AXHV3001H中文资料

节能、环保、节水产品认证企业获证信息公告二〇一〇年第三十七期（总第170期）节能产品认证获证企业信息：计算机制造商：Dell Inc.获证规格型号：PP37L, Vostro 1015, Vostro 1530:19.5VDC 3.34A （电源适配器：LA65NS2-01，LA65NE1-01）证书编号：CQC10701050928生效日期：2010-10-08有效期至：2013-10-08品牌：Dell制造商：Dell Inc.获证规格型号：P03S: 19.5VDC, 3.34A（电源适配器:65NE1-01 输入: 100-240VAC, 50-60Hz, 1.5A, 输出: 19.5VDC, 3.34A; 2.DA65NS3-00 输入:100-240VAC, 50-60Hz, 1.5A or 11-16VDC, 8.0A; 输出: 19.5VDC/3.34A; 3.HA65NE1-00 输入:100-240VAC,50-60Hz,1.5A 输出:19.5VDC,3.34A）证书编号：CQC09701032452生效日期：2010-10-08有效期至：2010-10-14品牌：Dell制造商：宏碁股份有限公司获证规格型号：PEW51 19VDC,4.74A or 3.42A(电源适配器:1.PA-1900-34;2.HP-A0652R3B;3.HP-A0904A3;4.PA-1650-22;5.ADP-65JH DB;6.ADP-65JH BB;7.ADP-90CD DB;8.ADP-65VH B;9.PA-1650-69;10.CPA09-A065N1)证书编号：CQC10701050907生效日期：2010-10-08有效期至：2013-10-08品牌：Acer制造商：苏州海尔信息科技有限公司获证规格型号：HDP-9021: 220VAC 50Hz 3A/4A证书编号：CQC10701050918生效日期：2010-10-09有效期至：2013-10-09品牌：海尔 Haier制造商：苏州海尔信息科技有限公司获证规格型号：HDP-9218： 220VAC 50Hz 3A证书编号：CQC10701050919生效日期：2010-10-09有效期至：2013-10-09品牌：海尔 Haier单路输出式交流-直流和交流-交流外部电源制造商：亚源科技股份有限公司获证规格型号：DA-36P12 输入:100-240VAC,50-60Hz,1.0A输出:12VDC,3A证书编号：CQC10701050838生效日期：2010-10-09有效期至：2013-10-09品牌：/显示器制造商：Dell Inc.获证规格型号：IN2020f, IN2020Mf：100-240V~, 50/60Hz, 1.5A 证书编号：CQC10701050926生效日期：2010-10-08有效期至：2013-10-08品牌：DELL制造商：Dell Inc.获证规格型号：IN1920f ：100-240V~, 50-60Hz, 1.5A证书编号：CQC10701050920生效日期：2010-10-08有效期至：2013-10-08品牌：DELL制造商：Dell Inc.获证规格型号：E190Sf: 100-240VAC 50/60Hz 1.5A证书编号：CQC10701050921生效日期：2010-10-08有效期至：2013-10-08品牌：DELL制造商：Dell Inc.获证规格型号：P170Sf: 100-240VAC 1.5A 50/60Hz证书编号：CQC10701050913生效日期：2010-10-08品牌：DELL制造商：Dell Inc.获证规格型号：P190Sf: 100-240VAC 50/60Hz 1.5A证书编号：CQC10701050912生效日期：2010-10-08有效期至：2013-10-08品牌：DELL制造商：Hewlett-Packard Company获证规格型号：LA2306x输入: 100-240VAC 50/60Hz 1.0A证书编号：CQC10701050909生效日期：2010-10-08有效期至：2013-10-08品牌：HP制造商：Hewlett-Packard Company获证规格型号：LA2006x输入: 100-240VAC 50/60Hz 1.0A证书编号：CQC10701050922生效日期：2010-10-08有效期至：2013-10-08品牌：HP制造商：Hewlett-Packard Company获证规格型号：LA1951gl:AC 100-240V~ 50/60Hz 1.0A(1,0A) 证书编号：CQC10701050924生效日期：2010-10-08有效期至：2013-10-08品牌：HP制造商：Hewlett-Packard Company获证规格型号：LA1951gl:AC 100-240V~ 50/60Hz 1.0A证书编号：CQC10701050923生效日期：2010-10-08有效期至：2013-10-08品牌：HP制造商：Hewlett-Packard Company获证规格型号：LA2006x输入: 100-240VAC 50/60Hz 1.0A证书编号：CQC10701050925有效期至：2013-10-08品牌：HP制造商：Hewlett-Packard Company获证规格型号： LA1751g: 100-240VAC, 50/60Hz, 1.5A证书编号：CQC10701050910生效日期：2010-10-08有效期至：2013-10-08品牌：hp制造商：Hewlett-Packard Company获证规格型号：HSTND-3041-F, HSTND-3061-F: 100-240VAC 50/60Hz 1.2A证书编号：CQC10701050911生效日期：2010-10-08有效期至：2013-10-08品牌：Hp，Compaq制造商：Hewlett-Packard Company获证规格型号：LA2306x输入: 100-240VAC 50/60Hz 1.0A证书编号：CQC10701050927生效日期：2010-10-08有效期至：2013-10-08品牌：HP制造商：NEC Display Solutions,Ltd.获证规格型号：L468TQ，X461HB-2-G1(C)-T，X461HB-3-G1(C)-T 100-240VAC; 50/60Hz;5.6A-2.5A证书编号：CQC10701050888生效日期：2010-10-08有效期至：2013-10-08品牌：NEC制造商：惠普公司获证规格型号：LA2206x 100-240VAC 50/60Hz 1.6A证书编号：CQC10701050893生效日期：2010-10-08有效期至：2013-10-08品牌：HP,Compaq制造商：联想（北京）有限公司获证规格型号：L2363dwA: 100-240VAC 50/60Hz 1.5A证书编号：CQC10701050908有效期至：2013-10-08品牌：lenovo, lenovo联想中小型三相异步电动机制造商：无锡华达电机有限公司证书编号：CQC09701032159 生效日期：2010-10-09有效期至：2012-05-27品牌：华达/马拉松多联式空调（热泵）机组制造商：三菱重工海尔（青岛）空调机有限公司获证规格型号：外机：RFC335KX6-K 内机：RFTS22KX6, RFTS25KX6, RFTS28KX6, RFTS32KX6, RFTS36KX6, RFTS40KX6, RFTS45KX6, RFTS50KX6, RFTS56KX6, RFTSD22KX6, RFTSD25KX6, RFTSD28KX6, RFTSD32KX6, RFTSD36KX6, RFTSD40KX6, RFTSD45KX6, RFTSD50KX6, RFTSD56KX6, RFU40KX6, RFU45KX6, RFU50KX6, RFU56KX6, RFU63KX6, RFU71KX6, RFU80KX6, RFU90KX6, RFU100KX6, RFU112KX6, RFU125KX6, RFU140KX6, RFU150KX6, RFUD40KX6, RFUD45KX6, RFUD50KX6, RFUD56KX6, RFUD63KX6, RFUD71KX6, RFUD80KX6, RFUD90KX6, RFUD100KX6, RFUD112KX6, RFUD125KX6, RFUD140KX6, RFUD150KX6, RFUM22KX6, RFUM25KX6, RFUM28KX6, RFUM32KX6, RFUM36KX6, RFUM40KX6, RFUM45KX6, RFUM50KX6, RFUM56KX6, RFUM63KX6, RFUM71KX6, RFUM80KX6, RFUM90KX6, RFUM100KX6, RFUM112KX6, RFUM125KX6, RFUM140KX6, RFUM150KX6, RFUMD22KX6, RFUMD25KX6, RFUMD28KX6, RFUMD32KX6, RFUMD36KX6, RFUMD40KX6, RFUMD45KX6, RFUMD50KX6, RFUMD56KX6, RFUMD63KX6, RFUMD71KX6, RFUMD80KX6, RFUMD90KX6, RFUMD100KX6, RFUMD112KX6, RFUMD125KX6, RFUMD140KX6, RFUMD150KX6, RFUT22KX6, RFUT25KX6, RFUT28KX6, RFUT32KX6, RFUT36KX6, RFUT40KX6, RFUT45KX6, RFUT50KX6, RFUT56KX6, RFUT63KX6, RFUT71KX6, RFUTD22KX6, RFUTD25KX6, RFUTD28KX6, RFUTD32KX6, RFUTD36KX6, RFUTD40KX6, RFUTD45KX6, RFUTD50KX6, RFUTD56KX6, RFUTD63KX6, RFUTD71KX6, RFTW22KX6, RFTW25KX6, RFTW28KX6, RFTW32KX6, RFTW36KX6, RFTW40KX6, RFTW45KX6, RFTW50KX6, RFTW56KX6, RFT28KX6, RFT32KX6, RFT36KX6, RFT40KX6, RFT45KX6, RFT50KX6, RFT56KX6, RFT63KX6, RFT71KX6, RFT80KX6, RFT90KX6, RFT100KX6, RFT112KX6, RFT125KX6, RFT140KX6, RFT150KX6, RFTD28KX6, RFTD32KX6, RFTD36KX6, RFTD40KX6, RFTD45KX6, RFTD50KX6, RFTD56KX6, RFTD63KX6, RFTD71KX6, RFTD80KX6, RFTD90KX6, RFTD100KX6, RFTD112KX6, RFTD125KX6, RFTD140KX6, RFTD150KX6, RF71KX6, RF140KX6证书编号：CQC10701050887生效日期：2010-10-08有效期至：2013-10-08品牌：海尔制造商：三菱重工海尔（青岛）空调机有限公司获证规格型号：室外机：RFC504KX6室内机：RFTS22KX6、RFTS25KX6、RFTS28KX6、RFTS32KX6、RFTS36KX6、RFTS40KX6、RFTS45KX6、RFTS50KX6、RFTS56KX6、RFTSD22KX6、RFTSD25KX6、RFTSD28KX6、RFTSD32KX6、RFTSD36KX6、RFTSD40KX6、RFTSD45KX6、RFTSD50KX6、RFTSD56KX6、RFU40KX6、RFU45KX6、RFU50KX6、RFU56KX6、RFU63KX6、RFU71KX6、RFU80KX6、RFU90KX6、RFU100KX6、RFU112KX6、RFU125KX6、RFU140KX6、RFU150KX6、RFU224KX6、RFU280KX6、RFUD40KX6、RFUD45KX6、RFUD50KX6、RFUD56KX6、RFUD63KX6、RFUD71KX6、RFUD80KX6、RFUD90KX6、RFUD100KX6、RFUD112KX6、RFUD125KX6、RFUD140KX6、RFUD150KX6、RFUD224KX6、RFUD280KX6、RFUM22KX6、RFUM25KX6、RFUM28KX6、RFUM32KX6、RFUM36KX6、RFUM40KX6、RFUM45KX6、RFUM50KX6、RFUM56KX6、RFUM63KX6、RFUM71KX6、RFUM80KX6、RFUM90KX6、RFUM100KX6、RFUM112KX6、RFUM125KX6、RFUM140KX6、RFUM150KX6、RFUMD22KX6、RFUMD25KX6、RFUMD28KX6、RFUMD32KX6、RFUMD36KX6、RFUMD40KX6、RFUMD45KX6、RFUMD50KX6、RFUMD56KX6、RFUMD63KX6、RFUMD71KX6、RFUMD80KX6、RFUMD90KX6、RFUMD100KX6、RFUMD112KX6、RFUMD125KX6、RFUMD140KX6、RFUMD150KX6、RFUT22KX6、RFUT25KX6、RFUT28KX6、RFUT32KX6、RFUT36KX6、RFUT40KX6、RFUT45KX6、RFUT50KX6、RFUT56KX6、RFUT63KX6、RFUT71KX6、RFUTD22KX6、RFUTD25KX6、RFUTD28KX6、RFUTD32KX6、RFUTD36KX6、RFUTD40KX6、RFUTD45KX6、RFUTD50KX6、RFUTD56KX6、RFUTD63KX6、RFUTD71KX6、RFTW22KX6、RFTW25KX6、RFTW28KX6、RFTW32KX6、RFTW36KX6、RFTW40KX6、RFTW45KX6、RFTW50KX6、RFTW56KX6、RFT28KX6、RFT32KX6、RFT36KX6、RFT40KX6、RFT45KX6、RFT50KX6、RFT56KX6、RFT63KX6、RFT71KX6、RFT80KX6、RFT90KX6、RFT100KX6、RFT112KX6、RFT125KX6、RFT140KX6、RFT150KX6、RFTD28KX6、RFTD32KX6、RFTD36KX6、RFTD40KX6、RFTD45KX6、RFTD50KX6、RFTD56KX6、RFTD63KX6、RFTD71KX6、RFTD80KX6、RFTD90KX6、RFTD100KX6、RFTD112KX6、RFTD125KX6、RFTD140KX6、RFTD150KX6、RF71KX6、RF140KX6。

