5082-N106-AC000中文资料

Features• Industry Standard Size • Industry Standard Pinout7.62 mm (0.300 inch) DIP Leads on 2.54 mm (0.100 inch) Centers • Choice of ColorsAlGaAs Red, High Efficiency Red,Yellow, Green• Excellent Appearance Evenly Lighted Segments ±50° Viewing AngleOptimum Contrast Given byGray Top Surface for AlGaAs Red and Green DevicesRed Top Surface for HER Devices Yellow Top Surface for Yellow Devices• Design Flexibility Common Anode or Common Cathode Single DigitsLeft or Right Hand Decimal Point ±1. Overflow Character• Categorized for Luminous IntensityYellow and Green Categorized for ColorUse of Like Categories Yields a Uniform Display • High Light Output • High Peak Current• Excellent for Long Digit String Multiplexing• Intensity and Color Selection AvailableSee Intensity and Color Selected Displays Data Sheet• Sunlight Viewable AlGaAsAlGaAs [1]HER [1]Yellow Green Package Red HDSP-5082-5082-HDSP-DescriptionDrawing7610762036007.6 mm Common Anode Left Hand Decimal A 7611762136017.6 mm Common Anode Right Hand Decimal B 7613762336037.6 mm Common Cathode Right Hand Decimal C 7616762636067.6 mm Universal ±1. Overflow Right Hand Decimal [2]D E15076507660460010.9 mm Common Anode Left Hand Decimal E E15176517661460110.9 mm Common Anode Right Hand Decimal F E15376537663460310.9 mm Common Cathode Right Hand Decimal G E15676567666460610.9 mm Universal ±1. Overflow Right Hand Decimal [2]HNotes:1. These displays are recommended for high ambient light operation. Please refer to the HDSP-E10X AlGaAs and HDSP-335X HER data sheet for low current operation.2. Universal pinout brings the anode and cathode of each segment’s LED out to separate pins. See internal diagram D.3. Universal pinout brings the anode and cathode of each segment’s LED out to separate pins. See internal diagram H.Devices5082-761x Series 5082-762x Series 5082-765x Series 5082-766x Series HDSP-360x Series HDSP-460x Series HDSP-E15x Series7.6 mm (0.3 inch)/10.9 mm (0.43 inch) Seven Segment Displays Technical DataDescriptionThe 7.6 mm (0.3 inch) and 10.9mm (0.43 inch) LED sevensegment displays are designed for viewing distances up to 3 metres (10 feet) and 5 metres (16 feet).These devices use an industry standard size package andpinouts. All devices are available as either common anode or common cathode.Part Numbering System5082 -X X X X-X X X X XHDSP-X X X X-X X X X XMechanical Options[1]00: No Mechanical OptionColor Bin Options[1,2]0: No Color Bin Limitation4: Color Bin 4 Only (applicable for Green devices only)B: Color Bins 2 and 3 (applicable for Yellow devices only)Maximum Intensity Bin[1,2]0: No Maximum Intensity Bin LimitationMinimum Intensity Bin[1,2]0: No Minimum Intensity Bin LimitationDevice Configuration/Color[1]0: Common Anode1: Common Anode3: Common CathodeDevice Specific Configuration[1]Refer to Respective DatasheetPackage[1]E: 10.9 mm (0.43 inch) Single Digit Seven Segment Display Notes:1. For codes not listed in the figure above, please refer to the respective datasheet or contact your nearestAgilent representative for details.2. Bin options refer to shippable bins for a part number. Color and Intensity Bins are typically restricted to 1bin per tube (exceptions may apply). Please refer to respective datasheet for specific bin limit information.displays are ideal for portable applications. The high light ambient displays are ideal for high light ambients or long string lengths. For additional informa-tion see the Low Current Seven Segment Displays, or High Light Ambient Seven Segment Displays data sheets.NOTES;1. DIMENSIONS IN MILLIMETRES AND (INCHES).2. ALL UNTOLERANCED DIMENSIONS ARE FOR REFERENCE ONLY.3. REDUNDANT ANODES.4. UNUSED DP POSITION.5. SEE INTERNALCIRCUIT DIAGRAM.6. REDUNDANT CATHODE.7. SEE PART NUMBER TABLE FOR L.H.D.P.AND R.H.D.P.DESIGNATION.8. FOR YELLOW AND GREEN DEVICES ONLY.Package DimensionsThese displays are ideal for most applications. Pin for pin equiva-lent displays are also available in a low current or high lightambient design. The low currentInternal Circuit DiagramAbsolute Maximum RatingsAlGaAs Red HER Yellow GreenHDSP-E1505082-7610/5082-7620/HDSP-3600/ Description Series7650 Series7660 Series4600 Series Units Average Power per Segment or DP9610580105mW Peak Forward Current per160[1]90[3]60[5]90[7]mA Segment or DPDC Forward Current per40[2]30[4]20[6]30[8]mA Segment or DPOperating Temperature Range-20 to +100[9]-40 to +100°C Storage Temperature Range -55 to +100°C Reverse Voltage per 3.0V Segment or DPWave Soldering Temperature for3 Seconds (1.59 mm [0.063 in.] 250°Cbelow Body)Notes:1.See Figure 1 to establish pulsed conditions.2. Derate above 46°C at 0.54 mA/°C.3. See Figure 6 to establish pulsed conditions.4. Derate above 53°C at 0.45 mA/°C.5. See Figure 7 to establish pulsed conditions.6. Derate above 81°C at 0.52 mA/°C.7. See Figure 8 to establish pulsed conditions.8. Derate above 39°C at 0.37 mA/°C.9. For operation below -20°C, contact your local Agilent components sales office or an authorized distributor.Electrical/Optical Characteristics at T A = 25°CAlGaAs RedDeviceSeries Parameter Symbol Min.Typ.Max.Units Test Conditions Luminous Intensity/Segment[1,2,5]I V8.515.0mcd I F = 20 mA(Digit Average)1.8V I F = 20 mAForward Voltage/Segment or DP V F2.03.0V I F = 100 mAHDSP-E15x Peak WavelengthλPEAK645nmDominant Wavelength[3]λd637nmReverse Voltage/Segment or DP[4]V R 3.015V I R = 100 µATemperature Coefficient of∆V F/°C-2mV/°CV F/Segment or DPThermal Resistance LED Junction-RθJ-PIN340°C/W/Segto-PinHigh Efficiency RedDeviceSeries Parameter Symbol Min.Typ.Max.Units Test Conditions 5082-761x Luminous Intensity/Segment[1,2,6]340800µcd I F = 5 mA (Digit Average)I V5082-765x3401115µcd I F = 5 mA Forward Voltage/Segment or DP V F 2.1 2.5V I F = 20 mAPeak WavelengthλPEAK635nmDominant Wavelength[3]λd626nm AllReverse Voltage/Segment or DP[4]V R 3.030V I R = 100 µATemperature Coefficient of∆V F/°C-2mV/°CV F/Segment or DPThermal Resistance LED RθJ-PIN280°C/WJunction-to-PinDevice Series ParameterSymbol Min.Typ.Max.Units Test Conditions 5082-762x Luminous Intensity/Segment [1,2]205620µcdI F = 5 mA(Digit Average)I V5082-766x290835µcd I F = 5 mA Forward Voltage/Segment or DP V F 2.2 2.5V I F = 20 mAPeak WavelengthλPEAK 583nm Dominant Wavelength [3,7]λd 581.5586592.5nm AllReverse Voltage/Segment or DP [4]V R 3.040V I R = 100 µA Temperature Coefficient of ∆V F /°C -2mV/°C V F /Segment or DP Thermal Resistance LED R θJ-PIN280°C/W/SegJunction-to-PinYellowNotes:1. Device case temperature is 25°C prior to the intensity measurement.2. The digits are categorized for luminous intensity. The intensity category is designated by a letter on the side of the package.3. The dominant wavelength, λd , is derived from the CIE chromaticity diagram and is that single wavelength which defines the color of the device.4. Typical specification for reference only. Do not exceed absolute maximum ratings.5. For low current operation, the AlGaAs HDSP-E10X series displays are recommended. They are tested at 1 mA dc/segment and are pin for pin compatible with the HDSP-E15X series.6. For low current operation, the HER HDSP-335X series displays are recommended. They are tested at 2 mA dc/segment and are pin for pin compatible with the 5082-7650 series.7. The Yellow (5082-7620/7660) and Green (HDSP-3600/4600) displays are categorized for dominant wavelength. The category is designated by a number adjacent to the luminous intensity category letter.High Performance GreenDevice Test Series ParameterSymbol Min.Typ.Max.Units Conditions HDSP-360x Luminous Intensity/Segment [1,2]8602700µcdI F = 10 mA(Digit Average)I VHDSP-460x10304000µcd I F = 10 mA Forward Voltage/Segment or DP V F 2.1 2.5V I F = 10 mAPeak WavelengthλPEAK 566nm Dominant Wavelength [3,7]λd 571577nm AllReverse Voltage/Segment or DP [4]V R 3.050V I R = 100 µA Temperature Coefficient of ∆V F /°C -2mV/°C V F /Segment or DP Thermal Resistance LED R θJ -PIN280°C/W/SegJunction-to-PinFigure 3. Forward Current vs. Forward Voltage.Figure 2. Maximum Allowable DC Current vs.Ambient Temperature.Figure 4. Relative Luminous Intensity vs. DC Forward Current.Figure 5. Relative Efficiency (Luminous Intensity per Unit Current) vs. Peak Current.AlGaAs RedI D C M A X . – M A X I M U M D C C U R R E N T P E R S E G M E N T – m AT A – AMBIENT TEMPERATURE – °C5030102051525354045I F – F O R W A R D C U R R E N T P E R S E G M E N T – m AV F – FORWARD VOLTAGE – V R E L A T I V E L U M I N O U S I N T E N S I T Y (N O R M A L I Z E D T O 1 A T 20 m A )0I F – FORWARD CURRENT PER SEGMENT – mA2.001.501.250.750.2520401.751.000.5010305152535ηP E A K – N O R M A L I Z E D R E L A T I V E EF F I C I E N C Y0.5I PEAK – PEAK FORWARD CURRENTPER SEGMENT – mA50.0150.05.0HER, Yellow, GreenFigure 8. Allowable Peak Current vs.Pulse Duration – Green Series.Figure 9. Maximum Allowable DC Current vs.Ambient Temperature.Figure 11. Relative LuminousIntensity vs. DC Forward Current.Figure 10. Forward Current vs.Forward Voltage.Figure 12. Relative LuminousEfficiency (Luminous Intensity per Unit Current) vs. Peak Current.HDSP-E15x IV Bin Category Min.Max.L 8.6715.90M 13.0023.80N 19.5035.80O 29.3053.60P 43.9080.50Intensity Bin Limits (mcd)AlGaAs RedHER5082-761x IV Bin Category Min.Max.B 0.3690.630C 0.5160.946D 0.774 1.418E 1.160 2.127F 1.740 3.190G 2.610 4.785H 3.9157.1775082-765xIV Bin Category Min.Max.B 0.3470.593C 0.4850.890D 0.728 1.333E 1.091 2.000F 1.636 3.000G 2.454 4.500H 3.6826.751Yellow5082-762x IV Bin Category Min.Max.B 0.2290.387C 0.3170.582D 0.4760.872E 0.714 1.311F 1.073 1.967G 1.609 2.950H 2.413 4.4255082-766xIV Bin Category Min.Max.C 0.2970.543D 0.4450.817E 0.669 1.225F 1.003 1.838G 1.504 2.758H 2.2564.137HDSP-460xIV Bin Category Min.Max.G 1.03 1.88H 1.54 2.82I 2.31 4.23J 3.46 6.34K 5.189.50L 7.7814.26GreenHDSP-360x IV Bin Category Min.Max.H 0.86 1.58I 1.29 2.37J 1.94 3.55K 2.90 5.33L 4.378.01Color CategoriesNote:All categories are established for classification of products. Products may not be available in all categories. Please contact your Agilent representatives for further clarification/information.Contrast EnhancementFor information on contrastenhancement, please seeApplication Note 1015.Soldering/CleaningFor information on solderingLEDs, please refer to ApplicationNote 1027.元器件交易网/semiconductorsFor product information and a complete list ofdistributors, please go to our web site.For technical assistance call:Americas/Canada: +1 (800) 235-0312 or(916) 788-6763Europe: +49 (0) 6441 92460China: 10800 650 0017Hong Kong: (+65) 6756 2394India, Australia, New Zealand: (+65) 6755 1939Japan: (+81 3) 3335-8152 (Domestic/Interna-tional), or 0120-61-1280 (Domestic Only)Korea: (+65) 6755 1989Singapore, Malaysia, Vietnam, Thailand,Philippines, Indonesia: (+65) 6755 2044Taiwan: (+65) 6755 1843Data subject to change.Copyright © 2004 Agilent Technologies, Inc.Obsoletes 5963-7394EJuly 17, 20045988-3325EN。

V8A02解决方案用户手册V2.1目录1. 文档说明 (6)1.1版本说明 (6)1.2专有名词 (6)2. 方案简介 (8)2.1方案概述 (8)2.2 功能特点 (8)2.2.1 支持DVI数据源输入 (8)2.2.2 支持宽屏等多种DVI输入分辨率 (8)2.2.3 发送卡超大带载 (8)2.2.4 功能强大的配套软件 (8)2.2.5 智能在线检测 (8)2.2.6 高刷新频率 (8)2.2.7 高灰度等级 (9)2.2.8 支持各种像素类型 (9)2.2.9 灵活支持各种模组 (9)2.2.10 多样的端口设置功能 (9)2.2.11箱体色度调整 (9)2.2.12 逐点校正功能 (9)2.2.13 集成测试功能 (9)2.2.14 联机配置数据 (9)2.2.15 智能维修 (10)2.2.16 环路备份功能 (10)2.2.17 在线升级固件安全可靠 (10)2.2.18 支持低电压输入 (10)2.2.19 配备指示灯及控制面板接口 (10)2.2.20 支持远距离传输 (10)2.2.21 支持音频传输及电源控制 (10)2.2.22 提供完整的二次开发接口 (10)2.2.24 支持内建PWM恒流 (10)2.2.25 支持低亮度高保真 (10)2.3产品清单 (11)3. 应用概述 (12)3.1 典型应用 (12)3.2 环路备份 (13)3.3 多发送卡 (14)4. 功能详解 (15)4.1 模组支持能力 (15)4.1.1 模组行、列数1～128以内任意 (16)4.1.2 模组数据类型 (16)4.1.3 模组内每扫描串移长度 (17)4.1.4 虚拟模组LED灯点位置多种排列方式 (17)4.2 箱体连接设置 (17)4.2.1 箱体内模组级联方式 (17)4.2.2 端口扩展 (18)4.2.3 端口对开 (19)4.2.4 端口逆序 (20)4.2.5 端口偏移 (20)4.2.6 箱体带载高度、宽度 (20)4.2.7 箱体显示起始的行、列位置 (21)4.2.8 箱体无信号输入时显示内容设置 (21)4.2.9 箱体级联数量 (21)4.2.10 箱体色度调整 (21)4.2.11 箱体逐点色度校正 (22)4.2.12 箱体测试功能 (22)4.3 屏体参数调节 (23)4.3.1 多个LED屏设置 (23)4.3.3 虚拟LED屏的实效果 (24)4.3.4 LED屏亮度调节 (25)4.3.5 LED屏对比度调节 (26)4.3.6 LED屏色温调节 (26)4.3.7 关闭LED屏显示 (27)4.3.8 锁定LED屏内容 (27)4.3.9 LED屏环境监控 (27)4.4 显示性能参数说明 (30)4.4.1 灰度等级 (30)4.4.2 刷新频率 (31)4.4.3 亮度效率 (31)4.4.4 最小OE (31)4.5 发送卡带载 (31)4.6 在线检测 (34)4.7 系统升级 (34)4.8 智能维修 (36)4.8.1 接收卡更换 (36)4.8.2模组替换 (37)5. 使用说明 (39)5.1 连接硬件 (39)5.1.1 发送卡安装方法 (39)5.1.2 接收卡安装方法 (39)5.1.3 多功能卡安装方法 (39)5.2 安装软件 (40)5.2.1 配置要求 (40)5.2.2 安装步骤 (40)5.3 系统设置 (40)5.3.1 显卡设置 (40)5.3.2系统设置 (43)6. 附录 (55)6.1 设备推荐型号 (55)6.1.1 DVI复制器 (55)6.2 选用线缆清单 (55)6.2.1 HDMI转DVI线缆 (55)6.2.2 音频线 (56)6.2.3 双绞线 (56)6.2.4 光纤 (56)1. 文档说明1.1版本说明版本日期说明V2.0 2013-01-09 升级自1.71版本V2.1 2013-07-15 新增接收卡产品1.2专有名词以下是本文中使用的专用术语及解释，便于读者更好的理解文章内容｡●软件一系列按照特定顺序组织的计算机数据和指令的集合，本文中特指在计算机上运行的应用软件。

