honeywell-MIDAS传感器选型手册

Dimensions: [mm]Scale - 2,5:17447720047A74477200477447720047T e m p e r a t u r eT T T 7447720047Cautions and Warnings:The following conditions apply to all goods within the product series of WE-TI of Würth Elektronik eiSos GmbH & Co. KG:General:•This electronic component was designed and manufactured for use in general electronic equipment.•Würth Elektronik must be asked for written approval (following the PPAP procedure) before incorporating the components into any equipment in fields such as military, aerospace, aviation, nuclear control, submarine, transportation (automotive control, train control, ship control), transportation signal, disaster prevention, medical, public information network, etc. where higher safety and reliability are especially required and/or if there is the possibility of direct damage or human injury.•Electronic components that will be used in safety-critical or high-reliability applications, should be pre-evaluated by the customer. •The component is designed and manufactured to be used within the datasheet specified values. If the usage and operation conditions specified in the datasheet are not met, the wire insulation may be damaged or dissolved.•Do not drop or impact the components, the component may be damaged.•Würth Elektronik products are qualified according to international standards, which are listed in each product reliability report. Würth Elektronik does not warrant any customer qualified product characteristics beyond Würth Elektroniks’ specifications, for its validity and sustainability over time.•The customer is responsible for the functionality of their own products. All technical specifications for standard products also apply to customer specific products.Product specific:Soldering:•The solder profile must comply with the technical product specifications. All other profiles will void the warranty.•All other soldering methods are at the customers’ own risk.Cleaning and Washing:•Washing agents used during the production to clean the customer application might damage or change the characteristics of the wire insulation, marking or plating. Washing agents may have a negative effect on the long-term functionality of the product. Potting:•If the product is potted in the costumer application, the potting material might shrink or expand during and after hardening. Shrinking could lead to an incomplete seal, allowing contaminants into the core. Expansion could damage the components. We recommend a manual inspection after potting to avoid these effects. Storage Conditions:• A storage of Würth Elektronik products for longer than 12 months is not recommended. Within other effects, the terminals may suffer degradation, resulting in bad solderability. Therefore, all products shall be used within the period of 12 months based on the day of shipment.•Do not expose the components to direct sunlight.•The storage conditions in the original packaging are defined according to DIN EN 61760-2.•The storage conditions stated in the original packaging apply to the storage time and not to the transportation time of the components. Packaging:•The packaging specifications apply only to purchase orders comprising whole packaging units. If the ordered quantity exceeds or is lower than the specified packaging unit, packaging in accordance with the packaging specifications cannot be ensured. Handling:•Violation of the technical product specifications such as exceeding the nominal rated current will void the warranty.•Applying currents with audio-frequency signals might result in audible noise due to the magnetostrictive material properties. •Due to heavy weight of the components, strong forces and high accelerations might have the effect to damage the electrical connection or to harm the circuit board and will void the warranty.•Please be aware that products provided in bulk packaging may get bent and might lead to derivations from the mechanical manufacturing tolerances mentioned in our datasheet, which is not considered to be a material defect.•The temperature rise of the component must be taken into consideration. The operating temperature is comprised of ambient temperature and temperature rise of the component.The operating temperature of the component shall not exceed the maximum temperature specified.These cautions and warnings comply with the state of the scientific and technical knowledge and are believed to be accurate and reliable.However, no responsibility is assumed for inaccuracies or incompleteness.Würth Elektronik eiSos GmbH & Co. KGEMC & Inductive SolutionsMax-Eyth-Str. 174638 WaldenburgGermanyCHECKED REVISION DATE (YYYY-MM-DD)GENERAL TOLERANCE PROJECTIONMETHODTRi001.0012019-07-17DIN ISO 2768-1mDESCRIPTIONWE-TI Radial Leaded Wire WoundInductor ORDER CODE7447720047SIZE/TYPE BUSINESS UNIT STATUS PAGEImportant NotesThe following conditions apply to all goods within the product range of Würth Elektronik eiSos GmbH & Co. KG:1. General Customer ResponsibilitySome goods within the product range of Würth Elektronik eiSos GmbH & Co. KG contain statements regarding general suitability for certain application areas. These statements about suitability are based on our knowledge and experience of typical requirements concerning the areas, serve as general guidance and cannot be estimated as binding statements about the suitability for a customer application. The responsibility for the applicability and use in a particular customer design is always solely within the authority of the customer. Due to this fact it is up to the customer to evaluate, where appropriate to investigate and decide whether the device with the specific product characteristics described in the product specification is valid and suitable for the respective customer application or not.2. Customer Responsibility related to Specific, in particular Safety-Relevant ApplicationsIt has to be clearly pointed out that the possibility of a malfunction of electronic components or failure before the end of the usual lifetime cannot be completely eliminated in the current state of the art, even if the products are operated within the range of the specifications.In certain customer applications requiring a very high level of safety and especially in customer applications in which the malfunction or failure of an electronic component could endanger human life or health it must be ensured by most advanced technological aid of suitable design of the customer application that no injury or damage is caused to third parties in the event of malfunction or failure of an electronic component. Therefore, customer is cautioned to verify that data sheets are current before placing orders. The current data sheets can be downloaded at .3. Best Care and AttentionAny product-specific notes, cautions and warnings must be strictly observed. Any disregard will result in the loss of warranty.4. Customer Support for Product SpecificationsSome products within the product range may contain substances which are subject to restrictions in certain jurisdictions in order to serve specific technical requirements. Necessary information is available on request. In this case the field sales engineer or the internal sales person in charge should be contacted who will be happy to support in this matter.5. Product R&DDue to constant product improvement product specifications may change from time to time. As a standard reporting procedure of the Product Change Notification (PCN) according to the JEDEC-Standard inform about minor and major changes. In case of further queries regarding the PCN, the field sales engineer or the internal sales person in charge should be contacted. The basic responsibility of the customer as per Section 1 and 2 remains unaffected.6. Product Life CycleDue to technical progress and economical evaluation we also reserve the right to discontinue production and delivery of products. As a standard reporting procedure of the Product Termination Notification (PTN) according to the JEDEC-Standard we will inform at an early stage about inevitable product discontinuance. According to this we cannot guarantee that all products within our product range will always be available. Therefore it needs to be verified with the field sales engineer or the internal sales person in charge about the current product availability expectancy before or when the product for application design-in disposal is considered. The approach named above does not apply in the case of individual agreements deviating from the foregoing for customer-specific products.7. Property RightsAll the rights for contractual products produced by Würth Elektronik eiSos GmbH & Co. KG on the basis of ideas, development contracts as well as models or templates that are subject to copyright, patent or commercial protection supplied to the customer will remain with Würth Elektronik eiSos GmbH & Co. KG. Würth Elektronik eiSos GmbH & Co. KG does not warrant or represent that any license, either expressed or implied, is granted under any patent right, copyright, mask work right, or other intellectual property right relating to any combination, application, or process in which Würth Elektronik eiSos GmbH & Co. KG components or services are used.8. General Terms and ConditionsUnless otherwise agreed in individual contracts, all orders are subject to the current version of the “General Terms and Conditions of Würth Elektronik eiSos Group”, last version available at .Würth Elektronik eiSos GmbH & Co. KGEMC & Inductive SolutionsMax-Eyth-Str. 174638 WaldenburgGermanyCHECKED REVISION DATE (YYYY-MM-DD)GENERAL TOLERANCE PROJECTIONMETHODTRi001.0012019-07-17DIN ISO 2768-1mDESCRIPTIONWE-TI Radial Leaded Wire WoundInductor ORDER CODE7447720047SIZE/TYPE BUSINESS UNIT STATUS PAGE。

Honeywell 固态压力传感器20PC 系列 20PC Flow Through 系列无放大压力传感器 22PC 系列 24PC 系列 26PC 系列 24PC 26PC压力量程（psi ） 1,15,100 0-0.5,0-1,0-5,0-150-30,0-100,0-2501,0-5,0-15,0-30 0-100 0.5,1,5,15,30,100,250 压力测量方式 表压 表压、差压、绝压表压和差压 表压 结构 热塑 热塑热塑 热塑 端子 PCB PCBPCB PCB ，引线 输出 mV mVmV mV MV 零点、满量程校正 无 无有 无 有 温度补偿 无 无 有 无 有信号处理放大压力 140PC 系列 160PC 系列 189PC 系列传感器压力量程（psi ） 0-1,0-2,0-5,0-5.80-10,0-30(141/142PC)±1,±2.5,±5,±15(143PC)0-27.68″H 2O(161/162PC) ±2.5,5″H 2O(163PC) 0-5,0-10″H 2O(164PC) 0-15 0-100 0-150 压力测量方式 绝压、差压、表压和负压差压、表压和负压 表压 结构 热塑热塑 热塑 端子 0.010″×0.020″PCB同左 0.025″×0.025″PCB 输出 VV V 零点、满量程校正 有有 有 温度补偿 有 有 有气体质量流量传感器低流量AWM1000系列 AWM2000系列 AWM3000系列 AWM40000系列流量范围 ±200,-600 to 1000sccm ±30, ±200, ±1000sccm 0-30,0-200,0-1000sccm ±25,±1000sccm,+6SLPM压力范围 ±4″H 2O ±4″H 2O +2″H2)供电电压 10V 10V 10V 10V输出 MV MV V&mA MV&V温度范围 -25~+85℃ -25~+85℃ -25~+85℃ -25~+85℃端子 0.025″PCB 0.025″PCB 0.025″PCB 0.025″PCB反应时间 3ms max 3ms max 3ms max 3ms max最大共模压力 25psi 25psi 25psi 150psi71170PC 系列 230P 系列 FS 系列触力传感器40PC/4000PC/5000PC 系列 ST/ML 系列 SSP 系列±1,0-15,0-100,0-150,0-250psi(40PC) 0-1,5,10,25,50,100,150,200,250, 0-15,0-100,0-250psi(SSPB,SSPC,SSPE)±1,0-15,0-100,0-150psi,0-250(4000PC) 0-300,500,1K,2K,3K,5Kpsi 1.5-15,100,250psi(SSPD)表压 表压，密封表压 表压热塑（40PC ），黄铜（4000PC ） 不锈钢，黄铜 压铸锌PCB 引脚（40PC ），引线（4000PC ） PACKARD 300mm 长，#18线规引线V 0．5-4．5V 或4-20mA MA 模拟输出或可调触发开关输出有 有 有有 有 有高流量AWM5000系列0-7” H 2O 0-14” H 2O ，0-28”H 2O 0-15，0-30，0-60，0-100，0-150psi 1500g,500g,*过压5500g差压和表压表压 触力 热塑 不锈钢 外壳热塑，不锈钢插杆0．020×0.014”PCB 18”长，22号线规，4芯电缆 PCBmV mV mV 有有 有 有 有 有0-5，0-10，0-15，0-20SLPM---10VV-25-+70℃AMP 4针连接器60ms max50psiHoneywell Datamate 型压力传感器主要应用・液位测量・天然气管线・流量检测・厂用水气油等公用系统・地球物理探测・润滑系统・泄漏探测 特性 好处・低成本 ・可用于各种工业场合・螺纹连接导线管 ・可用于过程控制・防水外壳 ・可直接安装・工厂标定 ・易包装・结构紧凑主要技术参数 尺寸图XX,XX=inches, (XX,XX)=mm DIMENSIONS XX,XX=inches (XX,X)=mm量程范围0-5，15，25，50 PSIG0-100，200 PSIS0-500，1K ，3K ，5K ，PSIS物理参数保证压力： 2倍或1.5倍额定电压冲击压力： 10倍或5倍额定电压材料： 300系列不锈钢冲击： 50g(5ms)振动： Meets MIL-STD-810-C,Figue 514,2-5, Curve AK,20.7g rms minimum重量： 小于155克电气参数满量程输出： 16±0.32mA进入1400Ω回路电阻@25度零输出： 4±0.04 mA@25度电源： 12 to 40Vdc反极性保护： 有绝缘电阻： 1000M Ω,250 Vdc电气连接： 包括机壳接地3线,24AWG,XML 绝缘,43cm 长。

