风速传感器说明书

MODEL010CWIND SPEED SENSOROPERATION MANUALMet One Instruments, IncCorporate Sales & Service: 1600 NW Washington Blvd. Grants Pass, OR 97526 Tel (541) 471-7111 Fax (541) 471-7116******************1.0 GENERAL INFORMATION1.1 The 010C Wind Speed Sensor uses a durable, three-cup anemometer assembly andsolid-optical link with a 40-slot chopper disk to produce a pulsed output whosefrequency is proportional to wind speed. An internal heater reduces moisture forextended bearing life. This sensor is usually used in conjunction with the 191 Cross arm Assembly. The sensor may be used with a translator module, or used directlywith a variety of data loggers.1.2 The Sensor Cable has a quick-connect connector with vinyl jacketed, shielded cable.Cable length is given in -XX feet on each cable part number. A 1953-XX cable isused with translators having terminal strip connections.Table 1-1Model 010C Wind Speed Sensor SpecificationsPerformance CharacteristicsMaximum Operating Range 0-60 meters/sec or 0-125 mphStarting Speed 0.27 meters/sec or 0.6 mphCalibrated Range 0-50 meters/sec or 0-100 mphAccuracy ±1% or 0.15 mphTemperature Range -50︒C to +85︒CResponse Distance constant less than 5 ft of flow**The distance traveled by the air after a sharp-edged gust has occurred for theanemometer rate to reach 63% of the new speed. Distant constant less than 15ft of flow with optional 010C-1 aluminum cupset.Electrical CharacteristicsPower Requirements 12 VDC at 10 mAOutput Signal 11-volt pulseOutput Impedance 100 ohms maximumHeater Power Requirement 12 VDC at 350 mAStandard Cable Length 300’ maximum (consult factory if longercable is to be used for special requirements) Physical CharacteristicsWeight 1.1 poundsFinish Anodized aluminumMounting Use with 191 CrossarmCabling 1953-XX Cable (XX is cable length in feet)Optional AccessoriesA. External heater and power supply for extreme low temperature operation.B. Ice Skirt for extreme icing environments.C. Aluminum cup assembly.2.0 INSTALLATION2.1 The 010C Wind Speed InstallationA. Mount the cup assembly and secure with the Allen head set screw, check to seethat the cup assembly rotates freely.B. Install the sensor in the end of the Model 191 Crossarm Assembly (the endwithout the bushing).C. Tighten the locking set screw. Do not over-tighten. Apply a small amount ofsilicone grease to set screws to prevent freezing in adverse environments.D. Connect the cable assembly to the keyed sensor receptacle and tape it to themounting arm.2.2 WiringA. The cable assembly contains five wires. Typical wiring hookup is shown inFigure 2-1.No Connection White/Brown ShieldElectrical ConnectorView looking at connector pins. (Pins are also identified on connector).2.3 Lightning ProtectionA. Weather sensors are sensitive to direct or nearby lightning strikes. A well-grounded metal rod or frame should be placed above the sensor installation. Inaddition, the shield on the signal cable leading to the translator must beconnected to a good earth ground at the translator end and the cable routeshould not be vulnerable to lightning.3.0 OPERATIONAL CHECK-OUT AND CALIBRATION3.1 010C Wind Speed Sensor Check-OutA. Spinning the anemometer cup assembly will produce a series of pulses (40pulses per revolution). To verify sensor output, monitor this signal with either thetranslator module, data logger, or an oscilloscope. (Refer to Frequency vs. WindSpeed Table 3-1). Spinning the hub of the wind speed transmitter without thecup assembly mounted and allowing it to coast to a stop will give a goodindication of threshold performance; a jerky or sudden stop indicates damage tobearings, bent drive shaft, or obstruction in the light chopper.B. Inspect the cup assembly for loose cup arms or other damage. The cupassembly cannot change calibration unless a mechanical part has come loose orhas been broken. If a cup arm is loose or broken the calibration of the sensormay be affected.C. If the sensor heater is used, check internal heater operation by sliding sensorcover down and touching the housing behind the printed circuit board. Thehousing should feel warmer than the adjoining metal parts. The sensor has abuilt-in heater that is designed to provide a raise in the internal temperature,providing a small amount of positive pressure. This heater requires as external12 V (@500ma) power supply.FREQUENCY vs WIND SPEED FOR 010 SENSORTABLE 3-1Transfer FunctionsMiles per hour: Meters per second:rpm = 16.767 * (V mph - 0.6) rpm = 37.522 * (V m/s - 0.27) V mph = (rpm / 16.767) + 0.6 V m/s = (rpm / 37.522) + 0.27 f Hz = (V mph - 0.6) / .08946 f Hz = (V m/s - 0.27) / 0.039976 V mph = V m/s * 0.44704 V m/s = V mph / 0.447044.0 MAINTENANCE AND TROUBLESHOOTING4.1 General Maintenance Schedule*6 – 12 Month Intervals:A. Inspect sensor for proper operation per Section 4.2.B. Replace wind speed sensor bearings in extremely adverse environments perSection 4.5.12 – 24 Month Intervals:A. Recommended complete factory overhaul of sensor.*Schedule is based on average to adverse environments.Table 4-1010C Wind Speed Sensor TroubleshootingSymptom Probable Cause Solution Refer toNo wind speed output Loss of supplyvoltage Check translator +12supply & connectingcablesFigure 2-1Faulty integratedamplifierReplace circuit board Section 4.5Faulty diodes,D1, D2Replace circuit board Section 4.5Faulty detector Replace detector Section 4.6No wind speed outputbelow 2-5 mphBad bearing(s) Replace bearing(s) Section 4.4Faulty detector Replace detector Section 4.6Wind speed signal drops ouas speed increasesFaulty detector Replace detector Section 4.64.2 010C Wind Speed Sensor: 6 – 12 Month Periodic ServiceA. At the crossarm assembly, disconnect the quick disconnect plug from the sensor(leave the cable secured to the crossarm) and remove the sensor from thecrossarm assembly.B. Loosen the set screw holding the cup assembly. Support the rotating hub of thesensor with one hand and pull the anemometer cup assembly free.C. Visually inspect the anemometer cups for cracks and breaks. Also, make surethat each arm is securely attached to the cup assembly