Schottky Barrier Diodes for General Purpose ApplicationsTechnical DataFeatures• Low Turn-On VoltageAs Low as 0.34 V at 1 mA• Pico Second Switching Speed • High Breakdown VoltageUp to 70 V• Matched Characteristics AvailableDescription/Applications The 1N5711, 1N5712, 5082-2800/ 10/11 are passivated Schottky barrier diodes which use a patented “guard ring” design to achieve a high breakdown voltage. Packaged in a low cost glass package, they are well suited for high level detecting, mixing, switching, gating, log or A-D converting, video detecting, frequency discriminating, sampling, and wave shaping.The 5082-2835 is a passivatedSchottky diode in a low cost glasspackage. It is optimized for lowturn-on voltage. The 5082-2835 isparticularly well suited for theUHF mixing needs of the CATVmarketplace.The 5082-2300 Series and5082-2900 devices are unpas-sivated Schottky diodes in a glasspackage. These diodes haveextremely low 1/f noise and areideal for low noise mixing, andhigh sensitivity detecting. Theyare particularly well suited for usein Doppler or narrow band videoreceivers.1N57111N57125082-2300 Series5082-2800 Series5082-2900DIMENSIONS IN MILLIMETERS AND (INCHES).Outline 15Maximum RatingsJunction Operating and Storage Temperature Range5082-2303, -2900.................................................................-60°C to +100°C 1N5711, 1N5712, 5082-2800/10/11....................................-65°C to +200°C 5082-2835............................................................................-60°C to +150°C DC Power Dissipation(Measured in an infinite heat sink at T CASE = 25°C)Derate linearly to zero at maximum rated temperature5082-2303, -2900..............................................................................100 mW 1N5711, 1N5712, 5082-2800/10/11.................................................250 mW 5082-2835.........................................................................................150 mW Peak Inverse Voltage.................................................................................V BRPackage CharacteristicsOutline 15Lead Material........................................................................................DumetLead Finish..............................................................................95-5% Tin-LeadMax. Soldering Temperature................................................260°C for 5 secMin. Lead Strength....................................................................4 pounds pullTypical Package Inductance1N5711, 1N5712:................................................................................2.0 nH2800 Series:........................................................................................2.0 nH2300 Series, 2900:..............................................................................3.0 nHTypical Package Capacitance1N5711, 1N5712:................................................................................0.2 pF2800 Series:........................................................................................0.2 pF2300 Series, 2900:............................................................................0.07 pFThe leads on the Outline 15 package should be restricted so that thebend starts at least 1/16 inch from the glass body.Outline 15 diodes are available on tape and reel. The tape and reelspecification is patterned after RS-296-D.Electrical Specifications at T= 25°CAGeneral Purpose DiodesMin.Max.V F = 1 V Max.Max.Max.Breakdown Forward at Forward Reverse Leakage Capaci-Part Package Voltage Voltage Current Current tance Number Outline V BR (V)V F (mV)I F (mA)I R (nA) at V R (V)C T (pF) 5082-280015704101520050 2.0 1N571115704101520050 2.0 5082-281015204103510015 1.2 1N571215205503515016 1.2 5082-28111515410201008 1.2 5082-2835158*34010*1001 1.0 Test I R = 10 µA I F = 1 mA*V F = 0.45 V V R = 0 V Conditions*I R = 100 µA f =1.0 MHz Note: Effective Carrier Lifetime (τ) for all these diodes is 100 ps maximum measured with Krakauer method at 5 mA except for 5082-2835 which is measured at 20 mA.Low 1/f (Flicker) Noise DiodesMin.Max.V F = 1 V Max.Max.Max.Part Breakdown Forward at Forward Reverse Leakage Capaci-Number Package Voltage Voltage Current Current tance 5082-Outline V BR (V)V F (mV)I F (mA)I R (nA) at V R (V)C T (pF) 230315204003550015 1.0 29001510400201005 1.2 Test I R = 10 µA I F = 1 mA V R = 0 V Conditions f =1.0 MHzNote: Effective Carrier Lifetime (τ) for all these diodes is 100 ps maximum measured with Krakauer method at 20 mA.Matched Pairs and QuadsBasic Matched MatchedPart Number Pair Quad Batch5082-Unconnected Unconnected Matched[1]Test Conditions2900∆VF at IF= 1.0, 10 mA28005082-28045082-2805∆V F at I F = 0.5, 5 mA ∆V F = 20 mV∆V F = 20 mV*I F = 10 mA∆C O at f = 1.0 MHz28115082-2826∆VF at IF= 10 mA∆V F = 10 mV∆C O at f = 1.0 MHz ∆C O = 0.1 pF28355082-2080∆VF at IF=10 mA∆V F = 10 mV∆C O at f = 1.0 MHz∆C O = 0.1 pFNote:1. Batch matched devices have a minimum batch size of 50 devices.SPICE ParametersParameter Units5082-28005082-28105082-28115082-28355082-23035082-2900B V V75251892510C J0pF 1.60.8 1.00.70.7 1.1E G eV0.690.690.690.690.690.69I BV A10E-510E-510E-510E-510E-510E-5I S A 2.2 x 10E-9 1.1 x 10E-90.3 x 10E-8 2.2 x 10E-87 x 1.0E-910E-8N 1.08 1.08 1.08 1.08 1.08 1.08 R SΩ25101051015 P B V0.60.60.60.560.640.64 PT222222 M0.50.50.50.50.50.5Typical ParametersV F – FORWARD VOLTAGE (V)Figure 1. I-V Curve Showing Typical Temperature Variation for 5082-2300 Series and 5082-2900 Schottky Diodes.1001010.10.01I F - F O R W A R D C U R R E N T (m A )V BR (V)Figure 2. 5082-2300 Series Typical Reverse Current vs. Reverse Voltage at Various Temperatures.10.0001,000100101I R (n A )051015100755025T A = 25°CI F - FORWARD CURRENT (mA)Figure 3. 5082-2300 Series and 5082-2900 Typical Dynamic Resistance (R D ) vs. Forward Current (I F ).100010010R D - D Y N A M I C R E S I S T AN C E (Ω)0.01010100V R - REVERSE VOLTAGE (V)Figure 4. 5082-2300 and 5082-2900 Typical Capacitance vs. Reverse Voltage.1.21.00.80.60.40.20C T - C A P A C I T A N C E (p F )048121620V F - FORWARD VOLTAGE (V)Figure 5. I-V Curve Showing Typical Temperature Variation for 5082-2800 or 1N5711 Schottky Diodes.5010510.50.10.050.01I F - F O R W A R D C U R R E N T (m A )00.20.40.60.8 1.0 1.2V R - REVERSE VOLTAGE (V)Figure 6. (5082-2800 OR 1N5711) Typical Variation of Reverse Current (I R ) vs. Reverse Voltage (V R ) at Various Temperatures.100,00010,0001000100101I R - R E V E R S E C U R R E N T (n A )0.20.40.60.81.01.2V R - REVERSE VOLTAGE (V)Figure 7. (5082-2800 or 1N5711)Typical Capacitance (C T ) vs. Reverse Voltage (V R ).12.01.51.00.50C T - C A P A C I T A N C E (p F )010********V F - FORWARD VOLTAGE (V)Figure 8. I-V Curve Showing Typical Temperature Variation for the 5082-2810 or 1N5712 Schottky Diode.100101.00.10.01I F - F O R W A R D C U R R E N T (m A )V R - REVERSE VOLTAGE (V)Figure 9. (5082-2810 or IN5712)Typical Variation of Reverse Current (I R ) vs. Reverse Voltage (V R ) at Various Temperatures.10,0001000100101.0I R - R E V E R S E C U R R E N T (n A )Typical Parameters, continuedV F - FORWARD VOLTAGE (V)Figure 10. I-V Curve Showing Typical Temperature Variation for the 5082-2811 Schottky Diode.100101.00.10.01I F - F O R W A R D C U R R E N T (m A )0.40.20.60.81.01.2V R - REVERSE VOLTAGE (V)Figure 11. (5082-2811) Typical Variation of Reverse Current (I R ) vs. Reverse Voltage (V R ) at Various Temperatures.100,00010,0001000100101I R - R E V E R S E C U R R E N T (n A )0510********V F - FORWARD VOLTAGE (V)Figure 12. I-V Curve Showing Typical Temperature Variations for 5082-2835 Schottky Diode.100101.00.10.01I F - F O R W A R D C U R R E N T (m A )00.20.40.60.8 1.0 1.2V R - REVERSE VOLTAGE (V)Figure 13. (5082-2835) Typical Variation of Reverse Current (I R ) vs. Reverse Voltage (V R ) at Various Temperatures.100,00010,0001000100101I R - R E V E R S E C U R R E N T (n A )0123456V R - REVERSE VOLTAGE (V)Figure 14. Typical Capacitance (C T ) vs. Reverse Voltage (V R ).C T - C A P A C I T A N C E (p F )0246810I F - FORWARD CURRENT (mA)Figure 15. Typical Dynamic Resistance (R D ) vs. Forward Current (I F ).1000100101R D - D Y N A M I C R E S I S T A N C E (Ω)Diode Package Marking1N5xxx5082-xxxxwould be marked:1Nx xxxxx xxYWW YWWwhere xxxx are the last four digits of the 1Nxxxx or the 5082-xxxx partnumber. Y is the last digit of the calendar year. WW is the work week ofmanufacture.Examples of diodes manufactured during workweek45 of 1999:1N57125082-3080would be marked:1N53071280945945Data subject to change.Copyright © 1999 Agilent TechnologiesObsoletes 5968-4304E5968-7181E (11/99)。

ErrataTitle & Document Type: 5510A Automatic Compensator Operating and Service ManualManual Part Number: 05510-90016Revision Date: February 1981About this ManualWe’ve added this manual to the Agilent website in an effort to help you support your product. This manual provides the best information we could find. It may be incompleteor contain dated information, and the scan quality may not be ideal. If we find a bettercopy in the future, we will add it to the Agilent website.HP References in this ManualThis manual may contain references to HP or Hewlett-Packard. Please note that Hewlett- Packard's former test and measurement, life sciences, and chemical analysisbusinesses are now part of Agilent Technologies. The HP XXXX referred to in this document is now the Agilent XXXX. For example, model number HP8648A is now model number Agilent 8648A. We have made no changes to this manual copy.Support for Your ProductAgilent no longer sells or supports this product. You will find any other availableproduct information on the Agilent Test & Measurement website:Search for the model number of this product, and the resulting product page will guideyou to any available information. Our service centers may be able to perform calibrationif no repair parts are needed, but no other support from Agilent is available.。

Amplifier TransistorsNPN SiliconMAXIMUM RATINGSTHERMAL CHARACTERISTICSELECTRICAL CHARACTERISTICS (T = 25°C unless otherwise noted)OFF CHARACTERISTICS1.R θJA is measured with the device soldered into a typical printed circuit board.2.Pulse Test: Pulse Width ≤ 300 m s, Duty Cycle ≤ 2.0%.ON Semiconductor t© Semiconductor Components Industries, LLC, 20011Publication Order Number:2N50882N5089COLLECTOR21EMITTERELECTRICAL CHARACTERISTICS (T= 25°C unless otherwise noted) (Continued)SMALL–SIGNAL CHARACTERISTICS2.Pulse Test: Pulse Width ≤ 300 m s, Duty Cycle ≤ 2.0%.Figure 2. Effects of Frequencyf, FREQUENCY (Hz)7.01020305.0Figure 3. Effects of Collector CurrentI C , COLLECTOR CURRENT (mA)Figure 4. Noise Currentf, FREQUENCY (Hz)Figure 5. Wideband Noise FigureR S , SOURCE RESISTANCE (OHMS)3.0NOISE CHARACTERISTICS(V CE = 5.0 Vdc, T A = 25°C)NOISE VOLTAGEe n , N O I S E V O L T A G E (n V )e n , N O IS E V O L T A G E (n V )I n , N O I S E C U R R E N T (p A )N F , N O I S E F I G U R E (d B )7.01020305.03.0100.10.20.31.00.72.03.05.07.004.08.0121620100 Hz NOISE DATA3002001003.05.07.010********R S , SOURCE RESISTANCE (OHMS)V T , T O T A L N O I S E V O L T A G E (n V )N F , N O I S E F I G U R E (d B )4.08.01220Figure 6. Total Noise Voltage R S , SOURCE RESISTANCE (OHMS)Figure 7. Noise Figure0.5Figure 8. DC Current GainI C , COLLECTOR CURRENT (mA)0.41.02.03.04.00.3h , D C C U R R E N T G A I N (N O R M A L I Z E D )0.2F E 0.70.5Figure 9. “On” VoltagesI C , COLLECTOR CURRENT (mA)0.40.60.81.00.2Figure 10. Temperature CoefficientsI C , COLLECTOR CURRENT (mA)V , V O L T A G E (V O L T S )-ā0.8-ā1.2-ā1.6-ā2R V B E ,B A S E -E M I T T E R θT E M P ER A T U R E C O E F F I C I E N T (m V /C )°-ā0.4-ā2.0f T , C U R R E N T -G A I N Ċ B A N D W I D T H P R O D U C T (M H z )C , C A P A C I T A N C E (p F )8.00.81.02.03.04.06.05003002007050100Figure 11. Capacitance V R , REVERSE VOLTAGE (VOLTS)Figure 12. Current–Gain — Bandwidth ProductI C , COLLECTOR CURRENT (mA)PACKAGE DIMENSIONSCASE 29–11ISSUE ALTO–92 (TO–226)NOTES:1.DIMENSIONING AND TOLERANCING PER ANSI Y14.5M, 1982.2.CONTROLLING DIMENSION: INCH.3.CONTOUR OF PACKAGE BEYOND DIMENSION R IS UNCONTROLLED.4.LEAD DIMENSION IS UNCONTROLLED IN P AND BEYOND DIMENSION K MINIMUM.PLANEDIM MIN MAX MIN MAX MILLIMETERSINCHES A 0.1750.205 4.45 5.20B 0.1700.210 4.32 5.33C 0.1250.165 3.18 4.19D 0.0160.0210.4070.533G 0.0450.055 1.15 1.39H 0.0950.105 2.42 2.66J 0.0150.0200.390.50K 0.500---12.70---L 0.250--- 6.35---N 0.0800.105 2.04 2.66P ---0.100--- 2.54R 0.115--- 2.93---V0.135--- 3.43---EMITTER2.BASE3.COLLECTORON Semiconductor and are trademarks of Semiconductor Components Industries, LLC (SCILLC). SCILLC reserves the right to make changes without further notice to any products herein. SCILLC makes no warranty, representation or guarantee regarding the suitability of its products for any particular purpose, nor does SCILLC assume any liability arising out of the application or use of any product or circuit, and specifically disclaims any and all liability, including without limitation special, consequential or incidental damages. “Typical” parameters which may be provided in SCILLC data sheets and/or specifications can and do vary in different applications and actual performance may vary over time. All operating parameters, including “Typicals” must be validated for each customer application by customer’s technical experts. SCILLC does not convey any license under its patent rights nor the rights of others.SCILLC products are not designed, intended, or authorized for use as components in systems intended for surgical implant into the body, or other applications intended to support or sustain life, or for any other application in which the failure of the SCILLC product could create a situation where personal injury or death may occur. Should Buyer purchase or use SCILLC products for any such unintended or unauthorized application, Buyer shall indemnify and hold SCILLC and its officers, employees, subsidiaries, affiliates, and distributors harmless against all claims, costs, damages, and expenses, and reasonable attorney fees arising out of, directly or indirectly, any claim of personal injury or death associated with such unintended or unauthorized use, even if such claim alleges that SCILLC was negligent regarding the design or manufacture of the part. SCILLC is an Equal Opportunity/Affirmative Action Employer. PUBLICATION ORDERING INFORMATIONJAPAN: ON Semiconductor, Japan Customer Focus Center4–32–1 Nishi–Gotanda, Shinagawa–ku, Tokyo, Japan 141–0031Phone: 81–3–5740–2700Email: r14525@。

