瑞士Membrapor O3-S-5-S传感器模块

CABLE BUSHING STYLEPRS SERIESSanitary RTD Sensorse-mail:**************For latest product manuals: Shop online at User’s GuideGENERAL DESCRIPTIONThe Omega PRS series sensors are designed for use in Sanitary Clean-In-Place (CIP) systems. They are supplied standard with 1-1/2" 16AMP Style flanges so they can be assembled to like style piping connections. Other connection sizes and styles are available.These sensors are supplied with 100 ohm Platinum RTD (Resistance Temperature Detectors) elements that meet the resistance vs. temperature characteristics and Class A requirements of IEC-60751. Equations for calculating resistance vs. temperature, temperature vs. resistance and Class A tolerances are included below. See the back side of this Instruction Manual for a Resistance vs. Temperature table.PROCESS CONNECTION:M-4913-C Instruction Manual for Cable Bushing Style Sanitary RTDSensorsResistance Vs. Temperature Table: (Resistance Values Stated in Ohms)Temperature °C0123456789 -5080.3279.9279.5279.1378.7378.3377.9377.5477.1476.74 -4084.2883.8883.4883.0982.6982.3081.9081.5081.1180.71 -3088.2287.8387.4487.0486.6586.2585.8685.4685.0784.67 -2092.1691.7791.3790.9890.5990.1989.8089.4189.0188.62 -1096.0995.6995.3094.9194.5294.1393.7393.3492.9592.55 100.0099.6199.2298.8398.4498.0497.6597.2696.8796.48 0100.00100.39100.78101.17101.56101.95102.34102.73103.12103.51 10103.90104.29104.68105.07105.46105.85106.24106.63107.02107.40 20107.79108.18108.57108.96109.35109.73110.12110.51110.90111.29 30111.67112.06112.45112.83113.22113.61114.00114.38114.77115.15 40115.54115.93116.31116.70117.08117.47117.86118.24118.63119.01 50119.40119.78120.17120.55120.94121.32121.71122.09122.47122.86 60123.24123.63124.01124.39124.78125.16125.54125.93126.31126.69 70127.08127.46127.84128.22128.61128.99129.37129.75130.13130.52 80130.90131.28131.66132.04132.42132.80133.18133.57133.95134.33 90134.71135.09135.47135.85136.23136.61136.99137.37137.75138.13 100138.51138.88139.26139.64140.02140.40140.78141.16141.54141.91 110142.29142.67143.05143.43143.80144.18144.56144.94145.31145.69 120146.07146.44146.82147.20147.57147.95148.33148.70149.08149.46 130149.83150.21150.58150.96151.33151.71152.08152.46152.83153.21 140153.58153.96154.33154.71155.08155.46155.83156.20156.58156.95 150157.33157.70158.07158.45158.82159.19159.56159.94160.31160.68 160161.05161.43161.80162.17162.54162.91163.29163.66164.03164.40 170164.77165.14165.51165.89166.26166.63167.00167.37167.74168.11 180168.48168.85169.22169.59169.96170.33170.70171.07171.43171.80 190172.17172.54172.91173.28173.65174.02174.38174.75175.12175.49 200175.86176.22176.59176.96177.33177.69178.06178.43178.79179.16 210179.53179.89180.26180.63180.99181.36181.72182.09182.46182.82 220183.19183.55183.92184.28184.65185.01185.38185.74186.11186.47 230186.84187.20187.56187.93188.29188.66189.02189.38189.75190.11 240190.47190.84191.20191.56191.92192.29192.65193.01193.37193.74 250194.10194.46194.82195.18195.55195.91196.27196.63196.99197.35 260197.71198.07198.43198.79199.15199.51199.87200.23200.59200.95For Determining Resistance from Temperature (0°C and above):R t = R0(1 + A t + B t2)where:R t = Sensor Resistance at Temperature (°C) R0 = Sensor resistance at 0°C= (100 Ohms Nominal)A = 3.9083 x 10-3 °C-1B = -5.775 x 10-7 °C-2For Determining Temperature From Resistance (0°C and above):t = [sqrt(A2-4B(1-R t/R0))-A]/2B = °C where:t = Temperature at Sensor Resistance R t A, B, R0 and R t per aboveClass A Tolerance = ± (0.15 + 0.002t) = °C With t = temperature in °C regardless to signOMEGA’s policy is to make running changes, not model changes, whenever an improvement is possible. T his affords our customers the latest in technology and engineering. OMEGA is a trademark of OMEGA ENGINEERING, INC.© Copyright 2018 OMEGA ENGINEERING, INC. All rights reserved. This document may not be copied, photocopied, reproduced, translated, or reduced to any electronic medium or machine-readable form, in whole or in part, without the prior written consent of OMEGA ENGINEERING, INC.M4913-C/0418DISCLAIMERIf the unit malfunctions, it must be returned to the factory for evaluation. OMEGA’s Customer Service Department will issue an Authorized Return (AR) number immediately upon phone or written request. Upon examination by OMEGA, if the unit is found to be defective, it will be repaired or replaced at no charge. OMEGA’s WARRANTY does not apply to defects resulting from any action of the purchaser, including but not limited to mishandling, improper interfacing, operation outside of design limits, improper repair, or unauthorized modification. This WARRANTY is VOID if the unit shows evidence of having been tampered with or shows evidence of having been damaged as a result of excessive corrosion; or current, heat, moisture or vibration; improper specification; misapplication; misuse or other operating conditions outside of OMEGA’s control. Components in which wear is not warranted, include but are not limited to contact points, fuses, and triacs.OMEGA is pleased to offer suggestions on the use of its various products. However, OMEGA neither assumes responsibility for any omissions or errors nor assumes liability for any damages that result from the use of its products in accordance with information provided b y OMEGA, either verb al or written. OMEGA warrants only that the parts manufactured b y the company will b e as specified and free of defects. OMEGA MAKES NO OTHER WARRANTIES OR REPRESENTATIONS OF ANY KIND WHATSOEVER, EXPRESSED OR IMPLIED, EXCEPT THAT OF TITLE, AND ALL IMPLIED WARRANTIES INCLUDING ANY WARRANTY OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE HEREBY DISCLAIMED. LIMITATION OF LIABILITY: The remedies of purchaser set forth herein are exclusive, and the total liability of OMEGA with respect to this order, whether based on contract, warranty, negligence, indemnification, strict liab ility or otherwise, shall not exceed the purchase price of the component upon which liability is based. In no event shall OMEGA be liable for consequential, incidental or special damages.CONDITIONS: Equipment sold by OMEGA is not intended to be used, nor shall it be used: (1) as a “Basic Component” under 10 CFR 21 (NRC), used in or with any nuclear installation or activity; or (2) in medical applications or used on humans. Should any Product(s) be used in or with any nuclear installation or activity, medical application, used on humans, or misused in any way, OMEGA assumes no responsibility as set forth in our basic WARRANTY / DISCLAIMER language, and, additionally, purchaser will indemnify OMEGA and hold OMEGA harmless from any liability or damagewhatsoever arising out of the use of the Product(s) in such a manner.RETURN REQUESTS / INQUIRIESDirect all warranty and repair requests/inquiries to the OMEGA Customer Service Department. BEFORE RET URNING ANY PRODUCT(S) TO OMEGA, PURCHASER MUST OBTAIN AN AUTHORIZED RETURN (AR) NUMBER FROM OMEGA’S CUST OMER SERVICE DEPART MENT (IN ORDER T O AVOID PROCESSING DELAYS). T he assigned AR number should then be marked on the outside of the return package and on any correspondence.T he purchaser is responsible for shipping charges, freight, insurance and proper packaging to prevent breakage in transit.FOR WARRANTY RETURNS, please have the following information available BEFORE contacting OMEGA:1. P urchase Order number under which the product was PURCHASED,2. M odel and serial number of the product under warranty, and 3. R epair instructions and/or specific problems relative to the product.FOR NON-WARRANTY REPAIRS, consult OMEGA for cur-rent repair charges. Have the following information available BEFORE contacting OMEGA:1. Purchase Order number to cover the COST of the repair,2. Model and serial number of the product, and3. R epair instructions and/or specific problems relative to the product.U.S.A.Omega Engineering, Inc.Headquarters:Toll-Free: 1-800-826-6342 (USA & Canada only)Customer Service: 1-800-622-2378 (USA & Canada only) Engineering Service: 1-800-872-9436 (USA & Canada only) Tel: (203) 359-1660 Fax: (203) 359-7700e-mail:**************For Other Locations Visit /worldwide***********************The information contained in this document is believed to be correct, but OMEGA accepts no liability for any errors it contains, and reserves the right to alter specifications without notice.。