Specification AXHV0002Issue: 02 Date: 2008-04-15 Oscillator type : VCO – Voltage Controlled OscillatorParametermin. typ. max. Unit ConditionFrequency tuning range360 610 MHz @ 25°C Frequency adjustment rangeEFC voltage V C 1 11 V Tuning sensitivity 10 32 40 MHz/VEFC slope (∆f / ∆V C )positive RF outputSignal waveform SINUSLoad 50 ΩAmplitude +4 +5 +8 dBm R L = 50 Ω Harmonics attenuation 12 17 dBcPhase Noise-107 -103 dBc/Hz @ 100 kHz Supply voltage V S 4.75 5 5.25 V Current consumption (steady state) 24 26 mAOperating temperature range-40 +85 °C Operable temperature range-45 +90 °C Storage temperature range-45 +95 °C Enclosure (see drawing) LxWxH12.7 x 12.7 x 6.1 mm Weight5 gram Packingbulk IEC 60286-3 ESD Sensitivity1500 V HBM, IEC 61000-4-2 Notes:1. Terminology and test conditions are according to IEC standard IEC60679-1, unless otherwise statedOrdering Code:Model (Specification) Frequency Range [MHz] AXHV0002 360-610Enclosure drawingPin connectionsPin # Symbol Function P1 V C Control Voltage (EFC) P2 RF OUT RF Output P3 V S Supply Voltage P4 N.C. Not Connected All othersGND Ground Note:Drawing may not show appearance in detailEnvironmental conditionsTest IEC 60068 Part ... IEC 60679-1clause ...Test conditionsVisual inspection, dimensions 4.3 Enclosure styles as in IEC 60679-3 or 61837, if applicable Sealing tests (if applicable) 2-17 4.6.2 Gross leak: Test Qc, Fine leak: Test QkSolderability Resistance to soldering heat 2-20 2-58 4.6.3 Test Ta (235 ± 5)°C Method 1 Test Tb Method 1A, 5sShock* 2-27 4.6.8 Test Ea, 3 x per axes 100g, 6 ms half-sine pulseBump* 2-29 4.6.6 Test Eb, 4000 bumps per Axes, 40g, 6 msFree fall*2-324.6.9 Test Ed procedure 1, 2 drops from 1m height Vibration, sinusoidal* 2-6 4.6.7 Test Fc, 30 min per axes,10 Hz - 55 Hz 0,75mm; 55 Hz - 2 kHz, 10gRapid change of temperature 2-14 4.6.5 Test Na, 10 cycles at extremes of operating temperature rangeDry heat2-2 4.6.14 Test Ba, 16 h at upper temperature indicated by climatic category Damp heat, cyclic* 2-30 4.6.15 Test Db variant 1 severity b), 55°C/95% r.H., 6 cyclesCold2-1 4.6.16 Test Aa, 2 h at lower temperature indicated by climatic category Climatic sequence* 1-7 4.6.17 Sequence of 4.6.14, 4.6.15 (1st cycle), 4.6.16, 4.6.15 (5 cycles) Damp heat, steady state*2-3 4.6.18 Test Ca, 56 daysEndurance tests - ageing- extended aging4.7.1 4.7.230 days @ 85°C, OCXO @25°C 1000h, 2000h, 8000h @85°C。

HV300系列通用型变频器选型手册（0.4kW~500kW）通用技术规格公司简介质量管理体系环境管理体系职业健康安全管理体系【质量体系】深圳市禾望电气股份有限公司（股票代码603063）是一家专注于电力电子产品研发、制造、营销和服务的高新技术企业，产品涵盖大功率兆瓦级风电变频器、工程型变频器、通用变频器、光伏逆变器、SVG静止无功发生器、岸电电源和储能变流器等，现已成为国内技术和业绩领先的电气企业。

在工业传动领域，禾望电气在强大的定制工程型风电变频器平台基础上，自主研发了HD2000系列低压工程型变频器、HD8000系列中压多电平变频器和HV500系列高性能变频器，此外，禾望电气还拥有HV300系列通用变频器、油田专用HEC系列变频器，禾望电气的工业传动产品涵盖各个功率段及多种控制方式，适用于各种工业场景。

中国 · 深圳总部总部及研发基地：深圳制造基地：深圳、苏州、东莞、盐城营销服务中心：北京、上海、俄罗斯服务基地：华南、华东、西南、西北、华北、东北片区等16个服务基地和遍布全国的服务点。

【荣誉】CNAS认可实验室资质国家级高新技术企业国家科学技术进步奖产品外形尺寸（详见产品尺寸表）变频器系列名：HV300：hopeVert系列，通用型电路拓扑及冷却方式：A0：两象限风冷 W0：两象限水冷A1：四象限风冷 W1：四象限水冷电压等级：2：220V 4：380V 6：690V相数：D：单相/三相 T：三相负载类型：G：标准G型机E：小体积G型机空：G/P合一型机制动单元信息：B：内置制动单元空：无内置制动单元功率等级：00007：0.7kW 00075：7.5kW 00150：15kW 01850：185kW 20000：2MWHV300 — A0 2 T 00007 G B产品选型指引通用技术规格本节所述功率等级规格针对标准四极三相交流异步电动机而给出。

