P6500 novotechnik 角度传感器

OS100 SERIES Mini-Infrared Transmitter e-mail:**************For latest product manuals: Shop online at User’s G ui d e***********************Servicing North America:U.S.A. Omega Engineering, Inc.Headquarters: Toll-Free: 1-800-826-6342 (USA & Canada only)Customer Service: 1-800-622-2378 (USA & Canada only)Engineering Service: 1-800-872-9436 (USA & Canada only)Tel: (203) 359-1660 Fax: (203) 359-7700e-mail:**************For Other Locations Visit /worldwideThe information contained in this document is believed to be correct, but OMEGA accepts no liability for any errors it contains, and reserves the right to alter specifications without notice.Table of ContentsSection ...................................................................PageSafety Warnings and IEC Symbols (iii)Caution and Safety Information (iii)Section 1 Introduction ....................................................................1-1Section 2Installation ......................................................................1-12.1 Unpacking and Inspection ......................................1-12.2 Electrical Connection ..............................................2-1Section 3Operation ........................................................................3-13.1 Main Board ................................................................3-13.2 Ambient Temperature ..............................................3-23.3 Atmospheric Quality ................................................3-33.4 Measuring Temperature ..........................................3-33.5 Alarm Setting ............................................................3-43.6 Adding Extension Cable...........................................3-4Section 4 Laser Sight Accessory ...................................................4-14.1 Warning and Cautions .............................................4-14.2 Operating the Laser Sight Accessory .....................4-1Section 5 Specifications .................................................................5-15.1 General .......................................................................5-15.2 Laser Sight Accessory (OS100-LS) ..........................5-2Section 6Emissivity Table .............................................................6-1iTable of FiguresFigure Description Page2-1Power Supply & Analog Output Connections ..........2-12-2 Alarm Output Connection ............................................2-13-1 Main PC Board ...............................................................3-23-2 Sensor..............................................................3-2Housing3-3 Optical Field of View .....................................................3-43-4Setting the Temperature Engineering Unit..................3-43-5Mounting Bracket OS100-MB .......................................3-53-6Water Cooling Jacket, OS100-WC ................................3-53-7Typical Water Cool Jacket Assembly ...........................3-53-8Air Purge Collar, OS100-AP..........................................3-63-9DIN Rail Mounting Adapter, OS100-DR ....................3-63-10NEMA-4 Aluminum Enclosure ....................................3-64-1Laser Sighting Accessory, OS100-LS ............................4-24-2Laser Warning Label ......................................................4-2iiSafety Warnings and IEC SymbolsThis device is marked with international safety and hazard symbols in accordance with IEC 1010. It is important to read and follow all precautions and instructions in this manual before operating or commissioning this device as it contains important information relating to safety and EMC. Failure to follow all safety precautions may result in injury and or damage to your calibrator. IEC symbols DescriptionCaution and Safety Information• If the equipment is used in a manner not specified in this manual, the protection provided by the equipment may be impaired.• The installation category is one (1).• There are no user replaceable fuses in this product• The output terminals of this product are for use with equipment (digital meters, chart recorders, etc,) which have no accessible five parts. Such equipment should comply with all the applicable safety requirements.• Do not operate the equipment in flammable or explosive environments.• All connections to the thermometer should be made via a shielded cable, 24 AWG stranded wire with the following ratings: 300V , 105°C (221°F), PVC insulation.• Power must be disconnected before making any electrical connections.• The power supply used to power the thermometer should be VDE or UL approved with the following ratings: 12 to 24vdc @150mA with overload protection of 500mA.iiiCaution, refer to accompanying documentsDirect Current Laser SymbolFrame or ChassisNOTES: ivSection 1 - IntroductionThe low cost OS101 mini-infrared transmitter provides non-contacttemperature measurement for industrial applications. The unit measures atemperature range of -18 to 538°C (0-1000°F) and provides a linear analogoutput of either 4-20 mA, 0-5 VDC, K type TC, 1 mV/°C, or 1 mV/°F.The new OS102 mini-infrared transmitter has all the functions of OS101plus a built-in LED display that shows the measured temperature indegrees F or degrees C which is switchable in the field.The miniature sensor head design 2.5 cm dia. x 6.3 cm Length (1" x 2.5") isideal for measuring temperature in confined, and hard to reach places.The aluminum sensor head as well as the rugged electronic housing (Diecast Aluminum) are NEMA-4 rated.The sensor head is connected to the electronic housing via a 1.82 m (6 feet)shielded cable as standard. The unit provides field adjustable alarmoutput.Section 2 - Installation2.1UnpackingRemove the packing list and verify that you have received all yourequipment. If you have any questions about the shipment, please callCustomer Service at:1-800-622-2378 or 203-359-1660. We can also be reached on the internet:e-mail:**************When you receive the shipment, inspect the container and equipment forany signs of damage. Note any evidence of rough handling in transit.inspection. After examination and removing contents, save packing material and carton in theevent reshipment is necessary.The following items are supplied in the box:• The infrared transmitter including the sensor head and the 1.82 m(6 feet) shielded cable• User's Manual• Mounting Nut1-1The following describes the ordering information:OS102 or OS101 - MA- *,**, where The following optional accessories are available:Here are the Features of OS101 and OS102 infrared transmitters:2.2Electrical Connection Sensor Head Cable - The Sensor head is pre-wired to a 1.8 m (6 feet)shielded cable. Plug & lock-in the male connector to the mating female connector on the aluminum housing.Power & Output Connection - Open the cover of the main aluminum housing. Slide the cable through the strain relief and connect the wires to the terminal block on the board as shown in Fig. 2-1. For Alarm output connection, refer to Fig. 2-2.2-1MA - 4/20 mA output V1 - 0 to 5 VDC output K - Thermocouple output, K type MV - Millivolt output C - 1 mV/°C output F - 1 mV/°F output HT- High temperature sensor head3-1Figure 2-2. Alarm Output Connection Section 3 - Operation3-1Main BoardThe Main Board is shown in Fig. 3-1. Here are the important components on the board:(1) - Terminal Block for Power & Output connections(2) - Single Turn Potentiometer to adjust Emissivity in tenths (0.x_)(3) - Single Turn Potentiometer to adjust Emissivity in hundreds (0._x)(4) -Slide switch to select between real time (Normal Operation) and alarm set point(5) - Alarm set point adjust, P4(6) - Sensor Head connection(7) - Input Zero adjust, P3(8) - Input Span adjust, P2(9) - Output Zero adjust, P5(10) - Output Span adjust, P6Figure 3-1. Main PC Board3.2Ambient TemperatureThe Sensing head can operate in an ambient temperature of 0 to 70°C (32to 158°F). The Sensing head in the high temperature model (-HT) can operate in an ambient temperature of 0 to 85°C (32 to 185°F) without any cooling required. The Sensing head can operate up to 200°C (392°F) using the water cool jacket accessory OS100-WC (See Fig. 3-6).There is a warm up period of 3 minutes after power up. After the warm up period, temperature measurement can be made.When the ambient temperature around the sensor head changes abruptly,the sensor head goes through thermal shock. It takes a certain amount of time for the sensor head to stabilize to the new ambient temperature. For example, it takes about 30 minutes for the sensor head to stabilize going from 25°C to 50°C (77 to 122°F) ambient temperature.The sensor head dimensions are shown in Fig. 3-2.Figure 3-2. Sensor Housing3-23-33.3Atmospheric QualityEnvironments with smoke, dust, and fumes dirty up the optical lens, and cause erroneous temperature readings. To keep the surface of the optical lens clean, the air purge collar accessory is recommended, OS100-AP , See Fig. 3-7.3.4Measuring TemperatureBefore starting to measure temperature, make sure that the following check list is met:ߜ The power and analog output connections are made (Fig. 2-1).ߜThe sensor head is connected to the main unit.ߜThe slide switch (SW1) on the main board is set to real time (Fig. 3-1).ߜThe target is larger than the optical field of view of the sensor head (Fig. 3-3).ߜThe emissivity adjustment on the main board is set properly (Fig. 3-1).ߜThe output load is within the product specification.On OS102 transmitters, follow these additional steps:ߜ The temperature display is set to °F or °C (Fig. 3-4)ߜ For 4-20mA output models, make sure an output load is added, ie. 250ohms.Figure 3-3. Optical Field Of ViewFigure 3-4. Setting the Temperature Engineering Unit3.5Alarm SettingThe unit provides 0-100% alarm set point adjustment. Here is an exampleof an alarm setting.• An OS101-MA(4/20 mA output), the alarm is to be set at 400°Ftemperature.• Connect the alarm output as shown in Fig. 2-2.• Set the slide switch (SW1) on the main board to the Alarm position.• Measure the analog output, and set the Potentiometer P4 until theoutput reads 10.4 mA which is 40% (400°F) of the temperature range.40 x (20-4)[10.4mA=+ 4]100• Set the slide switch (SW1) back to the Real Time position.• If the temperature reading is below the alarm set point, the alarmoutput stays high, otherwise it goes low.On the OS102, you can set the alarm set point directly based on thetemperature display.3.6Adding Extension CableYou can add extension cable between the Sensor Head and the mainelectronic housing up to 15.2 m (50 feet). After adding the extension cable,the Zero input potentiometer, P3 may be re-adjusted. (See Fig. 3-1, forproper analog output reading)The following figures show the mounting bracket (OS100-MB), Watercooling jacket (OS100-WC), Air purge collar (OS100-AP), DIN RailMounting adapter (OS-100-DR), and the main aluminum enclosure. TheDIN Rail Mounting adapter (OS100-DR) is mounted to the bottom of themain aluminum enclosure using two 4-40 screws.A typical water cool jacket assembly is shown in Fig. 3-7, on the following page.1. Mounting Nut2. Mounting Bracket3. Water Cool Jacket4. Sensor Head3-4Figure 3-5. Mounting Bracket OS100-MBFigure 3-6. Water Cooling Jacket, OS100-WCFigure 3-7. Typical Water Cool Jacket Assembly3-5Figure 3-8. Air Purge Collar, OS100-APFigure 3-9. DIN Rail Mounting Adapter, OS-100-DRFigure 3-10. NEMA-4 Aluminum Enclosure3-6Section 4 - Laser Sight Accessory4.1Warning and Cautionsbelow:•Use of controls or adjustments or performance of procedures other than those specified here may result in hazardous radiation exposure.• Do not look at the laser beam coming out of the lens or view directly with optical instruments - eye damage can result.