Transmitter PRODUCT MANUAL PositionSmartSPTM-5V SERIESVERSION 1.01Contents1. Introduction (3)1.1 General information for the users (3)1.2 Manufacturer Warranty (3)1.3 Explosion Proof Warning (3)2. Product Description (4)2.1 General (4)2.2 Main Features and Functions (4)2.3 Label Description (4)2.4 Product Number (5)2.5 Product Specification (5)2.6 Parts and Assembly (6)2.7 Dimension – SPTM-5VL (7)2.8 Dimension – SPTM-5VR (7)3. Installation (8)3.1 Safety (8)3.2 SPTM-5VL Installation (8)3.3 SPTM-5VR Installation (9)4. Connection– Power (10)4.1 Safety (10)5. Adjustment (11)5.1 Setting Point Switch (11)5.2 Adjustment - Calibration (11)5.3 Adjustment – Potentiometer (11)6. Troubleshooting (12)1. Introduction1.1 General Information for the usersThank you for purchasing Young Tech Co., Ltd products. Each product has been fully inspected after its production to offer you the highest quality and reliable performance.Please read the product manual carefully prior to installing and commission the product.For the safety, it is important to follow the instructions in the manual. Young Tech Co., Ltd will not be responsible for any damages caused by user’s negligence.The manual should be provided to the end-user.Any modifications or repairs to the product may only be performed if expressed in this manual.The manual can be altered or revised without any prior notice. Any changes in product’s specification, design, and/or any components may not be printed immediatelybut until the following revision of the manual.The manual should not be duplicated or reproduced for any purpose without prior approval from Young Tech Co., Ltd, Gimpo-si, South Korea.Warranty1.2 ManufacturerFor the safety, it is important to follow the instructions in the manual. Manufacturer will not be responsible for any damages caused by user’s negligence.Manufacturer will not be responsible for any damages or accidents as a result of any alteration or modification of the product and its parts. If any alteration or modificationsare necessary, please contact Young Tech Co., Ltd directly.Manufacturer warrants the product from the date of original purchase of the product for one (1) year, except as otherwise stated.Manufacturer warranty will not cover products that have been subjected to abuse, accidents, alterations, modifications, tampering, negligence, misuse, faulty installation,lack of reasonable care, repair or service in any way that is not contemplated in thedocumentation for the product, or if the model or serial number has been altered,tampered with, defaced or removed; damages that occurs in shipment, due to act ofGod, failure due to power surge, or cosmetic damage. Improper or incorrectlyperformed maintenance will void this limited warranty.For detailed warranty information, please contact Young Tech Co., Ltd – South Korea.1.3 Explosion Proof WarningPlease ensure the unit is being used and installed within the explosion proof certified environment.SPTM-5V series explosion proof grades are Ex ia IIC T6.Certified ambient temperature is -20’C ~ 60’C. The product should be used in certifiedambient temperature. If the field is not explosion proof area and does not requireexplosion proof, the product can be used in temperature range of -40’C ~ 85’C. LCDoperation temperature range is –30’C ~ 85’C.Barrier must be installed with below specificationUi =28V, li =47mA, Pi =437mA, Li =0.3μH, Ci = 56.5nFThe product must be grounded according to explosion proof procedure.2. Product Description2.1 GeneralSPTM-5V series is 2 wire type transmitter with in-built micro-processor which transmits DC 4~20mA signal according to changes in valve or damper position.2.2 Main Features and FunctionsDesigned to be Ex ia IIC T6 explosion proof grades.Economical price and long product life time.Very easy and simple calibration.LCD displays current output signal.Description2.3 LabelFig. 1: SPTM-5V Body LabelA. Model Number: Indicates model number.B. Explosion Proof: Indicates certified explosion proof grade.C. Input.: Indicates input rotation angleD. Output: Indicates output signal rangeE. Lot No.: Indicates unique lot number** SPTM-5V series’ KCs certification conforms Ministry of Employment and Labor announcement article No. 2010-36.2.4 ProductNumber2.5 ProductSpecificationModel SPTM-5VL SPTM-5VR Input Type 2 WireInput Signal0 ~ 30 degrees 0 ~ 90 degreesOutput Signal 4 ~ 20mA DCLoad Resistance Max.600 Ω / 28V DCSupply Voltage9 ~ 28V DCNoise Range50mV p.p.Conduit Entry PF 1/2 (G 1/2)Enclosure IP 67Explosion Proof Ex ia IIC T6 (KCs)Ambient Temp.Operating: -40’C ~ 85’C Explosion Proof: -20’C ~ 60’C LCD Operating: -30 ~ 85’CLinearity ± 1% F.S. Hysteresis0.2% F.S Sensitivity ± 0.2% F.S. Material Aluminum Diecasting Weight 0.6 kgAssemblyand2.6 Parts2.7 Dimension – SPTM-5VL2.8 Dimension – SPTM-5VR3. Installation3.1 SafetyWhen installing a unit, please ensure to read and follow safety instructions.Check unit’s specification and ensure to use as specified.Follow other explosion proof procedures and safety precautions.Use bypass valve or other supportive equipment to avoid entire system “shut down”.Make sure all input and supply pressure to valve, actuator, and other related devices must be turned off.Installation3.2 SPTM-5VL1. Proper bracket must be made in order to adapt SPTM-5V on the actuator yoke.Please consider following important points when a bracket is being designed.- SPTM-5V feedback lever must be parallel to the ground at 50% of the valve stroke.