MCH3307中文资料

TOSHIBA Transistor Silicon NPN Triple Diffused Type2SC3307High-Speed and High-Voltage Switching Applications Switching Regulator ApplicationsHigh-Speed DC-DC Converter Applications• Excellent switching times: t r = 1.0 μs (max), t f = 1.0 μs (max)(I C = 5 A)• High collector breakdown voltage: V CEO = 800 VAbsolute Maximum Ratings (Tc = 25°C)Characteristics Symbol Rating UnitCollector-base voltage V CBO 900 V Collector-emitter voltage V CEO 800 V Emitter-base voltage V EBO7 VDC I C 10Collector current Pulse I CP 15ABase currentI B 3 A Collector power dissipation (Tc = 25°C)P C 150 W Junction temperature T j 150 °C Storage temperature rangeT stg−55 to 150°CNote: Using continuously under heavy loads (e.g. the application of high temperature/current/voltage and thesignificant change in temperature, etc.) may cause this product to decrease in the reliability significantly even if the operating conditions (i.e. operating temperature/current/voltage, etc.) are within the absolute maximum ratings.Please design the appropriate reliability upon reviewing the Toshiba Semiconductor Reliability Handbook(“Handling Precautions”/Derating Concept and Methods) and individual reliability data (i.e. reliability test report and estimated failure rate, etc).Industrial ApplicationsUnit: mmJEDEC ― JEITA―TOSHIBA 2-21F1AWeight: 9.75 g (typ.)Electrical Characteristics (Tc = 25°C)Markinglead (Pb)-free finish.Collector-emitter voltage V CE (V)I C – V CECo l l e ct o r c u r r e n tI C (A )Collector current I C (A)h FE – I CD C c u r r e n t g a in h F ECollector current I C (A)V CE (sat) – I CC o l l e c t o r -e m i t t e r s a t u r a t i on v o l t a g eV C E (s a t) (V )Base-emitter voltage V BE (V)I C – V BEC ol l ec t o r c u r r e n t IC (A )Collector current I C (A)V BE (sat) – I CB a s e -e m i t t e r s a t u r a t i on v o l t a g e V B E(s a t ) (V )Collector current I C (A)Switching CharacteristicsS w i t c h i n g t i m e (μs )0.030.1 0.3 1 100.013 0.003 0.03 0.1 0.3 1 100 4 8 2 6 100.0030.030.1 0.3 1 100.01 3Collector-emitter voltage V CE (V)Safe Operating AreaC ol l ec t or cu r r e ntIC(A )3 30 100 300 100010 Pulse width t w (s)r th – t wT r a n s i e n t t h e r m a l r e s i s t a n c e r t h (°C /W )RESTRICTIONS ON PRODUCT USE20070701-EN •The information contained herein is subject to change without notice.•TOSHIBA is continually working to improve the quality and reliability of its products. Nevertheless, semiconductor devices in general can malfunction or fail due to their inherent electrical sensitivity and vulnerability to physical stress. It is the responsibility of the buyer, when utilizing TOSHIBA products, to comply with the standards of safety in making a safe design for the entire system, and to avoid situations in which a malfunction or failure of such TOSHIBA products could cause loss of human life, bodily injury or damage to property.In developing your designs, please ensure that TOSHIBA products are used within specified operating ranges as set forth in the most recent TOSHIBA products specifications. Also, please keep in mind the precautions and conditions set forth in the “Handling Guide for Semiconductor Devices,” or “TOSHIBA Semiconductor Reliability Handbook” etc.• The TOSHIBA products listed in this document are intended for usage in general electronics applications (computer, personal equipment, office equipment, measuring equipment, industrial robotics, domestic appliances, etc.).These TOSHIBA products are neither intended nor warranted for usage in equipment that requires extraordinarily high quality and/or reliability or a malfunction or failure of which may cause loss of human life or bodily injury (“Unintended Usage”). Unintended Usage include atomic energy control instruments, airplane or spaceship instruments, transportation instruments, traffic signal instruments, combustion control instruments, medical instruments, all types of safety devices, etc.. Unintended Usage of TOSHIBA products listed in his document shall be made at the customer’s own risk.•The products described in this document shall not be used or embedded to any downstream products of which manufacture, use and/or sale are prohibited under any applicable laws and regulations.• The information contained herein is presented only as a guide for the applications of our products. No responsibility is assumed by TOSHIBA for any infringements of patents or other rights of the third parties which may result from its use. No license is granted by implication or otherwise under any patents or other rights of TOSHIBA or the third parties.• Please contact your sales representative for product-by-product details in this document regarding RoHS compatibility. Please use these products in this document in compliance with all applicable laws and regulations that regulate the inclusion or use of controlled substances. Toshiba assumes no liability for damage or losses occurring as a result of noncompliance with applicable laws and regulations.。

4856Terminal Functions TERMINALI/O DESCRIPTION NO.4Ground7I Manual reset5O Active-low reset output6O Active-high reset output1I Sense voltage input 12I Sense voltage input 23I Sense voltage input 38Supply voltage元器件交易网IMPORTANT NOTICETexas Instruments and its subsidiaries (TI) reserve the right to make changes to their products or to discontinueany product or service without notice, and advise customers to obtain the latest version of relevant informationto verify, before placing orders, that information being relied on is current and complete. All products are soldsubject to the terms and conditions of sale supplied at the time of order acknowledgement, including thosepertaining to warranty, patent infringement, and limitation of liability.TI warrants performance of its semiconductor products to the specifications applicable at the time of sale inaccordance with TI’s standard warranty. Testing and other quality control techniques are utilized to the extentTI deems necessary to support this warranty. Specific testing of all parameters of each device is not necessarilyperformed, except those mandated by government requirements.CERTAIN APPLICATIONS USING SEMICONDUCTOR PRODUCTS MAY INVOLVE POTENTIAL RISKS OFDEATH, PERSONAL INJURY, OR SEVERE PROPERTY OR ENVIRONMENTAL DAMAGE (“CRITICALAPPLICATIONS”). TI SEMICONDUCTOR PRODUCTS ARE NOT DESIGNED, AUTHORIZED, ORWARRANTED TO BE SUITABLE FOR USE IN LIFE-SUPPORT DEVICES OR SYSTEMS OR OTHERCRITICAL APPLICATIONS. INCLUSION OF TI PRODUCTS IN SUCH APPLICATIONS IS UNDERSTOOD TOBE FULLY AT THE CUSTOMER’S RISK.In order to minimize risks associated with the customer’s applications, adequate design and operatingsafeguards must be provided by the customer to minimize inherent or procedural hazards.TI assumes no liability for applications assistance or customer product design. TI does not warrant or representthat any license, either express or implied, is granted under any patent right, copyright, mask work right, or otherintellectual property right of TI covering or relating to any combination, machine, or process in which suchsemiconductor products or services might be or are used. TI’s publication of information regarding any thirdparty’s products or services does not constitute TI’s approval, warranty or endorsement thereof.Copyright © 1998, Texas Instruments Incorporated。

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。

©2000 Fairchild Semiconductor InternationalRev. 5.0Features•Output current In excess of 1.5A•Output voltage adjustable between -1.2V and - 37V •Internal thermal-overload protection •Internal short-circuit current limiting •Output transistor safe-area compensation•Floating operation for high-voltage applications •Standard 3-pin TO-220 package and D 2 PAKDescriptionThe LM337 is a 3-terminal negative adjustable regulator. It supply in excess of 1.5A over an output voltage range of -1.2V to - 37V . This regulator requires only two external resistor to set the output voltage. Included on the chip are current limiting, thermal overload protection and safe area compensation.TO-2201. Adj2. Input3. OutputD 2-PAK11LM3373-terminal 1.5A negative adjustable regulatorLM3372Absolute Maximum RatingsElectrical Characteristics(V I - V O = 5V , I O = 40mA, 0°C ≤ TJ ≤ +125°C, PDMAX = 20W, unless otherwise specified)•Load and line regulation are specified at constant junction temperature. Change in V O due to heating effects must be taken into account separately. Pulse testing with low duty is used.ParameterSymbol Value Unit Input-Output Voltage Differential V I - V O 40V Power DissipationP D Internally limitedW Operating Temperature Range T OPR 0 ~ +125°C Storage Temperature RangeT STG-65 ~+125°CParameterSymbolConditionsMin Typ.Max.Unit Line Regulation R line T A = +25°C- 40V ≤V O - V I ≤ -3V -0.010.04%/ V- 40V ≤ V O - V I ≤ -3V -0.020.07Load RegulationR loadT A = +25°C10mA ≤ I O ≤0.5A -1550mV10mA ≤ I O ≤1.5A-15150Adjustable Pin Current I ADJ --50100µA Adjustable Pin Current∆I ADJT A =+ 25°C10mA ≤ I O ≤1.5A - 40V ≤ V O - V I ≤ -3V -25µA T A =+ 25°C-1.213-1.250-1.287Reference Voltage V REF - 40V ≤ V O - V I ≤ -3V 10mA ≤ I O ≤ 1.5A-1.200-1.250-1.300V Temperature StabilityST T--0.6-%Minimum Load Current to Maintain Regulation - 40V ≤ V O - V I ≤ -3V - 2.510- 10V ≤ V O - V I ≤ -3V - 1.56mA Output Noiseen T A =+25°C 10Hz ≤ f ≤10KHz -3×V OUT -V/106Ripple Rejection Ratio V O = -10V, f = 120Hz -60-C ADJ = 10µF6677-dB Long Term StabilityST T J = 125°C ,1000Hours-0.31%Thermal Resistance Junction to CaseR θJC --4-°C/ WLM337 Typical ApplicationFigure 1.Programmable Regulator•Ci is required if regulator is located more then 4 inches from power supply filter.A 1.0µF solid tantalum or 10µF aluminum electrolytic is recommended.Co is necessary for stability. A 1.0µF solid tantalum or 10µF aluminum electrolytic is recommended.•V O= -1.25V (1+R2/R1)3LM3374Mechanical DimensionsPackageTO-220LM337 Mechanical Dimensions (Continued)PackageD2-PAK5LM3376Ordering InformationProduct NumberPackageOperating TemperatureLM337T TO-2200°C to + 125°CLM337D2TD 2-PAKLM3377LM3377/12/00 0.0m 001Stock#DSxxxxxxxx2000 Fairchild Semiconductor InternationalLIFE SUPPORT POLICYFAIRCHILD’S PRODUCTS ARE NOT AUTHORIZED FOR USE AS CRITICAL COMPONENTS IN LIFE SUPPORT DEVICES OR SYSTEMS WITHOUT THE EXPRESS WRITTEN APPROVAL OF THE PRESIDENT OF FAIRCHILD SEMICONDUCTOR INTERNATIONAL. As used herein:1.Life support devices or systems are devices or systemswhich, (a) are intended for surgical implant into the body, or (b) support or sustain life, and (c) whose failure to perform when properly used in accordance with instructions for use provided in the labeling, can bereasonably expected to result in a significant injury of the user.2. A critical component in any component of a life supportdevice or system whose failure to perform can bereasonably expected to cause the failure of the life support device or system, or to affect its safety or effectiveness.。