Viatran Phone: 1‐716‐629‐38003829 Forest Parkway Fax: 1‐716‐693‐9162_______________White PaperGuide to Pressure Transducer SelectionMost applications for pressure transducers are relatively straightforward. Install the transducer according to manufacturer’s recommendations, and obtain an accurate reading from an exceptionally reliable device. But life does not always follow the straight and narrow path. The purpose of this article is to provide some guidelines for helping a transducer user detect atypical conditions and compensate for them through the proper selection and application of the transducer.Why Use a Transducer?Pressure transducers are used to generate an electrical output for a variety of uses that may include computerized data collection, process monitoring and control, or electronic transmission of a pressure reading to a remote display. Another reason for using transducers is their accuracy. Transducers provide accuracies ranging from 0.1 percent full scale, with a typical accuracy of 0.5 percent.The greater the accuracy required, the more expensive the pressure measuring device. But since product quality in many processes is directly related to how accurately the pressure is maintained, the expense of a more accurate device will quickly be justified.Dealing with Abnormal ConditionsOnce the need for a pressure transducer has been determined, it is prudent to determine if there might be some out of the ordinary conditions that could upset transducer performance. The balance of this article will identify some of these conditions and what can be done to compensate for them.Temperature DynamicsTwo sources of temperature variation can affect transducer performance-ambient conditions and the fluid medium itself. Ambient conditions include such things as abrupt changes in air temperature due to heating and cooling systems cycling on and off and the effects of radiant energy impinging on the transducer. Variations in the fluid temperature occur most often during start-up of a process as the fluid goes from room temperature to a higher operating temperature.Dynamic temperature problems may arise because pressure transducers are calibrated under static conditions of both pressure and temperature. Dynamic temperature effects in the field, therefore, may be superimposed on a steady pressure condition and cause an unstable reading. The easiest solution to this problem is to wait for the temperature to achieve a steady state before making a pressure reading.Viatran Phone: 1‐716‐629‐38003829 Forest Parkway Fax: 1‐716‐693‐9162If accurate pressure readings must be made during large ambient temperature transitions, then corrective measures must be taken. Shielding the transducer may ameliorate ambient temperature shifts; you can build a baffle around it or wrap it with Styrofoam or some other insulating material.One-way to compensate for temperature effects of the media is to buffer the transducer by placing it at the end of a short length of stainless steel or copper tubing. The tubing dissipates excess heat at a rate determined by the material, diameter, and length of the tubing. Charts are readily available to help determine the proper dimensions of the tubing. This tubing forms a constant and acceptable temperature link between the transducer and the main body of fluid media.Media CompatibilityMost transducer media contact surfaces are made from stainless steel, either 17-4PH (precipitation hardenable) or 15-5PH. These are excellent special-purpose materials providing corrosion resistance similar to 303 and 304 grades of stainless steel. These materials handle most fluid media very well. If you know from previous experience, however, that these materials are unacceptable, then inform your transducer supplier. It is very likely that other options are available.Mechanical Shock and VibrationExcessive mechanical shock and vibration could develop due to reciprocating engines, piston pumps, hydraulic cylinders, and cycling valves. Cables that are subjected to continuous flapping may eventually break, and pressure fittings might eventually work loose.Strain-gauge transducers typically hold up extremely well under shock and vibration, and field-testing by manufacturers has brought about continual improvement in this area. This does not mean, however, that all caution should be thrown to the wind. If a transducer is likely to be exposed to a great deal of shock and vibration, tie the cabling down and/or protect it with conduit. Also use a high-quality pressure fitting and make certain that the transducer has been properly tightened.Dynamic OverloadA dynamic overload is a transient pressure spike of a magnitude greater than normal operating pressure. Such overloads may be present due to complex system dynamics and are very hard to trace. They can be as much as 10 times greater than the system pressure the transducer was designed to measure.Viatran Phone: 1‐716‐629‐38003829 Forest Parkway Fax: 1‐716‐693‐9162Dynamic overloads can place unacceptable stress on the transducer diaphragm and could cause zero shifts and possible transducer damage. The nature of these adverse effects depends on the magnitude and duration of the over-load. Short duration overloads usually present fewer problems than long duration overloads, which can seriously diminish transducer performance.If a zero shift due to an overload is suspected, drop the pressure in the system to zero and check the transducer’s zero output. Usually, a high positive zero shift is an indication of a pressure overload. If pressure spikes are a persistent problem, you may need to buy a higher rated transducer or correct the system dynamics with surge tanks and/or snubbing devices such as quick opening bypass valves, spring-loaded ball valves, and sintered metal snubbers. Also, relocation of the transducer may diminish or eliminate the overload condition.One Dynisco customer who needed to measure a pressure typically at 100-psi had severe system transients to 750-psi and was damaging 100-psi transducers. Because the ambient and fluid temperatures were quite steady, the customer was able to buy a 500-psi transducer and operate it at one-fifth the signal. Using the higher range unit eliminated all transducer damage.Fortunately, most transducers do not have to worry about dynamic overload. If you don’t think you have a dynamic overload problem, then you probably don’t. If a problem does exist, your supplier will help you evaluate the options.Dynamic ResponseMost transducer users want to measure pressure in a steady state. They don’t want to know what is happening to the pressure as changes take place. However some users want to measure dynamic pressure changes in the system. For these users, it is very important that they tell their transducer supplier that this is what they want to do.The dynamic response of a system is a very complicated subject. This complexity is further compounded by the sometimes-misunderstood usage of such terms as frequency response, dynamic response, response to a step input, and rise time. These terms mean one thing when applied to the transducer and another when referring to the system. If dynamic measurements are required, it is wise to discuss the application with the manufacturer and seek his advice.In addition to entering into a dialogue with your supplier, here are a few additional guidelines for using transducers to measure dynamic pressure:Viatran Phone: 1‐716‐629‐38003829 Forest Parkway Fax: 1‐716‐693‐91621. Couple the transducer as near as possible to the measuring point2. Use a flush diaphragm transducer instead of a cavity type for better frequencyresponse.3. Avoid isolating the transducer with tubing or snubbers because system dynamicswill change.Handling and InstallationAs mentioned earlier, today’s pressure transducer is an exceptionally rugged device. Even so, it pays to exercise a little common sense during handling and installation. Here are a few easy-to follow tips:1. Be careful with the electrical termination. Damage to the electrical connector orcable could put the transducer out of service.2. Never poke the diaphragm of a low-capacity transducer with a pencil point orother stiff object.3. This could damage the diaphragm, which in turn would affect transducerperformance.4. Do tighten the transducer well, making certain there is no leakage at the pressureconnection.5. Make sure the pressure fitting is made of a compatible material. Combiningmaterials with different expansion characteristics (say a brass fitting and a steel transducer) could result in a leak.6. If the transducer has a zero and span adjustment, position it so the adjustmentcan be reached with a screwdriver.7. Upon installation of the transducer, check the entire system for proper wiring,integrity of connections, and proper grounding.ConclusionRemember, experience has shown that most problems are instrument-or-system related, not transducer related. Poor electrical connections and improper grounding could cause elusive intermittent problems. If the problem persists even after a thorough system check, it may be reasonable to suspect that the transducer is faulty.This article has addressed questions users most often ask about the selection and application of pressure transducers. If you have any of the problems mentioned here, then it might be wise to consult directly with your transducer supplier. Tell him what your application is and what you hope to achieve through pressure measurement. A little time spent up front talking with the supplier can identify and compensate for potentially expensive problems before they have a chance to materialize.Viatran Phone: 1‐716‐629‐38003829 Forest Parkway Fax: 1‐716‐693‐9162。

honeywell-MIDAS传感器选型手册Midas?GAS DETECTOR SPECIFICATIONS Gas Monitoring SystemTransmitter DimensionSize (unit with Sensor) 5.91 (H) x 2.56 (W) x 6.02 (D) in(150 x 65 x 153 mm)Weight (unit with Sensor) 1.76 lb (0.8 kg)NF3 Pyrolyzer DimensionSize (unit with Sensor) 2.75 (H) x 2.48 (W) x 3.35 (D) in(70 x 63 x 85 mm)Weight (unit with Sensor)0.9 lb (0.41 kg)High-Temperature PFC Pyrolyzer DimensionSize (unit with Sensor) 3.9 (H) x 4.0 (W) x 5.5 (D) in(100 x 101 x 140 mm)Weight (unit with Sensor) 3 lb (1.36 kg)Power RequirementsOperating Voltage24VDC, -15 to +10%Operating Voltage withPower over Ethernet (PoE)48 VDC via PoEPower ConsumptionTransmitter Unit<5 WFind out more Toll-free: 800.538.0363SS01115-EN_V6 8/182016 Honeywell International Inc.Please Note:While every effort has been made to ensure accuracy in this publication, no responsibility can be accepted for errors or omissions. Data may change, as well as legislation, and you arestrongly advised to obtain copies of the most recently issued regulations, standards, and guidelines. This publication is not intended to form the basis of a contract.OP3 Pyrolyzer DimensionSize (unit with Sensor) 5.2 (H) x 2.4 (W) x 3.9 (D) in(132 x 60 x 98 mm)Weight (unit with Sensor) 2.65 lb (1.20 kg)NP1 Pyrolyzer DimensionSize (unit with Sensor) 5.02 (H) x 2.56 (W) x 5.29 (D) in(128 x 65 x 134 mm) Weight (unit with Sensor) 1.8 lb (0.81 kg)Find out more Toll-free: 800.538.0363SS01115-EN_V6 8/182016 Honeywell International Inc.* M IDAS-E-LEL Cartridge carries a 2-year warranty but can be calibrated up to 5 years ** Gases require Midas Pyrolyzer Midas detectors are not ETL approved for monitoring in or sampling from classified areas above 25% LELMidas Cartridge Detectable Gases Gas Name Chemical Formula Range Sensor Part Number Ammonia NH 39-100 ppm MIDAS-E-NH3ArsineAsH 318-200 ppb MIDAS-E-ASH Boron Trichloride BCl 30.72-8 ppm MIDAS-E-HCL Boron TrifluorideBF 30.72-8 ppm MIDAS-E-HFX Boron Trifluoride (Low Level)BF 30.18-2 ppm MIDAS-E-HFL Bromine Br 20.036-0.4 ppm MIDAS-E-BR2Carbon Dioxide CO 20.15-2.0%MIDAS-E-CO2Carbon Monoxide CO 9-100 ppm MIDAS-E-COX Chlorine Cl 20.18-2 ppm MIDAS-E-HAL Chlorine Dioxide ClO 20.036-0.4 ppmMIDAS-E-BR2Diborane B 2H 636-400 ppb MIDAS-E-B2H Dichlorosilane H 2Cl 2Si 0.72-8 ppm MIDAS-E-HCL Difluoromethane**CH 2F 216-240 ppm MIDAS-E-XCF Disilane Si 2H 6 1.8-20 ppm MIDAS-E-SHX Fluorine F 20.36-4 ppm MIDAS-E-HAL GermaneGeH 470-800 ppb MIDAS-E-ASH Hexafluorobutadiene**C 4F 63-40 ppm MIDAS-E-CFX Hydrogen (%LEL)H 2 6.5-100% LEL MIDAS-E-LEL*Hydrogen (ppm)H 290-1000 ppm MIDAS-E-H2X Hydrogen Bromide HBr 0.72-8 ppm MIDAS-E-HCL Hydrogen Chloride HCl 0.72-8 ppm MIDAS-E-HCL Hydrogen Cyanide HCN 1.8-20 ppm MIDAS-E-HCN Hydrogen FluorideHF 1.05-12 ppm MIDAS-E-HFX Hydrogen Fluoride (Low Level)HFL 0.18-2 ppm MIDAS-E-HFL Hydrogen Sulfide H 2S 3.6-40 ppm MIDAS-E-H2S Methane (%LEL)CH 4 6.5-100% LEL MIDAS-E-LEL*Methyl Fluoride**CH 3F 8-120 ppm MIDAS-E-XHF Nitric Oxide NO 9-100 ppm MIDAS-E-NOX Nitrogen Dioxide NO 2 1.05-12 ppm MIDAS-E-NO2Nitrogen Trifluoride**NF 3 3.6-40 ppm MIDAS-E-HFX for 00P, XHF for NP1Octofluorocyclopentene**C 5F 83-40 ppm MIDAS-E-XCF Oxygen O 20.2-25% v/v MIDAS-E-O2X OzoneO 30.065-0.7 ppm MIDAS-E-O3H Ozone (Low Level)O 30.036-0.4 ppm MIDAS-E-O3X Phosphine PH 3110-1200 ppb MIDAS-E-PH3SilaneSiH 4 1.8-20 ppm MIDAS-E-SHX Silane (Low Level)SiH 40.18-2 ppm MIDAS-E-SHL Sulfur DioxideSO 20.7-8 ppm MIDAS-E-SO2T etra Ethyl Ortho Silicate TEOS 3.6-40 ppm MIDAS-E-TEO。