- Feedback lever connection with the pin of the actuator clamp should be installed in such a way that the valve stroke length coincides with the corresponding figure of“mm marked on the feedback lever. Improper setting may cause poor linearity.2. Assemble the SPTM-5V with the bracket made in previousstep by fastening the bolts. Please refer to the backside ofthe SPTM-5V for size of the bolts. The standard bolt size isM8 x 1.25P.3. Attach SPTM-5V with the bracket to the actuator yoke – DONOT TIGHTEN COMPLETELY.4. Connect SPTM-5V’s feedback lever to the actuator clamp. The hole gap on thefeedback lever is 6.5mm. The connection pins outer diameter should be less than6.3mm.5. Connect supply pressure to the actuator temporarily. Supply enough supply pressure tothe actuator in order to position the actuator clamp at 50% of the total valve stroke.6. Insert connection pin into the feedback lever. The pin should be inserted when theactuator clamp is at 50% of the total valve stroke.7. Check if the feedback lever is parallel to the ground at 50% of thevalve stroke. If it is not parallel, adjust the bracket or feedback linkbar to make parallel. Improper installation may cause poorlinearity.8. Check the valve stroke. The stroke marks are indicated on the feedback lever.Position the connection pin at the number on the feedback lever which corresponds tothe desired valve stroke. To adjust, mover the bracket or the connection pin or both.9. After installing the SPTM-5v, operate the valve from 0% to100% stroke by using direct air to the actuator. On both 0%and 100%, the feedback lever should not touch the leverstopper, which is located on the backside of SPTM-5V. If thefeedback lever touches the stopper, SPTM-5V should beinstalled further away from the yoke.Installation3.3 SPTM-5VR1. Please refer to SPTM-5VL installation section for important note for bracket design.2. There are two types of the lever – standard and NAMUR type.4. Connection – Power4.1 SafetyWhen installing a unit, please ensure to read and follow safety instructions.When installing in hazardous and explosive gas area, conduit tube or pressure-proof packing union must be used.Please use ring-type rug to protect against vibration or any other external impact.Please use twisted cable with conductor section are 1.25mm2 and that is suitable for 600V (complying to the conductor table of NEC Article 310.) The outer diameter of thecable should be between 6.35 ~ 10mm. Use shield wire to protect against electro-magnetic field and noise.Please do not install the cable near high noise equipments, such as high-capacity transformer or motor.4.25. Adjustment5.1 Setting Point SwitchSPTM-5V series can be calibrated in 2 or 5 points setting.a) 2 Point Setting:By setting minimum and maximum points <0% and 100% of valve stroke>, in-bb) 5 Point SettingBy setting 5 points <0%, 25%, 50%, 75%, and 100%> the outputs can be set accordingly.5.2 Adjustment - Calibrationa) Input 4mA signal to the positioner to move the valve stroke to the 4mA position.b) After the valve reaches at the 4mA position, press “4mA button for 3-4 seconds. Thelamp will be lighted, and this indicates that 4mA outputfeedback position has been calibrated.c) Please repeat above step for 8mA, 12mA, 16mA, and20mA for 5 point setting. For 2 point setting, repeatabove step for 20mA only.5.3 Adjustment – PotentiometerPotentiometer is designed to output 12mA signal when the feedback lever is at 50% position.In case of dislocation of the potentiometer, please follow below procedure to re-set thepotentiometer.● Power must be turned off before adjusting potentiometer.● Please be cautious when adjusting potentiometer.● Please make sure that there is no remaining circuit on the PCB.● Please do not use excessive force when disconnecting potentiometer from the PCB.1. Locate the potentiometer under the PCB. Disconnect from the PCB. Please do not useexcessive force.2. Unfasten lock screw which locks the potentiometer gear and take out potentiometer bodyfrom the lag-gear.3. Fix the feedback lever at 50% position and measure resistance level by connecting twoprobes out of three inlets.4. Rotate pinion gear until resistance vale is about 5KΩ.5. After setting the resistance value, rotate stopper to the normal position an fasten the lockscrew.6. Reconnect potentiometer to the PCB and reinstall PCB onto SPTM-5V body.SPTM-5VR6. Troubleshooting1) SPTM-5V shows no output signal.A. Check actual input signal to SPTM-5V.B. Check power connection and + / - poles.2) Input signal value to the positioner and output signal value from SPTM-5V differsdramatically.A. Check input signal value and supply voltage. Insufficient voltage can affect input signalvalue.B. Check the installation of the positioner. If the positioner is installed improperly, pleaserefer to the positioner’s manual and re-install the positioner.C. Set the positioner’s zero and span. Inaccurate zero and span setting can lower theaccuracy and linearity.D. Check the installation of the position transmitter. If SPTM-5V is installed improperly,then refer to the manual and re-install.3) Sudden changes in SPTM-5V’s output signal value.A. Please make sure that SPTM-5V’s lever is placed at 50% point. If not, SPTM-5Vneeds to be re-installed and adjusted to be placed at the 50% point.B. Adjust the potentiometer. Potentiometer’s load resistance is 10KΩ, and it should beready at the 50% point.Manufacturer:Young Tech Co., Ltd#3022, Hagun-ri, Yangchon-myeonKimpo-si, Kyeonggi-do, 415-843South KoreaTel: +82-31-986-8545Fax: +82-31-986-2683Email: **********.krCopyright © Young Tech Co., Ltd. All Rights Reserved.。