G、E：恒转矩负载。

P：风机、泵类负载。

2763 / 2767 / 2769全自动互感器试验装置特点⏹ 单台仪器测量电流及电压互感器。

⏹ 全自动测量、数字显示电流/电压比误差、相移、试验电流及电压。

⏹ 可测量互感器的一次侧和二次侧的电流和电压。

⏹ 测试变压器和标准变压器的变比可以不同。

⏹高性价比：单台标准变压器即可测试不同的变压器；不同的标准变压器和试验变压器变比无需外部分压器即可相互匹配。

⏹ 可输入交互参数以简化操作。

⏹ 测量进行期间，微处理器监控所有输入和控制。

⏹ 2 x 16字符点阵，纯语言显示错误信息。

⏹ 测量耗时短。

⏹ 动态平均。

⏹ 精度高。

⏹ 固有负载低。

⏹ 可连接至外部打印机（RS 232C 接口） ⏹ 前板设有压电晶体制键盘。

⏹产品规格遵从IEC 60044-1, IEC 60044-2; IEC 60044-3; IEC 60044-7,ANSI/IEEE C57.13-1978 和 VDE 0414, part 2标准。

⏹ 含RS 232C接口用于连接计算机。

可选配件⏹ 遥控测量过程用- IEEE 488 接口 ⏹更多可选配件参见采购信息综述TETTEX 仪器公司出产的2767型电流/电压互感器自动测试装置是一款高效、精确的互感器测量仪，专为实验室、工业生产、质量管理及官方计量站应用而设计。

随着现今质量管理标准的日益严格，测量设备的操作舒适度和可靠性越发受到关注。

该款测试仪基于最新技术开发，开创了质量、可靠性、可操作性和可维护性上的新标准，在电流/电压误差、相位差和激励电流/激励电压的测量范围上，该仪器完全符合国际标准。

该仪器经过德国物理技术研究院（PTB ）测试，校正核准，完全符合PTB 仪表变压器测试标准。

全套测试系统同时，TETTEX 仪器公司也设计并销售计算机控制电流和电压互感器测量设备，以满足客户的特定需求，它们包括： ⏹ 2767型组合测试装置，用于电流和电压比互感器测试。

⏹ 4760系列标准电流互感器（电流比较器）。

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These are among the many reasons why Vaisala’s products are a sustainable choice.EXCELLENCE IN MEASUREMENTSOur selection of temperature, humidity and carbon dioxide transmitters areperfect for HVAC monitoring and controls, such as building automation systems, demand-controlled ventilation and building management systems.For cutting-edgeSOLUTIONS5-yearWARRANTYWe are confident in the lasting quality and long lifetime of our measurement instruments. We are offering a standard warranty period of five years on our transmitters for building automation.5-YEAR WARRANTY ON SELECTED HVAC TRANSMITTERSVaisala’s high-quality, reliable measurement instruments offer an exceptionally long lifetime, need minimal maintenance, and provide excellent measurement stability. This makes them the ideal choice for reliable HVAC control. Our transmitters for building automation are covered by 5-year warranty.See all warranty terms: /warrantyThe secret of the long lifetime of our transmitters: The winning combination of uniquemeasurement technology and careful future-proof design of instruments. These products with exceptionally long lifetime and excellent measurement stability are practically maintenance free, and a sustainable choice.Watch the installation and calibration video of the HMW90 series to learn how easy it is: /HMW90ROOM TRANSMITTERSAccuracy that lastsThe general purpose HV AC transmitters are renowned for their long lifetime and low total cost of ownership, their reliability and negligible maintenance needs throughout the product life cycle.UNIQUE SENSOR TECHNOLOGY INSIDEThe unique, cutting-edge Vaisala sensor technologies are manifested throughout our versatile range of products. Accuracy and long-term stability of Vaisala sensors is absolutely the best of class within the industry. When it comes to reliable measurements, Vaisala products are in the league of their own.WALL TRANSMITTERSPerfect for demanding environmentsThe unique, cutting edge Vaisala sensor technologies are manifested throughout our versatile range of products. The measurement technology is known for superior performance even in challenging environments. Prestigious for unrivalled performance and reliability, our sensors and transmitters stand out for low total cost of ownership.When reliability matters, the measurements matter. Maintaining as-designed indoor conditions with minimized consumption of energy requires precision and reliability in every piece in the chain. Although influenced by many variables, eventually the control of your HVAC systems can be only as precise as your measurements are.DUCT/IMMERSION TRANSMITTERSReliable measurements where it truly mattersVaisala Indigo80 Handheld Indicator is an industrial-grade portable diagnostics tool. Accommodating up to two Vaisala measurement probes, Indigo80 is ideal for spotchecking and process monitoring, as well as for configuring, troubleshooting, calibrating, and adjusting Vaisala Indigo-compatible probes and transmitters.Vaisala as a global leader in environmental and industrial measurements offers a uniqueselection of indoor and outdoor instruments for HVAC applications. The versatile outdoor and weather instruments provide the best possible information on prevailing outdoor conditions. OUTDOOR AND WEATHER TRANSMITTERSFor all HVAC applicationsHANDHELD METERSFor spot-checking and calibrationMEASUREMENT SOLUTIONSwhere it truly mattersCOMMERCIAL BUILDINGSA reliable measurement system is essential to a commercial building’s success. Buildings in the commercial sector are expected to be energy efficient and environmentally friendly, as well as comfortable and healthy indoor environments. It is critical to have instruments that have a high degree of reliability and minimal drifting, which reduces the maintenance requirements and ensures that the building systems are operating optimally.MANUFACTURING & INDUSTRIAL FACILITIESManufacturing facilities and industrial facilities require high standards for measurements. Optimizing processes through precisely controlled indoor environments will increase efficiency and eliminate waste and variation. It is necessary to have high-quality HVAC sensors in special spaces, such as clean rooms or labs, as well as throughout the facility and its control room.ABOUT VAISALAAs a global leader in industrial, weather and environmental measurements, we provide reliable, accurate and innovative products and solutions that enabling better decision-making, increased productivity, and improved safety and quality.Customers all over the world and in a multitude of industries use our measurement solutions. Everywhere from forecasting weather and making sure it is safe for your flight to take off, to staying ahead of power outages or monitoring incubators for premature children in hospitals, you can find Vaisala’s premium measurement solutions in action all over the world.Vaisala’s premium measurement solutions enhance safety, efficiency, and decision-making – for a sustainable future on our planet. The heart of Vaisala’s sustainability lies in the positive impact of our products, as they help our customers, for example, to increase energy efficiency and reduce emissions.Global coverage withLOCAL PRESENCEFind your local contactFast, free deliveries on all new instrument & spare part online ordersEasy and secure payments optionsAll instruments are made to order and calibrated justbefore shipmentFree shippingSafe PaymentCalibrationAvailableONLINE 24/7Our products are easily available, any time, through the Vaisala Online Store. We have fast deliveries on all newinstrument as well as spare part online orders. All instruments are made to order and calibrated just before shipment.Ref. B211277EN-L ©Vaisala 2023This material is subject to copyright protection, with all copyrights retained by Vaisala and its individual partners. All rightsreserved. Any logos and/or product names are trademarks of Vaisala or its individual partners. The reproduction, transfer,distribution or storage of information contained in this brochure in any form without the prior written consent of Vaisala is strictly prohibited. All specifications — technical included — are subject to change without notice.。

