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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。

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Drucktransducer mit kapazitivem, keramischen DrucksensorAnwendungsgebietDrucktransducer für den Einsatz zur Druckmessung von flüssigen und gasförmigen Medien.Ihre VorteileTrockener kapazitiver Keramiksensor mit hochreiner Al 2O 3 Keramik •hohe Überlastfestigkeit •sehr gute Langzeitstabilität •hohe Korrosionsbeständigkeit•digitaler/analoger Signalausgang (SPI, UART, U)•kleine Baugröße•Messbereiche von 0 … 100 mbar (0 … 1,5 psi) bis 0 … 100 bar (0 … 1 500 psi)•optionaler Temperaturausgang, Schaltausgang •Sondermessbereiche auf AnfrageProducts Solutions ServicesTechnische Information Ceracore UTC30ProzessdruckmessungTI01296O/00/DE/01.1871393817Ceracore UTC302Endress+HauserInhaltsverzeichnisHinweise zum Dokument (3)Dokumentfunktion ............................3Verwendete Symbole ...........................3Begriffe und Abkürzungen .......................4Turn down Berechnung .........................5Arbeitsweise und Systemaufbau (6)Messprinzip .................................6CARMEN .. (6)Eingang ..................................7Gemessene Prozessgröße ........................7Messbereich (7)Ausgang (8)Ausgangssignal ..............................8Signalbereich und Ausfallsignal des Spannungsausgan-ges .......................................8Verhalten im Fehlerfall .........................8Totzeit, Zeitkonstante ..........................9Dynamisches Verhalten .........................9Dämpfung ..................................9Einschaltzeit ................................10Anwärmzeit .. (10)Energieversorgung (11)Versorgungsspannung .........................11Stromaufnahme .............................11Anschluss des Sensors . (11)Leistungsmerkmale (13)Referenzbedingungen .........................13Referenz-Genauigkeit ..........................13Langzeitstabilität . (13)Montage (13)Einfluss der Einbaulage ........................13Umgebung (14)Umgebungstemperaturbereich ....................14Lagerungstemperaturbereich .....................14Schutzart ..................................14Klimaklasse ................................14Elektromagnetische Verträglichkeit (EMV)...........14Überspannungsschutz .........................14Schwingungsfestigkeit .........................14Prozess (15)Prozesstemperaturbereich .......................15Prozesstemperaturbereich, Dichtungen ..............15Druckangaben (15)Konstruktiver Aufbau (16)Gerätehöhe ................................16Gehäuse ..................................17Prozessanschlüsse . (17)Werkstoffe (19)Zertifikate und Zulassungen (20)RoHS .....................................20Druckgeräterichtlinie 2014/68/EU (DGRL)...........20Externe Normen und Richtlinien ..................20Kalibration; Einheit ...........................21Dienstleistung ..............................21Werkszeugnisse (auf Anfrage)....................21Bestellinformationen .......................22Zubehör .................................22Ergänzende Dokumentation ..................23Kontaktadressen ..........................23Ceracore UTC30Endress+Hauser 3Hinweise zum DokumentDokumentfunktionDas Dokument liefert alle technischen Daten zum Gerät und gibt einen Überblick über die bestellba-ren Geräteausführungen und Zubehör.Verwendete SymboleWarnhinweissymboleSymbole für InformationstypenSymbole in GrafikenCeracore UTC304Endress+HauserCeracore UTC30Endress+Hauser 5Turn down BerechnungURL = URVLRV LRL A0036653Ceracore UTC306Endress+HauserArbeitsweise und SystemaufbauMessprinzipKernstück des UTC30 bildet das kapazitive keramische Sensorelement. Das Basismaterial Al 2O 3 ist eine gegen viele aggressive Gase und Flüssigkeiten hochbeständige Keramik. Zwei zylindrische Kera-mikteile (Prozessmembran und Grundkörper) werden mechanisch hochfest und hermetisch dicht miteinander verbunden. Bei Absolutdrucksensoren bleibt das im Herstellprozess erzeugte Vakuum von 3,0 x 10-6 mbar zwischen Prozessmembran und Grundkörper dauerhaft bestehen. Das ermög-licht Druckmessungen bezogen auf das Vakuum. Bei Relativdrucksensoren wird die Rückseite der Prozessmembran belüftet, d.h. dieser Sensor misst den Überdruck relativ zum Atmosphärendruck.Das Sensorelement stellt elektrisch einen Plattenkondensator dar, dessen Kapazitätsänderung das Maß für die Druckänderung ist. Das kapazitive Messverfahren erfüllt höchste Anforderungen an Auflösung und Reproduzierbarkeit. Zusammen mit dem hysteresefreien Verhalten des Materials Al 2O 3 bildet es die Basis für die sehr guten technischen Daten des Drucktransducers. Zusätzlich ist das Sensorelement eine trockene Messzelle, d.h. es gibt keine Trennmembran oder Ölfüllung, welche die Messung beeinflussen könnte. Ein weiterer entscheidender Vorteil des kapazitiven keramischen Sensors ist seine hohe Überlastfestigkeit. Nach der Wegnahme der Überlast