5082-5557-IB000中文资料

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)。

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@。

True Hermetically Sealed Proportionally Controlled Metal Package Heater HybridsMiiHYBRID MICROELECTRONICS PRODUCTS DIVISIONFeatures:• Self-contained•Programmable via a single external resistor •Available in 28 watt and 48 watt versions Standardproducts Applications:•Ideal for microwave oscillators• Telecommunications•Other areas where temperature control is neededDESCRIPTIONThe Mii heater is a self-contained hybrid circuit heater programmable for temperature by a single external resistor. These systems are ideal for microwave oscillators, telecommunications and other areas where temperature control is needed. Metal package heaters are available in 28 watt and 40 watt versions..Typical Electrical Characteristics for DC Metal Package HeaterMii P/N 52280-2 …………………………………………………………….……………………….……..…. 28 VDC Input, 28 Watts Mii P/N 52280-1 …………………………………………………………….…………………………...……. 28 VDC Input, 40 Watts Operating Voltage Range (See Note 1) ………………………………………………………………………..…………. 28± 1 VDC Voltage Limits ……………………………………………………………………………………………... 24 VDC Min, 32 VDC Max Reverse Voltage Protection …………………………………………………………………………..………….………… to 50 VDC Operating Current Range ………………………………………………………………….…………………..……… 0.005 to 1.00 A Turn-on Current ………………………………………………………………………………………….…….……………… to 1.00 A Quiescent Current ……………………………………………………………………………………………..…….. Less than .005 A Typical Temperature CharacteristicsControl Range …………………………………………………………………………………………..……………. +50°C to +100°C Variation with Load (See Note 2) ……………………………………………………………………………………...…… 10° C Max Input Voltage Variation (See Note 3) ……………………………………………………...…………………….…..…………… ±2°C Maximum Control Temperature (See Note 4) ………………………………………………………………….…………….. +120°CEnvironmental CharacteristicsOperating Temperature ………………………………………………………………………………………….…… -55°C to +100°C Altitude ……………………………………………………………………………………………………………….….. 70,000 Ft. Max Shock ………………………………………………………………………………………………………………….……… 200G Max Vibration ………………………………………………………………………………………………….………. 50G at 2,000 Hz Max Humidity ……………………………………………………………………………………………………………… Greater than 95%Micropac Industries cannot assume any responsibility for any circuits shown or represent that they are free from patent infringement.True Hermetically Sealed Proportionally Controlled Metal Package Heater Hybrids ReliabilityEach hybrid circuit is subjected to the following reliability screening per MIL-PRF-38534:•Precap internal visual Methods 2017 and 2032•High Temperature stabilization bake, Method 1008, Condition C (performed at Customer’s request only)•Temperature cycling, Method 1010, Condition B•Constant acceleration, Method 2001, Condition B, Y axis only•Optional burn-in per Mii specifications•Fine and Gross lead test, Method 1014, Conditions A1 & C1Notes:1. The heater is operational from 24 to 32 VDC; however, for optimum performance 28 VDC is recommended.2. Maximum temperature variation for current change from 5% over Quiescent to 95% of turn on current.3. Maximum temperature variation over operating voltage range when ambient temperature is constant and thesupply current is between 5% over Quiescent and 95% of turn on current.4. Maximum temperature with any value of control resistor, including 0 ohms.All metal package hermetically sealed heaters are leak tested to meet MIL-PRF-38534, Method 1014, test conditions A & C, with a maximum leak rate of 1 X 10-7 atm-cc/sec.Optimum heat transfer is obtained by using a thermal joint compound such as Dow Corning 340 on the mounting surface.Operation is possible above 100°C, but electrical performance is not QA guaranteed. Input current decays to ≤20 mA max at = 120°C without damage to the heater.All Mii heaters are protected against reverse voltage up to 50 V.Maximum power rating for control resistor is 1/8 watt. Precise resistor values should be determined by measuring the surface temperature.Micropac Industries, Inc. will work with the potential customer for voltage and wattage ratings not currently available.Micropac Industries cannot assume any responsibility for any circuits shown or represent that they are free from patent infringement.True Hermetically Sealed Proportionally Controlled Metal Package Heater HybridsMicropac Industries cannot assume any responsibility for any circuits shown or represent that they are free from patent infringement.。