M150XN07 V.2Product SpecificationAU OPTRONICS CORPORATIONProduct Specification15.0” XGA Color TFT-LCD ModuleModel Name: M150XN07 V.2Approved by Prepared byCC Chiu TC TsaiDDBU Marketing Division / AU Optronics corporationCustomer Checked & Approved byProduct Specification15.0” XGA Color TFT-LCD ModuleModel Name: M150XN07V.2 (u) Preliminary Specifications( ) Final Specifications Note: This Specification is subject to change without notice.Contents1.0 Handling Precautions (5)2.0 General Description (6)2.1 Display Characteristics (6)2.2 Optical Characteristics (7)3.0 Functional Block Diagram (12)4.0 Absolute Maximum Ratings (13)4.1 TFT LCD Module (13)4.2 Backlight Unit (13)4.3 Absolute Ratings of Environment (13)5.0 Electrical characteristics (14)5.1 TFT LCD Module (14)5.1.1 Power Specification (14)5.1.2 Signal Electrical Characteristics (15)5.2 Backlight Unit (16)6.0 Signal Characteristic (17)6.1 Pixel Format Image (17)6.2 The input data format (18)6.3 Signal Description (19)6.4 Interface Timing (20)6.4.1 Timing Characteristics (20)6.4.2 Timing diagram (21)6.5 Power ON/OFF Sequence (22)7.0 Connector & Pin Assignment (23)7.1 TFT LCD Module (23)7.2 Backlight Unit (24)7.3 Signal for Lamp connector (24)8.0 Reliability (25)9.0 Safety (26)9.1 Sharp Edge Requirements (26)9.2 Materials (26)9.2.1 Toxicity (26)9.2.2 Flammability (26)9.3 Capacitors (26)10.0 Other requirement (26)10.1 National Test Lab Requirement (26)10.2 Label (26)11.0 Mechanical Characteristics (27)Record of RevisionVersion and Date Page Old description New Description Remark 0.1 2005/02/14 All First Edition for Customer1.0 Handling Precautions1) Since front polarizer is easily damaged, pay attention not to scratch it.2) Be sure to turn off power supply when inserting or disconnecting from input connector.3) Wipe off water drop immediately. Long contact with water may cause discoloration or spots.4) When the panel surface is soiled, wipe it with absorbent cotton or other soft cloth.5) Since the panel is made of glass, it may break or crack if dropped or bumped on hard surface.6) Since CMOS LSI is used in this module, take care of static electricity and insure human earth whenhandling.7) Do not open nor modify the Module Assembly.8) Do not press or pat the panel surface by fingers,hand or tooling.9) Do not press the reflector sheet at the back of the module to any directions.10) In case if a module has to be put back into the packing container slot after once it was taken out from thecontainer, do not press the center of the CCFL reflector edge. Instead, press at the far ends of the CCFL reflector edge softly. Otherwise the TFT module may be damaged.11) At the insertion or removal of the Signal Interface Connector, be sure not to rotate nor tilt the InterfaceConnector of the TFT module.12) After installation of the TFT module into an enclosure (Desktop monitor Bezel, for example), do not twistnor bend the TFT Module even momentary. At designing the enclosure, it should be taken into consideration that no bending/twisting forces are applied to the TFT module from outside. Otherwise the TFT module may be damaged.2.0 General DescriptionThis specification applies to the 15.0 inch Color TFT/LCD Module M150XN07 V2.This module is designed for a display unit of personal computer.The display supports the XGA (1024 (H) x 768(V)) screen format and 16.2M colors (RGB 6-bits + FRC data). All input signals are 1 Channel LVDS interface compatible.This module does not contain an inverter card for backlight.2.1 Display CharacteristicsThe following items are characteristics summary on the table under 25 ℃condition:ITEMS Unit SPECIFICATIONSScreen Diagonal [mm] 381 (15”)Active Area [mm] 304.128 (H) x 228.096Pixels H x V 1024(x3) x 768Pixel Pitch [mm] 0.297 (per one triad) x 0.297Pixel Arrangement R.G.B. Vertical StripeDisplay Mode TN mode, Normally WhiteWhite Luminance [cd/m2] 250 (Typ) @ 8mAContrast Ratio 500 : 1 (Typ)Optical Rise Time/Fall Time [msec] 12 (Typ) (Note 1) Color Saturation 65% NTSCNominal Input Voltage VDD [Volt] +3.3 VPower Consumption(VDD line + CCFL line)[Watt] 13.3 W (Typ.) @8mA (All Black Pattern)Weight [Grams] 1100 (Typ)Min. Typ. Max.Horizatal(H) 326.0 326.5 327.0Vertical(V) 253.0 253.5 254.0Physical Size [mm]Depth(D) - - 12.0Electrical Interface 1 Channel LVDSSupport Color 16.2M colors (RGB 6-bit + FRC data)Temperature RangeOperating Storage (Shipping) [o C][o C]0 to +50-20 to +60Surface Treatment Hard-coating (3H), anti-glare treatment Note 1 :System should warm up for at least one hourmeasuring distance2.2 Optical CharacteristicsThe optical characteristics are measured under stable conditions at 25℃ (Room Temperature):Item Unit Conditions Min. Typ. Max.Note Horizontal (Right) CR = 10 (Left) TBD6565- Vertical (Up) CR = 10 (Down) TBD65 55keep total 120(Mayb e 60,60)Horizontal (Right) CR = 5 (Left) TBD TBD Viewing Angle [degree]Vertical (Up) CR = 5 (Down)TBD TBD Contrast ratioNormal Direction TBD 500 -Rising Time - TBD TBD Falling Time - TBD TBD Response Time[msec]Rising + Falling - 12 Note 1Red x 0.61 0.64 0.67 Red y0.30 0.33 0.36 Green x 0.27 0.30 0.33 Green y 0.56 0.59 0.62 Blue x 0.12 0.15 0.18 Color / Chromaticity Coordinates (CIE)Blue y0.07 0.10 0.13 White x 0.28 0.31 0.34 Color Coordinates(CIE)WhiteWhite y 0.30 0.33 0.36 White Luminance @ CCFL 8mA (center)[cd/m 2] 200 250 - Luminance Uniformity [%] 75 80 Note 2 Crosstalk (in 75Hz) [%] 1.2 1.5 Note 3 FlickerdB-20Note 4 Equipment Pattern Generator, Power Supply, Digital Voltmeter, Luminance meter (PR 880, BM-5A ,BM 7 ,CS-1000, CA210, SR_3 & EZ Contrast(ELDIM)* )Aperture1∘with 50cm viewing distanceTest Point Center (VESA point 9) Environment < 1 lux*’ EZ Contrast is different measurement tool with very close viewing distance.Note 1: Definition of Response timeThe output signals of photo detector are measured when the input signals are changed from “Black” to “White”(rising time), and from “White” to “Black ”(falling time), respectively. The response time is interval between the 10% and 90% of amplitudes.Note 2: Brightness uniformity of these 9 points is defined as below50 %90 % 90 % 50 %10 %10 %Note 3: Crosstalk is defined as below :Unit: percentage of dimension of display areal L A -L A ’ l / L A x 100%= 1.5% max., L A and L Bl L B -L B ’ l / L B x 100%= 1.5% max., L A ’ and L B ’ are brightness at location A ’ and B ’Note 4: Test Paterm: Subchecker Pattern at 127 gray levelR G B R G BR G B R G B R G B R G B1/2 1/21/61/61/2 1/21/61/6 2/3 1/3 1/3 2/3Gray Level = L127Gray Level = L0Time3.0 Functional Block DiagramThe following diagram shows the functional block of the 15.0 inches wide Color TFT/LCD Module:CWY20G – A0G16 / MSB240420 JST-BHR-03VS-1Mating Type : HRS DF14-20S-1.25C SM02(8.0)B-BHS-1-TB4.0 Absolute Maximum RatingsAbsolute maximum ratings of the module is as following:4.1 TFT LCD ModuleItem Symbol Min Max Unit Conditions Logic/LCD Drive VDD 0.3 +3.6 [Volt] Note 1,24.2 Backlight UnitItem Symbol Min Max Unit Conditions CCFL Current IRCFL - 8.5 [mA] rms Note 1,24.3 Absolute Ratings of EnvironmentItem Symbol Min Max Unit Conditions Operating Temperature TOP 0 +50 [o C] Note 3 Operating Humidity HOP 8 90 [%RH] Note 3 Storage Temperature TST -20 +60 [o C] Note 3 Storage Humidity HST 8 90 [%RH] Note 3Note 1: With in Ta (25℃)Note 2: Permanent damage to the device may occur if exceed maximum valuesNote 3:For quality perfermance, please refer to AUO IIS(Incoming Inspection Standard). Please refer the graph below for the corresponding of temperature and humidity."5.0 Electrical characteristics5.1 TFT LCD Module 5.1.1 Power SpecificationInput power specifications are as follows;Symbol Parameter Min Typ Max Units ConditionVDD Logic/LCD Drive Voltage 3.0 3.3 3.6 [Volt] ±10%IDD VDD current - 600 700 [mA] Vin=3.3V , Gray Bar Pattern, at 60HzIrush LCD Inrush Current - - 3 [A] NotePDD VDD Power 2.0 2.3 [Watt] Vin=3.3V , Gray Bar Pattern, at 60HzVDDrpAllowableLogic/LCD Drive Ripple Voltage100[mV] p-pVin=3.3V , All Black Pattern, at 75HzNote: Measurement conditions:SWVin rising time0V3.3V5.1.2 Signal Electrical CharacteristicsInput signals shall be low or Hi-Z state when Vin is offIt is recommended to refer the specifications of SN75LVDS82DGG (Texas Instruments) in detail.Each signal characteristics are as follows;Symbol Parameter Min Typ Max Units ConditionVTH Differential Input High Threshold - - 100 [mV] VICM = 1.2V NoteVTL Differential Input Low Threshold -100 -- [mV] VICM = 1.2V Note │VID │ Input DifferentialVoltage100 400 600 [mV] Note VICMDifferential Input Common ModeVoltage1.1-1.45[V]VTH/VTL = ± 100mV NoteNote: LVDS Signal Waveform5.2 Backlight UnitParameter guideline for CCFL InverterSymbol Parameter Min.Typ.Max.Unit ConditionIRCFL CCFL operation range 2.5 8 8.5 [mA]rms(Ta=25o C)Note 4ICFL CCFL Inrush current - - 20 [mA]FCFL CCFL Frequency 40 55 80 [KHz] (Ta=25o C) Note 1ViCFL(0o C) (reference) CCFL Ignition Voltage1450 - -[Volt]rms(T a=0o C) Note 3ViCF (25o C) (reference) CCFL Ignition Voltage1100 - -[Volt]rms(Ta=25o C) Note 3VCFL CCFL Discharge Voltage-620(@8mA)710(@2.5mA)[Volt]rms(Ta=25o C) Note 2PCFL CCFL Power consumption@8mA(excluding inverter)- 10 11 [Watt] (Ta=25o C) Note 2Note 1: CCFL frequency should be carefully determined to avoid interference between inverter and TFT LCD.Note 2: Calculator value for reference (IRCFLxVCFLx2=PCFL).Note 3: CCFL inverter should be able to give output a voltage more than 1450 volt. Lamp units need 1450 volt minimum for ignition.Note 4: CCFL life time is 30,000hr at 8.0mA, it’s defined as when the brightness is reduced by half. It’s recommended not to exceed 8.0mA for CCFL life time concern and it’s prohibited to exceed 8.5mA for safety concern.6.0 Signal Characteristic6.1 Pixel Format ImageFollowing figure shows the relationship of the input signals and LCD pixel format.6.2 The input data formatDE VS HS OG0OR5OR4OR3OR2OR1OR0OB0OG3OG4OG1OG2OB1OG5OB5OB3OB4OB2OR7OB7OR6OB6OG7OG6CLKIN+RIN0 +/-CLKIN-Rsvd Current CycleRIN1 +/-RIN2 +/-RIN3 +/-Note1: Please follow PSWG. Note2: 8-bit inNote3: R/G/B data 7:MSB, R/G/B data 0:LSB6.3 Signal DescriptionThe module using a pair of LVDS receiver SN75LVDS82(Texas Instruments) or compatible. LVDS is a differential signal technology for LCD interface and high speed data transfer device. Transmitter shall be SN75LVDS83(negative edge sampling) or compatible. The first LVDS port(RxOxxx) transmits odd pixels while the second LVDSport(RxExxx) transmits even pixels.CWY20G-A0D1T (PTWO) or MSB240420 (STM)Pin No. Symbol Description1 VDD Power Supply, 3.3V (typical)2 VDD Power Supply, 3.3V (typical)3 VSS Ground4 VSS Ground5 Rin0-- LVDS differential data input (R0-R5, G0)6 Rin0++ LVDS differential data input (R0-R5, G0)7 VSS Ground8 Rin1-- LVDS differential data input (G1-G5, B0-B1)9 Rin1++ LVDS differential data input (G1-G5, B0-B1)10 VSS Ground11 Rin2-- LVDS differential data input (B2-B5, HS, VS, DE)12 Rin2++ LVDS differential data input (B2-B5, HS, VS, DE)13 VSS Ground14 ClkIN-- LVDS differential clock input15 ClkIN++ LVDS differential clock input16 VSS Ground17 Rin3-- LVDS differential data input (R6-R7, G6-G7,B6-B7)18 Rin3+- LVDS differential data input (R6-R7, G6-G7,B6-B7)19 VSS Ground20 VSS GroundNote: Please follow PSWG.6.4 Interface Timing6.4.1 Timing CharacteristicsBasically, interface timings described here is not actual input timing of LCD module but output timing of SN75LVDS82DGG (Texas Instruments) or equivalent.Signal Parameter Symbol MIN TYP MAX Unit Clock Timing Clock frequency clk 50 65 81 MHz Hsync TimingHorizontal active Thd 1024 1024 1024 TclkHorizontal blanking Thbl 40 320 400 TclkHorizontal period Th 1064 1344 1424 Tck Vsync TimingVertical active Tvd 768 768 768 ThVertical blanking Tvbl 8 38 75 ThVertical period Tv 776 806 843 ThNote:DE mode onlyNote: Typical value refer to VESA STANDARD6.4.2 Timing diagram6.5 Power ON/OFF SequenceVin power and lamp on/off sequence is as follows. Interface signals are also shown in the chart. Signals from any system shall be Hi-Z state or low level when Vin is off.On7.0 Connector & Pin AssignmentPhysical interface is described as for the connector on module.These connectors are capable of accommodating the following signals and will be following components.7.1 TFT LCD ModuleConnector Name / Designation Interface Connector / Interface card Manufacturer P-TWO or compatibleType Part Number CWY20G – A0G16 / MSB240420Mating Housing Part Number HRS DF14-20S-1.25CPin#Signal Name Pin#Signal Name1 VDD2 VDD3 VSS4 VSS5 Rin0-6 Rin0+7 VSS8 Rin1-9 Rin1+10 VSS11 Rin2-12 Rin2+13 VSS14 ClkIN-15 ClkIN+16 VSS17 Rin3-18 Rin3+19 VSS20 VSS7.2 Backlight UnitConnector Name / Designation For Lamp ConnectorManufacturer JST or compatibleType / Part Number BHR-03VS-1Mating Type / Part Number SM02(8.0)B-BHS-1-TB 7.3 Signal for Lamp connectorPin Symbol Description1 HV Lamp High Voltage2 NC No connection3 LV Groundu Cable length: 140 +- 5 mmu Connector-output position: right side (front view)u Lamp assembly design shall be easy for replacement and repair.8.0 ReliabilityReliability test conditionNo Test Item Test Condition1 Temperature Humidity Bias (THB) 50℃, 80%, 300hours2 High Temperature Operation (HTO) 50℃, 300hours3 Low Temperature Operation (LTO) 0℃, 300hours4 High Temperature Storage (HTS) 60℃, 300hours5 Low Temperature Storage (LTS) -20℃, 300hours6 Thermal Shock Test (TST) -20℃/30min, 60℃/30min, 100 cycles7 On/Off Test On/10sec, Off/10sec, 30,000 cycles8 Shock Test (Non-Operating) 50G, 20ms, Half-sine wave (+ X, +Y, +Z)9 Vibration Test (Non-Operating) 1.5G(10~200Hz P- P), 30 Minutes each Axis (X, Y, Z)10 ESD (ElectroStatic Discharge) Contact Discharge: ± 8KV, 150pF(330Ω ) 1sec, 8 points, 25 times/ pointAir Discharge: ± 15KV, 150pF(330Ω ) 1sec, 8 points, 25 times/ point11 Altitude Test Operation:10,000 ftNon-Operation:30,000 ft12 Drop Test The drop height is 60cm9.0 Safety9.1 Sharp Edge RequirementsThere will be no sharp edges or comers on the display assembly that could cause injury.9.2 Materials9.2.1 ToxicityThere will be no carcinogenic materials used anywhere in the display module. If toxic materialsare used, they will be reviewed and approved by the responsible AUO Toxicologist.9.2.2 FlammabilityAll components including electrical components that do not meet the flammability gradeUL94-V1 in the module will complete the flammability rating exception approval process.The printed circuit board will be made from material rated 94-V1 or better. The actual ULflammability rating will be printed on the printed circuit board.9.3 CapacitorsIf any polarized capacitors are used in the display assembly, provisions will be made to keepthem from being inserted backwards.10.0 Other requirement10.1 National Test Lab RequirementThe display module will satisfy all requirements for compliance toUL 1950, First Edition U.S.A. Information Technology EquipmentCSA C22.2 No.950-M89 Canada, Information Technology EquipmentEEC 950 International, Information Technology EquipmentEN 60 950 International, Information Processing Equipment(European Norm for IEC950)10.2 LabelThe label is on the panel as shown below:。