kehrt die Prozessmemb-ran ohne Schaden und ohne Hysterese in die Ausgangslage zurück.A Relativdruck-ZelleB Absolutdruck-Zelle 1Cr-Elektrode 2Cp-Elektrode 3Lotring4Gegenelektrode 5Grundkörper 6Prozessmembran p atm AtmosphärendruckCARMENDer ASIC CARMEN wird in Sensoranwendungen genutzt um physikalische Größen (z.B. Druck) durch externe kapazitive oder resistive Sensoren in industrieller Umgebung zu messen.Jeder Sensortyp hat seine individuellen Eigenschaften. Diese physikalischen Eigenschaften müssen durch CARMEN individuell kompensiert werden. CARMEN führt dabei folgende Aufgaben aus:•Messung des externen Sensors (Kapazitätsdifferenz, Spannungsdifferenz, Temperatur)•Kompensation von Sensoroffsets •Anpassung der Verstärkung•Linearisierung der Sensorcharakteristik •Kompensation von Temperatureffekten•Ausgabe der korrigierten und kompensierten Messwerte •zusätzliche Funktionen (Dämpfung, Filterung, etc.)Erläuterungen zur Funktionalität und Kommunikation sind in den S&C CARMEN Manuals aufge-führt → 23Ceracore UTC30Endress+Hauser 7EingangGemessene Prozessgröße•Relativdruck oder Absolutdruck •Temperatur Messbereich1)höher auf Anfrage 2)auf AnfrageCeracore UTC308Endress+HauserAusgang1)Auf AnfrageSignalbereich und Ausfallsig-nal des Spannungsausganges1Kalibrierter Messbereich 2Erweiterter MessbereichDer Signalbereich sowie das Ausfallsignal ist an NAMUR NE 43 angelehnt. Das Ausfallsignal ist kon-figurierbar.Verhalten im Fehlerfallsiehe S&C CARMEN ManualCeracore UTC30Totzeit, Zeitkonstante Darstellung der Totzeit und der Zeitkonstante:1% des MesswertesDynamisches Verhalten 1)Die maximal einstellbare Messrate zur Messwertaufnahme beträgt 1,25 ms, allerdings ist die maximale Geschwindigkeit des Digitalausgangs auf2,5 ms begrenzt.Dämpfung Kundenspezifisch einstellbar: 0...40 sEndress+Hauser9Ceracore UTC3010Endress+HauserEinschaltzeitDie Einschaltzeit ist die verstrichene Zeit vom Einschalten der Versorgungsspannung bis zur Bereit-stellung des ersten Digitalwertes bzw. initialem Analogwert.1)Die maximal einstellbare Geschwindigkeit zur Messwertaufnahme beträgt 1,25 ms, allerdings ist die maxi-male Geschwindigkeit des Digitalausgangs auf 2,5 ms begrenzt.AnwärmzeitDie Anwärmzeit ist die verstrichene Zeit vom Einschalten der Versorgungsspannung bis zum ersten digitalen Messwert bzw. Analogwert innerhalb der spezifizierten Referenzgenauigkeit (z.B. 0,1 %Spanne).1)Die maximal einstellbare Geschwindigkeit zur Messwertaufnahme beträgt 1,25 ms, allerdings ist die maxi-male Geschwindigkeit des Digitalausgangs auf 2,5 ms begrenzt.Energieversorgung1)andere Werte auf AnfrageStromaufnahme‣Auf korrekte Polung achten.HINWEISFalscher analoger Messwert durch Leitungsbruch von GND!‣Leitungsbruch von GND verhindern.Buchsenleiste 2x5 Pins (1,27 mm (0,05 in) Raster)Stiftleiste 2x5 Pins (2,54 mm (0,1 in) Raster)LeistungsmerkmaleReferenzbedingungen•nach IEC 60770•Umgebungstemperatur T U = konstant, im Bereich: +23 … +27 °C (+73 … +81 °F)•Relative Feuchte j = konstant, im Bereich: 5 ... 80 % r.F.•Umgebungsdruck p U = konstant, im Bereich: 860 … 1060 mbar (12,47 … 15,37 psi)•Lage der Messzelle = konstant, im Bereich: Prozessmembrane zeigt nach unten (siehe auch Kapitel"Einfluss der Einbaulage" → 13)•Messspanne URL - LRL•Werkstoff der Prozessmembran: Al2O3 (Aluminium-Oxid-Keramik FDA, hochrein 99,9 %)•Versorgungsspannung Analogausgang: 4,9...5,1 V DC•Versorgungsspannung Digitalausgang: 2,9 ... 5,5 V DCReferenz-Genauigkeit Die Referenzgenauigkeit enthält die Nicht-Linearität [DIN EN 61298-2 3.11] inklusive der Druck-hysterese [DIN EN 61298-23.13] und der Nicht-Wiederholbarkeit [DIN EN 61298-2 3.11] gemäßder Grenzpunktmethode nach [DIN EN 60770].LangzeitstabilitätMontageEinfluss der Einbaulage Die Einbaulage ist beliebig, kann aber eine Nullpunktverschiebung verursachen.A BCA0035988UmgebungUmgebungstemperaturbe-reich –20 … +80 °C (–4 … 176 °F)Erweiterter Temperaturbereich –40 … +125 °C (–40 … +257 °F) (auf Anfrage)Lagerungstemperaturbereich–20 … +80 °C (–4 … 176 °F)Erweiterter Temperaturbereich –40 … +125 °C (–40 … +257 °F) (auf Anfrage)Elektromagnetische Verträg-lichkeit (EMV)Keine Spezifikation (offenes System)Überspannungsschutz 6 V DC (maximale Spannung für CARMEN ASIC)ProzessProzesstemperaturbereich–20 … +80 °C (–4 … 176 °F)Erweiterter Temperaturbereich –40 … +125 °C (–40 … +257 °F) (auf Anfrage) Prozesstemperaturbereich,DichtungenDruckangaben L WARNUNGDer maximale Druck für das Messgerät ist abhängig vom druckschwächsten Glied.‣Für Druckangaben siehe Abschnitt "Messbereich" → 7 und Abschnitt "Konstruktiver Aufbau"→ 16.‣Messgerät nur innerhalb der vorgeschriebenen Grenzen betreiben!‣Der Prüfdruck entspricht der Überlastgrenze der einzelnen Sensoren (Over pressure limit OPL =1,5 x MWP) und darf nur zeitlich begrenzt anliegen, damit kein bleibender Schaden entsteht.‣Die Druckgeräterichtlinie (2014/68/EU) verwendet die Abkürzung "PS". Die Abkürzung "PS" ent-spricht dem MWP (Maximum working pressure/max. Betriebsdruck) des Messgerätes.