• Use extreme caution when operation the laser sight accessory • Never point the laser accessory at a person • Keep out of the reach of all children4.2Operating the Laser Sight AccessoryThe laser sight accessory screws onto the front of the sensor head. This accessory is only used for alignment of the sensor head to the target area.After the alignment process, the accessory has to be removed from the front of the sensor head before temperature measurement.The laser sight accessory is powered from a small compact battery pack (included with the accessory). Connect the battery pack to the accessory using the cable provided. Aim at the target, and turn on the battery power using the slide switch on the battery pack. Adjust the sensor head position so that the laser beam points to the center of the target area. Turn off the battery pack, and remove the laser sighting accessory from the sensor head. See Fig. 4-1 for reference.4-14-2Figure 4-2. Laser Warning LabelSection 5 - Specifications5.1 - GeneralTemperature Range-18 to 538°C (0 to 1000°F)Accuracy @ 22°C (72°F)±2% of Rdg. or 2.2°C (4°F) whichever is ambient temperature & greateremissivity of 0.95 or greaterOptical Field of View6:1 (Distance/Spot Size)Repeatability±1% of Rdg.Spectral Response 5 to 14 micronsResponse Time150 msec (0 to 63% of final value)Emissivity Range0.1 to 0.99, adjustableOperating Ambient TemperatureMain Transmitter0 to 50°C (32 to 122°F)Sensor Head0 to 70°C (32 to 158°F)Sensor Head (-HT Model)0 to 85°C (32 to 185°F)Sensor Head with OS100-WC(Water Cooling Jacket)0 to 200°C (32 to 392°F)Operating Relative Humidity Less than 95% RH, non-condensingWater Flow Rate for OS100-WC0.25 GPM, room temperatureThermal Shock About 30 minutes for 25°Cabrupt ambient temperature change Warm Up Period 3 minutesAir Flow Rate for OS100-AP 1 CFM (0.5 Liters/sec.)Power12 to 24 VDC @ 100 mAAnalog OutputsMV-F 1 mV/°FMV-C 1 mV/°CK K Type TC - OS101 onlyMA 4 to 20 mAV10 to 5 VDCOutput Load requirementsMin. Load (0 to 5VDC) 1 K-OhmsMax. Load (4 to 20 mA)(Supply Power - 4 )/20 mATransmitter Housing NEMA-4 & IP65, Die Cast AluminumSensor Head Housing NEMA-4 , AluminumAlarm Output Open Drain, 100 mAAlarm Set Point0 to 100% , Adjustable via P4Alarm Deadband14°C (25°F)5-15-25.1 - General Con’t.DimensionsSensor Head25.4 OD. x 63.5 mm L(1" OD. x 2.5" L)Main Housing, OS10165.5 W x 30.5 H x 115.3 mm L(2.58" W x 1.2" H x 4.54" L)Main Housing, OS10265.5 W x 55.9 H x 115.3 mm L(2.58" W x 2.2" H x 4.54" L)Weight 272 g (0.6 lb)5.2Laser Sight Accessory (OS100-LS)Wavelength (Color)630 - 670 nm (Red)Operating Distance (Laser Dot)Up to 9.1 m (30 ft.)Max. Output Optical Power Less than 1 mW at 22°F ambienttemperature.European Classification Class 2, EN60825-1/11.2001Maximum Operating current45 mA at 3 VDCFDA Classification Complies with 21 CFR 1040.10,Class II Laser ProductBeam Diameter 5 mmBeam Divergence< 2 mradOperating Temperature0 to 50°C (32 to 122°F)Operating Relative Humidity Less than 95% RH, non-condensingPower Switch ON / OFF , Slide switch on the BatteryPackPower Indicator Red LEDPower Battery Pack, 3 VDC (Consists of two 1.5VDC AA size Lithium Batteries) Laser Warning Label Located on the head sight circumferenceIdentification Label Located on the head sight circumferenceDimensions38 DIA x 50.8 mm L(1.5" DIA x 2" L)Section 6 - Emissivity Table6-1Material Emissivity (ε)Aluminum – pure highly polished plate . . . . . . . . . . . . . . . . . . . . . . . . 0.04 to 0.06Aluminum – heavily oxidized . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 0.20 to 0.31Aluminum – commercial sheet . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 0.09Brass – dull plate. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 0.22Brass – highly polished, 73.2% Cu, 26.7% Zn. . . . . . . . . . . . . . . . . . . . . . . . . 0.03Chromium – polished. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 0.08 to 0.36Copper – polished. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 0.05Copper – heated at 600°C (1112°F). . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 0.57Gold – pure, highly polished or liquid. . . . . . . . . . . . . . . . . . . . . . . . . 0.02 to 0.04Iron and steel (excluding stainless)– polished iron . . . . . . . . . . . . . . . . 0.14 to 0.38Iron and steel (excluding stainless)– polished cast iron. . . . . . . . . . . . . . . . . . . 0.21Iron and steel (excluding stainless)– polished wrought iron . . . . . . . . . . . . . . . 0.28Iron and steel (excluding stainless)– oxidized dull wrought iron . . . . . . . . . . . . 0.94Iron and steel (excluding stainless)– rusted iron plate . . . . . . . . . . . . . . . . . . . 0.69Iron and steel (excluding stainless)– polished steel. . . . . . . . . . . . . . . . . . . . . . 0.07Iron and steel (excluding stainless)– polished steel oxidized at600°C (1112°F). . . . . . . . . . . . . . . . . . . . 0.79Iron and steel (excluding stainless)– rolled sheet steel . . . . . . . . . . . . . . . . . . . 0.66Iron and steel (excluding stainless)– rough steel plate . . . . . . . . . . . . . 0.94 to 0.97Lead – gray and oxidized . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 0.28Mercury . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 0.09 to 0.12Molybdenum filament . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 0.10 to 0.20Nickel – polished . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 0.07Nickel – oxidized at 649 to 1254°C (1200°F to 2290°F). . . . . . . . . . . 0.59 to 0.86Platinum – pure polished plate . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 0.05 to 0.10Platinum – wire . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 0.07 to 0.18Silver – pure and polished . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 0.02 to 0.03Stainless steel – polished . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 0.07Stainless steel – Type 301 at 232 to 942°C (450°F to 1725°F). . . . . . . 0.54 to 0.63Tin – bright . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 0.06Tungsten – filament . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 0.39Zinc – polished commercial pure . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 0.05Zinc – galvanized sheet. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 0.23M E T A L S6-2Material Emissivity (ε) Asbestos Board . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .0.96 Asphalt, tar, pitch . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .0.95 to 1.00 Brick– red and rough . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .0.93 Brick– fireclay . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .0.75 Carbon– filament . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .0.53 Carbon– lampblack - rough deposit . . . . . . . . . . . . . . . . . . . . . . . . . .0.78 to 0.84 Glass- Pyrex, lead, soda . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .0.85 to 0.95 Marble– polished light gray . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .0.93 Paints, lacquers, and varnishes– Black matte shellac . . . . . . . . . . . . . . . . . . . .0.91 Paints, lacquers, and varnishes– aluminum paints . . . . . . . . . . . . . . . .0.27 to 0.67 Paints, lacquers, and varnishes– flat black lacquer . . . . . . . . . . . . . . .0.96 to 0.98 Paints, lacquers, and varnishes– white enamel varnish . . . . . . . . . . . . . . . . . .0.91 Porcelain– glazed . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .0.92 Quartz– opaque . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .0.68 to 0.92 Roofing Paper . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .0.91 Tape– Masking . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .0.95 Water . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .0.95 to 0.96 Wood– planed oak . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .0.90 NONMETALSNOTES:6-3NOTES: 6-4OMEGA’s policy is to make running changes, not model changes, whenever an improvement is possible. T his affords our customers the latest in technology and engineering.OMEGA is a trademark of OMEGA ENGINEERING, INC.© Copyright 2017 OMEGA ENGINEERING, INC. All rights reserved. T his document may not be copied, photocopied, reproduced, translated, or reduced to any electronic medium or machine-readable form, in whole or in part, without the prior written consent of OMEGA ENGINEERING, INC.FOR WARRANTY RETURNS, please have the following information available BEFORE contacting OMEGA:1. P urchase Order number under which the product was PURCHASED,2. M odel and serial number of the product under warranty, and3. Repair instructions and/or specific problems relative to the product.FOR NON-WARRANTY REPAIRS, consult OMEGA for current repair charges. Have the following information available BEFORE contacting OMEGA:1. Purchase Order number to cover the COST of the repair,2. Model and serial number of the product, and 3. Repair instructions and/or specific problems relative to the product.RETURN REQUESTS/INQUIRIESDirect all warranty and repair requests/inquiries to the OMEGA Customer Service Department. BEFORE RET URNING ANY PRODUCT (S) T O OMEGA, PURCHASER MUST OBT AIN AN AUT HORIZED RET URN (AR) NUMBER FROM OMEGA’S CUST OMER SERVICE DEPART MENT (IN ORDER T O AVOID PROCESSING DELAYS). The assigned AR number should then be marked on the outside of the return package and on any correspondence.T he purchaser is responsible for shipping charges, freight, insurance and proper packaging to preventbreakage in transit.WARRANTY/DISCLAIMEROMEGA ENGINEERING, INC. warrants this unit to be free of defects in materials and workmanship for a period of 25 months from date of purchase. OMEGA’s WARRANTY adds an additional one (1) month grace period to the normal two (2) year product warranty to cover handling and shipping time. This ensures that OMEGA’s customers receive maximum coverage on each product.If the unit malfunctions, it must be returned to the factory for evaluation. OMEGA’s Customer Service Department will issue an Authorized Return (AR) number immediately upon phone or written request. Upon examination by OMEGA, if the unit is found to be defective, it will be repaired or replaced at no charge. OMEGA’s WARRANT Y does not apply to defects resulting from any action of the purchaser, including but not limited to mishandling, improper interfacing, operation outside of design limits, improper repair, or unauthorized modification. T his WARRANT Y is VOID if the unit shows evidence of having been tampered with or shows evidence of having been damaged as a result of excessive corrosion; or current, heat, moisture or vibration; improper specification; misapplication; misuse or other operating conditions outside of OMEGA’s control. Components in which wear is not warranted, include but are not limited to contact points, fuses, and triacs.OMEGA is pleased to offer suggestions on the use of its various products. However, OMEGA neither assumes responsibility for any omissions or errors nor assumes liability for any damages that result from the use of its products in accordance with information provided by OMEGA, either verbal or written. OMEGA warrants only that the parts manufactured by the company will be as specified and free of defects. OMEGA MAKES NO OTHER WARRANTIES OR REPRESENTATIONS OF ANY KIND WHATSOEVER, EXPRESSED OR IMPLIED, EXCEPT THAT OF TITLE, AND ALL IMPLIED W ARRANTIES INCLUDING ANY W ARRANTY OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE HEREBY DISCLAIMED. LIMITATION OF LIABILITY: The remedies of purchaser set forth herein are exclusive, and the total liability of OMEGA with respect to this order, whether based on contract, warranty, negligence, indemnification, strict liability or otherwise, shall not exceed the purchase price of the component upon which liability is based. In no event shall OMEGA be liable for consequential, incidental or special damages.CONDITIONS: Equipment sold by OMEGA is not intended to be used, nor shall it be used: (1) as a “Basic Component” under 10 CFR 21 (NRC), used in or with any nuclear installation or activity; or (2) in medical applications or used on humans. Should any Product(s) be used in or with any nuclear installation or activity, medical application, used on humans, or misused in any way, OMEGA assumes no responsibility as set forth in our basic WARRANT Y /DISCLAIMER language, and, additionally, purchaser will indemnify OMEGA and hold OMEGA harmless from any liability or damage whatsoever arising out of the use of theProduct(s) in such a manner.Where Do I Find Everything I Need forProcess Measurement and Control?OMEGA…Of Course!Shop online at TEMPERATUREM U Thermocouple, RTD & Thermistor Probes, Connectors,Panels & AssembliesM U Wire: Thermocouple, RTD & ThermistorM U Calibrators & Ice Point ReferencesM U Recorders, Controllers & Process MonitorsM U Infrared PyrometersPRESSURE, STRAIN AND FORCEM U Transducers & Strain GagesM U Load Cells & Pressure GagesM U Displacement TransducersM U Instrumentation & AccessoriesFLOW/LEVELM U Rotameters, Gas Mass Flowmeters & Flow ComputersM U Air Velocity IndicatorsM U Turbine/Paddlewheel SystemsM U Totalizers & Batch ControllerspH/CONDUCTIVITYM U pH Electrodes, Testers & AccessoriesM U Benchtop/Laboratory MetersM U Controllers, Calibrators, Simulators & PumpsM U Industrial pH & Conductivity EquipmentDATA ACQUISITIONM U Communications-Based Acquisition SystemsM U Data Logging SystemsM U Wireless Sensors, Transmitters, & ReceiversM U Signal ConditionersM U Data Acquisition SoftwareHEATERSM U Heating CableM U Cartridge & Strip HeatersM U Immersion & Band HeatersM U Flexible HeatersM U Laboratory HeatersENVIRONMENTALMONITORING AND CONTROLM U Metering & Control InstrumentationM U RefractometersM U Pumps & TubingM U Air, Soil & Water MonitorsM U Industrial Water & Wastewater TreatmentM U pH, Conductivity & Dissolved Oxygen InstrumentsM3572/1217。