Features• Low Power Consumption • Industry Standard Size• Industry Standard Pinout • Choice of Character Size7.6 mm (0.30 in), 10 mm (0.40 in), 10.9 mm (0.43 in), 14.2 mm (0.56 in), 20 mm (0.80 in)• Choice of ColorsAlGaAs Red, High Efficiency Red (HER), Yellow, Green• Excellent Appearance Evenly Lighted Segments±50° Viewing Angle• Design FlexibilityCommon Anode or Common CathodeSingle and Dual DigitLeft and Right Hand Decimal Points±1. Overflow Character• Categorized for Luminous IntensityYellow and Green Categorized for ColorUse of Like Categories Yields a Uniform Display• Excellent for Long Digit String Multiplexing DescriptionThese low current seven segment displays are designed for applica-tions requiring low power consumption. They are tested and selected for their excellent low current characteristics to ensure that the segments are matched at low currents. Drive currents as low as 1 mA per segment are available.Pin for pin equivalent displays are also available in a standard current or high light ambient design. The standard current displays are available in all colors and are ideal for most applica-tions. The high light ambient displays are ideal for sunlight ambients or long string lengths. For additional information see the 7.6 mm Micro Bright Seven Segment Displays, 10 mm Seven Segment Displays, 7.6 mm/10.9 mm Seven Segment Displays, 14.2 mm Seven Segment Displays, 20 mm Seven Segment Displays, or High Light Ambient Seven Segment Displays data sheets.Low Current Seven SegmentDisplays Technical Data HDSP-335x SeriesHDSP-555x SeriesHDSP-751x SeriesHDSP-A10x Series HDSP-A80x Series HDSP-A90x Series HDSP-E10x Series HDSP-F10x Series HDSP-G10x Series HDSP-H10x Series HDSP-K12x, K70x Series HDSP-N10x SeriesHDSP-N40x SeriesDevicesAlGaAs HER Yellow Green Package HDSP-HDSP-HDSP-HDSP-Description Drawing A1017511A801A9017.6 mm Common Anode Right Hand Decimal A A1037513A803A9037.6 mm Common Cathode Right Hand Decimal B A1077517A807A9077.6 mm Common Anode ±1. Overflow C A1087518A808A9087.6 mm Common Cathode ±1. Overflow D F10110 mm Common Anode Right Hand Decimal E F10310 mm Common Cathode Right Hand Decimal F F10710 mm Common Anode ±1. Overflow G F10810 mm Common Cathode ±1. Overflow H G10110 mm Two Digit Common Anode Right Hand Decimal X G10310 mm Two Digit Common Cathode Right Hand Decimal Y E100335010.9 mm Common Anode Left Hand Decimal I E101335110.9 mm Common Anode Right Hand Decimal J E103335310.9 mm Common Cathode Right Hand Decimal K E106335610.9 mm Universal ±1. Overflow[1]L H101555114.2 mm Common Anode Right Hand Decimal M H103555314.2 mm Common Cathode Right Hand Decimal N H107555714.2 mm Common Anode ±1. Overflow O H108555814.2 mm Common Cathode ±1. Overflow P K121K70114.2 mm Two Digit Common Anode Right Hand Decimal R K123K70314.2 mm Two Digit Common Cathode Right Hand Decimal S N10020 mm Common Anode Left Hand Decimal Q N101N40120 mm Common Anode Right Hand Decimal T N103N40320 mm Common Cathode Right Hand Decimal U N10520 mm Common Cathode Left Hand Decimal V N106N40620 mm Universal ±1. Overflow[1]W Note:1. Universal pinout brings the anode and cathode of each segment’s LED out to separate pins. See internal diagrams L or W.Part Numbering System5082-x xx x-x x x xxHDSP-x xx x-x x x xxMechanical Options[1]00: No mechanical optionColor Bin Options[1,2]0: No color bin limitationMaximum Intensity Bin[1,2]0: No maximum intensity bin limitationMinimum Intensity Bin[1,2]0: No minimum intensity bin limitationDevice Configuration/Color[1]G: GreenDevice Specific Configuration[1]Refer to respective datasheetPackage[1]Refer to Respective datasheetNotes:1. For codes not listed in the figure above, please refer to the respective datasheet or contact your nearest Agilent representative fordetails.2. Bin options refer to shippable bins for a part-number. Color and Intensity Bins are typically restricted to 1 bin per tube (excep-tions may apply). Please refer to respective datasheet for specific bin limit information.Package DimensionsPackage Dimensions (cont.)Package Dimensions (cont.)*The Side View of package indicates Country of Origin.Package Dimensions (cont.)Package Dimensions (cont.)Package Dimensions (cont.)Internal Circuit DiagramInternal Circuit Diagram (cont.)Absolute Maximum RatingsAlGaAs Red - HDSP-HERA10X/E10X/H10X HDSP-751X/Yellow GreenK12X/N10X/N40X335X/555X/HDSP-A80X HDSP-A90X Description F10X, G10X Series K70X Series Series Series Units Average Power per Segment or DP375264mW Peak Forward Current per 45mA Segment or DPDC Forward Current per15[1]15[2]mA Segment or DPOperating Temperature Range-20 to +100-40 to +100°C Storage Temperature Range -55 to +100°C Reverse Voltage per Segment 3.0V or DPWave Soldering Temperature for 3Seconds (1.60 mm [0.063 in.] below 250°C seating body)Notes:1. Derate above 91°C at 0.53 mA/°C.2. Derate HER/Yellow above 80°C at 0.38 mA/°C and Green above 71°C at 0.31 mA/°C.Electrical/Optical Characteristics at T A = 25°CAlGaAs RedDeviceSeriesHDSP-Parameter Symbol Min.Typ.Max.Units Test Conditions315600I F = 1 mA A10x3600I F = 5 mA330650I F = 1 mAF10x, G10x3900I F = 5 mA390650I F = 1 mA E10x Luminous Intensity/Segment[1,2]I Vµcd(Digit Average)3900I F = 5 mA400700I F = 1 mAH10x, K12x4200I F = 5 mA270590I F = 1 mAN10x, N40x3500I F = 5 mA1.6I F = 1 mAForward Voltage/Segment or DP V F 1.7V I F = 5 mA1.82.2I F = 20 mA PkAll Devices Peak WavelengthλPEAK645nmDominant Wavelength[3]λd637nmReverse Voltage/Segment or DP[4]V R 3.015V I R = 100 µATemperature Coefficient of∆V F/°C-2 mV mV/°CV F/Segment or DPA10x255F10x, G10x320E10x340Thermal Resistance LED RθJ-PIN°C/W/SegH10x, K12x Junction-to-Pin400N10x, N40x430High Efficiency RedDeviceSeriesHDSP-Parameter Symbol Min.Typ.Max.Units Test Conditions160270I F = 2 mA 751x1050I F = 5 mA200300I F = 2 mA Luminous Intensity/Segment[1,2]I V mcd(Digit Average)1200I F = 5 mA335x, 555x,K70x270370I F = 2 mA1480I F = 5 mA1.6I F = 2 mAForward Voltage/Segment or DP V F 1.7V I F = 5 mA2.1 2.5I F = 20 mA Pk All Devices Peak WavelengthλPEAK635nmDominant Wavelength[3]λd626nmReverse Voltage/Segment or DP[4]V R 3.030V I R = 100 µATemperature Coefficient of∆V F/°C-2mV/°CV F/Segment or DP751x200335x Thermal Resistance LED RθJ-PIN280°C/WJunction-to-Pin555x, K70x345YellowDeviceSeriesHDSP-Parameter Symbol Min.Typ.Max.Units Test Conditions Luminous Intensity/Segment[1,2]250420I F = 4 mA(Digit Average)I V mcd1300I F = 10 mA1.7I F = 4 mAForward Voltage/Segment or DP V F 1.8V I F = 5 mA A80x2.1 2.5I F = 20 mA PkPeak WavelengthλPEAK583nmDominant Wavelength[3,5]λd581.5585592.5nmReverse Voltage/Segment or DP[4]V R 3.030V I R = 100 µATemperature Coefficient of∆V F/°C-2mV/°CV F/Segment or DPThermal Resistance LED RθJ-PIN200°C/WJunction-to-PinGreenDeviceSeriesHDSP-Parameter Symbol Min.Typ.Max.Units Test Conditions Luminous Intensity/Segment[1,2]250475I F = 4 mA(Digit Average)I V mcd1500I F = 10 mA1.9I F = 4 mAForward Voltage/Segment or DP V F 2.0V I F = 10 mA A90x2.1 2.5I F = 20 mA PkPeak WavelengthλPEAK566nmDominant Wavelength[3,5]λd571577nmReverse Voltage/Segment or DP[4]V R 3.030V I R = 100 µATemperature Coefficient of∆V F/°C-2mV/°CV F/Segment or DPThermal Resistance LED RθJ-PIN200°C/WJunction-to-PinNotes:1. Device case temperature is 25°C prior to the intensity measurement.2. The digits are categorized for luminous intensity. The intensity category is designated by a letter on the side of the package.3. The dominant wavelength, λd, is derived from the CIE chromaticity diagram and is the single wavelength which defines the color of thedevice.4. Typical specification for reference only. Do not exceed absolute maximum ratings.5. The yellow (HDSP-A800) and Green (HDSP-A900) displays are categorized for dominant wavelength. The category is designated by anumber adjacent to the luminous intensity category letter.AlGaAs RedIntensity Bin Limits (mcd)AlGaAs RedHDSP-A10xIV Bin Category Min.Max.E0.3150.520F0.4280.759G0.621 1.16H0.945 1.71I 1.40 2.56J 2.10 3.84K 3.14 5.75L 4.708.55HDSP-E10x/F10x/G10xIV Bin Category Min.Max.D0.3910.650E0.5320.923F0.755 1.39G 1.13 2.08H 1.70 3.14HDSP-H10x/K12xIV Bin Category Min.Max.C0.4150.690D0.5650.990E0.810 1.50F 1.20 2.20G 1.80 3.30H 2.73 5.00I 4.097.50HDSP-N10xIV Bin Category Min.Max.A0.2700.400B0.3250.500C0.4150.690D0.5650.990E0.810 1.50F 1.20 2.20G 1.80 3.30H 2.73 5.00I 4.097.50Intensity Bin Limits (mcd), continued HERHDSP-751xIV Bin Category Min.Max.B0.1600.240C0.2000.300D0.2500.385E0.3150.520F0.4280.759G0.621 1.16HDSP-751xIV Bin Category Min.Max.B0.2400.366C0.3000.477D0.3910.650E0.5320.923F0.755 1.39G 1.13 2.08H 1.70 3.14HDSP-555x/K70xIV Bin Category Min.Max.A0.2700.400B0.3250.500C0.4150.690D0.5650.990E0.810 1.50F 1.20 2.20G 1.80 3.30H 2.73 5.00I 4.097.50Intensity Bin Limits (mcd), continued YellowHDSP-A80xIV Bin Category Min.Max.D0.2500.385E0.3150.520F0.4250.760G0.625 1.14H0.940 1.70I 1.40 2.56J 2.10 3.84K 3.14 5.76L 4.718.64M7.0713.00N10.6019.40O15.9029.20P23.9043.80Q35.8065.60GreenHDSP-A90xIV Bin Category Min.Max.E0.3150.520F0.4250.760G0.625 1.14H0.940 1.70I 1.40 2.56J 2.10 3.84K 3.14 5.76L 4.718.64M7.0713.00N10.6019.40O15.9029.20P23.9043.80Q35.8065.60Electrical/OpticalFor more information on electrical/optical characteristics, please see Application Note 1005.Contrast Enhancement For information on contrast enhancement, please see Application Note 1015.Soldering/Cleaning Cleaning agents from the ketone family (acetone, methyl ethyl ketone, etc.) and from the chorinated hydrocarbon family (methylene chloride, trichloro-ethylene, carbon tetrachloride, etc.) are not recommended for cleaning LED parts. All of these various solvents attack or dissolve the encapsulating epoxies used to form the package of plastic LED parts.For information on soldering LEDs, please refer to Application Note 1027.Note:All categories are established for classification of products. Productsmay not be available in all categories. Please contact your localAgilent representatives for further clarification/information.Color Categories/semiconductorsFor product information and a complete list ofdistributors, please go to our web site.For technical assistance call:Americas/Canada: +1 (800) 235-0312 or(916) 788 6763Europe: +49 (0) 6441 92460China: 10800 650 0017Hong Kong: (+65) 6271 2451India, Australia, New Zealand: (+65) 6271 2394Japan: (+81 3) 3335-8152(Domestic/International), or0120-61-1280(Domestic Only)Korea: (+65) 6271 2194Malaysia, Singapore: (+65) 6271 2054Taiwan: (+65) 6271 2654Data subject to change.Copyright © 2005 Agilent Technologies, Inc.Obsoletes 5988-8412ENJanuary 19, 20055989-0080EN。

DescriptionThe 18:88 and 88:88 0.56" Four Digit Seven Segment Displays have surface painted in neutral gray and black for enhanced on/off contrast. All devices are available in either common anode or common cathode configuration with tinted green segments or untinted segments.Agilent HDSP-B0xG18:88 and 88:88 0.56" Four Digit GaP Green Seven Segment DisplayData SheetFeatures•Excellent appearance•Evenly illuminated segments•Gray face for optimum on/offcontrast•Choice of colors: Green•Choice of character size:0.56 inchFRONT SIDE2 – ∅1.70RIGHT SIDEA A A DDD C F EF E F EB CB C B C GGGDP3DP2DIGIT 2DIGIT 3DIGIT 4DIGIT 1AF EB G D NOTE:ALL DIMENSIONS ARE IN MILLIMETERS (INCHES).UNLESS OTHERWISE STATED, TOLERANCES ARE ± 0.25 mm.Pin Configuration Function Pin HDSP-B01G/B03G/B05G/B07G/B09G HDSP-B02G/B04G/B06G/B08G/B10G 1Anode E Cathode E 2Anode D Cathode D 3Anode DP Cathode DP 4Anode C Cathode C 5Anode GCathode G6Digit 4 Common Cathode Digit 4 Common Anode 7Anode BCathode B8Digit 3 Common Cathode Digit 3 Common Anode 9Digit 2 Common Cathode Digit 2 Common Anode 10Anode F Cathode F 11Anode ACathode A12Digit 1 Common CathodeDigit 1 Common AnodeFRONT SIDE2 – ∅1.70RIGHT SIDEAA A DDD B CF EF E F EB CB C B C GGGDP3DP2DIGIT 2DIGIT 3DIGIT 4DIGIT 1NOTE:ALL DIMENSIONS ARE IN MILLIMETERS (INCHES).UNLESS OTHERWISE STATED, TOLERANCES ARE ± 0.25 mm.HDSP-B01G and HDSP-B05G (Common Cathode)HDSP-B02G and HDSP-B06G (Common Anode)DIGIT 1DIGIT 2DIGIT 3DIGIT 4A 11B 7C 4D 2E 1F 10G 5DP 3DIGIT 1DIGIT 2DIGIT 3DIGIT 4A 11B 7C 4D 2E 1F 10G 5DP 3HDSP-B03G, HDSP-B07G, and HDSP-B09G (Common Cathode)HDSP-B04G, HDSP-B08G, and HDSP-B10G (Common Anode)DIGIT 1DIGIT 2DIGIT 3DIGIT 4A 11B 7C 4D 2E 1F 10G 5DP3DIGIT 1DIGIT 2DIGIT 3DIGIT 4A 11B 7C 4D 2E 1F 10G 5DP 3DevicesHDSP-DescriptionB01G88:88 0.56" Green 4 Digit, Tinted Green, Common Cathode, Display 18:88, Gray Color Surface B02G88:88 0.56" Green 4 Digit, Tinted Green, Common Anode, Display 18:88, Gray Color Surface B03G88:88 0.56" Green 4 Digit, Tinted Green, Common Cathode, Display 88:88, Gray Color Surface B04G88:88 0.56" Green 4 Digit, Tinted Green, Common Anode, Display 88:88, Gray Color Surface B05G88:88 0.56" Green 4 Digit, Untinted, Common Cathode, Display 18:88, Gray Color SurfaceB06G88:88 0.56" Green 4 Digit, Untinted, Common Anode, Display 18:88, Gray Color SurfaceB07G88:88 0.56" Green 4 Digit, Untinted, Common Cathode, Display 88:88, Gray Color SurfaceB08G88:88 0.56" Green 4 Digit, Untinted, Common Anode, Display 88:88, Gray Color SurfaceB09G88:88 0.56" Green 4 Digit, Untinted, Common Cathode, Display 88:88, Black Color SurfaceB10G88:88 0.56" Green 4 Digit, Untinted, Common Anode, Display 88:88, Black Color SurfacePart Numbering System5082 -X X X X-X X X X XHDSP-X X X X-X X X X XMechanical Options[1]00: No Mechanical OptionColor Bin Options[1,2]0: No Color Bin LimitationMaximum Intensity Bin[1,2]0: No Maximum Intensity Bin LimitationMinimum Intensity Bin[1,2]0: No Minimum Intensity Bin LimitationDevice Configuration/Color[1]G: GreenDevice Specific Configuration[1]Refer to Respective DatasheetPackage[1]Refer to Respective DatasheetNotes:1. For codes not listed in the figure above, please refer to the respective datasheet or contactyour nearest Agilent representative for details.2. Bin options refer to shippable bins for a part number. Color and Intensity Bins are typicallyrestricted to 1 bin per tube (exceptions may apply). Please refer to respective datasheet forspecific bin limit information.Electrical/Optical Characteristics at T A = 25˚C Device Series HDSP-ParameterSymbol Min.Typ.Max.Units Test Conditions Luminous Intensity/SegmentI V20003200µcd I F = 10 mA(Digit Average)32004500All DevicesForward Voltage/Segment or DP V F 1.802.20 2.60V I F = 20 mA Peak Wavelength λPEAK 568nm I F = 20 mA Dominant Wavelength λd 573nmI F = 20 mA Luminous Intensity I V-M 2:1I F = 10 mA Matching Ratio Reverse CurrentI R100µAV R = 5 VNotes:1.Typical specification for reference only. Do not exceed absolute maximum ratings.2.The dominant wavelength, λd , is derived from the CIE chromaticity diagram and is that single wavelength which defines the color of the device.Absolute Maximum RatingsDescriptionGreen Units Average Power per Segment or DP65mW Peak Forward Current per Segment or DP 100mA DC Forward Current per Segment or DP 25mA Operating Temperature Range–40 to +105˚C Storage Temperature Range–40 to +105˚C Reverse Voltage per Segment or DP5V Wavesoldering Temperature for 3 seconds 2 mm below body250˚CNote:1.Derate above 40˚C at 0.33 mA/˚C for green.B01G, B02G, B03G, B04G B05G, B06G, B07G, B08G,B09G, B10G Intensity Bin Limits (µcd at 10 mA)Device Series HDSP-B01G, B02G, B03G, B04G B05G, B06G, B07G, B08G, B09G, B10GBin Name Min.[1]Max.[1]Min.[1]Max.[1]K 20003200NA NA L 3200505032005050MNA NA50508000Note:1.Tolerance for each bin limit is ±10%.Color Categories (Tolerance ± 1 nm)Rank Symbol Hue Range Unit 22573.5–576.5nm 33570.5–573.5nmContrast EnhancementFor information on contrast enhancement, please see Application Note 1015.Soldering/CleaningCleaning agents from the ketone family (acetone, methyl ethyl ketone, etc.) and from thechlorinated hydrocarbon family (methylene chloride,trichloroethylene, carbon tetrachloride, etc.) are notrecommended for cleaning LED parts. All these various solvents attack or dissolve theencapsulating epoxies used to form the package of plastic LED parts.Figure 1. Maximum allowable DC current vs.ambient temperature.Figure 2. Forward current vs. forward voltage.Figure 3. Relative luminous intensity vs. DC forward current.Figure 4. Relative efficiency (luminous intensity per unit current) vs. peak current.I D C – M A X I M U M D C C U R R E N T P E R S E G M E N T – m AT A – AMBIENT TEMPERATURE – °CI F – F O R W A R D C U R R E N T P E R S E G M E NT – m AV F – FORWARD VOLTAGE – VR E L A T I V E L U M I N O U S I N T E N S I T Y (N O R M A L I Z E D T O 1 A T 10 mA F O R G R E E N )I F – DC FORWARD CURRENT – mA8642R E L A T I V E E F F I C I E N C Y (N O R M A L I Z E D T O 1 A T 10 m A )1.4005101520253035404550PEAK FORWARD CURRENTPER SEGMENT – mA/semiconductorsFor product information and a complete list of distributors, please go to our web site.For technical assistance call:Americas/Canada: +1 (800) 235-0312 or (916) 788-6763Europe: +49 (0) 6441 92460China: 10800 650 0017Hong Kong: (+65) 6756 2394India, Australia, New Zealand: (+65) 6755 1939Japan: (+81 3) 3335-8152(Domestic/Interna-tional), or 0120-61-1280(Domestic Only)Korea: (+65) 6755 1989Singapore, Malaysia, Vietnam, Thailand,Philippines, Indonesia: (+65) 6755 2044Taiwan: (+65) 6755 1843Data subject to change.Copyright © 2004 Agilent Technologies, Inc.Obsoletes 5988-5381EN June 30, 20045988-7859EN。