‣Dampfschläge sind zu vermeiden! Dampfschläge können Nullpunktdrifts verursachen. Empfeh-lung: Nach der CIP-Reinigung können Restmengen (Wassertropfen bzw. Kondensat) auf der Pro-zessmembran verbleiben und bei erneuter Dampfreinigung zu lokalen Dampfschlägen führen.Die Trocknung der Prozessmembran (z.B. durch Abblasen) hat sich in der Praxis zur Vermeidungvon Dampfschlägen bewährt.Konstruktiver AufbauGerätehöhe Die Gesamthöhe ergibt sich aus•der Höhe des Gehäuses und•der Höhe des jeweiligen Prozessanschlusses.In den folgenden Kapiteln sind die Einzelhöhen der Komponenten aufgeführt. Sie können dieGesamthöhe einfach ermitteln, indem Sie die Einzelhöhen zusammenaddieren. Sie können hierzufolgende Tabelle verwenden:1)Bei Wahl der Stiftleiste 2x5 Pins ist das Elektronikgehäuse montiert.1)Die Kapsel "AB" wird verwendet, wenn einer der Prozessanschlüsse der folgenden Seite ausgewählt wird.Werkstoffe Prozessberührende Werkstoffe1)Die US Food & Drug Adminsitration (FDA) sieht keine Einwände, Keramiken aus Aluminiumoxid als Ober-flächenmaterial in Kontakt mit Lebensmitteln einzusetzen. Diese Erklärung beruht auf den FDA- Nachwei-sen unserer Keramiklieferanten.TSE-Freiheit (Transmissible Spongiform Encephalopathy)Für alle prozessberührenden Gerätekomponenten gilt:•Sie enthalten keine Materialien tierischen Ursprungs.•Bei der Produktion und Verarbeitung werden keine Hilfs- und Betriebsstoffe tierischen Ursprungsverwendet.ProzessanschlüsseEndress+Hauser liefert Einschraubgewinde in Edelstahl entsprechend AISI 316L (DIN/ EN Werk-stoffnummer 1.4404 oder 1.4435) aus. Die Werkstoffe 1.4404 und 1.4435 sind in ihrer Festigkeit-Temperatur-Eigenschaft in der EN 1092-1: 2001 Tab. 18 unter 13E0 eingruppiert. Die chemischeZusammensetzung der beiden Werkstoffe kann identisch sein.Nicht-prozessberührende WerkstoffeZertifikate und ZulassungenRoHS Das Messsystem entspricht den Stoffbeschränkungen der Richtlinie zur Beschränkung der Verwen-dung bestimmter gefährlicher Stoffe 2011/65/EU (RoHS 2).Druckgeräterichtlinie 2014/68/EU (DGRL)Druckgeräte mit zulässigem Druck ≤ 200 bar (2900 psi)Druckgeräte (maximal zulässiger Druck PS ≤ 200 bar (2900 psi)) können nach der Druckgerätericht-linie 2014/68/EU als druckhaltende Ausrüstungsteile eingestuft werden. Wenn der maximal zuläs-sige Druck ≤ 200 bar (2900 psi) und das druckhaltende Volumen des Druckgerätes ≤ 0,1 l betragen, so unterliegt das Druckgerät der Druckgeräterichtlinie (siehe Druckgeräterichtlinie 2014/68/EU, Art.4, Absatz 3). Die Druckgeräterichtlinie beschreibt lediglich, dass das Druckgerät entsprechend der "guten Ingenieurspraxis in einem der Mitgliedsländer" entworfen und gefertigt werden muss.Begründung:•Druckgeräterichtlinie DGRL (PED) 2014/68/EU, Artikel 4, Absatz 3•Pressure equipment directive 2014/68/EU, Commission´s Working Group "Pressure", GuidelineA-05 + A-06Anmerkung:Für Druckgeräte, die Teil einer Sicherheitseinrichtung zum Schutz einer Rohrleitung oder einesBehälters gegen Überschreitung der zulässigen Grenzen sind (Ausrüstungsteil mit Sicherheitsfunk-tion entsprechend Druckgeräterichtlinie 2014/68/EU Art. 2, Abs. 4), ist eine gesonderte Betrach-tung vorzunehmen.Externe Normen und Richtli-nien Die angewandten Europäischen Normen und Richtlinien können den zugehörigen EG-Konformität-serklärungen entnommen werden. Es wurden außerdem angewandt:DIN EN 60770 (IEC 60770):Messumformer zum Steuern und Regeln in Systemen der industriellen Prozesstechnik Teil 1: Metho-den für Bewertung des BetriebsverhaltensMethoden zur Bewertung des Betriebsverhaltens von Messumformern zum Steuern und Regeln in Systemen der industriellen Prozesstechnik.DIN 16086:Elektrische Druckmessgeräte, Druckaufnehmer, Druckmessumformer, Druckmessgeräte Begriffe, Angaben in DatenblätternVorgehensweise zur Angaben in Datenblättern von elektrischen Druckmessgeräten, Druckaufneh-mern, Druckmessumformern.EN 61010-1 (IEC 61010-1):Sicherheitsbestimmungen für elektrische Mess-, Steuer-, Regel- und LaborgeräteEN 60529:Schutzarten durch Gehäuse (IP-Code)Ceracore UTC30Endress+Hauser 21Dienstleistung Werkszeugnisse (auf Anfrage) 3.1 Materialnachweis, mediumberührte metallische Teile, EN10204-3.1 AbnahmeprüfzeugnisCeracore UTC3022Endress+HauserBestellinformationenAusführliche Bestellinformationen sind verfügbar:Im Produktkonfigurator auf der Endress+Hauser Internetseite:Produktkonfigurator - das Tool für individuelle Produktkonfiguration •Produktspezifische Konfigurationsdaten •Je nach Gerät: Direkte Eingabe von messstellenspezifischen Angaben wie z.B. Messbereich •Automatische Überprüfung von AusschlusskriterienZubehörCeracore UTC30Ergänzende DokumentationS&C CARMEN Manual - General InformationS&C CARMEN Manual - Digital OperationS&C CARMEN Manual - Analog OperationS&C CARMEN Manual - ParametersKontaktadressenInternet: Email: ******************************.comEndress+Hauser23*71393817*71393817。

