FlexiForce-Sensors技术手册

Flexiforce传感器分类介绍及其应用一、Flexiforce 传感器Flexiforce是一种超薄和挠性印刷电路，可很方便集成多种运用。

由于Flexiforce 像纸一样薄的结构，可弯曲和测力特性可用来测两表面之间的压力，并且能够在一些特殊环境进行测力。

Flexiforce 比其它薄膜测力产品有更好的特性、线性、磁滞、飘移、温度灵敏度。

传感的有效区域是传感器末端的直径为0.95cm的圆。

Flexiforce 由两层衬底构成。

这种衬底由聚脂纤维薄膜组成(高温传感器用的是聚酰亚胺构成)。

在每一层上运用一种导体材料(银)，再加一层对压力敏感的墨水。

然后用粘合剂把两层衬底压在一起，形成了传感器。

墨水外的银边表示了对压力敏感的区域。

从敏感区域引出两个银线作为导线。

Flexiforce 传感器尾端选配一个可焊接的公的方针接头以方便连接到电路。

两边的输出线是有效的，中间的是无效的。

传感器的长度可选6cm、12cm、18cm或由客户定制。

在电路中传感器相当于一个可变电阻。

当没有负载时，传感器呈高阻状态(>5MΩ)，当有负载时，电阻下载。

接一个欧姆表可以看见当在敏感区域施加外力时电阻的变化。

Flexiforce 需保存在温度-9°C74°C之间。

二、标准Flexiforce传感器标准A201传感器有下列量程供选择：Sensor A201-1 (0-1 lb)(0-4.5N)Sensor A201-25 (0-25 lb)(0-112.5N)Sensor A201-100 (0-100 lb)*(0-445N)如果要测量大于100lb的力可降低供电电压和降低反馈电阻(最小1KΩ min)可参看驱动电路图。

三、高温Flexiforce传感器高温HT201传感器有下列量程供选择：HT201-L Low: 0-30lb (133N)HT201-H High: 0-100lb (445N)四、运用Flexiforce传感器有非常多的用法。

DS Rev I 062821ISO 9001:2008 Compliant & 13485:2016 RegisteredThe FlexiForce A201 is our standard sensor and meets the requirements of most customers. The A201 is a thin and flexible piezoresistive force sensor that is available off-the-shelf in a variety of lengths for easy proof of concept. These ultra-thin sensors are ideal for non-intrusive force and pressure measurement in a variety of applications. The A201 can be used with our test & measurement, prototyping, and embedding electronics, including the FlexiForce Sensor Characterization Kit, FlexiForcePrototyping Kit, FlexiForce Quickstart Board, and the ELF™ System*. You can also use your own electronics, or multimeter.FlexiForce™Standard Model A201BenefitsPhysical PropertiesThickness 0.203 mm (0.008 in.)Length 191 mm (7.5 in.)** (optional trimmed lengths: 152 mm (6 in.), 102 mm (4 in.), 51 mm (2 in.))Width14 mm (0.55 in.)Sensing Area 9.53 mm (0.375 in.) diameterConnector3-pin Male Square Pin (center pin is inactive)Substrate Polyester Pin Spacing 2.54 mm (0.1 in.)✓ROHS COMPLIANT• Thin and flexible • E asy to use• C onvenient and affordable* Sensor will require an adapter/extender to connect to the ELF System. Contact yourTekscan representative for assistance.** Length does not include pins. Please add approximately 6 mm (0.25 in.) for pin length for a total length of approximately 197 mm (7.75 in).Typical PerformanceEvaluation ConditionsLinearity (Error)< ±3% of full scaleLine drawn from 0 to 50% loadRepeatability < ±2.5%Conditioned sensor, 80% of full force applied Hysteresis < 4.5% of full scaleConditioned sensor, 80% of full force appliedDrift< 5% per logarithmic time scaleConstant load of 111 N (25 lb)Response Time < 5µsecImpact load, output recorded on oscilloscope Operating Temperature -40°C - 60°C (-40°F - 140°F)Convection and conduction heat sources Durability≥ 3 million actuations Perpendicular load, room temperature, 22 N (5 lb)Temperature Sensitivity0.36%/°C (± 0.2%/°F)Conductive heating***All data above was collected utilizing an Op Amp Circuit (shown on the next page). If your application cannot allow an Op Amp Circuit, visit/flexiforce-integration-guides, or contact a FlexiForce Applications Engineer.***©Tekscan Inc., 2021. All rights reserved. Tekscan, the Tekscan logo, and FlexiForce are trademarks or registered trademarks of Tekscan, Inc.+1.617.464.4283|1.800.248.3669|****************|/flexiforceP urchase T oday o nline aT www .Tekscan .com /sToreVOLUMEDISCOUNTSA s k U sAb o u t Ou rSensing Area14 mm (.55 in.)191 mm (7.5 in.)6 mm (.25 in.)Actual size of sensorTrim LinesV OUT = -V REF * (R F / R S )• Polarity of V REF must be opposite the polarity of V SUPPLY • Sensor Resistance R S at no load is typically >1MΩ• Max recommended current is 2.5mAV OUTC 1R F V SS = GroundV DD = V SUPPLYC 1 = 47 pFR FEEDBACK (R F ) = 100kΩ POTENTIOMETER V REF OptionsSquare Wave Up to 5V , 50% Max Duty CycleDC0.25V - 1.25VMCP6004-V REF100K potentiometer and 47 pF are general recommendations; your specific sensor may be best suited with a different potentiometer andcapacitor. Testing should be performed to determine this.R SRecommended Circuit†This sensor can measure up to 4,448 N (1,000 lb). In order to measure higher forces, apply a lower drive voltage (-0.5 V, -0.25 V, etc.) and reduce the resistance of the feedback resistor (1kΩ min.). To measure lower forces, apply a higher drive voltage and increase the resistance of the feedback resistor.Sensor output is a function of many variables, including interface materials.Therefore, Tekscan recommends the user calibrate each sensor for the application.Standard Force Rangesas Tested with Circuit Shown4.4 N (0 - 1 lb)111 N (0 - 25 lb) 445 N (0 - 100 lb) †。

无线压力传感器使用手册（第二版）一、 外型二、 主要功能✓自动测量压力值。

✓自带液晶显示器及键盘。

✓远程修改工作参数﹙主动上传数据﹚。

✓锂电池供电。

三、 特点1.设备简单，只有一个与传统压力变送器相似的终端组成。

2.安装方便，与传统的压力变送器安装方法相同。

3.使用方便，自带液晶显示器及按键，可以随时读值及修改参数。

4.运行稳定，使用电池供电，可消除外界电网干扰。

5.技术先进，采用了先进的ZigBee技术。

四、 主要技术指标1.压力测量精度0.5％2.压力测量范围0~25MPa/0~35MPa3.工作温度范围-40 ~ 70℃4.液晶显示温度-20 ~ 50℃5.工作湿度范围 5 ~ 95％6.工作电压 3.6V7.采用IEEE802.15.4通讯模式 2.4GHz多频/多址8.数据传输距离（空旷距离）30米9.最大功耗1mW10.接收灵敏度-100dBm11.重量<1.5kg12.外型尺寸见下图五、 型号说明SZ903测压范围0-25 MPaSZ905测压范围0-35 MPa1六、 安装● 检查无线压力变送器，应无伤痕等异常情况。

● 设置通讯频段，组号，站号。

● 接通电池电源，检查电源灯应闪烁。

● 按照常规压力变送器的安装方法，将该压力变送器安装在井口管线上。

注意：安装和拆卸时，用扳手拧在压力头的六角螺母上，不能直接转动压力变送器外壳，否则容易损坏压力变送器。

仪表显示与按键示意图1． 上电。

接通电池，LED 指示灯先亮3~5秒然后连续快闪10次，并且LCD 全显则程序初始化正确，如不闪烁则为电台初始化不正确需要检查电路,全显一段时间后液晶显示初始界面，电路进入测试状态，大概经过一分半钟后，才进入正常工作状态。

在测试状态时通过手操器可以修改仪表的参数。

2． 在显示压力界面下，长按确认键大概5秒，可从测试状态快速进入正常工作状态，如果在正常工作状态，按此键5秒，也可从正常工作状态，快速进入测试状态，此时的状态可以和手操器进行连接，也可以通过手操器进行以下的设置。