©2015 Whelen Engineering Company Inc.Form No.14492A (010515)A u t o m o t i v e : S i r e n s /S w i t c h e sFor warranty information regarding this product, visit /warrantyDANGER! Sirens produce extremely loud emergency warning tones! Exposure to these tones without proper and adequate hearing protection, could cause ear damage and/or hearing loss! The Occupational Safety & Health Administration () provides information necessary to determine safe exposure times in Occupational Noise Exposure Section 1910.95. Until you have determined the safe exposure times for your specific application,operators and anyone else in the immediate vicinity should be required to wear an approved hearing protection device. Failure to follow this recommendation could cause hearing loss!•Proper installation of this product requires the installer to have a good understanding of automotive electronics, systems and procedures.•Whelen Engineering requires the use of waterproof butt splices and/or connectors if that connector could be exposed to moisture.•Any holes, either created or utilized by this product, should be made both air- and watertight using a sealant recommended by your vehicle manufacturer.•Failure to use specified installation parts and/or hardware will void the product warranty.•If mounting this product requires drilling holes, the installer MUST be sure that no vehicle components or other vital parts could be damaged by the drilling process. Check both sides of the mounting surface before drilling begins. Also de-burr the holes and remove any metal shards or remnants. Install grommets into all wire passage holes.•If this manual states that this product may be mounted with suction cups, magnets, tape or Velcro®, clean the mounting surface with a 50/50 mix of isopropyl alcohol and water and dry thoroughly.•Do not install this product or route any wires in the deployment area of your air bag. Equipment mounted or located in the air bag deployment area will damage or reduce the effectiveness of the air bag, or become a projectile that could cause serious personal injury or death. Refer to your vehicle owner’s manual for the air bag deployment area. The User/Installer assumes full responsibility to determine proper mounting location, based on providing ultimate safety to all passengers inside the vehicle.•For this product to operate at optimum efficiency, a good electrical connection to chassis ground must be made. The recommended procedure requires the product ground wire to be connected directly to the NEGATIVE (-) battery post (this does not include products that use cigar power cords).•If this product uses a remote device for activation or control, make sure that this device is located in an area that allows both the vehicle and the device to be operated safely in any driving condition.•It is recommended that these instructions be stored in a safe place and referred to when performing maintenance and/or reinstallation of this product.•FAILURE TO FOLLOW THESE SAFETY PRECAUTIONS AND INSTRUCTIONS COULD RESULT IN DAMAGE TO THE PRODUCT OR VEHICLE AND/OR SERIOUS INJURY TO YOU AND YOUR PASSENGERS!CAUTIONLoud siren noise can cause hearing damage and/or loss.Refer to OSHA Section 1910.95prior to putting ANY siren into service!Wear Protection!ACTIVATION OF THIS SIREN MAY DAMAGE UNPROTECTED EARS!Warnings to InstallersWhelen’s emergency vehicle warning devices must be properly mounted and wired in order to be effective and safe. Read and follow all of Whelen’s written instructions when installing or using this device. Emergency vehicles are often operated under high speed stressful conditions which must be accounted for when installing all emergency warning devices. Controls should be placed within convenient reach of the operator so that they can operate the system without taking their eyes off the roadway. Emergency warning devices can require high electrical voltages and/or currents. Properly protect and use caution around live electrical connections.Grounding or shorting of electrical connections can cause high current arcing, which can cause personal injury and/or vehicle damage, including fire. Many electronic devices used in emergency vehicles can create or be affected by electromagnetic interference. Therefore, after installation of any electronic device it is necessary to test all electronic equipment simultaneously to insure that they operate free of interference from other components within the vehicle. Never power emergency warning equipment from the same circuit or share the same grounding circuit with radio communication equipment. All devices should be mounted in accordance with the manufacturer’s instructions and securely fastened to vehicle elements of sufficient strength to withstand the forces applied to the device. Driver and/or passenger air bags (SRS) will affect the way equipment should be mounted. This device should be mounted by permanent installation and within the zones specified by the vehicle manufacturer, if any. Any device mounted in the deployment area of an air bag will damage or reduce the effectiveness of the air bag and may damage or dislodge the device. Installer must be sure that this device, its mounting hardware and electrical supply wiring does not interfere with the air bag or the SRS wiring or sensors. Mounting the unit inside the vehicle by a method other than permanent installation is not recommended as unit may become dislodged during swerving; sudden braking or collision. Failure to follow instructions can result in personal injury. Whelen assumes no liability for any loss resulting from the use of this warning device. PROPER INSTALLATION COMBINED WITH OPERATOR TRAINING IN THE PROPER USE OF EMERGENCY WARNING DEVICES IS ESSENTIAL TO INSURE THE SAFETY OF EMERGENCY PERSONNEL AND THE PUBLIC.Warnings to UsersWhelen’s emergency vehicle warning devices are intended to alert other operators and pedestrians to the presence and operation of emergency vehicles and personnel. However, the use of this or any other Whelen emergency warning device does not guarantee that you will have the right-of-way or that other drivers and pedestrians will properly heed an emergency warning signal. Never assume you have the right-of-way. It is your responsibility to proceed safely before entering an intersection, driving against traffic, responding at a high rate of speed, or walking on or around traffic lanes. Emergency vehicle warning devices should be tested on a daily basis to ensure that they operate properly. When in actual use, the operator must ensure that both visual and audible warnings are not blocked by vehicle components (i.e.: open trunks or compartment doors), people, vehicles, or other obstructions. It is the user’s responsibility to understand and obey all laws regarding emergency warning devices. The user should be familiar with all applicable laws and regulations prior to the use of any emergency vehicle warning device. Whelen’s audible warning devices are designed to project sound in a forward direction away from the vehicle occupants. However, because sustained periodic exposure to loud sounds can cause hearing loss, all audible warning devices should be installed and operated in accordance with the standards established by the National Fire Protection Association.Safety FirstThis document provides all the necessary information to allow your Whelen product to be properly and safely installed. Before beginning the installation and/or operation of your new product, the installation technician and operator must read this manual completely. Important information is contained herein that could prevent serious injury or damage.WARNING: This product can expose you to chemicals including Lead which is known to the State of California to cause cancer and birth defects or other reproductive harm. For more information go to .Installation Guide:PCC4W Power Control Center51 Winthrop RoadChester, Connecticut 06412-0684Phone: (860) 526-9504Internet: Sales e-mail: autosale@Customer Service e-mail: custserv@®ENGINEERING COMPANY INC.Model PCC4WWARNING! These switches are suitable for 25 amp, 12 volt DC applications. Any attempt to load these switches above 25 amps will result in switch failure.WARNING! All customer supplied wires that connect to the positive terminal of the battery must be sized to supply at least 125% of the maximum operating current and be FUSED at the battery to carry that load. DO NOT USE CIRCUIT BREAKERS WITH THIS PRODUCT! Congratulations on selecting the PCC4W six switch power control center. This product offers a unique and distinctive collection of features. Features include:•Ignition controlled LED backlighting•Compact design•Switch 'active' LED indicators•Four 25 amp switches•72 switch function labelsMounting:An aftermarket center console is recommended for the mounting location of the PCC4W. This not only allows the driver to reach the controls easily, but also keeps the unit safely out of the path of the vehicle’s SRS air-bag. Follow the console manufacturer’s instructions for mounting information. If a console-type mount is not possible, the PCC4W includes a bail strap mounting kit for over or under dash mounting.WARNING: Regardless of the style selected, be sure to observe the air-bag warning on the cover of this manual.WARNING: Mounting this unit will require drilling. It is absolutely necessary to make sure that no other vehicle components could be damaged in the process. Check both sides of the mounting surface before starting. If damage is likely, select a different location.Bail Strap Mount:1.Position the bail strap in the selected mounting location. Using anawl or other suitable tool, scribe the surface where the mountingholes are to be drilled.2.Carefully drill the mountingholes in the areas scribedin step one. The size of thedrill bit should bedetermined by the size ofthe mounting hardware(customer supplied) andthe thickness of themounting surface.ing the customersupplied mountinghardware, secure the bail strap to the mounting location.Console Mount:Console manufacturers offer mounting kits that include all the necessary hardware and brackets required to mount this unit into their console. The console mount brackets are secured onto the unit the same way the bail bracket is. Refer to the manual included with your console.Function Labels: Take the supplied label kit and determine which label describes the function of switch 1. Peel the label off the backing and place it in the label window above switch 1. Press the label lightly into place. Repeat for each switch.Wiring:BLACK WIRE:This wire supplies ground to both the units function window backlighting and the switch 'active' LED indicators located on the front of each switch. This wire can be connected to any vehicle ground that can supply 100ma.WHITE/YELLOW WIRE:This wire supplies power to the units window backlighting. This wire can be connected to any ignition controlled +VBAT power source that can supply 100ma. NOTE: If your PCC4W does not have a white/yellow wire, then it is not equipped with the backlighting feature.INPUT WIRES: Each of these wires must be wired directly to the positive post of the battery separately. Install a 25 amp fuse (customer supplied) on the end of each wire.Note: Remove the fuse before connecting any wires to the battery. Connect the fused wire to the POSITIVE (+) terminal on the battery. There must not be more than 2 ft. of wire between the fuse block and the battery. Since the wire between the fuse and battery is “unprotected”, do not allow this wire to come in contact with other wires.Since each switch has its own individual power source, if there is a requirement for some of the vehicles equipment to be switched to ground rather than +VBAT, it is possible to wire one of the power inputs to the negative post of the battery and use the associated switch to enable the ground activated devices. Note: if the switch is used for ground activa-tion, the Switch’s 'active' LED indicators will not light.OUTPUT WIRES:Connect these terminals to the desired equipment (loads) as shown in the wiring diagram, be sure to use the proper wire size to handle the current required to power the equipment.IMPORTANT: It is the responsibility of the installation technician to make sure that the installation and operation of this product will not interfere with or compromise the operation or efficiency of any vehi-cle equipment! Before returning the vehicle to active service, visu-ally confirm the proper operation of this product.。