Transmissive SensorHOA088X/089XDESCRIPTIONFEATURESPhototransistor output•Four mounting configurations •Accurate position sensing •0.125 in.(3.18 mm) slot width•Choice of detector aperture•24.0 in.(610 mm) min. 26 AWG UL 1429 wire leads•Choice of opaque or IR transmissive housings •The HOA088X/089X series consists of an infrared emitting diode facing an NPN silicon phototransistor encased in a black thermoplastic housing.Phototransistor switching takes place whenever an opaque object passes through the slot between emitter and detector. This series allows the user to choose from available options: (1) mounting tab configuration, (2) detector aperture size, (3) electro-optical characteristics, and (4) housing materials.All devices employ a built-in strain relief for maximum wire attachment strength. The HOA088X series utilizes an IR transmissive polysulfone housing which features smooth optical faces without external aperture openings; this feature is desirable when aperture blockage from airborne contaminants is a possibility. The HOA089X series employs an opaque polysulfone housing with aperture openings for use in applications in which maximum rejection of ambient light is important and in situations where maximum position resolution is desired. The HOA088X/089X series employs plastic molded components. For additional component information see SEP8506 and SDP8406.Housing material is polysulfone. Housings are soluble in chlorinated hydrocarbons and ketones. Recommended cleaning agents are methanol and isopropanol.The detector to emitter lead spacing is 0.32 in.(8.13 mm) for all versions. Wire color code and functions are: Red - IRED Anode White - Detector Collector Black - IRED Cathode Green - Detector Emitter To specify the complete product characteristics, see PART NUMBER GUIDE.INFRA-66.TIFOUTLINE DIMENSIONS in inches (mm)3 plc decimals ±0.010(0.25)Tolerance 2 plc decimals±0.020(0.51)DIM_042.cdrDIM_067.ds4Honeywell reserves the right to make changes in order to improve design and supply the best products possible.h278Transmissive SensorHOA088X/089XELECTRICAL CHARACTERISTICSUNITSTEST CONDITIONSMINPARAMETERSYMBOLTYPMAXIR EMITTERDETECTORCOUPLED CHARACTERISTICSABSOLUTE MAXIMUM RATINGS(25¡C Free-Air Temperature unless otherwise noted)Operating Temperature Range -40¡C to 85¡C Storage Temperature Range -40¡C to 85¡C Soldering Temperature (5 sec)240¡C IR EMITTERPower Dissipation 100 mW [À] Reverse Voltage3 V Continuous Forward Current 50 mA DETECTORCollector-Emitter Voltage 30 V Emitter-Collector Voltage 5 VPower Dissipation 100 mW [À] Collector DC Current30 mATransmissive Sensor HOA088X/089XHOA088X/089XTransmissive SensorHoneywell reserves the right to makeh281 changes in order to improve design andsupply the best products possible.。

I Connected IndustriaISMARTLINE PRESSURE SELECTION GUIDELINESRedefining Smart.SmartLine Pressure TransmittersHoneywell’s SmartLine® pressure measurement system sets the standard with its industry-leading total performance, even in harsh process environments. With the best control system integration and unique features such as modularity, a graphics display and universal terminals, SmartLine offers the lowest total cost of ownership.Leading PerformanceSmartLine provides better performance with industry leading accuracy, response time and stability. When combined with Honeywell’s proven static pressure and temperature compensation, the unbeatable total performance is better than 0.12% of span under actual process conditions.Lowest Total Cost of Ownership• H oneywell’s unique approach to modularity helps reduce maintenance costs and make repairs safer and faster. With the ability to repair the transmitter in place, the need to break a process line connection is avoided, even in an intrinsically safe environment. And with no need to stock complete units, inventory costs are lower.• A n advanced graphics display and three button external configuration option provide capabilities for field operators to more efficiently perform tasks,solve problems and avoid errors with no need for a handheld device. The display shows rich graphics, bar graphs, trends and messages from the control room.• W ith SmartLine’s universal terminals, wiring can be reversed without damaging or affecting the normal operation of the transmitter. This avoids costly rework on large installations where multiple contractors may use different wiring standards and eliminates return trips to re-wire “incorrectly wired” devices.SmartLine Connection Advantage• T ransmitter Messaging allows the operator to send and display custom messages to the display so field operators can quickly identify the right transmitter and task.•M aintenance Mode Indication displays a message on the display that the transmitter and/or the loop is in a mode suitable for maintenance. • U nique Tamper Reporting notifies the control room that an attempt to change a write-protected configuration has been made or that the write protection has been switched off.•F ield Device Manager (FDM) is Honeywell’s centralized asset management system for smart field device configuration and maintenance. When SmartLine data is integrated into FDM, users can create hierarchical screen displays for quick and easy views of device health from areas of the plant or process.• W ith comprehensive testing, Honeywell provides trouble-free integration for faster startups and reliability. The tests even include other suppliers’ configuration tools.ST800ST700SMV800 Performance CharacteristicsAccuracy • U p to 0.0375% span standard• 0.025% span optional highaccuracy • B asic: up to 0.065% of span• S tandard: up to 0.05% of span•P V1 DP – up to 0.04% of span• P V2 SP – up to 0.0375% of span• P V3 PT – 0.2 °C RTD – Pt 100• P V4 – mass flow accuracyup to 0.6%Stability• U p to 0.01% per year for ten years• B asic: up to 0.025% per year for5 years• S tandard: up to 0.02% per yearfor 5 years• U p to 0.0625% of URL per yearResponse Time• A s fast as 80 ms• A s fast as 100 ms•A s fast as 144 ms for DP (PV1) Total Performance• U p to 0.12%• U p to 0.2%• M ass flow performance is up to 0.6% Turndown Ratios up to 400:1• T urndown ratios up to 400:1• T urndown ratios up to 100:1• T urndown ratios up to 400:1 Compound Characterized Ranges• Y es• Y es• Y esTemperature & Static PressureCompensated• Y es• Y es• Y esProduct Features & OptionsMeasured Parameters• D ifferential pressure staticpressure • D ifferential pressure staticpressure• D ifferential pressure, staticpressure, process temperatureCaluclated Parameters• V olume flow• V olume flow• V olume flow, mass flow Support for Flow Algorithms• N A• N A• A SME MFC-3M, ISO5167, Gost8.586, AGA3, ASME MFC 14MSupport for Flow Elements• N A• N A• O rifice, Venturi, Flow Nozzle,Pitotube, IFO, Standard V cone,Wafer cone, WedgeHART® 7, DE & F OUNDATION™Fieldbus Communication Protocols• Y es• Y es• D E, HART 7Universal Terminals• Y es• S tandard: Yes• Y esModular Design Components• S imple faster repairs with lessdowntime • S imple faster repairs withless downtime• S imple faster repairs withless downtimeSmartLine Connection Advantage with Experion®• T ransmitter Messaging*• M aintenance Mode Indication• T amper Alerts*• F DM Plant Area Views• C omprehensive Experionintegration testing• T amper Alerts* (Standard only)• F DM Plant Area Views• T ransmitter Messaging*• M aintenance Mode Indication• T amper Alerts*• F DM Plant Area Views• C omprehensive Experionintegration testingSIL 2 Certified/SIL 3Capable Standard• Y es• Y es• N o Certified for Dual Seal Compliance• Y es• Y es• Y esComprehensive & AdvancedDiagnostics• Y es• Y es• Y esUser Interface Options• O ptional basic alphanumeric display• O ptional advanced graphics display• M ultiple PV display screens includingbar graph and trend displays• C omprehensive diagnostic messages• S upports transmitter messagingand maintenance mode indication• C omprehensive EDDs & DTMsfor remote configuration• O ptional external 3-buttonprogramming capability • S T700 Basic: supports Standarddisplay with internal and/orexternal 2-button configurationST700 Standard: supportsStandard display with internal2-button configuration / Basicdisplay with external three buttonconfiguration• Diagnostic notifications•C omprehensive EDDs & DTMsfor remote configuration• O ptional external two (Basic)or three (Standard) buttonprograming capability• N A•O ptional advanced graphics display• M ultiple PV display screens includingbar graph and trend displays• C omprehensive diagnostic messages• S upports transmitter messagingand maintenance mode indication• C omprehensive EDDs & DTMs forremote configuration• O ptional external 3-buttonlimited programming capOptional Extended Warranties• 1, 2, 3, 4 and 15 year warranties• 1, 2, 3 and 4 year warranties• 1, 2, 3, 4 and 15 year warranties *Also compatible with other HART 7 enabled hostsStandard, basic or advanced digital display as determined by the application requirementsUniversal or traditional wiring terminal boards with standard or lightning-protected optionsIt takes only a matter of minutes to replace the electronics, even in the field under power with no re-calibration required. This avoids the time-consuming procedure of removing a sensor from a pipeline or network, particularly in highly critical processes.Best of all, Honeywell’s unique modularity reduces inventory requirements and lowers overall operating costs.LOWER YOUR TOTAL COST OF OWNERSHIPWith Plug-In Modules, Users Can Easily Add or UpgradeAll SmartLine Pressure Transmitters are modular in design, making it easy to replace hardware, add indicators, change electronic modules or even meter bodies without affecting overall performance or impinging on approval body certifications.Flexible ConfigurationIn addition to configuring with any hand-helddevice or through asset management DTMs, users can configure the transmitters through externally accessible buttons, even in an intrinsically safe, Class I, Div. 1 environment.Now, whether on the bench or in the field, configure, change tag information, change languages and even more without needing a handheld device.SMARTLINE PRESSURE SELECTION GUIDEModel Types, Ranges and SpansModelUpper Range Lower Range Max. SpanUnitsStandard Accuracy % of Span Turndown CapabilityTwo- or three-button external configurationField-exchangeable communication modules to deploy HART , Honeywell Digital Enhanced (DE) or FOUNDATION Fieldbus communicationAdvanced Graphics LCD Display• U p to eight separate screens with three formats to meet unique display requirements: process variable, bar graph and trend• F ull library of engineering units with the ability to add custom units• Configurable screen rotation timing • Supports multiple languages • Two diagnostic indications• 90-degree position adjustments to facilitate all installation positions.For more informationTo learn more about Honeywell’s SmartLine Pressure Transmitters, visit /smartlineor contact your Honeywell account manager. Honeywell Process Solutions512 Virginia DriveFort Washington, PA 19034 USAHoneywell House, Arlington Business Park Bracknell, Berkshire, England RG12 1EB17 Changi Business Park Central 1 Singapore 486073 SmartLine® and Experion® are registered trademarks of Honeywell International Inc. HART® is a registered trademark andF OUNDATION™ Fieldbus is a trademark of the FieldComm Group.PO-16-01-ENG | 11/16©2016 Honeywell International Inc.。