SRP系列射频导纳液位计安装调试说明书金湖欧旺科技有限公司第一章概述1.1 简介本说明书适用于通用射频导纳连续物位仪表，产品适用于大多数应用场合的连续测量。

仪表广泛用于工业和民用现场，无论室内和户外，本仪表相对其他形式仪表，对现场安装条件均无特别要求。

仪表由一个电路单元，一套防爆外壳和杆式或缆式传感器组成，传感器可选多种材质，可整体或分体式安装。

1.2 原理射频导纳物位控制技术是一种从电容式物位控制技术发展起来的，防挂料性能更好，工作更可靠，测量更准确，适用性更广的物位控制技术，“射频导纳”中“导纳”的含义为电学中阻抗的倒数，它由阻抗成份，容性成份，感性成份综合而成，而“射频”即高频，所以射频导纳技术可以理解为用高频电流测量导纳的方法。

高频正铉振荡器输出一个稳定的测量信号源，利用电桥原理，以精确测量安装在待测量容器中的传感器上的导纳，在直接作用模式下，仪表的输出随物位的升高而增加。

射频导纳技术与传统电容技术的区别在于测量参量的多样性，三端驱动屏蔽技术和增加的两个重要电路，这些是根据在实践中的宝贵经验改进而成的。

上述技术不但解决了连接电缆屏蔽和温漂问题，也解决了垂直安装的传感器根部挂料问题。

所增加的两个电路是高精度振荡驱动器和交流鉴相采样器。

对一个强导电性物料的容器，由于物料是导电的，接地点可以被认为在传感器绝缘层的表面，对仪表传感器来说仅表现为一个电容和电阻组成的复阻抗，从而引起两个问题。

第一个问题是物料本身对传感器相当于一个电容，它不消耗变送器的能量，（纯电容不耗能），但挂料对传感器等效电路中含有电阻，则挂料的阻抗会消耗能量，从而将振荡器电压拉下来，导致桥路输出改变，产生测量误差。