hub.D. Slide the sensor cover down to expose the light-chopper disc assembly, lightsource, detector, and circuit board.E. Inspect the interior of the sensor for any signs of corrosion and/or dust buildup.F. Inspect the light-chopper for cracks, and make sure that all slots are free ofcorrosion.G. Inspect the signal-conditioning module for cracks and corrosion around solderedconnections.H. Rotate the sensor hub assembly to ensure that it turns freely and that the sensorbearings are not damaged. Make sure the light-chopper assembly is notcontacting the light source and detector.I. Apply a small amount of silicone lubricant. (Dow-Corning DC-33 or equivalent) tothe sensor O-ring seals; slide the cover up over the sensor and wipe off anyexcess lubricant.J. A moisture vent is located on the base of the sensor; make sure that this vent is clear.K. Re-install sensor according to installation procedure (Section 2.0); verify proper operation using procedures in Section 3.0.4.3 010C Wind Speed Sensor Maintenance (Refer to 010C Sensor Assembly Drawing)The following procedures require a relatively clean, dry work area, a source of 12VDC power at approximately 20 mA, and an oscilloscope (DC to 10 KHz minimumrange required.4.4 Sensor Bearing Replacement. (Refer to 010C Sensor Assembly Drawing)A. Remove sensor from tower and remove cup assembly (1). Refer to Section 4.2.B. Disassemble sensor and remove old bearings (6).1. Slide the sensor cover (16) down to expose the light-chopper discassembly (10), detector assembly (12) and circuit board (18).2. Loosen both special set screws on the shaft of the light chopper assembly(11).3. Support the light-chopper assembly (10) with one hand and slowly pullthe rotating hub/shaft assembly (2) out of the column (8).4. Remove the shield (4) and slinger (5) from the column (8).5. Remove the light-chopper assembly (10) from the sensor housing, beingcareful not to damage the slots located between the light-chopper holderand the lower bearing.6. Insert the lower end of the rotating hub/shaft assembly into the upperbearing, cock it slightly to one side and push out the lower bearing.7. Insert a right-angle type of tool, such as an Allen wrench, into the upperbearing; cock it slightly to one side and remove the bearing.8. Clean dirt from bearing bores, using a cotton swab and alcohol.C. Install the new bearings and assemble the sensor.1. Install new upper and lower bearings in the column (8). Bearings shouldslide easily into bearing bores.2. Install a slinger and shield (4, 5) on the column assembly. Use new partsif old ones are damaged or corroded.3. Insert the rotating hub shaft (2) into the column assembly (8), through theshield (4), slinger, and upper bearing, until it starts to protrude through thelower bearing.4. Support the light-chopper assembly (10) with one hand and slowly pushthe rotating hub shaft into it until the shaft almost touches the bottom.5. Tighten both special set screws on the light-chopper assembly; do notover tighten as the set screw tips will damage the shaft.6. Rotate the sensor hub assembly (2) to ensure that it turns freely and thatan endplay of about .005” exis ts.7. Hold sensor vertically and make sure that the light-chopper assembly (10)is not contacting the detector assembly (12).8. Apply small amount of silicone lubricant (Dow-Corning DC-33 orequivalent) to the sensor O-rings (9); slide the cover (16) up over thesensor and wipe off any excess lubricant.D. Replace cup assembly and re-install (refer to Section 2.0)4.5 1200-1 Circuit Board Assembly Replacement (Refer to 010C Assembly Schematic)A. Remove sensor from tower and remove cup assembly (refer to Section 4.2).B. Slide the sensor cover (16) down to expose the light-chopper disc assembly (10),detector assembly (12), and circuit board (18).C. Remove two screws (17) holding circuit board assembly (18) and lift circuit boardaway from sensor housing.D. Note color of wires and then unsolder wires to detector assembly from circuitboard and three wires from connector (19).E. Install new circuit board assembly by reversing above procedure.4.6 Detector Assembly Replacement Refer to 010C Assembly Schematic)NOTE: 010C sensors SN M10560 and later use 520253 photodetector. Oldersensors use 1074 photodetector assemblies.A. Remove sensor from tower and remove cup assembly. Refer to Section 4.2.B. Slide the sensor cover (16) down to expose the light-chopper disc assembly (10),detector assembly (12) and circuit board (18).C. Remove two screws (17) holding circuit board assembly (18) and lift circuit boardaway from sensor housing.D. Note color of wires and then unsolder wires to detector assembly from circuitboard (18).E. Remove two screws (20) holding detector assembly (12) and remove assembly.F. Install new detector assembly by reversing above procedures.4.7 010C Wind Speed Sensor Repair and Recalibration ServiceThe factory provides fast, economical service for the user. This repair andcalibration service includes disassembly and detailed inspection of all movingmechanical parts and electronic components.Service includes replacement of bearings, regardless of apparent condition, andfunctional test of sensor. Replacement of the following items is also included: O-rings, shield and slinger, shaft, set screws. Other components will be replaced as required. Only charges for additional materials will be added to the basic service charge.Table 4-2Replacement 010C Parts ListRef No.U Description Part No.1 Cup Assembly Lexan - 2672Aluminum – 2672-1 2 Hub/Shaft Assy. 26584 Shield 10095 Slinger 10106 Bearing 10559 O-ring 72012010 Chopper Wheel Assembly 220211 Set Screw 60125012 Photo Detector 520253*13 Heater Clamp 48010014 Heater 80508016 Sensor Cover 267517 PCBA Mounting Screws 60124018 PCBA 1200-120 Detector Assembly Mounting Screws 60127022 Standoff 86005023 Integrated Amplifier 62030024 Nut, Hex, Kep 4-40 60040025 Screw FH 82︒ 4-40 x 3/8 60133026 Screw FH 82︒ 4-40 x ¼ 601240NOTE: 010C sensors SN M10560 and later use the black 520253 photodetector. Earlier sensors use the white 1074 photodetector assemblies.。

