP 2: Switchers and Matrix Switchers; GROUP 3: Control Systems; GROUP 4: Format/Standards Converters; GROUP 5: Range Extenders and Repeaters; GROUP 6: Specialty AV Products; GROUP 7: Scan Converters and Scalers; GROUP 8: Cables and Connectors; GROUP 9: Room Connectivity; GROUP 10: Accessories and Rack Adapters; GROUP 11: Sierra Products2 Download up-to-date Kramer user manuals from our Web site at 3 The complete list of Kramer cables is on our Web site at 2.1 Quick StartThis quick start chart summarizes the basic setup and operation steps.3 OverviewThis section summarizes:•The WP-561/PT-561HDMI Line Transmitter,see section 3.1•The WP-562/PT-562HDMI Line Receiver, see section 3.2•The power connect feature, see section 3.3•Using twisted pair cabling, see section 3.4; about HDMI, see section 3.5•Recommendations for achieving the best performance, see section 3.6 The WP-561 (or PT-561) HDMI Line Transmitter together with theWP-562 (or PT-562) HDMI Line Receiver constitutes an HDMI and IRsignal twisted pair transmitter and receiver system using two STP cables.KRAMER: SIMPLE CREATIVE TECHNOLOGY 2The transmission range between the HDMI source and the HDMI acceptor can be extended up to:•90m (295ft) at 1080i, or up to 30m (98ft) at 1080p on shielded BC-DGKat524 cable•90m (295ft) at 1080i, or up to 70m (230ft) at 1080p on shielded BC-DGKat623 cable•100m (330ft) at 1080i or up to 90m (295ft) at 1080p on shielded BC-DGKat7a23 cableFor optimum range1 and performance, use Kramer's BC-DGKat524,BC-DGKat623 and BC-DGKat7a23 cables.3.1 WP-561/PT-561 HDMI Line TransmitterThe Kramer WP-561HDMI Line Transmitter is a wall plate module thatreceives an HDMI signal, encodes it, and transmits it over two CAT 5cables to the WP-562 or PT-562. The Kramer Pico TOOLS™ PT-561HDMI Line Transmitter is a standalone device that performs the samefunctions as the WP-561. The WP-561/PT-561 features:•An HDMI input , and a pair of RJ-45 CAT 5 output connectors•One power status LED•Bandwidth up to 1.65Gbps•EDID PassThru that passes EDID/HDCP signals from source to display• A bidirectional IR input/output transmitting and receiving IR commands over the CAT 5 cable2•Power Connect™ feeding 5V DC over the CAT 5 cable from the transmitter to the receiver1 Note that the transmission range depends on the signal resolution, graphics card and display used. The distance using non-Kramer CAT 5, CAT 6 and CAT 7a cables may not reach these ranges2 Compatible with a Kramer transmitter and via a Kramer external remote IR receiver: C-A35M/IRR or C-A35M/IRE orC-A35M/2IRE3.2 WP-562/PT-562 HDMI Line ReceiverThe Kramer Wall Plate WP-562HDMI Line Receiver is a wall platemodule that receives an encoded signal over two CAT 5 cables transmitted from the PT-561 or WP-561, decodes it, and converts it to an HDMIoutput. The Kramer Pico TOOLS™ PT-562HDMI Line Receiver is astandalone device that performs the same functions as the WP-562. TheWP-562/PT-562 features:•An HDMI output and a pair of RJ-45 CAT 5 input connectors•One power status LED•Bandwidth up to 1.65Gbps•EDID PassThru that passes EDID signals from source to display• A bidirectional IR input/output transmitting and receiving IRcommands over the CAT 5 cable1•Power Connect™ feeding 5V DC over the CAT 5 cable from transmitter to the receiver23.3 About the Power Connect™ FeatureThe PT-561/PT-562 and WP-561/WP-562 have the Power Connect™feature where the transmitter delivers power and the HDMI signal to thereceiver using the same CAT 5 cable.3.4 Using Twisted Pair CableKramer engineers have developed special twisted pair cables to best match our digital twisted pair products; the Kramer: BC-DGKat524 (CAT 5 24AWG), the Kramer: BC-DGKat623 (CAT 6 23 AWG cable), and theKramer: BC-DGKat7a23 (CAT 7a 23 AWG cable). These specially builtcables significantly outperform regular CAT 5/CAT 6/CAT 7a cables.1 Compatible with a Kramer transmitter and via a Kramer external remote IR receiver: C-A35M/IRR or C-A35M/IRE orC-A35M/2IRE2 The WP-562/PT-562 receives power only by means of the Power Connect featureKRAMER: SIMPLE CREATIVE TECHNOLOGY 43.5 About HDMIHigh-Definition Multimedia Interface (HDMI) is an uncompressed all-digital1audio/video interface, widely supported in the entertainment and home cinema industry. It delivers the highest high-definition image and sound quality. Notethat Kramer Electronics Limited is an HDMI Adopter and an HDCP Licensee.In particular, HDMI2:•Provides a simple3 interface between any audio/video source, such as a set-top box, DVD player, or A/V receiver and video monitor,such as a digital flat LCD/plasma television (DTV), over a singlelengthy4 cable•Supports standard, enhanced, high-definition video, and multi-channel digital