我们在振荡器与电桥之间增加了一个驱动器，使消耗的能量得到补充因而会稳定加在传感器的振荡电压。

第二个问题是对于导电物料，传感器绝缘层表面的接地点覆盖了整个物料及挂料区，使有效测量电容扩展到挂料的顶端，这样便产生挂料误差，且导电性越强误差越大。

概述通常湿度的测量和记录都是采用人的毛发做为测量部件但是随着对传感器反应时间要求的提高以及湿度快速变化或者在25%的湿度条件以下-10温度测量条件的大量的出现极力推荐使用我们特别设计的的测量传感器PERNIX如果你希望订购PERNIX的设备请特别指明订购需额外价钱湿度计的显示表盘由镀铝材料制白底黑字PERNIX测量部件对我们的194~202和235E250无效194 订购号00.01940.100 000圆形湿度表适合与桌面和墙挂使用钩或钉住技术数据测量范围 5~100%RH, 2%的刻度精度 2.5%RH(定期校准)工作温度-60~70尺寸 102mm,35mm D重量 0.300Kg外表天蓝色暗色镀铬外壳198 订购号00.01980.100 000温湿度表由毛细管温度传感器组成的湿度指示器由于结合了这种功能你同时可以得到相对和绝对湿度也能得到温度和露点温度技术数据测量范围 5~100%RH-25~40尺寸 133mm,46mm D重量 0.500Kg精度 2.5%RH(定期校准)1K外表天蓝色暗灰色镀铬外壳201a 订购号00.02011.100 000这种湿度计可以作为多功能测量设备由测量以%为单位的相对湿度为单位的温度和以hPa为单位的饱和压力辅件用于仪器重新标订带泡沫入口的透明箔袋技术数据测量范围5~100%RH-30~50精度 2.5%RH(定期校准) 1.0K(<0),0.7K(>0)尺寸 81mm; 242mmH; 28mm D重量0.400Kg外表天蓝色暗灰色镀铬外壳201a 订购号00.02020.100 000 Lambrech Polymeter,这种温湿度表一体化仪表允许读出相对湿度绝对湿度温度露点温度饱和压力水蒸汽压力以及不饱和度PERNIX型号无效辅件技术数据测量范围5~100%RH0.1~80g/m³绝对湿度-30~50精度 2.5%RH(定期校准) 1.0K(<0),0.7K(>0)尺寸 81mm; 242mmH; 28mm D重量0.4Kg外表天蓝色暗灰色镀铬外壳204 订购号33.02020.008 000用于201a和202型号的单独配件湿度计重量 0.050Kg220F 50P 订购号00.02202.205 000杆型湿度计带PERNIX测量部件用于测量空气湿度和吸湿性材料的含水量绝对轻制金属制造带手柄防摔坏玻璃树脂视窗技术数据测量范围5~100%RH刻度2%RH精度 2.5%RH(定期校准)工作温度-60~70尺寸 118mm; 480mmL; 杆19X8mm重量0.600Kg外层天蓝色暗灰色金属杆末梢为黑色235E 250 订购号00.02350.125 000带支架的湿度计特别适合使用在不易到达的地方表面安装技术数据测量范围5~100%RH刻度2%RH精度 2.5%RH(定期校准)工作温度-60~70尺寸 120mm 法兰;共 280mm H重量0.400Kg外层天蓝色镀铬外环235 E125 订购号00.02350.112 500带支架的湿度计如同235E250,但是深度为125mm技术数据尺寸120mm 法兰;共155 mm H重量 0.300Kg空气湿度传感器800系列这些传感器被装配在我们的 PERNIX系列产品上既带本地显示也可用于在线测量电缆末梢带护套辅件1个回形针和一个六角罗冒 R 1”主要技术数据测量范围5~100%RH刻度1%RH精度 2.5%RH(定期校准)工作温度-60~70最大电流 60mA(~0.5W)尺寸共395 mm H(帽子105mm;80mmD)重量 1.500Kg外层天蓝色暗灰色镀铬外壳800 N 30 订购号00.08000.202.030技术参数电阻 50-30-50 Ohm,对数800 L0-100 订购号00.08000.201.010电阻 0-100 Ohm,线性800 MU 订购号00.08000.206 0?2 空气湿度传感器带电阻/电流转换器有两种不同的型号输出 0~20mA(0~100%RH) 订购号00.08000.206 0024~20mA(0~100%RH) 订购号00.08000.206 042详细技术数据电阻0-100 Ohm,线性工作温度范围 -30~70输出0(4)~20mA(0~100%RH),负载500 ohm工作电压24VDC,10%重量 1.600Kg空气温湿度传感器传感器 809被装备到PERNIX传感器和铂探头上现场湿度显示内置电子器件用于温湿度在线测量在设备顶部有电缆接头接头带护套(Pg16)主要技术数据湿度测量范围 5~100%RH精度 2.5%RH温度测量范围-60~70精度0.3K(0)其它工作温度范围-60~70最大电流60mA(电阻输出)10mA(温度输出)尺寸共395 mm H(帽子105mm;80mmD)重量 1.5Kg外壳天蓝色暗灰色镀铬外壳809 L100订购号00.08090.231 515详细技术参数电阻输出5-100-5 ohm,线性809L 0-100 订购号00.08090.231 010详细技术参数电阻0-100 ohm,线性809MU 订购号00.08090.266 0?2带2个R-I转换器2个不同的型号都有效输出 0~20mA(0~100%RH) 订购号00.08090.266 1024~20mA(0~100%RH) 订购号00.08090.266 142主要技术数据电阻 0-100 ohm,线性精度 2.5%RH温度0.3K工作温度范围-30~70输出0(4)~20mA(~0~100%RH和-30~40)最大负载500 ohm工作电压24VDC10%重量 1.7Kg电气传感器8091经济型订购号00.08091.000 000一体化温湿度传感器她的精巧和可靠的设计使得她同时适合使用在工业和气象应用技术数据湿度测量元器件电容测量范围 0~100%RH精度2%RH输出模拟信号0~1VDC阻抗>2000 ohm温度测量元器件 PT100测量范围-20~80精度0.1K输出0~1V其它工作温度范围-20~80工作电压10~30VDC,10%功耗大约0.8mA重量0.4Kg8092 订购号00.08092.130 402 精密的相对湿度和空气温度传感器可以高质量的使用在工业和气象场合7芯电缆对外连接湿度测量元器件电容测量范围 0~100%RH精度1%RH(5~95%RH)2%RH其它输出模拟信号0~1VDC阻抗>1000 ohm温度测量元器件 PT100测量范围-40~60精度0.3K输出 PT100其它工作电压10~30VDC,10%功耗最大2.5mA重量0.4Kg连接电缆适合传感器00.08092.130 420,包括插入式接头(母头)长度 3.3m辅件814 