数字压力传感器使用手册

压力传感器的使用方法一、压力传感器的基本原理1.压电传感器原理：压电传感器是通过压电材料的压电效应将机械压力转化为电荷输出。

压电材料受到外部压力后，晶格结构发生变化，产生电荷，从而产生电信号输出。

2.电阻传感器原理：电阻传感器是通过压力作用于电阻元件的形变来改变电阻值，进而改变电信号输出。

常见的电阻传感器有应变片传感器和薄膜传感器。

3.容量传感器原理：容量传感器是通过测量电容变化来获得压力信息。

在容量传感器中，压力的变化会引起两个电极之间的电容值发生变化，进而产生电信号输出。

1.安装：在安装压力传感器之前，需要先确定其测量的压力范围，然后选择合适的传感器型号。

在安装过程中，应确保传感器与被测物体的表面保持良好的接触，并注意避免传感器受到外力的干扰。

2.连接：根据压力传感器的接口类型，选择合适的连接方式。

常见的连接方式有线性连接、电压输入和电流输出等。

在连接过程中，应仔细查阅传感器的技术手册，按照说明进行正确的连接操作。

3.校准：在使用压力传感器之前，需要进行校准以确保其测量结果的准确性。

校准方法一般有标定法、对比法和推导法等。

选择合适的校准方法，并按照校准标准进行操作，以保证测量结果的可靠性。

4.数据读取：根据传感器的接口类型，选择合适的数据读取方式。

常见的读取方式有模拟信号输出和数字信号输出等。

在读取数据时，要注意选择合适的数据采集设备，并确保信号的传输和转换的可靠性。

三、压力传感器在不同领域的应用1.工业自动化领域：压力传感器广泛应用于流体控制、液位检测、压力监测等方面。

例如，用于自动化控制系统中的压力传感器可用于监测压缩机、泵、阀门等设备的工作状态。

2.电子设备领域：在电子设备中，压力传感器常用于手机、平板电脑等设备中的触摸屏上。

压力传感器可以检测到用户的轻触、按压等手势，并将其转化为相应的电信号。

3.医疗器械领域：在医疗器械中，压力传感器被广泛应用于血压计、呼吸机、体重秤等设备中。

例如，用于呼吸机中的压力传感器可用于监测患者的呼吸状态，从而实现对患者的有效治疗。

DigitalPressure TransmitterM1500 + Meriam = Performance you can rely on!Meriam’s compact, M1500 Analog or Digital Pressure Transmitters are ideal for pressure measurement needs from 10” H 20 to 3000 PSI Full Scale. Output options include digital (RS-232, RS-485 and USB) or analog (mA or V DC). Choose from differential (dry/dry or wet/wet), gauge, compound or absolute pressure types – see the table below for complete details. Typical NIST traceable digital accu-racy is ±0.025% of F.S. including all effects of linearity, repeatability, hyster-esis and temperature from -20º to +50º C (-4º to +122º F).Digital output options for the M1500 deliver accurate pressure measure-ment to compatible receiving devices. Choose RS-232 single point or RS-485 for networks up to 255 devices. M1500 connections are made via terminal block or DB-9 serial port. The USB digital communication option also pow-ers the M1500 via high power USB ports or powered USB hubs.Software is included for initial setup and support. Meriam Serial Protocol (MSP) or Meriam DLL can be used to send and receive information. Implementation Guides are available at (see Resources / Application Notes).Analog output models are also avail-able. Output accuracy is typically ±0.035% of F.S. The user may config-ure the M1500 for 0 – 5 VDC or 4 – 20mA output. Two SPST opto switches are included. Analog units are config-ured using a USB Mini A Connector and the included Meriam Setup Utility. The utility supports initial configura-tion, zeroing, recalibration and other functions.For wider pressure range require-ments, model M1502 with digital out-put incorporates two pressure sen-sors. Most combinations of AI or CI type pressure sensors are supported. See the table below for available rang-es. M1502 is available with RS-232, RS-485 or USB digital outputs - not available with analog output. A single software command returns both pres-sure readings. The M1502 reduces purchase price and installation costs when multiple pressure measurements are needed.(Orifice plate, Venturi, Accutube, Wedge)• Clean room pressure monitoringStandard AccessoriesP/N Z9A000003PN06 Support Disk including: - Meriam Setup Utility- Meriam Serial Protocol Implementation Guide - USB Device Drivers & Installation Instructions - LabVIEW® VI’s- Meriam DLLOptional AccessoriesP/N Z9P273Analog Starter Kit, 6 ft. USB cablefor configuration through PCsoftwareP/N ZA900447-00052 DB-9 connector cable, 6ft., female by maleP/N Z7621RS-485 to RS-232 interfaceadapter, DIN rail mountedP/N Z7621-1 RS-485 to RS-232 interfaceadapter, PC port mounted andpoweredLabVIEW® is a registered trademark of National Instruments.Viton® is a registered trademark of DuPont.SPECIFICATIONS: BEST IN CLASS ACCURACY EasyDIN Rail MountingWith 100 years of pressure measurementexperience Meriam is the clear choice. We set the standard for high accuracy over the largest operating temperature range.One or Two Pressure Sensors in Each UnitM1500-“Sensor Code with Range” shown below -or-mattersM1500 CONNECTION OPTIONSRS-232 / RS-485 communication connectorsUSB type B connectorOutput OptionsDigital (use Meriam Serial Protocol or LabView ®)RS-232: 19200 baud (adjustable), 8 data bits, 1 stop bit, no parity RS-485: half duplex, 3-wire TR-1, TR-0, signal ground, 19200 baud (adjustable), 1 start bit, 1 stop bit, no parity. Multi-dropaddressing for up to 255 devices (MSP).USB: USB 2.0Analog4 – 20 mA: 2-wire loop powered, 4-wire systems. 