audio5 on a single cable•Transmits all ATSC HDTV standards and supports 8-channeldigital audio, with bandwidth to spare to accommodate futureenhancements and requirements•Benefits consumers by providing superior, uncompressed digital video quality via a single cable6, and user-friendly connector •Is backward-compatible with DVI (Digital Visual Interface)•Supports two-way communication between the video source (such as a DVD player) and the digital television, enabling newfunctionality such as automatic configuration and one-button play HDMI has the capacity to support existing high-definition video formats(720p, 1080i, and 1080p/60), as well as standard definition formats such as NTSC or PAL.1 Ensuring an all-digital rendering of video without the losses associated with analog interfaces and their unnecessary digital-to-analog conversions2 HDMI, the HDMI logo and High-Definition Multimedia Interface are trademarks or registered trademarks of HDMI licensing LLC3 With video and multi-channel audio combined into a single cable, the cost, complexity, and confusion of multiple cables currently used in A/V systems is reduced4 HDMI technology has been designed to use standard copper cable construction at up to 15m5 HDMI supports multiple audio formats, from standard stereo to multi-channel surround-sound. HDMI has the capacity to support Dolby 5.1 audio and high-resolution audio formats6 HDMI provides the quality and functionality of a digital interface while also supporting uncompressed video formats in a simple, cost-effective manner3.6 Achieving the Best PerformanceTo achieve the best performance:•Use only good quality connection cables1 to avoid interference, deterioration in signal quality due to poor matching, and elevatednoise levels (often associated with low quality cables).•Avoid interference from neighboring electrical appliances that may adversely influence signal quality and position your Kramerdevices away from moisture, excessive sunlight and dust4 Your WP-561, WP-562 HDMI Transmitter/Receiver PairThis section describes:•The WP-561HDMI Line Transmitter (see section 4.1)•The WP-562HDMI Line Receiver (see section 4.2)1 Available from Kramer Electronics on our Web site at KRAMER: SIMPLE CREATIVE TECHNOLOGY 64.1 Your WP-561 HDMI Line TransmitterFigure 1, Figure 2, Figure 3, and Table 1 define the transmitter module.Figure 1: WP-561 HDMI Line Transmitter Belgian/German Model FunctionsFigure 2: WP-561 HDMI Line Transmitter UK/European Model FunctionsFigure 3: WP-561 HDMI Line Transmitter US Model FunctionsTable 1: WP-561 HDMI Line Transmitter Model Functions # Feature Function1 ON LED Illuminates red when powered on, green when transmitting data2 HDMI IN Connector Connects to an HDMI source3 IR 3.5mm Mini Jack Connects to an IR receiver or IR transmitter14 5V DC +5V DC connector for powering both units (WP-561 and WP-562)5 OUT 1 Connector Connects to the IN 1 RJ-45 connector on the WP-562OUT 2 Connector Connects to the IN 2 RJ-45 connector on the WP-5621 Compatible with a Kramer transmitter and via a Kramer external remote IR receiver: C-A35M/IRR or C-A35M/IRE or C-A35M/2IRE4.2 Your WP-562 HDMI Line ReceiverFigure 4, Figure 5, Figure 6, and Table 2 define the receiver module.Figure 4: WP-562 HDMI Line Receiver Belgian/German Model FunctionsFigure 5: WP-562 HDMI Line Receiver UK/European Model FunctionsFigure 6: WP-562 HDMI Line Receiver US Model FunctionsTable 2: WP-562 HDMI Line Receiver Functions # Feature Function1 ON LED Illuminates red when powered on, green when transmitting data2 HDMI OUT Connector Connects to an HDMI acceptor3 IR 3.5mm Mini Jack Connects to an IR transmitter or IR receiver14 IN 1 Connector Connects to the OUT 1 RJ-45 connector on the WP-561IN 2 Connector Connects to the OUT 2 RJ-45 connector on the WP-5611 Compatible with a Kramer transmitter and via a Kramer external remote IR receiver: C-A35M/IRR or C-A35M/IRE or C-A35M/2IREConnecting the WP-561/WP-562 Transmitter/Receiver Pair5 Connecting the WP-561/WP-562 Transmitter/Receiver PairTo install the WP-561HDMI Line Transmitter:1. Connect the CAT 5 cable 1 RJ-45 connector to the OUT 1 RJ-45 socket1.2. Connect the CAT 5 cable 2 RJ-45 connector to the OUT 2 RJ-45 socket1.3. Connect the 5V DC power to the terminal block pins2, taking care that thepolarity is correct.4. Insert the WP-561 directly into the wall box opening, and then mount thefront panel securely using the screws.5. Connect the HDMI source to the HDMI IN connector.6. If required, connect an IR receiver or emitter to the 3.5mm mini jack3To install the WP-562HDMI Line Receiver:1. Connect the CAT 5 cable 1 RJ-45 connector to the IN 1 RJ-45 socket1.2. Connect the CAT 5 cable 2 RJ-45 connector to the