241LS-400FIBERSENSORSLASERSENSORSHUMAN MACHINEINTERFACESENERGY CONSUMPTIONVISUALIZATIONCOMPONENTSFA COMPONENTSMACHINE VISIONSYSTEMSUV CURINGSYSTEMSFeaturing stainless steel (SUS) enclosure that won’tbreak when bumped during installation or maintenance.(In STD amplifier response time mode)Unit: mm in Stainless steel (SUS) body 1 m 3.281 ft sensing rangeOne-point M6 installationFeaturing waterproof IP67 to allow use in the presenceof large amounts of water or dust.Two-point installationThe thru-beam type LS-H102 features the same formfactor as the EX-L200 series ultra-compact laser sensorwith built-in amplifier, and it can be used as an EX-L200series with a digital indicator. It also delivers the samebend quality as theEX-L200 series.The LS-H101 features an easy-to-install design.M6Body: Stainless steel(SUS)Operationindicator(receiver only)Actual size1 m 3.281 ft sensing range(In STD amplifier response time mode)The LS-H102 delivers sufficient sensing range for use with450 mm 17.717 in wafers.Check the optimal receiving location at a glance whilewatching the red spot on the beam axis adjustmentscreen.Simple positioningInstallation pitch13 mm 0.512 inEX-L211 / EX-L212LS-H102Same installation pitchas the EX-L200 series Waterproof IP67SEN TRONIC242LS-400FIBER SENSORS PHOTOELECTRIC SENSORS MICROPHOTOELECTRIC SENSORS AREASENSORS LIGHT CURTAINS /SAFETYCOMPONENTS PRESSURE / FLOWSENSORS INDUCTIVE PROXIMITY PLCHUMAN MACHINE INTERFACES ENERGY CONSUMPTION VISUALIZATION COMPONENTS FA COMPONENTS MACHINE VISION SYSTEMSUV CURING SYSTEMSIndustry’s smallest* + Thinnest profile* S mallest amplifier-separated type laser sensor head as of September 2013 based on research conducted by our companyLS-H201Coaxial designSmall, long-range spotEasy-to-see operation indicatorBy using a laser with high linearity in a coaxial design, the LS-H201 is able to deliver stable sensing in confined spaces as well as simple installation.The LS-H201 produces a spot with a diameter of 2 mm 0.079 in at a sensing range of up to 300 mm 11.811 in (in STD amplifier response time mode).The LS-H201’s operation indicator is visible from all directions.Featuring a 60% smaller design (by volume) than previous coaxial reflective models, our smallest unit is smaller in every dimension at just W8 × H23 × D18 mm W0.315 × H0.906 × D0.709 in (excluding indicators).0.315 in23mm ø2 mm ø0.079 in300 mm 11.811 inGasketLS-400FIBER SENSORS PHOTOELECTRICSENSORS MICROPHOTOELECTRICSENSORS AREA SENSORS LIGHT CURTAINS /SAFETY COMPONENTS PRESSURE /FLOW SENSORS INDUCTIVE PROXIMITY SENSORS PARTICULAR USE SENSORSSENSOR OPTIONS SIMPLE WIRE-SAVINGUNITS WIRE-SAVINGSYSTEMS MEASUREMENTSENSORS STATIC ELECTRICITYPREVENTION DEVICES LASER MARKERSPLCHUMAN MACHINEINTERFACES ENERGY CONSUMPTIONVISUALIZATION COMPONENTS FA COMPONENTS MACHINE VISIONSYSTEMS UV CURING SYSTEMSFX-500 series fiber sensor LS-500 series laser sensor0.315 in4 mm 0.157 inAmong industry’s fastest response times* 60 μs* A mplifier-separated type laser sensor amplifiers as ofSeptember 2013 based on research conducted by our company* S mallest amplifier-separated type laser sensor head as ofSeptember 2013 based on research conducted by our companyLS-501□Industry’s smallest* and thinnest designHorizontal symmetryFeaturing a simple system design process thanks to a light source that is placed in the center of the sensor head and a coaxial design.Engineered for maximum compatibility with fiber sensors in every aspect of its design, from form factor to operability, the LS-500 series delivers an environment that makes it easy to choose a laser sensor.The LS-H901 is even thinner than previous models, measuring just W8 × H23 (excluding indicators) × D18 mm W0.315 × H0.906 × D0.709 in .Maximum compatibility with fiber sensorsDetection of beam axis misalignmentDual outputs (self-diagnosis output)Stable sensing over the long term Logic operationsData bankThe LS-500 series features the same operation, menu displays, and form factor as the FX-500 series for increased compatibility with fiber sensors.The LS-500 series can detect any reduction in incident light intensity, for example due to the accumulation of dirt such as dust, and issue an alarm. Sensing output 2 can be set as self-diagnosis output. When you teach the threshold for sensing output 1, sensing output 2 is set accordingly, allowing you to shift the threshold by a previously set margin.The LS-500’s threshold-tracking function helpsmaintain stable sensing over the long term and reduce maintenance man-hours. The incident light intensity can be checked and the threshold automatically reset at a user-selected interval to track changes in light intensity due to environmental changes (such as dust, etc.) over extended periods of time. The LS-500’s ability to perform three logic operations (AND, OR, and XOR) on a standalone basis eliminates the need for a dedicated controller, cuts down onwiring, and lowers costs. This functionality can also be combined with the FX-500 series.Eight sets of amplifier settings can be stored in the unit’s built-in memory. The ability to save and load settings reduces workload when changing the setup in a multi-model production environment.LS-400PHOTO-ELECTRIC SENSORS MICRO PHOTO-ELECTRIC SENSORS AREA SENSORS LIGHT CURTAINS /SAFETY COMPONENTS PRESSURE / FLOW SENSORS INDUCTIVE PROXIMITY SENSORS PARTICULAR USE SENSORS SENSOR OPTIONS SIMPLE WIRE-SAVING UNITS WIRE-SAVING SYSTEMS MEASURE-MENT SENSORS STATIC ELECTRICITY PREVENTION DEVICES LASER MARKERS PLC HUMAN MACHINE INTERFACES ENERGY CONSUMPTION VISUALIZATION COMPONENTSFACOMPONENTS MACHINE VISION SYSTEMSUVCURING SYSTEMSORDER GUIDE056 222 38 18SEN TRONIC AG245Digital Laser Sensor LS-500SERIESLS-400FIBERSENSORSPHOTO-ELECTRICSENSORSMICROPHOTO-ELECTRICSENSORSAREASENSORSLIGHTCURTAINS /SAFETYCOMPONENTSPRESSURE /FLOWSENSORSINDUCTIVEPROXIMITYSENSORSPARTICULARUSESENSORSSENSOROPTIONSSIMPLEWIRE-SAVINGUNITSWIRE-SAVINGSYSTEMSMEASURE-MENTSENSORSSTATICELECTRICITYPREVENTIONDEVICESLASERMARKERSPLCHUMANMACHINEINTERFACESENERGYCONSUMPTIONVISUALIZATIONCOMPONENTSFACOMPONENTSMACHINEVISIONSYSTEMSUVCURINGSYSTEMSSensor head mounting bracketMaterial: Stainless steel (SUS304)Two M3 (length 14 mm 0.551 in)screws with washers [stainlesssteel (SUS304)] are attached.• MS-EXL2-5Fine-Rotatethrough360°Reflector• RF-310• RF-31Reflective tape9.2 mmAccessoriesMS-LS-1 (Sensor head mounting bracket)For LS-H201□ / LS-H901□mountingBack angledmountingRF-330 (Reflector)MS-EXL2-2 (Mounting plate for thru-beam type)Mounting plateMaterial: Stainless steel (SUS304)Two M2 (length 12 mm 0.472 in) screws with washers[stainless steel (SUS)] are attached.Material: Stainless steel (SUS)Material: Die-cast zinc alloyTwo M3 (length 14 mm 0.551 in) screws withwashers [stainless steel (SUS)], one M3 (length 10mm 0.394 in) hexagon-socket-head bolt [stainlesssteel (SUS)], and one M3 hexagon nut [stainlesssteel (SUS)] are attached.0.551 in) screws withwashers [stainless steel (SUS)] are attached.056 222 38 18*********************SEN TRONICAG246Digital Laser SensorLS-500SERIESLS-400FIBER SENSORS PHOTO-ELECTRIC SENSORS MICRO PHOTO-ELECTRIC SENSORS AREA SENSORS LIGHT CURTAINS /SAFETY COMPONENTS PRESSURE / FLOW SENSORS INDUCTIVE PROXIMITY SENSORS PARTICULAR USE SENSORS SENSOR OPTIONS SIMPLE WIRE-SAVING UNITSWIRE-SAVING SYSTEMS MEASURE-MENT SENSORS STATIC ELECTRICITY PREVENTION DEVICES LASER MARKERS PLC HUMAN MACHINE INTERFACES ENERGY CONSUMPTION VISUALIZATION COMPONENTS FACOMPONENTSMACHINE VISION SYSTEMS UVCURING SYSTEMSNotes: 1) Where measurement conditions have not been specified precisely, the conditions used were an ambient temperature of +23 °C +73.4 °F . 2) When using the thru-beam type LS-H101□ or LS-H102□, do not set the receiving light sensitivity (gctL) of the applicable LS-500 series amplifier to level2 or less. This is because there is a possibility of sensing becoming unstable.3) The sensing range of the coaxial reflective type sensor is specified for white non-glossy paper (100 × 100 mm 3.937 × 3.937 in ) as the object. 4) The sensing ranges for coaxial retroreflective type sensors are values for the RF-330 reflector. In addition, the sensing range is the possible settingrange for the reflector. The sensor can detect an object less than 0.01 m 0.033 ft away. Note that if there are white papers or specular objects near the sensor head, reflected light from these objects may be received. In such cases, use the amplifier unit’s receiving sensitivity function to lower thesensitivity, change the response time, or move the sensor head away from the target object. The incident light intensity may vary with the condition of the reflector surface. When using one of the applicable LS-500 series amplifiers, leave an adequate safety margin when setting the threshold.5) Make sure to confirm detection with an actual sensor before use. 6) This product complies with 21 CFR 1040.10 and 1040.11 Laser Notice No. 50, dated June 24, 2007, issued by CDRH (Center for Devices andRadiological Health) under the FDA (Food and Drug Administration). For details, refer to the Laser Notice No. 50.7) Cable cannot be extended.056 222 38 18*********************SEN TRONIC AG247Digital Laser Sensor LS-500SERIESLS-400FIBERSENSORSPHOTO-ELECTRICSENSORSMICROPHOTO-ELECTRICSENSORSAREASENSORSLIGHTCURTAINS /SAFETYCOMPONENTSPRESSURE /FLOWSENSORSINDUCTIVEPROXIMITYSENSORSPARTICULARUSESENSORSSENSOROPTIONSSIMPLEWIRE-SAVINGUNITSWIRE-SAVINGSYSTEMSMEASURE-MENTSENSORSSTATICELECTRICITYPREVENTIONDEVICESLASERMARKERSPLCHUMANMACHINEINTERFACESENERGYCONSUMPTIONVISUALIZATIONCOMPONENTSFACOMPONENTSMACHINEVISIONSYSTEMSUVCURINGSYSTEMS2) 25 mA if 5 or more amplifier are connected in cascade (excluding cable extension).3) Number of units that can be mounted close together: 0 for H-SP; 2 for FAST; 4 for STD, LONG, U-LG, or HYPR4) Select either sensing output 2 or external input as the connector type.056 222 38 18*********************SEN TRONICAG248Digital Laser SensorLS-500SERIESLS-400FIBER SENSORS PHOTO-ELECTRIC SENSORSMICRO PHOTO-ELECTRIC SENSORS AREA SENSORSLIGHTCURTAINS /SAFETY COMPONENTSPRESSURE /FLOW SENSORS INDUCTIVE PROXIMITY SENSORSPARTICULAR USE SENSORS SENSOR OPTIONS SIMPLE WIRE-SAVING UNITS WIRE-SAVING SYSTEMS MEASURE-MENT SENSORS STATIC ELECTRICITY PREVENTION DEVICES LASER MARKERS PLCHUMAN MACHINE INTERFACES ENERGY CONSUMPTION VISUALIZATION COMPONENTS FACOMPONENTSMACHINE VISION SYSTEMS UVCURING SYSTEMSSymbols ...D 1, D 2, D 3, D 4: Reverse supply polarity protection diodeZ D1, Z D2: Surge absorption zener diode Tr 1, Tr 2 : NPN output transistor%Notes: 1) The quick-connection sub cable does not have +V (brown) and 0 V (blue).The power is supplied from the connector of the main cable.2) Wiring when sensing output 2 is selected is shown with solid lines. Wiringwhen external input is selected is shown with broken lines.NPN output typeConnector typeCable typeI/O circuit diagramsNPN output typePNP output typeNotes: 1) The quick-connection sub cable does not have brown lead wire and blue leadwire. The power is supplied from the connector of the main cable.2) The quick-connection cable does not have gray or pink lead wires.Wiring diagramsTerminal layout of connector typeColor code of cable type / quick-connection cable Color code of cable type / quick-connection cable Notes: 1) The quick-connection sub cable does not have brown lead wire and blue leadwire. The power is supplied from the connector of the main cable.2) The quick-connection cable does not have gray or pink lead wires.* Connector for amplifier (CN-EP4) pin position%%Notes: 1) The quick-connection sub cable does not have +V (brown) and 0 V (blue).The power is supplied from the connector of the main cable.2) Wiring when sensing output 2 is selected is shown with solid lines. Wiringwhen external input is selected is shown with broken lines.%%%PNP output typeConnector typeCable typeSymbols ...D 1, D 2, D 3, D 4: Reverse supply polarity protection diodeZ D1, Z D2: Surge absorption zener diode Tr 1, Tr 2 : PNP output transistor056 222 38 18*********************SEN TRONIC AG249Digital Laser Sensor LS-500SERIESLS-400FIBERSENSORSPHOTO-ELECTRICSENSORSMICROPHOTO-ELECTRICSENSORSAREASENSORSLIGHTCURTAINS /SAFETYCOMPONENTSPRESSURE /FLOWSENSORSINDUCTIVEPROXIMITYSENSORSPARTICULARUSESENSORSSENSOROPTIONSSIMPLEWIRE-SAVINGUNITSWIRE-SAVINGSYSTEMSMEASURE-MENTSENSORSSTATICELECTRICITYPREVENTIONDEVICESLASERMARKERSPLCHUMANMACHINEINTERFACESENERGYCONSUMPTIONVISUALIZATIONCOMPONENTSFACOMPONENTSMACHINEVISIONSYSTEMSUVCURINGSYSTEMSMetal plateAccessory forMS-EXL2-1Cautions for laser beamsPart description (Amplifier)MountingAmplifierLS-H201□, LS-H901□<How to mount the amplifier>(1) F it the rear part of the mountingsection of the amplifier on a 35 mm1.378 in width DIN rail.(2) P ress down the rear part of themounting section of the unit on the 35 mm 1.378 in widthDIN rail and fit the front part of the mounting section tothe DIN rail.<How to mount the sensor head>(1) I nsert the sensor headconnector into the inlet until itclicks.(2) Fit the cover to the connector.<How to remove the amplifier>(1) Push the amplifier forward.(2) L ift up the front part of theamplifier to remove it.Note: B e careful. If the front part is lifted without pushing the amplifier forward,Sensor headLS-H101□• The tightening torqueshould be 0.98 N·m or less.LS-H102□• In case mounting this product,use a metal plate MS-EXL2-2(accessory).• The tightening torque should be0.5 N·m or less with M3 screws.<Not requiring the metal plate><Requiring the metal plate>• In case using the dedicated sensor head mountingbracket MS-EXL2-1 (optional) when mounting thisproduct, the metal plate MS-EXL2-2 (accessory) isrequired depending on the mounting direction. Mount asthe diagram below indicates.• The tightening torqueshould be 0.5 N·m orless.• When placing the sensorhead horizontally orvertically, the reflectormust also be positionedhorizontally or verticallyas shown in Fig. 1 below. I f the sensor head is placed horizontallyor vertically but the reflector is tilted as shown in Fig. 2 below, thereflection amount will decrease, which may cause unstable detection.Safety standards for laser beam products• A laser beam can harm human being’s eyes, skin, etc.,because of its high energy density. IEC has classifiedlaser products according to the degree of hazard and thestipulated safety requirements. LS-H□ is classified asClass 1 laser.Classification by IEC 60825-1width DIN railconnector(Purchase separately)Safe use of laser products• For the purpose of preventing users from sufferinginjuries by laser products, IEC 60825-1 (Safety of laserproducts). Kindly check the standards before use.(Refer to About laser beam.)* T his product complies with 21 CFR 1040.10 and 1040.11 Laser NoticeNo. 50, dated June 24, 2007, issued by CDRH (Center for Devices andRadiological Health) under the FDA (Food and Drug Administration).056 222 38 18*********************SEN TRONICAG250Digital Laser SensorLS-500SERIESLS-400FIBER SENSORS PHOTO-ELECTRIC SENSORS MICRO PHOTO-ELECTRIC SENSORS AREA SENSORS LIGHT CURTAINS /SAFETY COMPONENTS PRESSURE / FLOW SENSORS INDUCTIVE PROXIMITY SENSORS PARTICULAR USE SENSORS SENSOR OPTIONS SIMPLE WIRE-SAVING UNITS WIRE-SAVING SYSTEMS MEASURE-MENT SENSORS STATIC ELECTRICITY PREVENTION DEVICES LASER MARKERS PLC HUMAN MACHINE INTERFACESENERGY CONSUMPTION VISUALIZATION COMPONENTS FACOMPONENTSMACHINE VISION SYSTEMS UVCURING SYSTEMSFig. 1 Proper positioningWhen placing the sensor head horizontally or vertically, the reflector shall also be positioned horizontally or vertically.Fig. 2 Improper positioningWhen placing the reflector tilted even when the sensor head is positioned horizontally or vertically.Wiring• Make sure that the power supply is off while wiring.• Verify that the supply voltage variation is within the rating.• Take care that if a voltage exceeding the rated range is applied, or if an AC power supply is directly connected, the sensor may get burnt or damaged.• If power is supplied from a commercial switching regulator, ensure that the frame ground (F.G.) terminal of the power supply is connected to an actual ground.• Make sure to use the optional quick-connection cable for the connection of the amplifier [connector type LS-501(P )]. Extension up to total 100 m 328.084 ft is possible with 0.3 mm 2, or more, cable. However, in order to reduce noise, make the wiring as short as possible. Set the supply voltage after considering the voltage drop caused by the cable’s resistance.Others• Do not use during the initial transient time (0.5 sec. approx.) after the power supply is switched on.• B ecause the sensitivity is higher in U-LG and HYPER modes than in other modes, it can be more easily affected byextraneous noise. Check the operating environment before use.Amplifier LS-501 LS-501PAmplifierLS-501-C LS-501P-CCN-74-C1 CN-74-C2 CN-74-C5Main cable (Optional)Sub cable (Optional)CN-72-C1 CN-72-C2 CN-72-C5When adding units, wiring length must not exceed 50 m 164.042 ft (for 5 to 8 amplifiers) or 20 m 65.617 ft (for 9 to 16 amplifiers). <Correct><Incorrect>056 222 38 18*********************SEN TRONIC AG251Digital Laser Sensor LS-500SERIESLS-400FIBERSENSORSPHOTO-ELECTRICSENSORSMICROPHOTO-ELECTRICSENSORSAREASENSORSLIGHTCURTAINS /SAFETYCOMPONENTSPRESSURE /FLOWSENSORSINDUCTIVEPROXIMITYSENSORSPARTICULARUSESENSORSSENSOROPTIONSSIMPLEWIRE-SAVINGUNITSWIRE-SAVINGSYSTEMSMEASURE-MENTSENSORSSTATICELECTRICITYPREVENTIONDEVICESLASERMARKERSPLCHUMANMACHINEINTERFACESENERGYCONSUMPTIONVISUALIZATIONCOMPONENTSFACOMPONENTSMACHINEVISIONSYSTEMSUVCURINGSYSTEMSLS-H101□Sensor headNote: Not incorporated on the emitter.Sensor headLS-H102□Note: Not incorporated on the emitter.LS-H201□ LS-H901□Sensor head3.156.90.8MS-DIN-E End plate (Optional)Material: Acrylic (Reflector)ABS (Base)0.1650.217Reflector (Accessory for LS-H901□)RF-330Material: Acrylic (Reflector)ABS (Base)RF-310Reflector (Optional)Reflective tape (Optional)RF-33 RF-318.5Material: Cold rolled carbon steel (SPCC)(Uni-chrome plated)MS-DIN-2Amplifier mounting bracket (Optional) 056 222 38 18*********************SEN TRONICAG252Digital Laser SensorLS-500SERIESLS-400FIBER SENSORS PHOTO-ELECTRIC SENSORS MICRO PHOTO-ELECTRIC SENSORS AREA SENSORS LIGHT CURTAINS /SAFETY COMPONENTS PRESSURE / FLOW SENSORS INDUCTIVE PROXIMITY SENSORS PARTICULAR USE SENSORS SENSOR OPTIONS SIMPLE WIRE-SAVING UNITS WIRE-SAVING SYSTEMS MEASURE-MENT SENSORS STATIC ELECTRICITY PREVENTION DEVICES LASER MARKERSPLC HUMAN MACHINE INTERFACES ENERGY CONSUMPTIONVISUALIZATION COMPONENTSFACOMPONENTS MACHINE VISION SYSTEMS UVCURING SYSTEMSRear mounting bracketFoot angled mounting bracketUniversal sensor mounting bracketAssembly dimensionsMaterial: Stainless steel (SUS304)Two M3 (length 14 mm 0.551 in ) screws with washers [stainless steel (SUS304)] are attached.Material: Stainless steel (SUS304)Note: Without using the mounting plate,beam misalignment may occur.Mounting drawing with the emitter of LS-H102□Assembly dimensionsMounting drawing with the receiver of LS-H102□Note: Screws are not attached. Purchase separately.0.0590.0390.10233-M3 × 0.5 14 Note: This is the adjustable range of the movable part.Mounting drawing with the receiver of LS-H102□112 8 R13 t 1.5 MS-LS-1Sensor head mounting bracket (Accessory for LS-H201□, LS-H901□)Sensor head mounting bracket for LS-H102□ (Optional)MS-EXL2-1MS-EXL2-2Mounting plate (Accessory for LS-H102□)Sensor head mounting bracket for LS-H102□ (Optional)MS-EXL2-4Sensor head mounting bracket for LS-H102□ (Optional)MS-EXL2-5Material: Stainless steel (SUS304)Two M3 (length 14 mm 0.551 in ) screws with washers [stainless steel (SUS304)] are attached.Material: Die-cast zinc alloyTwo M3 (length 14 mm 0.551 in ) screws with washers, one M3 (length 10 mm 0.394 in ) hexagon socket-head bolt [stainless steel (SUS)], and one M3 hexagon nut [stainless steel (SUS)] are attached.056 222 38 18*********************SEN TRONIC AG。