ApplicationsDescription The EDS 3100 is a compact electronicpressure switch with digital display for absolute pressure measurement in the low pressure range. It has a ceramic measuring cell with thick-film strain gauges. The unit can have one or two switching outputs, and there is the option of an additional analog output signal (4 to 20 mA or 0 to 10 V).A special feature of the EDS 3100 is that the display can be moved in 2 planes. The unit can be installed in almost any mounting position and the display can be turned to the optimum position without the additional expense of a mechanical adapter. The 4-digit digital display can indicate the pressure in bar, psi or MPa. The user can choose between the individual measurement units.When changing to a different measurement unit, the EDS 3100 automatically converts all the switching settings to the new unit of measurement. In addition, the EDS 3100 is also available in a DESINA ® version.The main applications of the EDS 3100 are primarily in hydraulics, pneumatics and in refrigeration and air conditioning technology.Special Features• 1 or 2 PNP transistor switching outputs, up to 1.2 A load per output • Accuracy ≤ ±0.5% BFSL • O ptional analog output selectable (4 to 20 mA / 0 to 10 V)• 4-digit digital display • O ptimum alignment -can be rotated in two planes (axes)• M easured value can be displayed in bar, psi or MPa• User-friendly due to key programming • S et point and reset point can be adjusted independently• Many useful additional functions • O ption of Desina ® version with diagnostic functionApprovalsCE mark is a mandatory conformity mark on many products placed on the single market in the European Economic AreaEDS 3100 SeriesAbsolute Pressure Electronic Switch270˚DimensionsPin ConnectionsM12x1, 4 poleM12x1, 5 poleModel CodeEDS 3 1 X X - X - XXXX - 400 - X1Mechanical Connection* 4 = G1/4A DIN 3852 male (bar ranges only) 8 = 1/4”-18 NPT (psi ranges only)Electrical Connection* 6 = M12x1 plug, 4 pole (connector not included)8 = M12x1 plug, 5 pole (connector not included)Output 1 = 1 Switching Output (only with electrical connection 6) 2 = 2 Switching Outputs (only with electrical connection 6) 3 = 1 Switching Output with 1 analog output (only with electrical connection 6)5 = 2 Switching Outputs with 1 analog output (only with electrical connection 8)Pressure RangeFor EDS 318X only (1/4”-18 NPT) 0015, 0050 psi Modification Number 400 = Standard in psiSeal MaterialF1 = FPM Seal (hydraulic oil)E1 = EPDM Seal(coolant, ammonia, water)*Other options available upon request+–+–+–+–Circuit DiagramNPT MaleApplicationsDescription The EDS 3300 is a compact electronic pressure switch with digital display for measuring relative pressure in the lowpressure range. It has a ceramic measuring cell with thick-film strain gauges. The unit can have one or two switching outputs, and there is the option of an additional analog output signal (4 to 20 mA or 0 to 10 V selectable).A special feature of the EDS 3300 is that the display can be moved in 2 planes. The unit can be installed in almost any mounting position and the display can be turned to the optimum position without the additional expense of a mechanical adapter.The 4-digit digital display can indicate the pressure in bar, psi or MPa. The user can choose among the individual measurement units. When changing to a different measurement unit, the EDS 3300 automatically converts all the switching settings to the new unit of measurement.In addition, the EDS 3300 is also available in a DESINA ® version. The main applications of the EDS 3300 are primarily in hydraulics, pneumatics and in refrigeration and air conditioning technology.Special Features• 1 or 2 PNP transistor switching outputs, up to 1.2 A load per output • Accuracy ≤ ±0.5% BFSL • O ptional analogue output selectable (4 to 20 mA / 0 to 10 V)• 4-digit digital display • O ptimum alignment - can be rotated in two planes (axes)• M easured value can be displayed in bar, psi or MPa• User-friendly due to key programming • S witching points and switch-backhystereses can be adjusted independently • Many useful additional functionsApprovalsCE mark is a mandatory conformity mark on many products placed on the single market in the European Economic AreaEDS 3300 SeriesLow Pressure Electronic Switch270˚DimensionsNPT Male+–+–+–+–Pin ConnectionsM12x1, 4 poleM12x1, 5 poleModel CodeEDS 3 3 X X - X - XXXX - 400 - X1Mechanical Connection* 4 = G1/4A DIN 3852 male (bar ranges only) 8 = 1/4”-18 NPT (psi ranges only)Electrical Connection* 6 = M12x1 plug, 4 pole (connector not included) 8 = M12x1 plug, 5 pole (connector not included)Output 1 = 1 Switching Output (only with electrical connection 6) 2 = 2 Switching Outputs (only with electrical connection 6) 3 = 1 Switching Output with 1 analog output (only with electrical connection 6) 5 = 2 Switching Outputs with 1 analog output (only with electrical connection 8)Pressure RangeFor EDS 338X only (1/4”-18 NPT)0089 (-14.5 to 75), 0015, 0030, 0050, 0150, 0250, 0500 psi Modification Number 400 = Standard in psiSeal MaterialF1 = FPM Seal (hydraulic oil)E1 = EPDM Seal (coolant, ammonia, water)*Other options available upon requestCircuit DiagramApplications270˚Description The EDS 3400 is a compact, electronic pressure switch with an integral digitaldisplay for measuring relative pressure in the high pressure range.The unit has a stainless steel measurement cell with thin-film strain gauges. The unit can have one or two switching outputs and there is the option of an additional analog output signal (4 to 20 mA or 0 to 10 V selectable).A special design feature of the EDS 3400 is that the display can be moved in two planes. The unit can be installed in almost any mounting position and the display can be turned to the optimum position without the usual additional expense of a mechanical adapter. The 4-digit digital display canindicate the pressure in bar, psi or MPa. The user can select the particular measurement unit. When changing to a different unit of measurement, the EDS 3400 converts all the switching settings to the new measurement unit. In addition the EDS 3400 is also available in a DESINA ® version.The main applications of the EDS 3400 are primarily in hydraulics, pneumatics and in refrigeration & air conditioning technology.Special Features• 1 or 2 PNP transistor switching outputs, up to 1.2 A load per output • Accuracy ≤ ±0.5% BFSL • O ptional analog output selectable(4 to 20 mA / 0 to 10 V)• 4-digit digital display • O ptimum alignment - can be rotated in two planes (axes)• M easured value can be displayed in bar, psi or MPa• User-friendly due to key programming • S witching points and switch-back hystereses can be adjusted independently• Many useful additional functions • O ption of Desina ® version with diagnostic functionApprovalsCE mark is a mandatory conformity mark on many products placed on the single market in the European Economic AreaEDS 3400 SeriesHigh Pressure Electronic SwitchDimensionsPin ConnectionsM12x1, 4 poleM12x1, 5 poleModel CodeEDS 3 4 X X - X - XXXX - 400Mechanical Connection* 4 = G1/4A DIN 3852 male (bar ranges only) 7 = SAE 6 9/16-18 UNF 2A (psi ranges only)Electrical Connection* 6 = M12x1 plug, 4 pole (connector not included)8 = M12x1 plug, 5 pole (connector not included)Output 1 = 1 Switching Output (only with electrical connection 6) 2 = 2 Switching Outputs (only with electrical connection 6) 3 = 1 Switching Output with 1 analog output (only with electrical connection 6)5 = 2 Switching Outputs with 1 analog output (only with electrical connection 8)Pressure RangeFor EDS 347X only (SAE 6 9/16-18 UNF2A) 1000, 3000, 6000, 9000 psi Modification Number 400 = Standard in psi*Other options available upon request+–+–+–+–Circuit DiagramApplicationsEDS 8000 SeriesElectronic Pressure SwitchApprovalsCE mark is a mandatory conformity mark on many products placed on the single market in the European Economic AreaDescriptionEDS 8000 is a compact, easy to program electronic pressure switch. It is available with two PNP transistor switching outputs. All settings of the EDS 8000 are programmable via two buttons and a four digit digitaldisplay. The switch position is indicated by a red or green backlight LED of the display.The unit has many additional adjustment parameters, e.g. switching delay times, N/O / N/C function of the outputs, display in PSI, bar and MPa. EDS 8000 is available with pressure ranges from 0-500 up to 0-9000 psi.The main applications of EDS 8000 are pressure indications in hydraulics and pneumatics; wherever constant switching activities and accuracy are highly in demand.Additional functions• S witching mode of the outputs is selectable(set point function or window function)• S witch direction of the outputs selectable (N/C or N/O)• S et and reset delay adjustable from 0.00 to 99.99 seconds • S tabilized displayduring pressure pulsation• Pressure can be displayed in bar, psi, MPaFeatures• Menu navigation according to VDMA • 2 PNP transistor outputs• Rugged stainless steel membrane • Accuracy class ≤ ±0.5% BFSL • 4-digit digital display • Multi-color switch display • Protection class IP 67• User-friendly• Many useful additional functionsM12x1G 1/4 A9/16-18UNF2ADimensionsPin ConnectionsM12x1Pin Setting OptionsAll terms and symbols used for setting of EDS 8000 as well as menu structure correspond with the specifications in the VDMA regulations (VDMA 24574-1) for pressure switches. EDS 8000 is easy and comfortable to set by two keys.Switch Output Setting RangesSP = Set pointRP = Re-set pointFL = Pressure window lower value FH=Pressure window upper valueModel CodeEDS 8 4 X 6 - X - XXXX - 400Mechanical Connection 4 = G1/4 A DIN 3852 (outside) (bar ranges only) 7 = SAE 6 9/16-18 UNF 2A (psi ranges only)Electrical Connection 6 = Connector male M12x1 -4 pole (without female connector)Output 2 = 2 switch outputsPressure Range0500, 1000, 3000, 6000, 9000 psi (for mechanical connection 7 = SAE 6)Modification Number 400 = Standard (psi)Accessories:Appropriate accessories, such as electrical connectors, mechanical connection adaptors, etc. can be found in the Accessories section.DescriptionThe EDS 300 is a compact electronic pressure switch with digital display. Four different output models are available: with one switching point, with two switching points and both models can also have an additional analog output signal 4 to 20 mA.The switching points and the corresponding hystereses can be adjusted via keys. For optimum adaptation to a particular application, the unit has many additional adjustment parameters, e.g. switching delay times, N/O / N/C function of the outputs.The main applications of the EDS 300 are pressure and limit indication in hydraulics and pneumatics and anywhere where a high switching frequency or a constant switching accuracy places too high a demand on a mechanical pressure switch.The unit is ideal for the construction ofaccumulator charging circuits or pump and compressor controls.Special Features• I ntegrated pressure sensor with thin-film strain gauge on stainless steel membrane • Compact, robust construction • Accuracy ≤ ±0.5% BFSL • 3 or 4 digit digital display• User-friendly push button programming • S witching points and switchback hystereses can be adjusted independently • Window function• Many useful additional functionsApprovalsCE mark is a mandatory conformity mark on many products placed onthe single market in the European Economic AreaEDS 300 SeriesPressure Switch with DisplayApplicationsG 1/4 ACircuit DiagramsDimensionsPin ConnectionsBinder 714 M18DIN 43650Pin 3X5-1M12x1, 4 polePin 3X6-13X6-23X6-3M12x1, 5 poleModel CodeEDS 3 X X - X - XXXX - 400Mechanical Connection* 4 = G1/4A DIN 3852 male (bar ranges only) 5 = SAE 4 7/16-20 UNF 2B, female (psi ranges only)Electrical Connection* 4 = 4 pole plug M18x1, Binder Series (connector not included) 5 = DIN 43650 / ISO plug, 3 pole + ground (connector ZBE 01 included) 6 = M12x1 plug, 4 pole (connector not included) 8 = M12x1 plug, 5 pole (connector not included)Output 1 = 1 Switching Output (only with electrical connection 6) 2 = 2 Switching Outputs (only with electrical connection 6) 3 = 1 Switching Output with 1 analog output (only with electrical connection 6) 5 = 2 Switching Outputs with 1 analog output (only with electrical connection 8)Pressure RangeFor EDS 35X only (SAE 4 7/16-20 UNF2B)0089 (-14.5 to 75), 0150, 1000, 3000, 6000, 9000 psi Modification Number 400 = standard in psi 401 = vacuum in psi*Other options available upon requestModel EDS 356-11 switching outputModel EDS 356-22 switching outputsModel EDS 356-31 switching output, 1 analog outputApplicationsDescriptionThe EDS 300 is a compact, electronic pressure switch with digital display. The pressure measurement is based on a strain gauge sensor cell on stainless steel. All parts in contact with the medium are stainless steel, and are welded together. Since no seals are required in the sensor interior, the potential for leakage is eliminated.Two relay switch outputs with N/O function and an additional analog output signal (4 to 20 mA) enable the pressure switch to be incorporated into the most modern control concepts.The switching points and the corresponding hystereses can be adjusted easily via the keypad.For optimum adaptation to a particular application, the unit has many additional adjustment parameters, e.g. switching direction of the relays and switching delay times.Areas of application are pressure for maximum value monitoring on marinetransmissions, diesel engines, pumps and general hydraulic and pneumatic systems.ApprovalsCE mark is a mandatory conformity mark on many products placed on the single market in the European Economic AreaAmerican Bureauof Shipping German Lloyd - GLBureau VeritasLloyds Register of Shipping - LRS Det Norske Veritas - DNVEDS 300 SeriesShipbuilding Pressure Switch with DisplayDimensionsCircuit DiagramPlug ConnectionZBE 10Available AdapterSAE-4 (m) to 1/4 NPT (m) Stainless Steel Part #02701426Pin ConnectionsDIN 436516relay contact 2 (SP 2)PEModel CodeEDS 3 X X - X - XXXX - S4X PSIMechanical Connection* 4 = G1/4A DIN 3852 male (bar ranges only) 5 = SAE 4 7/16-20 UNF 2B, female (psi ranges only)Electrical Connection* 7 = DIN 43651 plug, 6 pole + ground (connector ZBE 10 not included)Output 4 = 2 Switching outputs and 1 analog output Pressure RangeFor EDS 35X only (SAE 4 7/16-20 UNF2B)0089 (-14.5 to 75), 0150, 1000, 3000, 6000, 9000 psi Modification NumberS40 = Standard in psi (except for -14.5 to 75 psi) S41 = Vacuum version in -14.5 to 75 psi (psi)psi version (leave blank for bar version)*Other options available upon requestPlugDIN 43651SAE 4G 1/4 A+-ApplicationsDescriptionThe programmable electronic pressure switch in the EDS 4300 series has been specially developed to combine the advantages of a compact, robust and cost-effective unit with the benefits of a programmable pressure switch.The EDS 4300 can be easily programmed using the HPG 3000 programming unit.When the programming unit is disconnected from the EDS 4300, the pressure switch retains all the settings. This prevents unauthorized adjustment of the settings.The following parameters can be changed:• Switching point • Hysteresis• Switching direction (N/O / N/C)• Switching delay timesThe EDS 4300 is suitable for high pressure applications (over 500 psi) and has a pressure measurement cell with thin-film strain gauge on a stainless steel membrane.In contrast to pressure switches which are permanently pre-set according to customer requirements, the programmable EDS 4300 is highly versatile and replaces a wide range of models.Special Features• Option of 1 or 2 switching outputs • Option of PNP or NPN switching outputs • High switching output capacity • Accuracy ≤ ±0.5% BFSL • Individual programming • Compact and robust design • A lso available in ATEX version for potentially explosive locationsApprovalsCE mark is a mandatory conformity mark on many products placed on the single market in the European Economic AreaEDS 4300 SeriesLow Pressure Programmable SwitchDimensionsPin ConnectionsM12x1, 5 polePin Process connection HPGconnectionIn process a 4 pole mating connector (e.g. ZBE 06) has to be used.Model CodeEDS 4 3 X X - XXXX - X P X - 000 - X1 (PSI)Mechanical Connection* 4 = G1/4A DIN 3852 male (bar ranges only) 8 = 1/4”-18 NPT (psi ranges only)Electrical Connection* 8 = M12x1 plug, 5 pole (connector not included)Pressure RangeFor EDS 4388 (1/4”-18 NPT only)0135, 0015, 0050, 0100, 0150, 0250, 0500 psi Output 1 = 1 Switching Output 2 = 2 Switching OutputsOutput Technology P = Programmable switching output Output Type P = PNP switching output N = NPN switching output Modification Number 000 = StandardSeal MaterialF1 = FPM Seal (hydraulic oil)E1 = EPDM Seal (coolant, ammonia, water)(psi)psi version (leave blank for bar version)*Other options available upon request1/4-18 NPT MaleG1/4Aø 1.26"HPG 3000 Programming UnitManual available online Part #00909422ZBE 30-02Part #06040851HPG 3000 Power Supply with ConnectorPart #02091103ApplicationsDescriptionThe programmable electronic pressure switch in the EDS 4400 series has been specially developed to combine the advantages of a compact, robust and cost-effective unit with the benefits of a programmable pressure switch.The EDS 4400 can be easily programmed using the HPG 3000 programming unit.When the programming unit is disconnected from the EDS 4400, the pressure switch retains all the settings. This prevents unauthorised adjustment of the settings.The following parameters can be changed:• Switching point • Hysteresis• Switching direction (N/O / N/C)• Switching delay timesThe EDS 4400 is suitable for high pressure applications (over 500 psi) and has a pressure measurement cell with thin-film strain gauge on a stainless steel membrane.In contrast to pressure switches which are permanently pre-set according to customer requirements, the programmable EDS 4400 is highly versatile and replaces a wide range of models.Special Features• Option of 1 or 2 switching outputs • Option of PNP or NPN switching outputs • High switching output capacity • Accuracy ≤ ±0.5% BFSL • Individual programming • Compact and robust design • A lso available in ATEX version for potentially explosive locationsApprovalsCE mark is a mandatory conformity mark on many products placed on the single market in the European Economic AreaEDS 4400 SeriesHigh Pressure Programmable SwitchDimensionsPin ConnectionsM12x1, 5 polePin Process connection HPGconnectionIn process a 4 pole mating connector (e.g. ZBE 06) has to be used.Model CodeEDS 4 4 X X - XXXX - X - P X - 000 (PSI)Mechanical Connection* 4 = G1/4A DIN 3852 male (bar ranges only) 7 = SAE 6 9/16-18 UNF2A (psi ranges only)Electrical Connection* 8 = M12x1 plug, 5 pole (connector not included)Pressure RangeFor EDS 4478 (SAE 6 9/16-18 only) 1000, 3000, 6000, 9000 psi Output 1 = 1 Switching Output 2 = 2 Switching OutputsOutput Technology P = Programmable switching output Output Type P = PNP switching output N = NPN switching output Modification Number 000 = Standard(psi)psi version (leave blank for bar version)*Other options available upon requestSAE 6G1/4Aø 1.26"HPG 3000 Programming UnitManual available online Part #00909422ZBE 30-02Part #06040851HPG 3000 Power Supply with ConnectorPart #02091103ApplicationsEDS 1700 SeriesPressure Switch with DisplayDescriptionThe EDS 1700, with its integrated pressure measuring cell, a 4-digit display and the 4 switching outputs, offers the user all the advantages of a modern electronic pressure switch.4 switching points and reset points can be adjusted very simply and independently of each other using the keypad.For optimum incorporation into monitoring systems (e.g. with PLC), an analog output (4 to 20 mA or 0 to 10 V) is also available.The main applications of the EDS 1700 are in hydraulics and pneumatics. The instrument is ideal for use where frequent switching cycles (several million) require permanent switching point accuracy for simple and precise adjustmentSpecial Features• I ntegrated pressure sensor with strain gauge on stainless steel membrane • Accuracy 0.25% or 0.5% BFSL • 4-digit digital display• User-friendly key programming• 4 limit relays, switching points and reset points can be adjusted independently • Analog output signal selectable • Many useful additional functions • O ptional mounting position (pressureconnection on the top/bottom, keypad anddisplay can be turned through 180°)• C an be set to display values in any unit of measurement e.g.: kN, kg, psi, ...ApprovalsCE mark is a mandatory conformitymark on many products placed on the single market in the European Economic AreaDimensionsModel CodeEDS 17 9 X - X - XXXX - 000Mechanical Connection 9 = G 1/4 DIN 3852 female port Display 2 = 4 digit psi Accuracy P = 0.25% B.F.S.L. N = 0.5% B.F.S.L.Pressure RangeFor EDS 1792X only (4 digit psi)016 (232), 040 (580), 100 (1450), 250 (3625), 400 (5800), 600 (8700) bar (psi)Modification Number 000 = StandardPin ConnectionsPin 1+U B 20 V3Analog output signal +4Analog output signal -5Relay 1 N/C 6Relay 1 N/C 7Center relay 1 and 28Relay 2 N/C 9Relay 2 N/O10Relay 3 N/C 11Relay 3 N/O 12Center relay 3 and 413Relay 4 N/C 14Relay 4 N/Oto DIN 74-Km5(4 places)PG 11 Cable gland (2 places)。