Micro830、Micro850 和 Micro870可编程控制器Micro810 控制器产品目录号 2080-LC10-12AWA、2080-LC10-12QWB、2080-LC10-12DWD、2080-LC10-12QBBMicro820 控制器产品目录号 2080-LC20-20AWB、2080-LC20-20AWBR、2080-LC20-20QWB、2080-LC20-20QWBR、2080-LC20-20QBB、2080-LC20-20QBBRMicro830 控制器产品目录号 2080-LC30-10QWB、2080-LC30-10QVB、2080-LC30-16AWB、2080-LC30-16QWB、2080-LC30-16QVB、2080-LC30-24QWB、2080-LC30-24QVB、2080-LC30-24QBB、2080-LC30-48AWB、2080-LC30-48QWB、2080-LC30-48QVB、2080-LC30-48QBBMicro850 控制器产品目录号 2080-LC50-24AWB、2080-L50E-24AWB、2080-LC50-24QWB、2080-L50E-24QWB、2080-LC50-24QVB、2080-L50E-24QVB、2080-LC50-24QBB、2080-L50E-24QBB、2080-LC50-48AWB、2080-L50E-48AWB、2080-LC50-48QWB、2080-L50E-48QWB、2080-LC50-48QWBK、2080-L50E-48QWBK、2080-LC50-48QVB、2080-L50E-48QVB、2080-LC50-48QBB、2080-L50E-48QBBMicro870 控制器产品目录号 2080-LC70-24AWB、2080-L70E-24AWB、2080-LC70-24QWB、2080-L70E-24QWB、2080-LC70-24QWBK、2080-L70E-24QWBK、2080-L70E-24QWBN、2080-LC70-24QBB、2080-L70E-24QBB、2080-LC70-24QBBK、2080-L70E-24QBBK、2080-L70E-24QBBN2罗克⻙尔⾃动化出版物2080-UM002M-ZH-E - 2022 年4 月Micro830、Micro850 和 Micro870 可编程控制器⽤⼾⼿册重要⽤⼾须知在安装、配置、操作或维护本产品之前，请阅读本文档以及“其他资源”章节所列的文档，了解关于安装、配置和操作该设备的信息。

液压注意 – 用户方责任 错误或不当地选择或使用本样本或有关资料阐述的产品，可能会导致人生伤亡及财产损失！ 本样本以及其它由派克汉尼汾公司及其子公司、销售公司与授权分销商所提供的资料，仅供用户专业技术人员在对产品和系统的选型进行深入调查考证时参考。

用户应全面分析自身设备的运行工况、适用的工业标准，并仔细查阅现行的样本，以详细地了解产品及系统的相关信息，通过自己的分析和试验，对产品及系统的独立的最终选择负责，确保能满足自身设备的所有性能、耐用性、维修型、安全性以及预警功能等要求。

对于派克或其子公司或授权分销商而言，应负责按用户提供的技术资料和规范，选择和提供适当的元件或系统，而用户则应负责确定这些技术资料和规范对其设备的所有运行工况和能合理预见的使用工况是否充分和准确。