98109071For innovation that’s well apart, there’s only Honeywell Sensing andTable of ContentsMagnetoresistive Sensor ICs . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .3 Hall-Effect Digital Sensor ICs . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .4-5 Hall-Effect Digital and Linear Sensor ICs . . . . . . . . . . . . . . . . . . . . .6-7 Value-Added Hall-Effect Sensors . . . . . . . . . . . . . . . . . . . . . . . . . . . .8-9 Speed and Direction Sensors . . . . . . . . . . . . . . . . . . . . . . . . . . . .10-11 Linear Potentiometric Sensors . . . . . . . . . . . . . . . . . . . . . . . . . . . .12-13 SMART Position Sensors . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .14-15 Ultrasonic Sensors . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .16-17Inertial Measurement Unit . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .18 Proximity Sensors . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .19-21 Encoders and Non-Contact Hall-Effect Sensors . . . . . . . . . . . . . . . .22 Cermet and Wirewound Potentiometers . . . . . . . . . . . . . . . . . . . . . .23 Conductive Plastic Potentiometers . . . . . . . . . . . . . . . . . . . . . . . .24-25 Resolvers . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .26-27 Honeywell S&C Core Industry Segments . . . . . . . . . . . . . . . . . . .28-29 Honeywell S&C Product Portfolio . . . . . . . . . . . . . . . . . . . . . . . . .30-312 3With a built-in magnetoresistive bridge integrated on silicon and encapsulated in a plastic package, magnetoresistive sensor ICs feature an integrated circuit that responds to low fields at large distances. Potential applications include laptops, material handlingequipment, and pneumatic cylinders.Constructed from a thin sheet of conductive material, Hall-effect sensor ICs have output connections perpendicular to direction of current flow. Potential applications are many, including speed and RPM sensing, brushless dc motors, and fan/motor/robotics.Featureslow supply voltagecombined with very lowaverage current reducespower consumptionhigh output current andspeed capability; reversepolarity protectionbuilt-in pull-up resistor;low voltage; enhancedsensitivitysimple activation from aSouth pole and multiplemagnetic sensitivites (high,medium, and low)4 5-40 °C to 150 °C [-40 °F to 302 °F]-40 °C to 150 °C [-40 °F to 302 °F]-40 °C to 125 °C [-40 °F to 257 °F]-40 °C to 125 °C [-40 °F to 257 °F] -40 °C to 125 °C [-40 °F to 257 °F]V) & SS461R: 40 °C to 150 °C [-40 °F to 302 °F]; SS361RT (3 V to 18 V): -40 °C to 125 °C [-40 °F to -40 °C to 150 °C [-40 °F to 302 °F]-40 °C to 150 °C [-40 °F to 302 °F]simple activation from a North pole (SS345PT) or a South pole (SS445P)built-in reverse polarity protection; typical operating point of 85 G at 25 °C [77 °F]fastest response timein class; no chopperstabilizationtime in its class, nochopper stabilization,operates from only30 Gauss typical, at 25 °C [77 °F]enhanced sensitivity; built-in reverse voltage capability enhanced sensitivity; built-in reverse polarity protection; robust designmultiple operate/release points available high output current; reverse polarityprotectionConstructed from a thin sheet of conductive material, Hall-effect sensor ICs have output Array connections perpendicular to direction of current flow. Potential applications are many,including speed and RPM sensing, brushless dc motors, and fan/motor/robotics.6 7SS39ET/SS49E/SS59ET8 Consists of sensors packaged in a variety of housings. Includes vane sensors, digital position sensors, and solid-state switches. Potential applications include position and RPM sensing, cam and crankshaft speed and position, transmissions, tachometers, traction control, and sprocket speed.Featuresor sourcing output; aluminum housing; color-coded jacketed cable; adjustable mountingaluminum housing; color-coded jacketed cable;adjustable mounting9polarity and transient protection; EMIresistantsensing; environmentally sealed; three terminations and bipolar magnetics; sinking output; frequencies exceeding 100 HzNEMA 3, 3R, 3S, 4, 4X, 12 and 13; omnipolar magnetics; sinking outputProvides true zero speed capability, direction sensing, and precise switch pointmeasurement. Speed sensor diagnostics provide information on air gap and sensor failure for increased reliability and functionality. Potential applications include cam/crank shafts, transmissions, tachometers, traction control, dynamometers, process control, and factory automation.Featuresmultiple finger-wiper design; anodized extruded aluminum housing; precious metal contact; sealed constructioneter; multiple finger-wiper design; anodized extruded aluminumhousing; precious metal contact; sealed constructionvibration-dampened element; pre-cious metal wipers; stainless steelshaft; enhanced dc level output Includes potentiometer sensors for linear, rotary position, or displacement measurement with extended life PTFE bearings and precious metal multi-finger contact wipers. Potential applications include robotic control, marine steering, in-tank sensing, injection molding, and printing.precious metal wipers; 2,06 mm [0.081 in] thick housing with 6 mm [0.25 in] shaft; high level dc output; enhanced performance bearings; shaft seals design; stainless steel shaft; anodizedextruded aluminum housing; precious metalcontact; shaft seals for spray-or-hose-downenvironmentswiper design; stainless steel shaft; internalspring-loaded ball joint; anodized extrudedaluminum housing; precious metal contact;infinite resolutionvibration-dampened element; extendedside bearing; precious metal wipers; highdc level output; enhanced performance bear-ings; NEMA 4 sealingMeasurements75 mm: 145 mm L x 18,0 mm W x 28,2 mm H [5.7 in x 0.71 in x 1.1 in]225 mm: 287,3 mm L x 18,0 mm W x 28,2 mm H [11.3 in x 0.71 in x 1.1 in]Superior Measurement. Accurate. Reliable. Thinking.Honeywell’s SMART Position Sensors are some of the most durable and adaptable position devices available in the industry today. These sensors use a patentedcombination of ASIC (Application-Specific Integrated Circuit) technology and an array of MR (magnetoresistive) sensors to provide absolute position sensing with enhanced speed and accuracy. Their simple, non-contact design eliminates mechanical failure mechanisms, reduces wear and tear, improves reliability and durability, enhancesoperation efficiency and safety, and minimizes downtime. Linear configuration potential applications: valve position, material handling, plastic molding, wafer handling, CNC machines, passenger bus level position, truck-mounted crane outrigger position, heavy equipment attachment identification, engine transmissions (35 mm only), marine motors, and aircraft actuators.100°: 183 mm L x 86 mm W x 31 mm H [7.20 in x 3.39 in x 1.22 in]180°: 222 mm L x 107 mm W x 31 mm H [8.74 in x 4.21 in x 1.22 in]113,5 mm x 106,5 mm x 22,0 mm [4.46 in x 4.19 in x 0.87 in]Arc Configuration potential applications: aerial work lift platform, front end loader and digger/excavator boom position, scissor lift position, refuse truck lift and automatic reach arm position, mobile crane steering, timber harvester/processor equipment cutter arm angle, on-board loader weighing system position, telescoping conveyor elevation, power generation contact angle, rail-road crossing arms position, remote weapon systems elevation, chassis suspension systems positionheight, military vehicle door position, ground-based solar panels elevation and azimuth, ground-based satellite dish elevation and azimuth, robotically-assisted surgery equipment position, patient bed elevation.Rotary Configuration potential applications: steering angle, articulation angle, boom arm detection, solar panels,wind turbines.Ultrasonic sensors measure time delay between emitted and echo pulses. Available in analog or digital versions for distance or presence/absence sensing. Programmable versions available. May be used in a variety of rugged presence and absence sensing applications.Featureshead; synchronizing/hold input; adjustment by potentiometer; micro-processor controlled; temperature compensationteach in; M12 connector, 5 pin; visual indication; four output op-tions; synchronizing/hold input; temperature compensationface); four models; stainless steel M30 heads; synchronizing/hold input; beam power adjustable by switchremote teach-in/auto-tuning; Windows andhysteresis mode; two switching outputs;temperature compensation; connector orcable versioneight models; auto-tuning by one switch;slope direction selection; NO/NC selection;two switching outputs; analog output;temperature compensationIP65; auto-tuning by four position plug;switching output models; two switchingoutputs; temperature compensationIP67; four output configurations; switchingfrequency of 150 Hz; compact sizeFeaturesflexibility, application expertise, customization, and temperature performance; easesintegration; automotive-grade qualified, long term stability, no calibration neededInertial Measurement Units (IMU) are high-end position sensors with sensitive multi-axis motion control. These sensors measure the motion of the equipment onto which they are attached and deliver the data to the equipment’s control module, allowing the operator to focus on other equipment functions, enabling more precise control than can be achieved byusing only the human eye, thus increasing safety, stability and productivity.Designed to meet demanding temperature, vibration, shock, and EMI/EMP interference specifications. Multiple potential applications are found in aerospace, ordnance, marine, and off-shore equipment.Designed to meet demanding temperature, vibration, shock, and EMI/EMP interference specifications. Multiple potential applications are found in aerospace, ordnance, marine, and off-shore equipment.Featuresdetent feel; continuous electrical travelprinted circuit terms; outputs TTL compatibleMechanical versions with 2-bit and 4-bit gray code outputs for potential use in incremental and absolute electrical reference applications. Optical versions are manually operated, rotary devices. Available with PC terminals or cable leads. Potential applications include controls foraudio and lighting, level, cursor, frequency, temperature, time, and position sensing.Compact and rugged thick film devices, these potentiometers are stable over a rangeof operating temperatures. Provides high power dissipation and improved resistance temperature coefficient. Potential applications include joysticks, lighting, audio, telecom, manual, medical, and marine equipment, welding, and heating.Compact and rugged thick-film devices are available in wide range of resistance values. These devices use precision technology developed for military applications. Potential applications include manual controls, audio and lighting consoles, joysticks, telecommunication, and medical equipment.AerospaceAerospace applications are among the most demanding for any type of product. Rigorous FAA requirements, extreme environments (temperature, shock, vibration, the need forhermetic sealing), and the ability to customize devices are just a few of the parameters often required of sensors and switches in these applications. Aerospace customers typically value speed in prototyping and development, and Honeywell’s verticallyintegrated, AS9100-approved manufacturing locations enhance our ability to produce devices in a wide variety of packages. The precision output of our products helps reduce risk and cost in key applications while also minimizing the need for unscheduled maintenance.Honeywell’s in-depth aerospace engineering experience allows us to work with customers in the design and development ofHoneywell Sensing and Control is a global leader in providing reliable, cost-effective sensing and switching solutions for our customers’ applications. We serve thousands of customers in four core industry segments: industrial, medical equipment, transportation, and aerospace/military products.products that best meet the specified requirements of theirindividual applications. Making products simple to install makes the job easier every step of the way. And, the odds are that Honeywell is already on the list of trusted suppliers for many aerospace companies, underscoring the decades of experience we bring to this field.Honeywell products for this industry (many of them PMA-certified) include force sensors, load cells, potentiometers, pilot controls, pressure sensors, pressure switches, resolvers, sensor/actuator assemblies for systems ranging from aerostructures to fuel control to flight surfaces, speed sensors, temperature probes, thermostats, torque sensors, y-guides for cargosystems, MICRO SWITCH™ sealed and high-accuracy switches, MICRO SWITCH™ pushbutton switches, and MICRO SWITCH™ rocker and toggle switches.MedicalMedical applications typically require sensors and switchesthat are highly stable and extremely reliable to enhance patient safety and comfort. Stability is often essential to minimize long term drift, reduce the need for recalibration, and improve ease of use for medical equipment operators. Reliability enhances patient safety in life-critical applications, reduces downtime, and improves test throughput in applications such as clinical diagnostics. The product needs to be easy to use and easy to design into a system, so Honeywell’s extensive customization and built-in calibration/amplification capabilities are strong benefits. Confidence in Honeywell’s product performance, reliability, and availability provide peace of mind for medical equipment manufacturers who choose Honeywell.Honeywell offerings for this industry include airflow sensors, board mount and stainless steel media isolated pressure sensors, Hall-effect magnetic position sensors, humidity sensors, flexible heaters, force sensors, thermostats, commercial solid state sensors, infrared sensors, oxygen sensors, pressureand vacuum switches, potentiometers and encoders, MICRO SWITCH™ pushbutton, rocker, and toggle switches, and hour meters.IndustrialThe industrial arena can be a rough one. From high-speed food processing to high-force stamping applications, reliable and cost-effective sensors and switches often help minimize repair costs, maximize system life, and reduce overall system expense. Durability can mean the difference between smooth-running processes and expensive downtime. Accurate, repeatable sensor or switch output can reduce the need for calibration once the device is applied. Because of the wide variety of potential applications, Honeywell’s ability to deliver a customized product that can meet virtually any size, weight, and power requirement – as well as any packaging stipulations for tough, harsh environments – often makes it easy to incorporate and use our devices. Safety is another important consideration for industrial users, and our products meet a wide variety of regulatory safety requirements.Honeywell’s industrial product line includes airflow sensors, current sensors, humidity sensors, fiber-optic and liquid-level sensors, linear position sensors, oxygen sensors, pressure sensors, potentiometers and encoders, speed sensors, temperature probes, ultrasonic sensors, wirewound resistors, thermostats, commercial solid state sensors, flex heaters, SMART position sensors, board mount and stainless steel media isolated pressure sensors, force sensors, safety light curtains, push-pull switches, and MICRO SWITCH™ basic switches, hazardous area switches, safety switches, key and rotary switches, limit switches, sealed and high-accuracy switches, pushbutton, rocker, toggle switches, and relays. TransportationGetting from Point A to Point B is often challenging for end-customers of transportation providers – Honeywell aims to make the trip easier with highly reliable, cost-effective switches and sensors. Our products are designed to support rigorous engine requirements, and their efficiency can also help optimize engine performance. Customization is often required to allow a switch or sensor to be mounted in tight or challenging environments including vibration, temperature extremes, and road contamination. The durability of Honeywell products enhances system reliability, which is also boosted by the stable, accurate output of our devices. All of these capabilities allow demanding customers to rely on Honeywell’s many years of experience in the transportation industry.Honeywell products for transportation applications includeHall-effect rotary position sensors, inertial measurement units, infrared sensors, keyless entry sensors, magnetic position sensors, pressure sensors, speed and direction sensors, ultrasonic sensors, thermostats, temperature probes, commercial solid state sensors, SMART position sensors, andMICRO SWITCH™ pushbutton, rocker, and toggle switches.SENSORSThermostats: Commercial and precisionsnap-action. Automatic or manual reset options,phenolic or ceramic housings.May be used in: Telecommunications• Battery Heater Controls • Computers• Copy Machines • Fax Machines • FoodService • Food Carts • Small and MajorAppliances • Heat and Smoke Detectors• HVAC Equipmentapplications that involve measurementof hostile media in harsh environmentscompatible with 316 stainless steel.May be used in:Control SystemsCurrent sensors:Almost no thermal drift or offset with Flexible heaters:spiral wrap, transparent, composite and high temperature configurations with single, multiple and variable watt densities. Can be bonded parts or combined.May be used in:••Digital and analog Hall-effect position ICs, magnetoresistive position ICs, Hall-effect vane,Motor/Fan Control • Magnetic EncodingMotion Control/Detection • Power/Position30 Limitless ™ switches and receivers: Combines the best of MICRO SWITCH ™ limit switches with commercial wireless technology. Beneficial for remote monitoring where wiring/maintenance is not physically possible or economically feasible. Used for position sensing and presence/absence detection.Limitless ™ Operator Interface: Adds a human interface device to the product-driven interfaces of Limitless ™ switches and receivers. Choose and install a desired operator or utilize one of Honeywell’s pushbuttons.May be used in: Valve Position • Crane Boom/Jib/Skew Position • Lifts • Material Handling • Presses • Construction/Ag Machines • Conveyors • Industrial Environments • Remote/Temporary Equipment • Grain Diverters or Flaps • Door PositionLIMITLESS ™ WIRELESS SOLUTIONSand LSX Series.May be used in:Conveyors • Off-Shore Drilling • Waste-Treatment Plants • Paint Booths Handling FacilitiesPressure and vacuum switches:setpoints from 0.5 psi to 3000 psi. Rugged31SAFETY PRODUCTSMICRO SWITCH ™ safety switches: For operator point-of-operation protection, access detection, presence sensing, gate monitoring and electrical interfacing. High-quality, dependable, cost-effective solutions.May be used in: Packaging and Semi-Conductor Equipment • Plastic-Molding Machinery • Machine Tools • Textile Machines • Lifts • Industrial Doors • Bailers • Compactors • Aircraft Bridges • Telescopic Handlers • Refuse VehiclesHoneywell Sensing and Control1985 Douglas Drive NorthGolden Valley, MN 000709-18-EN IL50 GLO Printed in USA October 2013© 2013 Honeywell International Inc. All rights reserved.Find out moreTo learn more about Honeywell’s sensingand control products, call+1-815-235-6847, email inquiries to*********************, or visitWarranty/RemedyHoneywell warrants goods of its manufacture as being free of defective materials and faulty workmanship. Honeywell’s stan-dard product warranty applies unless agreed to otherwise by Honeywell in writing; please refer to your order acknowledge-ment or consult your local sales office for specific warranty details. If warranted goods are returned to Honeywell dur-ing the period of coverage, Honeywell will repair or replace, at its option, without charge those items it finds defective. The foregoing is buyer’s sole remedy and is in lieu of all other warranties, expressed or implied, including those of merchantability and fitness for a particular purpose. In no event shall Honeywell be liable for consequential, special, or indirect damages.While we provide application assistance personally, through our literature and the Honeywell web site, it is up to the cus-tomer to determine the suitability of the product in the applica-tion.Specifications may change without notice. The information we supply is believed to be accurate and reliable as of this print-ing. However, we assume no responsibility for its use.9810907。