FA121传感器测量原理示意图传感器接线图接头 图1图2图3图4附：风级、风速、风压对照表 （机构与结构设计参考）风级 名称 风速 风压陆地地面物体征象 海面状态 km/h m/s W0=V2/16(kg/m²),10N/m²0 无风 <1 0～0.2 0～0.0025 静 静1 软风 1～5 0.3～1.5 0.0056～0.014 烟能表示方向，但风标不动微波2 轻风 6～11 1.6～3.3 0.016～0.68 人面感觉有风，风向标转动小波3 微风 12～19 3.4～5.4 0.72～1.82 树叶及微枝摇动不息，旌旗展开小波4 和风 20～28 5.5～7.9 1.89～3.9 能吹起地面纸张与灰尘 轻浪5 清风 29～38 8.0～10.7 4～7.16 有叶的小树摇摆 中浪6 强风 39～49 10.8～13.8 7.29～11.9 小树枝摇动，电线呼呼响 大浪7 嫉风 50～61 13.9～17.1 12.08～18.28 全树摇动，迎风步行不便 巨浪8 大风 62～74 17.2～20.7 18.49～26.78 微枝折毁，人向前行阻力甚大狂浪9 烈风 75～88 20.8～24.4 27.04～37.21 建筑物有小损 狂涛10 狂风 89～102 24.5～28.4 37.52～50.41 可拔起树来，损坏建筑物 狂涛11 暴风 103～117 28.5～32.6 50.77～66.42 陆上少见，有则必有广泛破坏狂涛12 飓风 >117 32.7～36.9 66.42～85.1 陆上极少见,摧毁力极大 海浪涛天13 37.0～41.414 41.5～46.115 46.2～50.916 51.0～56.017 56.1～61.2。

风力发电机的风速传感器说明书感谢您购买我们的风力发电机风速传感器。

此说明书将为您提供有关传感器原理、安装及使用的详细信息。

在使用前，请仔细阅读本说明书。

若有任何疑问，请随时联系我们的技术支持部门。

一、传感器原理本传感器采用了先进的超声波技术来测量风速。

传感器内部的超声波发射器将信号发送到空气中。

超声波信号会撞击空气中的颗粒，并被反射回传感器内部的接收器。

通过测量超声波信号发送和接收之间的时间差，我们可以计算出空气中的风速。

二、安装为了确保传感器的测量结果准确，我们需要在安装传感器时注意以下事项：1.传感器应该安装在风力发电机的传动轴上方，并且距离传动轴至少50公分的位置。

这样可以避免传感器被风力发电机直接影响，从而影响测量结果。

2.传感器应该安装在离地面50公分的高度处，这样可以避免地面风向等因素对传感器的影响。

3.在安装传感器之前，请确保传感器配件齐备。

如有任何配件缺失或者损坏，请联系我们的客服部门。

三、使用本传感器具有自动校准功能，不需要手动校准。

在每次使用之前，请先进行一次预热。

预热时间约为30秒钟。

在使用时，请注意以下事项：1.传感器应该朝向风向。

如果传感器朝向错误，测量结果将会产生误差。

2.请勿将传感器安装在垂直风速较大的区域。

在一些气象条件下，会有上下行程的风，导致该区域的风速波动较大，从而影响测量结果。

3.传感器不能直接暴露在太阳下，必须加装遮阳罩，以确保测量结果的准确性。

四、维护本传感器无需特别维护。

如出现故障，请联系我们的客服部门进行维修。

五、注意事项1.请勿将传感器强行拆卸或修理。

如需进行维修，请联系我们的技术支持部门。

2.如使用过程中出现异常，请停止使用传感器并联系我们的客服部门。

3.请勿将传感器暴露在极端条件下。

如极端温度或湿度环境下使用传感器，可能会导致传感器出现故障。

希望本说明书可以为您的使用提供帮助。

如果您需要更多的技术支持或者有其他疑问，请联系我们的客服部门。

再次感谢您对我们的产品的信任和支持。

加热型风速风向一体传感器产品说明书（V1.1）湖南菲尔斯特传感器有限公司Hunan Firstrate Sensor Co.,Ltd●重要声明非常感谢您购买菲尔斯特产品，我们为您真诚服务到永远。