IN 2 RJ-45 socket1.3. Insert the WP-562 directly into the wall box opening, and then mount thefront panel securely using the screws.4. Connect the HDMI acceptor to the HDMI OUT connector.5. If required, connect an IR emitter or receiver to the 3.5mm mini jack3.1 See section 7.12 Connect the wire labeled “+” to the +5V pin, and the wire labeled “–” to the GND pin3 See section 7.26 Your PT-561, PT-562 HDMI Transmitter/Receiver PairThis section describes the:•PT-561HDMI Line Transmitter, see section 6.1•PT-562HDMI Line Receiver, see section 6.26.1 Your PT-561 HDMI Line TransmitterFigure 7 and Table 3 define the PT-561:Figure 7: PT-561 HDMI Line TransmitterTable 3: PT-561 HDMI Line Transmitter Features # Feature Function1 5V DC +5V DC connector for powering both units (PT-561 and PT-562)2 HDMI IN Connector Connect to the HDMI source3 IR 3.5mm jack Connects to an infrared transmitter or receiver14 ON LED Illuminates red when powered on, green when transmitting data5 OUT 1 RJ-45Connector Connect to the IN 1 RJ-45 connector on the PT-5626 OUT 2 RJ-45Connector Connect to the IN 2 RJ-45 connector on the PT-5621 Compatible with a Kramer transmitter and via a Kramer external remote IR receiver: C-A35M/IRR or C-A35M/IRE or C-A35M/2IRE6.2 Your PT-562 HDMI Line ReceiverFigure 8 and Table 4 define the PT-562:Figure 8: PT-562 HDMI Line ReceiverTable 4: PT-562 HDMI Line Receiver Features # Feature Function1 HDMI OUT Connector Connect to the HDMI acceptor2 IR 3.5mm jack Connects to an infrared transmitter or receiver13 ON LED Illuminates red when powered on, green when transmitting data4 IN 1 RJ-45Connector Connect to the OUT 1 RJ-45 connector on the PT-5615 IN 2 RJ-45Connector Connect to the OUT 2 RJ-45 connector on the PT-5611 Compatible with a Kramer transmitter and via a Kramer external remote IR receiver: C-A35M/IRR or C-A35M/IRE or C-A35M/2IRE7 Connecting the PT-561 and PT-562You can use the PT-561HDMI Line Transmitter with the PT-562HDMILine Receiver to configure an HDMI transmitter/receiver system.To connect the PT-561 to the PT-562, as illustrated in the example inFigure 9, do the following:1. Connect the CAT 5 OUT 1 and OUT 2 RJ-45 connectors1 on the PT-561 tothe CAT 5 IN 1 and IN 2 RJ-45 connectors on the PT-562, respectively viatwo CAT 5 cables (see section 7.1).2. On the PT-562, connect the HDMI OUT connector to an HDMI acceptor(for example, a display).3. Connect the 5V DC power adapter to the power socket and connect theadapter to the mains electricity to the PT-561 (not shown in Figure 9).4. On the PT-561, connect an HDMI source (for example, a DVD player) tothe HDMI IN connector.5. If required, connect an IR receiver and IR emitter to the 3.5mm mini jackson the PT-561 and the PT-562, respectively2.1 See section 7.12 See section 7.2Figure 9: Connecting the PT-561/PT-562 HDMI Line Transmitter/Receiver7.1 Wiring the CAT 5 LINE IN/LINE OUT RJ-45 ConnectorsTable 5 and Figure 10 define the CAT 5 pinout, using a straight pin-to-pincable with RJ-45 connectors (note, that the cable Ground shielding must be connected/soldered to the connector shield):Table 5: CAT 5 PINOUT Figure 10: CAT 5 PINOUTEIA /TIA 568A EIA /TIA 568BPIN Wire Color PIN Wire Color1 Green/White 1 Orange/White2 Green 2 Orange3 Orange/White 3 Green/White4 Blue 4 Blue5 Blue/White 5 Blue/White6 Orange 6 Green7 Brown/White 7 Brown/White8 Brown 8 BrownPair 1 4 and 5 Pair 1 4 and 5Pair 2 3 and 6 Pair 2 1 and 2Pair 3 1 and 2 Pair 3 3 and 6Pair 4 7 and 8 Pair 4 7 and 87.2You can control the source or the acceptor by connecting an IR emittercable and an IR receiver cable to the 3.5mm mini jacks on the transmitterand receiver.In the example illustrated in Figure 9, the display can be controlled from a distance by transmitting the IR signal from the display remote control viathe IR Receiver1, CAT 5 cables and the IR emitter2 which is attached to the IR sensor window of the display.Alternatively, you can control the DVD player by sticking the IR LED ofthe IR emitter to the IR sensor window of the DVD player, and connecting it to the PT-561. The IR Receiver is connected to the PT-562, letting youcontrol the DVD player from a distance via the CAT 5 cables.1 For example, the Kramer C-A35M/IRR IR Receiver2 For example, the Kramer C-A35M/IRE IR EmitterTechnical SpecificationsSpecifications8 TechnicalThe technical specifications for WP-561/WP-562 and PT-561/PT-562 are shown in Table 6.Table 6: Technical Specifications1WP-561/PT561 WP-562/PT562INPUTS: 1 HDMI connector 2 CAT 5 IN on RJ-45 connectors OUTPUTS: 2 CAT 5 OUT on RJ-45 connectors 1 HDMI connectorIR PORT: Bidirectional on a 3.5mm mini jackBANDWIDTH: Supports up to 1.65Gbps bandwidth per graphic channelSupports HDMI and HDCPCOMPLIANCE