订购号00.08140.000 000传感器防护罩保护传感器不受日照和雨淋适合用于空气湿度传感器800和空气温湿度传感器809技术数据尺寸 170mmФ;440mmH安装方式直接安装到22mm的杆上重量 1.7Kg漆层镀铝防水海洋色8141经济型订购号00.08141.?00 000传感器防护罩保护传感器不受日照和雨淋适合用于直径小于25mm的传感器技术数据尺寸 120mmФ;160mmH重量0.6Kg漆层白色防紫外线和挤压的塑料请选择防护罩8141经济型(M1) 订购号00.08141.000 000带固定螺纹8141经济型(M2) 订购号00.08141.100 000带固定螺纹和接头32.08141.001 000适合传感器00.08281.xxx xxx8141, 经济型(M3) 订购号00.08141.300 000使用保护盒子替代了固定螺纹适合传感器00.08092.130 xxx815保护管由镀镍的铜制造成当风速超过6m/s时或者在空气极度污染的场合使用适合传感器800和809使用重量0.070Kg.干湿球湿度计706 订购号00.0706.000 0?0标准干湿球湿度计设计用于安装到设备内部RH的测量由垂直安放的水银温度计带弹簧吸出器决定温度和温度得出的参数由水平的水银温度计决定配带我们的干湿球表格771b一个吸湿管0.5m长的毛细管和两个塞子这种干湿球温湿度计仅仅在0.2刻度时有效最大/最小温度计请选择0.5K刻度订购号:00.07060.000 0200.2K刻度订购号:00.07060.000 050技术数据(706型号)干湿球温度计-30~5015mmФ;370mmL;0.06Kg最小/最大温度:刻度 0.5K,-40~40;15mmФ;290mmL;0.05Kg刻度 0.2K,-40~40;15mmФ;290mmL;0.06Kg尺寸600mmH,200mmW重量 2.4Kg漆层白色金属支架706H 订购号00.07061.000 0?0标准干湿球温湿度计如同706除了不带三角架这种这种干湿球温湿度计仅仅在0.2刻度时有效0.5K刻度订购号:00.07061.000 0200.2K刻度订购号:00.07061.000 050706a 订购号32.07060.006 050干湿球温湿度计的部件刻度 0.5K,-30~50;15mmФ;370mmL;0.06Kg1052a-1/2K 订购号32.10520.001 020最大温度计的部件刻度 0.5K,-30~50;15mmФ;370mmL;0.06Kg1052a-1/5K订购号32.10520.001 050最大温度计的部件刻度 0.5K,-30~50;15mmФ;370mmL;0.06Kg1052b-1/2K 订购号32.10520.002 020最大温度计的部件刻度 0.5K,-30~50;15mmФ;370mmL;0.06Kg1052b-1/5K 订购号32.10520.002 050最大温度计的部件刻度 0.5K,-30~50;15mmФ;370mmL;0.06Kg707 订购号32.07060.009 000最大温度计的部件重量0.600Kg740 订购号00.07400.009 000带折叠柄的可旋转干湿球温湿度计根据需要进行温湿度测量温度计容器也可作为防辐射保护配带我们的干湿球表格771b一个吸湿管0.5m长的毛细管和两个塞子技术数据温度范围 -10~60刻度 0.2K, -30~40刻度 0.2K精度0.2K尺寸305X60X20mm(HXWXD)重量 0.600Kg740a 订购号32.07400.003010用于740型号的温度计0.2K刻度741 订购号50.07400.004 000用于740的皮制包761 订购号00.07610.000 0?0渴式干湿度计简易型用于湿度和温度定义的标准设备根据DIN58661 标准制作的精密水银温度计适合与调整其它的温度和湿度产品双壁设计减少辐射影响两个温度计都必须在由吸尘器产生的2m/s的风速的空气流通下工作辅件带湿气的容器安装螺纹线性发条0.5m的毛细管参数校验证书干湿表771b塑料箱子需要另外订购请选择-5~600.2刻度订购号00.07610.000 010-30~400.2刻度订购号00.07610.000 020技术数据精度0.2K在测量范围的最大误差0.2K在任何10的范围内的最大误差0.1K尺寸90mm,420mmH,箱子420x285x100mm(LXWXH)重量设备 1.2公斤辅件 1Kg漆层白色吸出器镀铬管761a 订购号32.07610.003 010单独温度计761a 订购号32.07610.003 020单独温度计761,官方认证订购号00.07610.000 0?2渴型干湿度湿度计就如761型只是增加了官方认证证书请选择你需要的测量范围:-5~600.2刻度订购号00.07610.000 012-30~400.2刻度订购号00.07610.000 022761a官方认证订购号32.07610.003 012单独温度计,用于00.07610.000 012,-5~60761a官方认证订购号32.07610.003 022单独温度计, 用于00.07610.000 022,-30~40761e订购号32.07610.020 000手持式推荐用于移动测量用于固定测量的干湿球湿度计819 订购号00.8190.000 000干湿球湿度计特别用于户外使用空气湿度测量通过2个倾斜的铂电极这两个铂电极必须被保护不受辐射连续的气流必须从相反的方向连续通过防止外界影响技术参数测量范围依赖于外接的显示器/记录器/转换器精度0.1K在0时工作温度范围0以上供电230V AC;50Ha,160mA水柜容量150cm³重量 1.9Kg干湿度湿度表和便携计算器用测量值并且套用公式计算湿度值需要大量的时间因此图形或者数字干湿球湿度表被经常使用渴氏干湿球计算表德国气象服务编辑德国Friedrich Vieweg, Brauschweig出版我们的每个干湿球湿度都是由图形干湿球表提供在大气压1006.6hPa的情况下计算得出在某种高精度的调节需要下在有20hPa的偏差的情况下必须进行压力修正在大多数修正条件下我们提供便携计算器767和湿度计算表768G768G 订购号00.07680.030 000干湿球湿度表根据Sonntag计算曲线有详细的蒸汽压力和湿度修正应用的大气压力范围670~1065hPa曲线大小 Din A4(210x297mm)771b 订购号00.07710.020 000用于湿度计算的干湿球湿度表湿度范围0~100%RH环境温度范围0~100参考压力1006.6hPa表尺寸560X580mm767 订购号00.07670.001 000可编程便携计算器带湿度计算程序包含Sprung公式也能用于修正计算相对湿度和绝对湿度也能计算修正露点这个预设参数是在大气压力1006.6的情况用户也可根据自己的要求随意更改重量0.500Kg。