|DSU9H & DSU9X MODELSSIL3 PLe INCREMENTAL ENCODERS SPECIFICATIONSFeatures•Usable up to SIL3 and Cat.4 / PLe according to IEC 61508 / EN ISO 13849•Suitable for safe motor feedback according to IEC 61800-5-2•E specially designed for heavy-duty applications (steel, paper, wood,mills, cranes…) Compact and robust design. Excellent resistance to shock and vibration•Stainless steel version available (DSU9X)•90mm encoder, 30mm standard through shaft, PE E K reduction hub available•High protection level: IP66 (DSU9X), IP65 (DSU9H)•High temperature performance –20°C to +85°C •Power supply 5Vdc or 11/30Vdc•Digital TTL/RS422 or HTL Push-pull or sine/cosine 1Vpp output •Available resolution up to 2048 ppr•Connector or cable output – side orientation •Adapted anti-rotation systemIntroductionApplications•Industrial automation•Automated guided vehicles•Mills for lumber, steel and other metals •Printing and packaging equipment •Food processing equipment •Forming and die pressesDSU9XWhen an automation system requires a high degree of risk mitigation of failure modes, often times Functional Safety equipment can be a part of the solution. Sensata | BEI Sensors offers a wide range of Functional Safety encoders to fit most any application or electrical interface requirement. Rated at SIL3 (PLe), these encoders allow safe operation in set-up, production and maintenance modes, significantly reducing operational risks. All encoders have the option of a Digital HTL or TTL operation as an alternative to the Sine/Cosine outputs found on most Functional Safety encoders. This makes them a compatible replacement for existing encoders when migrating to a higher safety level of operation. DSU9H & DSU9X offer 30 mm standard through shaft models with optional reduction sleeves for mounting on smaller diameter shafts. The encoder body is 90mm in diameter, available in aluminum or stainless steel.(A)Continuous max. speed – ½ max. load – according to ISO 281: 1990, L10(B)Device must be supplied by a Class 2, LPS or SELV limited energy source.(C) UL listed:Electrical ConnectionsNote: All connections are UL certified, except G3 and GP RESOLUTIONS1024 2048DSU9H – radial cable and 20mm reduction hubDSU9X- radial M23 connector - IP66 optionCOUPLING INTERFACE Stator coupling kit M9445/045Tether arm kit M9445/046For a safe installation according to the required safety level needed in the application, refer to the user safety User Manual.The safety User Manual provides the technical information (drawings, electrical data, etc...) for a safe integration.A quick installation guide is provided with each encoder for use by the technician who installs the device on the equipment.GENERAL NOTESORDERING OPTIONSContact the factory for special versions, ex: resolution, connection, flange...* Parts mounted on encoder and fasteners included in the encoder box.AGENCY APPROVALS & CERTIFICATIONSBEI Sensors SASSensata TechnologiesEspace Européen de l’Entreprise9, rue de CopenhagueB.P. 70044 SchiltigheimF 67013 Strasbourg CedexTélFaxMailWeb: +33 (0)3 88 20 80 80: +33 (0)3 88 20 87 87:****************************: Americas+1 (800) 350 2727*******************Europe, Middle East & Africa +33 (3) 88 20 8080****************************Asia Pacific*************************.com China +86 (21) 2306 1500Japan +81 (45) 277 7117Korea +82 (31) 601 2004India +91 (80) 67920890Rest of Asia +886 (2) 27602006 ext 2808Page 7CONTACT USSensata Technologies, Inc. (“Sensata”) data sheets are solely intended to assist designers (“Buyers”) who are developing systems that incorporate Sensata products (also referred to herein as “components”). Buyer understands and agrees that Buyer remains responsible for using its independent analysis, evaluation and judgment in designing Buyer’s systems and products. Sensata data sheets have been created using standard laboratory conditions and engineering practices. Sensata has not conducted any testing other than that specifically described in the published documentation for a particular data sheet. Sensata may make corrections, enhancements, improvements and other changes to its data sheets or components without notice.Buyers are authorized to use Sensata data sheets with the Sensata component(s) identified in each particular data sheet. HOWEVER, NO OTHER LICENSE, EXPRESS OR IMPLIED, BY ESTOPPEL OR OTHERWISE TO ANY OTHER SENSATA INTELLECTUAL PROPERTY RIGHT, AND NO LICENSE TO ANY THIRD PARTY TECHNOLOGY OR INTELLECTUAL PROPERTY RIGHT, IS GRANTED HEREIN. SENSATA DATA SHEETS ARE PROVIDED “AS IS”. SENSATA MAKES NO WARRANTIES OR REPRESENTATIONS WITH REGARD TO THE DATA SHEETS OR USE OF THE DATA SHEETS, EXPRESS, IMPLIED OR STATUTORY, INCLUDING ACCURACY OR COMPLETENESS. SENSATA DISCLAIMS ANY WARRANTY OF TITLE AND ANY IMPLIED WARRANTIES OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE, QUIET ENJOYMENT, QUIET POSSESSION, AND NON-INFRINGEMENT OF ANY THIRD PARTY INTELLECTUAL PROPERTY RIGHTS WITH REGARD TO SENSATA DATA SHEETS OR USE THEREOF.All products are sold subject to Sensata’s terms and conditions of sale supplied at SENSATA ASSUMES NO LIABILITY FOR APPLICATIONS ASSISTANCE OR THE DESIGN OF BUYERS’ PRODUCTS. BUYER ACKNOWLEDGES AND AGREES THAT IT IS SOLELY RESPONSIBLE FOR COMPLIANCE WITH ALL LEGAL, REGULATORY AND SAFETY-RELATED REQUIREMENTS CONCERNING ITS PRODUCTS, AND ANY USE OF SENSATA COMPONENTS IN ITS APPLICATIONS, NOTWITHSTANDING ANY APPLICATIONS-RELATED INFORMATION Made in FranceACCESORIES。