WITHHDMI STANDARD:POWER SOURCE: 5V DC, 440mA (transmitter and receiver together)6.2cm x 5.2cm x 2.4cm (2.4" x 2.1" x 1") W, D, H DIMENSIONS: PT-561/PT-562:WP-561/WP-562: 6.9cm x 11.4cm x 2.9cm (2.7" x 4.5" x 1.1") W, D, H WEIGHT: PT-561/PT-562: 0.14kg (0.3lbs)WP-561/WP-562: 0.2kg (0.4lbs)ACCESSORIES: PowersupplyOPTIONS: 19” rack mount adapter, Kramer external remote IR receiver2, and Kramercables3 BC-DGKat524 (CAT 5 24 AWG), BC-DGKat623 (CAT 6 23 AWG) andBC DGKat7a23 (CAT 7a 23 AWG cable)1 Specifications are subject to change without notice2 C-A35M/IRR or C-A35M/IRE or C-A35M/2IRE3 The complete list of Kramer cables is on our Web site at 18 LIMITED WARRANTYWHO IS PROTECTED?WHAT IS COVERED A ND WHAT IS NOT COVEREDWHAT WE WILL PAY FOR AND WHAT WE WILL NOT PAY FORHOW YOU CAN GET W ARRANTY SERVICELIMITATION OF IMPLIED WARRANTIESEXCLUSION OF DAMAGES Kramer Electronics (hereafter ) warrants this product free from defects in material and workmanship under the following terms.Kramer HOW LONG IS THE W ARRANTYLabor and parts are warranted for three years from the date of the first customer purchase.Only the first purchase customer may enforce this warranty.We will pay labor and material expenses for covered items. We will not pay for the following:The liability of Kramer for any effective products is limited to the repair or replacement of the product at our option. Kramer shall not be liable for:This warranty gives you specific legal rights, and you may also have other rights, which vary from place to place.All products returned to Kramer for service must have prior approval. This may be obtained from your dealer.This equipment has been tested to determine compliance with the requirements of:EN-50081:"Electromagnetic compatibility (EMC);generic emission standard. Residential, commercial and light industry"EN-50082:"Electromagnetic compatibility (EMC) generic immunity standard.Part 1: Residential, commercial and light industry environment".CFR-47:FCC* Rules and Regulations:Part 15: “Radio frequency devices Subpart B Unintentional radiators”Except as below, this warranty covers all defects in material or workmanship in this product. The following are not covered by the warranty:1.Any product which is not distributed by Kramer, or which is not purchased from an authorized Kramer dealer. If you are uncertain as to whether a dealer is authorized, please contact Kramer at one of the agents listed in the Web site .2.Any product, on which the serial number has been defaced, modified or removed, or on which the W ARRANTY VOID TAMPERED sticker has been torn,3.Damage, deterioration or malfunction resulting from:i)Accident, misuse, abuse, neglect, fire, water, lightning or other acts of nature ii)Product modification, or failure to follow instructions supplied with the product iii)Repair or attempted repair by anyone not authorized by Kramer iv)Any shipment of the product (claims must be presented to the carrier)v)Removal or installation of the product vi)Any other cause, which does not relate to a product defect vii)Cartons, equipment enclosures, cables or accessories used in conjunction with the product1.Removal or installations charges.2.Costs of initial technical adjustments (set-up), including adjustment of user controls or programming. These costs are the responsibility of the Kramer dealer from whom the product was purchased.3.Shipping charges.1.To obtain service on you product, you must take or ship it prepaid to any authorized Kramer service center.2.Whenever warranty service is required, the original dated invoice (or a copy) must be presented as proof of warranty coverage, and should be included in any shipment of the product. Please also include in any mailing a contact name, company, address, and a description of the problem(s).3.For the name of the nearest Kramer authorized service center, consult your authorized dealer.All implied warranties, including warranties of merchantability and fitness for a particular purpose, are limited in duration to the length of this warranty.1.Damage to other property caused by defects in this product, damages based upon inconvenience, loss of use of the product, loss of time, commercial loss; or:2.Any other damages, whether incidental, consequential or otherwise. Some countries may not allow limitations on how long an implied warranty lasts and/or do not allow the exclusion or limitation of incidental or consequential damages, so the above limitations and exclusions may not apply to you.Servicing the machines can only be done by an authorized Kramer technician. Any user who makes changes or modifications to the unit without the expressed approval of the manufacturer will void user authority to operate the equipment.Use the supplied DC power supply to feed power to the machine.Please use recommended interconnection cables to connect the machine to other components.IF reattached, removed or otherwise interfered with.* FCC and CE approved using STP cable (for twisted pair products)NOTE:Part 1:Kramer Electronics, Ltd. Web site: E-mail:*****************P/N: 2900-000388 REV 8For the latest information on our products and a list of Kramer distributors, visit our Web site: where updates to this user manual may be found. We welcome your questions, comments and feedback. CautionSafety Warning :Disconnect the unit from the power supply before opening/servicing.PN:。