目录1．前言............................................................................................- 3 - 2．系统概述及系统原理................................................................- 4 -2.1 系统概述............................................................................- 4 -2.2 系统特点............................................................................- 4 -2.3 系统原理............................................................................- 5 -2.3.1 系统工作流程.........................................................................- 5 -2.3.2 盾构机位置姿态.....................................................................- 5 -2.3.3 坐标系.....................................................................................- 6 -2.3.4 偏差定义.................................................................................- 7 -2.3.5 零位测量.................................................................................- 8 -2.3.6 盾构掘进实时姿态测量..........................................................- 9 -2.3.7 远程监控.................................................................................- 9 -3.系统构成.......................................................................................- 9 -3.1系统硬件...........................................................................- 10 -3.2 软件..................................................................................- 10 - 4．系统安装..................................................................................- 11 -4.1 全站仪的安装..................................................................- 11 -4.2 后视棱镜的安装..............................................................- 12 -4.3 工业计算机的安装..........................................................- 12 -4.4 全站仪、电台和电池的连接..........................................- 13 -4.5 工业计算机与电台连接..................................................- 14 -4.6 前视棱镜安装..................................................................- 15 -4.7 倾斜仪的安装..................................................................- 19 -4.8 地下控制系统与地面控制室的连接..............................- 19 - 5．硬件部分技术说明..................................................................- 20 -5.1 Leica TCA1202全站仪....................................................- 20 -5.1.1 部件.......................................................................................- 20 -5.1.2 指标.......................................................................................- 21 -5.1.3 用户界面...............................................................................- 22 -5.1.4 仪器操作...............................................................................- 26 -- 1 - 上海力信测量技术有限公司5.1.5 图示.......................................................................................- 28 -5.1.6 通讯参数设置.......................................................................- 29 -5.1.7 仪器保护...............................................................................- 32 -5.2 工业计算机......................................................................- 33 -5.2.1 尺寸规格...............................................................................- 33 -5.2.2 配置.......................................................................................- 34 -5.3 电台..................................................................................- 35 -5.3.1 技术参数...............................................................................- 35 -5.3.2 通讯参数...............................................................................- 35 -5.4 其他硬件..........................................................................- 36 -5.4.1 棱镜.......................................................................................- 36 -5.4.2电缆........................................................................................- 36 -5.4.3 供电电池...............................................................................- 36 -5.4.4 倾斜传感器...........................................................................- 36 -5.4.5转换电源................................................................................- 37 -5.5 通讯接线图......................................................................- 38 - 6．RMS-D软件............................................................................- 42 -6.1 硬件环境..........................................................................- 42 -6.2 软件环境..........................................................................- 42 -6.3 开发环境..........................................................................- 42 -6.4 RMS-D软件安装.............................................................- 43 -6.5 RMS-D软件操作.............................................................- 49 -6.5.1 测量主界面...........................................................................- 49 -6.5.2 换站测量...............................................................................- 53 -6.5.3 测量信息...............................................................................- 57 -6.5.4 管片管理...............................................................................- 58 -6.5.5 基本设置...............................................................................- 74 -6.5.6 基础数据...............................................................................- 78 -7.问题信息索言.............................................................................- 86 -- 2 - 上海力信测量技术有限公司1．前言随着城市化进程的加速，我国城市地铁建设正处于快速发展时期，同时为了避免盾构掘进严重偏离的重大工程事故，建立一套完善可靠的施工测量方法越来越得到人们的关注。

FLexiForce薄膜传感器Flexiforce sensorFlexiforce超薄型力量感测片具有如纸般薄的厚度，柔软的卷曲性以及耐用性，可适用与各种不同的安装环境。

标准型 A201感测片物理特性：厚度0.008’’(0.208mm)长度 2—8’’(51－－-203mm)宽度0.55’’(14mm)感测范围0.357’’,直径（9.53 mm）接头 3 pin male square pin特性表：线性误差 <+/-5%重复性 <+/-2.5% of full scale (80%力量加载)磁滞性 <4.5% of full scale (80%力量加载)漂移 <5% log time (90% 固定力量加载)反应时间 <5% msec工作温度15°F—140°F(-9°C—60°C)力量量测范围 0－－-1 ibs (4.4N)0－－-25 ibs(110N)0－－-100 ibs(440N)温度灵敏度0.2%/°F(0.36%/°C)公司简介麦思科技有限公司成立于2001年，公司创立宗旨是为用户提供最新的测量技术与全方位的压力分布感测技术服务。

随着科技发展及应用技术的日新月异，为因应客户对测量技术的需求与日俱增，以期能为不同的用户提供更完备的测量解决方案。

我们乐于接受不同的挑战，协助客户解决问题是我们努力的方向，我们以客户满意的评价为荣，也因客户的支持与肯定，麦思科技得以不断的茁壮成长。

公司主营代理美国T ekscan公司压力分布测量全系产品，为美国Tekscan中国区的一级代理商。

创立于1987的美国T ekscan公司已经成为世界高解析薄膜接触压力测量系统供应商的领导者。

我们的产品已应用于各种产业，从工业到医学T ekscan的高解析度薄膜压力感测技术无处不在，包括汽车、人体工学、封装、半导体以及更多的应用。

Features- Angle Displacement Measurement- Bends and Flexes physically with motion device - Possible Uses - Robotics- Gaming (Virtual Motion) - Medical Devices- Computer Peripherals - Musical Instruments - Physical Therapy - Simple Construction- Low ProfileMechanical SpecificationsElectrical Specifications-Life Cycle: >1 million-Flat Resistance: 10K Ohms ±30%-Bend Resistance: minimum 2 times greater than the flat resistance at 180° pinch bend (see "How it Works" below)-Power Rating : 0.5 Watts continuous; 1 Watt PeakDimensional Diagram - Stock Flex Sensor6.35 [0.250]How It WorksHow to Order - Stock Flex SensorSchematicsFollowing are notes from the ITP Flex Sensor Workshop"The impedance buffer in the [Basic Flex Sensor Circuit] (above) is a single sided operational amplifier, used with these sensors because the low bias current of the op amp reduces errer due to source impedance of the f lex sensor as voltage divider. Suggested op amps are the LM358 or LM324.""You can also test your flex sensor using the simplest circut, and skip the op amp.""Adjustable Buffer- a potentiometer can be added to thecircuit to adjust the sensitivity range.""Variable Deflection Threshold Switch- an op amp is usedand outputs either high or low depending on the voltage of theinverting input. In this way you can use the f lex sensor as aswitch without going through a microcontroller.""Resistance to Voltage Converter- use the sensor as theinput of a resistance to voltage converter using a dual sidedsupply op-amp. A negative reference voltage will give a positiveoutput. Should be used in situations when you want output at alow degree of bending."。

Pressure SensorsFS01/FS03 Force Sensors FS SeriesPERSONAL INJURY DO NOT USE theseThe FS01/FS03 sensors are special low cost, peizoresistive-based force sensors. These high-level voltage output, calibrated, and temperature MISUSE OF DOCUMENTATION•The information presented in this product sheet is for reference only. DoPressure Sensors FS01/FS03 Force SensorsFS SeriesPRESSURE SENSOR SPECIFICATIONSMax. Ratings Supply voltage, Vs 12.0 Vdc Maximum over load 3.18 kg [7 lbs] Lead temperature(soldering 2-4 seconds)220 °C [428 °F]ENVIRONMENTAL SPECIFICATIONSCompensated temperature 5 °C to 50 °C [41 °F to 122 °F] Operating temperature 0 °C to 70 °C [0 °F to 158 °F] Storage temperature -20 °C to 85 °C [13 °F to 185 °F] Humidity limits0% RH to 95% RHSTANDARD FORCE RANGESFull-Scale SpanPart Number Operating ForceMaximum ForceMin. Typ. Max. FS01 0 lbs to 1.5 lbs [ 0 kg to 0.68 kg] 7 lbs 2.85 Vdc 3.0 Vdc 3.15 Vdc FS030 lbs to 3.0 lbs [0 kg to 1.36 kg]7 lbs2.85 Vdc3.0 Vdc3.15 VdcPERFORMANCE SPECIFICATIONSMin. Typ. Max. Unit Zero force offset 0.95 1.0 1.05 Vdc Full scale span (2)2.853.0 3.15 Vdc Linearity – ± 1.0 ± 3.0 %FSS Hysteresis (3)– ± 0.5 – %FSSTemp effect on Span (0 °C to 50 °C [0 °F to 122 °F]) (4)– ± 1.0 ± 2.5 %FSS Temp. effect on Offset (0 °C to 50 °C [0 °F to 122 °F]) (4)–± 1.0± 2.5%FSSCreep(5)– 0.5 – %FSS Long-term stability of Offset and Span(6)– ± 1.0 – %FSSSpecification Notes:Note 1: Reference conditions (unless otherwise noted): Supply voltage, Vs = 5 Vdc; T A = 25 °C [77 °F]Note 2: Full-scale Span is the algebraic difference between the output voltage at full-scale load and the outputat zero load. Span is ratiometric to the supply voltage.Note 3: Hysteresis is the maximum output difference at any point within the operating pressure range forincreasing and decreasing load.Note 4: Maximum error band of the offset voltage and the effort band of span, relative to the 25 °C [77 °F]reading.Note 5: Maximum difference in output at full-scale load in a 20 minute period.Note 6: Maximum difference in output within any operating force after 1 million force cycles2 Honeywell • Sensing and ControlPressure Sensors FS01/FS03 Force SensorsFS SeriesDIMENSIONAL DRAWING(FOR REFERENCE ONLY)Tolerances, unless otherwise noted± 0.01 for two decimal places ± 0.005 for three decimal placesEQUIVALENT CIRCUITELECTRICAL CONNECTION PINOUTPin 1 = + Supply Pin 2 = + OutputPin 3 = - Output/Ground Pin 4 = N/CHoneywell • Sensing and Control 3Pressure Sensors FS01/FS03 Force SensorsFS SeriesSensing and Control/sensing Honeywell11 West Spring Street Freeport, Illinois 61032008092-1-EN IL50 GLO 1103 Printed in USAORDER GUIDEPart Number Force Range FS01 0 lbs to 1.5 lbs [ 0 kg to 0.68 kg] FS030 lbs to 3.0 lbs [0 kg to 1.36 kg]WARRANTY/REMEDYHoneywell warrants goods of its manufacture as being free of defective materials and faultyworkmanship. Contact your local sales office for warranty information. If warranted goods arereturned to Honeywell during the period of coverage, Honeywell will repair or replace 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.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.While we provide application assistancepersonally, through our literature and the Honeywell web site, it is up to the customer to determine the suitability of the product in the application.For application assistance, current specifications, or name of the nearest Authorized Distributor, contact a nearby sales office. Or call: 1-800-537-6945 USA/Canada 1-815-235-6847 International FAX1-815-235-6545 USA INTERNET/sensing *********************Copyright 2003 Honeywell International Inc. All Rights Reserved.。