June 2009Rev – 1.1Photodetector Sensor BoardSP1202S03RB User’s Guide© 2009 National Semiconductor Corporation.Table of Contents1.0 Introduction (3)2.0 Board Assembly (3)3.0 Quick Start (3)4.0 Functional Description (5)4.1 Operational Modes (5)4.1.1 The Computer Mode (5)4.1.2 The Stand-Alone Mode (5)4.2 Signal Conditioning Circuitry (5)4.2.1 The Transimpedance Amplifier (5)4.2.2 Light Source (5)4.3 Power Supply (5)4.4 ADC Reference Circuitry (5)4.5 ADC clock (6)4.6 Digital Data Output (6)4.7 Power Requirements and Settings (6)5.0 Installing and Using the Photodetector Sensor Board (6)5.1 Board Set-up (6)5.2 Quick Check of Analog Functions (6)5.3 Quick Check of Software and Computer Interface Operation (6)5.4 Troubleshooting (7)6.0 Board Specifications (7)7.0 Example Hardware Schematic (8)8.0 Example Bill of Materials (9)Appendix: Summary Tables of Test Points and Connectors (10)Summary Tables of Test Points and Connectors (cont'd) (11)1.0 IntroductionThe Photodiode Sensor Board (SP1202S03RB), along with the Sensor Signal Path Control Panel (Sensor Panel) software and SPUSI2 USB Interface Dongle are designed to ease the design of circuits using various photodiodes with National’s amplifiers and Analog-to-Digital converters (ADCs). Use the WEBENCH® Photodiode Sensor Designerto determine appropriate ICs and passives to achieve your signal path requirements:/analog/webench/sensors/p hotodiodeSee Figure 1 for component placement and Figure2 for the example board schematic. The circuit for the photodiode sensor consists of a transimpedance amplifier (current to voltage converter) for operation in the photoconductive mode. Also, the board has circuitry to drive a light source (LED) which can be mounted in close proximity to the photodiode. The LED current can be either continuous or switched with the current level adjustable using a multi turn potentiometer.The values for the LED driver are not calculated by Sensor Designer. The idea here is to provide a generic driver stage, allow the user to select a light source and adjust the current accordingly. The light source is not included in the kit. It should be chosento be commensurate with the photodiode wavelength and optical sensitivity.The outputs are a voltage output for the photocurrent (received optical power and a voltage output for the LED current (transmitted optical power). 2.0 Board AssemblyThis Photodetector Sensor Board comes as a bare board that must be assembled. Refer to the example Bill of Materials for a description of component values. The values for the photodiode circuit are calculated using WEBENCH Sensor Designer. The values for the LED driver are not calculated by Sensor Designer.3.0 Quick StartRefer to Figure 1 for locations of test points and major components. This Quick Start procedure provides 5V excitation for the sensor.1. Place the J1 jumper across pins 2 & 3. Thisapplies a negative 5VDC bias to thephotodiode.2. Place the J3 jumper across pins 2 &3. Thissets the ADC reference voltage to 4.096VDC. 3. Place the J4 jumper across pins 2 & 3. Thissets the –VCC to -5VDC. Do not use thissetting for an Op Amp that has a VCC of 5VDCor less.4. Connect the Differential Pressure Sensor Boardto the SPUSI2 board via 14-pin header J2.5. Connect a USB cable between the SPUSI2board and a PC USB port. GRN LED D1 on the Photodiode Sensor Board and D1 on the SPUSI2 board should come on if the PC is on. 6. If not already installed, install the Sensor Panelsoftware on the PC. Run the software.Figure 1. Component and Test Point Locations4.0 Functional DescriptionThe Photodiode Sensor Board component and test point locations are shown in Figure 1. The board schematic is shown in Figure 2.4.1 Operational ModesThis board may be use in one of two modes: the Computer Mode using the SPUSI2 USB Interface Dongle or the Stand-Alone Mode without the use of the SPUSI2 USB Interface Dongle and a PC.4.1.1 The Computer ModeThe board is intended for use in the Computer Mode, where a SPUSI2 board is used with it and the SPUSI2 board is connected to a PC via a USB port. Power to both boards is provided via USB.4.1.2 The Stand-Alone ModeThe Stand-Alone Mode does not use the SPUSI2 board to capture data and upload it to a PC. To use the board this way, the user must provide +5V at pin 14 of header J2 as well as provide ADC clock and Chip Select signals to the ADC at pins 3 and 1, respectively, of J24. ADC data output is available at pin 5 of J2. Test Points may also be used to insert/read these signals. The range of frequencies for the ADC clock is 500KHZ to 1 MHz. The CS rate can be as low as desired, as but no faster than 17 times the ADC clock rate.4.2 Signal Conditioning CircuitryThe output of the TIA (transimpedance amplifier) is on TP1. This is a voltage that is proportional to photocurrent. The values for RF and CF are calculated by the WEBENCH Sensor Designer. RF is determined by the full scale input voltage of the ADC and the maximum output photocurrent of the photodiode. CF is determined based on photodiode capacitance and an estimate of stray capacitance on the inverting input of OP Amp U1. The current flowing in the LED is measured and scaled by Op Amp U2 and appears on TP3. These voltages appear on the inputs of ADC U4. The digital output of the ADC appears on J2 Pin 5.4.2.1 The Transimpedance AmplifierIn the photoconductive mode, the cathode of the photodiode is connected to the inverting pin of an op amp with the non inverting pin grounded. To maintain the virtual ground on the inverting pin, the op amp must provide current from its output through the RF to the photodiode.So: V out = I PHOTODIODE * RF.RF is determined by knowing the maximum photocurrent, sometimes referred to as I SHORT CIRCUITof the photodiode, and the full scale input value of the ADC.So: RF = VFS/I SHORT CIRCUIT Because the photodiode has capacitance, RF andC DIODE form a pole in the noise gain transfer function. This can create stability issues and is compensated for by CF. WEBENCH Sensor Designer calculates the value of CF for a 45 0 phase margin to insure stability.4.2.2 Light SourceProvisions for a light source for test purposes are on the board.The user can select an LED with appropriate wavelength and output power to compliment the photodiode selection. It may be necessary to modify component values in the LED driver to optimize performance.S1 is provided as an ON/OFF control for the LED drive circuit. It controls the gate voltage of an NCH MOSFET. In the open position, the mosfet is conducting and the current source is enabled.Also connected to the gate of the mosfet is a connector for a signal generator. A switching signal can be connected here to observe the transient response of the transimpedance amplifier. The rise times and switching frequencies are somewhat limited by the current source components and the mosfet switch so the user may want to install different components to achieve higher performance for the current source in this mode.The current source consists of U3, Q1, VR1 andR7. The op amp will make sure the voltage at the CT of VR1 appears on the inverting pin. This voltage then appears across R7 (minimal V ON forQ2). I LED = VR1CT/R7. Turning VR1 clockwise increases LED current. The differential amplifier U2 measures the current flowing in the LED by measuring the Voltage drop across R4. This voltage drop is scaled by the gain setting resistors.I LED = Analog_V2/(R3/(R2*R4))4.3 Power SupplyIn the computer mode, power to this board is supplied through header J2 and ultimately from the host PC via USB. In most cases, the only voltage needed for the Photodetector Sensor board is the+5V from the USB connection.The supply voltage source for the ADC (VREF on the schematic) is selected with J3 to be either the 4.1V from U5, or +5V from J2.4.4 ADC Reference CircuitryThe single-ended ADC122S101 uses its supply voltage as its reference, so it is important that its supply voltage be stable and quiet. A 4.1V reference voltage is provided by U5, an accurate LM4120-4.1.4.5 ADC clockThe ADC clock signal is provided external to the board at header J2. The frequency of this clock should be in the range of 500KHZ MHz to 1 MHz. A CS (Chip Select) signal is also required at J2. See the ADC data sheet for timing requirements.4.6 Digital Data Output.The digital output data from the ADC is available at 14-pin header J2. All digital signals to and from the ADC are present at this connector socket.4.7 Power Requirements and SettingsVoltage and current requirements for the Photodetector Sensor Board are:∙Pin 14 of J2: +5.0V at 30 mA∙Pins 2 and 4 of J2: GroundWith J4 connected from pin 2 to pin 3, the op amps in the circuit have a -5VDC on the -VCC terminals. This will yield a more accurate result for zero current flow in the LED and zero light level received in the photodiode. J4 pin 1 to pin 2 places GND on the –VCC pin.The Photodiode can be reversed biased by connecting J1 from pin 2 to pin 3. This will reverse bias the photodiode by -5VDC and reduce the diode capacitance. This will reduce the effects of noise gain peaking due to capacitance on the inverting input of the transimpedance amplifier. J1 pin 1 to pin 2 connects the photodiode anode to GND.5.0 Installing and Using the Photodetector Sensor BoardThis Photodetector Sensor board requires power as described above.5.1 Board Set-upRefer to Figure 1 for locations of connectors, test points and jumpers on the board.1. Connect the Photodetector Sensor board to aSPUSI2 USB Interface Dongle.2.Be sure all jumpers are in place per Table 1,below.Table 1 - Jumper Default PositionsJumperPinsShortedFUNCTIONJ1 2-3 Neg. Photodiode BiasJ3 2 - 3 4.1V ADC ReferenceJ4 2 - 3 -5VDC for -VCC3. Connect a USB cable to the SPUSI2 board anda PC. 4. Confirm that GRN LED D1 on thePhotodetector Sensor board is on, indicatingthe presence of power to the board.5. Be sure that the correct light source is installedin close proximity to the photodiode.6. Be sure the current source values are chosen todrive the Light Source with the correct currentlevels.7. For more accurate light power measurements itmay be necessary to fashion a light shield tocover both the light source and the photodiode.Sufficient room around these two componentshas been provided for a light shield.5.2 Quick Check of Analog FunctionsRefer to Figure 1 for locations of connectors and test points and jumpers on the board. If at any time the expected response is not obtained, see Section 5.4 on Troubleshooting.1. Perform steps 1 through 7 of Section 5.1.2. Check for 5.0V on VCC and for 4.1V at TP8.3. Check for -5V at J4 pin 3.4. Turn S1 ON.5. Monitor the voltage on TP3.6. As the potentiometer is adjusted, the DC voltageon TP3 will vary. Verify the LED current is in thecorrect range.7. As the potentiometer is adjusted, the voltage onTP1 should also vary based on the amount oflight the source is generating.This completes the quick check of the analog portion of the evaluation board.5.3 Quick Check of Software and Computer Interface Operation1. Perform steps 1 through 7 of Section 5.1.2. Run the Sensor Panel software on the PC.3. Select the SPI202S03RB Board.4. Manually enter the following data:∙Responsivity of the photodiode under test.