82357A technical specificationsGeneral requirementsMinimum system requirements Windows 98(SE)/Me 2•PCI IEEE-488 interface for PCs•Transfer rates up to 900 KB/s•Dual processor support onWindows 2000/XPBest for•Maximum GPIB throughput forall configurationsHigh performance for manufacturingtest applicationsThe 82350B is Agilent’s highest-performance GPIB interface. Witha direct PCI computer connection,transaction overhead is minimizedfor the best overall performance.The 82350B card de-couples GPIBtransfers from PCI bus transfers.Buffering provides I/O and systemperformance that is superior to directmemory access (DMA). The hardwareis software configurable and compati-ble with the Plug-and-Play standardfor easy hardware installation. TheGPIB interface card plugs into a 5 voltPCI slot in the backplane of your PC.For programming capability youhave access with the latest versionof IO Libraries suite, version 14.1, toprogram in all standard developmentenvironments. Agilent’s IO LibrariesSuite 14.1 is easy to use and workswith virtually any vendor’s instrumentor T&M programming softwareapplication and includes automaticconfiguration for Agilent or NI VISA,NI-488.2, VISA COM or T&M ToolkitDirect IO. Even if you use NI IO soft-ware Agilent will configure automati-cally so as a user you do not have tobe concerned with the behind-the-scenes details.382350B technical specifications General requirements Minimum system requirements Windows 98(SE)/Me (note 98 supported with version 14.0 only)/2000/XP Software required Agilent IO Libraries Suite (included); see requirements on page 1PCI bus slot 5-V PCI slot, 32 bits Supported standards PCI rev 2.2IEEE 488.1 and IEEE 488.2 compatible General characteristics Power Backplane +5 V PCI Connectors Standard 24-pin GPIB (IEEE-488)+5V PCI Maximum data rate More than 900 KB/s Maximum instrument connection 14 instruments—daisy chain via GPIB Buffering Built-in Configuration Plug-and-Play EMC and safety *IEC 61326-1Group 1, Class A IEC 61010-1Warranty 1 year Dimensions Length, width, and height 122 mm (L) x 122 mm (W) x 22 mm (H) (a full-height PCI card)Weight 0.091 kg Environmental specifications Operating environment 0°C to 55°C Operating humidity Up to 90% at 40°C non-condensing Storage environment -40°C to +70°C Storage humidity Up to 90% at 65°C non-condensing * Additional detail and information in the Declaration of ConformityThis traditional GPIB connection still offers the highest throughputE5810A technical specifications 45USB port on your PC to up to fourRS-232 instruments or devices•Fully compatible with WindowsCOM driver and industry-standardVISA I/O software.Best for•Easy connection to RS-232 devices•Notebook computer RS-232connectionsAdd four serial ports in minutesThe Agilent E5805A USB/4-portRS232 interface provides a directconnection from the USB port onyour notebook or desktop PC to up tofour RS-232 instruments or devices.There are no switches to set, no PCcards to install, and no external powersupplies are required. Simply installthe driver and plug in the E5805AUSB 4-port RS232 interface to addfour RS-232 ports to your computer.Since the E5805A is a standardPlug-and-Play device, your computerautomatically detects and configuresit when it is connected to your com-puter USB port. You can interface upto four devices, with baud rates up to230 Kb/s per serial port. The E5805Aprovides four DB9 serial connectorsand ships with a 1.8-meter USB cable.E5813A technical specificationsGeneral requirements67Agilent Technologies’ Test and Measurement Support, Services, and Assistance Agilent Technologies aims to maximize the value you receive, while minimizing your risk and problems. We strive to ensure that you get the test and measurement capabilities you paid for and obtain the support you need. Our extensive support resources and services can help you choose the right Agilent products for your applications and apply them successfully. Every instru-ment and system we sell has a global warranty. Support is available for at least five years beyond the production life of the product. Two concepts underlie Agilent’s overall support policy: “Our Promise” and “Your Advantage.”Our Promise Our Promise means your Agilent test and measurement equipment will meet its advertised performance and functionality. When you are choosing new equipment,we will help you with product information, including realistic performance specifications and practical recom-mendations from experienced test engineers. When you receive your new Agilent equipment, we can help verify that it works properly, and help with initial product operation.Your AdvantageYour Advantage means that Agilent offers a wide range of additional expert test and measurement services, which you can purchase according to your unique technical and business needs. Solve problems efficiently and gain a competitive edge by contracting with us for calibration, extra-cost upgrades, out-of-warranty repairs, and onsite education and training, as well as design, system integration, project management, and other professional engineering services. Experienced Agilent engineers and techni-cians worldwide can help you maximize your productivity,optimize the return on investment of your Agilent instruments and systems, and obtain dependable measurement accuracy for the life of those products./find/emailupdates Get the latest information on the products and applications you /find/openAgilent Open simplifies the process of connecting and programming test systems to help engineers design,validate and manufacture electronic products. Agilentoffers open connectivity for a broad range of system-ready instruments, open industry software, PC-stan-dard I/O and global support, which are combined to more easily integrate test system development. For more assistance with your test & measurement needs or to find your local Agilent office go to /find/contactus Microsoft, Windows and Visual Studio are U.S. registered trademarks of Microsoft Corporation.Pentium is a U.S. registered trademark of Intel Corporation.Product specifications and descriptions in this document subject to change without notice.© Agilent Technologies, Inc. 2005Printed in USA, August 5, 20055989-1889EN Agilent Open Agilent Email Updates •Agilent E2094N IO Libraries Suite, Data sheet pub no. 5989-1439EN •Modern Connectivity–Using USB and LAN I/O Converters, Application note 1475-1pub no. 5989-0123EN •Simplified PC Connections for GPIB Instruments,Application note 1409-1, pub no. 5988-5897EN •Using LAN in Test Systems: The Basics,Application note 1465-9, pub no. 5989-1412ENpub no. 5989-1417EN •Computer I/O Considerations, Application note 1465-2, pub no. 5988-9818EN Learn more at /find/io-ds Join the Agilent Developer Network to get updated I/O software, instrument drivers, code examples,white papers, and more! 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Statox 505 Sensor HeadOperations ManualStatox 505 Sensor HeadOperations Manual1SAFETY INSTRUCTIONS 32STATOX 505 CONSTRUCTION 43INSTALLATION AND CONNECTION 5 3.1Warning 5 3.2Installation 5 3.3Electrical connection 63.3.1Statox 505 cable connection 73.3.2Connection diagram with Statox 501 Control Module in the 2-wire mode 83.3.3Connection diagram with Statox 501 Control Module in the 3-wire mode 103.3.4Connection diagram with Statox 502/503 Control Module in the 2-wire mode 123.3.5Connection diagram with Statox 502/503 Control Module in the 3-wire mode 134START –UP AND SERVICE 14 4.1Start - up and measuring mode 15 4.2Setting the realtime clock 16 4.3Setting the “service mode“ ou tput signal 17 4.4Calibrating the sensor 18 4.5Prooftest 20 4.6Info menu 21 4.7Test menu 225SENSOR REPLACEMENT 236MAINTENANCE 247SPARE PARTS AND ACCESSORIES 248STATUS- AND ERROR MESSAGES 25 8.1Status messages 25 8.2Error messages 26 9TECHNICAL DATA 27 9.1General transmitter data 27 9.2Sensor specific data 28 10CE-DECLARATION OF CONFORMITY 2921 Safety InstructionsThe Statox 505 sensor head is certified as explosion-proof safety equipment for group II category 2.The intended use is the measurement of toxic gas and oxygen concentration. Due to its intrinsically safe design it is safe to install and operate this product in zone 1 and zone 2.All relevant sensor parameters will be set automatically as soon as the sensor is connected.The following safety guidelines must be observed in particular:∙When installing and connecting the transmitter, the safety relevant electrical parameters and the protection class of the sensor head must comply with local standards (e.g. IEC 60079-14).∙If installed in a hazardous area, the power supply of the sensor heads must be intrinsically safe.Recommended products see connection diagrams in chapter 3.3 and in chapter 7 (accessories).∙The sensor head may only be operated within the specified environmental conditions.∙Damaged or not tightly closed housings may cause malfunction or loss of accuracy.All of the above warnings must be observed. Incorrect installation or connection will void the explosion proof rating and thus be dangerous to life and assets.34 2 Statox 505 constructionThe housing cover is attached with 4 bayonet screws. To open it, just turn these screws 90° counter - clockwise. The cover is secured to the housing with a steel strap.1 Mounting plate with 4 holes φ 10 mm2 Push buttons3 Display4 LED5 Programming interface (not for customer use)6 Cable terminal X17 Ground terminal8 Clamp for cable shield 9 cable gland M16x1,510 Sensor cover including filter support 11Securing strap for sensor cover167113 Installation and connection3.1 WarningIf the sensor head is installed in hazardous areas, the power supply must be intrinsically safe. Observe the safety - relevant specifications of sensor head, cable and barrier respectively intrinsically safe repeater.Caution:Do not install the sensor unless the sensor head has been connected to the power supply.The following specifications must be observed:U o, I o, C o, L o :certified repeater specificationsU i, I i, C i, L i : sensor head specifications (→ technical data)C L = cable capacity in pF/mL L = cable inductivity in nH/ml = cable length in mThe allowable cable length is defined in most cases by the cable capacity:l max = C o / C L (C i is negligible).Recommended cable type: see chapter 3.3.3.2 InstallationInstall the sensor head sensor downwards. Use stainless steel screws or insulate screws from mounting plate to avoid corrosion. In case of potential static voltage, ground the sensor head.The sensor head can be mounted to a wall with2 or 4 screws without opening the housing:Alternatively it can be mounted to a horizontalor vertical pipe. Statox 505 pipe mounting kitsare listed in chapter 7 accessories.5Statox 505 drilling plan and dimensions3.3 Electrical connection∙Use cable with 2 or 3 x ≥ 0,75 mm² with close - mashed shield, outer diameter ca. 6 mm(e.g. type Oelflex 415 CP3 X 0,75).∙Advantage of 3 - wire operation:In the two wire mode, the output signal for service and system failure is the same (2 mA).In the 3 - wire mode you can differentiate between “service” (non - critical = 2 mA) and “failure”(critical = 0 mA).∙If connecting the Statox 505 sensor head to a Statox 501 control module, follow the connecting diagrams in the chapters 3.3.2 and 3.3.3.If connecting the Statox 505 sensor head to a Statox 502/503 control module, follow the connecting diagrams in the chapters 3.3.4 and 3.3.5.If connecting the Statox 505 sensor head directly to a PCS, observe the following connecting diagram.In case of 2-wire-mode use only terminals 1 and 2.Statox 505 PCS63.3.1 Statox 505 cable connection∙Use cable with 2 or 3 x ≥ 0,75 mm² with close – mashed shield, outer diameter ca. 6 mm(e.g. type Oelflex 415 CP3 X 0,75).∙Do not install the sensor unless the sensor head is connected to the power supply.∙Run 20 cm (8 in) of cable through the cable gland.∙Strip the cable down to the shield. (A)∙Shorten the shield to 10 mm (0,4 in) and bend it backward. Make sure it does not touch the housing. (B)∙Connect the wires as shown in the schematics. The terminal is plugged in. Remove it for easy installation.∙Draw the cable back until the shield matches the clamp∙Fasten the cable gland.∙Secure the shield with the clamp. Good contact provides best protection from electromagnetic interference.∙Plug the terminal in.∙When the sensor head is connected to the power supply, the LED starts flashing for a short time and the display shows the software index.∙Now install the sensor (see chapter 4).A B C123Ø 5 - 7 mmX173.3.2 Connection diagram with Statox 501 Control Module in the 2-wire modeBefore connecting the sensor head, select the appropriate program. Refer to the Statox 501 operations manual and the program overview.3.3.2.1 2-wire mode installation in non hazardous areas83.3.2.2 2-wire mode installation in hazardous areasCaution: Incorrect connection of the intrinsically safe repeater might destroy it. Please take care for correct polarity and avoid short circuits.Repeater forms a current source: the terminal numbers on the drawing below refer to repeater type 9160/13-11-11s from manufacturer R.Stahl Schaltgeräte GmbH (or Siemens type 7NG4124-0AA00).It requires an extra power supply and forms a current source at clamps 1 and 2.A1 A2 SF 4-20mA A1 A2 Horn SFRepeater forms a current sink: the terminal numbers on the drawing below refer to repeater type9160/13-10-11s from manufacturer R.Stahl Schaltgeräte GmbH. It requires an extra power supply and forms a current sink at clamps 1 and 2.A1 A2 SF 4-20mA A1 A2 Horn SF93.3.3 Connection diagram with Statox 501 Control Module in the 3-wire modeBefore connecting the sensor head select the appropriate program. Refer to the Statox 501 operations manual and the program overview.3.3.3.1 3-wire mode installation in non – hazardous areasA1 A2 SF 4-20mA A1 A2 Horn SF103.3.3.2 3-wire mode installation in hazardous areasCaution: Incorrect connection of the intrinsically safe repeater might destroy it. Please take care for correct polarity and avoid short circuits.Repeater forms a current source: the terminal numbers on the drawing below refer to repeater type 9160/13-11-11s from manufacturer R.Stahl Schaltgeräte GmbH (or Siemens type 7NG4124-0AA00). It requires an extra power supply and forms a current source at clamps 1 and 2.Repeater forms a current sink: the terminal numbers on the drawing below refer to repeater type 9160/13-10-11s from manufacturer R.Stahl Schaltgeräte GmbH. It requires an extra power supply and forms a current sink at clamps 1 and 2.operations manual and the program overview.3.3.4.1 2-wire mode installation in non-hazardous areas3.3.4.2 2-wire mode installation in hazardous areasCaution : Incorrect connection of the intrinsically safe repeater might destroy it. Please take care for correct polarity and avoid short circuits. The terminal numbers on the drawing refer to repeater type 9160/13-11-11s from manufacturer R.Stahl Schaltgeräte GmbH (or Siemens type 7NG4124-0AA00). It requires an extra power supply and forms a current source at clamps 1 and 2. Plant = hazardous area Non hazardous area Power supply X1 Power supply X1 RepeaterStatox 502/503 Statox 502/503operations manual and the program overview.3.3.5.1 3-wire mode installation in non-hazardous areas3.3.5.2 3-wire mode installation in hazardous areasCaution : Incorrect connection of the intrinsically safe repeater might destroy it. Please take care for correct polarity and avoid short circuits.The terminal numbers on the drawing refer to repeater type 9160/13-11-11s from manufacturer R.Stahl Schaltgeräte GmbH (or Siemens type 7NG4124-0AA00). It requires an extra power supply and forms a current source at clamps 1 and 2. Plant = hazardous area Non hazardous area Power supply X1 Power supply Repeater X1 Statox 502/503 Statox 502/5034 Start –up and serviceSensor head keyboard:Press UP and DOWN at the same time to enter the menu.Increase / decrease the displayed parameter.Press and hold button for fast forward.RESET: One level up in the menu.ENTERTimeout: The sensor head returns automatically into the measuring mode if no key is pressed for more than 5 minutes.4.1 Start - up and measuring mode∙As soon as the sensor head is connected to the power supply, it starts a self test and shows the software index.∙Now install the sensor and filter. Please observe the handling instructions in chapter 5 !∙Remove the yellow protection cap from the sensor cover!∙As soon as the sensor is connected, the sensor head displays the parameter version, the gas to be detected, the measuring range and the best before date of the sensor. As soon as zero has stabilized, the instrument goes into the measuring mode. The green LED starts flashing.As long as the sensor head is not ready, the output signal is in the system fail mode, i. e. 2 mA when operated in the 2 wire mode, 0 mA when operated in the 3 wire mode.∙When the sensor head has completed the start – up sequence, you can start setting the real time clock (see chapter 4.2) and the service mode output signal (see chapter 4.3).4.2 Setting the realtime clock∙The clock is set ex works to CET. Please set it to your local time to make sure you get correct protocols of calibration and alarms.∙The clock has a back-up battery to save the time setting when power is disconnected.∙The segments flashing can be set with the up / down buttons.∙You can leave the time set menu by pushing the reset button.4.3 Setting the “service mode“ output signal∙The following table shows the potential modes and outputs.Notice: During the sensor replacement in the REPLACE menu, the sensor head remains in the service mode - even if no sensor is connected!∙If the sensor head is operated as a safety relevant device according to EN 50402 (Functional Safety) the output in the service mode must be 2 mA !4.4 Calibrating the sensor∙ Sensor head and sensor must have the same temperature!∙ You need a Statox 505 calibration adapter (art.no. 570505), a gas tubing 4x1 mm (art.no. 556710) and span gas (acceptable gas concentrations see chapter 9.2). If the environment is not clean, you need synthetic air for zeroing.∙ In case the calibration fails for whatever reason, the sensor head will continue to operate with the existing parameters, but the display will alternate showing the measured value and ZERO ADJ or CALIB until a calibration procedure has been completed.∙ O 2-sensors do not require a zero adjustment, as their output in pure nitrogen is nearly 0 nA. The span calibration can be done with clean ambient air or synthetic air.Procedure∙ Affix the adapter on the sensor cover until it catches (clockwise rotation). ∙ Connect the calibration adapter to the span gas cylinder.∙ Enter the service menu and select code 11 to enter the calibration routine. Set Zero.∙ Push ENTER button. As soon as the display shows GAS ON, open the valve. The gas flow should be ca. 20 l/h (300 ml/min). If you want to avoid span gas to be released into the environment, you can connect an active carbon filter art.no. 806488 to the exhaust of the gas adapter. Make sure there is no pressure building up in the adapter!∙ The display will show GAS.IS.ON until the reading is stable. Then it will show CONCENT? Now press ENTER . The display will now show the concentration of the recently used span gas. If you have used a gas with different concentration, adjust with the up / down buttons and confirm with ENTER .∙ When the display shows DONE , press ENTER to display the present concentration. Now close the regulator and remove the calibration adapter (clockwise rotation).∙ To return to the measuring mode, press ENTER again. The green LED starts flashing. If you fail to press ENTER , the sensor head will return to the measuring mode automatically after a timeout of 5 minutes. Calibration adapter4.5 Prooftest∙ A prooftest provides a verification of the transmitter performance under field conditions. It must be performed in regular intervals, if the transmitter is used as a safety relevant device. As long as the menu “Prooftest” is active, the output signal is set to 2 or 4 mA. In case the entire alarm chain must be tested, this must be done in the measuring mode.∙You need the Statox 505 calibration adapter art.no. 570505, a gas tubing 4x1 mm , art.no. 556710 and span gas with a concentration within the measuring range, preferably close to the alarm threshold.∙Affix the adapter on the sensor cover until it catches (clockwise rotation).∙Connect the gas adapter to the span gas cylinder.∙Enter the service menu and choose code 99 to enter the proof test routine.∙As soon as the display shows PROOF, open the valve and press ENTER. The gas flow should be ca.20 l/h (300 ml/min). If you want to avoid span gas to be released into the environment, you canconnect an active carbon filter art.no. 806488 to the exhaust of the gas adapter. Make sure there is no pressure building up in the adapter!∙The display will show the present concentration. Wait until the signal is stable before reading.∙Close the gas regulator and remove the calibration adapter (clockwise rotation).∙Return to the measuring mode by pushing the RESET button, stepping upward in the menu until you reach the measuring mode.∙If a new calibration is necessary proceed according chapter 4.4.∙Special timeout: If you do not push a button for 30 minutes, the transmitter returns automatically to the measuring mode.∙ A 2- or 3-time LED flashing during the proof test signalizes a periodical hardware test.∙This menu provides information about alarm history and sensor parameters.∙The exposure recording starts as soon as the end of the measuring range is exceeded.You can access the most recent 3 alarm events (start, end of range and end). The alarm events are not listed chronologically. For oxygen sensors only: the exposure recording starts as soon as the measured value drops below the detectable limit (see chapter 9.2).∙The total exposure information (DOSIS) is not updated permanently. Exposure by calibration is neglected. The maximum exposure reading depends on the measuring range. It is either 9,99 or 99,9 or 999 ppm * min.∙The total exposure recording is inactive for oxygen sensors.∙The calibration factor is a parameter used by the microprocessor. It cannot be used to obtain information about the sensor signal.∙In order to check the signal loop, the sensor head can generate 4, 12 and 20 mA.Caution: this might trigger an external alarm!∙The display can be tested by displaying a sequence of fonts and patterns.∙The sensor head can also display temperature.5 Sensor replacementPlease observe the precautions to avoid electrostatic voltage, when handling electronic devices. To avoid the sensor from being removed, while exchanging data with the sensor head, enter the service menu before you remove it. In the menu REPLACE the sensor can be replaced without generating a system failure alarm (see chapter 4.3). During the sensor replacement the sensor head will remain in the service mode.Handling instructions:still remaining in the service mode. After pushing theENTER button, or after a timeout of 30 min the sensor6 Maintenance∙Clean the Statox 505 with a humid wipe. Do not use detergents, solvents or steam jet.∙Inspect the housing and the O-rings for damage and pollution so that gas can securely access the sensor.∙If the sensor head is used in extremely harsh environment, an extra spray shield can be installed.Calibrate the sensor with the spray shield installed. Contact Compur Monitors for technical support!∙If the Statox 505 sensor head is used as a safety relevant device in terms of functional safety standard (EN 50402, IEC 61508), a regular proof test is mandatory (see chapter 4.5).7 Spare parts and accessoriesSpare sensors and technical data see chapter 9.2 !8 Status- and Error messages 8.1 Status messages8.2 Error messagesIf there is no display at all, check fuse and polarity. Fuse replacement by authorised personnel only.Critical errors set the output signal to 2 mA in the 2 – wire mode or to 0 mA in the 3 – wire mode. Non critical errors normally occur during maintenance or calibration. They have no impact on the system status.9 Technical data9.1 General transmitter dataProduct name: Statox 505 TransmitterType: 5375Manufacturer: COMPUR Monitors GmbH & Co. KG, D-81539 München Measuring principle: electrochemicalOperating temperature: -30°C to +60°C / -22° F to 140° FStorage temperature: -30°C to +60°C / -22° F to 140° FHumidity: 0 to 99% r.h. (non condensing)Pressure: 900 to 1100 hPaAccuracy at calibration point: +/- 10%Power supply: 12 -28 VDC, max. 22mAConnection: 2- or 3-WireOutput signal: 4 - 20 mA, max. load 700 Ohm∙In service mode: 2 or 4 mA adjustable∙In system fail mode: 0 mA in 3 - wire mode, 2 mA in 2 - wire mode∙Overrange: 22 mADisplay: 8-digits, 14 segmentsDimensions (HxWxD): 225 x 180 x 90 mm / 8,9 x 7,1 x 3,5 in (incl. mounting plate) Weight: 1040 g / 36,7 ounce (incl. mounting plate)Housing material: ABS chromium plated / stainless steelProtection class EN 60529: IP 65Operation position: Sensor downwardsEMC: EN 50270ATEX: Ex ib IIC T4 (EN 60079-0 and EN 60079-11)Application: II 2 GEC type examination certificate: BVS 09 ATEX E 104Parameters: U i: max. 28 VDCI i:max. 93 mA , P i = 650 mWInternal capacity C i: neglectibleInternal inductance L i: neglectibleFunctional safety: SIL 2M ore detailed information with regards to functional safety seeStatox 505 functional safety document art.no. 570555.9.2 Sensor specific data10 CE-Declaration of conformitySpecifications are subject to change without notice, and are provided only for comparison of products. The conditions under which our products are used, are beyond our control. Therefore, the user must fully test our products and / or information to determine suitability for any intended use, application, condition or situation. All information is given without warranty or guarantee. Compur Monitors disclaims any liability, negligence or otherwise, incurred in connection with the use of the products and information. Any statement or recommendation not contained herein is unauthorized and shall not bind Compur Monitors. Nothing herein shall be construed as a recommendation to use any product in conflict with patents covering any material or device or its use. No licence is implied or in fact granted under the claims of any patent. Instruments are manufactured by Compur Monitors GmbH & Co. KG, Munich.The General Conditions of Supply and Service of Compur Monitors GmbH & Co. KG, Munich, are applicable.Compur Monitors GmbH & Co. KGWeißenseestraße 101D-81539 MünchenTel.: ++49/89/ 6 20 38 268Fax : ++49/89/ 6 20 38 184E-Mail:****************5375 000 998 07 09 / 02.19 570553。