Flexiforce传感器构成和运用一、Flexiforce 传感器Flexiforce 是一种超薄和挠性印刷电路，可很方便集成多种运用。

由于Flexiforce 像纸一样薄的结构，可弯曲和测力特性可用来测两表面之间的压力，并且能够在一些特殊环境进行测力。

Flexiforce 比其它薄膜测力产品有更好的特性、线性、磁滞、飘移、温度灵敏度。

传感的有效区域是传感器末端的直径为0.95cm 的圆。

Flexiforce 由两层衬底构成。

这种衬底由聚脂纤维薄膜组成(高温传感器用的是聚酰亚胺构成)。

在每一层上运用一种导体材料(银)，再加一层对压力敏感的墨水。

然后用粘合剂把两层衬底压在一起，形成了传感器。

墨水外的银边表示了对压力敏感的区域。

从敏感区域引出两个银线作为导线。

Flexiforce 传感器尾端选配一个可焊接的公的方针接头以方便连接到电路。

两边的输出线是有效的，中间的是无效的。

传感器的长度可选6cm、12cm、18cm 或由客户定制。

在电路中传感器相当于一个可变电阻。

当没有负载时，传感器呈高阻状态(5M&Omega;)，当有负载时，电阻下载。

接一个欧姆表可以看见当在敏感区域施加外力时电阻的变化。

Flexiforce 需保存在温度-9&deg;C74&deg;C 之间。

二、标准Flexiforce 传感器标准A201 传感器有下列量程供选择：Sensor A201-1 (0-1 lb)(0-4.5N)Sensor A201-25 (0-25 lb)(0-112.5N)Sensor A201-100 (0-100 lb)*(0-445N)如果要测量大于100lb 的力可降低供电电压和降低反馈电阻(最小。

一种基于FlexiForce的多点阵列式压力采集系统XIAO Yulin;ZHANG Licheng;YANG Nan【摘要】设计一种基于FlexiForce薄膜式压力传感器多点阵列式采集系统.该系统将FlexiForce薄膜式压力传感器输出的阻值变化变为电压信号并具有一定的放大作用,同时支持多路选择功能,实现了8×8路压力采集.采用VC++编写上位机软件界面,显示压力数据及图像,最后导出数据对整个系统的性能进行评估分析.实验结果表明,系统电压值随着压力的增加而下降,压力的平稳增加和降低时不会出现跳跃、突变等现象,零压力时电压保持在5 V,最小电压值保持在1 V左右,经过计算,最终误差均满足FleixForce薄膜压力传感器1％的误差范围.【期刊名称】《现代电子技术》【年(卷),期】2019(042)004【总页数】4页(P19-22)【关键词】FlexiForce;压力采集;多路选择;VC++;薄膜式压力传感器;放大电路【作者】XIAO Yulin;ZHANG Licheng;YANG Nan【作者单位】;;【正文语种】中文【中图分类】TN722-34压力采集系统广泛应用于医疗、汽车、家居用品、服装、工业检测及科研等领域，综合微电子技术、传感器技术、计算机科学与技术等学科的知识和技术，其发展得力于相关技术的最新发展成就[1]。

顺应压力采集系统智能化、网络化、高精度等发展趋势，本文设计一种基于FlexiForce的多点阵列式压力采集系统。

系统电路能够将薄膜式压力传感器输出的阻值变化变为电压信号并具有一定的放大作用，同时支持多路选择功能[2]，实现了8×8=64路压力采集，具有实时性强、安装使用方便和性价比高等特点，具有广泛的应用前景和借鉴价值。

1 系统总体设计针对薄膜式压力传感器构成的网格阵列，无法使用电桥方式进行电阻与电压信号转换，且多点数据无法同时采集问题，本文的目的在于提供一种基于FlexiForce薄膜式压力传感器多点阵列式压力采集系统，包括薄膜式压力传感器、信号驱动板、数字控制模拟电子开关、A/D模块、处理器、USB转TTL模块和电源，系统原理图见图1，各个传感器输出的摸拟信号经过放大调理模/数转换后转换为数字量传送给单片机，运用标定、计算、零点补偿等处理方法处理后，在显示模块显示，同时经过串行接口传送到上位机，实现人机交互。

{设备管理}诺西设备无线参数手册Flexi无线网络参数手册(v1.0)前言随着全省Flexi替换工程的开展，Flexi的优化与维护工作已经提上日程。

由于Flexi在全省属于首次使用，在网优网规参数的使用上仍处于初级阶段。

为了加深对网优参数的理解和认知，让大家快速接受并应用Flexi各类优化参数，特编写本参数手册。

本手册对目前接触的Flexi参数进行了初步的解释，由于作者水平有限，望全省的优化人员根据实际应用多提宝贵意见，我们共同完成后继完善，共同制定Flexi 参数优化策略。