MC33077Low Noise Dual Operational AmplifierThe MC33077 is a precision high quality, high frequency, low noise monolithic dual operational amplifier employing innovative bipolar design techniques. Precision matching coupled with a unique analog resistor trim technique is used to obtain low input offset voltages.Dual−doublet frequency compensation techniques are used to enhance the gain bandwidth product of the amplifier. In addition, the MC33077offers low input noise voltage, low temperature coefficient of input offset voltage, high slew rate, high AC and DC open loop voltage gain and low supply current drain. The all NPN transistor output stage exhibits no deadband cross−over distortion, large output voltage swing, excellent phase and gain margins, low open loop output impedance and symmetrical source and sink AC frequency performance.The MC33077 is available in plastic DIP and SOIC−8 packages (P and D suffixes).Features•Low V oltage Noise: 4.4 nV/Hz Ǹ@ 1.0 kHz •Low Input Offset V oltage: 0.2 mV•Low TC of Input Offset V oltage: 2.0 m V/°C•High Gain Bandwidth Product: 37 MHz @ 100 kHz •High AC V oltage Gain: 370 @ 100 kHz1850 @ 20 kHz•Unity Gain Stable: with Capacitance Loads to 500 pF •High Slew Rate: 11 V/m s•Low Total Harmonic Distortion: 0.007%•Large Output V oltage Swing: +14 V to −14.7 V •High DC Open Loop V oltage Gain: 400 k (112 dB)•High Common Mode Rejection: 107 dB •Low Power Supply Drain Current: 3.5 mA •Dual Supply Operation: ±2.5 V to ±18 V •Pb−Free Package is AvailableDevice Package Shipping †ORDERING INFORMATIONMC33077D SOIC−898 Units/Rail MC33077DR2SOIC−82500 Tape & Reel PDIP−8P SUFFIX CASE 62618SOIC−8D SUFFIX CASE 75118MARKING DIAGRAMS1818A = Assembly Location WL, L = Wafer Lot YY , Y = YearWW, W= Work WeekMC33077PPDIP−850 Units/RailPIN CONNECTIONS42V EE 135678V CC Output 2Inputs 2Inputs 1(Dual, Top View)−+1−+2Output 133077ALYWMC33077P AWL YYWWMC33077DR2G SOIC−8(Pb−Free)2500 Tape & Reel †For information on tape and reel specifications,including part orientation and tape sizes, please refer to our T ape and Reel Packaging Specifications Brochure, BRD8011/D.Figure 1. Representative Schematic Diagram (Each Amplifier)MAXIMUM RATINGSMaximum ratings applied to the device are individual stress limit values (not normal operating conditions) and are not valid simultaneously. If stress limits are exceeded device functional operation is not implied, damage may occur and reliability may be affected. Functi onal operation should be restricted to the Recommended Operating Conditions.1.Either or both input voltages should not exceed V CC or V EE (See Applications Information).2.Power dissipation must be considered to ensure maximum junction temperature (T J) is not exceeded (See power dissipation performancecharacteristic, Figure 2).3.Measured with V CC and V EE simultaneously varied.P D (M A X ), M A X I M U M P O W E R D I S S I P A T I O N (m W )Figure 2. Maximum Power Dissipationversus Temperature Figure 3. Input Bias Current versus Supply VoltageT A , AMBIENT TEMPERATURE (°C)V CC , |V EE |, SUPPLY VOLTAGE (V), I N P U T B I A S C U R R E N T (n A )I I B 24002000160012008004008006004002000 2.5 5.07.51012.51517.520Figure 4. Input Bias Currentversus TemperatureFigure 5. Input Offset Voltageversus TemperatureFigure 6. Input Bias Current versusCommon Mode Voltage Figure 7. Input Common Mode Voltage Rangeversus TemperatureFigure 8. Output Saturation Voltage versusLoad Resistance to Ground Figure 9. Output Short Circuit Currentversus TemperatureT A , AMBIENT TEMPERATURE (°C), I N P U T B I A S C U R R E N T (n A )I I B V , I N P U T O F F S E T V O L T A G E (m V )I O T A , AMBIENT TEMPERATURE (°C)V CM , COMMON MODE VOLTAGE (V), I N P U T B I A S C U R R E N T (n A )I IB T A , AMBIENT TEMPERATURE (°C)V I C R , I N P U T C O M M O N M O D E V O T A G E R A N G E (V )R L , LOAD RESISTANCE TO GROUND (k W )V , O U T P U T S A T U R A T I O N V O L T A G E (V )s a tT A , AMBIENT TEMPERATURE (°C)|I |, O U T P U T S H O R T C I R C U I T C U R R E N T (m A )S C1.00.5−0.5−1.06005004003002001000V CC 0.0V CC V CC V CC V EE +1.5V EE +1.0V EE +0.5V EE +0.0V CC V CC V CC V EE V EE V EE 5040302010−55−25025*******125−55−25255075100125Figure 12. Power Supply Rejectionversus Frequency Figure 13. Gain Bandwidth Productversus Supply VoltageFigure 14. Gain Bandwidth Productversus Temperature Figure 15. Maximum Output Voltageversus Supply VoltageI , S U P P L Y C U R R E N T (m A )C Cf, FREQUENCY (Hz)P S R , P O W E R S U P P L Y R E J E C T I O N (d B )V CC , |V EE |, SUPPLY VOLTAGE (V)T A , AMBIENT TEMPERATURE (°C)G B W , G A I N B A N D W I D T H P R O D U C T (M H z )V CC , |V EE |, SUPPLY VOLTAGE (V)V O ,O U T P U T V O L T A G E (V )p 5.0504642383430262015105.0V O ,O U T P U T V O L T A G E (V )p p Figure 16. Output Voltageversus Frequency Figure 17. Open Loop Voltage Gainversus Supply VoltageFigure 20. Channel Separationversus Frequency Figure 21. Total Harmonic Distortionversus Frequencyf, FREQUENCY (Hz)V CC , |V EE |, SUPPLY VOLTAGE (V)O P E N L O O P V O L T A G E G A I N (X 1000 V /V )A V O L ,O P E N L O O P V O L T A G E G A I N (X 1000 V /V )A V O L ,f, FREQUENCY (Hz)C S , C H A N N E L S E P A R A T I O N (d B )f, FREQUENCY (Hz)30252015100110101001.0 k10 k100 kFigure 22. Total Harmonic Distortionversus Frequency Figure 23. Total Harmonic Distortionversus Output VoltageFigure 24. Slew Rate versus Supply Voltage Figure 25. Slew Rate versus TemperatureFigure 26. Voltage Gain and Phaseversus FrequencyFigure 27. Open Loop Gain Margin and Phase Margin versus Output Load CapacitanceT H D ,T O T A L H A R M O N I C D I S T O R T I O N (%)f, FREQUENCY (Hz)V O , OUTPUT VOLTAGE (V pp )T H D , T O T A L H A R M O N I C D I S T O R T I O N (%)V CC , |V EE |, SUPPLY VOLTAGE (V)S R , S L E W R A T E (V / s )µS R , S L E W R A T E (V / s )µT A , AMBIENT TEMPERATURE (°C)f, FREQUENCY (Hz)φ, E X C E S S P H A S E (D E G R E E S )O P E N −L O O P V O L T A G E G A I N (d B )A V O L ,A , O P E N L O O P G A I N M A R G I N (dB )m 0102030405060φ, P H A S E M A R G I N (D E G R E E S )m 70C L , OUTPUT LOAD CAPACITANCE (pF)1.00.140302010014060201412108.06.04.02.010100 1.0 k10 k 100 k 1.0 M 10 M100 M1.0101001000Figure 28. Phase Margin versusOutput VoltageFigure 29. Overshoot versusOutput Load CapacitanceFigure 30. Input Referred Noise Voltageand Current versus FrequencyFigure 31. Total Input Referred Noise Voltageversus Source ResistantFigure 32. Phase Margin and Gain Marginversus Differential Source ResistanceFigure 33. Inverting Amplifier Slew Rate V O, OUTPUT VOLTAGE (V)φ,PHASEMARGIN(DEGREES)mC L, OUTPUT LOAD CAPACITANCE (pF)os,OVERSHOOT(%)f, FREQUENCY (Hz)e,INPUTREFERREDNOISEVOLTAGE()n105.03.02.01.00.50.30.20.1i,INPUTREFERREDNOISECURRENT(pA)nnV/Hz√V,TOTALREFERREDNOISEVOLTAGE()nR S, SOURCE RESISTANCE (W)nV/Hz√10203040506070φm,PHASEMARGIN(DEGREES)R T, DIFFERENTIAL SOURCE RESISTANCE (W)A,GAINMARGIN(dB)mV,OUTPUTVOLTAGE(5.V/DIV)Ot, TIME (2.0 m s/DIV)V70605040302010806040100503020105.03.02.01.01000100101.01412108.06.04.02.01.010100 1.0 k10 kV CC = +15 VV EE = −15 VA V = −1.0R L = 2.0 k WC L = 100 pFT A = 25°CFigure 34. Non−inverting Amplifier Slew Rate Figure 35. Non−inverting Amplifier OvershootFigure 36. Low Frequency Noise Voltageversus TimeV , O U T P U T V O L T A G E (5.0 V /D I V )O t, TIME (2.0 m s/DIV)t, TIME (200 ns/DIV)e , I N P U T N O I S E V O L T A G E (100n V /D I V )n t, TIME (1.0 sec/DIV)V , O U T P U T V O L T A G E (5.0 V /D I V )O V CC = +15 V V EE = −15 V A V = +1.0R L = 2.0 k W T A = 25°CC L = 0 pFC L = 100 pFV CC = +15 VV EE = −15 VBW = 0.1 Hz to 10 Hz T A = 25°CSee Noise Circuit (Figure 36)V CC = +15 VV EE = −15 V A V = +1.0R L = 2.0 k W C L = 100 pF T A = 25°CAPPLICATIONS INFORMATIONThe MC33077 is designed primarily for its low noise, low offset voltage, high gain bandwidth product and large output swing characteristics. Its outstanding high frequency gain/phase performance make it a very attractive amplifier for high quality preamps, instrumentation amps, active filters and other applications requiring precision quality characteristics. The MC33077 utilizes high frequency lateral PNP input transistors in a low noise bipolar differential stage driving a compensated Miller integration amplifier. Dual−doublet frequency compensation techniques are used to enhance the gain bandwidth product. The output stage uses an all NPN transistor design which provides greater output voltage swing and improved frequency performance over more conventional stages by using both PNP and NPN transistors (Class AB). This combination produces an amplifier with superior characteristics.Through precision component matching and innovative current mirror design, a lower than normal temperature coefficient of input offset voltage (2.0 m V/°C as opposed to 10 m V/°C), as well as low input offset voltage, is accomplished. The minimum common mode input range is from 1.5 V below the positive rail (V CC) to 1.5 V above the negative rail (V EE). The inputs will typically common mode to within 1.0 V of both negative and positive rails though degradation in offset voltage and gain will be experienced as the common mode voltage nears either supply rail. In practice, though not recommended, the input voltage may exceed V CC by approximately 3.0V and decrease below the V EE by approximately 0.6V without causing permanent damage to the device. If the input voltage on either or both inputs is less than approximately 0.6V, excessive current may flow, if not limited, causing permanent damage to the device.The amplifier will not latch with input source currents up to 20 mA, though in practice, source currents should be limited to 5.0 mA to avoid any parametric damage to the device. If both inputs exceed V CC, the output will be in the high state and phase reversal may occur. No phase reversal will occur if the voltage on one input is within the common mode range and the voltage on the other input exceeds V CC. Phase reversal may occur if the input voltage on either or both inputs is less than 1.0V above the