MINI SMD 可编程数字AD 型热释电红外传感器Mini SMD Programmable AD Pyroelectric Infrared SensorsS22-P340R 使用说明书V1.2森霸传感科技股份有限公司Senba Sensing Technology Co.,Ltd.森霸传感科技股份有限公司1.企业及产品概况：1.1体系认证●ISO14001认证公司获得ISO14001认证，在遵守国家环保法的基础上，通过采取各种改进措施，实现企业可持续性发展。

●ISO 9001认证公司获得国际标准化机构（ISO）的品质保证标准-即“ISO 9001”的认证。

1.2关于欧盟ROHS指令ROHS指令：欧盟提出的“关于在电子电气设备中限制使用某些有害物质的指令2011/65/EC”，公司生产的所有产品均符合欧盟ROHS指令。

1.3产品型号及检测原理1.3.1产品规格型号：本产品为SMD 数字AD 型双元热释电红外传感器，产品型号为S22-P340R ，版本号为V1.2，若使用产品超出了产品列举的应用范围，请及时咨询产品应用或销售工程师。

1.3.2产品探测原理：传感器核心部件由热释电探测敏感元、红外滤光片和芯片IC三部分组成，其中探测敏感元为双元结构。

是一款用于低功耗运动检测的红外热释电传感器（PIR）。

利用MCU进行通信，当S22-P340R 进行连续运动传感时，MCU不需要激活，它只在检测到运动时才激活外部MCU。

运动检测结果通过输出中断信号发出。

运动检测的算法是可编程的，可以通过外部MCU配置来改变。

PIR信号在芯片上转换为一个14位的数字值，然后进入运动算法检测单元。

所有的信号处理都是数字化的，可支持运动检测结果输出和原始数据输出。

2.非商业用途说明森霸传感科技股份有限公司（以下简称森霸）免费授权用户非商业性使用本产品说明书，并为用户提供产品变更和咨询服务。

若要进行商业性的销售、复制、散发或其他商业活动，须事先获取森霸的书面授权和许可。

Page 1/12Data Sheet 401010JUMO MIDAS S05OEM Pressure Transmitter – UniversalApplications•HVAC (heating, ventilating, and air conditioning)•Refrigeration engineering •Compressor engineering •Machinery and plant engineering •Packaging industryBrief descriptionThe pressure transmitter is available with relative pressure and absolute pressure measuring ranges.The fully welded measuring system (without seals) made of high-grade stainless steel allows this device to be used in almost all media, even in harsh conditions. The structure ensures optimum protection against process medium leakage.The device features a silicon sensor that is extremely resistant to overloading even in the lowest measuring ranges and is capable of handling millions of pressure cycles.Type 401010 with cable socketType 401010 with M12×1 connectorCustomer benefits•EconomicA high degree of automation (digital compensation and calibration of sensor module) reduc-es production time and manufacturing costs.•Process reliabilityThe piezoresistive silicon sensor has a high level of overload protection and long-term sta-bility. The full final inspection in the fully automated measuring and calibration facility en-sures that each pressure transmitter is of high quality.•Time-saving, uncomplicated, and versatileThe installation of the measuring device requires little work and the electrical installation is simple. The modular structure allows universal use in almost any application.Special features•1to 100bar relative pressure,and also up to 25bar absolute pressure •High degree of process reliability due to a welded measuring system with no seals •Robust and maintenance-free measure-ment technology thanks to extreme over-load resistance•60% quicker device installation with the QUICKON quick-clamp technology •Robust construction guarantees a long operating life•Wetted stainless steel partsApprovals/approval marks (see "Technical data")Page 2/12Data Sheet 401010Technical dataGeneral InformationMeasuring range and accuracyReference conditions DIN 16086 and DIN EN 60770Sensor MaterialSilicon sensor with stainless steel separating membrane Pressure transfer means Synthetic oil Admissible load changes >10million Mounting position AnyCalibration positionDevice upright, process connection at the bottom Measuring range Linearity a Accuracy at Long-term stability b Overload-capability c Burst pressure 20°C d -20to +100°C e bar% MSP f % MSP % MSP % MSP per year bar bar 0to 1bar relative/absolute pressure 0.30.6 1.5< 0.2460to 1.6bar relative/absolute pressure 0.250.5 1.46100to 2.5bar relative/absolute pressure 0.250.5 1.310150to 4bar relative/absolute pressure 0.250.5 1.216240to 6bar relative/absolute pressure 0.250.5 1.224360to 10bar relative/absolute pressure 0.250.5 1.040600to 16bar relative/absolute pressure 0.20.5 1.0601000to 25bar relative/absolute pressure 0.20.5 1.01001500to 40bar relative/absolute pressure 0.20.5 1.01001500to 60bar relative pressure 0.20.5 1.01802500to 100bar relative pressure 0.20.5 1.0180250-0,6to +0,6bar relative pressure 0.30.6 1.546-1to 0bar relative pressure 0.30.6 1.546-1to +0.6bar relative pressure 0.30.6 1.5610-1to +1bar relative pressure 0.30.6 1.5610-1to +1.5bar relative pressure 0.30.6 1.41015-1to +3bar relative pressure 0.30.5 1.31624-1to +5bar relative pressure 0.250.5 1.32436-1to +9bar relative pressure 0.250.5 1.24060-1to +15bar relative pressure 0.250.5 1.060100-1to +24bar relative pressure0.20.51.0100150a Linearity according to limit point settingb Reference conditions EN 61298-1c All pressure transmitters are vacuum-proof.d Includes: linearity, hysteresis, repeatability, deviation of measuring range initial value and measuring range end valuee Includes: linearity, hysteresis, repeatability, deviation of measuring range initial value and measuring range end value, thermal effect on mea-suring range start and measuring span fMSP = measuring spanPage 3/12Data Sheet 401010OutputMechanical featuresAnalog output a Current 4to 20mA, two-wire (output 405)VoltageDC 0.5to 4.5V, three-wire, ratiometric 10to 90% of the voltage supply (output 412)DC 0to 10V, three-wire (output 415)DC 1to 5V, three-wire (output 418)DC 1to 6V, three-wire (output 420)Step response T 90≤5msBurden CurrentR L ≤(U B -8V)÷0.02A (Ω) at 4to 20mA, two-wire (output 405)Voltage(burden connected to "0V/S-")R L ≥5k Ω at DC 0.5to 4.5V, three-wire (output 412)R L ≥10k Ω at DC 0to 10V, three-wire (output 415)R L ≥10k Ω at DC 1to 5V, three-wire (output 418)R L ≥10k Ω at DC 1to 6V, three-wire (output 420)aFurther outputs are available upon request.MaterialProcess connection Stainless steel 304a Membranes Stainless steel 316L HousingStainless steel 304Attached cable(electrical connection 11)PBT-GF30, PVC, PE QUICKON(electrical connection 23)PBT-GF30Round plug M12×1 (electrical connection 36)PBT-GF30, stainless steel 303Bayonet connector(electrical connection 53)PBT-GF30Cable socket(electrical connection 61)PBT-GF30, PA, siliconeWeight80g with G 1/4 (process connection 502)aPressure transmitters with G 1/4 (process connection 521) are supplied with an FKM seal. Ensure the medium durability of the seal material!Page 4/12Data Sheet 401010Environmental influencesMedium temperature for electrical connection Attached cable -40to +125°C Round plug M12×1-40to +125°C Bayonet connector -40to +125°C Cable socket -40to +125°CAmbient temperature for electrical connection Attached cable-30to +100°CAt ambient temperature of -30°C restricted function. Only use when stationary. Risk of cable break.Round plug M12×1-40to +125°C Bayonet connector -40to +125°C Cable socket -40to +125°C Storage temperature for electrical connection Attached cable -30to +100°C Round plug M12×1-40to +125°C Bayonet connector -40to +125°C Cable socket -40to +125°CAdmissible humidity Operation 100% rel. humidity including condensation on the device outer case Storage90% rel. humidity without condensationAdmissible mechanical load