DevicesAlGaAs Orange Red HER Green Package HDSP-HDSP-HDSP-HDSP- DescriptionDrawingA411A111A211A5117.6 mm Common Anode Right Hand Decimal A A413A113A213A5137.6 mm Common Cathode Right Hand Decimal B F411F111F211F51110 mm Common Anode Right Hand Decimal C F413F113F213F51310 mm Common Cathode Right Hand Decimal D G411G111G211G51110 mm Two Digit Common Anode Right Hand Decimal E G413G113G213G51310 mm Two Digit Common Cathode Right Hand Decimal F H411H111H211H51114.2 mm Common Anode Right Hand Decimal G H413H113H213H51314.2 mm Common Cathode Right Hand Decimal H K411K111K211K51114.2 mm Two Digit Common Anode Right Hand Decimal I K413K113K213K51314.2 mm Two Digit Common Cathode Right Hand DecimalJBlack Surface Seven Segment Displays Technical DataFeatures• Black Surface and Color Tinted Epoxy• Industry Standard Size • Industry Standard Pinout • Choice of Character Size 7.6 mm (0.30 in.), 10 mm (0.40in.), 14.2 mm (0.56 in.)• Choice of ColorsAlGaAs Red, High Efficiency Red (HER), Green, Orange • Excellent Appearance Evenly Lighted Segments ±50° Viewing Angle• Design FlexibilityCommon Anode or Common CathodeSingle and Two Digit• Categorized for Luminous IntensityCategorized for Color: Green Use of Like Categories Yields a Uniform Display• Excellent for Long Digit String MultiplexingDescriptionThese devices use industrystandard size package and pinout.Available with black surfaceHDSP-AX11/-AX13 Series HDSP-FX11/-FX13 Series HDSP-GX11/-GX13 Series HDSP-HX11/-HX13 Series HDSP-KX11/-KX13 Seriesfinish. All devices are available as either common anode or common cathode.Typical applications includeappliances, channel indicators of TV, CATV converters, game machines, and point of sale terminals.Part Numbering System5082 -X X X X-X X X X XHDSP-X X X X-X X X X XMechanical Options[1]00: No Mechanical OptionColor Bin Options[1,2]0: No Color Bin LimitationMaximum Intensity Bin[1,2]0: No Maximum Intensity Bin LimitationMinimum Intensity Bin[1,2]0: No Minimum Intensity Bin LimitationDevice Configuration/Color[1]1: Common Anode3: Common CathodeDevice Specific Configuration[1]Refer to Respective DatasheetPackage[1]A: 7.6 mm (0.3 inch) Single Digit Seven Segment DisplayF: 10 mm (0.4 inch) Single Digit Seven Segment DisplayG: 10 mm (0.4 inch) Dual Digit Seven Segment DisplayH: 14.2 mm (0.56 inch) Single Digit Seven Segment DisplayK: 14.2 mm (0.56 inch) Dual Digit Seven Segment Display Notes:1. For codes not listed in the figure above, please refer to the respective datasheet or contact your nearestAgilent representative for details.2. Bin options refer to shippable bins for a part number. Color and Intensity Bins are typically restricted to 1bin per tube (exceptions may apply). Please refer to respective datasheet for specific bin limit information.Package Dimensions (7.6 mm Series)Internal Circuit DiagramPackage Dimensions (10 mm Series: Single)Internal Circuit DiagramPackage Dimensions (10 mm Series: Two Digit)Internal Circuit DiagramPackage Dimensions (14.2 mm Series: Single)Internal Circuit DiagramPackage Dimensions (14.2 mm Series: Two Digit)Internal Circuit Diagram2DIGIT NO. 1 CATHODE1Absolute Maximum RatingsAlGaAs Red HER/Orange GreenHDSP-X11X HDSP-X21X/X41X HDSP-X51X Description Series Series Series Units Average Power per Segment37105105mW or DPPeak Forward Current per4590[1]90[3]mA Segment or DPDC Forward Current per15[5]30[2]30[4]mA Segment or DPOperating Temperature Range–20 to +100 –40 to +100°C Storage Temperature Range–55 to +100°C Reverse Voltage per 3.0V Segment or DPWave Soldering Temperature for250°C 3 Seconds (1.60 mm [0.063 in.]below Body)Notes:1. See Figure 5 to establish pulsed conditions.2. Derate above 53°C at 0.45 mA/°C (see Figure 7).3. See Figure 6 to establish pulsed conditions.4. Derate above 39°C at 0.37 mA/°C (see Figure 7).5. Derate above 91°C at 0.53 mA/°C (see Figure 1).Electrical/Optical Characteristics at T A = 25°CAlGaAs RedDevice SeriesHDSP-Parameter Symbol Min.Typ.Max.Units Test Conditions A11X Luminous Intensity/Segment[1,2]I V315600µcd I F = 1 mA (Digit Average)3600I F = 5 mAF11X, G11X330650I F = 1 mA3900I F = 5 mAH11X, K11X400700I F = 1 mA4200I F = 5 mAAll Devices Forward Voltage/Segment or DP V F 1.6 2.0V I F = 1 mA1.7I F = 5 mA1.822I F = 20 mA PeakPeak WavelengthλP EAK645nmDominant Wavelength[3]λd637nmReverse Voltage/Segment or DP[4]V R 3.015V I R = 100 µATemperature Coefficient of∆V F/°C-2mV/°CV F/Segment or DPA11X Thermal Resistance LED RθJ-PIN255°C/W/Junction-to-Pin Seg.F11X, G11X320H11X, K12X400OrangeDevice SeriesHDSP-Parameter Symbol Min.Typ.Max.Units Test Conditions A41X Luminous Intensity/Segment I V0.70mcd I F = 5 mA (Segment Average)[1,2]F41X, G41X 1.0I F = 5 mAH41X, K41X 2.37I F = 10 mAAll Forward Voltage/Segment or DP V F 2.0 2.5V I F = 20 mA DevicesPeak WavelengthλPEAK600nmDominant Wavelength[3]λd603nmReverse Voltage/Segment or DP[4]V R 3.030V I R = 100 µATemperature Coefficient of∆V F/°C–2mV/°CV F/Segment or DPA41X Thermal Resistance LED RθJ-PIN200°C/W/Junction-to-Pin Seg.F41X, G41X320H41X, K41X345High Efficiency RedDevice SeriesHDSP-Parameter Symbol Min.Typ.Max.Units Test Conditions A21X Luminous Intensity/Segment[1,2]I V360980µcd I F = 5 mA (Digit Average)5390I F = 20 mAF21X, G21X4201200I F = 5 mAH21X, K21X9002800I F = 10 mA3700I F = 60 mA Peak:1/6 Duty Factor All Forward Voltage/Segment or DP V F 2.0 2.5V I F = 20 mA DevicesPeak WavelengthλPEAK635nmDominant Wavelength[3]λd626nmReverse Voltage/Segment or DP[4]V R 3.030V I R = 100 µATemperature Coefficient of∆V F/°C-2mV/°CV F/Segment or DPA21X Thermal Resistance LED RθJ-PIN200°C/W/Junction-to-Pin Seg.F21X, G21X320H21X, K21X345High Performance GreenDevice SeriesHDSP-Parameter Symbol Min.Typ.Max.Units Test ConditionsA51X Luminous Intensity/Segment[1,2]I V8603000µcd I F = 10 mA (Digit Average)6800I F = 20 mAF51X, G51X10303500I F = 10 mAH51X, K51X9002500I F = 10 mA3100I F = 60 mA Peak:1/6 Duty FactorAll Forward Voltage/Segment or DP V F 2.1 2.5V I F = 10 mADevicesPeak WavelengthλPEAK566nmDominant Wavelength[3,5]λd571577nmReverse Voltage/Segment or DP[4]V R 3.050V I R = 100 µATemperature Coefficient of∆V F/°C-2mV/°CV F/Segment or DPA51X Thermal Resistance LED RθJ-PIN200°C/W/Junction-to-Pin Seg.F51X, G51X320H51X, G51X345Notes:1. Case temperature of device immediately prior to the intensity measurement is 25°C.2. The digits are categorized for luminous intensity. The intensity category is designated by a letter on the side of the package.3. The dominant wavelength, λd, is derived from the CIE chromaticity diagram and is that single wavelength which defines the color ofthe device.4. Typical specification for reference only. Do not exceed absolute maximum ratings.5. Green (HDSP-A51X/F51X/G51X/H512X/K51X) series displays are categorized for dominant wavelength. The category is designated bya number adjacent to the luminous intensity category letter.Figure 3. Relative Luminous Intensity vs. DC Forward Current.Figure 4. Relative Efficiency (LuminousIntensity per Unit Current) vs. Peak Current.Figure 1. Maximum Allowable Average orDC Current vs. Ambient Temperature.Figure 2. Forward Current vs. Forward Voltage.16024681012142010090807060504030T – AMBIENT TEMPERATURE – °C AI A V E . M A X – M A X I M U M A V E R A G E F O R W A R D C U R R E N T P E R S E G M E N T – m AF 1201102018F 50.020.010.05.02.01.00.50.10.51.01.52.02.5V – FORWARD VOLTAGE – VF I – F O R W A R D C U R R E N TP E R S E G M E N T – m A20105210.50.20.10.10.20.51251020R E L A T I V E L U M I N O U S I N T E N S I T Y (N O R M A L I Z E D T O 1 A T 1 m A )I – FORWARD CURRENT PER SEGMENT – mAF I – PEAK FORWARD CURRENTPER SEGMENT – mAPEAK η –R E L A T I V E E F F I C I E N C Y – N O R M A L I Z E D T O 1 A T 1 m AP E A K 1.31.21.11.00.90.80.7AlGaAs RedHER, Green, OrangeFigure 7. Maximum Allowable DCCurrent vs. Ambient Temperature.Figure 8. Forward Current vs.Forward Voltage Characteristics.Figure 9. Relative Luminous Intensity vs. DC Forward Current.Figure 10. Relative Efficiency (Luminous Intensity per Unit Current) vs. Peak Current.40051015202530352010090807060504030T – AMBIENT TEMPERATURE – °CA I M A X – M A X I M U M D C C U R R E N T P E R S E G M E N T – m AD C 1201105045010080604020I – F O R W A R D C U R R E N T P E R S E G M E N T – m AF 2.04.03.01.0V –FORWARD VOLTAGE – VF 05.0ηP E A K – R E L A T I V E L U M I N O U S I N T E N S I T Y (N O R M A L I Z E D T O 1 A T 5 m A F O R H E R ,A N D T O 1 A T 10 m A F O R G R E E N )150108642205301025I – FORWARD CURRENT PER SEGMENT – mAF 0I – PEAK FORWARD CURRENTPER SEGMENT – mAPEAK ηP E A K – R E L A T I V E E F F I C I E N C Y (N O R M A L I Z E D T O 1 A T 5 m A F O R H E R ,A N D 10 m A F O R G R E E N )Figure 5. Maximum Tolerable Peak Currentvs. Pulse Duration – HER, Orange.Figure 6. Maximum Tolerable Peak Current vs. Pulse Duration – Green.R A T I O O F M A X I M U M O P E R A T I N G P E A K C U R R E N T T O T E M P E R A T U R E D E R A T E D D C C U R R E N TI P E A K F I M A X D C t – PULSE DURATION – µsP 101100DC R A T I O O F M A X I M U M O P E R A T I N G P E A K C U R R E N T T O T E M P E R A T U R E D E R A T E D D C C U R R E N TI P E A K FI M A X D C t – PULSE DURATION – µs P 101100DCHDSP-A1xx IV Bin Category Min.Max.E 0.3150.520F 0.4280.759G 0.621 1.16H 0.945 1.71I 1.40 2.56J 2.10 3.84K 3.14 5.75L 4.708.55Intensity Bin Limits (mcd)AlGaAs RedHDSP-F1xx/G1xx IV Bin Category Min.Max.D 0.3910.650E 0.5320.923F 0.755 1.39G 1.13 2.08H 1.703.14HDSP-H1xx/K1xx IV Bin Category Min.Max.C 0.4150.690D 0.5650.990E 0.810 1.50F 1.20 2.20G 1.80 3.30H 2.73 5.00I 4.097.50OrangeHDSP-A41XIV Bin Category MinMaxA 0.2840.433B 0.3540.541C 0.4430.677D 0.5540.846E 0.692 1.057F 0.856 1.322G 1.082 1.652H 1.352 2.066I 1.692 2.581J 2.114 3.227K 2.641 4.034L 3.300 5.042M 4.127 6.303N 5.1577.878HDSP-F41X/G41XIV Bin Category MinMaxC 0.4850.890D 0.728 1.333E 1.091 2.000F 1.636 3.000G 2.454 4.500H 3.6826.751HDSP-H41X/K41XIV Bin Category MinMaxB 0.77 1.17C 0.95 1.45D 1.19 1.82E 1.49 2.27F 1.85 2.89G 2.32 3.54H 2.904.43Intensity Bin Limits (mcd), continued HERMin.Max.B0.3420.630C0.5160.946D0.774 1.418E 1.160 2.127F 1.740 3.190G 2.610 4.785H 3.9157.177Min.Max.C0.4850.890D0.728 1.333E 1.091 2.000F 1.636 3.000G 2.454 4.500H 3.682 6.751Min.Max.E0.91 1.67F 1.37 2.51G 2.05 3.76H 3.08 5.64I 4.628.64J 6.9312.70K10.3919.04Contrast EnhancementFor information on contrast enhancement, please see Application Note 1015.Soldering/CleaningFor information on soldering LEDs, please refer to Application Note 1029.Electrical/OpticalFor more information onelectrical/optical characteristics,please see Application Note 1005.Color CategoriesNote:All categories are established for classification of products. Products may not be available in all categories. Please contact your Agilent representatives for further clarification/information.HDSP-A5xx IV Bin Category Min.Max.H 0.86 1.58I 1.29 2.37J 1.94 3.55K 2.90 5.33L 4.378.01Intensity Bin Limits (mcd), continued GreenHDSP-F5xx/G5xx IV Bin Category Min.Max.H 1.54 2.82I 2.31 4.23J 3.46 6.34K 5.189.50L 7.7814.26HDSP-H5xx/K5xx IV Bin Category Min.Max.E 0.91 1.67F 1.37 2.51G 2.05 3.76H 3.08 5.64I 4.618.46/semiconductors For product information and a complete list of distributors, please go to our web site.For technical assistance call:Americas/Canada: +1 (800) 235-0312 or (916) 788-6763Europe: +49 (0) 6441 92460China: 10800 650 0017Hong Kong: (+65) 6756 2394India, Australia, New Zealand: (+65) 6755 1939 Japan: (+81 3) 3335-8152 (Domestic/Interna-tional), or 0120-61-1280 (Domestic Only) Korea: (+65) 6755 1989Singapore, Malaysia, Vietnam, Thailand, Philippines, Indonesia: (+65) 6755 2044 Taiwan: (+65) 6755 1843Data subject to change.Copyright © 2004 Agilent Technologies, Inc. Obsoletes 5988-1742ENJuly 17, 20045988-4433EN。