目录目录页次概述 1 订货代号 2 技术参数 4 变量控制器 5 控制选项 “C”, 压力限定(恒压)变量控制器 5 控制选项 “L”, 负载传感及压力限定变量控制器 6 控制选项 “AM”, 带遥控口的标准型先导式压力限定变量控制器 7 控制选项 “AN”, 带ISO 4401 NG06先导阀安装界面的先导式压力限定变量控制器 8 控制选项 “AE”及“AF”, 带电磁比例调节的先导式压力限定变量控制器 9 控制选项 “AMT”, “ALT”及“LOT”, 带最高压力限定的扭矩限定(恒功率)变量控制器 10 P1性能特性 11典型流量特性 11 典型总效率特性 13 典型轴输入功率特性 15 典型噪声特性 18 典型轴承寿命 20 PD性能特性 22典型流量特性 22 典型总效率特性 24 典型轴输入功率特性 26 典型噪声特性 29 典型轴承寿命 31 安装尺寸 33 P1/PD 018 33 P1/PD 028 36 P1/PD 045 40 P1/PD 060 44 P1/PD 075 49 P1/PD 100 54 P1/PD 140 59 变量控制器安装尺寸 65 可提供的扩展的液压产品 75派克汉尼汾备记派克汉尼汾概述简介, 优点派克汉尼汾简介 • 开式回路用轴向柱塞式变量液压泵 • 中压，连续工作压力280 bar • 高驱动转速型，适用于行走机械； 低噪声型，适用于工业应用 • 静音及高效的控制效能 优点 • 总结构尺寸紧凑 • 低噪声• 流量脉动小，进一步降低噪声• 采用弹性密封，不使用密封垫，从而避免外泄漏的产生• 总效率高，功耗小，减小发热• 采用带无泄漏调节装的简单变量控制器 • 符合SAE 及ISO 标准的安装法兰及油口 • 采用圆锥滚柱轴承，使用寿命长 • 全功率后驱动能力• 后部或侧面油口配置可选• 泄油口的配置对水平安装及驱动轴向上垂直安装均适用• 带有最大及最小排量调节选项 • 具有壳体至吸口单向阀选项，可延长轴封寿命 • 使用、维修方便 脉动容腔技术下列图表所示为侧向油口配置P1/PD 18, 28及45泵采用 “脉动容腔” 技术的效果，脉动容腔可降低泵出口处的压力脉动幅值40-60%，这样，无需增加成本来加装噪声缓冲元件，便可大大降低液压系统的整体噪声，P1系列 PD 系列出口压力p / bar平均压力脉动 / b a rP1 045出口压力脉动2600 rpm 无脉动容腔2600 rpm 带脉动容腔订货代号18 ml, 28 ml, 45ml派克汉尼汾P 类型 01 驱动轴 转向R 5密封材料E 油口配置0 壳体-吸口 单向阀 0 排量调节 018 排量 S 安装法兰 及油口 S 轴封 M 应用范围A 设计系列0 通轴驱动选项 C0控制选项0附加控制选项 00油漆 00修改代号系列 P D * 仅适用于045排量, “S”型安装法兰及油口00 标准型, 无修改M2 按要求修改 代号修改代号 * 适用于028及045排量 ** 仅适用于045排量 代号设计系列 A 现行设计系列5 氟碳橡胶 (FPM) 代号密封材料 A 82-2 SAE A M33x2 M27x2 BSPP 1/4”, 3/8” 101-2 SAE B M42x2 M27x2 BSPP 1/4”, 1/2” 101-2SAE B M48x2M33x2Ø38/25DN51/25BSPP 1/4”, 1/2”B ISO M33x2 M27x2 BSPP 1/4”,3/8”ISO M42x2 M27x2 BSPP 1/4”, 1/2” ISO M48x2M33x2Ø38/25DN51/25BSPP 1/4”, 1/2”代号 018排量 028排量 045排量 安装法兰及油口 安装 法兰 螺纹 油口 辅助 油口 安装 法兰 螺纹 油口 辅助 油口 安装法兰螺纹油口法兰 油口辅助 油口 S 82-2 SAE A SAE 16/12 SAE 4/6 101-2 SAE B SAE 20/12 SAE 4/8 101-2SAE B SAE 24/16Ø38/2561系列SAE 4/10M ISO M33x2 M27x2 M12x1.5 M16x1.5 ISO M42x2 M27x2 M12x1.5 M22x1.5 ISO M48x2M33x2Ø38/25DN51/25M12x1.5M22x1.5代号 018驱动轴 028驱动轴 045驱动轴 01 SAE A 11T 花键SAE B-B 15T 花键 SAE B-B 15T 花键02 SAE 19-1平键Ø0.75” SAE B-B 平键Ø1” SAE B-B 平键Ø1” 08— SAE B 13T 花键 SAE B 13T 花键 04 ISO/DIN 平键, Ø20ISO/DIN 平键, Ø25ISO/DIN 平键, Ø25 06 SAE A 9T 花键— — PD 工业液压用 代号 系列P1 行走机械用 代号 排量 018 18 ml/rev (1.10 in 3/rev) 028 28 ml/rev (1.71 in 3/rev) 045 45 ml/rev (2.75 in 3/rev) 代号 类型 P 开式回路用变量柱塞泵 U*通用 代号应用范围 S 工业液压 (PD) M 行走机械 (P1) R 顺时针 (右转)L 逆时针 (左转)代号 转向 代号 轴封 S 单唇轴封 * 并不具有控制功能，仅在运输时予以防护，详情见第7页的控制说明。