0 –5 VDC Analog: 4-wire, 1 – 5 VDC is user configurable Two SPST opto switches, 80V DC, 100 mA maximum, 4-wiresystems onlyConnectionsPressure: 1/8” NPT (female)Electrical / Communications / Output:Power: 7 position terminal block; 1.3 mm diameter holes for 16 – 25gauge solid or stranded wireRS-232: DB-9 (female) Serial Connector or 7 position terminal block RS-485: 7 position terminal block USB: USB type B female connectorAnalog: Terminal blocks with USB Mini -A Connector for configuration and recalibrationPower RequirementsRS-232, RS-485: 8 – 36 VDC, 20 mA minimumUSB: high power (500 mA) USB port or USB hub (PC USB ports andUSB hubs with power adapters are typically high power)mA, 2-wire: 20 – 36 VDC, 50 mA minimum mA, 4-wire: 8 – 36 VDC, 50 mA minimum V, 4-wire: 8 – 36 VDC, 50 mA minimumPower ConsumptionRS-232: 110 mW (maximum)RS-485: 110 mW (maximum)EPI / THE EMBEDDED PRESSURE INSTRUMENTThe EPI™ is a fully compensated instrument capable of measuring applied pressures and providing an accurate and fully characterized digital output. The Meriam M1500 Pressure Transmitter, as well as other pressure products from Meriam, are powered by the EPI™. This ensures you are getting a highly-accurate device capable of ±0.025% FS including all effects of linearity, hysteresis, repeatability and temperature over specified operating temperature range. NIST traceable certification is standard. The EPI™ provides true 14 samples per second data rate of accurate pressure readings.po w e r e d byEPIUSB type B connectorEasy rear panel accessExamples: M1500-DN0415 = M1500, Differential Non-isolated, 0 - 415” H2O full scale measurement M1500-G I 1000 = M1500, Gauge I solated, 0 - 1000 PSIG full scale measurementM1500-C I 0100 = M1500, Compound I solated, -14.7 to +100 PSIG full scale measurement M1502-A I 0017-CI0100, Dual Pressure ModelConvenient Panel MountingAnalog connectorEnclosure - Analog Out: 4.725” L x 2.125” W x 1.25” H Digital Out: 4.625 ”L x 2.125” W x 1.25” HIP40, aluminum case, 316LSS pressure manifold Weight: 10.5 oz for DN, G I , C I or A I pressure types, 16 oz for D Itype, analog output adds 1 oz.Mounting: Panel and DIN rail mounting hardware are standard Temperature Limits Operating: -4 to 122°F (-20 to 50°C) Storage: -40 to 185°F (-40 to 85°C)Humidity Limits: 5 – 95% RHShock, Operating: 30 g, halve-sine, 11mSec pulse (tested in accordance with EC-60068-2-27)Vibration Sinusoidal, Operating: 2g peak acceleration at 5-500 Hz (tested in accordance with IEC-60068-2-6)Vibration Random, Operating: 6g rms acceleration at 5 to 2000 Hz (tested in accordance with IEC-60068-2-64) Certification:Firmware FeaturesProgramming features supported through Meriam Serial Protocol (MSP): pressure zero, reset factory zero, sensor damping, pressure units select, analog output span set (Upper Sensor Value, Lower Sensor Value), tare on / off, field recalibration, PROD (precision right of decimal), AROD (accuracy right of decimal), Get/Set baud rate.The following information commands are available through Meriam Serial Protocol (MSP ): serial number, pressure module class and type, firmware version, LSL (lower sensor limit), USL (upper sensor limit), instrument temperature, primary and secondary variable value, primary and secondary min/max.The following programming features are available via LabVIEW ® VI’s: pressure zero, sensor damping, pressure units select, PROD (precision right of decimal), AROD (accuracy right of decimal), Get / Set baud rate.The following information commands are supported via LabVIEW ® VI’s: model, s/n, description, tag no., asset no., firmware version, primary(and secondary if applicable) variable value(s), primary (and secondary if applicable) min/max value(s), instrument temperature.Field Recalibration: All M1500 transmitters can be recalibrated in the field using suitable reference standards and the utility sent with the product.Since 1911。