目录Flexi无线网络参数手册(v1.0)1一、计时器（Timer）171、T4172、T7183、T8194、T10215、T13226、T17237、T18248、T3101249、T31032510、T3105_d2711、T3105_f2912、T31073013、T31093114、T31113215、T31213416、T31223517、T31683618、T31923619、T91013720、T91033821、T91043922、T91054023、T91084124、T911341二、设置BSC信息相关参数431、C-NUM432、BSC_NAME433、BSC_TYPE434、IDLE_ET435、BSC_LACATION446、BCSU_NUM447、BCF_NUM448、SEG_NUM449、TRX_NUM4410、NPC4411、GMAC/GMIC（gsmMacrocellThreshold/gsmMicrocellThreshold）4512、DMAC/DMIC（dcsMacrocellThreshold/dcsMicrocellThreshold）4513、DISB（msDistanceBehaviour）4514、EPF、ERF、EOF、EEF4615、HRI(TCHinhandover)4616、HRL/HRU(lower/upperlimitforFRTCHresources)4617、AUT(AMHupperloadthreshold)4618、ALT(AMHlowerloadthreshold)4719、AML(AMHmaxloadoftargetcell)4720、CSD（freeTSLforCSdowngrade）4721、CSU（FreeTSLsForCSUpgrade）4722、TGT（TRHOGuardTime）4723、HDL/HUL（HOpreferenceorderinterferenceDL/UL）4824、CLR（loadrateforchannelsearch）4825、CTR（CSTCHallocationRTSL0）4826、CTC（CSTCHallocationcalculation）4827、MINHTT（minimummeanholdingtimeforTCHs）4928、MAXHTT(maximummeanholdingtimeforTCHs)4929、MAXHTS（maximummeanholdingtimeforSDCCHs）4930、TCHFR/SCHFR(AlarmThresholdForTCH/SDCCHFailureRate)5031、CNGT/CNGS(AlarmThresholdForTCH/SDCCHCongestion)5032、CS(AlarmThresholdForNumberOfChannelSeizures)5033、CSR(AlarmThresholdForNumberOfChannelSeizureRequests)5034、PRDMHT(measurementperiodforTCHmeanholdingtimesupervision)5135、PRDMHS(measurementperiodforSDCCHmeanholdingtimesupervision)5136、PRDCFR(measurementperiodforsupervisionofchannelfailurerate)5137、PRDCNG(measurementperiodforsupervisionofcongestioninBTS)5138、HIFLVL(thresholdforhighTCHinterferencelevel)5239、HIFSHR(alarmthresholdfortheshareofhighTCHinterference)5240、PRDHIF(measurementperiodforhighTCHinterferencesupervision)5241、PRDBNT(measurementperiodforsupervisionofBTSwithnotransactions)5242、SMBNT(startingmomentforsupervisionofBTS)5243、EMBNT(endingmomentforsupervisionofBTS)5344、GTUGT(GPRSterritoryupdateguardtime)5345、BCSUL(BCSUloadthreshold)5346、LAPDL(LAPDloadthreshold)5347、MSSCF、MSSCS(upperlimitofMSspeedclass1、2)5448、ALFRT、ALHRT(alarmlimitforfull、halfrateTCHavailability)5449、ALSDC(alarmlimitforSDCCHavailability)5450、DINHO(disableinternalHO)5451、DEXDR(disableexternalDR)5452、RXBAL(RXlevelbalance)5553、RXANT(RXantennasupervisionperiod)5554、ITCF(numberofignoredtranscoderfailures)5555、VDLS(variableDLstepsize)5556、MNDL(maximumnumberofDLTBF)5557、MNUL(maximumnumberofULTBF)5658、ISS(intrasegmentSDCCHHOguard)5659、PRE(pre-emptionusageinhandover)5660、SBCNF（softblockingC/NFR）5661、SBCNH（SoftBlockingC/NHR）5662、RXTA（RXlevelbasedTCHaccess）5663、DEC（delayofHOandPCforemergencycalls）5764、IHTA（internalhandovertoexternal）5765、TTRC（TCHtransactioncount）5766、MTTR（maximumTCHtransactionrate）5767、DHP、DNP、DLP（DLhigh、NORMAL、LOWprioritySSS）5768、UP1、UP2、UP3、UP4（ULpriority1、2、3、4SSS）5869、BGSW1、BGSW2、BGSW3（BackgroundtrafficclassschedulingweightforARP1）5870、QCATR（QCreallocationactiontriggerthreshold）5871、QCATN（QCNCCRactiontriggerthreshold）5872、SPL（supervisionperiodlengthforEGPRSinactivityalarm）5873、IEPH（eventsperhourforEGPRSinactivityalarm）5974、EGIC（EGPRSinactivitycriteria）59三、BCF设置相关参数591、BCF_ID592、BCF_TYPE593、LAPD_NAME594、LAPD_BCSU605、STATE606、BBU607、NTIM608、BTIM609、SENA6110、SM6111、T200F6112、T200S61四、SEG相关参数611、SEG_ID612、LAC623、CI624、SEG_NAME625、BSIC:626、BNCC、BBCC627、BAR（cellBarred）628、RE（callReestablishmentAllowed）639、EC（emergencyCallRestricted）6310、PLMN（plmn_permitted）6311、ACC（NtAllowedAccessClasses）6312、DBC（multiBandCell）6413、DR&DRM（drInUse&drMethod）6414、MADR&MIDR（maxTimeLimitDirectedRetry&minTimeLimitDirecedRetry）6415、GACCGRXP6516、HYS（cellReselectHysteresis）6517、GHYS（GPRSCellReselHysteresis）6618、RXP（rxLevAccessMin）6619、TXP1（MSTxPwrMaxCCH1）6620、TXP2（MSTxPwrMaxCCH2）6721、GTXP1/GTXP26722、RLT（radioLinkTimeout）6723、PO（powerOffset）6724、DIRE（：DirectGPRSaccessBts）6825、RRH(RaReselectHysteresis)6826、CHYS（c31Hysteresis）6827、QUAL（c32Qual）6828、RES（reselectiontime）6829、PRC（hcsPriorityClass）6930、HCS（HCSthreshold）6931、MQL（maxQueueLength）6932、TLC（timeLimitCall）7033、TLH（timeLimitHandover）7034、QPU（queuePriorityUsed）7035、QPC（queueingPriorityCall）7036、QPH（queueingPriorityHandover）7037、QPN（queuePriorityNonUrgentHo）7138、MPU（msPriorityUsedInQueueing）7139、AG（noOfBlocksForAccessGrant）7140、MFR（NOfMultiframesBetweenPaging）7241、PER（timerPeriodicUpdateMS）7242、ATT（allowIMSIAttachDetach）7343、AP（interferenceAveragingProcess）7344、DTX（dtxMode）7345、BMA（btsMeasAver）7446、PMAX1（maxMSTxPower1）7447、PMAX2（maxMSTxPower2）7448、RET（maxNumberRetransmission）7549、SLO（numberOfSlotsSpreadTrans）7550、NY1（maxNumberOfRepetitions）7551、CB（smsCBUsed）7652、BLT（btsLoadThreshold）7653、DMAX（msMaxDistanceInCallSetup）7654、TRP（trxPriorityInTCHAlloc）7655、CLC（cellloadforchannelsearch）7756、TRIH（tchrateIntraCellHo）7757、FRL（lowerlimitforFRTCHresources）7758、FRU（UpperLimitForFRTCHResources）7859、NECI（newEstabCausesSupport）7860、MBR（multiBandCellReporting）7861、ESI（earlySendingIndication）7862、AUT（AMHupperloadthreshold）7963、ALT（AMHlowerloadthreshold）7964、AML（AMHMaxLoadOfTargetCell）7965、TGT（TRHOguardtime）7966、PI（cellReselectParamInd）8067、REO（CellReselectOffset）8168、TEO（temporaryOffset）8169、PET（penaltyTime）8170、QUA（cellBarQualify）8271、QSRI（thresholdtosearchUTRANcells）8272、QSRP（GPRSthresholdtosearchUTRANcells）8273、FDD（fddandtddcellreselectoffset）8374、IDLE（identificationofBCCHfrequencylist）8375、ACT8376、MEAS（measurementBCCHAllocationlist）8377、GENA（GPRSEnabled）8478、PSEI（packetserviceentityidentifier）8479、NSEI（networkserviceentityidentifier）8480、RAC8481、BFG（PrefBCCHfreqGPRS）8582、DLA（DLadaptionprobabilitythreshold）8583、ULA（ULadaptionprobabilitythreshold）8584、DLB（PcuDLBlerCpNonHop）8585、ULB（pcuULBlerCpNonHop）8686、DLBH（pcuDLBlerCpHopping）8687、ULBH（pcuULBlerCpHopping）8688、COD（pcuCsNonHopping）8689、CODH（pcuCsHopping）8790、MCA（initialMCSforacknowledgedmode）8791、MCU（initialMCSforunacknowledgedmode）8792、BLA（maximumBLERinacknowledgedmode）8793、BLU（maximumBLERinunacknowledgedmode）8894、MBG（meanBEPoffsetGMSK）8895、MBP（MeanBEPOffset8PSK）8896、ELA（EGPRSLinkAdaptationEnabled）8997、QGDRT（QCGPRSDLRLCackthroughput）8998、QGURT（QCGPRSULRLCackthroughput）8999、QEDRT（QCEGPRSDLRLCackthroughputthreshold）89100、QEURT（QCEGPRSULRLCackthroughputthreshold）90五、BTS相关参数901、BTS_ID902、HOP903、BAND904、MAL（mobileallocationfrequencylist）915、HSN1（hoppingsequencenumber1）916、HSN2917、GPU（GPRSNonBCCHRxlevUpper）918、GPL（GPRSNonBCCHRxlevLower）919、CNT（cnThreshold）9210、BO0&BO1&BO2&BO3&BO4&BO5（boundary）9211、PMIN（minMSTxPower）9212、RDIV（rxdiversity）9213、NBL（nonBCCHLayerOffset）9314、LSEG（btsLoadInSeg）9315、DLN（DLnoiselevel）9316、ULN（ULnoiselevel）9317、MO（maioOffset）9318、EGENA（EGPRSenabled）9419、CDED（DedicateGPRSCapacity）9420、CDEF（DefaultGPRScapacity）9421、CMAX（maxGPRScapacity）9522、DCSA（DLcodingschemeinacknowledgedmode）9523、UCSA（ULcodingschemeinacknowledgedmode）9524、DCSU（DLcodingschemeinunacknowledgedmode）9525、UCSU（ULcodingschemeinunacknowledgedmode）9626、ALA（adaptiveLAalgorithm）9627、TFU（BTSuplinkthroughputfactorforCS1-CS4）9628、TFD（BTSDownlinkThroughputFactorForCS1-CS4）9629、TFUM1（BTSuplinkthroughputfactorforMCS1-MCS4）9730、TFUM（BTSuplinkthroughputfactorforMCS1-MCS9）9731、TFDM（BTSdownlinkthroughputfactorforMCS1-MCS9）9732、EAW（EGPRSinactivityalarmweekdays）9733、EAS（EGPRSinactivityalarmstarttime）9834、EAE（EGPRSinactivityalarmendtime）98六、TRX相关参数981、HRS（TRXhalfratesupport）982、PREF（preferredBCCHTRX）983、GTRX（GPRSenabledTRX）984、FREQ995、TSC（trainingsequencecode）996、FRT（TRXfrequencytype）997、LEV（optimumRXleveluplink）998、DAL（directaccesslevel）999、DAP（dynamicabispoolID）10010、LEVD（optimumRXleveldownlink）10011、LAPD_NAME100七、切换的相关参数1001、EIC（enableIntraHoInterfUL）1002、EIH（enableIntraHoInterfDL）1013、EPB（enablePwrBudgetHandover）1014、EMS（enableMSDistanceProcess）1015、ESD（enableSDCCHHandover）1016、EUM（enableUmbrellaHandover）1027、EFA（enaFastAveCallSetup）1028、EFP（enaFastAvePC）1029、EFH（enaFastAveHO）10210、MIH（minIntBetweenHoReq）10311、HPU（HoPeriodUmbrella）10312、MIU（minIntBetweenUnsuccHoAttempt）10313、HPP（hoPeriodPBGT）10314、AWS（averagingWindowSizeAdjCell）10415、NOZ（numberOfZeroResults）10416、AAC（allAdjacentCellsAveraged）10417、LDWS/LDW（hoAveragingLevDL/weighting）10418、LUWS/LUW（hoAveragingLevUL/weighting）10519、QDWS/QDW（hoAveragingQualDL/weighting）10520、QUWS/QUW（hoAveragingQualUL/weighting）10521、MSA（msSpeedAveraging）10622、QDRQDN（hoThresholdsQualDLNX）10623、QURQUN（hoThresholdsQualDLNX）10624、LDRLDN（hoThresholdsLevDLNX）10725、LURLUN（hoThresholdsLevULNX）10726、RPD（HOThresholdsRapidLevUl）10727、ERFD（enableenhancedrapidfielddrop）10728、ERTERN10829、ERMW（deepdroppingEDGEmonitoringwindow）10830、ERAW（modifiedaveragingwindow）10831、ERZ（modifiednumberofzeroresults）10832、ERD（enhancedrapidfielddropduration）10833、IDRIDN10934、IURIUN10935、MSWS（msDistanceAveragingParam）10936、MSRMSN11037、C/I11038、L1/L2/L3/L4/L5/L611039、P1/P2/P3P5/P6/P711040、METH（superReuseEstMethod）11141、MIO（minIntUnsuccIuoHo）11142、MIR（minIntIuoHoReqBQ）11143、CGRCGN11144、CBR/CBP/CBN11145、LSL（lowerSpeedLimit）11246、USL（upperSpeedLimit）11247、STP/STN（msSpeedThresholdPx/msSpeedThresholdNx）11248、SDS（msSpeedDetectionState）11249、ATPM（AMHTRHOpbgtmargin）11350、ATCM（AMHtrafficcontrolMCN）113八、POC相关参数解释1131、PENA（powerCtrlEnabled）1132、INT（powerControlInterval）1133、PMIN（bsTxPwrMin）1134、PMAX（bsTxPwrMax）1145、INC（powerIncrStepsize）1146、RED（powerRedStepsize）1147、PD0（pwrDecrLimitBand0）1148、PD1（pwrDecrLimitBand1）1159、PD2（pwrDecrLimitBand2）11510、PDF（pwrDecrQualFactor）11511、AENA（enableALA）11512、AMIN（minIntBetweenALA）11513、ALIM（powerLimitALA）11614、LDS/LDW（pcAveragingLevDL/weighting）11615、LUS/LUW（pcAveragingLevUL/weighting）11616、QDS/QDW11617、QUS/QUW11718、UDR(QUA)/UDP(QUA)/UDN(QUA)(pcUpperThresholdsQualDLNX)11719、UUR(QUA)/UUP(QUA)/UUN(QUA)11720、LDR(QUA)/LDP(QUA)/LDN(QUA)11721、LUR(QUA)/LUP(QUA)/LUN(QUA)11822、LQR/LQP/LQN11823、UDRUDN11824、UURUUN11825、LDR/LDP/LDN11926、LURLUN11927、IFP11928、TFP11929、ALPHA11930、GAMMA12031、BEP120九、GSM-ADJC相关参数1201、NCCFREQ1202、PMRG（hoMarginPBGT）1203、LMRG（hoMarginLev）1214、QMRG（hoMarginQual）1215、MRGS（enableHoMarginLevQual）1216、PRI（hoPriorityLevel）1217、OF（hoLoadFactor）1228、SL（rxLevMinCell）1229、AUCL（hoLevelUmbrella）12210、PMAX1（MSTXpwrmaxgsm）12211、PMAX2（MSTXpwrmaxgsm1x00）12212、SYNC（syncronisedl）12313、TRHO（trhoTargetLevel）12314、ACL（adjCellLayer）12315、FMT（fastMovingThreshold）12316、POPT（msPwrOptLev）12317、CHAIN（chainedAdjacentCell）12418、DRT（drThreshold）12419、DADL（）12420、AGENA（GPRSEnabled）12421、GRXP（GPRSRxLevAccessMin）12422、GTXP1（gprsMsTxpwrMaxCCH）12523、GTXP2（gprsMsTxPwrMaxCCH1x00）12524、PRC（hcsPriorityClass）12525、HCS（HCSsignallevelthreshold）12526、GTEO（GPRSTemporaryOffset）12527、GPET（GPRSPenaltyTime）12628、RAC（rac）12629、DTM（DTMenabled）126一、计时器（Timer）1、T4说明：T4用来管理BSC发往MSC的RESET信息。