DHT－300里氏硬度仪第 0 页 共 26 页DHT-300使 用 手 册DHT－300里氏硬度仪目 录一、概述------------------------------------------------------------------------- 1二、技术参数--------------------------------------------------------------------- 1三、整机、部件及内容------------------------------------------------------------- 23.1 仪器主机----------------------------------------------------------------- 23.2 显示部分----------------------------------------------------------------- 23.3 键盘部分----------------------------------------------------------------- 3四、操作方法--------------------------------------------------------------------- 34.1 使用前的准备------------------------------------------------------------- 34.2 传感器的操作------------------------------------------------------------- 54.3 仪器操作----------------------------------------------------------------- 54.3.1 仪器的开/关机----------------------------------------------------- 54.3.2 仪器菜单的功能---------------------------------------------------- 64.3.3 功能键操作-------------------------------------------------------- 174.4 PC机传输操作------------------------------------------------------------- 184.5 电源管理----------------------------------------------------------------- 18五、 附录--------------------------------------------------------------------------- 19附录1：测量范围对照表-------------------------------------------------------- 19 附录2：异性支撑环的规格------------------------------------------------------ 20第 1 页 共 26 页DHT－300里氏硬度仪一、概述DHT－300里氏硬度仪是利用里氏原理对多种金属材料的硬度进行检测。

ASAHI/AMERICA•***********************•Tel:800-343-3618•781-321-5409•Fax:800-426-7058Rev 2211DSpecificationsMotor Type: Reversing, brushless DC Sizes: S20 for 1/2” – 2” ball valves S50 for 2-1/2” – 3” ball valves S110 for 4” ball valves Torque: 177 in-lbs to 973 in-lbsVoltage: 95 VAC to 265 VAC multi-voltage Amp Draw: 0.18 Amp for S20 0.24 Amp for S50 0.84 Amp for S110Max Ambient Temp:150° F• Compact: Perfect for OEM and skidmanufacturers•• OLED Screen: Displays input command, positionstatus, alert conditions• Push Buttons: Used to calibrate/adjust end positions,local controls • Multi-voltage: 95 VAC to 265 VAC or 24 VAC/VDC • Motor: Reversing, brushless DC motor• Gear Train: Permanently lubricated steel gears• Corrosion Resistant Enclosure: NEMA 4X PC/PETenclosure with stainless steel trim • ISO mounting configuration• Electrical Connection: NEMA 4X cable gland with two-meter cable• Position Indication: Highly visible beacon positionindicator• LED Alarm Indication: RED closed, GREEN open, BLUEfault• Manual Override: Manually cycle valve via electrolessnickel-plated hex key• Selectable Control Signal: User can select 4-20 mA,0-20 mA, 0-10 VDC, 2-10 VDC, or 1-5 VDC (size 20 is specifically a current control signal or a voltage control signal)• Reverse Acting: User can select standard operationor reverse acting• Selectable Fail Position: If control signal is lost, theunit can be calibrated to fail as is, fail open, or fail close • Transmitter: Current or voltage transmitter (matchingthe control signal) is standard equipment• Alarm Contacts: Dry Contact rated 0.1 Amp @ 250VAC, 0.5 Amp @ 30 VDC for alarm status (over torque, as an example)• Space Heater: Internally wired to limit condensation • CE Compliant: All actuators are CE labeled andcompliant• 75% Duty Cycle: Extended duty cycle is ideal for highcycling/modulating applications• Output Torque: Series 19 electric actuators have anoutput torque range from 177 in-lbs to 973 in-lbs• QR Code: Links to user manual; includes wiringschematic• Simple Wiring: Wiring technique is the same for allvoltage units• Local Controls: Used with OLED and push buttons, auser can locally open or close units via passwordStandard Features (1/2” – 4”)Dimensions (inch)Weight (lbs)Amp draw is considered locked rotor *Cycle times are approximateDuty cycle shown for ambient temp (73° F)Engineering DataASAHI/AMERICA•***********************•Tel:800-343-3618•781-321-5409•Fax:800-426-7058Rev 2211DAll Series 19 SAV smart modulating electric actuators shall have a brushless DC motor that accepts multiple voltages, permanently lubricated steel gears, NEMA 4X PC/PET enclosure with stainless steel trim, visual beacon indication, ISO 5211 valve mounting platform, manual override, and be CE compliant. Standard features shall include a heater, transmitter, field selection of various control signals, field selection of fail position (upon loss of command signal), one set of dry contacts for alarm reporting, LED indicator for alarm conditions, an OLED screen with push buttons, local controls, and a QR code that links to its user manual and wiring schematic.Sample SpecificationWiring Diagrams。