negative rail. Phase reversal will be experienced if the voltage on either or both inputs is less than V EE.Through the use of dual−doublet frequency compensation techniques, the gain bandwidth product has been greatly enhanced over other amplifiers using the conventional single pole compensation. The phase and gain error of the amplifier remains low to higher frequencies for fixed amplifier gain configurations.With the all NPN output stage, there is minimal swing loss to the supply rails, producing superior output swing, no crossover distortion and improved output phase symmetry with output voltage excursions (output phase symmetry being the amplifiers ability to maintain a constant phase relation independent of its output voltage swing). Output phase symmetry degradation in the more conventional PNP and NPN transistor output stage was primarily due to the inherent cut−off frequency mismatch of the PNP and NPN transistors used (typically 10 MHz and 300 MHz, respectively), causing considerable phase change to occur as the output voltage changes. By eliminating the PNP in the output, such phase change has been avoided and a very significant improvement in output phase symmetry as well as output swing has been accomplished.The output swing improvement is most noticeable when operation is with lower supply voltages (typically 30% with ±5.0 V supplies). With a 10 k load, the output of the amplifier can typically swing to within 1.0 V of the positive rail (V CC), and to within 0.3 V of the negative rail (V EE), producing a 28.7 V pp signal from ±15 V supplies. Output voltage swing can be further improved by using an output pull−up resistor referenced to the V CC. Where output signals are referenced to the positive supply rail, the pull−up resistor will pull the output to V CC during the positive swing, and during the negative swing, the NPN output transistor collector will pull the output very near V EE. This configuration will produce the maximum attainable output signal from given supply voltages. The value of load resistance used should be much less than any feedback resistance to avoid excess loading and allow easy pull−up of the output.Output impedance of the amplifier is typically less than 50W at frequencies less than the unity gain crossover frequency (see Figure 19). The amplifier is unity gain stable with output capacitance loads up to 500 pF at full output swing over the −55° to +125°C temperature range. Output phase symmetry is excellent with typically 4°C total phase change over a 20 V output excursion at 25°C with a 2.0 k W and 100 pF load. With a 2.0 k W resistive load and no capacitance loading, the total phase change is approximately one degree for the same 20V output excursion. With a 2.0k W and 500 pF load at 125°C, the total phase change is typically only 10°C for a 20V output excursion (see Figure 28).As with all amplifiers, care should be exercised to insure that one does not create a pole at the input of the amplifier which is near the closed loop corner frequency. This becomes a greater concern when using high frequency amplifiers since it is very easy to create such a pole with relatively small values of resistance on the inputs. If this does occur, the amplifier’s phase will degrade severely causing the amplifier to become unstable. Effective source resistances, acting in conjunction with the input capacitance of the amplifier, should be kept to a minimum to avoid creating such a pole at the input (see Figure 32). There is minimal effect on stability where the created input pole is much greater than the closed loop corner frequency. Where amplifier stability is affected as a result of a negative feedback resistor in conjunction with theamplifier’s input capacitance, creating a pole near the closed loop corner frequency, lead capacitor compensation techniques (lead capacitor in parallel with the feedback resistor) can be employed to improve stability. The feedback resistor and lead capacitor RC time constant should be larger than that of the uncompensated input pole frequency. Having a high resistance connected to the noninverting input of the amplifier can create a like instability problem. Compensation for this condition can be accomplished by adding a lead capacitor in parallel with the noninverting input resistor of such a value as to make the RC time constant larger than the RC time constant of the uncompensated input resistor acting in conjunction with the amplifiers input capacitance.For optimum frequency performance and stability, careful component placement and printed circuit board layout should be exercised. For example, long unshielded input or output leads may result in unwanted input output coupling.In order to reduce the input capacitance, the body of resistors connected to the input pins should be physically close to the input pins. This not only minimizes the input pole creation for optimum frequency response, but also minimizes extraneous signal “pickup” at this node. Power supplies should be decoupled with adequate capacitance as close as possible to the device supply pin.In addition to amplifier stability considerations, input source resistance values should be low to take full advantageof the low noise characteristics of the amplifier. Thermalnoise (Johnson Noise) of a resistor is generated by thermally−charged carriers randomly moving within the resistor creating a voltage. The RMS thermal noise voltage in a resistor can be calculated from:E nr = 4k TR × BW/where:k = Boltzmann’s Constant (1.38 × 10−23 joules/k)T = Kelvin temperature R = Resistance in ohmsBW = Upper and lower frequency limit in Hertz.By way of reference, a 1.0 k W resistor at 25°C will produce a 4.0nV/Hz √ of RMS noise voltage. If this resistor is connected to the input of the amplifier, the noise voltage will be gained−up in accordance to the amplifier’s gain configuration. For this reason, the selection of input source resistance for low noise circuit applications warrants serious consideration. The total noise of the amplifier, as referred to its inputs, is typically only 4.4 nV/Hz √ at 1.0 kHz.The output of any one amplifier is current limited and thus protected from a direct short to ground, However, under such conditions, it is important not to allow the amplifier to exceed the maximum junction temperature rating. Typically for ±15V supplies, any one output can be shorted continuously to ground without exceeding the temperature rating.Figure 37. Voltage Noise Test Circuit(0.1 Hz to 10 Hz p−p )Note: All capacitors are non−polarized.0.1 m FScope ×1R in = 1.0 M WWPACKAGE DIMENSIONSSOIC−8D SUFFIX CASE 751−07ISSUE AB*For additional information on our Pb−Free strategy and solderingdetails, please download the ON Semiconductor Soldering and Mounting Techniques Reference Manual, SOLDERRM/D.SOLDERING FOOTPRINT*NOTES:1.DIMENSIONING AND TOLERANCING PER ANSI Y14.5M, 1982.2.CONTROLLING DIMENSION: MILLIMETER.3.DIMENSION A AND B DO NOT INCLUDE MOLD PROTRUSION.4.MAXIMUM MOLD PROTRUSION 0.15 (0.006)PER SIDE.5.DIMENSION D DOES NOT INCLUDE DAMBAR PROTRUSION. ALLOWABLE DAMBARPROTRUSION SHALL BE 0.127 (0.005) TOTAL IN EXCESS OF THE D DIMENSION AT MAXIMUM MATERIAL CONDITION.6.751−01 THRU 751−06 ARE OBSOLETE. NEWSTANDARD IS 751−07.DIM A MIN MAX MIN MAX INCHES4.805.000.1890.197MILLIMETERS B 3.80 4.000.1500.157C 1.35 1.750.0530.069D 0.330.510.0130.020G 1.27 BSC 0.050 BSC H 0.100.250.0040.010J 0.190.250.0070.010K 0.40 1.270.0160.050M 0 8 0 8 N 0.250.500.0100.020S5.806.200.2280.244YM0.25 (0.010)Z SXS____SOIC−8ǒmm inchesǓSCALE 6:1PDIP−8P SUFFIX CASE 626−05ISSUE LNOTES:1.DIMENSION L TO CENTER OF LEAD WHEN FORMED PARALLEL.2.PACKAGE CONTOUR OPTIONAL (ROUND OR SQUARE CORNERS).3.DIMENSIONING AND TOLERANCING PER ANSI Y14.5M, 1982.DIM MIN MAX MIN MAX INCHESMILLIMETERS A 9.4010.160.3700.400B 6.10 6.600.2400.260C 3.94 4.450.1550.175D 0.380.510.0150.020F 1.02 1.780.0400.070G 2.54 BSC 0.100 BSC H 0.76 1.270.0300.050J 0.200.300.0080.012K 2.92 3.430.1150.135L 7.62 BSC 0.300 BSC M −−−10 −−−10 N0.76 1.010.0300.040__ON Semiconductor and are registered 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. 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FEATURESLM337...KTE,KTP,OR KVU PACKAGE(TOP VIEW)OUTPUT INPUT ADJUSTMENTI N P U TI N P U TLM337...KTT (TO-263) PACKAGE(TOP VIEW)OUTPUT INPUT ADJUSTMENTLM237,LM337...KC (TO-220) PACKAGE(TOP VIEW)INPUTOUTPUTADJUSTMENTINPUTOUTPUT LM337...KCS (TO-220) PACKAGE(TOP VIEW)ADJUSTMENTI N P UTI N P UTDESCRIPTION/ORDERINGINFORMATIONLM237,LM3373-TERMINAL ADJUSTABLE REGULATORSSLVS047K–NOVEMBER 1981–REVISED NOVEMBER 2007•Output Voltage Range Adjustable From •Peak Output Current Constant Over –1.2V to –37VTemperature Range of Regulator •Output Current Capability of 1.5A Max •Ripple Rejection Typically 77dB•Input Regulation Typically 0.01%Per •Direct Replacement for Industry-Standard Input-Voltage ChangeLM237and LM337•Output Regulation Typically 0.3%The LM237and LM337are adjustable 3-terminal negative-voltage regulators capable of supplying in excess of –1.5A over an output voltage range of –1.2V to –37V.They are exceptionally easy to use,requiring only two external resistors to set the output voltage and one output capacitor for frequency compensation.The current design has been optimized for excellent regulation and low thermal transients.In addition,the LM237and LM337feature internal current limiting,thermal shutdown,and safe-area compensation,making them virtually immune to failure by overloads.The LM237and LM337serve a wide variety of applications,including local on-card regulation,programmable output-voltage regulation,and precision current regulation.ORDERING INFORMATIONT JPACKAGE (1)ORDERABLE PART NUMBER TOP-SIDE MARKING –25°C to 150°CTO-220–KC Tube of 50LM237KC LM237PowerFLEX™–KTE Reel of 2000LM337KTER LM337PowerFLEX –KTPReel of 3000LM337KTPR L337TO-220–KC Tube of 50LM337KC LM3370°C to 125°CTO-220–KCS Tube of 50LM337KCSE3LM337TO-252–KVU Reel of 2500LM337KVURG3LM337TO-263–KTTReel of 500LM337KTTRLM337(1)Package drawings,standard packing quantities,thermal