FMA SERIES MicroForce Sensors, Compensated/AmplifiedDESCRIPTIONThe FMA Series are piezoresistive-based force sensors offering aratiometric digital output for readingforce over the specified full scale forcespan and temperature range. Theyare fully calibrated and temperaturecompensated for sensor offset,sensitivity, temperature effects,and nonlinearity using an on-boardApplication Specific Integrated Circuit (ASIC). Direct mechanical coupling allows for easy interface with the sensor, coupling with tubing, membrane or a plunger, providing repeatable performance and a reliable mechanical interface to the application. All products are designed and manufactured according to ISO 9001 standards. These products offer a more stable output which is directly proportional to the force applied to the mechanically-coupled sphere.The FMA Series is available with pocket tape and reel packaging.VALUE TO CUSTOMERSThe FMA Series are designed to meet the customer’s need for a compensated, amplified force sensor which provides digital outputs, a variety of force sensing ranges, a small, cost-effective format, and enhanced durability and accuracy. The flexible design provides multiple standard configurations overa wide operating temperature range.FEATURES• Small form factor: 5 mm x 5 mm[0.20 in x 0.20 in]• Accuracy: ±2 %FSS typical• SPI- or I2C-compatible digital output• Fully calibrated and temperaturecompensated over a temperaturerange of 5°C to 50°C [41°F to 122°F]• Available in a wide variety of standardand configurable force ranges• Overforce: 3X force range• Supply voltage: 3.3 Vdc typ. or 5.0 Vdc typ.• Low power consumption: 14 mW• Enhanced part-to-part repeatability• Enhanced reliability• Stable, stainless steel sphere interface• Internal diagnostic functions available• REACH and RoHS compliant32347833Issue BThe FMA Series joins theFSA Series, FSG Series, FSSSeries, FSS-SMT Series, TBFSeries, and 1865 Series ForceSensors. To view the entireproduct portfolio, click here. DIFFERENTIATION• Multiple force ranges allow thecustomer to choose the force rangeto maximize sensitivity and improvesystem resolution/performance• Smaller package allows for spaceconstrained applications• Robust design provides enhanceddurability in applications whereoverforce may exist• Enhanced accuracy includes allerrors due to force non-linearity, forcehysteresis, and non-repeatability• Reduced Total Error Band enhancessystem performance• Digital output enhances performancethrough reduced conversionrequirements and the convenience ofdirect interface to microprocessors• Diagnostic functions allow the userto determine if the sensor is workingcorrectly by detecting if electrical pathsare broken or shorted inside the sensor• Selectable supply voltages providecustomers with design flexibilityPOTENTIAL APPLICATIONSMEDICAL• Infusion pumps• Ambulatory pumps• Enteral feeding pumps• Kidney dialysis machinesINDUSTRIAL• Load and compression sensing• Touch panels• Switch replacement• Robotic equipment• Weight measurement•Force/grip measuring equipment2Ratiometricity of the sensor (the ability of the device output to scale to the supply voltage) is achieved within the specified operating voltage.3The sensor is not reverse polarity protected. Incorrect application of supply voltage or ground to the wrong pin may cause electrical failure.4Operating temperature range: The temperature range over which the sensor will produce an output proportional to force.5Compensated temperature range: The temperature range over which the sensor will produce an output proportional to force within the specified performance limits.6Accuracy: The maximum deviation in output from a Best Fit Straight Line (BFSL) fitted to the output measured over the force range with single load-unload cycle at 25°C. Includes all errors due to force non linearity, force hysteresis, and non repeatability. 7Full Scale Span (FSS): The algebraic difference between the output voltage at full scale force and the output at zero force.8Total Error Band (TEB): Combined error from calibration, accuracy and temperature effects over the compensated temperature range at 5.0 V from 20 %FSS to 80 %FSS.2Sensing and Internet of Things3Sensing and Internet of ThingsFIGURE 1. TRANSFER FUNCTION LIMITS+8% Total Error BandF min.ForceO u t p u t (% 214 C o u n t s )60%Output (% of 214 counts) =x (Force applied ) + 20%IdealF max.Force range1020304050607080901004Sensing and Internet of ThingsFM A M S D XX 0252 W C S C 3 31 Custom configurations are available upon request. Please contact Honeywell Sales.2Three characters specify the desired force level; allowable characters are the numbers 0 through 9. See Table 5 for currently configurable force ranges.3For other available transfer functions, contact Honeywell Customer Service.Note: B reakout boards, designed for use with the Honeywell SEB002 Sensor Evaluation Kit, are available with the FMA Series sensor already mounted. Please contact your Honeywell representative for details.For example, FMAMSDXX025WCSC3 defines an FMA Series Force Sensor, compensated/amplified, mechanically coupled, sphere contact element, sensor short and open diagnostics, 25 N force range,force unit in N, compression force type, SPI digital output, 20% to 80% transfer function, 3.3 Vdc supply voltage 1FIGURE 2. NOMENCLATURE AND ORDER GUIDEminimum order quantity thresholds and NRE may apply. Please consult the factory.FIGURE 3. SENSOR MOUNTING DIMENSIONS (FOR REFERENCE ONLY: MM/[IN].)5Sensing and Internet of Things6Sensing and Internet of Things7Sensing and Internet of ThingsNote: FMA Series products are shipped in tape and reel packaging with a Minimum Order Quantity (MOQ) of 160 pieces. The maximum tape and reel quantity is 960 pieces per reel.WARRANTY/REMEDYHoneywell warrants goods of itsmanufacture 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 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 that Honeywell, in its sole discretion, 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.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 theseinstructions could result in death or serious injury.m WARNINGMISUSE OFDOCUMENTATION•The information presented in this product sheet is for referenceonly. 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 theseinstructions could result in death or serious injury.ADDITIONAL MATERIALSThe following associated literature is available at :• Product range guide • Technical notes:- MicroForce Sensor Coupling - Overforce Design Considerations - Force Sensor Diagnostics - SMT Sensor PCB MountingGuidelines - Digital Output Force Sensors I 2CCommunications - Digital Output Force Sensors SPICommunications • Other technical notes • Application notes • CAD ModelFOR MORE INFORMATIONHoneywell Sensing and Internet ofThings services its customers through a worldwide network of sales offices and distributors. For application assistance, current specifications, pricing or the nearest Authorized Distributor, visit or call:Asia Pacific +65 6355-2828Europe +44 1698 481481USA/Canada+1-302-613-449132347833-B-EN | B | 02/20© 2020 Honeywell International Inc. All rights reserved.HoneywellSensing and Internet of Things 9680 Old Bailes Road Fort Mill, SC 29707www. While Honeywell may provideapplication assistance personally, 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.。

中国移动诺基亚FLEXI设备硬件指导手册目录第一章 Flexi BSC硬件结构介绍 (3)一、Flexi BSC简介 (3)1.1 Flexi BSC特点 (3)1.2 Flexi BSC产品简介 (3)二、Flexi BSC模块介绍 (6)2.1 操作维护单元OMU (7)2.2标志和蜂窝管理单元MCMU (7)2.3 基站控制器信令单元BCSU (8)2.4 时钟单元CLS (8)2.5 时钟分发单元CLAB/CLAC (9)2.6 码型转换单元TCSM (9)2.7 总线单元MB/EMB (9)2.8 交换终端ET (10)2.9 其他单元和插板功能 (10)三、Flexi BSC的机框和插板单元 (11)3.1 SGC1C-A机框 (12)3.2 第三层机框内单元 (12)3.3 BC1C-B机框 (13)四、Flexi BSC的计算机单元 (14)4.1 MCMU中的主要插板 (14)4.2 BCSU中的主要插板 (17)4.3 OMU中的主要插板 (20)五、其他单元 (22)5.1 GSW2KB(Group Switch) (22)5.2 CLS(Clock unit) (23)六、硬件单元状态 (23)第二章 Flexi EDGE BTS基本结构 (25)一、体系结构 (25)1.1 主要模块 (26)1.2 其他模块 (30)1.3 Flexi GSM 系统扩展模块（ESEA） (32)1.4 Flexi GSM系统外部告警模块（FSEx） (32)第一章 Flexi BSC硬件结构介绍一、Flexi BSC简介1.1 Flexi BSC特点目前我省使用的BSC设备都是Flexi BSC（如图2.1），机架长宽深分别为：2000*900*600。

Flexi BSC 的主要特点为：1、支持最大18000爱尔兰语音业务容量；2、支持最多30720个数据业务信道；3、最大支持3000个载频；4、支持最大72万次的寻呼承载。

FlexiforceFAQFlexiforce SensorsFrequently Asked QuestionsGENERAL OVERVIEWWhat are some applications in which the FlexiForce sensors have been used?Does Images give educational discounts?What is your return policy?SENSOR OVERVIEWOf what material is the FlexiForce sensor made?Are FlexiForce sensors available in different shapes, lengths or sizes?What is the resolution of the A201 sensor?How does the sensor react to force? Is the resistance constant, or is it decreasing with a constant value?How much can I overload the sensor without damaging it?What is the lifetime of a FlexiForce sensor?What materials/conditions could damage the sensor?Can I fold the sensor?Can I adhere the sensor to a surface?How can I measure forces greater than 100 lbs?What drive voltages can I apply to the sensor?Why do I need an excitation circuit to read force with FlexiForce A201 sensors?Does the resistive element react similar to a semiconductor(diode, etc.) that varies conductance with applied voltage?What is the resistance range of the sensor?How do I connect the sensor after it has been trimmed?CONDITIONING AND CALIBRATIONWhy do you need to condition the FlexiForce sensor?How much error is induced if the sensor is not conditioned?What is the maximum period of not using the sensor before you have to recondition it?What is the reason for calibrating the sensor?How long must the sensor be unloaded before you load it again?Is "110% of the maximum load" what the sensor can handle?USING A PUCK OR SHIMWhat is a puck/shim and do I need to use it?What material is best to use?How rough can the load surface be?What surface is best to use underneath the sensor?ELF TM SYSTEM AND CALIBRATIONWhy do I need to calibrate the sensor?What is the resolution of the ELF system?What is the maximum speed of the system?Can I use more than one sensor at a time?ENVIRONMENTALAre the FlexiForce sensors waterproof?What are the influences of humidity on the sensor?Can the sensors pick up electrical noise?What are the influences of magnetic fields or radiation?CUSTOMIZATION OF FLEXIFORCE SENSORSWhat is the smallest active sensing area you can make?What is the maximum force range that you can make?What is the usual turn-around time for custom designs?What are the minimum and maximum quantities you can do annually?Can you make custom sensors that work with the ELF System?What is the average cost of a custom design?How can you find us?What are some applications in which the FlexiForce sensors have been used?FlexiForce sensors provide economical solutions and OEM tools to a variety of force measurement applications. Our sensors have been integrated into drug delivery devices, QA/QC equipment, industrial controls, sports and recreational gear, andmore. The applications are endless and the list continues to grow.[Back to Top]Does Images give educational discounts?We give large-quantity price breaks only, due to the reasonable prices of our FlexiForce products.[Back to Top]What is your return policy?Package must be returned unopened within 48 hours of receipt of merchandise.[Back to Top]Of what material is the FlexiForce sensor made?The outer material is polyester (a brand name would be Mylar), the conductive traces are silver, and proprietary resistive inks are used within the sensing area.[Back to Top]Are FlexiForce sensors available in different shapes, lengths or sizes?The standard FlexiForce sensor is one shape, but can be trimmed to any length. We do offer a custom sensor design and manufacturing service. To request more information on custom sensor design, refer to the custom sensor page.[Back to Top]What is the resolution of the A201 sensor?The sensor will produce an analog signal and the resolution depends upon the electronics used.[Back to Top]How does the sensor react to force? Is the resistance constant, or is it decreasing with a constant value?The inks in our sensors are resistive: the greater the force, the less the resistance. To learn more, refer to the sensor performance graph.[Back to Top]How much can I overload the sensor without damaging it?The mechanical properties of the different force range sensors are very similar. The polymer materials from which these sensors are manufactured will start to deform plastically around 10,000 PSI.[Back to Top]What is the lifetime of a FlexiForce sensor?The durability of the FlexiForce sensor depends on the conditions to which it is exposed: magnitude of the load, the interface material, and the direction of the load (minimal shear). The sensor was tested under "normal" conditions with a 50LB impact load on the sensor, which was between two pieces of metal. 1,000,000 cycles/hits were achieved. Upon completion of the tests, the sensor's output still varied with applied load.[Back to Top]What materials/conditions could damage the sensor?Tempera tures >155°F, water-submersion (as the adhesive holding the top & bottom layers together would likely separate), sharp objects, shear forces, creasing the sensor, and loads thatare around or above 10,000PSI can damage the sensor. Refer to FlexiForce Specifications for sensor performance details.[Back to Top]Can I fold the sensor?The sensor is designed to be flexible, however the sensing area should not be folded as this causes shearing. The traces should not be bent more than 90° as t he silver conductive leads could break.[Back to Top]Can I adhere the sensor to a surface?If you need to adhere the sensor to a surface, a thin, double-sided tape is recommended. It is best to apply tape to the shaft of the sensor rather than underneath the sensing area. An adhesive (glue) can be used if it will dry evenly.[Back to Top]How can I measure forces greater than 100 lbs?In order to measure forces above 100 lbs. (up to 1000 lbs.), apply a lower drive voltage and reduce the resistance of the feedback resistor (1kV min.) The force ranges of the sensors are based on our electronics. Please refer to .[Back to Top]What drive voltages can I apply to the sensor?0.1V (as long as signal-to-noise (S/N) ratio remains acceptable) to 18V is the typical range. The sensors output is also a function of the drive voltage/current therefore a constant voltage is recommended (see resistive element question below).[Back to Top]Why do I need an excitation circuit to read force with FlexiForce A201 sensors?You should use an excitation circuit to provide a constant drive voltage/current and provide an output voltage that is proportional to the applied force.[Back to Top]Does the resistive element react similar to a semiconductor (diode, etc.) that varies conductance with applied voltage?Yes.[Back to Top]What is the resistance range of the sensor?The resistance range of the sensor is typically from >5M at no load to approximately 5k at full load. This can vary depending on the electronics being used to drive and read the sensor.[Back to Top]How do I connect the sensor after it has been trimmed?If Images trims the A201 sensors to two inches, four inches, or six inches, the sensor will come with three (3) male square pin connectors spaced at 0.1" (2.54mm). If you trim the sensor yourself, you will need to re-connect the sensor using one of two methods. You can purchase staked pin connectors and a crimping tool, or you can use a conductive epoxy to adhere small wires to each conductor.[Back to Top]Why do you need to condition the FlexiForce sensor?You should always condition the sensor prior to testing because the sensor's output changes the first few times it is loaded. By loading the sensor before your calibration, you will ensure that the sensor is producing repeatable results for your calibration and testing. It will also produce a repeatable drift curve. You can condition the sensor by loading it at 110% of your maximum load for a few cycles.[Back to Top]How much error is induced if the sensor is not conditioned?The error could be greater than the standard ± 5% error if not conditioned prior to testing. You should always condition the sensor prior to use.[Back to Top]What is the maximum period of not using the sensor before you have to recondition it?You should recondition the sensor if you haven't used it in several weeks. Please note that the more you recondition it, the better it should perform.[Back to Top]Why do I need to calibrate the sensor?Calibration is a very important step. There is a slight variance between sensors, which calibration corrects. When performed in an environment similar to that of the test environment, calibration helps improve repeatability and neutralize drift.[Back to Top]How long must the sensor be unloaded before you load it again?There is no exact or estimated time.[Back to Top]Is "110% of the maximum load" what the sensor can handle?Typically, the answer is "no." The mechanical properties of the different force range sensors are very similar. The polymer materials of which these sensors are composed will start to deform plastically around 8,000 PSI.[Back to Top]What is a puck/shim and do I need to use it?A puck, or shim, is an object placed between the sensing area and load (like cheese between two pieces of bread) to ensure that the sensor captures 100% of the applied load if the contacting surface is larger than the sensor diameter and to reduce high pressure for point load applications. The applied pressure should be between 1 and 10,000 PSI. If the applied force is small, e.g. 30 grams, a puck should be used to reduce the area to achieve at least 1 PSI. For applied loads that are high but have a very small area, a puck should be used to reduce PSI to below 10,000. For best results, the loaded area or puck should be between 70% (a diameter of 0.263", or area of 0.077in2 ) and 100% of the sensing area but can be reduced to achieve results as described above. Plastic pucks are recommended, as they are pliable but not too soft.[Back to Top]What material is best to use?Plastic is recommended, but you can use metal and rubber as well. The material used should not induce a large shear force on the sensor when a normal load is applied.[Back to Top]How rough can the load surface be?Use your best judgment, keeping in mind that a sharp point on the surface would likely puncture the sensor.[Back to Top]What surface is best to use underneath the sensor?A flat, smooth surface is ideal.[Back to Top]Why do I need to calibrate the sensor?With the ELF TM system, calibrating the sensor will allow you to choose force units and adjust the sensitivity based on a known load to achieve the best resolution. If you increase the sensitivity of the sensor, the maximum force range essentially shortens, giving you greater resolution.[Back to Top]What is the resolution of the ELF system?ELF electronics includes an 8-Bit (256 levels) A/D converter. In order to estimate sensor resolution, divide the maximum force range of the sensor by 256. (E.g. 25 lbs, which equals about 55kg, divided by 256 = 0.47lbs = .215kg = 215g).[Back to Top]What is the maximum speed of the ELF System?The maximum speed is 200 Hz with the standard ELF System, and 5760 Hz with the Hi-Speed ELF. The capture speed in each system is adjustable.[Back to Top]Can I use more than one sensor at a time?Yes, with the Multi-Handle ELF(MELF) software and appropriate number of handles, you can use up to 16 sensors at a time.[Back to Top]Are the FlexiForce sensors waterproof?No, the sensors are not designed for use under water, as the adhesive holding the top and bottom layer of the sensor together would likely separate.[Back to Top]Does humidity have any effect on the sensor?The sensors have been tested in high humidity, and their responses have been within normal limits.[Back to Top]Can the sensors pick up electrical noise?Yes, to a small degree.[Back to Top]What are the influences of magnetic fields or radiation?Consumers who have used the sensors around magneticfields have reported little or no effect. The sensors' response to radiation is unknown.[Back to Top]What is the smallest active sensing area you can make?The smallest and largest are determined on a case-by-case basis, depending on the maximum force being applied. It may be possible to achieve 2mm2 as long as the PSI remains between 1 and 10,000 PSI.[Back to Top]What is the maximum force range that you can make?The custom FlexiForce sensors can be made to measure force ranges up to a few thousand pounds as long as pressure remains below 10,000 PSI.[Back to Top]What is the usual turn-around time for custom designs?From receipt of purchase order to completion of prototype, 6 - 12 weeks, depending on queue status at the time of order.[Back to Top]What are the minimum and maximum quantities you can do annually?Due to the cost involved, we typically do not design custom sensors for quantities less than 1,000. The maximum quantities that can be produced depend on several factors. 1,000,000 custom sensors per year should not pose a problem.[Back to Top]Can you make custom sensors that work with the ELFSystem?Yes, we can customize sensors for use with the ELF System.[Back to Top]What is the average cost of a custom design?Each request is different, depending on size, complexity of design, force ranges, quantities, etc. Please contact us to discuss your requirements and specifications.[Back to Top]How can you find us?Looking to learn more about FlexiForce?Call us at (718) 966-3694or Fax us at (718) 966-3695。