High Performance Relative Humidity and Temperature SensorHS300x DatasheetDescriptionThe HS300x series is a highly accurate, fully calibrated relative humidity and temperature sensor. The MEMS sensor features a proprietary sensor-level protection, ensuring high reliability and long-term stability.Integrated calibration and temperature-compensation logic pro-vides fully corrected RH and temperature values via a standard I2C output. No user calibration of the output data is required.The high accuracy, fast measurement response time, and long-term stability combined with the small package size makes the HS300x series ideal for a wide number of applications ranging from portable devices to products designed for harsh environments. The HS300x series digital sensor accurately measures relative humidity and temperature levels. The measured data is internally corrected and compensated for accurate operation over a wide range of temperature and humidity levels – user calibration is not required.Typical Applications▪Climate control systems▪Home appliances▪Weather stations▪Industrial automation▪Medical equipment▪Automotive cabin climate control Features▪Humidity range: 0% to 100%RH▪Humidity accuracy: ±1.5%RH, typical (HS3001, 10 to 90%RH, 25°C)▪14-bit resolution: 0.01%RH, typical▪Independent programmable resolution settings: 8, 10, 12, 14-bits▪Fast RH response time: 1 second time constant, typical (with1 m/sec air flow), 4 seconds time constant, typical (in still air) ▪Temperature sensor accuracy: ±0.2°C, typical (HS3001, HS3002, -10 to +80°C)▪Low current consumption: 1.0µA average (8-bit resolution,1.8V supply), 24.4µA average (14-bit resolution, 3.3Vsupply), one RH and temperature measurement per second ▪Excellent stability against aging▪Highly robust protection from harsh environmental conditions and mechanical shock▪Very low power consumptionPhysical Characteristics▪Supply voltage: 2.3V to 5.5V▪Extended supply voltage: 1.8V (-20°C to +125°C)▪Operating temperature: -40°C to +125°C▪ 3.0 × 2.41 × 0.8 mm DFN-style 6-LGA package Product ImageContents1. Pin Assignments (4)2. Pin Descriptions (4)3. Absolute Maximum Ratings (5)4. Recommended Operating Conditions (5)5. Humidity and Temperature Sensor Performance (6)5.1 Humidity Sensor Specification (6)5.2 Temperature Sensor Specification (7)5.3 Sleep Current (8)5.4 Humidity Sensor Accuracy Graphs (9)5.5 Temperature Sensor Accuracy Graphs (10)6. Sensor Interface (11)6.1 I2C Features and Timing (11)6.2 Sensor Slave Address (11)6.3 I2C Communication (12)6.4 Measurement Mode (12)6.5 Measurement Requests (MR) (12)6.6 Data Fetch (DF) (13)6.7 Status Bits (14)6.8 Accessing the Non-volatile Memory (14)6.9 Setting the Measurement Resolution (15)6.10 Reading the HS300x ID Number (16)7. Calculating Humidity and Temperature Output (17)8. Application Circuit (17)9. Package Drawings and Land Pattern (18)10. Soldering Information (18)11. PCB Layout Guide (19)12. Storage and Handling (20)13. Quality and Reliability (20)14. Ordering Information (20)15. Revision History (21)List of FiguresFigure 1. Pin Assignments for 3mm 2.41mm 6-LGA Package (Top View) (4)Figure 2. Sleep Current Variation over Temperature, V DD at 3.3V (8)Figure 3. HS3001 RH Accuracy Tolerance at 25°C (9)Figure 4. HS3001 RH Accuracy over Temperature (9)Figure 5. HS3002 RH Accuracy Tolerance at 25°C (9)Figure 6. HS3002 RH Accuracy over Temperature (9)Figure 7. HS3003 RH Accuracy Tolerance at 25°C (9)Figure 8. HS3003 RH Accuracy over Temperature (9)Figure 9. HS3004 RH Accuracy Tolerance at 25°C (10)Figure 10. HS3004 RH Accuracy over Temperature (10)Figure 11. HS3001/HS3002 Temperature Sensor Accuracy Tolerance (10)Figure 12. HS3003 Temperature Sensor Accuracy Tolerance (10)Figure 13. HS3004 Temperature Sensor Accuracy Tolerance (10)Figure 14. Timing Diagram (11)Figure 15. START and STOP Condition Waveform (12)Figure 16. Measurement Request (12)Figure 17. Data Fetch (13)Figure 18. Sequence of Commands to Enter Programming Mode (14)Figure 19. Sequence of Commands to Change the Relative Humidity Resolution (15)Figure 20. HS300x Application Circuit (Top View) (17)Figure 21. Recommended Soldering Profile (18)Figure 22. Milled PCB Openings for Thermal Isolation (19)List of TablesTable 1. Pin Descriptions (4)Table 2. Absolute Maximum Ratings (5)Table 3. Operating Conditions (5)Table 4. Humidity Sensor Specification, T A = +25°C, V DD = 2.3V to 5.5V (6)Table 5. Temperature Sensor Specification, T A = +25°C, V DD = 2.3V to 5.5V (7)Table 6. I2C Timing Parameters (11)Table 7. Status Bits (14)Table 8. Non-volatile Memory Registers (14)Table 9. Register Values for Different Resolution Settings (15)1.Pin AssignmentsFigure 1. Pin Assignments for 3mm 2.41mm 6-LGA Package (Top View)2.Pin DescriptionsTable 1. Pin DescriptionsPin Number Name Type Description1 SCL In/outSerialclock2 SDA In/outSerialdata3 VC ─Connect a 0.1µF decoupling capacitor from VC to ground4 VDD InSupplyvoltage5 NC ─Do not connect6 VSS InGround[a]“NC” stands for not connected / no connection required / not bonded.3.Absolute Maximum RatingsThe absolute maximum ratings are stress ratings only. Stresses greater than those listed below can cause permanent damage to the device. Functional operation of the HS300x at absolute maximum ratings is not implied. Exposure to absolute maximum rating conditions might affect device reliability.Table 2. Absolute Maximum RatingsSymbol Parameter Conditions Minimum Maximum Units AnalogSupplyVoltage -0.3 6.0 V Storage Temperature Range -55 150 °C4.Recommended Operating ConditionsImportant note: The HS300x series sensors are optimized to perform best in the more common temperature and humidity ranges of 10°C to 50°C and 20% RH to 80% RH, respectively. If operated outside of these conditions for extended periods, especially at high humidity levels, the sensors may exhibit an offset. In most cases, this offset is temporary and will gradually disappear once the sensor is returned to normal temperature and humidity conditions. The amount of the shift and the duration of the offset vary depending on the duration of exposure and the severity of the relative humidity and temperature conditions. The time needed for the offset to disappear can also be decreased by using the procedures described in sections 10 and 12.Table 3. Operating ConditionsParameter Condition Minimum Typical Maximum Units Operating Supply Voltage 3.3 5.5 V Extended Operating Supply Voltage Operating temperature from -20 to 125°C 1.8 5.5 V Operating Humidity Range 0 100 %RH Operating Temperature Sensor Range -40 125 °CSleep CurrentSleep Mode -40 to 85°C 0.6 1µA -40 to 125°C 1 3Average Current[a]One RH + temperaturemeasurement/second8-bitresolution 1.0 1.5 1.7µA10-bitresolution 2.0 2.6 2.812-bitresolution 5.5 7.0 7.114-bitresolution 20.1 24.4 24.4Measurement Time Wake-up 0.10ms Humidity or temperatureincluding the digitalcompensation8-bitresolution 0.5510-bitresolution 1.3112-bitresolution 4.5014-bitresolution 16.90[a]Minimum, typical and maximum average currents are given at 1.8V, 3.3V and 5.5V V DD respectively.5.Humidity and Temperature Sensor Performance5.1Humidity Sensor SpecificationTable 4. Humidity Sensor Specification, T A = +25°C, V DD = 2.3V to 5.5VParameter Condition Minimum Typical Maximum Units Operating Range 0 100 %RHAccuracy[a]HS300110% to 90%RH±1.5 ±1.8%RHHS3002±1.8±2.0HS300320% to 80%RH±2.5 ±3.5HS3004±3.5±4.5Resolution 8-bit0.71.0%RH14- bit 0.01 0.015Hysteresis ±1.0%RH Noise in Humidity (RMS) 14-bit 0.014 %RHNon-Linearity from Response Curve HS300110% to 90%RH±0.15±0.25%RH HS3002HS300320% to 80%RHHS3004Long-Term Stability ±0.1 ±0.25 %RH/YrResponse Time Constant[b] ( H) 20% to 80% RH, 1 meter/sec airflow 1sec20% to 80% RH, Still Air 3.0 4.0 6.0[a]Monotonic increases from 10 to 90%RH after sensor has been stabilized at 50%RH.[b]Initial value to 63% of total variation.5.2Temperature Sensor SpecificationTable 5. Temperature Sensor Specification, T A = +25°C, V DD = 2.3V to 5.5VParameter Condition Minimum Typical Maximum Units Operating Range -40 125 °CAccuracy HS3001-10°C to 80°C ±0.2 ±0.3°CHS3002HS30030°C to 70°C±0.25 ±0.35HS3004±0.3±0.5Resolution 8- bit 0.6 0.9 1.5°C14-bit 0.010.0150.025Response Time Constant[a] ( T) 2..0 Sec. Long-Term Stability 0.02 °C/YrSupply Voltage Dependency[b]VDD ≥ 2.8V 0.03 0.1 °C/V 1.8V < VDD < 2.8V 1.25 2.25 °C/V[a]Response time depends on system thermal mass and air flow.[b]Temperature accuracy can be optimized for specified supply voltages upon request.5.3Sleep CurrentThe sleep current of the HS300x series depends on the operating temperature, as shown in the following figure. Note that there is no significant dependence of the sleep current on the supply voltage.Figure 2. Sleep Current Variation over Temperature, V DD at 3.3V5.4 Humidity Sensor Accuracy GraphsThe typical and maximum relative humidity sensor accuracy tolerances are shown in the following figures.Figure 3. HS3001 RH Accuracy Tolerance at 25°CFigure 4. HS3001 RH Accuracy over TemperatureFigure 5. HS3002 RH Accuracy Tolerance at 25°CFigure 6. HS3002 RH Accuracy over TemperatureFigure 7. HS3003 RH Accuracy Tolerance at 25°CFigure 8.HS3003 RH Accuracy over TemperatureFigure 9. HS3004 RH Accuracy Tolerance at 25°CFigure 10. HS3004 RH Accuracy over Temperature5.5Temperature Sensor Accuracy GraphsThe typical and maximum temperature sensor accuracy tolerances are shown in the following figures.Figure 11.HS3001/HS3002 TemperatureSensor Accuracy ToleranceFigure 12. HS3003 Temperature SensorAccuracy ToleranceFigure 13. HS3004 Temperature SensorAccuracy Tolerance6. Sensor InterfaceThe HS300x series sensor uses a digital I2C-compatible communication protocol. To accommodate multiple devices, the protocol uses two bi-directional open-drain lines: the Serial Data Line (SDA) and the Serial Clock Line (SCL). Pull-up resistors to V DD are required. Several slave devices can share the bus; however only one master device can be present on the line.6.1 I2C Features and TimingThe HS300x series sensor operates as a slave device on the I2C bus with support for 100kHz and 400kHz bit rates. Each transmission is initiated when the master sends a 0 START bit (S), and the transmission is terminated when the master sends a 1 STOP bit (P). These bits are only transmitted while the SCL line is HIGH.Figure 14. Timing DiagramTable 6.I2C Timing ParametersParameterSymbol Minimum Typical Maximum UnitsSCL Clock Frequency [a]f SCL 20 400 kHz START Condition Hold Time Relative to SCL Edge t HDSTA 0.1 µsMinimum SCL Clock LOW Width [b] t LOW 0.6 µs Minimum SCL Clock HIGH Width [b]t HIGH 0.6 µs START Condition Setup Time Relative to SCL Edge t SUSTA 0.1 µsData Hold Time on SDA Relative to SCL Edge t HDDAT 0 0.5 µs Data Setup Time on SDA Relative to SCL Edge t SUDAT 0.1 µs STOP Condition Setup Time on SCLt SUSTO 0.1 µsBus Free Time Between STOP Condition and START Conditiont BUS 1 µs[a] The minimum frequency of 20kHz applies to test only; no minimum under normal operations.[b] Combined LOW and HIGH widths must equal or exceed the minimum SCL period.6.2 Sensor Slave AddressThe HS300x series default I2C address is 44HEX. The device will respond only to this 7-bit address. See section 6.3 for further information. Custom I2C address can be provided upon request.6.3I2C CommunicationThe sensor transmission is initiated when the master sends a 0 START bit (S). The transmission is terminated when the master sends a 1 STOP bit (P). These bits are only transmitted while the SCL line is HIGH (see Figure 155 for waveforms).Once the START condition has been set, the SCL line is toggled at the prescribed data rate, clocking subsequent data transfers. Data on the SDA line is always sampled on the rising edge of the SCL line and must remain stable while SCL is HIGH to prevent false START or STOP conditions.Figure 15. START and STOP Condition WaveformAfter the START bit, the master device sends the 7-bit slave address (see section 6.2) to the HS300x, followed by the read/write bit, which indicates the transfer direction of any subsequent data. This bit is set to 1 to indicate a read from slave to master or set to 0 to indicate a write from master to slave.All transfers consist of 8 bits and a response bit: 0 for Acknowledge (ACK) or 1 for Not Acknowledge (NACK). After the ACK is received, another data byte can be transferred or the communication can be stopped with a STOP bit.6.4 Measurement ModeThe HS300x is factory-programmed to operate in Sleep Mode. In Sleep Mode, the sensor waits for commands from the master before taking measurements. The digital core only performs conversions when it receives aMeasurement Request command (MR); otherwise, it is always powered down.6.5 Measurement Requests (MR)The MR command is required to wake up the HS300x from its Sleep Mode. Initiate the Measurement Request by sending the 7-bit slave address followed by an eighth bit = 0 (WRITE).A measurement cycle consists of a humidity and temperature conversion followed by the digital signal processor (DSP) correction calculations.At the end of a measurement cycle, the digital output register will be updated before powering down. The output is always scaled to 14 bits. The order of the bits is big-endian.Figure 16.Measurement RequestDevice Slave Address [6:0]Slave Address Bit (MSB first)Start ConditionStop ConditionAcknowledge (ACK)Read/Write(Example: Write = 0)Wait for Slave ACK6.6Data Fetch (DF)At the end of a measurement cycle, valid data can be fetched. The status bits of the DF results can be used to detect if the data is valid or stale (see section 6.7); otherwise, wait for the measurements to complete before performing the DF.The DF command starts with the 7-bit slave address followed by an eighth bit = 1 (READ). The HS300x as a slave sends an acknowledge (ACK) indicating success.The number of data bytes returned by the HS300x is determined by when the master sends the NACK and STOP condition. The full 14 bits of the humidity data are fetched in the first two bytes. The two MSBs of the first byte are the status bits.The 14 bits of temperature data follow the humidity data. The last two bits (LSBs) of the fourth data byte are undetermined and should be masked off. In the event that the temperature data is not needed, the read can be terminated by sending a NACK after the second byte. Alternatively, if only 8-bit resolution is desired for the temperature output, the read can be terminated after the 3rd byte by issuing a NACK followed by a stop bit. The measurement time depends on the configured sensor resolution. Error! Reference source not found.below lists examples when the resolutions for the relative humidity and temperature measurements are the same. For different relative humidity and temperature resolution settings, the measurement times in 3 should be used, along with the 0.1 ms wake-up time.For example, an 8-bit relative humidity measurement and a 12-bit temperature measurement results in a total measurement time of:0.1 ms + 0.55 ms + 4.5 ms = 5.15 ms.RH+T measurement times (including wake-up time) at different resolution settings.18 1.2010 2.7212 9.1014 33.901Same resolutions are assumed for both relative humidity and temperature.Figure 17. Data FetchDevice Slave Address [6:0]Humidity Data [13:8]Humidity Data [7:0]Humidity Data [13:8]Humidity Data [7:0]Temp. Data [15:8]Slave Address Bit (MSB first)Command or Data Bit (Example: Bit 2)Status BitStart Condition Stop Condition Acknowledge (ACK)Not Acknowledge Read/Write(NACK) (Read = 1)Wait forDevice Slave Address [6:0]Temp. Data [7:2]Mask [1:0]6.7Status BitsThe status bits are used to indicate the current state of the fetched data. The two MSBs of the humidity data byte are the status bits (see the following table).Table 7. Status BitsStatus Bits Definition00B Valid Data: Data that has not been fetched since the last measurement cycle01B Stale Data: Data that has already been fetched since the last measurement cycleNote: If a data fetch is performed before or during the first measurement after power-on reset, then the stale status will bereturned, but this data is actually invalid since the first measurement has not been completed.6.8Accessing the Non-volatile MemoryThe HS300x series non-volatile memory stores its measurement resolution setting and its ID number. To change the sensor resolution or read the ID number, the master must place the HS300x into programming mode while the chip is powering up. The figure below shows the sequence of commands needed to enter the programming mode, which must be sent within 10ms after applying power to the sensor. The master must send the I2C address and a Write bit followed by the command 0xA0|0x00|0x00.Figure 18. Sequence of Commands to Enter Programming ModeThis command takes 120 s to process, after which the master has access to the non-volatile memory registers listed in the following table. All of these registers are 16 bits wide.To return to normal sensor operation and perform measurements, the master must send the I2C address and a Write bit, followed by the command: 0x80|0x00|0x00.Table 8. Non-volatile Memory RegistersRegister Description0x06 Humidity Sensor Resolution – Read Register (bits [11:10])0x46 Humidity Sensor Resolution – Write Register (bits [11:10])0x11 Temperature Sensor Resolution – Read Register (bits [11:10])0x51 Temperature Sensor Resolution – Write Register (bits [11:10])0x1E Read Sensor ID – Upper 2 bytes0x1F Read Sensor ID – Lower 2 bytes6.9Setting the Measurement ResolutionThe HS300x series relative humidity and temperature measurement resolutions can be set independently to 8, 10, 12, or 14-bits by writing to the non-volatile memory, and are initially set to 14-bits by default. The procedure to set the humidity sensor resolution is illustrated in Figure 19Error! Reference source not found.. The relative humidity and temperature resolution can be read in registers 0x06 and 0x11, respectively, or written in registers 0x46 or 0x51. The resolution information is stored in bits [11:10] of these registers, as listed in the Table 10. All of the other bits in these registers must be left unchanged. As such, before writing new resolution settings, the contents of the read registers must be read, and only bits [11:10] can be changed in the write registers. Once bits [11:10] are changed to set the desired resolution, the entire register must be written back to the HS300x sensor.Figure 19. Sequence of Commands to Change the Relative Humidity ResolutionTable 99. Register Values for Different Resolution SettingsResolution register bits [11:10] Resolution (bits)00B 801B 1010B 1211B 14The sensor non-volatile memory requires 120µs to load the data into the registers after step 1, and requires 14ms to write the data after step 4. Failure to comply with these processing times may result in data corruption and introduce errors in sensor measurements. The procedure to change the temperature sensor resolution is the same as that depicted in Figure 19, except the register address in Step 1 must be set to 0x11 and the register address in Step 4 will be 0x51.6.10Reading the HS300x ID NumberThe sensor ID is a 32-bit number, and can be read in a similar fashion as illustrated in steps 1 and 2 of Figure 19, using the appropriate register address values. The ID number is stored in two registers, with the upper and lower 16 bits stored in register addresses 0x1E and 0x1F, respectively.7. Calculating Humidity and Temperature OutputThe entire output of the HS300x is 4 bytes. The relative humidity (in percent) and the temperature (in degrees Celsius) are calculated with Equation 1 and Equation 2, respectively.14[130][%RH]10021Humidity :Humidity ⎛⎫=* ⎪-⎝⎭Equation 1o 14[152] [C]1654021Temperature :Temperature ⎛⎫=*- ⎪-⎝⎭Equation 28. Application CircuitFigure 20. HS300x Application Circuit (Top View)9.Package Drawings and Land PatternThe package outline drawings are appended at the end of this document and are accessible from the link below. The package information is the most current data available./document/psc/6-lga-package-outline-drawing-30-x-241-x-08-mm-body-10mm-pitch-lhg6d110.Soldering InformationThis section discusses soldering considerations for the HS300x. When a relative humidity sensor is exposed to the high heat associated with the soldering process, the sensor element tends to dry out. To avoid an offset in the relative humidity readings, the sensor element must be rehydrated after the soldering process. Care must also be taken when selecting the temperatures and durations involved in the soldering process to avoid irreversibly damaging the sensor element.The recommended soldering profile for a lead-free (RoHS-compliant) process is shown below.Figure 21. Recommended Soldering ProfileIt is important to ensure this temperature profile is measured at the sensor itself. Measuring the profile at a larger component with a higher thermal mass means the temperature at the small sensor will be higher than expected.For manual soldering, the contact time must be limited to 5 seconds with a maximum iron temperature of 350°C.In either case, a board wash after soldering is not recommended. Therefore, if a solder paste is used, it is strongly recommended that a “no-clean” solder paste is used to avoid the need to wash the PCB.After soldering, the recommended rehydration conditions are either:▪ A relative humidity of 75% RH at room temperature for at least 12 hours▪ A relative humidity of 40% to 50% RH at room temperature for 3 to 5 daysOtherwise, in the relative humidity readings, there might be an initial offset, which will slowly disappear as the sensor is exposed to ambient conditions.11.PCB Layout GuideWhen designing the PCB, undesired heat transfer paths to the HS300x series must be minimized. Excessive heat from other components on the PCB will result in inaccurate temperature and relative humidity measurements. As such, solid metal planes for power supplies should be avoided in the vicinity of the sensor since these will act as thermal conductors. To further reduce the heat transfer from other components on the board, openings can be milled into the PCB as shown in Figure 21.Figure 22. Milled PCB Openings for Thermal Isolation12.Storage and HandlingRecommendation: Once the sensors are removed from their original packaging, store them in metal-in antistatic bags.Avoid using polyethylene antistatic bags as they may affect sensor accuracy.The nominal storage conditions are 10 to 50°C and humidity levels within 20% to 60%RH. If stored outside of these conditions for extended periods of time, the sensor readings may exhibit an offset. The sensor can be reconditioned and brought back to its calibration state by applying the following procedure:1.Bake at a temperature of 100°C with a humidity < 10%RH for 10 to 12 hours.2.Rehydrate the sensor at a humidity of 75%RH and a temperature between 20 to 30°C for 12 to 14 hours.13.Quality and ReliabilityThe HS300x series is available as a qualified product for consumer and industrial market applications. All data specified parameters are guaranteed if not stated otherwise.14.Ordering InformationOrderable Part Number Description and Package Carrier Type TemperatureHS3001 Digital Relative Humidity and Temperature Sensor.Cut Tape -40°C to +125°C±1.5%RH (Typical), 3.0 × 2.41 × 0.8mm, 6-LGA (LHG6D1)Cut Tape -40°C to +125°C HS3002 Digital Relative Humidity and Temperature Sensor.±1.8%RH (Typical), 3.0 × 2.41 × 0.8mm, 6-LGA (LHG6D1)HS3003 Digital Relative Humidity and Temperature Sensor.Cut Tape -40°C to +125°C±2.5%RH (Typical), 3.0 × 2.41 × 0.8mm, 6-LGA (LHG6D1)HS3004 Digital Relative Humidity and Temperature Sensor.Cut Tape -40°C to +125°C±3.5%RH (Typical), 3.0 × 2.41 × 0.8mm, 6-LGA (LHG6D1)HS300x Datasheet15.Revision HistoryRevision Date Description of ChangeApril 9, 2021 ▪Added humidity and temperature operating range to Table 3.March 4, 2021 ▪Corrected Figure 8, 10 toleranceApril 20, 2020 ▪Updated Table 3, 4, 5 specs▪Added non-volatile memory programming instruction▪Added measurement resolution programming and reading sensor ID instructions▪Added PCB layout guideAugust 6, 2018 ▪Updated temperature sensor response time in Table 5.April 24, 2018 ▪Clarified Figure 16 and Figure 17.▪Update for Equation 2.▪Edits for section 6.6.▪Template updates for section 9.February 14, 2018 Changed operating voltage and added recommended operating conditions.November 8, 2017 Initial release.© 2021 Renesas Electronics Corporation 21 April 9, 2021。