34-44-16U-14Issue 1Page 1 of 2Model STT850Smart Temperature TransmitterModel Selection GuideAvailability KEY NUMBERInput TypeSelection Universal InputSTT850*√Table IInput DetailsS *√T *Table IIDigital outputDigital OutputNo 0*√Yes1TABLE III0*√FM Explosion proof, Intrinsically Safe, Non-incendive, & Dustproof A *√CSA Explosion proof, Intrinsically Safe, Non-incendive, & Dustproof B *√ATEX Explosion proof, Intrinsically Safe & Non-incendive C *√IECEx Explosion proof, Intrinsically Safe & Non-incendive D *√TABLE IV Connection1/2 NPT A _ _*√M20 B _ _*√1/2 NPT C _ _*√M20 D _ _*√1/2 NPT E _ _*M20 F _ _*1/2 NPT G _ _*M20H _ _*Analog Output4-20mA dc _ H _*√4-20mA dc_ D _*√IndicatorExt Zero, Span & Config ButtonsLanguagesNone None_ _ 0*√None _ _ A *√Basic None _ _ B *√Basic Yes _ _ C *√Advanced None _ _ D *√Advanced Yes _ _ E*√TABLE V1 _ _*√Write ProtectFail Mode√Disabled High> 21.0mAdc Honeywell Std (3.8 - 20.8 mAdc)_ 1 _*√Disabled Low< 3.6mAdc Honeywell Std (3.8 - 20.8 mAdc)_ 2 _*√Enabled High> 21.0mAdc Honeywell Std (3.8 - 20.8 mAdc)_ 3 _*√Enabled Low< 3.6mAdcHoneywell Std (3.8 - 20.8 mAdc)_ 4 _*√Enabled N/A N/A _ 5 _g √DisabledN/AN/A_ 6 _g√Factory Standard _ _ S *√_ _ C*3NAMUR Output Limits 3.8 - 20.5mAdc can be configured by the customer or select custom configuration Table Vcc. General ConfigurationCustom ConfigurationCONFIGURATION SELECTIONSa. Application SoftwareDiagnosticsStandard Diagnosticsb. Output Limit, Failsafe & Write Protect SettingsHigh & Low Output Limits3Fieldbus or Profibus Fieldbus or Profibus EnglishEN,GR,FR,IT,SP,RU,TU EN,GR,FR,IT,SP,RU,TUb. Output/ ProtocolDigital ProtocolHART Protocol DE Protocolc. Customer Interface SelectionsNone Yes (Zero/Span Only)None English 316 Stainless Steel (Grade CF8M)None 316 Stainless Steel (Grade CF8M)Yes 316 Stainless Steel (Grade CF8M)YesNone Polyester Powder Coated Aluminum Yes Polyester Powder Coated Aluminum Yes 316 Stainless Steel (Grade CF8M)None Agency Approvals (see data sheet for Approval Code Details)ApprovalsNo Approvals RequiredTRANSMITTER ELECTRONICS SELECTIONSa. Electronic Housing Material & Connection TypeHousing and MaterialLightning protectionPolyester Powder Coated Aluminum None Polyester Powder Coated AluminumList Price equalsthe sum of all selections made. No of InputsSingle Dualavailability. Letter (a) refer to restrictions highlighted in the restrictions table. Tables delimited with dashes. Instructions: Make selections from all Tables Key through XIII using column below the proper arrow. Asterisk indicatesList Price: Price equals the s um of prices for all selections made.Key I II III IV V VI VII VIII IXSTT850-_ -_-_-_ _ _-_ _ _-_-_ _ _ _-_ _, _ _, _ _-X X X X34-44-16U-14Issue 1Page 2 of 2√√√√√√√√√√√√√√√。