1200AP40 1200AP60、1203P60200D6、203D6 DAP8A 可互代203D6/1203P6 DAP8A2S0680 2S08803S0680 3S08805S0765 DP104、DP7048S0765C DP704加24V的稳压二极管ACT4060 ZA3020LV/MP1410/MP9141ACT4065 ZA3020/MP1580ACT4070 ZA3030/MP1583/MP1591MP1593/MP1430 ACT6311 LT1937ACT6906 LTC3406/AT1366/MP2104AMC2576 LM2576AMC2596 LM2596AMC3100 LTC3406/AT1366/MP2104AMC34063A AMC34063AMC7660 AJC1564AP8012 VIPer12AAP8022 VIPer22ADAP02 可用SG5841 /SG6841代换DAP02ALSZ SG6841DAP02ALSZ SG6841DAP7A、DP8A 203D6、1203P6DH321、DL321 Q100、DM0265RDM0465R DM/CM0565RDM0465R/DM0565R 用cm0565r代换（取掉4脚的稳压二极管）DP104 5S0765DP704 5S0765DP706 5S0765DP804 DP904FAN7601 LAF0001LD7552 可用SG6841代（改4脚电阻）LD7575PS 203D6改1脚100K电阻为24KOB2268CP OB2269CPOB2268CP SG6841改4脚100K电阻为20-47KOCP1451 TL1451/BA9741/SP9741/AP200OCP2150 LTC3406/AT1366/MP2104OCP2160 LTC3407OCP2576 LM2576OCP3601 MB3800OCP5001 TL5001OMC2596 LM2596/AP1501PT1301 RJ9266PT4101 AJC1648/MP3202PT4102 LT1937/AJC1896/AP1522/RJ9271/MP1540SG5841SZ SG6841DZ/SG6841DSM9621 RJ9621/AJC1642SP1937 LT1937/AJC1896/AP1522/RJ9271/MP1540STR-G5643D STR-G5653D、STR-G8653DTEA1507 TEA1533TEA1530 TEA1532对应引脚功能接入THX202H TFC719THX203H TFC718STOP246Y TOP247YVA7910 MAX1674/75 L6920 AJC1610VIPer12A VIPer22A[audio01]ICE2A165(1A/650V.31W);ICE2A265(2A/650V.52W);ICE2B0565(0.5A/650V.23W):ICE2B165(1A/650V.31W);ICE2B265(2A/650V.52W);ICE2A180(1A/800V.29W);ICE2A280(2A/800.50W).KA5H0365R, KA5M0365R, KA5L0365R, KA5M0365RN# u) t! u1 W1 B) R, PKA5L0365RN, KA5H0380R, KA5M0380R, KA5L0380R1、KA5Q1265RF/RT（大小两种体积）、KA5Q0765、FSCQ1265RT、KACQ1265RF、FSCQ0765RT、FSCQ1565Q这是一类的，这些型号的引脚功能全都一样，只是输出功率不一样。

HT68FB571 LED PWM Function Application DescriptionD/N: AN0503EIntroductionThe Holtek HT68FB571 USB Flash LED MCU, which is specially designed for singlecolour LED Gaming Keyboard applications, can simultaneously interface up to 128 singlecolour LEDs by using a matrix scanning method. The integrated 8-bit PWM functions canbe used for finely tuning LED brightness. The I/Os, which are equipped with directlydriving LED capacity, save the added cost of additional external transistors. In addition,the device also offers a high scanning frame update rate of 1.5kHz. The key pins of theauto key scan function are pin-shared with the LED PWM function pins thus greatlyreducing the MCU package pin number which leads to reduced product development timeand cost. This document gives a description of the related registers and operationprocedures for the HT68FB571 LED PWM function to assist users in developing theirproducts.Functional DescriptionThe Holtek HT68FB571 USB Flash LED MCU provides users with a set of LED PWMrelated registers including four LED PWM function enable control registers LMnCE(x=0~3), four LED PWM control registers and twenty auto key scan data registersKEYDATAx (x=0~19). Additionally, an LED PWM dedicated data memory is provided forLED auto scan data storage. In the functional description section, a description of theLED PWM architecture is provided along with descriptions for the control registers, LEDPWM auto mode operation, manual mode operation, LED PWM waveforms andhardware circuits.LED PWM Architecture DescriptionThe HT68FB571 LED PWM functional architecture is composed of four LED PWMmodules, an LED PWM dedicated RAM, a register transfer unit and an LED COM outputunit. The LED PWM function block diagram is shown in the following figure. Here n=0~3,m=0~15, x=0~19.For each LED PWM module, there are two PWM control circuits, namely PWM A and PWM B. The PWM A outputs correspond to LEDSEG2n while the PWM B outputs correspond to LEDSEG(2n+1), where n is the selected module number. The device provides up to 8 groups of 8-bit PWM outputs. The PWM operating frequency, which can be 6MHz, 12MHz, 16MHz or other values is selected using the PWMCK[2:0] bits that is bit 4 ~ bit 2 of the PWMCTL0 register.The LEDCOM output unit is used to generate the external LEDCOMm enable control signals. By using a matrix scanning method combined with LEDSEG outputs, the device can implement up to (m+1)×(n+1)×2 LED applications.The LED PWM dedicated data memory, which is