∙ RF∙Number of bits∙Input Optical Power. This value is determined by setting the LED current,going to the LED datasheet and reading thepower out at that LED current and at thephotodiode wavelength.∙ Reference VoltageThe software will measure the photocurrent ofthe photodiode and the LED current.The software knows the input power, calculatesthe received power and estimates the opticalloss between the LED and the photodiode.This completes the quick check of the software and computer interface.5.4 TroubleshootingIf there is no output from the board, check the following:∙Be sure that the proper voltages and polarities are present.∙Be sure there is a clock signal at TP11 when trying to capture data.∙Be sure there is a voltage at TP3 that varies with light source current adjust.∙Be sure that the voltage on TP1 varies with light source current adjust. If the ADC output is zero or a single code, check the following:∙Be sure that the proper voltages and polarities are present.∙Be sure that J2 is properly connected to a SPIUSI-2 USB Interface Dongle.6.0 Board SpecificationsBoard Size: 2.6" x 2.5" (6.6 cm x 6.35 cm) Power Requirements:+5V (30mA) at J2 pin 147.0 Example Hardware SchematicAPPENDIXSummary Tables of Test Points and ConnectorsTest Points on the Photodetector Sensor BoardIdentifier Name FunctionTP 1 Analog_V1 TIA Analog OutputTP 2 GND GroundTP 3 Analog_V2 Current Meter Analog OutputTP 4 GND GroundTP 5 Isense + Current Sense Resistor +TP 6 Isense - Current Sense Resistor -TP 7 J5 Pin 1 Waveform Generator InputTP 8 VREF ADC VDCTP 9 CS* CS* input for ADCTP 10 GND GroundTP 11 SCLK SCLK Input to ADCTP 12 DOUT SDATA output from ADCTP 13 VCC_3V3 3.3VDC from SPUSI2 BoardTP 14 DIN ADC DIN from SPUSI2 BoardJ1 Jumper – Photodiode Bias SelectShorted Positions Results1 -2 GND on Photodiode Anode2 -3 -5VDC on Photodiode AnodeJ3 Jumper - VADC_SELShorted Positions Results1 -2 +5V for ADC Supply and Reference Voltage2 -3 +4.1V for ADC Supply and Reference VoltageJ4 Jumper - -VCC SelectShorted Positions Results1 -2 -VCC = GND2 -3 -VCC = -5VDCSummary Tables of Test Points and Connectors (cont'd) J2 Connector - Connection to SPUSI2 BoardJ2 Pin Number Voltage or Signal1 CS* input to ADC2 Ground3 SCLK input to ADC4 Ground5 SDATA output from ADCconnection6 no7 DIN to ADCconnection8 no9 noconnectionconnection10 noconnection11 no12 noconnection13 +3.3V from SPUSI2 USB Interface Dongle14 +5V from SPUSI2 USB Interface DongleThe Photodetector Sensor Board is intended for product evaluation purposes only and is not intended for resale to end consumers, is not authorized for such use and is not designed for compliance with European EMC Directive 89/336/EEC.National does not assume any responsibility for use of any circuitry or software supplied or described. 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Features and Benefits￭Based on advanced AMR Technology with 0~360°Full Range Angle Sensing ￭14 bit Core Resolution￭Maximum Rotation Speed 25,000 RPM ￭Output Propagation Delay <2 us￭-40~125℃ Industry Operating Temperature Range￭Output Interface: ABZ、UVW，PWM or SPI ￭Incremental ABZ Resolution 1~1024 Pulses per Revolution User Programmable ￭UVW Output Resolution 1~16 Pole-Pairs per Revolution User Programmable ￭SOP-8 PackageGeneral DescriptionTheMagnTekrotarypositionsensorMT6816is an IC based on advanced AMR technology.A rotating magnetic field in the x-y sensor plane delivers two sinusoidal output signals which indicating the angle(α)between the sensor and the magneticfield direction.The sensor is only sensitive to the magnetic field direction in x-y plane as the sensing element output is specially designed to be independent from the magnet field strength.This allows the device to be less sensitive to magnet variations,stray magnetic fields,air gap changes and off-axis misalignment.TheincrementalABZoutputmodeisavailable in this sensor series,making thechip suitable to replace various optical encoders.The maximum resolution is 4096steps or 1024pulses per revolutionA standard SPI (3-Wire or 4-Wire)interface allows a host microcontroller to read out the 14-bit absolute angle position data from MT6816.The absolute angle position is also provided as a 12bit PWM output.Applications￭Absolute Angle Position Sensor ￭BLDC Motor Control ￭Servo Motor Control ￭Stepping Motor Control ￭Optical EncoderReplacementTable of ContentsFeatures and Benefits (1)Applications (1)General Description (1)1Pin Configuration (3)2Function Diagram (4)3Absolute Maximum Ratings (5)4Operating Conditions (5)5Electrical Characteristics (6)6Magnetic Input Specifications (8)7Output Mode (9)7.1I/O Pin Configuration (9)7.2Reference Circuit for ABZ,UVW and PWM Mode (10)7.3Quadrature A,B and Zero-Position Output Signal(ABZ Mode) (11)7.4UVW Output Mode (15)7.5Pulse Width Modulation(PWM)Output Mode (16)7.6SPI Interface (17)7.6.1SPI Reference Circuit (17)7.6.2SPI Timing Diagram (18)7.6.34-Wire SPI (19)7.6.43-Wire SPI (20)7.6.5SPI Read Angle Register (21)8MTP Programming (23)9Magnet Placement (24)10Mechanical Angle Direction (25)11Package Information (26)12Copy Rights and Disclaimer (27)13Revision History (28)1. Pin Configuration3Figure 1: Pin Configuration of MT6816(SOP-8) PackagePart Number DescriptionMT6816CTSOP-8 Package, Tube Pack (100pcs/Tube) or Tape & Reel Pack (3000pcs/Reel)Family MembersPin List*SOP-8 Reflow Sensitivity Classification: MSL-3Sensing Center at Geometry Center12348765Name #Type Description CSN 1Digital Input SPI Chip SelectionHVPP 2Power Supply OTP Programming Supply（7V）or SPI Enable OUT 3Digital Output PWM Output VDD 4Power Supply 3.3~5.0V SupplyA/U 5Digital Input/output Incremental Signal A/U or SPI MOSI(4-Wire), SDAT(3-Wire)B/V 6Digital Input/output Incremental Signal B/V or SPI MISO(4-Wire)Z/W 7Digital Input Incremental Signal Z/W or SPI Clock GND8GroundGround2. Functional DiagramFigure 2: Block DiagramThe MT6816is manufactured in a CMOS standard process and uses advanced magnet sensing technology to sense the magnetic field distribution across the surface of the chip.The integrated magnetic sensing element array is placed around the center of the device and delivers a voltage representation of the magnetic field at the surface of the IC.Figure 2shows a simplified block diagram of the chip,consisting of the magnetic sensing element modeled by two interleaved Wheatstone bridges to generate cosine and sine signals,gain stages,analog-to-digital converters (ADC)for signal conditioning,and a digital signal processing (DSP)unit for encoding.Other supporting blocks such as LDO,etc.are also included.G GADCADCDSPLDO CalibrationNVMABZ /-A-B-ZPWMVDD HVPPA B ZOUTCSNM U XOSCSPIUVWVSS Angle CalculationInterpolatorMagnetic Sensing ElementI/V REF3. Absolute Maximum Ratings (Non-Operating)ParameterMin.Max.Unit NotesDC Voltage at Pin VDD -0.5 6.5V DC Voltage at Pin HVPP-0.58V Terminal Voltage at Input and Output Pins -0.5VDD V ABZ,OUT Output Current at Output Pins -2020mA ABZ, OUT Storage Temperature-55150℃Electrostatic Discharge (CDM)-±1.0KV Electrostatic Discharge (HBM)-±3.0KVStresses beyond those listed under “Absolute Maximum Ratings”may cause permanent damage to the device.These are stress ratings only.Functional operation of the device at these or any other conditions beyond those indicated under “Operating Conditions”is not implied.Exposure to absolute maximum rating conditions for extended periods may affect device reliability.4. Operating ConditionsParameterMin.Max.Unit DC Voltage at Pin VDD3.0 5.5V DC Voltage at Pin HVPP (If Used) 6.757.25V Magnetic Flux Density Range 301,000mT Rotation Speed -25,000RPM Operating Temperature-40125℃5. Electrical CharacteristicsOperation conditions:Ta=-40to 125℃,VDD=3.0~5.5V unless otherwise noted.Symbol1Parameter Conditions/Notes Min.Typ.Max.Unit VDD Supply Voltage - 3.0 3.3~5.0 5.5V HVPP Supply Voltage - 6.757.07.25V Idd Supply Current -51015mA LSB Resolution (ABZ Mode)N Steps per Cycle -360°/N -°INL Integral Non-Linearity Note(1)-±0.75±1.5°DNL Differential Non-Linearity (ABZ Mode), Figure 3@1000 PPR-±0.01-°TN Transition Noise (ABZ Mode)25℃, HYST=4 Note(2)-0.01-°rms Hyst Hysteresis (ABZ Mode)HYST=0 Note(2)-0.022-°T PwrUp Power-Up Time VDD Ramp<10us-16-ms T DelayPropagation Delay-13usPWM Output Characteristics Conditions/Notes Min.Typ.Max.Unit FPWM PWM Frequency Programmable -971.1/485.6-Hz T Rise Rising Time C L =1nF --1us T FallFalling TimeC L =1nF--1usNote (1):The typical error value can be achieved at room temperature and with no off-axis misalignment error.The maximum error value can be achieved over operation temperature range,at maximum air gap and with worst-case off-axis misalignment error.Note (2):HYST could be set to:0=1LSB,1=2LSB,2=4LSB,3=8LSB,4=0LSB,5=0.25LSB,6=0.5LSB,7=1LSB.Here 1LSB=360°/214=0.022°.Digital I/O Characteristics(Push-Pull Type in Normal Mode)Symbol Parameter Conditions/Notes Min.Typ.Max.Unit V IH High Level Input Voltage-0.7*VDD--V V IL Low Level Input Voltage---0.3*VDD V V OH GPIO Output High Level Push-pull (Iout=2mA)VDD-0.25--V V OL GPIO Output Low Level Push-pull(Iout=2mA)--0.25VFigure 3: Drawing Illustration INL, DNL and TN (for 10 bit case)6. Magnetic Input SpecificationsOperation conditions:Ta=-40to 125℃,VDD=3.0~5.5V unless otherwise noted,two-pole cylindrical diametrically magnetized source.Symbol ParameterConditions/Notes Min.Typ.Max.UnitDmag Diameter of Magnet Recommended Magnet: Ø10mm x 2.5mm for Cylindrical Magnets -10-mmTmag Thickness of Magnet -- 2.5-mm Bpk Magnetic Input Field Amplitude Measure at the IC Surface 30-1,000mT AG Air Gap Magnetic to IC Surface Distance- 2.0 3.0mm RSRotation Speed--25,000RPMDISPOff Axis MisalignmentMisalignment ErrorBetween Sensor Sensing Center and Magnet Axis (See Figure 4)--0.3mmTCmag1Recommended Magnet Material and Temperature Drift CoefficientNdFeB (Neodymium Iron Boron)--0.12-%/℃TCmag2SmCo (Samarium Cobalt)--0.035-Figure 4: Magnet ArrangementAir GapOff-axis MisalignmentN S7. Output ModeThe MT6816provides ABZ,UVW and PWM signals at output pins,and also 14-bit absolute angle position data could be transferred by SPI interface (Both 3-Wire and 4-Wire modes).7.1 I/O Pin ConfigurationPin#3-Wire SPI4-Wire SPIABZ+PWMUVW+PWM1CSN CSN VDD VDD 3PWM PWM PWM PWM 5SDAT MOSI A U 6-MISO B V 7SCKSCKZWI/O Pin Configuration For SOP-8package,ABZ,UVW,PWM and SPI Interface are configured as below table.Figure 5: ABZ, UVW and PWM Output Reference Circuit w/o MTP Programming7.2 Reference Circuit for ABZ, UVW and PWM ModeFigure 6: ABZ, UVW and PWM Output Reference Circuit w/i MTP Programming12348765A/UB/V Z/W VDDTVS(6V)0.1ufPWM NC12348765A/UB/V Z/W VDDTVS(6V)0.1ufPWM HVPP1uf NC7.3 Quadrature A,B and Zero-Position Output (ABZ Mode)As shown in Figure 7,when the magnet rotates counter-clock-wise (CCW),output B leads output A by 1/4cycle,when the magnet rotates clock-wise (CW),output A leads output B by 1/4cycle (or 1LSB).Output Z indicates the zero position of the magnet.After chip power-on,the ABZ output is blocked for 16ms to guarantee proper output.Figure 7: ABZ output with VDD power onAZCCWB360°VDDCW16msOutput Z indicates the zero position of the magnet and the pulse width of Z is selectable as 1,2,4,8,12,16LSBs and 180°as shown in Figure 8and Figure 9.It is guaranteed that one Z pulse is generated for every rotation.The zero position is user programmable。