Sensors and Switches for Valves and Flow Meters An Application NoteBackgroundFlow meters can measure and regulate volumetric flow, velocity from which the volumetric flow is determined, and mass flow. Valves control or regulate the flow of gases or fluids by partially obstructing, opening or closing the pipeline that carries the media. In many applications, they are operated manually by a lever, pedal, or wheel. Valves are often used in oil and gas, chemical manufacturing, water reticulation and mining applications. Automatic valves with diaphragms or pistons are often actuated by changes in pressure, temperature or flow.SolutionsHoneywell manufactures a wide range of sensors and switches, from simple on/off switches to electronic sensors designed to deliver system control, fluid level indication, temperature regulation, along with protection from overheating and starting/stopping the compressor. Honeywell components provide enhanced reliability, minimize down time, and improve robustness in most harsh environments.Various package options are available, including stainless steel, and those designed for hazardous and harsh-duty applications.Hazardous-location limit switches – These specialized switches perform a number of functions, including monitoring the position ofthe valve stem, actuator or wheel position, providing on-off position on manual process valves, providing real-time valve status information for improved productivity and safety. As these limit switches are enclosedin an explosion-proof housing, any flame path is extinguished inside which mitigates the risk of causing an explosion at the switch part.These switch components provide feedback for the user to take actionin order to prevent explosions in hazardous environments. Hazardous-location switches are employed in valves in outdoor, above-ground, potentially explosive environments such as oil and gas or water treatment applications.Limit Switches – Employed to monitor the position of the valve stemor actuator, limit switches are primarily used on valves in non-explosive environments such as waste water treatment plants, power generation plant or other factory applications. They also allows users to remotely monitor the valve stem, actuator lever, or wheel position for improved productivity and reduced total installed cost in hazardous locations.Figure 1. Industrial Valve ApplicationValves serve a variety of purposes in industrial applications, although their main purpose is to control media through a system.Wireless Limit Switches – Allows users to remotely monitor valve stem, actuator lever, or wheel position for improved productivity and safety, while reducing total installed cost with an economical wireless point-to-point solution.Basic Switches –Snap-action switches monitor the position of the valve handle by indicatingif the switch is actuated. These switches are employed on valves used in both non-explosive environments such as waste water treatment plants and/or other factory applications and also explosive/hazardous applications. Invalve monitoring applications, basic switches perform position sensing on cams with no power consumption. In addition to valves, Honeywell’s V15W2 Series is suitable for use in hazardous environments such as refrigeration, HVAC,appliances, and paint booths.Hall-effect Speed Sensors and Sensor ICs – In flow meter applications Honeywell’s speed sensors measure flow by monitoring revolutions of the impeller (an inside propeller). Eachrevolution of the impeller equates to the delivery of a certain amount of fluid. For example, if the user sets a fluid level of five gallons per minute,the speed sensor counts the impeller rotation so that the correct amount of fluid is delivered. Invalve monitoring application, Hall-effect sensor ICS measure position sensing on cams.Position Sensors – In flow meter applications, Hall-effect magnetic position sensors are usedto determine valve position. In valve monitors, position sensors deliver continuous position status with enhanced reliability and accuracy.Pressure Transducers and Switches – In valve actuator applications, pressure transducers and switches measure the pressure of the diaphragm to help regulate and control the flow within the pipeline. The sensors can measure differential pressure by comparing values across the valve. They can also give an indication of valve position related to opening and closing by measuring the pressure value at that time.Snap-Action SwitchPosition SensorSMART Position SensorHall-Effect Position Sensor ICwith Actuatorsin hazardous locationsLimit SwitchLearn more aboutthe XYR6000OneWireless™ SensorClick here to view Hazardous Area Limit SwitchesRead more about MICRO SWITCH Limit Switches12Explosion-Proof Valve Position IndicatorMICRO SWITCH VPX • Valve position indicator in explosion-proof housing2334Basic SwitchMICRO SWITCH BZ, V7, V15, V15W2, and ZW Series • Large, miniature, and subminiature basic switchesHazardous Location Limit SwitchMICRO SWITCH LSX, CX, and BX Series • Premium limit switches in explosion-proof housingLimit SwitchMICRO SWITCH HDLS, GL, and Double Break Series • Premium heavy duty and standard global limit switches14Figure 4. Switches in Valve Actuators and PositionersClick here to view VPX Series Valve Position IndicatorsGet details on the SMART PositionSensor familyFigure 5. Sensing and Switching Products Used in Valve ActuatorsHazardous Location Position Sensor XYR6000 OneWireless™ SeriesAllows users to remotely monitor valve stem, actuator lever, or wheel position for improved productivity and safety, while reducing total installed cost in hazardous locations; part of a scalable ISA100 mesh networkHazardous Area Limit SwitchMICRO SWITCH™ LSX/CX/BX/EX SeriesMonitors valve stem, actuator lever, or wheel position, providing real-time position status for improved productivity and safety in hazardous locationsLimit SwitchMICRO SWITCH™ HDLS, GLS, and Double Break SeriesMonitors valve stem, actuator lever, or wheel position, providing real-time position status for improved productivity and safetyPosition SensorSMART Position Sensor, SPS Series 75 mm Linear Monitors valve stem or actuator position1234Stainless Steel Media Isolated Pressure Sensor or Pressure Switch MLH, PX2, or PX3 Series Pressure Sensor or HP, HE, ME, LP, or LE Series Pressure SwitchMeasures diaphragm pressure6Valve Actuator(Kammer valve actuator photoused with permission of Flowserve.)Wireless Limit SwitchMICRO SWITCH™ HDLS and GLS SeriesAllows users to remotely monitor valve stem, actuator lever, or wheel position for improved productivity and safety, while reducing total installed cost with an economical wireless point-to-point solution5Learn more about MICRO SWITCH Basic SwitchesReview Limitless™ Wireless SwitchesFind out more on Hall-effect Speed SensorsFigure 6. Sensing and Switching Products Used in Valves and Flow MetersSMART Position Sensor SPS Series75mm analog and 225 mm analog and digital linear configuration Position Sensor SR SeriesDigital position sensorHall-Effect Sensor LCZ or 3000 SeriesSingle, zero speed sensor (LCZ) or high resolution VRS sensor (3000)Basic SwitchMICRO SWITCH BZ, V7, V15, V15W2, and ZW SeriesLarge, miniature, and subminiature basic switchesHazardous Location Limit Switch MICRO SWITCH VPX, CX, LSX, and BX SeriesPremium limit switches in explosion-proof housingLimit SwitchMICRO SWITCH HDLS, GLS,and Double Break SeriesPremium heavy duty and standard global limit switchesFlow MeterClick here to view Pressure TransducersMore information available here on Hall-effect Sensor ICsTypes of ValvesSpecifically, there are several main types of valves: 1) Manual process valves, 2) Valve actuators/positioners, 3) Valve monitors/indicators, 4) Valves and flowmeters, and 5) Sanitary and food/beverage valves.Manual Process Valves – Manual process valves in industrial facilities control the flow of liquid, gas, slurry, or steam. Eighty percent require operators to manually open, close, or otherwise control the valve. At any given time, users may not know the actual position of the valve. Process plants, including refineries, chemical, pharmaceutical, and water treatment plants as well as power generation installations, all need a better way to verify status with or without human intervention, especially in hazardous or hard-to-reach locations. (See Figures 2 and 3)Valve Actuators/Positioners – A valve actuator is a pneumatic or electric mechanism used in process control systems to automatically open or close valves. Actuators can be used with either linear or rotary valves in industrial, medical, food/beverage, and transportation applications. In standard valves, when the valveis given a command to open to a certain point, there is no feedback to verify that it has opened to that position. Valve positioners utilize a source of power to operate and continuously adjust a valve. The power source can be a manual gearbox or an electronic device with control and measuring devices; Available with hydraulic, pneumatic, and electric operating mechanics, these are often used in pipelines, process plants and in remote areas. Postioners can be used for opening or closing a valve to control the rate of fluid flow based on a signal from a central control system. With a valve positioner, the command is given and the valve positioner reads the opening, verifies position, and readjusts (if necessary) to the exact position needed which allows for excellent precision in the valve setting. (See Figures 4 and 5)Valve Monitors/Indicators – Mechanical or electrical valve monitors and indicators are used in process control to show valve position. They provide an electrical signal, and sometimes visual feedback, to accurately monitor and verify that a valve is in the correct position. Valve monitors are mostly used in conjunction with a valve positioner/actuator to provide information from remote locations that are not easilyaccessed, or where power isn’t readily available. Potential applications include chemical, pharmaceutical, power generation and oil and gas processes. (See Figures 4 and 5)Valves and Flowmeters – Valves control or regulate the flow of gasses or fluids by partially obstructing, opening or closing the pipeline that carries the media. Valves are often usedin oil and gas, chemical manufacturing, water reticulation and mining applications. In many of these applications, the valves are operated manually by a lever, pedal or wheel. Automatic valves with diaphragms or pistons are often actuated by changes in pressure, temperature or flow.Flow meters can measure and regulate volumetric flow, velocity from which the volumetric flow is determined, and mass flow. The turbine flow meter translates the mechanical action of the turbine rotating in the liquid flow around an axis into a user-readable rate of flow (gpm, lpm, etc.). The turbine wheel is set in the path of a fluid stream. The flowing fluid impinges on the turbine blades, imparting a force to the blade surface and setting the rotor in motion. Nearly all flow meters mustbe installed so that there is a significant runof straight pipe before and after the locationof the flow meter. This is intended to allow the straight pipe run to “smooth out” any turbulence produced by the presence of valves, chemical injectors and diffusers, and changes in pipe direction. (See Figure 5)Sanitary and Food/Beverage Valves – Sanitary and food and beverage valves are engineered for pressure control in sanitary (or “clean”) environments. They are usually manufactured with stainless steel for sanitary and high-purity applications. These valves are often constructed as a ball valve around a fullbore design that ensures the product passes through the valve with no restrictions on the flow with minimal pressure drop.Sanitary and food and beverage valves are often found in pharmaceutical, biotechnology, food and beverage, cosmetics, chemical and other industries where sanitary process control is required for steam, gases, and liquids such as water-for-injection systems.000697-7-EN | 7 | 04/21© 2021 Honeywell International Inc.Honeywell Advanced Sensing Technologies830 East Arapaho Road Richardson, TX 75081 /astFor more informationHoneywell Advanced Sensing Technol-ogies services its customers through a worldwide network of sales offices and distributors. For application assistance, current specifications, pricing or the nearest Authorized Distributor, visit /ast or call:Asia Pacific +65 6355-2828Europe +44 (0) 1698 481481USA/Canada+1-800-537-6945Warranty/RemedyHoneywell warrants goods of its manufacture as being free of defective materials and faulty workmanship during the applicable warranty period. Honeywell’s standard product warranty applies unless agreed to otherwise by Honeywell in writing; please refer to your order acknowledgment orconsult your local sales office for specific warranty details. If warranted goods are returned to Honeywell during the peri-od of coverage, Honeywell will repair or replace, at its option, without charge those items that Honeywell, in its sole dis-cretion, finds defective. The foregoing is buyer’s sole rem-edy and is in lieu of all other warranties, expressed or implied, including those of merchantability and fitness for a particular purpose. In no event shall Honeywell be liable for consequential, special, or indirect damages.While Honeywell may provide application assistance per-sonally, through our literature and the Honeywell web site, it is buyer’s sole responsibility to determine the suitability of the product in the application.Specifications may change without notice. The information we supply is believed to be accurate and reliable as of this writing. However, Honeywell assumes no responsibility for its use.m WARNINGPERSONAL INJURYDO NOT USE these products as safety or emergency stop devices or in any other application where failure of the product could result in personal injury.Failure to comply with these instructions could result in death or serious injury.m WARNINGMISUSE OF DOCUMENTATION• The information presented in this product sheet is for reference only. Do not use this document as a product installation guide.•Complete installation, operation, and maintenance information is provided in the instructions supplied with each product.Failure to comply with these instructions could result in death or serious injury.。

HG1930 Inertial Measurement Unit High performance 5 cubic inch MEMS IMU for demanding environments and applications.Possibilities of Navigation. Made EasyHoneywell Aerospace1944 East Sky Harbor Circle Phoenix, AZ 85034Find Out MoreVisit us at: /imuExport Control Classification Number (ECCN) is 7A003.d.1N61-1637-001-002 I 12/18© 2018 Honeywell International Inc.HG1930 Inertial Measurement UnitProven – Dependable – AccurateOur HG1930 is a Micro-Electro-Mechanical-Systems (MEMS) based Inertial Measurement Unit (IMU) designed to meet the needs of a range of applications including ground and oceanographic surveying, robotics, commercial camera stabilization, control and navigation of unmanned aerial vehicles, missiles, munitions and projectiles.DescriptionThe HG1930 includes MEMS gyroscopes andaccelerometers that are environmentally sealed in a rugged aluminum housing. In addition, it employs an internal environmental isolation system to attenuate unwanted inputs. We design, develop and manufacture all of the MEMS inertial sensors utilized in the HG1930 IMU. All of this culminates in the HG1930 providing industry leading MEMS sensor performance while maintaining minimal SWAP parameters.ConfigurationsThree different performance grades of the HG1930 are available off-the-shelf. The HG1930 offers many configurable features, such as data rate output andflight control filtering, to simplify system integration.HG1930 IMU STANDARD MODELS & PERFORMANCENotes:1. Bias repeatability measurements calculated as the Root Square (RMS) of combined bias thermal model + residuals from dynamic tumble test.2. Bias in-run stability measurements based on Allan Variance Bias Instability (BI) coefficient.3. Angular Random Walk (ARW) and Velocity Random Walk (VRW) measurements based on Allan Variance Random Walk (RW) coefficient.4. Applies to the Roll channel.5. Applies to the Pitch and Yaw channels.HG1930 IMU TYPICAL PERFORMANCE OVER FULL OPERATING TEMPERATURE RANGEK E Y HONE Y W E L L A DVA N TAG E S• All inertial sensors utilized in our tactical IMUs are designed, developed and manufactured by Honeywell• Capable of 350 msec start time enabling faster target acquisition and response • Industry standard RS-422 serial interface is offered on all IMUs• Units feature a wide range of factory configurable interface protocols, including a Synchronous Data Link Control (SDLC) option, an asynchronous serial option, a gated clock option and a custom serial option• Solid-state electronics improve dependability and reliability throughout unit operational life• 20-year storage life achieved without requiring repair and overhaul。

Sensing and Control2.3” REF.1.47” REF.2.3” REF.Single Circuit 1 Terminal 3. The tolerances given in the table are applicable to a switch adjusted so that the N.O. circuit closes before the N.C. circuit opens and applies to the N.C. circuit. The N.O. set point and tolerances are such that a minimum overlap of 1 PSI exists during which both circuits are on.5000 Series Pressure Switch With Standard T erminalContact SettingFactory Set AtCircuitry Part Number Contact Setting 3Part NumberSingle Circuit 2 Terminals Dual CircuitOne circuit adjustable 1Dual CircuitBoth circuits adjustable 20.5-1 PSI ±0.31.1-3 PSI ±0.53.1-7 PSI ±18-13 PSI ±214-24 PSI ±325-50 PSI ±551-90 PSI ±791-150PSI ±10Part NumberScrew 78630786347814278149781437815078144781517814578152781467815378147781547814878155Blade 78631786357839978406784007840778401784087840278409784037841078404784117840578412Part NumberBlade 78629786337605676066765837658576584765867605776067760587606876059760697606076070Screw 78628786327605176061765757657776576765787605276062760537606376054760647605576065N.O.N.C.N.O.N.C.N.O.N.C.N.O.N.C.N.O.N.C.N.O.N.C.N.O.N.C.N.O.N.C.78712760767658776588760777607876079760807871176071765797658076072760737607476075Screw Blade Screw Blade7608176582760827608376084760857608676590760877608876089760903-4 PSI±0.55-8 PSI ±19-24 PSI ±225-50 PSI ±351-90 PSI +5/-291-150 PSI +8/-21 PSI2 PSI 4 PSI 10 PSI 15 PSI 35 PSI 60 PSI 100 PSINotes:1. The N.C. circuit is the reference circuit for the dual circuit switch; the normally open circuit is not adjusted. The expected dead band between the N.C. & N.O. circuit is shown in the chart below. For applications requiring the normally open circuit as the reference circuit the N.C. circuit is not adjusted.2. Switch may be adjusted so that:A. N.C. circuit opens before N.O. circuit closes.B. N.C. and N.O. circuit have same set point.C. N.O. circuit closes before the N.C. circuit opens. (There is no dead band and both circuits are on for a brief period of time.)Contact Setting Factory Set AtCircuitry N.O.N.C.N.O.N.C.N.O.N.C.N.O.N.C.N.O.N.C.N.O.N.C.N.O.N.C.N.O.N.C.N.O.N.C.2 PSI5 PSI10 PSI20 PSI35 PSI60 PSI85 PSI115 PSI135 PSI5000 Series Pressure Switch With Metri-Pack TerminalPart NumberSingle Circuit (Mates with Packard P/N 15300027)Part NumberDual CircuitOne circuit adjustable 1(Mates with Packard P/N 12034147)1-3 PSI±0.54-6 PSI ±17-12 PSI ±213-24 PSI ±325-46 PSI ±547-76 PSI ±677-100 PSI ±7101-126±9127-150 PSI ±10Dual CircuitBoth circuits adjustable 2 (Mates with Packard P/N 12034147)770297702077030770217703177022770327702377033770247703477025770357702677036770277703777028770387703977040770417704277043770447704577046Part NumberContact Setting 33-4 PSI ±0.55-10 PSI ±111-24 PSI ±225-46 PSI ±347-76 PSI +5/-277-100 PSI +7/-2101-126 PSI +9/-2127-150 PSI +10/-277047770487704977050770517705277053770540.5-3 PSI 4-7 PSI 8-13 PSI 14-24 PSI 25-50 PSI 51-90 PSI 91-150 PSI1.5 PSI2.5 PSI3.5 PSI 8 PSI 15 PSI 23 PSI 40 PSIDead Band Note 1: Expected Dead Band (Higher than N.C. circuit)Contact Setting2.3” REF.3.05” REF 2.45” REF.2.5” REF.1.69” REF.1.187” REF.Pressure/Vacuum Switch - A device that senses a change in pressure/vacuum and opens or closes an electrical circuit when the set point is reached.Set Point - The pre-determined pressure/ vacuum value that is required to open or close the electrical contacts in the switch.Electrical Contacts - The elements in the switch that electrically respond to the media applied to the actuator. Snap action contacts with a“self-cleaning” wiping effect are usedin Series III and Series V switches. Direct action blade contacts are usedin the 5000 Series.Pressure Switch Actuator - The member in the switch which receivesthe media and ultimately strokes the electrical contacts to open or close at the designated set point. The actuator in the Series III is a beryllium copper or silicone rubber diaphragm. An elastomeric diaphragm or piston actuator is used in the Series V.The 5000 Series uses a polyimidefilm diaphragm.Normally Open (SPST-N.O.) - A normally open switch does not conduct an electrical signal until the actuator is moved by the media causing the contacts to close.Normally Closed (SPST-N.C.) - A normally closed switch conducts electricity until the actuator is moved by the media causing the contacts to open.Dual Circuit (SPDT) - A normally open and normally closed circuit are contained in a switch.Dual Circuit (N.O./N.O.) - Switch contains two normally open circuits.Dual Circuit (N.C./N.C.) - Switch contains two normally closed circuits.System Pressure/Vacuum - This is the normal pressure/vacuum that would be present at the switch actuator. This valueis important in order to apply the properswitch configuration. Even though the setpoint may be relatively low, the systempressure would continue to be applied tothe switch actuator in most cases.Proof Pressure - This specification isthe maximum over-pressure conditionthat the switch can have for a specifiedperiod of time and still maintain set pointintegrity.Burst Pressure - This specification isthe maximum over pressure conditionthat the switch can withstand withoutexperiencing leakage.Dry Circuit Load - Typically this wouldbe a very low electrical load associatedwith microprocessors when the opencircuit voltage is .03V or less and thecurrent is 40mA or less.Resistive Load - A load in which thevoltage is in phase with the current.Inductive Load - A load in which thevoltage leads the current.Motor Load - The load of a motor atrated horsepower and speed.Capacitive Load - A load which thecurrent leads the voltage.Differential - The difference betweenopening (actuation) pressure and theclosing (de-actuation) set points. Thisis also referred to as “dead band”. Forexample, a switch set at 150 PSI to openon increasing pressure and close at 95PSI on decreasing pressurewould have a differential of 55 PSI (150-95=55).ConvertkPaPSIBARSPSIHg”PSIH2O”PSIH2O”Hg”C°F°Conversion FactorsToPSIkPaPSIBARSPSIHg”PSIH2O”Hg”H2O”F°C°Multiply By.1456.894814.5.069.49122.036.0361327.6778.0735513.59621.8(C° +17.78)F-32÷1.8Switch Definitions and T erminologyworld-class manufacturing systems. Some of the methods by concepts are used in the focused factories in order to。