Prima Electro控制单元是一个实时控制单元，由意大利Prima Electro公司制造。

该公司成立于1978年，专门致力于机械、电子和软件的集成。

随着时间的推移，Prima Electro已经发展成为一家能够提供各种控制解决方案的公司，其控制单元广
泛应用于各种工业领域。

Prima Electro控制单元的特点是具有高度的可靠性和稳定性，能够在各种恶劣的工
业环境中稳定运行。

此外，该控制单元还具有易于编程和调试的优点，使得用户能够方便地实现各种控制逻辑和算法。

总的来说，Prima Electro控制单元是一个功能强大、可靠性高的实时控制单元，适
用于各种工业自动化和控制应用。

全球15家射频器件供应商盘点（附国内上市公司名单）如今，手机中射频（RF）器件的成本越来越高。

一个4G全网通手机，前端RF套片的成本已达到8-10美元，含有10颗以上射频芯片，包括2-3颗PA、2-4颗开关、6-10颗滤波器。

未来随着5G的到来，RF套片的成本很可能会超过手机主芯片。

再加上物联网的爆发，势必会将射频器件的需求推向高潮。

成本昂贵，95%的市场被欧美厂商把持通常情况下，一部手机主板使用的射频芯片占整个线路面板的30%-40%。

据悉，一部iPhone 7仅射频芯片的成本就高达24美元，有消息称苹果今年每部手机在射频芯片上的投入将历史性地超过30美元。

随着智能手机迭代加快，射频芯片也将迎来一波高峰。

目前，手机中的核心器件大多已实现了国产化，唯独射频器件仍在艰难前行。

据悉，全球约95%的市场被控制在欧美厂商手中，甚至没有一家亚洲厂商进入顶尖行列。

射频器件细分领域目前，手机中的射频器件主要包括功率放大器（PA）、双工器、射频开关、滤波器（包括SAW与BAW两种）、低噪放大器（LNA）等等。

归结起来，射频器件主要三大细分领域为射频滤波器、射频开关、PA芯片（功率放大器芯片）。

滤波器：对于中国公司来说，滤波器是最难跨过的一道门槛，因为面临着专利和工艺两大难题，所以目前几乎没有能够量产的国产Saw滤波器。

由于芯片太厚，都没法做进集成模块，只能做外挂。

总体而言，国内的滤波器目前还处在中低端。

SOI射频开关：国内做SOI射频开关的公司已有20-30家，价格战已开始进入白热化。

其中，中国电科55所研制生产的GaAs及SOI 移动终端射频开关产品在华为、中兴等知名国产品牌移动终端产品中得到广泛应用，实现年出货量2亿只。

特别是SOI移动终端射频开关产品，采用了GPIO和MIPI控制模式，具有高效率、低损耗、高隔离的技术优势，同时做到了尺寸更小、成本更低、集成度更高。

PA（功率放大器）：手机中除主芯片外最重要的外围元件之一，影响着手机的信号强度、通信质量以及基站效率。

COMSOL使用技巧目录一、几何建模 ................................................................................................................................. - 1 -1.1组合体和装配体 ................................................................................................................. - 1 -1.2隐藏部分几何 ..................................................................................................................... - 2 -1.3工作面 ................................................................................................................................. - 3 -1.4修整导入的几何结构 ......................................................................................................... - 4 -1.5端盖面 ............................................................................................................................... - 11 -1.6虚拟几何 ........................................................................................................................... - 12 -二、网格剖分 ............................................................................................................................... - 14 -2.1交互式网格剖分 ............................................................................................................... - 14 -2.2角细化 ............................................................................................................................... - 16 -2.3自适应网格 ....................................................................................................................... - 16 -2.4自动重新剖分网格 ........................................................................................................... - 18 -三、模型设定 ............................................................................................................................... - 19 -3.1循序渐进地建模 ............................................................................................................... - 19 -3.2开启物理符号 ................................................................................................................... - 19 -3.3利用装配体 ....................................................................................................................... - 21 -3.4调整方程形式 ................................................................................................................... - 22 -3.5修改底层方程 ................................................................................................................... - 23 -四、求解器设定 ........................................................................................................................... - 25 -4.1调整非线性求解器 ........................................................................................................... - 25 -4.2确定瞬态求解的步长 ....................................................................................................... - 26 -4.3停止条件 ........................................................................................................................... - 27 -4.4边求解边绘图 ................................................................................................................... - 28 -4.5绘制探针图 ....................................................................................................................... - 29 -五、弱约束的应用技巧 ............................................................................................................... - 31 -5.1一个边界上多个约束 ....................................................................................................... - 31 -5.2约束总量不变 ................................................................................................................... - 32 -5.3自定义本构方程 ............................................................................................................... - 34 -六、后处理技巧 ........................................................................................................................... - 36 -6.1组合图形 ........................................................................................................................... - 36 -6.2显示内部结果 ................................................................................................................... - 37 -6.3绘制变形图 ....................................................................................................................... - 38 -6.4数据集组合 ....................................................................................................................... - 39 -6.5导出数据 ........................................................................................................................... - 39 -七、函数使用技巧 ....................................................................................................................... - 43 -7.1随机函数 ........................................................................................................................... - 43 -7.2周期性函数 ....................................................................................................................... - 44 -7.3高程函数 ........................................................................................................................... - 45 -7.4内插函数 ........................................................................................................................... - 46 -八、耦合变量的使用技巧 ........................................................................................................... - 48 -8.1积分耦合变量 ................................................................................................................... - 48 -8.2拉伸耦合变量 ................................................................................................................... - 49 -九、ODE的使用技巧 ................................................................................................................... - 50 -9.1模拟不可逆形态变化 ....................................................................................................... - 50 -9.2反向工程约束 ................................................................................................................... - 51 -十、MATLAB实时链接 ................................................................................................................ - 52 -10.1同时打开两种程序GUI ................................................................................................. - 52 -10.2在COMSOL中使用MATLAB脚本................................................................................ - 52 -10.3在MATLAB中编写GUI ................................................................................................. - 53 -10.4常用脚本指令................................................................................................................ - 54 -十一、其他 ................................................................................................................................... - 56 -11.1局部坐标系.................................................................................................................... - 56 -11.2应力集中问题................................................................................................................ - 56 -11.3灵活应用案例库............................................................................................................ - 57 -11.4经常看看在线帮助........................................................................................................ - 57 -11.5临时文件........................................................................................................................ - 58 -11.6物理场开发器................................................................................................................ - 59 -一、几何建模COMSOL Multiphysics提供丰富的工具，供用户在图形化界面中构建自己的几何模型，例如1D中通过点、线，2D中可以通过点、线、矩形、圆/椭圆、贝塞尔曲线等，3D中通过球/椭球、立方体、台、点、线等构建几何结构，另外，通过镜像、复制、移动、比例缩放等工具对几何对象进行高级操作，还可以通过布尔运算方式进行几何结构之间的切割、粘合等操作。