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。

字母码数字码中文名英文名AE 42或43 按扭式喷雾器瓶AerosolAM 31 未加保护玻璃瓶Ampoule, non-protectedAP 31 加保护玻璃瓶Ampoule, protectedAT 42或43 喷雾器AtomizerBA 44或45 桶BarrelBB 91 细绳BobbinBC 29 带有瓶架的板条箱Bottle crate, bottlerackBD 16 板BoardBE 61-65 捆扎BundleBF 42或43 未加保护球形瓶Ballon, non-protectedBG 62-64 袋BagBH 61-65 线束BunchBI 21或25 料箱BinBJ 51 吊桶BucketBK 27 筐BasketBL 65 已压缩包Bale, compressedBN 65 未压缩包Bale, non-compressedBO 32或33 未加保护圆柱形瓶Bottle, non-protected, cyl-indrica BP 42或43 加保护球形瓶Ballon, protectedBQ 32或33 加保护圆柱形瓶Bottle, protected cylindricaBR 16 棒BarBS 42或43 未加保护球形瓶Bottle, non-protected, bulbousBT 13 纸卷BoltBU 44或45 大桶ButtBU 散装In bulkBV 42或43 加保护球形瓶Bottle, protected bulbousBX 21或25 盒BoxBY 16 以堆/束/捆形式的板Board, in bundle/bunch/trussBZ 16 以堆/束/捆形式的钢条Bars, in bundle/bunch/trussCA 22 矩形罐Can, rectangularCB 23或27 装啤酒板条箱Beer crateCC 32或33 盛奶器ChurnCE 27 柳条鱼篮CreelCF 24 保险箱CofferCG 26 笼CageCH 25 箱, 柜ChestCI 21或22 金属罐CanisterCJ 54 屏蔽容器CoffinCK 44或45 木桶CaskCL 14 圈CoilCN ConesCO 43 未加保护的坛Carboy, non-protecteCP 43 加保护的坛Carboy, protectedCQ 罐头CanCR 24-25 板条箱CrateCS 21或25 箱CaseCT 22-24 纸板箱CartonCU 51 杯CupCV 67 包裹CoverCX 32 圆柱形罐Can, cylindricalCY 12 圆筒CylinderCZ 67 帆布CanvasDJ 43 未加保护细颈坛Demijohn, non-protected DP 43 加保护细颈坛Demijohn, protectedDR 34 金属桶DrumEN 67 包, 封EnvelopeFC 23-27 装水果板条箱Fruit crateFD 26 框架板条箱Framed crateFI 44或45 小桶FirkinFL 42或43 细颈瓶FlaskFO 23 底箱FootlockerFP 67 薄膜包装FilmpackFR 26 框架FrameGB 31或35 气瓶Gas bottleGG 粗麻袋Gunny bagGI 16 (支)袈GirderGL 粗麻包Gunny baleGZ 16 以堆/束/捆形式的(支柱)架Girders, in bundle/bunch/trussHG 44或45 大啤酒桶HogsheadHR 23 带盖的篮HamperID 铁桶Iron drumIN 17 锭IngotIZ 17 以堆/束/捆形式的锭Ingots, in bundle/bunch/truss JC 23 矩形五加仑液体罐Jerrican, rectangularJG 41 带柄的水罐JugJR 41 大口瓶JarJT 61或65 黄麻包JutebagJY 33 圆柱形五加仑液体罐Jerrican, cylindricalKG 44或45 小桶(小于30加仑) KegLG 12 木材LogLV 吊装货箱Lift vanLZ 12 以堆/束/捆形式的木材Logs, in bundle/bunch/truss MB 62-64 多用包Multiply bagMC 27 装奶板条箱Milk crateMS 62-64 多层包Multiwall sackMT 67 麻袋MatMX 21 火柴盒Match boxNE 00 无包装Unpacked or unpackaged NS 24 成套器具NestNT 66 网NetNT 集装箱ContainerPA 21-3 小包裹PacketPB 纸袋Paper bagPC 21-23或61-63 包裹ParcelPE 托盘PalletPG 15 金属板PlatePH 41 大水瓶PitcherPI 11 管子PipePK 21-23 包PackagePL 51 桶PailPN 16 厚木板PlankPO 61 袋装PouchPO PolybagPS PiecesPT 41 罐PotPU 27 托盘TrayPU 27 托盘包装Tray packPY 15 以堆/束/捆形式的金属板Plates, in bundle/bunch/truss PZ 11 以堆/束/捆形式的管子Pipes, in bundle/bunch/truss PZ 11 以堆/束/捆形式的厚木板Planks, in bundle/bunch/truss RD 12 钢筋RodRG 14 环RingRL 91 卷筒ReelRO 13 卷钢RollRT 66 红色网RednetRZ 12 以堆/束/捆形式的钢筋Rods, in bundle/bunch/truss SA 65 袋SackSC 27 薄板条箱Shallow crateSD 91 轴SpindleSE 22或23 海运箱Sea-chestSH 61 小包装袋SachetSI SkidSK 26 箱Skeleton caseSL 67 薄衬纸SlipsheetSM 15 薄板金属SheetmetalST 15 薄板SheetSU 21-23或61-63 手提箱SuitcaseSW 67 收缩包装ShrinkwrappedSZ 15 以堆/束/捆形式的薄板Sheets, in bundle/bunch/truss TB 51 盆TubTC 21-23 茶叶箱Tea-chestTD 62-64 收缩管Collapsible tubeTD 61-65 管, 可拆(收缩) Ttube, collapsibleTK 24或25 矩形油箱Tank, rectangularTN 21或22 马口铁TinTO 44或45 大桶TunTR 24或25 衣箱TrunkTS 16 捆TrussTU 11 管TubeTY 34或35 圆柱形油箱Tank, cylindricalTZ 11 以堆/束/捆形式的管Tubes, in bundle/bunch/truss UN UnitVA 35 桶VatVG 06 散装气体(1031毫巴,15/C) Bulk,gas(at 1031 mbar and 15/c)VI 31 小玻璃瓶VialVL 04 散装液体Bulk, liquidVO 03 散装大粒子(颗粒)固体Bulk, solid, large particles("nodules")VP 67 真空包装VacuumpackedVQ 05 散装液化汽(在非正常温度/压力)Bulk,liquefied gas(at abnormaltemperature/pressureVR 02 散装粗粒子(粉状)固体Bulk,solid, granular particles("grains")VY 01 散装微粒子(粉状)固体Bulk, solid, fine particles("powders")WB 42或43 柳条包Wickerbottle WG 编织袋Woven bag。