data,symbolization,and PCB design guidelines are available at /sc/package.Please be aware that an important notice concerning availability,standard warranty,and use in critical applications of Texas Instruments semiconductor products and disclaimers thereto appears at the end of this data sheet.ADJUSTMENTOUTPUTINPUTAbsolute Maximum Ratings (1)Package Thermal Data (1)LM237,LM3373-TERMINAL ADJUSTABLE REGULATORSSLVS047K–NOVEMBER 1981–REVISED NOVEMBER 2007SCHEMATIC DIAGRAMover operating temperature ranges (unless otherwise noted)MINMAX UNIT V I –V O Input-to-output differential voltage –40V T J Operating virtual junction temperature 150°C Lead temperature1,6mm (1/16in)from case for 10s260°C T stg Storage temperature range–65150°C(1)Stresses beyond those listed under "absolute maximum ratings"may cause permanent damage to the device.These are stress ratings only,and functional operation of the device at these or any other conditions beyond those indicated under "recommended operating conditions"is not implied.Exposure to absolute-maximum-rated conditions for extended periods may affect device reliability.PACKAGEBOARD θJC θJA PowerFLEX (KTE)High K,JESD 51-53°C/W 23°C/W PowerFLEX (KTP)High K,JESD 51-519°C/W 28°C/W TO-220(KC)High K,JESD 51-53°C/W 24.8°C/W TO-220(KCS)High K,JESD 51-53°C/W24.8°C/W TO-252(KVU)High K,JESD 51-530.3°C/W TO-263(KTT)High K,JESD 51-518°C/W 25.3°C/W(1)Maximum power dissipation is a function of T J (max),θJA ,and T A .The maximum allowable power dissipation at any allowable ambient temperature is P D =(T J (max)–T A )/θJA .Operating at the absolute maximum T J of 150°C can affect reliability.Recommended Operating Conditions Electrical CharacteristicsLM237,LM337 3-TERMINAL ADJUSTABLE REGULATORSSLVS047K–NOVEMBER1981–REVISED NOVEMBER2007MIN MAX UNIT|V I–V O|≤40V,P≤15W101500I O Output current mA|V I–V O|≤10V,P≤15W61500LM237–25150T J Operating virtual junction temperature°CLM3370125over recommended ranges of operating virtual junction temperature(unless otherwise noted)LM237LM337 PARAMETER TEST CONDITIONS(1)UNITMIN TYP MAX MIN TYP MAXT J=25°C0.010.020.010.04Input regulation(2)V I–V O=–3V to–40V%/VT J=MIN to MAX0.020.050.020.07V O=–10V,f=120Hz6060Ripple rejection dB V O=–10V,f=120Hz,C ADJ=10µF66776677|V O|≤5V2550mVI O=10mA to1.5A,T J=25°C|VO |≥5V0.30.50.31%Output regulation|V O|≤5V5070mVI O=10mA to1.5A|V O|≥5V1 1.5%Output-voltage change withT J=MIN to MAX0.60.6% temperatureOutput-voltageAfter1000h at T J=MAX and V I–V O=–40V0.310.31% long-term driftOutput noise voltage f=10Hz to10kHz,T J=25°C0.0030.003% |V I–V O|≤40V 2.55 2.510 Minimum output current tomA maintain regulation|VI–V O|≤10V 1.23 1.56|V I–V O|≤15V 1.5 2.2 1.5 2.2Peak output current A |V I–V O|≤40V,T J=25°C0.240.40.150.4ADJUSTMENT current6510065100µAChange in ADJUSTMENT V I–V O=–2.5V to–40V,I O=10mA to MAX,2525µA current T J=25°CReference voltage V I–V O=–3V to–40V,T J=25°C–1.225–1.25–1.275–1.213–1.25–1.287 (OUTPUT to I O=10mA to1.5A,VT J=MIN to MAX–1.2–1.25–1.3–1.2–1.25–1.3 ADJUSTMENT)P≤rated dissipationThermal regulation Initial T J=25°C,10-ms pulse0.0020.020.0030.04%/W (1)Unless otherwise noted,the following test conditions apply:|V I–V O|=5V and I O=0.5A.For conditions shown as MIN or MAX,usethe appropriate value specified under recommended operating conditions.All characteristics are measured with a0.1-µF capacitor across the input and a1-µF capacitor across the output.Pulse-testing techniques are used to maintain the junction temperature as close to the ambient temperature as possible.Thermal effects must be taken into account separately.(2)Input regulation is expressed here as the percentage change in output voltage per1-V change at the input.Electrical CharacteristicsLM237,LM3373-TERMINAL ADJUSTABLE REGULATORSSLVS047K–NOVEMBER 1981–REVISED NOVEMBER 2007T J =25°CLM237,LM337PARAMETERTEST CONDITIONS (1)UNIT MINTYP MAX Input regulation (2)V I –V O =–3V to –40V 0.010.04%/V V O =–10V,f =120Hz60Ripple rejection dB V O =–10V,f =120Hz,C ADJ =10µF 6677|V O |≤5V 50mV Output regulation I O =10mA to 1.5A |V O |≥5V0.31%Output noise voltagef =10Hz to 10kHz 0.003%|V I –V O |≤40V 2.510Minimum output current to maintain mA regulation|V I –V O |≤10V 1.56|V I –V O |≤15V 1.5 2.2Peak output current A |V I –V O |≤40V0.150.4ADJUSTMENT current65100µA Change in ADJUSTMENT current V I –V O =–2.5V to –40V,I O =10mA to MAX 25µA Reference voltageV I –V O =–3V to –40V,I O =10mA to 1.5A,–1.213–1.25–1.287V(OUTPUT to ADJUSTMENT)P ≤rated dissipation(1)Unless otherwise noted,the following test conditions apply:|V I –V O |=5V and I O =0.5A.All characteristics are measured with a 0.1-µF capacitor across the input and a 1-µF capacitor across the output.Pulse-testing techniques are used to maintain the junction temperature as close to the ambient temperature as possible.Thermal effects must be taken into account separately.(2)Input regulation is expressed here as the percentage change in output voltage per 1-V change at the input.APPLICATION INFORMATIONLM237or V OVIC1 is a 1-µF solid tantalum capacitor required only if the regulator is more than 10 cm (4 in) from the power-supply filter capacitor.C2 is a 1-µF solid tantalum or 10-µF aluminum electrolytic capacitor required for stability.R2+R1ǒ–VO –1..25*1ǓR1 typically is 120 Ω., where V O is the output in volts.V IV OLM237orR S =1.25 V I LIMITLM237,LM3373-TERMINAL ADJUSTABLE REGULATORSSLVS047K–NOVEMBER 1981–REVISED NOVEMBER 2007Figure 1.Adjustable Negative-Voltage RegulatorFigure 2.Current-Limiting CircuitPACKAGING INFORMATIONOrderable Device Status (1)Package Type PackageDrawing Pins Package Qty Eco Plan (2)Lead/Ball FinishMSL Peak Temp (3)Samples(Requires Login)LM237KC OBSOLETE TO-220KC3TBD Call TI Call TI Samples Not Available LM237KCE3OBSOLETE TO-220KC3TBD Call TI Call TI Samples Not Available LM237KCSE3ACTIVE TO-220KCS350Pb-Free (RoHS)CU SN N / A for Pkg Type Request Free Samples LM237KTER OBSOLETE PFM KTE3TBD Call TI Call TI Samples Not Available LM337KC OBSOLETE TO-220KC3TBD Call TI Call TI Samples Not Available LM337KCE3OBSOLETE TO-220KC3TBD Call TI Call TI Samples Not Available LM337KCSE3ACTIVE TO-220KCS350Pb-Free (RoHS)CU SN N / A for Pkg Type Request Free Samples LM337KTER OBSOLETE PFM KTE3TBD Call TI Call TI Samples Not Available LM337KTPR OBSOLETE PFM KTP2TBD Call TI Call TI Samples Not Available LM337KTPRG3OBSOLETE PFM KTP2TBD Call TI Call TI Samples Not AvailableLM337KTTR ACTIVE DDPAK/TO-263KTT3500Green (RoHS& no Sb/Br)CU SN Level-3-245C-168 HR Request Free SamplesLM337KTTRG3ACTIVE DDPAK/TO-263KTT3500Green (RoHS& no Sb/Br)CU SN Level-3-245C-168 HR Request Free SamplesLM337KVURG3ACTIVE PFM KVU32500Green (RoHS& no Sb/Br)CU SN Level-3-260C-168 HR Request Free Samples LM337Y OBSOLETE DIESALE Y0TBD Call TI Call TI Samples Not Available (1) The marketing status values are defined as follows:ACTIVE: Product device recommended for new designs.LIFEBUY: TI has announced that the device will be discontinued, and a lifetime-buy period is in effect.NRND: Not recommended for new designs. Device is in production to support existing customers, but TI does not recommend using this part in a new design.PREVIEW: Device has been announced but is not in production. Samples may or may not be available.OBSOLETE: TI has discontinued the production of the device.(2) Eco Plan - The planned eco-friendly classification: Pb-Free (RoHS), Pb-Free (RoHS Exempt), or Green (RoHS & no Sb/Br) - please check /productcontent for the latest availability information and additional product content details.TBD: The Pb-Free/Green conversion plan has not been defined.Pb-Free (RoHS): TI's terms "Lead-Free" or "Pb-Free" mean semiconductor products that are compatible with the current RoHS requirements for all 6 substances, including the requirement that lead not exceed 0.1% by weight in homogeneous materials. Where designed to be soldered at high temperatures, TI Pb-Free products are suitable for use in specified lead-free processes.Pb-Free (RoHS Exempt): This component has a RoHS exemption for either 1) lead-based flip-chip solder bumps used between the die and package, or 2) lead-based die adhesive used between the die and leadframe. The component is otherwise considered Pb-Free (RoHS compatible) as defined above.Green (RoHS & no Sb/Br): TI defines "Green" to mean Pb-Free (RoHS compatible), and free of Bromine (Br) and Antimony (Sb) based flame retardants (Br or Sb do not exceed 0.1% by weight in homogeneous material)Addendum-Page 1(3) MSL, Peak Temp. -- The Moisture Sensitivity Level rating according to the JEDEC industry standard classifications, and peak solder temperature.Important Information and Disclaimer:The information provided on this page represents TI's knowledge and belief as of the date that it is provided. TI bases its knowledge and belief on information provided by third parties, and makes no representation or warranty as to the accuracy of such information. Efforts are underway to better integrate information from third parties. TI has taken and continues to take reasonable steps to provide representative and accurate information but may not have conducted destructive testing or chemical analysis on incoming materials and chemicals. TI and TI suppliers consider certain information to be proprietary, and thus CAS numbers and other limited information may not be available for release.In no event shall TI's liability arising out of such information exceed the total purchase price of the TI part(s) at issue in this document sold by TI to Customer on an annual basis.Addendum-Page 2TAPE AND REEL INFORMATION*All dimensions are nominalDevicePackage Type Package Drawing Pins SPQReel Diameter (mm)Reel Width W1(mm)A0(mm)B0(mm)K0(mm)P1(mm)W (mm)Pin1Quadrant LM337KTTR DDPAK/TO-263KTT 3500330.024.410.615.8 4.916.024.0Q2LM337KVURG3PFMKVU32500330.016.46.910.52.78.016.0Q2*All dimensions are nominalDevice Package Type Package Drawing Pins SPQ Length(mm)Width(mm)Height(mm) LM337KTTR DDPAK/TO-263KTT3500340.0340.038.0 LM337KVURG3PFM KVU32500340.0340.038.0MECHANICAL DATAMPFM001E – OCTOBER 1994 – REVISED JANUARY 2001KTE (R-PSFM-G3)PowerFLEX ™ PLASTIC FLANGE-MOUNT0.360 (9,14)0.350 (8,89)0.080 (2,03)0.070 (1,78)0.010 (0,25) NOM0.040 (1,02) Seating Plane0.050 (1,27)0.001 (0,03)0.005 (0,13)0.010 (0,25)NOMGage Plane0.010 (0,25)0.031 (0,79)0.041 (1,04)4073375/F 12/00NOM310.350 (8,89)0.220 (5,59)0.360 (9,14)0.295 (7,49)NOM0.320 (8,13)0.310 (7,87)0.025 (0,63)0.031 (0,79)Thermal Tab (See Note C)0.004 (0,10)M0.010 (0,25)0.100 (2,54)3°–6°0.410 (10,41)0.420 (10,67)0.200 (5,08)0.365 (9,27)0.375 (9,52)NOTES: A.All linear dimensions are in inches (millimeters).B.This drawing is subject to change without notice.C.The center lead is in electrical contact with the thermal tab.D.Dimensions do not include mold protrusions, not to exceed 0.006 (0,15).E.Falls within JEDEC MO-169PowerFLEX is a trademark of Texas Instruments.MECHANICAL DATAMPSF001F – JANUARY 1996 – REVISED JANUARY 20021POST OFFICE BOX 655303 • DALLAS, TEXAS 75265KTP (R-PSFM-G2) PowerFLEX PLASTIC FLANGE-MOUNT PACKAGE0.228 (5,79)0.218 (5,54)0.233 (5,91)0.243 (6,17)0.001 (0,02)0.005 (0,13)0.070 (1,78)Seating Plane0.080 (2,03)0.010 (0,25) NOMGage Plane 0.010 (0,25)4073388/M 01/020.037 (0,94)0.047 (1,19)0.247 (6,27)0.237 (6,02)NOM0.215 (5,46)0.371 (9,42)0.381 (9,68)0.090 (2,29)0.100 (2,54)0.287 (7,29)0.031 (0,79)0.032 (0,81) MAX0.277 (7,03)0.025 (0,63)0.130 (3,30) NOM 0.090 (2,29)0.180 (4,57)M 0.010 (0,25)0.004 (0,10)2°–ā6°0.040 (1,02)0.050 (1,27)Thermal Tab (See Note C)0.010 (0,25) NOMNOTES: A.All linear dimensions are in inches (millimeters).B.This drawing is subject to change without notice.C.The center lead is in electrical contact with the thermal tab.D.Dimensions do not include mold protrusions, not to exceed 0.006 (0,15).E.Falls within JEDEC TO-252 variation AC.PowerFLEX is a trademark of Texas Instruments.IMPORTANT NOTICETexas Instruments Incorporated and its subsidiaries(TI)reserve the right to make corrections,enhancements,improvements and other changes to its semiconductor products and services per JESD46,latest issue,and to discontinue any product or service per JESD48,latest issue.Buyers should obtain the latest relevant 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HMT331 Humidity and Temperature TransmitterFor wall mounting1234567891011121314151617181920212223 Vaisala HUMICAP® Humidity and Temperature Transmitter HMT3301A0A PRICE 1Transmitter type HMT33112Wall probe A3No additional temperature probe04Parameters RH+T ARH+T+Td+Tdf+a+x+Tw+ppm+pw+pws+h+dT B5Display No display0Graphic LCD with backlight16Power supply10...35 VDC , 24 VAC0Galvanic isolation for outputs 10...35 VDC, 24 VAC1Universal AC-power (100...240 VAC)2Universal AC-power (100...240 VAC) + US power cord3Universal AC-power (100...240 VAC) + EUR power cord4Universal AC-power (100...240 VAC) + UK power cord5Universal AC-power (100...240 VAC) + AUS power cord67Signal output Analog output channel (Ch1&Ch2&Ch3) 4... 20 mA1Analog output channel (Ch1&Ch2&Ch3)0... 20 mA2Analog output channel (Ch1&Ch2&Ch3)0... 1 V3Analog output channel (Ch1&Ch2&Ch3)0... 5 V4Analog output channel (Ch1&Ch2&Ch3)0... 10 V5+ Serial interface RS232 or optional communication module8Analog output signals No 3rd analog output A9for Ch1 , Ch2 and Ch3RH (0...100%RH)B B B10T (range: see below)C C CTd (-20...100°C)(-4...+212 °F)D D DTdf (-20...100°C)(-4...+212 °F)E E Ea (0...600g/m3)(0...262 gr/ft3)F F FTw (0...100°C)(+32...+212°F)G G Gx (0...500g/kg d.a)(0...3500gr/lb)H H Hh (-40...1500 kJ/kg)(-9.5...+652.6 Btu/lb)J J Jppm (0…5000)(0…5000)K K Kpw (0…1000 hPa)(0…14.5psi)L L Lpws (0…1000 hPa)(0…14.5psi)M M MdT (-10...+50 °C)(14...+122 °F)N N NSPECIAL Define quantity Ch1:_______________ Ch2:________________ Optional Ch3:______________X X XDefine scale Ch1:_______________ Ch2:________________ Optional Ch3:______________Channel 1Channel 2Channel 3, choose A if not needed11Analog output range No temperature output Afor temperature-40...+60°C(-40...+140°F)BNote:-20...+60°C(-4...+140°F)F- Choose option A, if no0...+60°C(+32...+140°F)KT output is desired Special:_______________________X12Output units Metric1Non-metric213Option for module slot 1No module0Relay output 1RS-485 serial interface (galvanically isolated)2Data logger module614Option for module slot 2No module0Relay output13rd Analog output Choose also analog output signal for Ch33Data logger module Not possible if the data logger module has already been chosen in item 13615Cable bushings Cable gland M20*1.5A Note! The Universal Conduit fitting NPT1/2"BAC power not connected8-pole connector with 5 m cable Cthrough 8-pole connector!8-pole counter connector equipped with screw terminals D16Transmitter installation Normal mounting0Wall mounting plate1Pole installation kit2Pole installation kit with rain shield3DIN rail kit417Humidity sensor type General purpose HUMICAP1801Special sensor for high chemical concentrations HUMICAP180L22Chemical purge HUMICAP180C4General purpose and high chemical concentrations HUMICAP180R AChemical purge HUMICAP180RC C18Sensor protection PPS plastic grid & stainless steel netting APPS plastic grid BSintered stainless steel filter C19No probe installation kit A20Operating manual No manual A language English BGerman CFrench DFinnish EJapanese JRussian K21PC Accessories No AService cable for PC, RS232BMI70LINK software for Windows® with RS232 service cable CService cable for PC, USB DMI70LINK software for Windows® with USB service cable E22Calibration /ISO9001 compliant factory calibration / No calibration contract A Calibration contract ISO 9001 compliant calibration 3 years B ISO 9001 compliant calibration 5 years CISO 17025 Accredited calibration, 7 points (RH) (replaces standard factory calibration)DISO 17025 Accredited calibration, 7 points (RH) 3 years (calibration contract)EISO 17025 Accredited calibration, 7 points (RH) 5 years (calibration contract) FISO 17025 Accredited calibration, 7 points (RH+T) 0...60°C (replaces standard factory calibration)KISO 17025 Accredited calibration, 7 points (RH+T) 0...60°C 3 years (calibration contract)LISO 17025 Accredited calibration, 7 points (RH+T) 0...60°C 5 years (calibration contract)M23Additional maintenance No maintenance and repair contract1 Maintenance and repair contract 3 years2Maintenance and repair contract 5 years3 * Additional maintenance contract can be chosen only if calibration contract is also chosen for the same time periodTOTALQTYTOTAL VALUE Selections in bold are included in the prices of the basic versions.Selections in italic are available at an extra price.Example of order code with typical settings:For general use1234567891011121314151617181920212223 Vaisala HUMICAP® Humidity and Temperature Transmitter HMT33030PRICE 1Transmitter type HMT33332Cable length 2 m cable, +80°C E5 m cable, +80°C F10 m cable, +80°C G2 m cable, +120°C45 m cable, +120°C510 m cable, +120°C 63No additional temperature probe04Parameters RH+T ARH+T+Td+Tdf+a+x+Tw+ppm+pw+pws+h+dT B5Display No display0Graphic LCD with backlight16Power supply10...35 VDC , 24 VAC0Galvanic isolation for outputs 10...35 VDC , 24 VAC1Universal AC-power (100...240 VAC)2Universal AC-power (100...240 VAC) + US power cord3Universal AC-power (100...240 VAC) + EUR power cord4Universal AC-power (100...240 VAC) + UK power cord5Universal AC-power (100...240 VAC) + AUS power cord67Signal output Analog output channel (Ch1&Ch2&Ch3) 4... 20 mA1Analog output channel (Ch1&Ch2&Ch3)0... 20 mA2Analog output channel (Ch1&Ch2&Ch3)0... 1 V3Analog output channel (Ch1&Ch2&Ch3)0... 5 V4Analog output channel (Ch1&Ch2&Ch3)0... 10 V5+ Serial interface RS232 or optional communication module8Analog output signals No 3rd analog output A9for Ch1 , Ch2 and Ch3RH (0... 100%RH)B B B10T(range: see below)C C CTd (-20...100°C)(-4...+212 °F)D D DTdf (-20...100°C)(-4...+212 °F)E E Ea (0...600g/m3)(0...262 gr/ft3)F F FTw (0...100°C)(+32...+212°F)G G Gx (0...500g/kg d.a)(0...3500gr/lb)H H Hh (-40...1500 kJ/kg)(-9.5...+652.6 Btu/lb)J J Jppm (0…5000)(0…5000)K K Kpw (0…1000 hPa)(0…14.5psi)L L Lpws (0…1000 hPa)(0…14.5psi)M M MdT (-10...+50 °C)(14...+122 °F)N N NSPECIAL Define quantity Ch1:_______________ Ch2:________________ Optional Ch3:______________X X XDefine scale Ch1:_______________ Ch2:________________ Optional Ch3:______________Channel 1Channel 2Channel 3, choose A if not needed11Analog output range No temperature output Afor temperature-40...+60°C(-40...+140°F)B- Choose option A, if no-40...+80°C(-40...+176°F)CT output is desired-40...+120°C(-40...+248°F)D-20...+60°C(-4...+140°F)F-20...+80°C(-4...+176°F)G-20...+120°C(-4...+248°F)H0...+60°C(+32...+140°F)K0...