known as the LED RAM, has a capacity of 128 bytes and is located at 80H~FFH in RAM Sector 4. During the LED PWM auto scan period, the device can read out the PWM data from the LED RAM and then output the corresponding PWM duty cycle.To implement the auto key scan function, firstly the rows to be automatically scanned should be selected using the KEYSR4~0 (PWMCTL1 bit 7~3) bits. The columns that will be automatically scanned are KEYC7~KEYC0 and their corresponding pin-shared function should be setup correctly using the PDS0[7:0] and PDS1[7:0] bits. Then the scan result data can be read out from the KEYDATA x~0 registers. The corresponding waveforms for the automatic LED scan and Key scan will be explained in detail in the following chapters.The LED PWM function also provides two interrupts, LEDINT and SCANINT, which are helpful during program design. When completing a frame of data, i.e. (m+1)×2(n+1) LEDSEG signals have been scanned, an LEDINT interrupt signal will be generated. When a key scan frame is completed, the SCANINT interrupt signal will be generated.KSCE & LDCOM[3:0]f f f f (f (f (f f KEYC0LED PWM ArchitectureLED PWM Function Control Register DescriptionThe HT68FB571 LED PWM function includes an LED PWM control function and an auto scan function.The LED PWM function can operate in two modes, manual mode and automatic mode, which are selected and configured by the PWMCTL0, PWMCTL1, PWMCTL2, PWMCTL3 and PWMCTL4 control registers.In the manual mode, the value in the LMnCAR and LMnCBR registers are used to control the PWM duty outputs.In the automatic mode, using the pre-stored data in the LED PWM dedicated data memory in Sector 4, the required duty PWM outputs will be generated by the hardware. The LMnCE register is used to disable the corresponding LED PWM output to turn the LED off.The HT68FB571 LED PWM control and auto key scan related registers are listed in the following table. Refer to the HT68FB571 datasheet for more details.Register NameBit7 6 5 4 3 2 1 0LMnCE — — — — — — MnCBE MnCAE LMnCAR MnCAD7 MnCAD6 MnCAD5 MnCAD4 MnCAD3 MnCAD2 MnCAD1 MnCAD0 LMnCBR MnCBD7 MnCBD6 MnCBD5 MnCBD4 MnCBD3 MnCBD2 MnCBD1 MnCBD0 PWMCTL0 PWMN2 PWMN1 PWMN0 PWMCK2 PWMCK1 PWMCK0 — LDCOME PWMCTL1 KEYSR4 KEYSR3 KEYSR2 KEYSR1 KEYSR0 PWMGE PHRC KSCE PWMCTL2 TDELAY3 TDELAY2 TDELAY1 TDELAY0 TPHRE1 TPHRE0 COMDIR SEGDIR PWMCTL3 COMRD3 COMRD2 COMRD1 COMRD0 LDCOM3 LDCOM2 LDCOM1 LDCOM0 PWMCTL4 — — — — — RAMCK2 RAMCK1 RAMCK0 KEYDATAx D7 D6 D5 D4 D3 D2 D1 D0 LED PWM Control and Auto Key Scan Register List - n=0~3, x=0~19LED PWM Auto Mode and Auto Key Scan OperationOperating in the LED PWM Auto Mode, the registers which include LMnCE, PWMCTL0, PWMCTL1, PWMCTL2, PWMCTL3, PWMCTL4 and KEYDATAx and an LED PWM dedicated data memory of 128 bytes will be used to control the PWM signal output. The control flowcharts are shown below.The number of used LED COM outputs is determined by the LDCOM[3:0] (PWMCTL3 bit 3~0) bits. The selected COM ports must use continuous numbers starting from COM0. For example, if five COM outputs are needed, then they must be output from the COM0 ~ COM4 ports. Additionally the corresponding pin-shared pins should be selected as LEDCOM functions. For example, if the LEDCOM0 pin function is to be used, the PAS1[1:0] bits should be set to 11 to select the PA4 pin function as the LEDCOM0 first. Then setup the LED COM output polarity to be active low or active high using the COMDIR (PWMCTL2 bit 1) bit according to the actual circuit.If using the LEDSEG function, the corresponding pin function should be selected as LEDSEG. For example, if the LEDSEG4 pin function is to be used, the PFS1[1:0] bits should be set to 11 to select the PF4 pin function as the LEDSEG4 first. Then set the LED SEG output polarity to be active high or active low using the SEGDIR (PWMCTL2 bit 0).Users can write their required duty data into the LED RAM. The hardware will generate the LEDINT interrupt signal when the data in the last address has been processed and then restart the data process from the first address of the LED RAM.The following content will illustrate the data format in the LED PWM dedicated data memory along with the PWM duty cycle.LED PWM Output & Auto Key Scan Control Flow ChartFlowchart DescriptionSTEP1: (1) Configure the PWM clock source frequency by setting the PWMCK[2:0] bits(2) Configure the pin-shared control registers to select the LEDCOM/KEYR &LEDSEG function.STEP2: (1) Configure how many LED COM outputs are used using the LDCOM[3:0] bits(2)Setup the LEDCOM and LEDSEG polarity to be active high or active low(3) Configure the PWM cycle output number of each LEDCOM using thePWMN[2:0] bits - a recommended value is 111, i.e. one PWM output per LEDCOM