DescriptionThese slim font seven segment displays incorporate a new slim font character design. This slim font features narrow width,specially mitered segments to give a fuller appearance to the illuminated character. Faces of these displays are painted aneutral gray for enhanced on/off contrast.Agilent HDSP-301x/303x Series HDSP-561x/563x Series 10 mm and 13 mm Slim Font Seven Segment DisplaysData SheetFeatures•Excellent appearance •Slim font design •Mitered corners, evenly illuminated segments•Gray face for optimum on/off contrast •Choice of colors: HER, green,yellow, and AlGaAs •Choice of character size: 10 mm and 13 mm •Characterized for luminous intensityDevices HER Green Yellow AlGaAs HDSP-HDSP-HDSP-HDSP-Description301E 301G 301Y 301A Common Anode, 10 mm Display 303E 303G 303Y 303A Common Cathode, 10 mm Display 561E 561G 561Y 561A Common Anode, 13 mm Display 563E563G563Y563ACommon Cathode, 13 mm DisplayAll devices are available in either common anode or commoncathode configuration with righthand decimal point.Part Numbering System5082- x xx x-x x x xxHDSP- x xx x-x x x xxMechanical Options[1]00: No Mechanical OptionColor Bin Options[1,2]0: No Color Bin LimitationMaximum Intensity Bin[1,2]0: No Maximum Intensity Bin LimitationMinimum Intensity Bin[1,2]0: No Minimum Intensity Bin LimitationDevice Configuration/Color[1]A: AlGaAs RedE: High Efficiency RedG: GreenY: YellowDevice Specific Configuration[1]Refer to Respective Data SheetPackage[1]Refer to Respective Data SheetNotes:1. For codes not listed in the figure above, please refer to the respective data sheet or contact your nearest Agilent representativefor details.2. Bin options refer to shippable bins for a part-number. Color and Intensity Binbs are typically restricted to 1 bin per tube(exceptions may apply). Please refer to respective data sheet for specific bin limit information.Pin Function1G2F3Common A/C 4E5D6DP7C8Common A/C 9B10A7.006.40NOTE: QDSP-399G DOES NOT HAVE PIN 6.COUNTRY TOP SIDEFRONT VIEW RIGHT SIDE0.30 ± 0.05(0.012)6.001.85Pin Function 1E 2D3Common A/C 4C 5DP 6B 7A8Common A/C 9F 10G0.29 ± 0.08 TYP.(0.011)12345(0.023)(0.141)(0.100)NOTES:1. ALL DIMENSIONS ARE IN MILLIMETERS (INCHES).2. UNLESS OTHERWISE STATED, TOLERANCES ARE ±0.25 mm.Absolute Maximum RatingsDescription HER Green Yellow AlGaAs Units Average Power per Segment or DP10510510537mW Peak Forward Current per Segment or DP90909045mA DC Forward Current per Segment or DP30303015mA Operating Temperature Range–40 to +80–40 to +80–40 to +80–20 to +80˚C Storage Temperature Range–40 to +80–40 to +80–40 to +80–40 to +80˚C Reverse Voltage per Segment or DP5555V Wavesoldering Temperature for 3 Seconds250250250250˚C 1.59 mm below bodyNotes:1.Derate above 33˚C at 0.34 mA/˚C for HER.2.Derate above 27˚C at 0.32 mA/˚C for Green.3.Derate above 30˚C at 0.33 mA/˚C for Yellow.4.Derate above 60˚C at 0.25 mA/˚C for AlGaAs.Electrical/Optical Characteristics at T A = 25˚CHERDeviceSeriesHDSP-Parameter Symbol Min.Typ.Max.Units Test Conditions 301/303E Luminous Intensity/Segment I V 1.251 2.000mcd I F = 10 mA (Digit Average)Forward Voltage/Segment V F 1.90 2.50V I F = 20 mAor DPPeak WavelengthλPEAK635nm I F = 20 mADominant Wavelengthλd625nm I F = 20 mAReverse Current I R100µA V R = 5 VThermal Resistance LED RθJ–PIN351.5˚C/W/Seg.Junction-to-PinHERDeviceSeriesHDSP-Parameter Symbol Min.Typ.Max.Units Test Conditions 561/563E Luminous Intensity/Segment I V 2.001 3.526mcd I F = 10 mA (Digit Average)Forward Voltage/Segment V F 1.90 2.50V I F = 20 mAor DPPeak WavelengthλPEAK635nm I F = 20 mADominant Wavelengthλd625nm I F = 20 mAReverse Current I R100µA V R = 5 VThermal Resistance LED RθJ–PIN351.5˚C/W/Seg.Junction-to-PinDeviceSeriesHDSP-Parameter Symbol Min.Typ.Max.Units Test Conditions 301/303G Luminous Intensity/Segment I V 2.001 3.200mcd I F = 10 mA (digit average)Forward Voltage/Segment V F 2.25 2.50V I F = 20 mAor DPPeak WavelengthλPEAK568nm I F = 20 mADominant Wavelengthλd573nm I F = 20 mAReverse Current I R100µA V R = 5 VThermal Resistance LED RθJ–PIN351.5˚C/W/Seg.Junction-to-PinGreenDeviceSeriesHDSP-Parameter Symbol Min.Typ.Max.Units Test Conditions 561/563G Luminous Intensity/Segment I V 3.201 5.601mcd I F = 10 mA (Digit Average)Forward Voltage/Segment V F 2.25 2.50V I F = 20 mAor DPPeak WavelengthλPEAK568nm I F = 20 mADominant Wavelengthλd573nm I F = 20 mAReverse Current I R100µA V R = 5 VThermal Resistance LED RθJ–PIN351.5˚C/W/Seg.Junction-to-PinYellowDeviceSeriesHDSP-Parameter Symbol Min.Typ.Max.Units Test Conditions 301/303Y Luminous Intensity/Segment I V 1.251 2.000mcd I F = 10 mA (Digit Average)Forward Voltage/Segment V F 2.15 2.50V I F = 20 mAor DPPeak WavelengthλPEAK589nm I F = 20 mADominant Wavelengthλd590nm I F = 20 mAReverse Current I R100µA V R = 5 VThermal Resistance LED RθJ–PIN351.5˚C/W/Seg.Junction-to-PinDeviceSeriesHDSP-Parameter Symbol Min.Typ.Max.Units Test Conditions 561/563Y Luminous Intensity/Segment I V 2.00 3.526mcd I F = 10 mA (Digit Average)Forward Voltage/Segment V F 2.15 2.50V I F = 20 mAor DPPeak WavelengthλPEAK589nm I F = 20 mADominant Wavelengthλd590nm I F = 20 mAReverse Current I R100µA V R = 5 VThermal Resistance LED RθJ–PIN351.5˚C/W/Seg.Junction-to-PinNotes:1.Typical specification for reference only. Do not exceed absolute maximum ratings.2.The dominant wavelength, λ, is derived from the CIE chromaticity diagram and is that single wavelength which defines the color of the device.AlGaAsDeviceSeriesHDSP-Parameter Symbol Min.Typ.Max.Units Test Conditions 301/303A Luminous Intensity/Segment I V0.3200.505mcd I F = 1 mA (Digit Average)Forward Voltage/Segment V F 1.80 2.20V I F = 20 mAor DPPeak WavelengthλPEAK660nm I F = 20 mADominant Wavelengthλd643nm I F = 20 mAReverse Current I R100µA V R = 5 VThermal Resistance LED RθJ–PIN351.5˚C/W/Seg.Junction-to-PinAlGaAsDeviceSeriesHDSP-Parameter Symbol Min.Typ.Max.Units Test Conditions 561/563A Luminous Intensity/Segment I V0.5060.878mcd I F = 1 mA (Digit Average)Forward Voltage/Segment V F 1.80 2.20V I F = 20 mAor DPPeak WavelengthλPEAK660nm I F = 20 mADominant Wavelengthλd643nm I F = 20 mAReverse Current I R100µA V R = 5 VThermal Resistance LED RθJ–PIN351.5˚C/W/Seg.Junction-to-PinNotes:1.Typical specification for reference only. Do not exceed absolute maximum ratings.2.The dominant wavelength, λ, is derived from the CIE chromaticity diagram and is that single wavelength which defines the color of the device.HDSP-301E/303E/561E/563EIV Bin Category Min.Max.I 1.100 2.200K 1.800 3.600HDSP-561Y/563Y IV Bin Category Min.Max.K 1.800 3.600L 2.8005.600HDSP-301Y/303YIV Bin Category Min.Max.I 1.100 2.200K 1.8003.600HDSP-301A/303A/561A/563AIV Bin Category Min.Max.F 0.2800.560G 0.4500.900HDSP-301G/303G/561G/563GIV Bin Category Min.Max.K 1.800 3.600L 2.800 5.600Intensity Bin Limits (mcd)GreenYellowHERAlGaAs RedDominant Wavelength (nm)ColorBin Min.Max.Green 3570.00574.504567.00571.50Yellow2586.50590.003584.00587.50Color CategoriesNote:1. All categories are established for classification of products.Products may not be available in all categories. Please contact your Agilent representatives for further clarification/information.YellowFigure 1. Maximum allowable DC current vs.ambient temperature.Figure 2. Forward current vs. forward voltage.Figure 3. Relative luminous intensity vs. DC forward current.HDSP-301x/303x SeriesContrast EnhancementFor information on contrast enhancement, please see Application Note 1015.Soldering/CleaningCleaning agents from the ketone family (acetone, methyl ethyl ketone, etc.) and from thechlorinated hydrocarbon family (methylene chloride,Figure 4. Maximum allowable DC current vs.ambient temperature.Figure 5. Forward current vs. forward voltage.Figure 6. Relative luminous intensity vs. DC forward current.HDSP-561x/563x SeriesI D C – M A X I M U M D C C U R R E N T P E R S E G M E N T – m AT A – AMBIENT TEMPERATURE – °CI F – F O R W A R D C U R R E N TP E R S E G M E N T – m AV F – FORWARD VOLTAGE – V I D C – M A X I M U M D C C U R R E N T P E R S E G M E N T – m AT A – AMBIENT TEMPERATURE – °CI F – F O R W A R D C U R R E N TP E R S E G M E N T – m AV F – FORWARD VOLTAGE – V trichloroethylene, carbon tetrachloride, etc.) are notrecommended for cleaning LED parts. All of these varioussolvents attack or dissolve the encapsulating epoxies used to form the package of plastic LED parts.For information on soldering LEDs, please refer to Application Note 1027.R E L A T I V E L U M I N O U S I N T E N S I T Y (N O R M A L I Z E D T O 1 A T 5 m A F O R H E R A N D Y E L L O W A N D T O 1 A T 10 m A F O R G R E E N )I F – DC FORWARD CURRENT – mA12682410R E L A T I V E L U M I N O U S I N T E N S I T Y (N O R M A L I Z E D T O 1 A T 5 m A F O R H E R A N D Y E L L O W A N D T O 1 A T 10 m A F O R G R E E N )I F – DC FORWARD CURRENT – mA/semiconduc-torsFor product information and a complete list of distributors, please go to our web site.For technical assistance call:Americas/Canada: +1 (800) 235-0312 or (916) 788-6763Europe: +49 (0) 6441 92460China: 10800 650 0017Hong Kong: (+65) 6756 2394India, Australia, New Zealand: (+65) 6755 1939 Japan: (+81 3) 3335-8152(Domestic/ International), or 0120-61-1280(Domestic Only) Korea: (+65) 6755 1989Singapore, Malaysia, Vietnam, Thailand, Philippines, Indonesia: (+65) 6755 2044 Taiwan: (+65) 6755 1843Data subject to change.Obsoletes 5980-2919ENJuly 11, 20045988-4352EN。