+120°C(+32...248°F)Mspecial:_______________________X12Output units Metric1Non-metric213Option for module slot 1No module0Relay output 1RS-485 serial interface (galvanically isolated)2Data logger module614Option for module slot 2No module0Relay output13rd Analog output Choose also analog output signal for Ch33Data logger module Not possible if the data logger module has already been chosen in item 13615Cable bushings Cable gland M20*1.5A Note! The Universal Conduit fitting NPT1/2"BAC power not connected8-pole connector with 5m cable Cthrough 8-pole connector!8-pole counter connector equipped with screw terminals D16Transmitter installation Normal mounting0Wall mounting plate1Pole installation kit2Pole installation kit with rain shield3DIN rail kit417Humidity sensor type General purpose HUMICAP1801Special sensor for high chemical concentrations HUMICAP180L22Chemical purge HUMICAP180C4General purpose and high chemical concentrations HUMICAP180R AChemical purge HUMICAP180RC C18Sensor protection PPS plastic grid & stainless steel netting APPS plastic grid BSintered stainless steel filter C19Installation kit No kit A for probe Duct installation kit CCable gland AGRO D20Operating manual No manual A language English BGerman CFrench DFinnish EJapanese JRussian K21PC Accessories No A Service cable for PC, RS232BMI70LINK software for Windows® with RS232 service cable CService cable for PC, USB DMI70LINK software for Windows® with USB service cable E22Calibration /ISO9001 compliant factory calibration / No calibration contract A Calibration contract ISO 9001 compliant calibration 3 years B ISO 9001 compliant calibration 5 years CISO 17025 Accredited calibration, 7 points (RH) (replaces standard factory calibration)DISO 17025 Accredited calibration, 7 points (RH) 3 years (calibration contract)EISO 17025 Accredited calibration, 7 points (RH) 5 years (calibration contract)FISO 17025 Accredited calibration, 7 points (RH+T) (replaces standard factory calibration)GISO 17025 Accredited calibration, 7 points (RH+T) 3 years (calibration contract) HISO 17025 Accredited calibration, 7 points (RH+T) 5 years (calibration contract)J23Additional Maintenance No maintenance and repair contract1 Maintenance and repair contract 3 years2Maintenance and repair contract 5 years3 * Additional maintenance contract can be chosen only if calibration contract is also chosen for the same time periodTOTALQTYTOTAL VALUE Selections in bold are included in the prices of the basic versions.Selections in italic are available at an extra price.For pressurized processes1234567891011121314151617181920212223 Vaisala HUMICAP® Humidity and Temperature Transmitter HMT33040PRICE 1Transmitter type HMT33442Cable lenght 2 m cable H5 m cable J10 m cable K3No additional temperature probe04Parameters RH+T ARH+T+Td+Tdf+a+x+Tw+ppm+pw+pws+h+dT B5Display No display0Graphic LCD with backlight16Power supply10...35 VDC , 24 VAC0Galvanic isolation for outputs 10...35 VDC , 24 VAC1Universal AC-power (100...240 VAC)2Universal AC-power (100...240 VAC) + US power cord3Universal AC-power (100...240 VAC) + EUR power cord4Universal AC-power (100...240 VAC) + UK power cord5Universal AC-power (100...240 VAC) + AUS power cord67Signal output Analog output channel (Ch1&Ch2&Ch3) 4... 20 mA1Analog output channel (Ch1&Ch2&Ch3)0... 20 mA2Analog output channel (Ch1&Ch2&Ch3)0... 1 V3Analog output channel (Ch1&Ch2&Ch3)0... 5 V4Analog output channel (Ch1&Ch2&Ch3)0... 10 V5+ Serial interface RS232 or optional communication module8Analog output signals No 3rd analog output A9for Ch1 , Ch2 and Ch3RH (0... 100%RH)B B B10T(range: see below)C C CTd (-20...100°C)(-4...+212 °F)D D DTdf (-20...100°C)(-4...+212 °F)E E Ea (0...600g/m3)(0...262 gr/ft3)F F FTw (0...100°C)(+32...+212°F)G G Gx (0...500g/kg d.a)(0...3500gr/lb)H H Hh (-40...1500 kJ/kg)(-9.5...+652.6 Btu/lb)J J Jppm (0…5000)(0…5000)K K Kpw (0…1000 hPa)(0…14.5psi)L L Lpws (0…1000 hPa)(0…14.5psi)M M MdT (-10...+50 °C)(14...+122 °F)N N NSPECIAL Define quantity Ch1:_______________ Ch2:________________ Optional Ch3:______________X X XDefine scale Ch1:_______________ Ch2:________________ Optional Ch3:______________Channel 1Channel 2Channel 3, choose A, if not needed11Analog output range No temperature output Afor temperature-40...+60°C(-40...+140°F)B-40...+80°C(-40...+176°F)CNote:-40...+120°C(-40...+248°F)D- Choose option A, if no-40...+180°C(-40...+356°F)ET output is desired-20...+60°C(-4...+140°F)F-20...+80°C(-4...+176°F)G-20...+120°C(-4...+248°F)H-20...+180°C(-4...+356°F)J0...+60°C(+32...+140°F)K0...+100°C(+32...+ 212°F)L0...+120°C(+32...248°F)M0...+180°C(+32...356°F)N-60...60 °C(-76...+140°F)PSpecial:_______________________X12Output units Metric1Non-metric213Option for module slot 1No module0Relay output 1RS-485 serial interface (galvanically isolated)2Data logger module614Option for module slot 2No module0Relay output13rd Analog output Choose also analog output signal for Ch33Data logger module Not possible if the data logger module has already been chosen in item 13615Cable bushings Cable gland M20*1.5A Note! The Universal Conduit fitting NPT1/2"BAC power not connected8-pole connector with 5m cable Cthrough 8-pole connector!8-pole counter connector equipped with screw terminals D16Transmitter installation Normal mounting0Wall mounting plate1Pole installation kit2Pole installation kit with rain shield3DIN rail kit417Humidity sensor type General purpose HUMICAP1801Special sensor for high chemical concentrations HUMICAP180L22Chemical purge HUMICAP180C4General purpose and high chemical concentrations HUMICAP180R AChemical purge HUMICAP180RC C18Sensor protection PPS plastic grid & stainless steel netting APPS plastic grid BSintered stainless steel filter CStainless steel grid D19Installation kit Fitting body M22 x 1,5E for probe Fitting body NPT 1/2"F20Operating manual No manual A language English BGerman CFrench DFinnish EJapanese JRussian K21PC Accessories No A Service cable for PC, RS232BMI70LINK software for Windows® with RS232 service cable CService cable for PC, USB DMI70LINK software for Windows® with USB service cable E22Calibration /ISO9001 compliant factory calibration / No calibration contract A Calibration contract ISO 9001 compliant calibration 3 years B ISO 9001 compliant calibration 5 years CISO 17025 Accredited calibration, 7 points (RH) (replaces standard factory calibration)DISO 17025 Accredited calibration, 7 points (RH) 3 years (calibration contract)EISO 17025 Accredited calibration, 7 points (RH) 5 years (calibration contract)FISO 17025 Accredited calibration, 7 points (RH+T) (replaces standard factory calibration)GISO 17025 Accredited calibration, 7 points (RH+T) 3 years (calibration contract)HISO 17025 Accredited calibration, 7 points (RH+T) 5 years (calibration contract)J23Additional Maintenance No maintenance and repair contract1 Maintenance and repair contract 3 years2Maintenance and repair contract 5 years3 * Additional maintenance contract can be chosen only if calibration contract is also chosen for the same time periodTOTALQTYTOTAL VALUE Selections in bold are included in the prices of the basic versions.Selections in italic are available at an extra price.For high temperatures1234567891011121314151617181920212223 Vaisala HUMICAP® Humidity and Temperature Transmitter HMT33050PRICE 1Transmitter type HMT33552Cable lenght 2 m cable L5 m cable M10 m cable N3No additional temperature probe04Parameters RH+T ARH+T+Td+Tdf+a+x+Tw+ppm+pw+pws+h+dT B5Display No display0Graphic LCD with backlight16Power supply10...35 VDC , 24 VAC0Galvanic isolation for outputs 10...35 VDC , 24 VAC1Universal AC-power (100...240 VAC)2Universal AC-power (100...240 VAC) + US power cord3Universal AC-power (100...240 VAC) + EUR power cord4Universal AC-power (100...240 VAC) + UK power cord5Universal AC-power (100...240 VAC) + AUS power cord67Signal output Analog output channel (Ch1&Ch2&Ch3) 4... 20 mA1Analog output channel (Ch1&Ch2&Ch3)0... 20 mA2Analog output channel (Ch1&Ch2&Ch3)0... 1 V3Analog output channel (Ch1&Ch2&Ch3)0... 5 V4Analog output channel (Ch1&Ch2&Ch3)0... 10 V5+ Serial interface RS232 or optional communication module8Analog output signals No 3rd analog output A9for Ch1 , Ch2 and Ch3RH (0... 100%RH)B B B10T(range: see below)C C CTd (-20...100°C)(-4...+212 °F)D D DTdf (-20...100°C)(-4...+212 °F)E E Ea (0...600g/m3)(0...262 gr/ft3)F F FTw (0...100°C)(+32...+212°F)G G Gx (0...500g/kg d.a)(0...3500gr/lb)H H Hh (-40...1500 kJ/kg)(-9.5...+652.6 Btu/lb)J J Jppm (0…5000)(0…5000)K K Kpw (0…1000 hPa)(0…14.5psi)L L Lpws (0…1000 hPa)(0…14.5psi)M M MdT (-10...+50 °C)(14...+122 °F)N N NSPECIAL Define quantity Ch1:_______________ Ch2:________________ Optional Ch3:______________X X XDefine scale Ch1:_______________ Ch2:________________ Optional Ch3:______________Channel 1Channel 2Channel 3, choose A, if not needed11Analog output range No temperature output Afor temperature-40...+60°C(-40...+140°F)B-40...+80°C(-40...+176°F)CNote:-40...+120°C(-40...+248°F)D- Choose option A, if no-40...+180°C(-40...+356°F)ET output is desired-20...+60°C(-4...+140°F)F-20...+80°C(-4...+176°F)G-20...+120°C(-4...+248°F)H-20...+180°C(-4...+356°F)J0...+60°C(+32...+140°F)K0...+100°C(+32...+ 212°F)L0...+120°C(+32...248°F)M0...+180°C(+32...356°F)N-60...60 °C(-76...+140°F)PSpecial:_______________________X12Output units Metric1Non-metric213Option for module slot 1No module0Relay output 1RS-485 serial interface (galvanically isolated)2Data logger module614Option for module slot 2No module0Relay output13rd Analog output Choose also analog output signal for Ch33Data logger module Not possible if the data logger module has already been chosen in item 13615Cable bushings Cable gland M20*1.5A Note! The Universal Conduit fitting NPT1/2"BAC power not connected8-pole connector with 5m cable Cthrough 8-pole connector!8-pole counter connector equipped with screw terminals D16Transmitter installation Normal mounting0Wall mounting plate1Pole installation kit2Pole installation kit with rain shield3DIN rail kit417Humidity sensor type General purpose HUMICAP1801Special sensor for high chemical concentrations HUMICAP180L22Chemical purge HUMICAP180C4General purpose and high chemical concentrations HUMICAP180R AChemical purge HUMICAP180RC C18Sensor protection in probe PPS plastic grid & stainless steel netting APPS plastic grid BSintered stainless steel filter CStainless steel grid D19Installation kit No kit A for probe Mounting flange G20Operating manual No manual A language English BGerman CFrench DFinnish EJapanese JRussian K21PC Accessories No A Service cable for PC, RS232BMI70LINK software for Windows® with RS232 service cable CService cable for PC, USB DMI70LINK software for Windows® with USB service cable E22Calibration /ISO9001 compliant factory calibration / No calibration contract A Calibration contract ISO 9001 compliant calibration 3 years B ISO 9001 compliant calibration 5 years CISO 17025 Accredited calibration, 7 points (RH) (replaces standard factory calibration)DISO 17025 Accredited calibration, 7 points (RH) 3 years (calibration contract)EISO 17025 Accredited calibration, 7 points (RH) 5 years (calibration contract)FISO 17025 Accredited calibration, 7 points (RH+T) (replaces standard factory calibration)GISO 17025 Accredited calibration, 7 points (RH+T) 3 years (calibration contract)HISO 17025 Accredited calibration, 7 points (RH+T) 5 years (calibration contract)J23Additional Maintenance No maintenance and repair contract1 Maintenance and repair contract 3 years2Maintenance and repair contract 5 years3 * Additional maintenance contract can be chosen only if calibration contract is also chosen for the same time periodTOTALQTYTOTAL VALUE Selections in bold are included in the prices of the basic versions.Selections in italic are available at an extra price.For high humidities1234567891011121314151617181920212223 Vaisala HUMICAP® Humidity and Temperature Transmitter HMT33070PRICE 1Transmitter type HMT33772Cable lenght 2 m cable S5 m cable T10 m cable U3Additional temperature No probe0probe4Parameters RH+T ARH+T+Td+Tdf+a+x+Tw+ppm+pw+pws+h+dT B5Display No display0Graphic LCD with backlight16Power supply10...35 VDC , 24 VAC0Galvanic isolation for outputs 10...35 VDC , 24 VAC1Universal AC-power (100...240 VAC)2Universal AC-power (100...240 VAC) + US power cord3Universal AC-power (100...240 VAC) + EUR power cord4Universal AC-power (100...240 VAC) + UK power cord5Universal AC-power (100...240 VAC) + AUS power cord67Signal output Analog output channel (Ch1&Ch2&Ch3) 4... 