Vibration resistance 20g at 10to 2000Hz, according to IEC 60068-2-6Shock resistance50g for 11ms, 100g for 1ms, according to IEC 60068-2-27Electromagnetic compatibility According to EN 61326-2-3Interference emission Class B aInterference immunity Industrial requirement Protection typefor electrical connection According to EN 60529Attached cable IP66 for relative pressure measuring range, IP67 for absolute pressure measuring range QUICKON bIP66Round plug M12×1cIP66Bayonet connector c IP67Cable socket c, dIP65a The product is suitable for industrial use as well as for households and small businesses.b Connecting cable diameter, minimum 3.5mm, maximum 6mmc The protection type is only achieved with a suitable mounted counter piece.dConnecting cable diameter, minimum 6mm, maximum 8mmPage 5/12Data Sheet 401010Auxiliary powerApprovals/approval marksVoltage supply U B a4to 20mA, two-wire (output 405)DC 8to 30V, rated voltage supply DC 24V DC 0.5to 4.5V, three-wire (output 412)DC 3to 5.25V, rated voltage supply DC 5V,ratiometric output 10to 90% of the voltage supply DC 0to 10V, three-wire (output 415)DC 11.5to 30V, rated voltage supply DC 24V DC 1to 5V, three-wire (output 418)DC 8to 30V, rated voltage supply DC 24V DC 1to 6V, three-wire (output 420)DC 8to 30V, rated voltage supply DC 24V Current consumption incl. load 4to 20mA, two-wire (output 405)≤25mA DC 0.5to 4.5V, three-wire (output 412)≤3mA DC 0to 10V, three-wire (output 415)≤3mA DC 1to 5V, three-wire (output 418)≤3mA DC 1to 6V, three-wire (output 420)≤3mA Reverse voltage protection 4to 20mA, two-wire (output 405)Yes DC 0.5to 4.5V, three-wire (output 412)No DC 0to 10V, three-wire (output 415)Yes DC 1to 5V, three-wire (output 418)Yes DC 1to 6V, three-wire (output 420)Yes Electrical circuit SELVRequirementsThe device must be equipped with an electrical circuit that meets the requirements of EN 61010-1 with regard to "Limited-energy circuits".aResidual ripple: the voltage peaks must not exceed or fall below the specified voltage supply values!Approval mark Testing agency Certificate/certification num-ber Inspection basisValid forc UL usUnderwriters LaboratoriesE201387UL 61010-1 (3. Ed.),CAN/CSA-22.2No.61010-1(3. Ed.)Only in connection with extra code 061;observe order detailsPage 6/12Data Sheet 401010DimensionsElectrical connectionPage 7/12Data Sheet 401010Process connectionØ12mmØ8mm**Extra code 630 pressure channel Ø8mmPage 8/12Data Sheet 401010Connection diagramThe connection diagram in the data sheet provides preliminary information about the connection options. For the electrical connection, only use the installation instructions or the operating manual. The knowledge and the correct technical compliance with the safety information and warnings contained in these documents are mandatory for mounting, electrical connection, and startup as well as for safety during operation.Cable socketThe pressure transmitter has to be connected to the potential equalization system of the plant through the electrical connection or process con-nection.Page 9/12Data Sheet 401010Assignment variants electrical connection, extra code 933Please provide the assignment variant in plain text with the order details (for example "B1")!The pressure transmitter has to be connected to the potential equalization system of the plant through the electrical connection or process con-nection.Color coding: connecting cable round plug M12×11 BN Brown2 WH White3 BU Blue4 BKBlackThe color coding is only valid for A-coded standard cables!Page 10/12Data Sheet 401010Order details(1)Basic type401010/000JUMO MIDAS S05 – OEM Pressure Transmitter – Universal401010/999JUMO MIDAS S05 – OEM Pressure Transmitter – Universal, special version (3)Input4540to 1 bar relative pressure 4550to 1.6 bar relative pressure 4560to 2.5 bar relative pressure 4570to 4 bar relative pressure 4580to 6 bar relative pressure 4590to 10 bar relative pressure 4600to 16 bar relative pressure 4610to 25 bar relative pressure 4620to 40 bar relative pressure 4630to 60 bar relative pressure 4640to 100 bar relative pressure 450-0.6to +0.6bar relative pressure 478-1to 0 bar relative pressure 479-1to +0.6bar relative pressure 449-1to +1 bar relative pressure 480-1to +1.5bar relative pressure 481-1to +3 bar relative pressure 482-1to +5 bar relative pressure 483-1to +9 bar relative pressure 484-1to +15 bar relative pressure 485-1to +24 bar relative pressure 4880to 1 bar absolute pressure 4890to 1.6 bar absolute pressure 4900to 2.5 bar absolute pressure 4910to 4 bar absolute pressure 4920to 6 bar absolute pressure 4930to 10 bar absolute pressure 4940to 16 bar absolute pressure 4950to 25 bar absolute pressure 5050to 40 bar absolute pressure998Special measuring range for absolute pressure 999Special measuring range for relative pressure (3)Output4054to 20mA, two-wire412DC 0.5to 4.5V, three-wire, ratiometric 415DC 0to 10V, three-wire 418DC 1to 5V, three-wire 420DC 1to 6V, three-wire 999Special versionPage 11/12Data Sheet 401010(4)Process connection501G 1/8 according to DIN EN 837502G 1/4 according to DIN EN 837504G 1/2 according to DIN EN 8375111/4-18 NPT according to DIN EN 837521G 1/4 according to DIN 3852-115627/16-20 UNF5637/16-20 UNF interior, with valve core handle 999Special version(5)Process connection material 20CrNi (stainless steel)(6)Electrical connection 11Attached cable a 23QUICKON36Round plug M12×153Bayonet DN 7258561Cable socket DIN EN 175301-803, Form A 99Special version (8)Extra codes 000None 061UL approval b591Choke in the pressure channel 624Oil and grease free 630Enlarged pressure channel c 876Test report933Assignment variants electrical connection da The standard cable length is 2m. Further lengths are available upon request.b The UL approval stipulates use of the pressure transmitter indoors. In addition, output 999, process connection 999, and electrical connection 99 are not possible. Special measuring ranges (input) are not allowed to exceed the 100 bar limit.c An enlarged pressure channel is only available with process connections G 1/2 (process connection 504), 1/4-18 NPT (process connection 511), and G 1/4 (process connection 521).dSpecifiy assignment variants in plain text.(1)(2)(3)(4)(5)(6)(7)Order code -----/ , ...aOrder example401010/000-460-412-504-20-36/591aList extra codes in sequence, separated by commas.Minimum order volume for manufacturing devices: 5 pieces Minimum order volume for warehouse devices:1 piecePage 12/12Data Sheet 401010AccessoriesItemDescriptionPart no.Cable box, straightThe PVC connecting cable is 2m in length and has a 4-pin, straight M12×1 connector with gold-plated contacts on the device side.00404585Cable box, angledThe PVC connecting cable is 2m in length and has a 4-pin, angled M12×1 connector with gold-plated contacts on the device side.00409334。