Midas®固定式可燃气体检测探头美国霍尼韦尔固定式Midas®可燃气体检测探头是用于半导体工业及其他一般工业所使用的有毒气体以及可燃气体的高灵敏度和可靠度的气体检测仪。

霍尼韦尔固定式Midas可燃气体检测探头通过延长的传感器校准周期、灵活的通讯模式以及传感器自诊断功能和流量自动控制的专利，Medias®大大降低了气体探测所需要的运行成本。

Midas®通过变送器平台用于典型工业环境中的有毒气体、环境气体以及可燃气体的探测。

预先校准的“即插即用”智能传感器可在没有工具的情况下对传感器快捷而简易的更换，并且防止操作人员使用错误或废弃传感器错误。

高亮度的LED以及直观的图表显示交互式菜单时显示气体读数和警报级别（结合了用于参数设置、检测和校准的密码保护菜单）。

Midas®形状小巧，便于检修的金属机身设计使得它在密集、日间复杂的过程环境中或空间要求较高环境中的安装非常便捷。

Midas®配有标准的内置式可选的电源和通讯模式，包括3个内置继电器、0-22mA模拟输出、Modbus/TCP 以太网数字输出和全新的以太网供电（PoE）协议——所有电源、控制和通讯设备的单一以太网连接。

Midas®体系结构显著降低了PLC和FieldBus系统集成的成本。

Midas®采样距离最大可达到30米（100英尺），并且使用专利控制技术自动调整流量率以保证气体检测操作无误差。

Honeywell Analytics设计并制造了其独有的先进的传感器自动生产线，保证了无可比拟的质量和可靠性。

Midas®由与其超灵敏低ppm有毒气体监控分析仪的创新性Chemcassette®范围和我们由维修工程师（24/7，全年无休）构建的全球网络而备受称赞。

仪器特点：•可用于40多种气体，并带有两年延长保质期•带有内置“电子标定”证书的智能传感器夹头•内置1、2级警报以及故障用继电器•以太网供电（PoE）通讯和供电平台•键盘接口和远程网络浏览器接口•连接到任意变送器的热裂解器和LonWorks接口可选模块•密码保护菜单管理功能用于维护系统完整性•高亮度LED和直观图标显示、超大背光式LCD显示屏•工厂校准的传感器可减少频繁的真实气体测试•带有故障和状态报告的格力的0-22mA模拟输出•ModBus/TCP以太网通讯方式可便捷地连接到控制和报警系统以达到控制连接以及进行服务•可到30米取样距离的强有力的采样泵系统（2年使用寿命）•交互式训练模拟器工具•CE标记的用于全面抗电磁干扰•Reflex®传感器工作状态检查以改善探测器工作安全可靠性•TempraSure®TM温度补偿基数（视情况而定）•浏览传感器历史的状态记录•确认气体泄漏以避免误报警的专利技术可探测气体：仪器参数：•发送器尺寸（带有传感器的机组）：120毫米高，63毫米宽，150毫米厚•发送器重量（带有传感器的机组）：0.8千克•（低温版）热解器尺寸：70毫米高，63毫米宽，83毫米厚•（低温版）热解器重量：0.41千克•（高温版）热解器尺寸：113毫米高，101毫米宽，140毫米厚•（高温版）热解器重量：1.25千克•操作电压：24V DC 标称+/-10%•以太网供电操作电压：36-57VDC（经由PoE），48V DC 标称•发送器部件功耗：约5.0瓦•带有热解器（可选件）的功耗：小于12.95瓦•可视类输出：警报、电源和故障等以及带有气体读数和结果的背光液晶显示器•继电器输出：分别用于警报1、警报2和故障的3个继电器，额定值：1.0A@30VDC或0.5A@125VAC；可配置的NO（常开）或NC（常闭），上锁或未上锁•模拟输出：2路绝缘的0-22mA•数字通讯：标准，ModBus/TCP以太网；以太网供电（PoE），可选LonWorks •服务端口：RS 232C/PPP协议•欧洲认证：CE标记；符合EN 50270：1990（类型2）和EN 55011：2000•环境认证：经ETL审核批示UL 61010B和CSA-C22.2 No. 1010.1-92•性能认证：设计符合UL 2075（未决的2004）•电器认证：IEEE 802.3af-2003•流率：500毫升/分钟•运输时间：最大2-30秒•性能：LDL•取样管道长度：长达30米（100英尺），带有FEP管道，具体取决于气体类型•取样环境点监测：推荐在线空气过滤器•取样排气管长度：长达30米（100英尺）•样品管道：6.35毫米外径（1/4英寸）×3.18毫米（1/8英寸），FEP，最长30米（100英尺），具体取决于气体类型•排气管道：6.35毫米外径（1/4英寸）×3.18毫米（1/8英寸），FEP，30米（100英尺）•带有传感器的机组的操作温度：0-40摄氏度•4-20mA/DC电源/继电器的接线要求：最大14AWG•数字化接线要求：屏蔽CAT 5电缆或等同物，RJ 45连接器•仪器显示器及显示介面：带分离测量部件、流率条形图和其它标象指示器的4位字母数字显示屏；4按钮薄膜键盘•远程界面：可透过以太网或其它总线系统访问的PC/PDA网络浏览器•发送器部件保修：1年•传感器夹头保修：标准，1年；带有扩展保修项目：2年•帮浦的预期寿命：大于2年•安装方法：使用在后机身上预先钻好的两个孔进行墙面安装•安装材料：带油漆罩面的钢铁盒氟F20-4.0ppm锗烷GeH40-0.8ppm 六氟丁乙烯C4F60-40ppm 氢（%爆炸下限（LEL））H20-100% LEL 氢（ppm）H20-1000ppm溴化氢HBr0-8.0ppm氯化氢HCl0-8.0ppm氰化氢HCN0-20ppm氟化氢HF0-12ppm 氟化氢（低浓度的）HF0-2.0ppm硫化氢H2S0-40ppm 硫化氢（高浓度的）H2S0-100ppm 甲烷（%爆炸下限（LEL）） CH40-100% LEL 甲基氟CH3F0-60ppm二氧化氮NO20-12ppm一氧化氮NO0-100ppm三氟化氮NF30-40ppm八氟环戊烯C5F80-40ppm氧气能力&缺氧O20-25% vol臭氧O30-0.4ppm磷化氢PH30-1.2ppm氢氧化磷POH30-0.4ppm硅烷SiH40-20ppm 硅烷（低浓度的）SiH40-2.0ppm 二氧化硫SO20-8.0ppm六氟化硫SF60-8000pm四氟化硫SF40-0.4ppm正硅酸乙酯TEOS0-40ppm六氟化钨WF60-12ppm 六氟化钨（低浓度的）WF60-2.0ppmTiger2015-01-22。

B-21MANÔMETRO ÚMIDO/Ou SENSOR DE PRESSÃO DIFERENCIALExemplo de pedido: PX26-030DV, intervalo bidirecional de ±30 psid.U Água e Muitos Outros Líquidos Podem Escoar em Ambos os Sentidos U Disponíveis em modelos para medir PressãoManométrica ou Pressão DiferencialU Projeto de Montagem em Placa PC MiniaturaESPECIFICAÇÕESExcitação: 10 VCC, 16 VCC máx a 2 mA Saída (a 10 VCC): 1 psi = 16,7 mV; 5 psi = 50 mV; >5 psi = 100 mV; 250 psi = 150 mVLinearidade: ±0,25% FE BFEL típico(±1% no máximo) P2 > P1Histerese e Repetibilidade: 0,2% FEEquilíbrio Zero: ±1,5 mVTolerância de Intervalo: ±3,0 mVEstabilidade de 1 Ano: 0,5% FETemperatura de Operação: -40 a 85°C (-40 a 185°F)Temperatura Compensada: 0 a 50°C(32 a 122°F)Efeitos T érmicos: Zero: 1 mV Intervalo: 1% da leituraPressão de prova: 20 psi paraintervalo ≤5 psi; 45 psi para 15 psi; 60 psi para 30 psi; 200 psi para 100 psiResistência de entrada: 7,5 k ΩResistência de Saída: 2,5 k ΩTempo de Resposta: 1 msTipo de Bitola: Sensor de silícioPartes úmidas: Polyethimide, silício,fluorosiliconePeso: 2 g (0,07 onça)PX26-005DV mostrado em escala maior que a real.Medidor DP25B-S, vendido separadamente, mostrado em escala reduzida.0-1 a 0-250 psi (0-0,07 a 17,2 bar) medidor e diferencialConector CX136-4vendido separadamente.Tubulação vendidaseparadamente.Os sensores de pressão da Série PX26 da OMEGA possuem a mais avançada tecnologia de silício que permite que ambos os lados dodiafragma atuem como sensores. Uma vedação única de condução entre o diafragma de silício e o alojamento de plástico permite utilizar em aplicações úmida/úmida com custos de produção menores do que os sensores de silício tradicionais de fio de ouro. Esta nova construção possui um diafragmamaior do que os sensores tradicionais de silício, resultando no aumento da estabilidade a longo prazo.Série PX26。