FlexiForce® Sensors User ManualFlexiForce® SensorsUser Manual************************:Table of ContentsWELCOME (6)ISO (6)I NTRODUCTION (7)G ETTING A SSISTANCE (7)OVERVIEW (8)F LEXI F ORCE S ENSORS (8)Standard FlexiForce Sensors (8)High-Temperature FlexiForce Sensors (9)A PPLICATION (9)SENSOR LOADING CONSIDERATIONS (10)S ENSOR L OADING (10)S ATURATION (10)C ONDITIONING S ENSORS (11)CALIBRATION (12)C ALIBRATION G UIDELINES (12)SENSOR PERFORMANCE CHARACTERISTICS (13)R EPEATABILITY (13)L INEARITY (13)H YSTERESIS (13)D RIFT (13)T EMPERATURE S ENSITIVITY (13)S ENSOR L IFE /D URABILITY (14)SENSOR PROPERTIES (15)S TANDARD F LEXI F ORCE S ENSOR (M ODEL A201) (15)H IGH-T EMPERATURE F LEXI F ORCE S ENSOR (M ODEL HT201) (15)WELCOMEISOTekscan is registered to the following standard(s): •ISO 9001: 2000•ISO 13485: 2003INTRODUCTIONThis manual describes how to use Tekscan's FlexiForce Sensors. These sensors are ideal for designers, researchers, or anyone who needs to measure forces without disturbing the dynamics of their tests. The FlexiForce sensors can be used to measure both static and dynamic forces (up to 1000 lbf.), and are thin enough to enable non-intrusive measurement.The FlexiForce sensors use a resistive-based technology. The application of a force to the active sensing area of the sensor results in a change in the resistance of the sensing element in inverse proportion to the force applied.GETTING ASSISTANCETekscan, Inc. will provide technical assistance for any difficulties you may experience using your FlexiForce system.Write, call or fax us with any concerns or questions. Our knowledgeable support staff will be happy to help you. Comments and suggestions are always welcome.FlexiForcea division of Tekscan, Inc.307 West First StreetSouth Boston, MA 02127-1309Phone: (617) 464-4500Fax: (617) 464-4266E-mail: **********************Copyright © 2008 by Tekscan, Incorporated. All rights reserved. No part of this publication may be reproduced, transmitted, transcribed, stored in a retrieval system, or translated into any language or computer language, in any form or by any means without the prior written permission of Tekscan, Inc., 307 West First Street, South Boston, MA 02127-1309. Tekscan, Inc. makes no representation or warranties with respect to this manual. Further, Tekscan, Inc. reserves the right to make changes in the specifications of the product described within this manual at any time without notice and without obligation to notify any person of such revision or changes.FlexiForce is a registered trademarks of Tekscan, Inc.Windows 95/98/ME/2000/XP/Vista, MS-DOS, Word, Notepad, and Excel are registered trademarks of Microsoft Corporation.OVERVIEWThis section outlines Sensor Construction and Application.FLEXIFORCE SENSORSThe FlexiForce sensor is an ultra-thin and flexible printed circuit, which can be easily integrated into most applications. With its paper-thin construction, flexibility and force measurement ability, the FlexiForce force sensor can measure force between almost any two surfaces and is durable enough to stand up to most environments. FlexiForce has better force sensing properties, linearity, hysteresis, drift, and temperature sensitivity than any other thin-film force sensors. The "active sensing area" is a 0.375” diameter circle at the end of the sensor.The sensors are constructed of two layers of substrate. This substrate is composed of polyester film (or Polyimide in the case of the High-Temperature Sensors). On each layer, a conductive material (silver) is applied, followed by a layer of pressure-sensitive ink. Adhesive is then used to laminate the two layers of substrate together to form the sensor. The silver circle on top of the pressure-sensitive ink defines the “active sensing area.” Silver extends from the sensing area to the connectors at the other end of the sensor, forming the conductive leads.FlexiForce sensors are terminated with a solderable male square pinHigh-Temperature FlexiForce SensorsThe High-Temperature HT201 sensor is available in the following force ranges* (as tested with the sample drive circuit).•Sensor HT201-L Low: 0-30lb (133N) force range•Sensor HT201-H High: 0-100lb (445N) force range* In order to measure forces outside specified ranges, use recommended circuit and adjustdrive voltage and/or reference resistanceAPPLICATIONThere are many ways to integrate the FlexiForce sensor into an application. One way is to incorporate it into a force-to-voltage circuit. A means of calibration must then be established to convert the output into the appropriate engineering units. Depending on the setup, an adjustment could then be done to increase or decrease the sensitivity of the sensor.An example circuit is shown below. In this case, it is driven by a -5 V DC excitation voltage. This circuit uses an inverting operational amplifier arrangement to produce an analog output based on the sensor resistance and a fixed reference resistance (R F). An analog-to-digital converter can be used to change this voltage to a digital output. In this circuit, the sensitivity of the sensor could be adjusted by changing the reference resistance (R F) and/or drive voltage (VT);a lower reference resistance and/or drive voltage will make the sensor less sensitive, and increase its active force range.In the circuit shown, the dynamic force range of the sensor can be adjusted by changing the reference resistor (R F) or by changing the Drive Voltage (V O). Refer tothe Saturation section for additional information.SENSOR LOADING CONSIDERATIONSThe following general sensor loading guidelines can be applied to most applications, and will help you achieve the most accurate results from your tests. It is important that you read the Sensor Performance Characteristics section for further information on how to get the most accurate results from your sensor readings.SENSOR LOADINGThe entire sensing area of the FlexiForce sensor is treated as a single contact point. For this reason, the applied load should be distributed evenly across the sensing area to ensure accurate and repeatable force readings. Readings may vary slightly if the load distribution changes over the sensing area.Note that the sensing area is the silver circle on the top of the sensor only.It is also important that the sensor be loaded consistently, or in the same way each time.If the footprint of the applied load is smaller than the sensing area, the load should not be placed near the edges of the sensing area, to ensure an even load distribution.It is also important to ensure that the sensing area is the entire load path, and that the load is not supported by the area outside of the sensing area.If the footprint of the applied load is larger than the sensing area, it may be necessary to use a "puck." A puck is a piece of rigid material (smaller than the sensing area) that is placed on the sensing area to ensure that the entire load path goes through this area. The puck must not touch any of the edges of the sensing area, or these edges may support some of the load and give an erroneous reading.The FlexiForce sensor reads forces that are perpendicular to the sensor plane. Applications that impart "shear"forces could reduce the life of the sensor. If the application will place a "shear" force on the sensor, it should be protected by covering it with a more resilient material.If it is necessary to mount the sensor to a surface, it is recommended that you use tape, when possible. Adhesives may also be used, but make sure that the adhesive will not degrade the substrate (polyester) material of the sensor before using it in an application. Adhesives should not be applied to the sensing area; however, if it is necessary, ensure that the adhesive is spread evenly. Otherwise, any high spots may appear as load on the sensor.SATURATIONThe Saturation force is the point at which the device output no longer varies with applied force. The saturation force of each sensor is based on the maximum recommended force specified by Tekscan, which is printed on the system packaging or the actual sensor, along with the "Sensitivity."The saturation value is based on using the circuit and the values shown in the example circuit in the ‘Application’ section. In this example, the saturation force (maximum force) of each sensor is related to the RF (reference resistance), and can be altered by changing the sensitivity. The sensitivity of the sensor would be adjusted by changing the reference resistance (RF); a lower reference resistance will make the system less sensitive, and increase its active force range.It is essential that the sensor(s) do not become saturated during testing.CONDITIONING SENSORSExercising, or Conditioning a sensor before calibration and testing is essential in achieving accurate results. It helps to lessen the effects of drift and hysteresis. Conditioning is required for new sensors, and for sensors that have not been used for a length of time.To condition a sensor, place 110% of the test weight on the sensor, allow the sensor to stabilize, and then remove the weight. Repeat this process four or five times. The interface between the sensor and the test subject material should be the same during conditioning as during calibration and actual testing.IMPORTANT! Sensors must be properly conditioned prior to calibration and use.CALIBRATIONCalibration is the method by which the sensor’s electrical output is related to an actual engineering unit, such as pounds or Newtons. To calibrate, apply a known force to the sensor, and equate the sensor resistance output to this force. Repeat this step with a number of known forces that approximate the load range to be used in testing. Plot Force versus Conductance (1/R). A linear interpolation can then be done between zero load and the known calibration loads, to determine the actual force range that matches the sensor output range.Resistance Curve: Conductance Curve:CALIBRATION GUIDELINESThe following guidelines should be considered when calibrating a sensor:•Apply a calibration load that approximates the load to be applied during system use, using dead weights or a testing device (such as an MTS or Instron). If you intend to use a "puck" during testing, also use it when calibrating the sensor. See Sensor LoadingConsiderations for more information on using a puck.•Avoid loading the sensor to near saturation when calibrating. If the sensor saturates at a lower load than desired, adjust the "Sensitivity."•Distribute the applied load evenly across the sensing area to ensure accurate force readings. Readings may vary slightly if the load distribution changes over the sensingarea.•Sensors should be calibrated at the same temperature for which testing will occur. This is especially important for High-Temp Sensors, as these sensors have a wide operatingtemperature range. If multiple temperatures are used during testing, calibrate the sensors at those same multiple temperatures.Note: Read the Sensor Performance Characteristics section before performing a Calibration.SENSOR PERFORMANCE CHARACTERISTICSThere are a number of characteristics of sensors, which can affect your results. This section contains a description of each of these conditions, and recommendations on how to lessen their effects.REPEATABILITYRepeatability is the ability of the sensor to respond in the same way to a repeatedly applied force. As with most measurement devices, it is customary to exercise, or "condition" a sensor before calibrating it or using it for measurement. This is done to reduce the amount of change in the sensor response due to repeated loading and unloading. A sensor is conditioned by loading it to 110% of the test weight four or five times. Follow the full procedure in the Conditioning Sensors section.LINEARITYLinearity refers to the sensor’s response (digital output) to the applied load, over the range of the sensor. This response should ideally be linear; and any non-linearity of the sensor is the amount that its output deviates from this line. A calibration is performed to "linearize" this output as much as possible. FlexiForce standard sensors are linear within +/- 3%. FlexiForce High-Temperature sensors have a linearity that is 1.2% of full scale.HYSTERESISHysteresis is the difference in the sensor output response during loading and unloading, at the same force. For static forces, and applications in which force is only increased, and not decreased, the effects of hysteresis are minimal. If an application includes load decreases, as well as increases, there may be error introduced by hysteresis that is not accounted for by calibration. DRIFTDrift is the change in sensor output when a constant force is applied over a period of time. If the sensor is kept under a constant load, the resistance of the sensor will continually decrease, and the output will gradually increase. It is important to take drift into account when calibrating the sensor, so that its effects can be minimized. The simplest way to accomplish this is to perform the sensor calibration in a time frame similar to that which will be used in the application. TEMPERATURE SENSITIVITYIn general, your results will vary if you combine high loads on the sensor with high temperatures. To ensure accuracy, calibrate the sensor at the temperature at which it will be used in the application. If the sensor is being used at different temperatures, perform a calibration at each of these temperatures, save the calibration files, then load the appropriate calibration file when using the sensor at that temperature.SENSOR LIFE / DURABILITYSensor life depends on the application in which it is used. Sensors are reusable, unless used in applications in which they are subjected to severe conditions, such as against sharp edges, or shear forces. FlexiForce sensors have been successfully tested at over one million load cycles using a 50 lb. force.Rough handling of a sensor will also shorten its useful life. For example, a sensor that is repeatedly installed in a flanged joint will have a shorter life than a sensor installed in the same joint once and used to monitor loads over a prolonged period. After each installation, visually inspect your sensors for physical damage.It is also important to keep the sensing area of the sensor clean. Any deposits on this area will create uneven loading, and will cause saturation to occur at lower applied forces.SENSOR PROPERTIESSTANDARD FLEXIFORCE SENSOR (MODEL A201)HIGH-TEMPERATURE FLEXIFORCE SENSOR (MODEL HT201)。