Measuring with Shear Wave Transducers Calibration of the shear-wave transducer1. Put a small amount of standard coupling gel on the transducers.2. Firmly press the transducers on either side of the 25 µs calibration rod (PartNo 710 10 028). Make sure that the coupling gel is properly distributed and that no air is trapped between the transducer and the calibration rod.3. Select the 250 kHz transducer from the list of supported transducers (seePundit Lab manual chapter 3 for more details).4. Zero the instrument as described in the Pundit Lab manual chapter 2.1.Please note the following issue when using shear wave transducers.Performing measurementsWhen performing measurements with the 250 kHz shear wave transducers it is crucial to use the special shear wave coupling paste, otherwise shear waves cannot be properly transmitted into the object under test. The shear wave coupling paste is a non-toxic, water soluble organic substance of very high viscosity.Furthermore, it is necessary to use Pundit Link’s waveform display in Live View mode in order to manually locate the onset of the shear wave echo. Since the latter is always preceded by a relatively weak P-wave signal.The transit time determined by Pundit Lab automatic triggering, would correspond to the longitudinal instead of the shear wave.Calibration RodStandard coupling gelCorrect Transducer AlignmentWhen carrying out a measurement with shear wave transducers it is imperative that the two transducers are correctly aligned. This is because the shear waves are generated in one plane only.In this case the shear wave signal is not picked up at all by the receiver transdu-cer. The PunditLink waveforms shown below shows the same measurement with • misaligned transducers (above) – almost no S-wave component• and correctly aligned transducers (below) – very strong S-wave componentBNC connectors correctly alignedMisaligned TransducersThe worst case occurs when the transducersare aligned at right angles to each other.The shear wave signal arrives after 55 µs. Rotating the transducers while per-forming a measurement and watching how the shear wave component increa-ses and decreases allows the user to accurately pinpoint the trigger point of the shear wave.Recommendations• If possible, always measure the P-wave first. This will give an indication ofwhere to look for the S-wave (roughly twice the P-wave transmission time).• Begin with a low amplification setting to ensure that the received signal is not saturated.• Check the transducer alignment, by lining up the BNC connectors.• Try rotating the receiver transducer through 90°C. This will allow you to see the shear wave component increasing and decreasing.Using P and S wave measurements to determine Poisson’s Ratio and Modulus of ElasticityThis table taken from Wikepedia shows how elastic properties of materials may be determined, provided that two are known.By measuring a P-wave transmission time and an S-wave transmission time with Pundit Lab, we are able to determine the P-wave modulus (M) and the Shear modulus (G).P-wave modulus (M):M=ρρ Vp2Where ρ is the density of the material and Vp is the pulse velocity of the P-wave. Shear-modulus (G):G=ρρ Vs2Where ρ is the density of the material and Vs is the pulse velocity of the S-wave. Using the equations above we can determine Poisson’s Ratio ():So Poisson’s ratio can be determined simply by measuring the P-wave velocity and the S-wave velocity and it is not even necessary to know the density of the material.Once Poisson’s ratio is known, the elastic modulus can be calculated from the equation: E=2G(1+ν)For this it is necessary to know the density of the material.Calculation Poisson’s Ratio and Modulus of Elasticity in PunditLinkThe measurement with the P-wave transducer is not described here as it is a standard direct measurement as described in the Pundit Lab manual. If using a separate P-wave transducer, it is recommended to measure with that transducer first. Alternatively, it is possible to measure both the P and S-wave component by using the S-wave transducer only.Practical Example made on a concrete block: Density of the concrete block is2400 kg/m3.M-2G2M-2GρVp2 - 2ρVs22ρVp2 - 2ρVs2==Vp2 - 2Vs22Vp2 - 2Vs2=Vp2 - 2Vs22(Vp2 - Vs2)ν=The upper measurement shows the S-wave transmission time is 55.2 µs.The lower measurement shows the P-wave transmission time, 30.8µs.Select both measurements in PunditLink so that they are highlighted then se-lect:“Calculate/Poisson’s Ratio + E-modulus”The following window will be shown in which you must enter the density of the material under testThe calculation of Poisson’s rate and E-modulus is done automatically.Alternative methodAlternatively it is possible to use only an S-wave transducer as this type of trans-ducer also has a P-wave component.The P-wave cursor will appear automatically. It is possible to activate a second cursor by clicking on the Amplitude axis with the CTRL button held down. This allows you to drag the second cursor to the shear wave trigger point “t2”.To obtain the E-modulus you must enter the density, by clicking on the blue Density figure in the column to the right of the graph. Enter the density in the pop-up window as shown and the E-modulus will be calculated automatically.To obtain the E-modulus you must enter the density, by clicking on the blue Density figure in the column to the right of the graph. Enter the density in the pop-up window as shown andthe E-modulus will be calculated automatically.。