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为汽车、航空航天、电子、材料、光学、半导体和轴承行业提供测量传感器，您可以确保，无论您身在何处，无论您的精密测量应用是什么，作为领xian的传感器制造商，我们都有传感器技术、承诺和资源来帮助您做得更好。

除了我们的一系列精密测量产品，如Flexure、Lever和Mini Probes、Block Gauges、Displacements Transducers和Non Contact，该公司Orbit®3网络固有的简单性和灵活性使我们的测量传感器能够无缝通信和协同工作。

为了满足关键制造合作伙伴不断变化的需求，Solartron Metrology推出了一系列新的激光三角测量产品。

激光三角测量传感器正迅速被gong认为线性测量最you效的工具之一，为行业用户带来了许多好处，包括高精度、分辨率和速度、良好的重复性和线性以及更长的线性测量范围。

除了具有更高的精度和可重复性的优点外，在绝对无接触的情况下进行线性测量的能力可以加快传感器的制造过程，创造时间和成本效益，同时确保不会损坏目标材料。

1) 数字仪表探头\弹簧推动DP/S0.5,1,2,5,10,20和30mm位移传感器测量范围精度优于0.1µm重复性精度优于0.05µm分辨率优于0.01µm可提供接触式传感器尖duan的范围弹簧致动0.7N的标准接触式传感器尖duan力（可提供其他选项）IP65密封（可提供全密封选项）具有出色侧载能力的位移传感器与传统的线性可变差动变压器（LVDT）位移传感器相比具有卓yue的性能对外部磁场的高电阻，可能会干扰典型LVDT的测量Solartron Metrology接触式数字测量探头或位移传感器为量具制造商提供了一系列尺寸精度测量和定位应用的最ju成本效益的解决方案。

| P255Stainless Steel Pressure Transducer DescriptionFeatures• Dry Media *1• Superior Long Term Stability• Excellent Repeatability/Hysteresis • Superior EMI/RFI Rejection • Low Power Consumption • Linear Output• Temperature Compensated• Over-Voltage, Reverse Polarity & Short Circuit Protection • Ten Million Cycle Life Expectancy• Outstanding Shock & Vibration Performance1. For wet conductive media please contact usThe model P255 is based on Kavlico’s fieldproven ceramic capacitive technology with the latest state-of-the-art ASIC. Featuring a 316SS housing, the P255 is designed for general use wherever a rugged and reliable pressure transducer is required. The P255 package has a built-in Metri-Pack 150, electrical connector and supports popular process connection threads. The P255 is offered with a variety of seal materials and is suitable for many diverse applications. Specifically intended for OEM applications, the P255 delivers a cost effective solution without compromising performance orreliability.Applications• Steam Sterilizers• Gasoline & Diesel Engines • Natural Gas & CNG Engines • Agricultural Chemical Equipment • Level Measurement • Test Equipment • Injection Molding • Coolant Pressure• Industrial CompressorsPressure Ranges Electrical Connection Pressure Connection Housing Material Output SignalMAIN FEATURES1. for more options see how to orderTECHNICAL SPECIFICATIONSPressure RangesPhysicalPerformance2. for more details see Ordering Options3. Including non-linearity, hysteresis, non-repeatability, zero point and full scale error (corresponds to error of measurement per IEC 61298-2). Adjusted in vertical mounting position with pressure port downElectrical4. for min. 3 intervals at 5 minutes each5. for min. 10 seconds on assigned pinsDIMENSIONS Dimensions in mm [Inch]Page 5CONTACT USAmericas+1 (800) 350 2727***************************************Europe, Middle East & Africa +359 (2) 809 1826****************************Asia Pacific*************************.com China +86 (21) 2306 1500Japan +81 (45) 277 7117Korea +82 (31) 601 2004India +91 (80) 67920890Rest of Asia +886 (2) 27602006 ext 2808Sensata Technologies, Inc. (“Sensata”) data sheets are solely intended to assist designers (“Buyers”) who are developing systems that incorporate Sensata products (also referred to herein as “components”). Buyer understands and agrees that Buyer remains responsible for using its independent analysis, evaluation and judgment in designing Buyer’s systems and products. Sensata data sheets have been created using standard laboratory conditions and engineering practices. Sensata has not conducted any testing other than that specifically described in the published documentation for a particular data sheet. Sensata may make corrections, enhancements, improvements and other changes to its data sheets or components without notice.Buyers are authorized to use Sensata data sheets with the Sensata component(s) identified in each particular data sheet. HOWEVER, NO OTHER LICENSE, EXPRESS OR IMPLIED, BY ESTOPPEL OR OTHERWISE TO ANY OTHER SENSATA INTELLECTUAL PROPERTY RIGHT, AND NO LICENSE TO ANY THIRD PARTY TECHNOLOGY OR INTELLECTUAL PROPERTY RIGHT, IS GRANTED HEREIN. SENSATA DATA SHEETS ARE PROVIDED “AS IS”. SENSATA MAKES NO WARRANTIES OR REPRESENTATIONS WITH REGARD TO THE DATA SHEETS OR USE OF THE DATA SHEETS, EXPRESS, IMPLIED OR STATUTORY, INCLUDING ACCURACY OR COMPLETENESS. SENSATA DISCLAIMS ANY WARRANTY OF TITLE AND ANY IMPLIED WARRANTIES OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE, QUIET ENJOYMENT, QUIET POSSESSION, AND NON-INFRINGEMENT OF ANY THIRD PARTY INTELLECTUAL PROPERTY RIGHTS WITH REGARD TO SENSATA DATA SHEETS OR USE THEREOF.All products are sold subject to Sensata’s terms and conditions of sale supplied at SENSATA ASSUMES NO LIABILITY FOR APPLICATIONS ASSISTANCE OR THE DESIGN OF BUYERS’ PRODUCTS. BUYER ACKNOWLEDGES AND AGREES THAT IT IS SOLELY RESPONSIBLE FOR COMPLIANCE WITH ALL LEGAL, REGULATORY AND SAFETY-RELATED REQUIREMENTS CONCERNING ITS PRODUCTS, AND ANY USE OF SENSATA COMPONENTS IN ITS APPLICATIONS, NOTWITHSTANDING ANY APPLICATIONS-RELATED INFORMATION Revised 2/7/18ORDERING OPTIONSP255Sensor, 0 - 15 PSI, Nitrile Seal Material, 1/4 - 18 NPT Pressure Connection with Mating ConnectorA: Packard with Mating Connector C: Packard without Mating ConnectorAGENCY APPROVALS & CERTIFICATIONS2011/65/EU ROHS Directive。