20 mA1Analog output channel (Ch1&Ch2&Ch3)0... 20 mA2Analog output channel (Ch1&Ch2&Ch3)0... 1 V3Analog output channel (Ch1&Ch2&Ch3)0... 5 V4Analog output channel (Ch1&Ch2&Ch3)0... 10 V5+ Serial interface RS232 or optional communication module8Analog output signals No 3rd analog output A9for Ch1 , Ch2 and Ch3RH (0... 100%RH)B B B10T(range : see below)C C CTd (-20...100°C)(-4...+212 °F)D D DTdf (-20...100°C)(-4...+212 °F)E E Ea (0...600g/m3)(0...262 gr/ft3)F F FTw (0...100°C)(+32...+212°F)G G Gx (0...500g/kg d.a)(0...3500gr/lb)H H Hh (-40...1500 kJ/kg)(-9.5...+652.6 Btu/lb)J J Jppm (0…5000)(0…5000)K K Kpw (0…1000 hPa)(0…14.5psi)L L Lpws (0…1000 hPa)(0…14.5psi)M M MdT (-10...+50 °C)(14...+122 °F)N N NSPECIAL Define quantity Ch1:_______________ Ch2:________________ Optional Ch3:______________X X XDefine scale Ch1:_______________ Ch2:________________ Optional Ch3:______________Channel 1Channel 2Channel 3, choose A, if not needed11Analog output range No temperature output Afor temperature-40...+60°C(-40...+140°F)B-40...+80°C(-40...+176°F)CNote:-40...+120°C(-40...+248°F)D- Choose option A, if no-40...+180°C(-40...+356°F)ET output is desired-20...+60°C(-4...+140°F)F-20...+80°C(-4...+176°F)G-20...+120°C(-4...+248°F)H-20...+180°C(-4...+356°F)J0...+60°C(+32...+140°F)K0...+100°C(+32...+ 212°F)L0...+120°C(+32...248°F)M0...+180°C(+32...356°F)N-60...60 °C(-76...+140°F)PSpecial:_______________________X12Output units Metric1Non-metric213Option for module slot 1No module0Relay output 1RS-485 serial interface (galvanically isolated)2Data logger module614Option for module slot 2No module0Relay output13rd Analog output Choose also analog output signal for Ch33Data logger module Not possible if the data logger module has already been chosen in item 13615Cable bushings Cable gland M20*1.5A Note! The Universal Conduit fitting NPT1/2"BAC power not connected8-pole connector with 5m cable Cthrough 8-pole connector!8-pole counter connector equipped with screw terminals D16Transmitter installation Normal mounting0Wall mounting plate1Pole installation kit2Pole installation kit with rain shield3DIN rail kit417Humidity sensor type General purpose HUMICAP1801Special sensor for high chemical concentrations HUMICAP180L22Chemical purge HUMICAP180C4General purpose and high chemical concentrations HUMICAP180R AChemical purge HUMICAP180RC C18Sensor protection PPS plastic grid & stainless steel netting APPS plastic grid BSintered stainless steel filter CStainless steel grid D19Installation kit No kit A for probe Duct installation kit CCable gland AGRO DSwagelok NPT 1/2"KSwagelok ISO 3/8"LSwagelok ISO 1/2"Y20Operating manual No manual A language English BGerman CFrench DFinnish EJapanese JRussian K21PC Accessories No A Service cable for PC, RS232BMI70LINK software for Windows® with RS232 service cable CService cable for PC, USB DMI70LINK software for Windows® with USB service cable E22Calibration /ISO9001 compliant factory calibration / No calibration contract A Calibration contract ISO 9001 compliant calibration 3 years B ISO 9001 compliant calibration 5 years CISO 17025 Accredited calibration, 7 points (RH) (replaces standard factory calibration)DISO 17025 Accredited calibration, 7 points (RH) 3 years (calibration contract)EISO 17025 Accredited calibration, 7 points (RH) 5 years (calibration contract)FISO 17025 Accredited calibration, 7 points (RH+T) (replaces standard factory calibration)GISO 17025 Accredited calibration, 7 points (RH+T) 3 years (calibration contract)HISO 17025 Accredited calibration, 7 points (RH+T) 5 years (calibration contract)J23Additional Maintenance No maintenance and repair contract1 Maintenance and repair contract 3 years2Maintenance and repair contract 5 years3 * Additional maintenance contract can be chosen only if calibration contract is also chosen for the same time periodTOTALQTYTOTAL VALUE Selections in bold are included in the prices of the basic versions.Selections in italic are available at an extra price.Example of order code with typical settings:HMT337 Humidity and Temperature Transmitter with warmed probeFor high humidities1234567891011121314151617181920212223 Vaisala HUMICAP® Humidity and Temperature Transmitter HMT3307PRICE 1Transmitter type HMT33772Cable lenght 2 m cable S(dew point probe) 5 m cable T10 m cable U3Additional temperature No probe0probe 2 m cable15 m cable210 m cable34Parameters Td+Tdf+x+pw(dew point probe only)CRH+T+Td+Tdf+a+x+Tw+ppm+pw+pws+h+dT(with additional T probe)D5Display No display0Graphic LCD with backlight16Power supply10...35 VDC , 24 VAC0Galvanic isolation for outputs 10...35 VDC , 24 VAC1Universal AC-power (100...240 VAC)2Universal AC-power (100...240 VAC) + US power cord3Universal AC-power (100...240 VAC) + EUR power cord4Universal AC-power (100...240 VAC) + UK power cord5Universal AC-power (100...240 VAC) + AUS power cord67Signal output Analog output channel (Ch1&Ch2&Ch3) 4... 20 mA1Analog output channel (Ch1&Ch2&Ch3)0... 20 mA2Analog output channel (Ch1&Ch2&Ch3)0... 1 V3Analog output channel (Ch1&Ch2&Ch3)0... 5 V4Analog output channel (Ch1&Ch2&Ch3)0... 10 V5+ Serial interface RS232 or optional communication module8Analog output signals No 3rd analog output A9for Ch1 , Ch2 and Ch3RH (0... 100%RH)B B B10T(range: see below)C C C(ref. to parameters Td (-20...100°C)(-4...+212 °F)D D Dselection above)Tdf (-20...100°C)(-4...+212 °F)E E Ea (0...600g/m3)(0...262 gr/ft3)F F FTw (0...100°C)(+32...+212°F)G G Gx (0...500g/kg d.a)(0...3500gr/lb)H H Hh (-40...1500 kJ/kg)(-9.5...+652.6 Btu/lb)J J Jppm (0…5000)(0…5000)K K Kpw (0…1000 hPa)(0…14.5psi)L L Lpws (0…1000 hPa)(0…14.5psi)M M MdT (-10...+50 °C)(14...+122 °F)N N NSPECIAL Define quantity Ch1:_______________ Ch2:________________ Optional Ch3:______________X X XDefine scale Ch1:_______________ Ch2:________________ Optional Ch3:______________Channel 1Channel 2Channel 3, choose A, if not needed11Analog output range No temperature output Afor temperature-40...+60°C(-40...+140°F)B-40...+80°C(-40...+176°F)CNOTE:-40...+120°C(-40...+248°F)D- Choose option A, if no-40...+180°C(-40...+356°F)ET output is desired-20...+60°C(-4...+140°F)F-20...+80°C(-4...+176°F)G-20...+120°C(-4...+248°F)H-20...+180°C(-4...+356°F)J0...+60°C(+32...+140°F)K0...+100°C(+32...+ 212°F)L0...+120°C(+32...248°F)M0...+180°C(+32...356°F)N-60...60 °C(-76...+140°F)PSpecial:_______________________X12Output units Metric1Non-metric213Option for module slot 1No module0Relay output 1RS-485 serial interface (galvanically isolated)2Data logger module614Option for module slot 2No module0Relay output13rd Analog output Choose also analog output signal for Ch33Data logger module Not possible if the data logger module has already been chosen in item 13615Cable bushings Cable gland M20*1.5A Note! The Universal Conduit fitting NPT1/2"BAC power not connected8-pole connector with 5m cable Cthrough 8-pole connector!8-pole counter connector equipped with screw terminals D16Transmitter installation Normal mounting0Wall mounting plate1Pole installation kit2Pole installation kit with rain shield3DIN rail kit417Humidity sensor type Composite sensor HUMICAP180C5Composite sensor with chemical purge HUMICAP180C6Composite sensor HUMICAP180RC DComposite sensor with chemical purge HUMICAP180RC EComposite sensor for fuel cell applications HUMICAP180RC F18Sensor protection PPS plastic grid & stainless steel netting ASintered stainless steel filter CStainless steel grid DMembrane SST filter for fuel cell applications F19Installation kit No kit A for probe Duct installation kit CSwagelok NPT 1/2"KSwagelok ISO 3/8"LDuct installation kit (RH + T probes)PSwagelok NPT 1/2" + Swagelok NPT 1/8" (RH+T)QSwagelok ISO 3/8" + Swagelok ISO 1/8" (RH+T)RSwagelok ISO 1/2"Y20Operating manual No manual A language English BGerman CFrench DFinnish EJapanese JRussian K21PC Accessories No A Service cable for PC, RS232BMI70LINK software for Windows® with RS232 service cable CService cable for PC, USB DMI70LINK software for Windows® with USB service cable E22Calibration /ISO9001 compliant factory calibration / No calibration contract A Calibration contract ISO 9001 compliant calibration 3 years B ISO 9001 compliant calibration 5 years CISO 17025 Accredited calibration, 7 points (RH) (replaces standard factory calibration)DISO 17025 Accredited calibration, 7 points (RH) 3 years (calibration contract)EISO 17025 Accredited calibration, 7 points (RH) 5 years (calibration contract)FISO 17025 Accredited calibration, 7 points (RH+T) (replaces standard factory calibration)GISO 17025 Accredited calibration, 7 points (RH+T) 3 years (calibration contract)HISO 17025 Accredited calibration, 7 points (RH+T) 5 years (calibration contract)J23Additional Maintenance No maintenance and repair contract1 Maintenance and repair contract 3 years2Maintenance and repair contract 5 years3 * Additional maintenance contract can be chosen only if calibration contract is also chosen for the same time periodTOTALQTYTOTAL VALUE Selections in bold are included in the prices of the basic versions.Selections in italic are available at an extra price.。