压力传感器OEM 压力传感器– 400系列0 ... 10 - 100 mbar400系列压力传感器采用瑞士富巴自己开发的悬臂樑陶瓷芯片，其输出的电压信号经过温度补偿。

已被放大和线性处理的电压输出信号可直接直接适用于电气控制系统。

400系列压力传感器非常适合白色家电产品（如洗衣机，洗碗机等）的容器液位的连续测量。

有最小订货量要求OEM 压力传感器– 501系列-1 ... 0 - 60 bar501系列压力传感器采用瑞士富巴自己开发的陶瓷芯片，其电流输出信号经过校准和放大。

多种压力和电气接头可供选择。

有最小订货量要求OEM 压力传感器– 503系列0 ... 2.5 - 25 bar503系列压力传感器采用瑞士富巴自己开发的陶瓷芯片，其电压输出信号经过校准和放大的。

专为大批量OEM生产而设计。

有最小订货量要求OEM 压力传感器– 505系列0 ... 4 bar505系列压力传感器特别适用于加热和工业循环流体中水压比的测量。

陶瓷芯片由瑞士富巴自己开发的。

输出的电压信号经过校准和放大。

专为大批量OEM生产而设计。

在壁挂炉里得到广泛的应用。

有最小订货量要求OEM 压力传感器– 506系列-1 ... 7 - 60 bar506系列压力传感器采用瑞士富巴自己开发的陶瓷芯片，输出信号经过校准和放大，适用于标准化电流输出。

专为工业制冷系统而开发。

有最小订货量要求OEM 压力传感器– 511系列-1 ... 0 - 600 barOEM 压力传感器– 515系列-1 ... 0 - 600 bar515系列压力传感器结构紧凑，在机械应力、EMC兼容性、操作可靠性方面具有极高规格。

OEM 压力传感器– 516系列–1 … 0 – 16 bar516系列压力传感器应用瑞士富巴开发的陶瓷技术，最近十年来使用在数百万种应用之中。

此传感器结合采用独特的集成电路设计，在其温度范围下拥有极高的精度。

516系列压力传感器采用放大辐射输出信号技术，可以直接装配使用，无需用户调节温度或压力。

瑞士Baumer进口测力传感器产品介绍及特征，瑞士Baumer进口测力传感器的安装对测试的影响随着中国自动化不断发展进步，工控自动化产品也是大众需求。

上海力恒传感技术有限公司致力于力传感器及其信号处理的系统工作，公司在力传感器领域有着不断的追求。

下面由力恒传感小编为大家讲解瑞士Baumer进口测力传感器的相关内容！一、瑞士Baumer进口测力传感器产品介绍型号：DLRP /10710599品牌：瑞士堡盟，体积小精度高、螺杆连接可以测量拉力与压力；极好的长期稳性，高频冲击后仍保持良好的信号输出。