The P60R8 pH sensor is a dependable industrial grade sensor designed to provide accurate measurement and longer service life under the most demanding conditions. Some features of this sensor include: differential measurement technology, replaceable salt bridge and encapsulated preamp. The P60R8 incorporates all the benefits of differential measurement found in other models of the 60 series, field proven in thousands of installations. This technique uses two glass electrodes to make the measurement differentially with respect to a third metal electrode. The domed glass process electrode is specially designed for tough applications. The second electrode is immersed in a pH 7 buffer encapsulated in the sensor.This second electrode is protected from the process by a double junction replaceable salt bridge. The resulting true differential measurement has several advantages over conventional sensors: ground loop problems are virtually eliminated, and the salt bridge is easily replaced.If the internal solution becomes contaminated, the sensor can be rejuvenated at modest cost by replacing the salt bridge and reference solution. Automatic temperature compensation is accomplished through the use of a Pt1000 RTD at the tip of the sensor. This Pt1000 RTD placement provides rapid response for process temperature variations.The encapsulated preamplifier provides an output signal which can be transmitted 3000 feet over inexpensive cable. Another version encapsulates a blind 4-20 mA two wire transmitter which can transmit a virtually unlimited distance over a twisted pair cable. (See P65 data sheet).• Differential measurement technology • Replaceable Salt Bridge• Double junction for longer life • Low Maintenance Cost • Field-proven• Encapsulated Preamplifier • Transmits up to 3000 ft.• Chemically resistant• 4-20 mA two-wire blind transmiterversion available (model P65)AquaMetrix Model P60R8 -015Differential pH Sensor100 School Street Andover, MA 01810978-749-9949Toll free 855-pH Probe(855-747-7623)• Process Control• Industrial and Municipal Water Treatment• Industrial and Municipal Waste Treat-ment and Neutralization • Fume Scrubbers • Plating• Circuit Board Manufacturing • Food and Beverage • Chemical Processing • Pulp and Paper • MiningDescriptionFeaturesApplicationsModel P60R8 (pH)Model P60R8 Differential pH Sensor 978-749-9949 Toll free - 855-747-7623 (855-pHProbe)Technical DataRelated ProductsMeasuring Range 0 to 14 pH (Consult factory for ap-plications below 2 or above 12).Wetted Materials Ryton, Kynar, glass, titanium palladium alloy and Viton .Temperature Limits -5 to 95°C (23 to 203°F)Maximum Pressure 100 psig at 150°F (65°C)Maximum Flow Rate10 ft./sec maximum (3 meters/sec)Flow should be as low as possible in water with low conductivity wa-ter or suspended sol Automatic Tempera-ture CompensationStandard PT1000Ω RTD Optional ATC: 300 NTCACCESORIES AM-SBK-8Salt bridge kit for -8 series sensor (3 Pack)AM-ARM-8Submersion hardware for -8 series sensor AM-CBL60Extension cable for 60 series AM-JB1NEMA 4X junction boxAM-PTR-8Electrode protector for -8 series sensor AM-TEE-82” Union Tee with adaptor for -8 series sensor AM-JET-8Jet cleaner for -8 series sensor AM-SFL-82” Sanitary flange for -8 series sensorCALIBRATION SOLUTIONS AM-PH4-1P pH 4 Buffer, 1 pint (500 mL)AM-PH7-1P pH 7 Buffer, 1 pint (500 mL)AM-PH10-1PpH 10 Buffer, 1 pint (500 mL)Ordering InformationP60R8-015pH sensor, 1-1/2” NPT threaded body P60R8H-015pH sensor with Hard glass electrode P60R8A-015pH sensor with Antimony electrode P60R8F-015pH sensor with flat faced electrode P60R8N-015pH sensor with 300NTC thermistorANALYZERS AM-2250Multi-Parameter Controller AM-2250TX Multi-Parameter Transmitter AM-2251Multi-Parameter ControllerDimensionsStability0.03 pH per day, non-cumulative Sensitivity 0.001 pH unit Accuracy ± 0.02 pHSensor Cable5 Conductor plus shield, 15 ft. (4.6m)。

Reliable modulated optical transmissionOMP600 – innovative process controlProcess setting In-process control Post-process monitoringProcess foundationTackle process variation at source, and reap the rewardsThe higher the degree of human involvement in the manufacturing process, the higher the risk for error. Automated in-process measurement using Renishaw probes can help eliminate the risk. The Renishaw OMP600 optical probe system can facilitate the following measures for enhanced management of your production leading to an increase in your profits.Process foundationOptimisation and monitoring of machine tool performance.The OMP600 – used in conjunction with Renishaw’s machine specific software, AxiSet™ Check-Up, provides fast, accurate and reliable performance data with powerful yet simple reporting.• Eliminate machine errors • Reduce unplanned stoppages • Produce consistently good partsProcess settingAutomated measurement of component position and alignment.The OMP600 combines the world’s most flexible, high precision, and optical capabilities in a compact probe. Unlike conventional probes from other brands, increased stylus lengths can be supported with no significant decrease in probe performance, which means previously difficult job set-ups are more easily accommodated.• Eliminate costly fixtures and manual setting errors• Introduce new processes quickly and respond to new customer needs • Set up faster, improve quality and reduce scrapIn-process controlAutomated measurement of roughed and finished multi-axis features.The OMP600’s submicron 3D performance enables probing of complex geometry not possible with conventional probes from other brands. Adaptive machining can beseamlessly integrated when used in conjunction with Renishaw’s Productivity+™ software.• Improve process capability and traceability• Compensate for environmental and machine conditions• Reduce non-productive time and scrap, increase productivity and profitsPost-process monitoringVerification of component conformance prior to removal from machine.The OMP600 used in conjunction with Renishaw’s on-machine verification software, OMV , enables reliable verification against a CAD model, which means less inspection off-machine and therefore less set-up and rework.• Reduce off-machine inspection time and costs• Rapid, traceable reporting of part conformance to specification • Increase confidence in manufacturing processOMP600 – an unrivalled combination of flexibility and accuracyRENGAGE™ superior 3D performanceLobing, a characteristic of all probes, is caused by variation in the bending of the stylus and movement of the probemechanism before the probe registers contact with a surface. It is therefore dependent upon:• Length and stiffness of the stylus • Force required to trigger the probe • Direction of contact with the surface • Design of the probe mechanismRengage technology as featured in OMP600 – was tested for 3D accuracy against products from other brands. The results as illustrated in the error plots below are compelling.RENGAGE™ technologyRengage combines proven silicon strain gauge technology and ultra compact electronics to achieve unparalleled performance and capabilities. Suitable for a wide range of machine tool applications and able to address the 3D performance limitations of many alternative probe designs, only Renishaw’s MP250, OMP400, OMP600 and RMP600 probes feature this technology.Unbeatable 3D accuracy and repeatability enables reliable on-machine gauging/measurement Improved accuracy with long styli means difficult partscan be probed more easilyUltra low trigger force for delicate work helps eliminate possible surface and form damage Compact design enables better access in restricted spaces and small machinesRobust, even in the harshest environment, means reliable measurement and long service lifeReduced set-up and calibration timeImproved control processes and quality set-up Reduced costs, increased profits67.5°45°22.5°0° equatorPoleClose up of strain gaugeStrain gauge independent ofTest method25 mm calibration sphere probed at 5° increments around X Y planes at four different latitudes.The benefits of modulated transmissionRenishaw’s modulated optical technology uses coded signals and is optimised to work within areas having other light sources.In addition to providing secure optical transmission, thetechnology is integrated into the OMM-2 and OSI multi-probe interface so an OMP600 can be used in conjunction with up to two Renishaw optical tool setters (OTS). This provides even greater flexibility and performance benefits. Other system configurations are available.The advantages are clear to see• Resistant to interference from other light sources • Robust and proven transmission method • Single interface supports multiple probes • Can be used with automatic tool changers • Suitable for retrofit installationOMP600 and modulated transmission optimised for safe, reliable and efficient performanceEase of use and reliabilityUnique to Renishaw, T rigger Logic™ is a simple methodwhich enables the user to quickly adjust probe mode settings for specific applications.Constructed from the highest grade materials, Renishaw probes are robust and reliable in the harshest environments including shock, vibration, temperature extremes and evencontinual liquid immersion.For further details, please refer to the OMP600 data sheet H-5180-8200.Example of multi-probe systemmore reliably and more accurately will quickly maximise productivity, profits and your competitive edge.Automated part setting with the Renishaw OMP600 probe is up to 10 times faster than manual methods, which means immediate and significant cost savings.Scrap and rework reduce productivity and profits.The Renishaw OMP600 probe helps guarantee“right first time” parts which means reduced wasteand increased profits.OMP600 key features• Compact design with optical transmission for medium-size machining centres and mill-turn centres• RENGAGE™ technology — proven and patented• Trigger Logic™ for quick and easy set-up• Secure modulated optical transmission offers increased resistance to light interference Renishaw, an established world leader in metrology solutions invented the touch-trigger probe in the 1970s.Decades of customer focus and investment in development, coupled with our own manufacturing experience enables us to provide innovative and exceptional products that are unmatched for technical excellence and performance.Customer comment“Meeting current and future performance requirements forour products demands manufacture of ever smaller and moreintricate parts that are consistently accurate to within 1 μm.Reliable set-up and measurements are therefore critical tothis process and form the basis of our decision to useRengage technology.”Flann MicrowaveManualAutomatedPart set-upRenishaw plcNew Mills, Wotton-under-Edge, Gloucestershire GL12 8JR United KingdomT +44 (0) 1453 524524 F +44 (0) 1453 524901 E ***************©20xx Renishaw plc. All rights reserved.Renishaw reserves the right to change specifications without noticeRENISHAW and the probe symbol used in the RENISHAW logo are registered trade marks of Renishaw plc in the United Kingdom and other countries. apply innovation and names and designations of other Renishaw products and technologies are trade marks of Renishaw plc or its subsidiaries. All other brand names and product names used in this document are trade names, trade marks or registered trade marks of their respective owners.RENISHAW HAS MADE CONSIDERABLE EFFORTS TO ENSURE THE CONTENT OF THIS DOCUMENT IS CORRECT A T THE DA TE OF PUBLICATION BUT MAKES NO WARRANTIES OR REPRESENT ATIONS REGARDING THE CONTENT . RENISHAW EXCLUDES LIABILITY , HOWSOEVER ARISING, FOR ANY INACCURACIES IN THIS DOCUMENT .For worldwide contact details, please visit our main website at /contactAbout RenishawRenishaw is an established world leader in engineering technologies, with a strong history of innovation in product development and manufacturing. Since its formation in 1973, the company has supplied leading-edge products that increase process productivity, improve product quality and deliver cost-effective automation solutions.A worldwide network of subsidiary companies and distributors provides exceptional service and support for its customers.Products include:• Additive manufacturing, vacuum casting, and injection moulding technologies for design, prototyping, and production applications • Advanced material technologies with a variety of applications in multiple fields • Dental CAD/CAM scanning and milling systems and supply of dental structures • Encoder systems for high accuracy linear, angle and rotary position feedback • Fixturing for CMMs (co-ordinate measuring machines) and gauging systems • Gauging systems for comparative measurement of machined parts• High speed laser measurement and surveying systems for use in extreme environments • Laser and ballbar systems for performance measurement and calibration of machines • Medical devices for neurosurgical applications• Probe systems and software for job set-up, tool setting and inspection on CNC machine tools • Raman spectroscopy systems for non-destructive material analysis • Sensor systems and software for measurement on CMMs •Styli for CMM and machine tool probe applications*H-5180-8300-01Issued: 0914 Part no. H-5180-8300-01。

NOV ATECH操作说明1、技术参数1．1输入✧氧化锆氧探头（加热或未加热）✧加热炉，干燥炉或烟道热电偶，现场可选的K或R型✧主火焰安全连锁✧吹扫压力开关✧双燃料选择器✧可选远程报警输入1．2输出✧2个4~20mA输出，负载：1000Ω✧公共报警继电器✧3个可选的报警继电器1．3 通讯输出RS232或RS485用于与计算机相连。

可用于诊断分析仪、探头、传感器或燃烧过程。

1．3精度：±1%实际测量值1．4重复性：±0.5%实际测量值1．5继电器接点：24V DC 0.5A1．6环境温度：0~50℃1．7电源：240/110V AC 50/60Hz，105V A（加热型），5V A（不加热型）1．8重量：3Kg2、1230系列探头&传感器1230系列探头&传感器安装维护简单。

可直接测量、需要时可以在线进行自动标定。

1230系列探头&传感器可与NOV ATECH分析仪或其他分析仪连接（见说明书5.5.89部分）。

1230系列探头&传感器包括：1231加热型探头和1232非加热型探头两种探头及1234传感器定货信息：✧探头插入深度（从安装螺纹到探头敏感端）✧安装螺纹（过程连接），BSP或NPT2．1 探头参数12311232温度范围：0~900℃700~1400℃探头长度：250~2000mm 500~1500mm连接方式：1 1/2“BSP或NPT 3/4”BSP或NPT加热：是非热电偶：K（一体）R（一体）响应时间：＜4秒（典型的）＜1秒（典型的）头部温度：最大125℃最大125℃参考气体：环境空气：50~500cc/min(6~60scfm)。

由分析仪气泵提供。

参考气连接：1/4“NPT 与探头电缆一体的空气管路，3/16”ID PVC管过滤器：30m(或15m)不锈钢粉末冶金（装过滤器时样气温度要低于500℃）标气连接：1/8“阴NPT 1/8“阴NPT2．2关于吹扫和标定由于氧化锆的绝对测量特性和NOV ATECH分析仪的自标定特性，通常不需要标准气对探头进行标定。