菲尔斯特追求卓越的品质，更注重优良的售后服务，如有需要请拔打：400-607-8500（7×24h）。

操作错误会缩短产品的寿命，降低其性能，严重时可能引起意外事故。

请您将本说明书交到最终用户手中，在产品使用前务必仔细熟读。

并请妥善保管好，以备需要时查阅。

本说明书仅供参考所用，具体产品外形以实物为准。

●产品概述本风速风向一体传感器用于测量风速及风的方向值，并转换为电信号，此信号可直传送到记录设备上进行处理。

传感器壳体采用铝合金材料，使用特种模具精密压铸工艺，尺寸公差甚小表面精度甚高，同时具用高耐候性、高强度、防腐蚀和防水性；内部电路均经过防护处理，整个传感器具有很好的耐恶劣环境的适应性。

电缆接插件为军工插头，具有良好的防腐、防侵蚀性能，能够保证仪器长期使用，同时配合内部进口轴承系统，确保了风速及风向采集的精确性。

电路模块PCB采用军工级A级材料，确保了参数的稳定和电气性能的品质；电子元件均采用进口工业级芯片，使得整体具有极可靠的抗电磁干扰能力，能保证主机在－20℃～+85℃范围内均能正常工作。

●功能特点1、体积小，携带方便、安装简捷、外观精美；2、有较强的防腐蚀性和耐候性；3、测量精度高，量程范围宽，稳定性好；4、功耗低，较强的抗干扰能力，能长期稳定工作；5、电源适应范围宽，数据信息线性度好，信号传输距离长。

●适用范围本品可测量室内外环境中东、西、南、北、东南、西南、东北，西北等十六个方向，可广泛用于工程机械（起重机、履带吊、门吊、塔吊等）领域，铁路、港口、码头、电厂、气象、索道、环境、温室、养殖、空气调节、节能监控、农业、医疗、洁净空间等领域的风速及风向测量。

●技术参数数字型RS485（Modbus RTU）电源DC10~30V量程风速：0-50m/s风向：16个方向（0-360度）精度风速：±0.5m/s(＜5m/s)；±3%FS(≥5m/s)风向：±3度分辨率22.5°最大功耗（DC24V）RS485型MAX≤300mW启动风力≥1级风加热功率60W工作温度-20~85℃防护等级IP65如有特殊规格要求请另行告知●结构尺寸注意：安装时箭头方向指北，出线请参考上图向法兰盘弯折，避免影响风向标转动。

Order Form Valid from20161020JGL Vaisala Ultrasonic Wind SensorWMT700WMT 7 01Measurement range90 m/s WMT704490 m/s + Accredited Wind Calibration (WMT704)D2Temperature range-10...+60 C A-40...+60 C B-55...+70 C C3HeatingNon-heated version1Heated transducers2Heated transducers and arms3Heated transducers, arms and body44Digital communication interfaceRS-485 isolated ARS-422 isolated BRS-232 isolated CSDI-12 isolated D5Digital communication profileWMT70 - poll mode (default)9600b, 8, N, 1 Polled0WS425 - ASCII 2400b, 8, N, 1 Polled1WS425 - NMEA Extended(v 0183)9600b, 8, N, 1 Auto send 1/s2WS425 - SDI-12 (v 1.3)1200b, 7, E, 1 Polled3WS425 - ASOS 2400b, 8, N, 1 Polled4ROSA - MES12 9600b, 8, N, 1 Polled5AWS520 - NMEA Extended(v 0183)4800b, 8, N, 1 Auto send 1/s86Digital communication unitsm/s Aknots Bmph Ckm/h D7Analog output signals for wind speed channelDisabled0Voltage output100 mV/m/s1Current output 4...20 mA(0...Range m/s)3Current output0.2 mA/m/s4Push-Pull frequency output10 Hz/m/s6WS425 - voltage output8 mV/mph7WS425 - frequency output (Push-Pull) 5 Hz/mph8Pull up frequency output (PNP)10 Hz/m/s APull down frequency output (NPN)10 Hz/m/s B8Analog output signals for wind direction channelDisabled0Voltage output20 mV/Deg ACurrent output50 uA/Deg DCurrent output 4...20 mA44.444 uA/Deg EPotentiometer output (WS425)0...Vref (Vref = external reference voltage from system)F9CableNone1Cable 2 m, cable connector, open leads on one end WMT70Cable12Cable 10 m, cable connector, open leads on one end WMT70Cable23MAWS cable 10 m WMT70Cable34AWS520 cable 10 m, shield connected to PE pin WMT70Cable45Adapter cable for WS425 serial WMT70Cable56Adapter cable for WS425 analog frequency output WMT70Cable67RS485 Cable 2 m, cable connector, open leads on one end WMT70Cable88RS485 Cable 10 m, cable connector, open leads on one end WMT70Cable99Adapter cable for WS425 analog voltage output WMT70Cable7AAWS520 cable 10 m, shield not connected to PE pin WMT70Cable10BROSA analog cable 10 m, cable connector, open leads on one end WMT70Cable11CJunction Box with Cable 2meters WMT70Cable12DCable 15 m, cable connector, open leads on one end WMT70Cable13ECable 26 m, cable connector, open leads on one end WMT70Cable14F 10Mounting adapterAdapter 228869 only Standard adapter, no fix AAdapter 228869 with WMT70FIX70 (suitable also for inverted mounting)Standard adapter with general purpose fix BAdapter 228869 with WMT700FIX60-POM Standard adapter with plastic fix for 60 mm pole CAdapter 228869 with WMT700FIX60-RST Standard adapter with stainless steel fix for 60 mm pole DAdapter 228777 only (used for old WS425 FIX30/60)WS425 compatible adapter, no fix E 11Power - Reserved for furture purposesNone1 12AccessoriesNone ABird cage WMT70BirdKit B 13ManualNone1English2Japanese3Chinese4Russian5DEIF6French7Spanish8For freezing conditions select appropriate combination of heating and temperature ranges.AccessoriesTool Verifier WMT70VerifierCable Tightener Tool237888SPBird Bird cage WMT70BirdKitBird perch WS425BirdPerchCable Cable connector WMT70ConnCable 2 m, cable connector, open leads on one end227567SPCable 10 m, cable connector, open leads on one end227568SPCable 15 m, cable connector, open leads on one end237890SPCable 26 m, cable connector, open leads on one end237889SPRS485 Cable 2 m, cable connector, open leads on one end228259SPRS485 Cable 10 m, cable connector, open leads on one end228260SPMAWS cable 10 m227565SPAWS520 cable 10 m, shield connected to PE pin229807SPAWS520 cable 10 m, shield not connected to PE pin227566SPROSA analog cable 10 m, cable connector, open leads on one end231425SPAdapter cable for WS425 serial227569SPAdapter cable for WS425 analog frequency output227570SPAdapter cable for WS425 analog voltage output227571SPJunction Box with Cable 2meters ASM210719SPWMT700 USB service cable240855Universal USB service cable with screw terminal for RS485 or RS232240884Mounting WMT700 Mounting Accessories:Adapter for FIX70228869Fix70 (suitable also for inverted mounting)WMT70FixSPMounting adapter 60mm POM WMT700FIX60-POMSPMounting adapter 60mm RST WMT700FIX60-RSTSPCross-arm (40x40x850mm)WMT70CROSSARMWS425 Mounting Accessories:Adapter for old WS425 FIX30/60228777FIX30WS425Fix30FIX60WS425Fix60Sensor support arm for 60mm pole (655mm with integrated fix for item 228777)WAC425。