MPX2300DT1Freescale reserves the right to change the detail specifications as may be required to permit improvements in the design of its products.Freescale Semiconductor Document Number: MPX2300DT1Data Sheet: Technical DataRev. 11, 09/2015© 2010, 2012, 2014, 2015 Freescale Semiconductor, Inc. All rights reserved.MPX2300DT1, 0 to 40kPa, Differential Compensated Pressure SensorFreescale Semiconductor has developed a high volume, miniature pressurecompensation and calibration.Features•Integrated temperature compensation and calibration •Ratiometric to supply voltage•Polysulfone case material (ISO 10993)•Provided in easy-to-use tape and reel Typical applications•Medical diagnostics •Infusion pumps•Blood pressure monitors •Pressure catheter applications •Patient monitoringNOTEhousing. Use caution when handling the devices during all processes.Ordering informationDevice name Shipping Package Pressure typeDevice marking GaugeDifferentialAbsoluteMPX2300DT1Tape and Reel98ASB13355C•XXXX = Device code XXX = Trace codeMPX2300DT1Contents1General Description . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 31.1Block diagram. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 31.2Pinout . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 3 2Mechanical and Electrical Specifications. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 42.1Maximum ratings. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 42.2Operating characteristics . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 4 3Package Dimensions . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 53.1Package description . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 5 4Revision History . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 6Related DocumentationThe MPX2300DT1 device features and operations are described in a variety of reference manuals, user guides, and application notes. To find the most-current versions of these documents:1.Go to the Freescale homepage at:/2.In the Keyword search box at the top of the page, enter the device number MPX2300DT1.3.In the Refine Your Result pane on the left, click on the Documentation link.MPX2300DT1SensorsMPX2300DT1Sensors1General DescriptionThe MPX2300DT1 pressure sensor has been designed for medical usage by combining the performance of Freescale's shear stress pressure sensor design and the use of biomedically approved materials. Materials with a proven history in medical situations have been chosen to provide a sensor that can be used with confidence in applications, such as invasive blood pressure monitoring. It can be sterilized using ethylene oxide. The portions of the pressure sensor that are required to be biomedically approved are the rigid housing and the gel coating.The rigid housing is molded from a white, medical grade polysulfone that has passed extensive biological testing including: ISO 10993-5:1999, ISO 10993-10:2002, and ISO 10993-11:1993.A silicone dielectric gel covers the silicon piezoresistive sensing element. The gel is a nontoxic, nonallergenic elastomer system which meets all USP XX Biological Testing Class V requirements. The properties of the gel allow it to transmit pressure uniformly to the diaphragm surface, while isolating the internal electrical connections from the corrosive effects of fluids, such as saline solution. The gel provides electrical isolation sufficient to withstand defibrillation testing, as specified in the proposed Association for the Advancement of Medical Instrumentation (AAMI) Standard for blood pressure transducers. A biomedically approved opaque filler in the gel prevents bright operating room lights from affecting the performance of the sensor.1.1Block diagramFigure 1 shows a block diagram of the internal circuitry integrated on a pressure sensor chip.Figure 1. Block diagram1.2PinoutFigure 2. Device pinout (front view)Table 1. Pin functionsPin Name Function1V S Voltage supply 2V OUT +Output voltage 3V OUT –Output voltage 4GNDGroundV OUT +V OUT –32V S 1Transducer GND4Thin Film Temperature Compensation and