DescriptionThis 14.22 mm (0.56 inch) LED seven-segment display uses industry standard size package and pinout.The device is available in eithercommon anode or common cathode.Agilent HDSP-511x/513x14.22 mm (0.56 inch) General Purpose Seven-Segment DisplayData SheetFeatures•Industry standard size •Industry standard pinout 14.22 mm (0.56 inch)DIP lead on 2.54 mm •Choice of colorsHigh Efficiency Red (HER), Green,AlGaAs Red, and Yellow •Excellent appearanceEvenly lighted segments gray package gives optimum contrast ± 50° viewing angle •Design flexibilityCommon anode or common cathode Single digitLeft and right hand decimal point•Categorized for luminous intensityGreen and yellow categorized for color Applications•Suitable for indoor use•Not recommended for industrial application, i.e., operating tem-perature requirements exceeding +85˚C or below –25˚C [1]•Extreme temperature cycling not recommendedNotes:1.For additional details, please contact your local Agilent sales office or an authorized distributor.Devices HERGreenAlGaAs Red Yellow DescriptionHDSP-511E HDSP-511G HDSP-511A HDSP-511Y Common Anode, Right Hand Decimal HDSP-513EHDSP-513GHDSP-513AHDSP-513YCommon Cathode, Right Hand DecimalThe choice of colors includes High Efficiency Red (HER),Green, AlGaAs Red, and Yellow.The gray face displays aresuitable for indoor use.Part Numbering SystemNotes:1. For codes not listed in the figure above, please refer to the respective datasheet or contact your nearest Agilent representative for details.2. Bin options refer to shippable bins for a part number. Color and Intensity Bins are typically restricted to 1bin per tube (exceptions may apply). Please refer to respective datasheet for specific bin limit information.5082 -X X X X-X X X X X HDSP-X X X X-X X X X XMechanical Options [1]00: No Mechanical Option Color Bin Options [1,2]0: No Color Bin LimitationMaximum Intensity Bin [1,2]0: No Maximum Intensity Bin Limitation Minimum Intensity Bin [1,2]0: No Minimum Intensity Bin Limitation Device Configuration/Color [1]A: AlGaAs RedE: High Efficiency Red G: Green Y: YellowDevice Specific Configuration [1]Refer to Respective Datasheet Package [1]Refer to Respective DatasheetInternal Circuit DiagramPackage Dimensions0.50 ± 0.05 TYP. 10 PLACESTOP END VIEWFRONT VIEW SIDE VIEWALL DIMENSIONS ARE IN MILLIMETERS (INCHES).COMMON CATHODECOMMON ANODE COMMON ANODECOMMON CATHODEPINFUNCTIONPIN 1CATHODE e 2CATHODE d3COMMON ANODE 4CATHODE c 5CATHODE DP 6CATHODE b 7CATHODE a8COMMON ANODE 9CATHODE f 10CATHODE g12345678910FUNCTIONANODE e ANODE dCOMMON CATHODE ANODE c ANODE DPANODE b ANODE aCOMMON CATHODE ANODE f ANODE gHDSP-511E/511G/511Y/511AHDSP-513E/513G/513Y/513AGreen Device HDSP-ParameterSymbol Min.Typ.Max.Units Test Conditions Luminous Intensity/Segment I V 2.001 4.100mcd I F = 10 mA Forward Voltage V F 2.06V I F = 10 mA 1.802.25 2.60V I F = 20 mAPeak Wavelength λPEAK 568nm Dominant Wavelength λd 573nm Reverse VoltageVR5VI R = 100 µA511G 513GAbsolute Maximum Ratings at T A = 25˚C HERGreenAlGaAs Red Yellow DescriptionHDSP-51xE HDSP-51xG HDSP-51xA HDSP-51xY Units Power Dissipation Segment 60653052mW Forward Current Segment25[1]25[2]15[3]20[4]mA Peak Forward Current per Segment 1001008080mA (1/10 Duty Factor at 10 KHz)Operating Temperature Range –35 to +85–35 to +85–35 to +85–35 to +85˚C Storage Temperature Range–35 to +85–35 to +85–35 to +85–35 to +85˚C Reverse Voltage per Segment or DP5555V Wavesoldering Temperature for 3 seconds 250250250250˚C(at 2 mm Distance from the body)Notes:1.Derate above 25˚C at 0.33 mA/˚C.2.Derate above 25˚C at 0.33 mA/˚C.3.Derate above 25˚C at 0.2 mA/˚C.4.Derate above 25˚C at 0.27 mA/˚C.Electrical/Optical Characteristics at T A = 25˚C High Efficiency Red (HER)Device HDSP-ParameterSymbol Min.Typ.Max.Units Test Conditions Luminous Intensity/Segment I V 1.73mcd I F = 5 mA 2.0014.100mcd I F = 10 mA Forward Voltage V F 2.05 2.40V I F = 20 mAPeak Wavelength λPEAK 635nm Dominant Wavelength λd 620nm Reverse VoltageVR5VI R = 100 µA511E 513EColor Bin Limits (nm at 10 mA)Dominant Wavelength (nm)Color Bin Min.Max.Note:1.Tolerance for each bin limit is 1 nm.Yellow Device HDSP-ParameterSymbolMin.Typ.Max.Units Test Conditions Luminous Intensity/Segment I V 1.03mcd I F = 5 mA 1.2512.600mcd I F = 10 mA Forward Voltage V F 2.15 2.60V I F = 20 mAPeak Wavelength λPEAK 595nm Dominant Wavelength λd 590nm Reverse VoltageVR5VI R = 100 µA511Y 513YAlGaAs Red Device HDSP-ParameterSymbol Min.Typ.Max.Units Test Conditions Luminous Intensity/Segment I V 4.93mcd I F = 5 mA 3.2016.500mcd I F = 10 mA Forward Voltage V F 1.85 2.00V I F = 20 mAPeak Wavelength λPEAK 660nm Dominant Wavelength λd 643nm Reverse VoltageVR5VI R = 100 µA511A 513AIntensity Bin Limits (mcd at 10 mA)Bin HER/Green Yellow AlGaAs Red Name Min.[1]Max.[1]Min.[1]Max.[1]Min.[1]Max.[1]H NA NA 1.251 2.000NA NA I 2.001 3.200 2.001 3.200NA NA J 3.201 5.050 3.201 5.050 3.201 5.050K 5.0518.000NA NA 5.0518.000LNANANANA8.00112.650Note:1.Tolerance for each bin limit is ± 10%.Figure 1. Maximum allowable average or DC current vs. ambient temperature.Figure 2. Forward current vs. forward voltage.Figure 3. Relative luminous intensity vs. DC forward current.High Efficiency Red (HER)Figure 4. Relative efficiency (luminousintensity per unit current) vs. peak current.30T A – AMBIENT TEMPERATURE – °CM A X I M U M D C C U R R E N T P E R S E G M E N T – m AV F – FORWARD VOLTAGE – VI F – F O R W A R D C U R R E N T P E R S E G M E N T – m AR E L A T I V E E F F I C I E N C Y (N O R M A L I Z E D T O 1 A T 10 m A )1.4005101520253035404550I PEAK – PEAK FORWARD CURRENTPER SEGMENT – mA 0.20.40.60.81.01.2R E L A T I V E E F F I C I E N C Y (N O R M A L I Z E D T O 1 A T 10 m A )1.4005101520253035404550I PEAK – PEAK FORWARD CURRENTPER SEGMENT – mA0.20.40.60.81.01.2Figure 7. Relative luminous intensity vs. DC forward current.Figure 8. Relative efficiency (luminous intensity per unit current) vs. peak current.Figure 5. Maximum allowable average or DC current vs. ambient temperature.Figure 6. Forward current vs. forward voltage.Green302520151050020*********T A – AMBIENT TEMPERATURE – °CM A X I M U M D C C U R R E N T P E R S E G M E N T – m AV F – FORWARD VOLTAGE – VI F – F O R W A R D C U R R E N T P E R S E G M E N T – m A3.52.52.01.51.00.50051015202530I F – FORWARD CURRENT FOR SEGMENT – mAR E L A T I V E L U M I N O U S I N T E N S I T Y (N O R M A L I Z E D T O 1 A T 10 m A )353.0R E L A T I V E E F F I C I E N C Y (N O R M A L I Z E D T O 1 A T 10 m A )05101520253035404550I PEAK – PEAK FORWARD CURRENTPER SEGMENT – mA0.20.40.60.81.01.2Figure 9. Maximum allowable average or DC current vs. ambient temperature.Figure 10. Forward current vs. forward voltage.Figure 11. Relative luminous intensity vs. DC forward current.Figure 12. Relative efficiency (luminous intensity per unit current) vs. peak current.AlGaAs RedT A – AMBIENT TEMPERATURE – °CM A X I M U M D C C U R R E N T P E R S E G M E N T – m AV F – FORWARD VOLTAGE – VI F – F O R W A R D C U R R E N T P E R S E G M E N T – m A3.02.52.01.51.00.5051015202530I F – FORWARD CURRENT FOR SEGMENT – mAR E L A T I V E L U M I N O U S I N T E N S I T Y (N O R M A L I Z E D T O 1 A T 10 m A )35R E L A T I V E E F F I C I E N C Y (N O R M A L I Z E D T O 1 A T 10 m A )05101520253035404550I PEAK – PEAK FORWARD CURRENTPER SEGMENT – mA0.20.40.60.81.01.2Figure 13. Maximum allowable average or DC current vs. ambient temperature.Figure 14. Forward current vs. forward voltage.Figure 15. Relative luminous intensity vs. DC forward current.Figure 16. Relative efficiency (luminous intensity per unit current) vs. peak current.Yellow252015105T A – AMBIENT TEMPERATURE – °CM A X I M U M D C C U R R E N T P E R S E G M E N T – m A3.52.52.01.51.00.50051015202530I F – FORWARD CURRENT FOR SEGMENT – mAR E L A T I V E L U M I N O U S I N T E N S I T Y (N O R M A L I Z E D T O 1 A T 10 m A )353.0R E L A T I V E E F F I C I E N C Y (N O R M A L I Z E D T O 1 A T 10 m A )1.4005101520253035404550I PEAK – PEAK FORWARD CURRENTPER SEGMENT– mA0.20.40.60.81.01.2V F – FORWARD VOLTAGE – VI F – F O R W A R D C U R R E N T P E R S E G M E N T – m A/semiconduc-torsFor product information and a complete list of distributors, please go to our web site.For technical assistance call:Americas/Canada: +1 (800) 235-0312 or (916) 788-6763Europe: +49 (0) 6441 92460China: 10800 650 0017Hong Kong: (+65) 6756 2394India, Australia, New Zealand: (+65) 6755 1939 Japan: (+81 3) 3335-8152(Domestic/ International), or 0120-61-1280(Domestic Only) Korea: (+65) 6755 1989Singapore, Malaysia, Vietnam, Thailand, Philippines, Indonesia: (+65) 6755 2044 Taiwan: (+65) 6755 1843Data subject to change.Obsoletes 5980-2919ENJune 30, 20045988-2968EN。

一：机芯介绍机芯功能介绍在功能上可以实现模拟PAL制式电视信号的60HZ逐行、100HZ两种扫描模式，高清信号可以显示1080P/60，1080I/60，1080I/50，720P/60和逐行DVD 信号（图像）。

VGA方式支持640*480/60 800*600/60 1024*768/60三种模式。

产品外观介绍HDP2433为33系列外观二、机芯概述HDP2433机芯是采用华亚公司的芯片HTV180单芯片的视频处理方案，HTV180集成了ADC ，解码器，OSD 产生器，行场频转换处理芯片以及CPU 。

采用了东芝的TB1306，其功能是预视放、行场激励输出、EW 输出、EHT 、ABL 。

解码板板号是RSAG7.820.947A 。

主板是RSAG7.820.983，主板伴音切换芯片采用HEF4052BP ，伴音功放电路为ST 的TFA9842AJ ，其功能是3路声音输入，总线用两个I/O 口控制切换实现一路输出到伴音功放芯片TFA9842AJ ，总线用一路PWM 控制TFA9842AJ 的VOLUME 脚（7脚）实现音量控制。

视放板板号RSAG7.820.954，采用美国国家半导体的LM2451视放电路。

更多难得资料请到江南家电维修论坛下载！三、原理说明电源部分1：电源框图电源部分工作原理介绍本电源控制芯片采用FAIRCHILD公司的开关电源集成电路FSCQ1265，这是一种内置功率MOSFET和控制器的回扫型开关电源集成电路，且具有过流、过压、过热保护电路。

交流220V经过整流、稳压后提供给开关变压器T501，开关变压器共有5路输出：+B（130V）、+15V、+17V和+8V，10V。

+17V输出开关变压器16脚输出经整流后给N601（TFA9842AJ）第9脚提供电压+10V输出：通过变压器14脚整流输出10V给7805给解码板CPU供电5V-1，给光藕提供参考电压。

+8V输出：通过变压器18脚整流输出8V给3852调制5V 给解码板供电5V-2。

The N-TRON®106FX2is a low cost, unmanaged six port Industrial Ethernet Switch. It is housed in a hardened, metal, DIN-Rail enclosure, and is designed for use in industrial data acquisition, control, and Ethernet I/O applications.PRODUCT FEATURES• Compact Size, Small Footprint• Unmanaged Operation• Full IEEE 802.3 Compliance• Four 10/100BaseTX RJ-45 Ports• Two 100BaseFX Ports with ST or SC Connectors • Extended Environmental Specifi cations• -40ºC to 70ºC Operating Temperature• >2M Hours MTBF• RJ-45 Ports Support Full/Half Duplex Operation • Auto Sensing Duplex, Speed, and MDIX (RJ-45)• Up to 1.2 Gb/s Maximum Throughput• Store-and-forward Technology• LED Link/Activity Status Indication• Redundant Power Inputs (10-30 VDC)• Hardened Metal DIN-Rail EnclosurePRODUCT OVERVIEWThe 106FX2Industrial Network Switch is designed to solve the most demanding industrial communications requirements while providing high throughput and minimum downtime.The 106FX2 provides four RJ-45 auto sensing 10/100BaseTX ports, plus two fi ber based Fast Ethernet uplink ports. All TX ports are full/half duplex capable, using leading-edge Ethernet switching technology. The 106FX2 auto-negotiates the speed and flow control capabilities of the four TX port connections, and confi gures itself automatically. The two fi ber ports are 100BaseFX fi ber optic uplinks utilizing industry standard ST or SC duplex connectors.Since the TX ports of the 106FX2 are auto sensing, there will be no need to make extensive wiring changes if upgrades are made to the host computers, plant systems, or Ethernet I/O modules. The switching fabric simply scales up or down automatically to match your specifi c network environment.The106FX2supports up to 2,000 MAC addresses, thus enabling these products to support extremely sophisticated and complex network architectures.The N-TRON106FX2 is an ideal candidate for upgrading existing hubs and repeaters to increase bandwidth and determinism by virtually eliminating network collisions. The product also keeps the network affordable, while maintaining the plug & play simplicity of a unmanaged hub. The 106FX2 can simplify plant wiring by eliminating the need to bring data acquisition and control network connections back to a climate controlled environment. The 106FX2has extended operating environmental specifi cations to meet the harsh needs of the industrial environment. For cost savings and convenience the 106FX2 can be DIN-Rail mounted alongside Ethernet I/O or other industrial equipment. The unique compact size provides a small footprint, conserving space in the most critical dimension.To increase reliability, the 106FX2 contains redundant power inputs. LEDs are provided to display the link status and activity of each port, as well as power on/ off status.THE INDUSTRIAL NETWORK COMPANYBENEFITSIndustrial Network Switch•Compact Size, Small Footprint •Extended Environmental Speci cations •High Reliability/Availability•Extended Environmental Speci cations •Hardened Metal DIN-Rail Enclosure •High Performance•High MTBF >2 Million Hours (measured)Ease of Use•Plug & Play Operation•Four Auto Sensing 10/100BaseTX RJ-45 Ports •RJ-45 Ports Auto Sense Duplex, Speed, and Cable Type•Compact DIN-Rail Package Increased Performance•Full Wire Speed Capable •100BaseFX Fiber Uplink •Full Duplex Capable•Eliminates Network Collisions •Increases Network DeterminismSPECIFICATIONS Case DimensionsHeight: 3.5" (8.9cm)Width: 1.5" (3.8cm)Depth: 3.6" (9.0cm)Weight: 0.6 lbs. (0.27 kg)DIN-Rail:35mmElectricalInput Voltage: 10-30 VDC Input Current: 270m A@24V BTU/hr:27@24VDCInrush:7.9Amp/0.7ms@24V EnvironmentalOperating Temperature: -40o C to 70o C Storage Temperature: -40o C to 85o C Operating Humidity: 10% to 95%(Non Condensing)Operating Altitude:0 to 10,000 ft.Network Media10BaseT: >Cat3Cable 100BaseTX:>Cat5Cable 100BaseFX:Multimode: 50-62.5/125μm Singlemode: 7-10/125μmConnectors10/100BaseTX: Four (1) RJ-45 TX Ports 100BaseFX: One (1) ST or SC Duplex Port Recommended Wiring ClearanceFront: 4" (10.16 cm)Top:1"(2.54Regulatory ApprovalsFCC Title 47 Part 15 Class A, ICES-003 Class ACE: EN61000-6-2, EN61000-3-2,3; IEC61000-4-2,3,4,5,6,11 EN55011UL/cUL: Hazardous Locations Class I, Div 2, Groups A, B, C, D or non-Hazardous Locations, ANSI/ISA 12.12.01-2000, T4A DNV -GL Type Approved and ABS for Shipboard Applicationscm)Designed to comply with:IEEE 1613 for Electric Utility SubstationsNEMA TS1/TS2 for Traffi c Control EquipmentTHE INDUSTRIAL NETWORK COMPANY106FX2 with Standard DIN rail MountOptional 100-MDR-2 Metal DIN Rail Mount +1 (717) 767-6511AMERICAS*****************ASIA-PACIFIC****************EUROPE, MIDDLE EAST, AFRICA******************As global experts in communication, monitoring and control for industrial automation and networking, Red Lion has been delivering innovative solutions for over forty years. Our automation, Ethernet and cellular M2M technology enables companies worldwide to gain real-time data visibility that drives productivity. Product brands include Red Lion, N-T ron and Sixnet. With headquarters in York, Pennsylvania, the company has offices across the Americas, Asia-Pacific and Europe. Red Lion is part of Spectris plc, the productivity-enhancing instrumentation and controls company. For more information, please visit . ADLD0318 031020 © 2020 Red Lion Controls, Inc. All rights reserved. Red Lion, the Red Lion logo, N-T ron and Sixnet are registered trade-marks of Red Lion Controls, Inc. All other company and product names are trademarks of their respective owners.。

特性● 热电阻温度变送，隔离输出直流电流或电压信号。

● 可选择模拟量的标准固定型热电阻输入隔离安全栅。

● 也可选择智能化的热电阻输入隔离安全栅。

● 模块化表芯设计，精密集成混合电路。

● 带有工作电源指示灯。

● 单通道，一入一出。

● 本质安全防爆等级标志 [Exia]IIC 。

● 即插即拔式接线端子，DIN导轨卡式安装。

描述技术规格● 产品型号 AO 5082型号规格（代码） 代码指明输入信号和输出信号的详细规格， 用户订货时按所需要求选择 , 标明代码 。

● 工作电源电源接线 独立的接线端子 13－、14＋，可带电拔插 电源电压 20~30V DC电流损耗 24V DC 时，< 30mA 电源指示 通电 LED 灯亮：绿色● 危险区允许输入输入通道 端子 1、 2、3 接热电阻 （参见端子接线图） 输入热电阻类型 Pt100；Pt10；Cu50；Cu100等各型热电阻 引线电阻 ≤5Ω● 向安全区输出输出通道 端子 10、11、12 接线 （参见端子接线图） 输出电流 4～20mA；0～20mA；或指定电流量程 电流输出时允许负载 0～550Ω（4～20mA，0～20mA 输出时）选智能型: 输出负载 0～350Ω（4～20mA输出时） 输出电压 1～5V；0～5V；0～10V；或指定电压量程 电压输出阻抗 内置输出电阻 ＜500Ω 纹波（Vp-p） ＜10mV● 性能指标标准精度 ±0.2% 温度漂移 响应时间 ≤1s（0 → 90%） 稳定时间 ＜5 min通道隔离 输入－输出－电源之间隔离 绝缘电阻 ≥100MΩ/500V DC（AC） 隔离能力 2500VAC/1 分钟 50Hz 最高防爆电压 250VAC电磁兼容性 符合 IEC 61000，EN 61000 相关抗电磁标准● 环境参数工作温度 0～＋60℃ 储存温度 －20～＋80℃环境湿度 5～＋95％RH （无冷凝）● 结构及外形尺寸结构形式 16mm厚度,卡装式结构,模块化表芯,拔插式接线端子 端子接线 自升压簧片式压紧连接 机壳材质 聚碳酸脂 / ABS 材料 防护等级 IP 20外形尺寸 W 16×H116×D110（mm），参见外形尺寸图 整机重量 约110g● 安全防爆认证参数整机满足 GB3836.1-2000 和 GB3836.4－2000 标准相关要求 防爆等级标志 [Exia]IIC安全认证参数 Um：250V Uo：12V Io：24mA Po：72mWLo：10 mH Co：1μF（参见选型表）基本误差 / 10℃AO 5082 热电阻输入隔离安全栅（一入一出）AO 5082 热电阻输入隔离安全栅。