Features• Industry Standard Size • Industry Standard Pinout 7.62 mm (0.300 inch) DIP Leads on 2.54 mm (0.100 inch) Centers • Choice of ColorsRed, AlGaAs Red, HighEfficiency Red, Yellow, Green • Excellent Appearance Evenly Lighted SegmentsGray Package Gives Optimum Contrast±50° Viewing Angle • 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 Available See Intensity and ColorSelected Displays Data Sheet • Sunlight Viewable AlGaAsDescriptionThe 7.6 mm (0.3 inch) and 10.9mm (0.43 inch) LED sevenRed AlGaAs [1]HER [1]Yellow Green Package 5082-Red HDSP-5082-5082-HDSP-DescriptionDrawing77307610762036007.6 mm Common Anode Left Hand Decimal A 77317611762136017.6 mm Common Anode Right Hand Decimal B 77407613762336037.6 mm Common Cathode Right Hand Decimal C 77367616762636067.6 mm Universal ±1. Overflow Right Hand Decimal [2]D 7750E15076507660460010.9 mm Common Anode Left Hand Decimal E 7751E15176517661460110.9 mm Common Anode Right Hand Decimal F 7760E15376537663460310.9 mm Common Cathode Right Hand Decimal G 7756E15676567666460610.9 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 5082-773X Series 5082-77405082-775X Series 5082-7760HDSP-360X Series HDSP-460X Series HDSP-E15X Series7.6 mm (0.3 inch)/10.9 mm (0.43 inch) Seven Segment Displays Technical Datasegment 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.元器件交易网2ambient design. The low current 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 light元器件交易网3Device Test Series ParameterSymbol Min.Typ.Max.Units Conditions 5082-773X Luminous Intensity/Segment [1,2]360770µcdI F = 20 mA5082-774X (Digit Average)I V5082-775X 3601100µcd I F = 20 mA 5082-776XForward Voltage/Segment or DP V F 1.6 2.0V I F = 20 mAPeak WavelengthλPEAK 655nm Dominant Wavelength [3]λd 640nm AllReverse Voltage/Segment or DP [4]V R 3.012V 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-PinElectrical/Optical Characteristics at T A = 25°CRedDevice SeriesParameterSymbol Min.Typ.Max.Units Test Conditions Luminous Intensity/Segment [1,2,5]I V8.515.0mcd I F = 20 mA (Digit Average)1.8VI F = 20 mAForward Voltage/Segment or DPV F2.03.0V I F = 100 mAHDSP-E15XPeak Wavelength λPEAK 645nm Dominant Wavelength [3]λd 637nm Reverse Voltage/Segment or DP [4]V R 3.015V I R = 100 µA Temperature Coefficient of ∆V F /°C -2mV/°C V F /Segment or DPThermal Resistance LED Junction-R θJ-PIN340°C/W/Segto-PinAlGaAs RedHigh 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-PinYellowDeviceSeries Parameter Symbol Min.Typ.Max.Units Test Conditions 5082-762X Luminous Intensity/Segment[1,2]205620µcd I 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 WavelengthλPEAK583nmDominant Wavelength[3,7]λd581.5586592.5nm AllReverse Voltage/Segment or DP[4]V R 3.040V I R = 100 µATemperature Coefficient of∆V F/°C-2mV/°CV F/Segment or DPThermal Resistance LED RθJ-PIN280°C/W/SegJunction-to-PinHigh 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-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 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.Red, AlGaAs RedFigure 1. Maximum Tolerable Peak Current vs.Pulse Duration – Red.Red, AlGaAs Red (Continued)Data subject to change.Copyright © 1999 Agilent Technologies, Inc.Obsoletes 5954-0870 (11/84), 5954-0874(12/84)5963-7394E (11/99)元器件交易网。