to obtain the maximum frame update rate.STEP3: If the auto key scan function is to be used(1) Set the KSCE bit to 1(2) Select how many key scan outputs are used by setting the KEYSR[4:0] bits(3) Setup the hardware key scan delay time using the TDELAY [3:0] bits(4) Configure the key scan input port pull-high resistor using the PHRC bitSTEP4: Set both the LDCOME and PWMGE bits high to enable the hardware units for the LED PWM automatic calculation and auto key scan functions.In the automatic mode, the LED PWMs can control the LEDs in a matrix scanning method and generate 2×(n+1) LED PWM SEG and (m+1) COM outputs in total. The LED PWM timing diagram is shown below.An LED frame is a period of time when the hardware outputs are low (if the COMDIR bit is 0) from COM0 to COMm. When COMm is low, the CCO outputs the corresponding PWM duty cycle according to the related register settings and the data in the LED PWM dedicated data memory.LED COM Time SlotLED frame Interrupt request flagEnable the corresponding PWM register and output PWM cycle.About 10us between COM m-1 and COM m for Non-overlap.TLED PWM Timing Diagram - m=15LED PWM Dedicated Memory Data Format DescriptionFor the LED PWM auto mode operation, the device provides a 128-byte LED PWM dedicated data memory, known as the LED RAM, to store the PWM duty data. The LED RAM is located at 80H~FFH in Sector 4 of the Data Memory. The LED RAM is subdivided into 16 columns, namely Column0~Column15. The LED RAM data can be allocated as follows.Start address : RAM Sector 4 [80H]LED RAMBit7~0 : PWM_Cm(A/B)n PWM valueColumn 1Column 0Column 3Column 2Column mLED RAM Allocation - n=0~3, m=0~15In each column, there are 2×(n+1) bytes of data which is arranged using the following rule.PWM Column m: Store LED PWM A and PWM B duty data of the COM m and Module n PWM_CmA0: The PWM A duty value for COMm and Module 0 PWM_CmB0: The PWM B duty value for COMm and Module 0 ::PWM_CmAF: The PWM A duty value for COMm and Module F PWM_CmBF: The PWM B duty value for COMm and Module FLED PWM Manual Mode Operation DescriptionIf the LDCOME (PWMCTL0 bit 3) bit is set to 0, the LED PWM Manual Mode will be enabled and the related registers including LMnCAR / LMnCBR (n=0~3), PWMCTL0, PWMCTL1 and PWMCTL2 should be setup correctly. In the manual mode, users should setup the LED PWM duty value and disable/enable the PWM outputs using the application program. The LEDCOMm and LEDSEGn pin function should also be selected using the corresponding pin-shared function control registers.In the manual mode, the LED PWM dedicated data memory is not used. Some registers only related to the auto mode are unavailable. LED PWM Waveform DescriptionThe PWMN[2:0] (PWMCTL0 bit 7~5) bits are used to configure the number of the LED PWM outputs for each LEDCOM active time. The following example, which is an LED PWM output waveform, shows the relationship between the LEDCOM and LEDSEG outputs. In the following figure, two LED PWM (LEDSEG) cycles are output during each LED COM active output and the LED PWM duty is 5.Ex: Duty Value=5(LED-SEG High active)LEDCOM Output Waveform (each COM=2 PWM perod) (LED-COM Low active)LED PWM Module Output WaveformAuto Key Scan DescriptionThe HT68FB571 provides an auto key scan function, which can be enabled by setting the KSCE bit high. This function is implemented using key scan output ports KEYRm which are shared with the LEDCOMm ports or independent key scan output ports KEYR19 ~ KEYR16. The scanning data can be input through the key scan input ports KEYC0~KEYC7 and then stored in the KEYDATAx register. The auto key scan function related register control bits include KSCE, PHRC, TDELAY[3:0] and KEYSR[4:0] as well as the KEYDATAx register used for scanning input data storage.The auto key scan function which is shared with the LED PWM function is controlled using the KSCE, PHRC, KEYSR[4:0], LDCOM[3:0], TDELAY[3:0] and TPHRE[1:0] bits. The waveforms in different configuration conditions are shown below. Condition (1)KSCE=1; Enable hardware Key Scan functionPHRC=0; Disable hardware Key Scan input port pull high resistor T1=TDELAY3~0KEYSR4~0 (x)=LDCOM3~0(m)LED COMTime Slotrequest flagEnable the corresponding PWM (A/B) register and output PWM (A/B) cycle LED SEGLED SEG offCOMm-1 and COMm for Non-overlap● Condition (2)KSCE=1; Enable hardware Key Scan functionPHRC=0; Disable hardware Key Scan input port pull high resistor KEYSR4~0 (x) < LDCOM3~0(m) T1=TDELAY3~0 Ex. x=m-1LED COM Time SlotLED frame Interrupt request flagEnable the corresponding PWM (A/B) register and output PWM (A/B) cycleLED SEGLED SEG offCOMm-1 and COMm for Non-overlap●Condition (3)KSCE=1; Enable hardware Key Scan functionPHRC=0; Disable hardware