The 010C Wind Speed Sensor provides accurate and detailed information on horizontal wind speed. The lightweight three-cup anemometer is used in virtually all applications where fast response and low starting threshold(s) are of paramount importance.The 020C Wind Direction Sensor provides azimuth data for use in micrometeorological measurements related to operational studies and research. The lightweight airfoil vane is directly coupled to a single precision potentiometer. These sensors are especially useful when a low starting threshold, a high damping ratio, or a short delay distance is required.Both wind speed and wind direction sensors are used inenvironments ranging from Antarctic cold to arid desert heat. The 01OC, 010C-1, and 020C instruments meet U.S. EPA and NRC performance specifications for critical regulatory, research or scientific measurement applications.ReliabilityThe 010C and 020C are made of stainless steel and anodized aluminum components and are functionally more reliable than any other sensors of their kind:• Built-in electrical field surge protection greatly reduces problems associated with static fields, near-miss lightning hits and poor grounding systems• Inclusion of Met One Instruments’ internal heater (AC use only) provides positive clean aspiration through the bearings, thereby greatly increasing sensor bearing life• Optional, external de-icing heater sleeve for applicationswhere freezing rain, ice and low wind speeds may be encounteredFeatures• Low starting threshold• Internal heater for long bearing life• Low profile to minimize “sensor turbulence”• High damping ratio • Short delay distance• Quick-disconnect connector• Field-replaceable electronic components • Ingress Protection Level 65 (IP65)010C Wind Speed Sensor020C Wind Direction SensorCable Assembly; specify length in feet or meters PN 191 Crossarm AssemblyCable Assembly; specify length in feet or meters PN 191 Crossarm Assembly15 ft. (4.6 m) aluminum cup assembly (meets EPA specifications) 0.25 (aluminum tail)Cable & MountingPN 1953Mounting:Cable & MountingPN 1957Mounting:Alternate Wind Sensors010C-1Distance Constant: 020C-1Damping Ratio:Specifications are subject to change at any time.020C Wind Directon Sensor Specifications0-135mph (0-60m/s)0.5 mph (0.22 m/s) 0 -l/0 mph (0 -50 m/s)±1% or 0.15 mph (0.07 m/s) Resolution <0.1 mph or m/s-50°C to +65°C (-58°F to +149°F)less than 5 It (1.5m) of flow (meets EPA specifications)Electrical 0° -357° Mechanical 0° -360° 0.5 mph (0.22 m/s) ±1/2% of full scale ±3°Resolution <0.1 °Standard 0.6 (magnesium tail) (meets EPA specifications) Less than 3 It (91 cm)-50°C to +65°C (-58°F to +149°F1.5 Ibs (.68 kg)Clear anodized aluminum; Lexan cup assembly1.5 Ibs (.68 kg)Clear anodized aluminum12 VDC at 10 mA, 12 VDC at 350 mA for internal heater 11 volt (pulse frequency equivalent to speed) 100 Ω maximum12 VDC at 10 mA, 12 VDC at 350 mA for internal heater a. 0 -5 V for 0° -360° b. 0 -2.5 V for 0° -360° 100 Ω maximum Performance CharacteristicsMaximum Operating Range: Starting Speed: Calibrated Range: Accuracy:Temperature Range: Distance Constant:Performance CharacteristicsAzimuth:Threshold: Linearity: Accuracy:Damping Ratio: Delay Distance: Temperature Range:Physical CharacteristicsWeight: Finish:Physical CharacteristicsWeight: Finish:Electrical CharacteristicsPower Requirements: Output Signal:Output Impedance:Electrical CharacteristicsPower ReqUirements: Output Signal: Output Impedance:010C Wind Speed Sensor REV JULY 20181600 Washington Blvd. • Grants Pass, Oregon 97526 • 541.471.7111 • Technical Drawings020C Wind Direction Sensor191-1 Mounting Arm & 010C-020C010C Wind Speed SensorREV MAR. 20181.05 (27 mm) DSHOWN WITH 5315 ICE SKIRT (Optional)MS CONNECTOR1553 MOUNTING ADAPTER 1686 ALIGNMENT ADAPTER1552 MOUNTING ADAPTERDIAMETER TO FIT3/4” IPS PIPE1552 MOUNTINGADAPTER3/4” IPS PIPE 1” DIAMETER191-1 CROSS ARM ASSEMBLYCABLE 19571.05 (27 mm)SHOWN WITH 5315 ICE SKIRT (Optional)CABLE 1953DIAMETER8.00” (203 mm)60.00” (1524 mm)16.92” (430 m m )16.92” (430 m m )C LC L。