DescriptionThis PIN diode chip is silicon dioxide or nitride passi-vated. The 5082-0012 has a planar construction. The fabrication processes are optimized for long term reliability and tightly controlled for uniformity in electrical performance.OutlineMaximum RatingsJunction Operating and StorageTemperature Range .............................-65°C to +150°C Soldering Temperature ..........+425°C for 1 min. max.5082-0012PIN Diode Chip for Hybrid MIC Switches/AttenuatorsData SheetFeatures•Low Series Resistance: 1.0Ω TypicalApplicationsThis general purpose PIN diode is intended for low power switching applications such as duplexers,antenna switching matrices, digital phase shifters, time multiplex filters, TR switches, pulse and amplitude modulators, limiters, leveling circuits, and attenuators.Electrical Specifications at T A = 25°CTypical ParametersNearest Typical Chip Equivalent Minimum Maximum Typical Reverse Part Packaged Breakdown Junction Series Typical Recovery Number Part No.VoltageCapacitance Resistance Lifetime Time 5082-5082-V BR (V)C j (pF)R S (Ω)τ (ns)t rr (ns)001230011500.12 1.0400100 Test V R = V BR V R = 50 V I F = 100 mA I F = 50 mA I F = 20 mA ConditionsMeasure f = 1 MHzf = 100 MHzI R = 250 mAV R = 10 V I R ≤ 10 mA90% RecoveryDimensions in millimeters (1/1000 inch)Assembly and Handling Procedures forPIN Chips1. StorageDevices should be stored in a dry nitrogen purged dessicator or equivalent.2. CleaningIf required, surface contamination may be removed with electronic grade solvents. Typical solvents, such as freon (T.F. or T.M.C.), acetone, deionized water, and methanol, or their locally approved equivalents, can be used singularly or in combinations. Typical cleaning times per solvent are one to three minutes. DI water and methanol should be used (in that order) in the final cleans. Final drying can be accomplished by placing the cleaned dice on clean filter paper and drying with an infrared lamp for 5-10 minutes. Acids such as hydrofluoric (HF), nitric (HN O3) and hydrochloric (HCl) should not be used.The effects of cleaning methods/solutions should be verified on small samples prior to submitting the entire lot.Following cleaning, dice should be either used in assembly (typically within a few hours) or stored in clean containers in a reducing atmosphere or a vacu-um chamber.3. Die Attacha. EutecticAuSn preform with stage temperature of 310°C for one minute max. AuGe preform with stage temperature of 390°C for one minute max.b. EpoxyFor epoxy die-attach, conductive silver-filled or gold-filled epoxies are recommended. This method can be used for all Avago PIN chips.4. Wire BondingEither ultrasonic or thermocompression bonding tech-niques can be employed. Suggested wire is pure gold, 0.7 to 1.5 mil diameter.For product information and a complete list of distributors, please go to our web site: Avago, Avago Technologies, and the A logo are trademarks of Avago Technologies, Pte. in the United States and other countries.Data subject to change. Copyright © 2006 Avago Technologies Pte. All rights reserved. Obsoletes 5965-8880E5989-4778EN February 23, 2006。