Mid Range Precision Miniature Load CellsModel 31 MidDESCRIPTIONThe Model 31 mid range, precision miniature load cells measure both tension and compression with options covering 10N to 5 KN / 1000 g to 1000 lb.The Model 31 is a durable miniature load cell with capability of high accuracies of 0.15 % to 0.2 % full scale. Welded, stainless steel construction is designed to minimize or eliminate the effects of off-axis loads.Each bonded strain gage unit is built of welded 17-4 PH stainless steel for additional durability. This, combined with a reliable internal design provides enhanced long-term stability. Further optional modification can permit this model to be completely welded for potential use in underwater applications.VALUE TO CUSTOMERS• Enhanced accuracy of 0.15 % to 0.2 %• Newton, gram, and pound force ranges availableFEATURES• 10 N to 5 kN /1000 g to 1000 lb • mV/V output • Stainless steel• Male thread attachments • Miniature designPOTENTIAL APPLICATIONS• Cable tension• Industrial process control • Medical control systems • Medical equipment testing• Pharmeceutical process or product control • Semiconductor/electronics testing • Aerospace testingPORTFOLIOHoneywell’s miniature and subminiature load cells are designed to fit into systems and applications with limited space or tight clearances. Constructed of rugged stainless steel for precise measurements and excellent long termstability and reliability under harsh operating conditions, these load cells are designed to eliminate or reduce to a minimum the effect of off-axis loads. To view the entire product portfolio, click here .Safety and Productivity Solutions008630Issue 22 Safety and Productivity Solutions 3Table 8. Mounting DimensionsFigure 1. Mounting Dimensions for10 N to 50 N / 1 kg to 10 lb (6AM termination required)Figure 2. Mounting Dimensions for100 N to 5 kN / 25 lb to 1000 lb (6E termination required)Figure 3. Product Nomenclature AL311LoadTypeModel 31Mid Precision Miniature Load CellMHRangeTemperatureCompensation1AInternalAmplifiers2UElectricalTermination6AMAdditionalPoint CalibrationElectrical Conn.Orientation15CSpecialCalibration3MountingThreads632BCalibrationMemory74 Warranty/RemedyHoneywell warrants goods of its manufacture as being free of defective materials and faulty workmanship. Honeywell’s standard product warranty applies unless agreed tootherwise by Honeywell in writing; please refer to your order acknowledgement or consult your local sales office for specific warranty details. If warranted goods are returned to Honeywell during the period of coverage, Honeywell will repair or replace, at its option, without charge those items it finds defective. The foregoing is buyer’s sole remedy and is in lieu of all other warranties, expressed or implied, including those of merchantability and fitness for a particular purpose. In no event shall Honeywell be liable for consequential, special, or indirect damages.While we provide application assistance personally, through our literature and the Honeywell web site, it is up to the customer to determine the suitability of the product in the application.Specifications may change without notice. The information we supply is believed to be accurate and reliable as of this printing. However, we assume no responsibility for its use.008630-2-EN IL50 GLO October 2016© 2016 Honeywell International Inc. All rights reserved.Teflon ® is a registered trademark of E.I. duPont de Nemoursm WARNINGPERSONAL INJURYDO NOT USE these products as safety or emergency stop devices or in any other application where failure of the product could result in personal injury.Failure to comply with these instructions could result in death or serious injury.m WARNINGMISUSE OF DOCUMENTATION• The information presented in this product sheet is for reference only. Do not use this document as a product installation guide.•Complete installation, operation, and maintenanceinformation is provided in the instructions supplied with each product.Failure to comply with these instructions could result indeath or serious injury.Find out moreHoneywell serves its customers through a worldwide network of sales offices, representatives and distributors. For application as-sistance, current specifications, pricing or name of the nearest Authorized Distributor, contact your local sales office.To learn more about Honeywell’s test and measurement products, call +1-815-235-6847 or 1-800-537-6945,visit , or e-mail inquiries to *********************Honeywell Safety and Productivity Solutions 9680 Old Bailes Road Fort Mill, SC 29707 NOTES1. Allowable maximum loads - maximum load to be applied withoutdamage.22. Without damage - loading to this level will not cause excessivezero shift or performance degradation. The user must consider fatigue life or long term use and structural integrity. All structurally critical applications (overhead loading, etc.) should always be designed with safety redundant load paths.3. Standard calibration for tension/compression load cells is intension only.4. Consult factory for extended operation above 125 °C [257 °F].5. Option 6i may increase the load cell height and/or diameter.Consult factory.6. See Figures 1 and 2 to match the mounting interface option withthe range code.7. Maximum operating temperature for options 53s and 53t is 85 °C[185 °F].8. TEDS IEEE 1451.4 module installed at end of cable.Figure 4. Typical System DiagramModel 31Customer supplied Chart recorder Alarm panel Data acquisition Computer PLCDisplay units SC500 SC2000SC2001SC3004GM NK HHIn-line amplifiers (used with unamplified units only)Amplifier OutputUniversal in-line amplifiers UV ±5 Vdc UV-10 ±10 Vdc UBP 0 ±5 Vdc U3W 4 mA to 20 mA (3-wire)DIN rail mount in-line amplifiers DV-05 0 ±5 Vdc (3-wire)DA-05 4 mA to 20 mA (3-wire)DV-10 0 ±10 Vdc (3-wire)。

If you need detailed product information, or help choosing the right product for your application, see our Interactive Catalog . Use the Interactive Catalog to access the most complete and up-to-date information available.The Interactive Catalog provides an extensive collection of product specifications, application data, and technical literature that can be searched based on criteria you select.This PDF catalog information was published in November 2000.Sensing and ControlHoneywell Inc.11 West Spring StreetFreeport, IL /sensingSensing and Control Interactive Catalog...Click this icon to try the Interactive Catalog.Interactive Catalog Supplements Catalog PDFsBZG/BZH switches have a neoprene seal gasket between the housing halves, elas-tomer boot actuators, sealed conduit con-nectors, and die cast aluminum housing. Mounting holes are located outside the switch cavity and accept No. 10 screws. A neon pilot light can be added to switches having two conduit openings to indicate contact status.FEATURESɀPilot light (optional)ɀCast aluminum housingɀSide or flange mountACCESSORIESPilot Light 110-220 VAC (complete with seal) ............................................15LT1 Wiring Seal (for No. 14 type ‘‘S’’ rubber jacketed cord) ....................................2PA1 ELECTRICAL RATINGCircuitry Electrical RatingA UL Rating15 amp, 125, 250 or 480 VAC;2 amp, 600 VAC;MOUNTING DIMENSIONS(For reference only)PLUNGERSide mount Flange mount Roller plunger ROLLER LEVERSide mountFlange mount(2 conduit openings)RODFlange mount Side mount。

(2016/5/20) Honeywell Honeywell Laser Particle Sensor ModuleHPM - SeriesDescriptionThe Honeywell HPM-Series Particle Sensor is a laser-based sensor which detects and counts particles with the concentration range between 0-1,000μg/m3in a given environment based on the light scattering method. The laser light source illuminates a particle as it is pulled through the detection chamber. As particles pass through the laser beam, the light source becomes obscured and is recorded on the photo or light detector. The light is then analyzed and converted to an electrical signal providing particulate size and quantity to calculate concentrations in real time.The Honeywell particle sensor will provide information on the particle concentration for given particle detect range.Value to Customers∙Enable products to monitor or control environmental particulate contamination accurately and cost effectively. ∙Market-leading life expectancy (20000 hours of continuous use).∙Proven EMC performance enables products to perform accurately in a variety of heavy industrial environments, and ensure product capabilityDifferentiation∙Market leading operating lifetime, stable work for over 20000 hours of continuous use∙Proven EMC performance (based on IEC61000 stable operation performance standard), max 15% error band compared to reference∙High reliability, strictly test in different harsh environments∙Functionality includes options for both PM2.5 and PM10 outputProduct FeaturesLaser Scatter Based SensingSensing Range: 0 ~ 1000ug/m3Fully CalibratedEMC: Heavy Industrial Level IEC61000Response Time: <6SSupply Current: Max 80 mAOutput Signal: I2CPM10 Output (Optional)RoHS and REACH CompliantPotential Applications∙Air Cleaner∙Air Conditioner∙Car Air Cleaner∙Air Quality Monitor∙Environmental Monitoring∙Hand-held Air Quality DetectorTable 1. SpecificationsHoneywell PM2.5 Sensor SpecificationsWorking Principle Laser ScatteringDetection Range PM2.5, PM10 (Optional) Concentration Range(Max)<1000ug/m3Accuracy (Consistency)>100 ug/m3, ±15%<100 ug/m3, ±15ug/m3Ambient Room Conditions Response Time 6sSupply Voltage 5V ± 0.2VStandby Current <20mA, Ambient Room Conditions Supply Current <80mA, Ambient Room Conditions Operating Temperatureand Humidity-10~50° C, 0~95%RHStorage Temperature andHumidity-30~65° C, 0~95%RHOutput DataPM2.5 (Default), PM10 (Optional),Concentration (unit ug/m3) Output Protocol I2C Default address: 0*28 Operating TimeContinuous Mode: 20000HIntermittent Mode: Depending onDuty CycleDimension 43 * 36 * 23.7mmEMC RatingESD ± 4 kV contact, ± 8 kV air as per IEC 61000-4-2 Radiated Immunity 1 V/m (80 MHz to 1000 MHz) as per IEC 61000-4-3 Fast Transient Burst ±0.5 kV as per IEC61000-4-4Immunity to Conducted Disturbances 3 V as per IEC61000-4-6Radiated Emissions 40 dB (30 MHz to 230 MHz); 47 dB (230 MHz to 1000 MHz) as per CISPR 14Conducted Emissions 0.15M-30M as per CISPR 14 Table 2. PM2.5 ProtocolCommand Format DescriptionStart Measurement Read Command FormatSend Command FormatSent by Host Sent by SlaveRead PM2.5 CountField DescriptionCommandCalculationMethodField DescriptionCommandStart Measurement:Figure 1. Installation GuidelineWhen installing the product, both the inlet and outlet should be kept in a clear air flow and neither sides can be placed towards the mounting position (2 kinds of correct direction are shown below), so as to avoid the accumulation of particles in sensitive areas due to prolonged use to affect test accuracyCorrect CorrectWrongWrongStop MeasurementField DescriptionCommandStop MeasurementSet AddressField DescriptionCommandModify I2C Address8 Addresses Configurable as Follows:Write AddressRead AddressFigure 2. Mounting DimensionMounting dimension shown as followsFigure 3. Nomenclature and Order GuideNomenclature – Particle SensorMOUNTING WITH 3PCS ST2.2 SCREWS SCREWLENGTHACCORDINGTOCUSTOMERMOUNTING SITUATIONSeriesVertical Output TypeAccuracy Power Housing Additional Features Custom NumberApplianceStandard NoneTemperature and Humidity EconomicHeavy IndustryCompactGeneral Type CustomizedExample:Figure 4. Pin DefinitionsConnector P/N: 60511 08 2130JPin Definitions TableNo. Item Description1 +3.3V Power Output (+ 3.3v / 100mA)2 5V Power Input (5V)3 SCL SCL4 SDA SDA5 TEST For Testing (NA)6 TX UART-TX Output (0-3.3V)7 RX UART-RX Input (0-3.3V)8 GND Power Input (Ground Terminal)Additional InformationThe following associated literature is available on the Honeywell website at : ∙ Product Range Guide ∙ Product Line Guide∙ Product Installation Instructions ∙ Technical InformationFind out moreHoneywell serves its customers through a worldwide network of sales offices, representatives and distributors. For application assistance, current specifications, pricing or name of the nearest authorized distributor, please contact your local sales office. To learn more about Honeywell Sensing and Productivity Solutions’ products, please call +1-815-235-6847 or 1-800-537-6945,visit , or e-mail, or inquiry to *********************Honeywell Sensing and Productivity Solutions1985 Douglas Drive North Golden Valley, MN 55422 WARNINGPERSONAL INJURYDO NOT USE these products as safety or emergency stop devices or in any other application where failure of the product could result in personal injury.Failure to comply with these instructions could result in death or serious injuryWARNINGMISUSE OF DOCUMENTATION ∙ The information presented in this datasheet is for referenceonly. Do not use this document as a product installation guide. ∙ Complete installation, operation, and maintenanceinformation is provided in the instructions supplied with each product.Failure to comply with these instructions could result in death or serious injury Safety AlarmThe metal part of this product is connected to the internal circuit through DC GND. If anyone directly touches the DC GND of the machine, a safety issue will arise. Therefore, the sensor is required to be installed in a location where any human body cannot establish any direct contact, and can contact the sensor only after the power is disconnected. The product should not work in the condensation environment Warranty/RemedyHoneywell warrants goods of its manufacture as being free of defective materials and faulty workmanship. Honeywell’s standard product warranty applies unless agreed to otherwise by Honeywell in writing. Please refer to your order acknowledgement or consult your local sales office for specific warranty details. If warranted goods are returned to Honeywell during the period of coverage, Honeywell will repair or replace, at its option, without charge those items it finds defective. The foregoing is buyer’s sole remedy and is in lieu of all other warranties, expressed or implied, including those of merchantability and fitness for a particular purpose. In no event shall Honeywell be liable for consequential, special, or indirect damages.While we provide application assistance personally through our literature and the Honeywell web site, it is up to the customer to determine the suitability of the product in the application. Specifications may change without notice. The information we supply is believed to be accurate and reliable as of this printing. However, we assume no responsibility for its use.May 2016。