二、瑞士Baumer进口测力传感器的产品特征·结构紧凑·可测量拉压双向力·防护等级IP68，耐腐蚀性强三、瑞士Baumer进口测力传感器的安装对测试的影响-方向的影响侧向力是垂直于施加在测量方向的力一般是由力传感器自身重量或是夹具负载与测力方向形成角度产生的。

并且会形成弯矩（因为很少侧向力是作用在应变片的安装高度上）。

根据不同的侧向灵敏度，产生额外的误差会。

如果侧向力为Fz 的10%，在测量方向向一般在Fz 的1%以下。

以上内容由上海力恒传感技术有限公司的小编整理，希望对大家有用~上海力恒传感技术有限公司致力于力传感器及其信号处理的系统工作，公司在力传感器领域有着不断的追求。

随着中国自动化不断发展进步，我们团队积累了多年一线工作经验。

出于对自动化的理解和认识，公司始终坚持"因为专业、所以信服"的企业运作理念打造了一支自动化领域的专业团队，为客户提供系统的售前和售后服务，持续不断的提供质量稳定的产品，持续研发新的产品、最大限度的满足客户需求。

公司经营力传感器、智能变送器、智能仪表等工控自动化产品；自动检测、自动控制与软件开发；工业自动化非标设备、工业自动化生产线的方案设计与实施的系统集成项目。

ELECTROCHEMICAL GAS SENSORSREV.: 6/2004 Page 1 of 1 SPECIFICATION SHEET FOR O3 SENSOR TYPE O3/C-5PERFORMANCE CHARACTERISTICSCROSS-SENSITIVITY DATAInterfering Gas Concentration ReadingCO 200 ppm 0 ppmH2200 ppm 0 ppmSO2 5 ppm 0 ppmH2S No data yetNO35 ppm 0 ppmNO2 5 ppm ~ 5 ppmEthylene 100 ppm 0 ppmCl2 5 ppm ~ 4 ppmPerformance data conditions:20 °C, 50% RH and 1013 mbarAPPLICATIONSContinuous Air Quality MonitoringSafety and Environmental ControlPHYSICAL CHARACTERISTICSBOTTOM VIEWSIDE VIEWCompact-Size Outline DimensionsThe data contained in this document is for guidance only. Membrapor AG accepts no liability for any consequential losses, injury or damage resulting from the use of this document or the information contained within it. The data is given for guidance only. Customers should test under their own conditions, to ensure that the sensors are suitable for their own requirements.Nominal Range 0 – 5 ppmMaximum Overload 50 ppmExpected Operation Life 2 years in airOutput Signal - 1500 ± 500 nA/ppmResolution 0,02 ppmTemperature Range - 20 °C to 45 °CPressure Range Atmospheric ± 10%Pressure Coefficient No dataT80 Response Time < 60 secRelative Humidity Range 15 % to 90 % R.H.non-condensingTypical Baseline Range (pureair, 20°C)< 0,1 ppmMaximum Zero Shift (+20°C to+40°C)0,1 ppmTypical Long Term Output Drift < 2% signal loss/monthRecommended Load Resistor 10 OhmBias Voltage Not recommendedRepeatability 5 % of signalOutput Linearity LinearWeight ~ 13 gPosition Sensitivity NoneStorage Life Six months incontainerRecommended StorageTemperature5 °C – 20 °CWarranty Period 12 months from dateof dispatch深圳市深国安电子科技有限公司地址：广东省深圳市龙华新区牛栏前大厦Ｃ５０７电话：８６　７５５－８５２５８９００　网址：ｗｗｗ．ｓｉｎｇｏａｎ．ｃｏｍ ｗｗｗ．ｓｉｎｇｏａｎ．ｃｏｍ．ｃｎ ｗｗｗ．ｓｈｅｎｇｕｏａｎ．ｃｏｍ　。

压力传感器 TLEE-188-503-15691 ∙压力传感器– 400系列∙压力传感器– 501系列∙压力传感器– 503系列∙压力传感器– 505系列∙压力传感器– 506系列∙压力传感器– 511系列∙压力传感器– 515系列∙压力传感器– 516系列∙压力传感器– 520系列∙压力传感器– 528系列∙压力传感器– 680系列∙压力传感器– 691系列∙压力传感器– 522系列∙压力传感器– 527系列∙差压式压力传感器– 401系列∙差压式压力传感器– 402系列∙差压式压力传感器– 403系列∙差压式压力传感器– 652系列∙差压式压力传感器– 692系列∙差压式压力传感器– 698系列∙差压式压力传感器– 699系列∙差压式压力传感器∙电子式压力开关o电子式压力开关– 521系列o电子式压力开关– 529系列o电子式压力开关- 540系列o电子式压力开关- 548系列机械式压力开关∙机械式压力开关– 604系列∙机械式压力开关– 605系列∙机械式压力开关– 610系列∙机械式压力开关– 620系列∙机械式压力开关– 625系列∙机械式压力开关– 630系列压力液位计∙压力液位计– 681系列∙压力液位计– 712系列流量传感器∙流量传感器- 200系列∙流量传感器- 210系列∙流量传感器- 230系列∙流量传感器- 235系列∙流量传感器- 236系列∙流量传感器∙压力传感器芯片o压力传感器芯片– 509系列o压力传感器芯片– 513系列o压力传感器芯片– 513 大气压系列力传感器芯片– 410系列数字式显示仪∙数字式显示仪- 800系列∙数字式显示仪- 801系列附件∙散热器。