Key scan input port pull high resistor KEYSR4~0 (x) > LDCOM3~0(m) T1=TDELAY3~0 Ex. x=m+1LED COM Time SlotLED frame Interrupt request flagEnable the corresponding PWM (A/B) register and output PWM (A/B) cycle LED SEGLED SEG offCOMm-1 and COMm for Non-overlap● Condition (4)KSCE=1; Enable hardware Key Scan functionPHRC=1; Enable hardware Key Scan input port pull high resistor T1=TDELAY3~0; T2=TPHRE1~0 KEYSR4~0 (x)=LDCOM3~0 (m)Enable the corresponding PWM (A/B) register and output PWM (A/B) cycle LED SEG offCOMm-1 and COMm for Non-overlap● Condition (5)KSCE=1; Enable hardware Key Scan functionPHRC=1; Enable hardware Key Scan input port pull high resistor KEYSR4~0 (x) < LDCOM3~0 (m) T1=TDELAY3~0; T2=TPHRE1~0Ex. x=m-1;Enable the corresponding PWM (A/B) register and output PWM (A/B) cycle LED SEG offCOMm-1 and COMm for Non-overlapCondition (6)KSCE=1; Enable hardware Key Scan function;PHRC=1; Enable hardware Key Scan input port pull high resistor control T1=TDELAY3~0; T2=TPHRE1~0 KEYSR4~0 (x) > LDCOM3~0 (m) Ex. x=m+1Enable the corresponding PWM (A/B) register and output PWM (A/B) cycle LED SEG offCOMm-1 and COMm for Non-overlapHardware Circuit DescriptionThe circuits related to implementing the LED PWM and Auto Key Scan include the LEDSEG7~0, LEDCOM15~0, KEYR19~0 and KEYC7~0 pins. As the I/Os can be used to directly drive external LEDs, the circuit can be easily designed without requiring external circuits to drive up to 128 single colour LEDs. The recommended circuit is shown below.Key: 20×8(COMDIR=1, SEGDIR=1)Single Colour LED PWM with Auto Key Scan Application CircuitAlthough the HT68FB571 is mainly for single colour LED applications, it can also be usedfor driving RGB LEDs. The following matrix circuit is recommended for common anodeRGB LED applications. In the dashed box, there is a common anode RGB LED. The devicecan drive up to 40 common anode RGB LEDs.The following matrix circuit is recommended for common cathode RGB LED applications.In the dashed box, there is a common cathode RGB LED. The device can drive up to 32common cathode RGB LEDs.Program Example DescriptionThe HT68FB571 LED PWMs are generated using automatic scanning by the hardware.Users only need to setup the related registers correctly and write the required data intothe LED RAM when using the function. The following gives a simple program example toillustrate how to use the function.#include "HT68FB571.h"__attribute__ ((at(0x480))) //set LED RAM locationstatic volatile unsigned char LEDRAM[128];unsigned char j,k;__attribute__ ((interrupt (0x10))) //enable LED PWM frame interrupt vectorvoid led_int() // update LED RAM{k++ ;for (j=0; j≤128;j++)LEDRAM[j]=k;_edf=0;}void main(){GCC_CLRWDT();i=0 ;j=0 ;k=0;_wdtc=0b01010111; //enable wdt_sledc =0b00001111; //set SEG source max_pac =0b00000000; //set pa for output mode_pbc =0b00000000; //set pb for output mode_pec =0b00000000; //set pe for output mode_pfc =0b00000000; //set pf for output mode_pas1 =0b11111111 ; //set PA7~4 for LEDCOM 3~0_pbs0 =0b11111111 ; //set PA3~0 for LEDCOM 7~4_pes0 =0b11111111 ; //set PE3~0 for LEDCOM 11~8_pes1 =0b11111111 ; //set PE7~4 for LEDCOM 15~12_pfs0 =0b11111111; //set pf3~0 for LEDSEG 3~0_pfs1 =0b11111111; //set pf7~4 for LEDSEG 7~4_pwmctl0 =0b00001001; //LED PWM number, PWM freq, LDCOME_pwmctl1 =0b01111000; //KB scan_out number, PWMGE, PHRC, KSCE_pwmctl2 =0b01100000; //set T1 & T2 COM SEG Dir_pwmctl3 =0b00001111; //LED COM number_pwmctl4 =0b00000001; //RAM freq_ldcome=1; //enable LED hardware COM function_emi=1 ; //enable Global_lede=1; //enable LED hardware LED PWM frame interruptfor (j=0; j≤128;j++)//initial LED RAMLEDRAM[j]=0 ;_pwmge=1; //enable Global LED Hardware functionwhile(1)GCC_CLRWDT();}ConclusionThis application note content has summarised the HT68FB571 LED PWM function usageand provided some usage considerations. When combined with the provided programexample, users can use the LED PWM function more flexibly and develop their productsas rapidly as possible.Reference FilesHT68FB571 Data sheetFor more information, refer to the Holtek official website .Version and Modify InformationDate Author Issue and Revision2018.10.18 Jones Wang First VersionDisclaimerAll information, trademarks, logos, graphics, videos, audio clips, links and other itemsappearing on this website ('Information') are for reference only and is subject to change atany time without prior notice and at the discretion of Holtek Semiconductor Inc.(hereinafter 'Holtek', 'the company', 'us', 'we' or 'our'). Whilst Holtek endeavors to ensurethe accuracy of the Information on this website, no express or implied warranty is givenby Holtek to the accuracy of the Information. 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