HL-SDS/HL-SDS-X 系列风速传感器说明书
HL-SDS 系列，外壳为耐高温防腐蚀材质，变送器基于热耗散或毕托管原理，所需空气量极少，即使在恶劣环境中，性能同样稳定可靠;相比于其他传统风速传感器可获得更好的稳定性，能保证更快速的精确微小风量测量和精度，宽量程比，通过内部微控制器将检测数据进行全量程精确标定，线性补偿和温度补偿均为数字化实现，因此精度和分辨率高;无零点漂移，长期稳定性极好，使其性价比更高。

此外，此系列变送器可耐瞬时的高风速和高风压。

主要应用场合;暖通空调（HVAC ）、过滤器压降监控、化工、航空、电子、能源管理系统、VAV 及风扇控制、环境污染控制静态管路和洁净室压力、医药环境、烟雾罩控制、烘箱增压及炉通风控制等领域。

产品型号
注：HL-SDS 同时支持4~20Ma /0~10V 无需跳线。

产品技术规格
接线方式及跳线选择
量程跳线选择
安装
产品尺寸（mm）及安装方向
安装技巧
风速传感器理想的安装环境是在平直的管道内，当必须安装在有弯曲的管道内时，应遵守以下原则选择安装点∶
测量处位于进风弯管直径的6倍距离;即A=6XD
测量处位于出风弯管直径的3倍距离;即B=3XD
因管道不同及紊流效应等因素，根据传感器不同，安装风速传感器时应作多次位置调试，建议选取单点风速传感器测量点的位置应在管道直径的或处、并观察测量结果跳动不要太大，避免测量管道壁或管道中心。

注意事项
搬运与安装变送器时应小心谨慎，避免元器件受冲击而损坏，影响电路的性能。

切勿人为用异物触碰。

电气连接请严格遵照接线方法，接线错误会造成放大电路的损坏。

GFW15矿用风速传感器执行标准：Q/SDBA003-2012GB3836-2010使用说明书山东三大博安测控技术有限公司20201212年7月目录一、概述 (1)二、主要技术参数 (2)三、传感器工作原理简介 (3)四、安装方法 (4)五、使用操作 (5)六、维护和修理 (8)七、运输与贮存 (8)八、故障分析与排除 (9)九、随机配件 (10)一、概述GFW15矿用风速传感器是依据MT448-2008《矿用风速传感器》和GB3836.4-2010《爆炸性环境第4部分：由本质安全型“i”保护的设备》的标准制造，符合Q/SDBA003-2012产品标准，防爆标志为ExibI（矿用本质安全型）。

本产品主要用于煤矿井下各种坑道、风口、扇风机井口等处风速的检测，以确保煤矿的安全生产。

传感器为本质安全型，是一种智能型检测仪表，环境适应性强，安装调试方便，经国家防爆检验机关进行联机检验后，可与国内各类煤矿监测监控系统配套使用。

1、使用环境条件a）工作环境温度：0～40℃b）相对湿度：≤98%c）大气压力：80～110Kpad)机械环境：无显著振动和冲击的场合；e)煤矿井下有甲烷及煤尘爆炸性混合物，且无破坏绝缘的腐蚀性气体的场合。

2、型号命名G F W15测量范围超声波漩涡式风速传感器3、电缆参数电缆型号：MHYV1×4×7／0.52参数：电阻≤12.8Ω/km，电容≤0.06μF/km，电感≤0.8mH/km4、防爆形式及标志本产品防爆型式为矿用本质安全型，防爆标志为ExibI。

5、外形尺寸及重量外形尺寸（长×宽×高）：307mm×131mm×82mm(如图1所示)；质量：1.1kg±0.1kg图1：传感器外形尺寸二、主要技术参数1、工作电压：21.5V，波动范围12V～24V(DC)2、工作电流：≤50mA3、测量范围：风速0.4～15m/s4、允许误差：≤±0.3m/s5、重复性误差：显示数值X±1%6、输出方式：频率信号输出，200Hz～1000Hz7、传输距离：传感器使用电缆标称截面积为1.5mm 2时，传感器与关联设备的传输距离2km8、遥控器：普通1.5V 五号干电池2节遥控范围3m9、防爆形式：ExibI （矿用本质安全型）10、本安参数：Ui ：21.5V I i ：50mA Ci ：0μF Li ：0mH11、防护等级：IP54三、传感器工作原理简介根据卡曼涡街理论，在无限界流场中,垂直于流向插入一根非流线形阻力体(即旋涡发生体)。