第1部分化学品及企业标识化学品中文名：4-硝基苯甲醚化学品英文名：4-nitroanisoleCAS号：100-17-4分子式：C7H7NO3分子量：153.14产品推荐及限制用途：工业及科研用途。

第2部分危险性概述紧急情况概述：怀疑会导致遗传性缺陷。

对水生生物有害并具有长期持续影响。

GHS危险性类别：无危害分类标签要素：象形图：警示词：警告危险性说明：H341怀疑会导致遗传性缺陷H412对水生生物有害并具有长期持续影响防范说明：•预防措施：——P264作业后彻底清洗。

——P270使用本产品时不要进食、饮水或吸烟。

•事故响应：——P301+P312如误吞咽：如感觉不适，呼叫解毒中心/医生——P330漱口。

•安全储存：——P405存放处须加锁。

•废弃处置：——P501按当地法规处置内装物/容器。

物理和化学危险：无资料健康危害：怀疑会导致遗传性缺陷。

环境危害：对水生生物有害并具有长期持续影响。

第3部分成分/组成信息第4部分急救措施急救：吸入：迅速脱离现场至空气新鲜处。

保持呼吸道通畅。

如呼吸困难，给输氧。

呼吸、心跳停止，立即进行心肺复苏术。

就医。

皮肤接触：脱去污染的衣着，用肥皂水和清水彻底冲洗皮肤。

如有不适感，就医。

眼睛接触：分开眼睑，用流动清水或生理盐水冲洗。

如有不适感，就医。

食入：饮足量温水，催吐。

给饮牛奶或蛋清。

就医。

对保护施救者的忠告：将患者转移到安全的场所。

咨询医生。

出示此化学品安全技术说明书给到现场的医生看。

对医生的特别提示：无资料第5部分消防措施灭火剂：用水雾、干粉、泡沫或二氧化碳灭火剂灭火。

避免使用直流水灭火，直流水可能导致可燃性液体的飞溅，使火势扩散。

特别危险性：可燃。

其粉体与空气混合能形成爆炸性混合物。

受高热分解放出有毒气体灭火注意事项及防护措施：消防人员须穿全身防火、防毒服，佩戴空气呼吸器，在上风向灭火。

尽可能将容器从火场移至空旷处。

喷水保持火场容器冷却，直至灭火结束灭火剂：雾状水、泡沫、干粉、二氧化碳、砂土第6部分泄露应急处理作业人员防护措施、防护装备和应急处置程序：隔离泄漏污染区，限制出入。

MCH陶瓷发热片产品特性介绍（完整版）doc资料MCH陶瓷发热组件MCH陶瓷发热组件是一种高效环保节能陶瓷发热组件，主要是替代现在使用最广泛的合金丝电热元件和PTC 电热元件及组件。

合金丝电热元件存在高温容易氧化、寿命短、有明火不安全、热效率低、加热不均匀等缺点；而PTC 电热元件的加热温度一般只有200℃左右，加热温度高于120℃的则普遍采用四氧化三铅，由于含铅量大而正属被淘汰的产品。

MCH高效环保节能陶瓷发热组件采用将发热电阻浆料按照发热电路设计的要求印刷于流延陶瓷生坯上，然后多层叠合共烧成一体，从而具有耐腐蚀、耐高温、寿命长、高效节能、温度均匀、导热性能良好、热补偿速度快等优点，而且不含铅、镉、汞、六价铬、多溴联苯、多溴二苯醚等有害物质，符合欧盟RoHS等环保要求，是替代上述两种电热元件的理想产品。

高效环保节能陶瓷发热片相比较PTC，在相同加热效果情况下节约20～30%电能。

产品特性：✧节能，热效率高，单位热耗电量比PTC节省20～30%；✧表面安全不带电，绝缘性能好：能经受4500V/1S的耐压测试，无击穿，漏电流<0.5mA;✧无冲击电流；✧无功率衰减；✧升温快速：10S温度达到170℃以上；✧安全,无明火；✧热均匀一致性好，功率密度高：≥10 W/cm2；✧环保：不含铅、镉、汞、六价铬、多溴联苯、多溴二苯醚等有害物质，完全符合欧盟环保要求；✧使用寿命长。

应用领域✧暖风机✧冷暖空调✧即热式热水器、即热式水龙头等快速加热装置✧多功能微波炉、烘箱、烤箱✧干衣机、烘✧空调扇、空气清新机热水壶、咖啡壶等MCH对比PTC节能分析报告--PTC与MCH加热性能及能耗对比测试综合分析报告一、综合结论MCH发热组件相比PTC组件，具有升温速率快、安全绝缘性能良好及无峰值冲击电流、环保不含铅、镉、汞、六价铬、多溴联苯、多溴二苯醚等有害物质，同时在其他相同测试条件下，在加热效果优于PTC发热组件的前提下，MCH发热组件比PTC组件节能20%以上。