Calibration CircuitrySensingElementV S V O U T +V O U T –G N DMPX2300DT1Sensors2Mechanical and Electrical Specifications2.1Maximum ratings2.2Operating characteristicsTable 2. Maximum ratings (1)1.Exposure beyond the specified limits may cause permanent damage or degradation to the device.RatingSymbol Value Unit Maximum pressure (backside)P max 125PSI Storage temperature T stg -25 to +85°C Operating temperatureT A+15 to +40°CTable 3. Operating characteristics(V S = 6 V DC , T A = 25°C unless otherwise noted)CharacteristicsSymbol Min Typ Max Unit Pressure range P OP 0—300mmHg Supply voltage (1)1.Recommended voltage supply: 6 V ± 0.2 V, regulated. Sensor output is ratiometric to the voltage supply. Supply voltages above +10 V may induce additional error due to device self-heating.V S — 6.010V DC Supply current I O — 1.0—mAdc Zero pressure offset V OFF -0.75—0.75mV Sensitivity — 4.95 5.0 5.05μV/V/mmHgFull-scale span (2)2.Measured at 6.0 V DC excitation for 100 mmHg pressure differential. V FSS and FSS are like terms representing the algebraic difference between full scale output and zero pressure offset.V FSS 2.976 3.006 3.036mV Linearity + Hysteresis (3)3.Maximum deviation from end-point straight line fit at 0 and 200 mmHg.—-1.5— 1.5%V FSS Accuracy V S = 6 V, P = 101 to 200 mmHg —-1.5— 1.5%Accuracy V S = 6 V, P = 201 to 300 mmHg —-3.0— 3.0%Temperature effect on sensitivity TCS -0.1—+0.1%/°C Temperature effect on full-scale span (4)4.Slope of end-point straight line fit to full scale span at 15°C and +40°C relative to +25°C.TCV FSS -0.1—+0.1%/°C Temperature effect on offset (5)5.Slope of end-point straight line fit to zero pressure offset at 15°C and +40°C relative to +25°C.TCV OFF -9.0—+9.0μV/°C Input impedance Z IN 1800—4500ΩOutput impedance Z OUT 270—330ΩR CAL (150 k Ω)(6)6.Offset measurement with respect to the measured sensitivity when a 150 k resistor is connected to V S and V OUT + output.R CAL 97100103mmHg Response time (7) (10% to 90%)7.For a 0 to 300 mmHg pressure step change.t R—1.0—msMPX2300DT1Sensors3Package Dimensions3.1Package descriptionThis drawing is located at /files/shared/doc/package_info/98ASB13355C.pdf .Case 98ASB1335C, Chip Pak packageMPX2300DT1Sensors4Revision HistoryTable 4. Revision historyRevisionnumberRevision date Description910/2012•Added Table 1. Pin Numbers on page 1.1009/2015•Updated format.1109/2015•Corrected pinout on first page and Section 1.2 and Table 1.•Replaced Figure 1, Block diagram.Document Number:MPX2300DT1Rev. 1109/2015Information in this document is provided solely to enable system and software implementers to use Freescale products. There are no express or implied copyright licenses granted hereunder to design or fabricate any integrated circuits based on the information in this document.Freescale reserves the right to make changes without further notice to any products herein. Freescale makes no warranty, representation, or guarantee regarding the suitability of its products for any particular purpose, nor does Freescale assume any liability arising out of the application or use of any product or circuit, and specifically disclaims any and all liability, including without limitation consequential or incidental damages. “Typical” parameters that may be provided in Freescale data sheets and/or specifications can and do vary in different applications, and actual performance may vary over time. All operating parameters, including “typicals,” must be validated for each customer application by customer’s technical experts. Freescale does not convey any license under its patent rights nor the rights of others. Freescale sells products pursuant to standard terms and conditions of sale, which can be found at the following address: /salestermsandconditions .How to Reach Us:Home Page: Web Support:/supportFreescale and the Freescale logos are trademarks of Freescale Semiconductor, Inc., Reg. U.S. Pat. & Tm. Off. All other product or service names are the property of their respective owners.© 2010, 2012, 2014, 2015 Freescale Semiconductor, Inc.MPX2300DT1。