GFY15型煤矿用风速传感器使用说明书上海高致精密仪器有限公司1 概述 (1)2 工作原理与结构 (2)3 技术特征 (3)4 外形尺寸、重量 (3)5 使用方法 (3)6 故障分析及排除 (3)7 注意事项 (6)8 成套性 (6)9 贮存、运输 (6)10 开箱及检查 (7)11 售后服务 (7)附录A (8)警告：1．严禁改变本安电路和与本安电路有关的元器件的型号、规格和参数！2．关联设备未经联检不得接入本传感器！GFY15型煤矿用风速传感器使用说明书一概述1、产品特点GFY15型煤矿用风速传感器（以下简称传感器）采用嵌入式微控制器技术，在测量原理上使用的是利用微压差变化来测量风速，内部线性化和温度补偿均采用数字化实现。

彻底解决了风管内气流紊流问题，在低风速下仍然能保证高精确测量，抗污染能能力强，维护成本低。

该仪器具有结构简单、测量准确、性能稳定、可靠性高等特点。

通过本公司所生产的FYF5(A)矿用遥控器可方便设置工作点，同时输出200～1000HZ的频率信号和RS-485数字信号，可方便与各种类型的煤矿安全监测系统配套使用。

2、主要用途及适用范围主要用于连续监测矿井通风总回风巷、井下主要测风站、扇风机等处的风速，是矿井通风安全参数测量的重要仪表。

3、型号的组成及其代表意义最大测量范围15m/s差压原理风速传感器4、环境条件1）使用环境条件a) 工作温度－5℃～40℃；b) 相对湿度≤98%；c) 气压（80～116）kPa；d) 机械环境：无显著振动和冲击的场所；e) 可含有瓦斯、煤尘等的场所；f)防爆标志：矿用本质安全型，防爆标志ExibI2）贮存温度 －40℃～＋60℃。

3）关联设备及检测元件见附录A 。

二 工作原理与结构1、 结构传感器结构见图1。

1.电源/9. 航空插座10.传感器连接线 11.微差压传感器图12、工作原理仪器由电源电路、风速检测元件、单片机信号处理单元、显示电路、报警电路、红外遥控电路、频率信号输出电路、RS-485通讯电路等构成，工作原理框图见图2。

风速传感器产品说明书目录简介 (2)技术参数 (2)功能特点 (2)传感器构成及特点 (2)结构尺寸图 (2)固定方式 (3)信号输出定义 (3)线色定义 (3)RS485通讯协议 (3)寄存器说明与命令格式 (5)风力等级划分表.............................................................................................................. 错误!未定义书签。

风速与输出信号对应表. (6)维护和保养 (7)用户反馈意见表 (7)附录一、风速传感器RS485通讯设置及实例 (7)联系方式............................................................................................................................ 错误!未定义书签。

一、产品简介该传感器是三杯式风速传感器，可用于工程机械（起重机、履带吊、门吊、塔吊等）领域，铁路、港口、码头、电厂、气象、索道、环境、温室、养殖、空气调节、节能监控、农业、医疗、洁净空间等领域风速的测量，并输出相应的信号。

二、技术参数RS485通讯型脉冲型电压型: 0-5VDC电流型: 4-20mA电源：DC12~24 V量程：0-30m/s风速分辨精度：0.1 m/s最大功耗（DC24V）: 脉冲型MAX≤0.2W；电压型MAX≤0.3W；电流型MAX≤0.7W；启动风力：0.4~0.8m/s 重量:≤0.5Kg三、功能特点◆体积小，携带方便、安装简捷、外观精美；◆有较强的防腐蚀性和耐候性；◆测量精度高，量程范围宽，稳定性好；◆功耗低，较强的抗干扰能力，能长期稳定工作；◆电源适应范围宽，数据信息线性度好，信号传输距离长；四、传感器构成及特点风速传感器由壳体、风杯和电路模块组成。

风速传感器（型号：F6100）使用说明书版本号：1.0实施日期：2017.09.20郑州炜盛电子科技有限公司Zhengzhou Winsen Electronic Technology Co.,Ltd声明本说明书版权属郑州炜盛电子科技有限公司（以下称本公司）所有，未经书面许可，本说明书任何部分不得复制、翻译、存储于数据库或检索系统内，也不可以电子、翻拍、录音等任何手段进行传播。

感谢您使用本公司的系列产品。

为使您更好地使用本公司产品，减少因使用不当造成的产品故障，使用前请务必仔细阅读本说明书并按照所建议的使用方法进行使用。

如果您没有依照本说明书使用或擅自去除、拆解、更换传感器内部组件，本公司不承担由此造成的任何损失。

您所购买产品的颜色、款式及尺寸以实物为准。

本公司秉承科技进步的理念，不断致力于产品改进和技术创新。

因此，本公司保留任何产品改进而不预先通知的权力。

使用本说明书时，请确认其属于有效版本。

同时，本公司鼓励使用者根据其使用情况，探讨本产品更优化的使用方法。

请妥善保管本说明书，以便在您日后需要时能及时查阅并获得帮助。

郑州炜盛电子科技有限公司F6100系列风速传感器产品简介F6100是炜盛科技基于热线技术开发的一款风速传感器。

该传感器利用量热原理，具有体积小，重量轻，响应快等特点。

该传感器不含可动部件，惯性极小，特别对于极微小的风速具有良好的响应，适用于微风段的测量。

F6100风速传感器采用模拟电压输出方式，仅有3支引脚，小巧轻便，易于组装，有利于客户快速部署应用。

性能参数产品型号F6100量程①0.5、1、2、3、5、10m/s最小典型值最大单位满量程输出② 4.30 4.50 4.70V零流量输出②0.30.500.70V输出阻抗-200-Ω工作电压 5.0512.0V工作电流8090140mA分辨率③-±5±10‰F.S反应时间0.13S工作温度-25-65℃储存温度-40-90℃管脚功能1VCC 2GND 3OUT图1：传感器尺寸图产品特点温漂低稳定可靠超快响应高灵敏度抗电磁干扰应用场所便携仪器管路检测医疗卫生现场控制新风系统1提供0-100m/s之间任意量程，0.5、1、2、3、5、10m/s为常规量程，其他量程收定制费。