Model 208C01ICP® Force SensorInstallation and Operating ManualFor assistance with the operation of this product, contact PCB Piezotronics, Inc.Toll-free: 800-828-884024-hour SensorLine: 716-684-0001Fax: 716-684-0987E-mail:************Web: The information contained in this document supersedes all similar information that may be found elsewhere in this manual.Total Customer Satisfaction – PCB Piezotronics guarantees Total Customer Satisfaction. If, at any time, for any reason, you are not completely satisfied with any PCB product, PCB will repair, replace, or exchange it at no charge. You may also choose to have your purchase price refunded in lieu of the repair, replacement, or exchange of the product. Service – Due to the sophisticated natureof the sensors and associated instrumentation provided by PCB Piezotronics, user servicing or repair is not recommended and, if attempted, may void the factory warranty. Routine maintenance, such as the cleaning of electrical connectors, housings, and mounting surfaces with solutions and techniques that will not harm the physical material of construction, is acceptable. Caution should be observed to insure that liquids are not permitted to migrate into devices that are not hermetically sealed. Such devices should only be wiped with a dampened cloth and never submerged or have liquids poured upon them.Repair – In the event that equipment becomes damaged or ceases to operate, arrangements should be made to return the equipment to PCB Piezotronics for repair. User servicing or repair is not recommended and, if attempted, may void the factory warranty.Calibration – Routine calibration of sensors and associated instrumentation is recommended as this helps build confidence in measurement accuracy and acquired data. Equipment calibration cycles are typically established by the users own quality regimen. When in doubt about a calibration cycle, a good “rule of thumb” is to recalibrate on an annual basis. It is also good practice to recalibrate after exposure to any severe temperature extreme, shock, load, or other environmental influence, or prior to any critical test.PCB Piezotronics maintains an ISO-9001 certified metrology laboratory and offers calibration services, which are accredited by A2LA to ISO/IEC 17025, with full traceablility to N.I.S.T. In addition to the normally supplied calibration, special testing is also available, such as: sensitivity at elevated or cryogenic temperatures, phase response, extended high or low frequency response, extended range, leak testing, hydrostatic pressure testing, and others. For information on standard recalibration services or special testing, contact your local PCB Piezotronics distributor, sales representative, or factory customer service representative. Returning Equipment – Following these procedures will insure that your returned materials are handled in the most expedient manner. Before returning any equipment to PCB Piezotronics, contact your local distributor, sales representative, or factory customer service representative to obtain a Return Warranty, Service, Repair, andReturn Policies and InstructionsMaterials Authorization (RMA) Number. This RMA number should be clearly marked on the outside of all package(s) and on the packing list(s) accompanying the shipment. A detailed account of the nature of the problem(s) being experienced with the equipment should also be included inside the package(s) containing any returned materials.A Purchase Order, included with the returned materials, will expedite the turn-around of serviced equipment. It is recommended to include authorizationon the Purchase Order for PCB to proceed with any repairs, as long as theydo not exceed 50% of the replacement cost of the returned item(s). PCB will provide a price quotation or replacement recommendation for any item whose repair costs would exceed 50% of replacement cost, or any item that is not economically feasible to repair. For routine calibration services, the Purchase Order should include authorization to proceed and return at current pricing, which can be obtained from a factory customer service representative.Warranty – All equipment and repair services provided by PCB Piezotronics, Inc. are covered by a limited warranty against defective material and workmanship for a period of one year from date of original purchase. Contact PCB for a complete statement of our warranty. Expendable items, such as batteries and mounting hardware, are not covered by warranty. Mechanical damage to equipment due to improper use is not covered by warranty. Electronic circuitry failure caused by the introduction of unregulated or improper excitation power or electrostatic discharge is not covered by warranty. Contact Information – International customers should direct all inquiries to their local distributor or sales office. A complete list of distributors and offices can be found at . Customers within the United States may contact their local sales representative ora factory customer service representative. A complete list of sales representatives can be found at . Toll-free telephone numbers for a factory customer service representative, in the division responsible for this product, can be found on the title page at the front of this manual. Our ship to address and general contact numbers are:PCB Piezotronics, Inc.3425 Walden Ave.Depew, NY 14043 USAToll-free: (800) 828-884024-hour SensorLine SM: (716) 684-0001 Website: E-mail:************DOCUMENT NUMBER: 21354 DOCUMENT REVISION: B ECN: 17900。

F-55Tension/Compression50 lb to 750,000 lb, 25 kgf to 10,000 kgfU Industrial WeighingU All Stainless Steel for Harsh Industrial Applications U 0.25% Interchangeability for Multiple Load Cell ApplicationsU 5 Point NIST Traceable Calibration IncludedSPECIFICATIONSExcitation: 10 Vdc (15 Vdc maximum)Output: 3 mV/V ±0.25% 5-Point Calibration:0%, 50%, 100%, 50%, 0% in compression. Units ordered with optional tension plate calibrated in tension.Linearity: 0.10% FSO Hysteresis: 0.10% FSO Repeatability: 0.05% FSO Zero Balance: ±1% FSO Operating Temperature Range: L C402/L CM402: -54 to 121°C (-65 to 250°F) LC412/LCM412: -54 to 127°C (-65 to 260°F)Compensated Temperature Range:16 to 71°C (60 to 160°F)Protection Class: IP65Thermal Effects: Zero: 0.0045% FSO/°C Span: 0.0045% FSO/°CSafe Overload: 150% of capacityUltimate Overload: 300% of capacityfor ranges ≤400,000 lb;200% of capacity for ranges >400,000 lbLC412-3K shown actual size.“panCake” sTyle, high-aCCuraCy, low-profile load CellssTandard and meTriC modelsR o d E n d A r t w o r k /P r o d u c t A r t /P r e s s u r e /P -R o d EnBridge Resistance: 350 ±10 ΩFull Scale Deflection: 0.025 to 0.075 mm (0.001 to 0.003") typical Construction: 17-4 PH stainless steel Electrical Connection: L C402/L CM402: 4.8 m (15') 4-conductor shielded PVC cable LC412/LCM412: DT02H-10-6P connector (or equivalent)POPULAR OPTIONS (Additional Cost)0 to 5 Vdc Output: (≥5000 kg) “-5V”Overload Stops: “-OL”Dual Bridge: “-DUAL”Extended Temperature Range: -45 to 93°C (-50 to 200°F) “-TC1”-45 to 163°C (-50 to 325°F) “-TC2”LC412/LCM412units with twist-lock connector.lC402/lCm402 series lC412/lCm412 seriesGN AWT BBK C&E– OUTPUT– INPUTF-57high-aCCuraCy, low-profile load CellsDPiS suitable for one direction measurement only. * Visit us online for compatible meters. ** 4-digit meter. To order dual-bridge models, add suffix “-DUAL” to the model number. Consult sales for price and availability.Note: Models >300,000 lb are calibrated at 300,000 lb. Full scale calibration above 300,000 lb within ±1% available; add suffix “-FS” to the model number and consult Sales for price and delivery.Ordering Examples: LC412-10K-DUAL, dual-bridge 10,000 lb capacity connector-style load cell.PT06F10-6S, mating connector, 2 required (sold separately), LC412-TP325, optional tension plate.LC412-20K-5V, 20,000 lb capacity connector-style load cell with optional 0 to 5 Vdc output, PT06F10-6S, mating connector (sold separately), LC412-TP350, optional tension plate.To order dual-bridge models, add suffix “-DUAL” to model number. Consult sales for price and availability.Ordering Examples: LCM412-10K-DUAL, dual-bridge 10,000 kgf capacity connector-style load cell.PT06F10-6S, mating connector, 2 required (sold separately). LCM412-TP350, optional tension plate, LCM402-100, 100 kgf capacity cable-style load cell, LCM412-TP225, optional tension plate.。

压电型加速度传感器技术手册目录本书中使用的符号和意义 (2)1概要 (3)2压电型加速度传感器（2-1）特点 (4)（2-2）压电效应 (4)（2-3）原理 (6)3灵敏度（3-1）电荷灵敏度 (9)（3-2）电压灵敏度 (10)（3-3）灵敏度的表示方法 (10)（3-4）信号干扰 (11)4频率特性（4-1）固有共振频率 (13)（4-2）电荷增幅中的低频截止频率 (14)（4-3）电压增幅中的低频截止频率 (15)（4-4）接触共振频率和高频特性 (15)（4-5）灵敏度和共振频率 (18)5相位特性 (20)6动态范围和直线性 (22)7过度响应（7-1）零点漂移 (23)（7-2）振铃 (25)8环境条件（8-1）使用温度范围 (27)（8-2）温度特性 (27)（8-3）瞬时温度产生的噪音 (28)（8-4）湿度的影响 (29)（8-5）声压灵敏度 (29)（8-6）电磁场的影响 (29)9灵敏度标定（9-1）绝对标定 (31)（9-2）比较法 (31)10加速度传感器的正确使用方法（10-1）加速度传感器的构造和用途 (33)（10-2）安装方法 (34)（10-3）低噪声电缆 (36)（10-4）低频低速振动测量 (36)（10-5）冲击及过度振动测量 (37)（10-6）振动物体重量轻的情况 (38)（10-7）接地回路 (38)本书中使用的符号及意义（按字母顺序）1. 概 要测量振动有两种方法，方法一在空间里设置一个静止参照系，测量距这个参照系的位移量；方法二直接将加速度传感器安装在振动体上并算出加速度。

除去因振动体质量过轻，会受到加速度传感器本身质量影响的情况，一般来说多采用后者即加速度法。

在静止参照系无法测量位移的情况下，比如运行的车辆、飞机等，利用加速度方法可以直接进行测量，在实用性上比较有优势。

振动测量用传感器可大致分为接触型和非接触型，如表1.1.1所示。

加速度速度 动电型（数Hz~1KHz ） 振动传感器 位移 应变型（DC~数100Hz ）非接触型位移 表1.1.1 振动传感器的分类在这些分类当中，压电型加速度传感器具有带域宽、灵敏度高、小型轻量、动态范围广等优势，是最为常用的测量振动的传感器。