+ -Q-30carrying case. Ordering Example: HHSL-1 and STICK-CABLE , sound level meter and analog output cable.Classic Handheld Analog VOMHHMASpecifications DC Voltage Ranges : 3, 12, 60, 300, 1200 (20 k Ω/V)Accuracy : ±3% of full scale Sound Level MeterU P ortability and Simplicity One Hand OperationU A C and DC Output Functions ProvidedU A and C Frequency Weighting CharacteristicsU S low and Fast Time Frequency Weighting CharacteristicsU M aximum Hold FunctionU U nder and Over Range IndicationU V alox Housing to Withstand Accidental Drops Specifications Display : 31⁄2 digit liquid crystal display (LCD) with maximum reading of 1999Zero : AutomaticLow battery indication : The is displayed when battery voltage drops below the operating level Operating environment: 0 to 50°C at <75% RH Storage temperature: -20 to 60°C, 0 to 80% RH with battery removed from meter Accuracy: Stated accuracy at 23°C ±5°C, <75% RH Dimensions: 215 H x 44 W x 40 mm D (8.5 x 1.7 x 1.6")Weight: 200 g including battery (7 oz) (1.5V x 4 pcs “AAA” size)Standard Applied: IEC 651 Type 2Range: Lo: 35 to 90 dB Hi: 75 to 130 dB Resolution: 0.1 dB Accuracy: ±1.5 dB (ref 94 dB @ 1 kHz)Dynamic Range: 55 dB Frequency Range: 31.5 to 8000 Hz Frequency Weighting: A, C Time Weighting: Slow & Fast Ordering Examples: HHMA , HHMA-CP and HHMA-SC , analog VOM, AC clamp-on current probe and a soft case. OCW-2 OMEGACARE SM extends standard 3-year warranty to a total of 5 years.HHSL-1HHSL-1. Soft carrying case included.HHMA-1.U D rop Resistant High-Impact CaseU D iode Overload Protection MeterU F used Resistance RangesU A C/DC Voltage Measurement to 1200VDecay <1 dB/3min Microphone: Electret condenser microphone Auxiliary Outputs AC Conditioned: 0.55 Vrms corresponding to each range step Impedance: 600 ΩDC Conditioned: 10 mV/dB (nominal)Impedance: 100 ΩOMEGACARE SM extended warranty program is available for models shown on this page. Ask your sales respresentative for full details when placing an order. OMEGACARE SM covers parts, labor and equivalent loaners.AC Voltage Ranges : 3, 12, 60, 300, 1200 (5 k Ω/V)Accuracy: ±4% of full scale Resistance Ranges: 20 k Ω, 200 k Ω, 2 M Ω, 20 M Ω (200 Ω center scale on lowest range)Accuracy: ±3% of scale length DC Current Ranges: 600 µA, 6 mA, 60 mA, 600 mA Burden Voltage: 330 mV Accuracy: ±3% of full scale Weight: 1 kg (2 lb)Dimensions: 70 W x 34 D x 108 mm L (23⁄4 x 15⁄16 x 41⁄4") O l d F a v o r i t e T r i e d a n d T r u e。