485型风速风向仪说明书Ver1.0第1章产品简介1.1产品概述超声波风速风向仪，是一款基于超声波原理研发的风速风向测量仪器，利用发送的声波脉冲，测量接收端的时间或频率差别来计算风速和风向。

整机外壳采用ABS材质，具有重量轻、没有任何移动部件、坚固耐用的特点，而且不需维护和现场校准，能同时输出风速和风向。

可以与电脑、数据采集器或其它具有RS485相符合的采集设备连用。

被广泛应用于温室、环境保护、气象站、船舶、码头、养殖等环境的风向测量。

1.2主要参数参数技术指标风速测量范围0~60m/s风速测量精度±2%风向测量范围0~360°风向测量精度±3°响应时间小于5秒波特率9600通讯端口RS485供电电源12VDC工作电流70mA运行温度-30~80℃工作湿度环境0~100%RH（15~95%RH）第1页1.3功能特点◆无启动风速限制，零风速工作，无角度限制，360°全方位，可同时获得风速、风向的数据；◆无移动部件，磨损小，使用寿命长；◆采用声波相位补偿技术，精度高，响应速度快；◆采用随机误差识别技术，大风下也可保证测量的低离散误差，使输出更平稳；◆工程塑料外壳，设计轻巧，携带轻便，安装、拆卸容易◆信号接入方便，支持485-RTU；◆不需维护和现场校准。

第2章硬件连接2.1设备安装前检查安装设备前请检查设备清单：名称数量高精度传感器1台风向485线1条12V防水电源1台（选配）第2页USB转485设备1台（选配）保修卡/合格证1份外形展示：第3页2.1.1接线方式线色说明2电红色电源正源黑色电源负通信黄色485A绿色485B出厂默认提供0.6米长线材，客户可根据需要按需延长线材或者顺次接线。

2.2安装方式第4页采用法兰安装，螺纹法兰连接使风向传感器下部管件牢牢固定在法兰盘上，底盘的圆周上开四个的安装孔，使用螺栓将其紧紧固定在支架上，使整套仪器保持在最佳水平度，保证风向数据的准确性，法兰连接使用方便，能够承受较大的压力。

WFS 系列风速传感器使用说明书[ WT-197V2.0 ]-1--4--2--3-WFS-1型风速传感器应用典型三杯式设计，由壳体、风杯、和电路模块等组成。

本产品通过风杯和进口轴承及其附件的配合，将风的流速转换成机械转速，再通过内部非接触式磁传感应换成电信号，实现对风速的电信号检测。

本产品壳体采用改良型工程塑料注塑成型，美观大方、耐热、耐低温、防水耐腐蚀、电气性能优良。

广泛用于铁路、港口、码头、电厂、索道、环境、养殖、农业、节能监测、工程机械等领域。

测量范围：1.0～60m/s准 确 度：＜30m/s±(0.5＋0.05v) ≥30m/s±5％ 起动风速：＜0.1m /s 工作电压：DC12-36V 响应时间：＜0.5s环境温度：-20℃～ +70℃ 湿度： 20%-90%RH (25℃不结露）-6-WFS-15.2 信号输出航插座引脚定义1：电源+2：4~20MA 3：NA 4：NA 5：GND例、WFS-1-3 表示信号输出为0-5V 。

5.1 产品选型及引脚定义WFS-2-2 接线定义4～20mA 0～5V Rs4851234厂家型号 输出型号代码 输出型号类型5.3 MODBUS RTU 通讯协议5.3.1参数说明我公司对外输出的通讯采用标准modbus 的RTU 协议。

串口通信方式：RS485通信参数设置：波特率:9600 数据位:8 停止位:1 校验位:无通信超时:建议设置50ms 以上轮询间隔:建议设置50ms 以上5.3.2消息说明接收的命令字格式如下：字节序号 类别 内容 说明 备注0102030405060708消息头可变消息尾XX 030001XX XX XXXX仪表地址 功能码 寄存器地址H 寄存器地址L 数据长度H 数据长度L 根据仪表系统参数设置固定固定根据每台仪表的需要设置随数据的变化而变化CRC16校验码当仪表接收到正确的命令字后，开始回传正确的数据，命令格式如下：字节序号 类别 内容 说明 备注010203消息头回传的数据消息尾仪表地址 功能码 数据长度数据1(风速)数据2(风级)数据3根据仪的地址设置固定 根据每台需要来040506070809XX 03XX H L H L H L ……………………XX XXWFS-2-3 接线定义 WFS-2-4 接线定义数据的长度和每个数据代表的含义根据每台仪表的情况来确定随数据的变化而变化CRC16校验码本产品属精密电子产品，正确的维护保养有助于保护仪器性能、延长传感器的使用寿命，应注意下列几点:1、按说明书要求正确使用，接线有误可能导致传感器损坏.2、轻拿轻放，误压，否则导致产品结构变形损坏，或精度降低。