产品。

请仔细、完整地阅读此使用说明书以便正确、合理地使用此产品。

请把此使用说明书放在随手可得之处以便快速查找。

2注意事项DP2系列设计为使用非腐蚀性气体。

不可用于液体或腐蚀性气体。

ⅷ请在额定压力范围内使用。

ⅷ切勿使压力超过耐压值。

否则隔膜会受到损伤并且无法进行正常操作。

ⅷⅷ注意错误接线可能损坏传感器。

ⅷ请确认电源电压在额定范围内变化。

ⅷ如果电源由一商用开关调节器提供，请确保电源机架接地端子(F.G.)ⅷ如果在该产品附近使用产生噪音的设备(开关调节器，转换发动机等)请将设备机架接地端子(F.G.)ⅷ电源接通后的短时间0.5s内，请勿使用。

ⅷ能会由于感应引起失灵。

ⅷ0.3mm2不超过100m。

ⅷ避免在水蒸气和灰尘过多的地方使用标准型、扁平型和轻型传感器。

ⅷ请勿将传感器与水、油、油脂或有机溶液，如稀释剂等直接接触。

ⅷ隔膜并影响正常操作。

ⅷⅷ勉强弯曲，硬拉等。

1（注1）：带有后缀‘-P’ 的北美标准型号是PNP输出型。

4标准型传感器安装ⅷ需要使用传感器安装支架MS-DPX 和MS-DPX-4(另售)用传感器安装支架等安装传感器时，紧固扭矩应在1.2N ⅐m 以下。

ⅷ同时也配有面板安装支架MS-DPX-2(另售)和正面防护罩DPX-04(另售)。

5I/O 电路图NPN输出型符号... D: 反向电源极性保护二极管Z D1, Z D2, Z D3: 电涌吸收齐纳二极管Tr 1, Tr 2: NPN 输出晶体管（注1）：模拟电压输出不装备短路保护电路。

不可直接连接到电源或容量负荷上。

当使用模拟电压输出时，请注意连接具有适当输入阻抗的外部设备。

另外，当使用延长电缆时，由于要考虑电缆电阻，电压会下降。

PNP输出型符号... D: 反向电源极性保护二极管Z D1, Z D2, Z D3: 电涌吸收齐纳二极管Tr 1, Tr 2: PNP 输出晶体管（注1）：模拟电压输出不装备短路保护电路。

不可直接连接到电源或容量负荷上。

压力传感器使用说明书1211131000/100110141100/11019158167176185194203212221一．仪表选型注1：标准型:仪表出厂前具有继电器输出和电压脉冲输出。

注2：如果仪表选串行通讯口，报警只能选该型号。

二．接线图电源报警2（-）AC90-260V （+）RS484报警3（-）通讯SSR 输出-（+）（D2）24V/20mA +电流互感器输入继电器AC5A 4-20mA 输出+报警1或热电偶PT100第二输出（带PD ）安装尺寸（面板安装）1000/10011100/110150145+0.692+0.845+0.692+0.892+0.845+0.6深100mm深100mm深105mm注：为确保安装正确，请参阅英文版手册中的注意事项和警告。

三．功能说明1)输入种类热电偶：K、J、N、S、R、T热电阻：PT100电压：0-50mv，10-50mv电流：0-20mA，4-20mA，0-10mA(电流输入需在输入端并接2.5Ω或5Ω精密电阻)电流互感器输入2)输出输出1：继电器：端子额定电流5A/220VacSSR：24V/20mA电压脉冲DC输出：4-20mA输出2：用报警输出1，通过软件组态改为PD控制功能3)报警功能报警1可以带PD控制，触点电流5A报警2和3触点为常开，可以通过内部跳线改为常闭触点容量为3A/220Vac4)数字通讯（电流环/RS485）如果仪表有1200波特率无源电流环接口，接收二极管在端子8（RX+）和端子9（RX-）传输晶体管端子10（TX+）和（TX-）标准配置（并联到串行口）联接到二极管阻值为1千欧，集电极电阻为100Ω对串联连接，接到二极管阻值为100欧若配置为4线制RS485（1200波特率），输入端为8（RX+）和9（RX-）传输为10（TX+）和11（TX-）[参阅硬件组态]四．显示面板和按键说明A：显示测量值B：显示设定值1）显示过程设定值2）当AL1，AL2，AL3/HB灯闪烁时，设定报警值显示3）当字母“P”前面显示[0-99%]显示主输出功率4）可显示组态参数F：主输出灯，当第一输出动作时该灯亮G：报警输出指示C ：功能键“F ”1）F 键用来选择设定值或报警值以便读取和修改设定值，如果未按住F 键，10秒钟后，修改值将自动存贮，同时返回显示过程设定值。