Our continuing commitment to quality products may mean a change in specifications without notice.©2015 DAIKIN NORTH AMERICA LLC • Houston, Texas • USA 2/15HE SERIES – Evaporative HumidifiersModels: HE12M, HE12A, HE17M, HE17A, HE18FM, HE18FA, HE12MB †, HE17MB † 1 YEARARTSED *Y PARTS LIMITED WARRANTY * 1-Year Parts Limited Warranty on Accessories when purchased separately from a humidifier * 10-Year Parts Limited Warranty on Humidifier and Humidistats† Only available in Canada LIMITED WARRANTY What This Limited Warranty Covers Daikin North America LLC (“Daikin”) warrants that, for the period stated below, its HE Series evaporative humidifiers and humidistats (the “Products”) will be free from defects in manufacturing or materials.What This Limited Warranty Does Not Cover This limited warranty does not cover components or materials used in the installation of the Products, including, but not limited to, wiring, fasteners, ductwork, gaskets, pipes, or tubes. This warranty does not cover evaporator pads, water strainers, or metering orifices.Who Has Rights under this Limited Warranty This limited warranty runs to the original purchaser of the Product(s) who owns, and resides in, the residential dwelling in which the Product(s) are initially installed (“you”).Other Limitations Remedies under this limited warranty are conditioned upon the normal use and care of the Product(s). The Product(s) must have been installed according to the applicable manual and all applicable wiring diagrams, in addition to all applicable building and construction codes and all other applicable law. This limited warranty does not cover damage caused by misuse, neglect, fire, damage in transit, sediment, poor water quality, or other casualty, damage caused during installation, or any cause beyond the control of Daikin. This warranty does not cover Prod -ucts placed into commercial or industrial service. ANY IMPLIED WARRANTIES, INCLUDING BUT NOT LIMITED TO WARRANTIES OF MERCHANTABILITY AND FITNESS FOR PARTICULAR PURPOSE, ARE LIMITED TO THE DURATION OF THE APPLICABLE EXPRESS WARRANTY. Some states and provinces do not allow limitations on how long an implied warranty lasts, so the above limitation may not apply to you.How Long This Limited Warranty Lasts This limited warranty begins on the date upon which the Products are installed. The limited warranty lasts for the time period(s) listed below:Product Limited Warranty Term HE Series humidifier 10 years on all components (including any HEP-GFX3 or HEP-MHX3 humidistat included in the original packaging of an HE Series humidifier).HEP-GFX3 or HEP-MHX3 humidistat, sold separately 1 year if purchased as an itemseparate from a humidifier.How to Obtain Service • Contact the contractor from whom you purchased the Products(s), or • Contact Daikin using the information below.What Daikin Will Do If the Product(s) covered by this limited warranty are not as war -ranted and you notify Daikin of such failure during the term of the limited warranty, Daikin will, at its option, furnish replacement part(s) and/or whole replacement Product(s). If the exact original Product or part is no longer available, Daikin reserves the right to substitute a similar part or Product of equal or greater quality. All replacement parts or Products will be shipped either to the original selling contractor or directly to you. You must pay for all shipping of replacement part(s) and/or Product(s). Labor, de-installation costs, and re-installation costs are not covered by this limited warranty. Daikin reserves the right to inspect any Product(s) that you believe fails to meet the requirements of this limited warranty and you must allow Daikin or its representatives all access reasonably necessary to perform such inspections or at Daikin’s request, return the Product(s). Any part replaced pursuant to this warranty is warranted only for the unexpired portion of the warranty term applying to the original part.Limitation of Liability IN NO EVENT WILL DAIKIN BE LIABLE FOR ANY INCIDENTAL OR CONSEQUENTIAL DAMAGES ARISING OUT OF THE FAILURE OF THE PRODUCT, WHETHER BASED ON BREACH OF EXPRESS OR IMPLIED WARRANTY, OTHER BREACH OF CONTRACT, NEGLIGENCE OR OTHER TORT. Some states and provinces do not allow the exclusion or limitation of incidental or consequential damages, so the above limitation may not apply to you.Your Rights Under State Law This warranty gives you specific legal rights, and you may also have other rights which vary from state to state or province to province.How to Contact Daikin You may contact Daikin about warranty questions or claims using the following contact information: by mail at 43800 Grand River Ave, Novi, Michigan, 48375 or, by telephone at 1-855-303-1821.。