美国Proteus industries inc流量传感器广州南创蔡工美国Proteus industries inc流量传感器成立于1978年，开发、生产和市场的坚固性和敏感的液体流量开关，仪表和传感器的范围。

美国Proteus industries inc流量传感器是领先的亏损帽探测器和机器人焊接应用中的冷却水流量控制器和美国Proteus industries inc流量传感器的泄漏检测系统提供了最终的保护任务关键设备的灾难性泄漏。

美国Proteus industries inc流量传感器的产品在50多个国家设立了国外办事处及售后服务中心，并在中国设立了广州南创传感事业部，为美国Proteus industries inc流量传感器提供最佳的服务与解决方案。

美国Proteus industries inc流量传感器是全球范围内使用保护数以千计的感应炉，焊枪，高功率激光器，等离子切割机和半导体加工系统。

美国Proteus industries inc流量传感器是在美国的独家经销商的Tofco流量管理产品，包括超纯液体，流量控制器和Tofpine的歧管系统的流量计。

《JJG669—12 Proteus industries inc广州南创传感事业部检定规程》美国Proteus industries inc流量传感器有Proteus流量开关 Proteus流量计Proteus流量仪表美国Proteus industries inc流量传感器200系列(load cells)美国Proteus industries inc流量传感器黄铜机身：201B24 205B24 203B24 204B24 250B24 255B24 260B24 270B24美国Proteus industries inc流量传感器不锈钢： 201SS24 205SS24 203SS24 204SS24 250SS24 255SS24 260SS24 270SS24美国Proteus industries inc流量传感器聚乙烯 201P24 205P24 203P24 204PL24 250P24 260P24 270P24 Celcon： 201C24 205C24 203C24 204L24 250C24美国Proteus industries inc流量传感器500系列/0504SA2 0504SN2 0504SA4 0504SN4美国Proteus industries inc流量传感器800系列4000系列美国Proteus industries inc流量传感器黄铜机身：04004BN013-XXX 04004BN06-XXX 04004BN1-XXX 04004BN2-XXX04004BN4-XXX 04006BN9-XXX 04008BN14-XXX 04012BN16-XXX 04012BN40-XXX04016BN40-XXX 04016BN60-XXXProteus 200系列流量传感器 201B24 205B24美国Proteus industries inc流量传感器不锈钢机身：04004SN013-XXX 04004SN06-XXX 04004SN1-XXX 04004SN2-XXX04004SA2-XXX 04004SN4-XXX 04004SA4-XXX 04006SN9-XXX 04008SA10-XXX04008SN14-XXX 04012SN16-XXX 04012SA16-XXX 04012SN40-XXX04016SN40-XXX 04016SA40-XXX 04016SN40-XXX美国Proteus industries inc流量传感器聚乙烯：04004PN012-XXX 04004PN06-XXX 04004PN1-XXX 04004PN2-XXXProteus FF-P流量传感器 FF-P50-1AMAX-PF04004PN4-XXX 04006PN4-XXX 04006PN10-XXX 04008PN14-XXX04012PN19-XXX 04016PN50-XXX美国Proteus industries inc流量传感器6000系列美国Proteus industries inc流量传感器黄铜：06004BN06 06004BN1 06004BN2 06004BN4 06006BN9 06008BN14 06012BA1606012BN40 06016BN40 06016BN60美国Proteus industries inc流量传感器不锈钢：06004SN06 06004SN1 06004SN2 06006SA2 06004SN4 06004SA4 06006SN906008SA10 06008SN14 06012SA16 06012SA16 06012SN40 06016SN40 06016SA4006016SN60美国Proteus industries inc流量传感器聚乙烯：06004PN06 06004PN1 06004PN2 06004PN4 06006PN10 06008PN1406012PN19 06016PN50美国Proteus industries inc流量传感器8000系列美国Proteus industries inc流量传感器黄铜：08004BND13/08004BN03/08004BN06/08004BN1/08004BN2/08004BN408008BN14/08012BN16/08012BN40/08016BN40/08016BN60美国Proteus industries inc流量传感器不锈钢：/08004SND13/08004SN03/08004SN06/08004SN1/08004SA2/08004SN208006SA2/08004SN4/08006SA4/08006SN9/08008SA10/08008SN14/08012SN1608012SN40/08016SN40/08006SA40/08016SN60美国Proteus industries inc流量传感器聚乙烯：08004PND13/08004PN06/08004PN1/08004PN2/08004PN4/08006PN1408008PN14/08012PN19/08016PN50美国Proteus industries inc流量传感器叶轮式FF-PFF-P100-1-A1000-PF/FF-P50-9-A1000-PF/FF-P100S-1-B1000-PF/FF-P150-1-B1000-PFFF-P200-1-A1000-P1/FF-P300-1-A1000-P2/FF-P400-1-BMAX-Z美国Proteus industries inc流量传感器超声波流量计美国Proteus industries inc流量传感器USF100A系列：/USF100A-G05EP-1/USF100A-G10EP-1/USF100A-G15EP-1USF100A-G20EP-1/USF100A-G05EP-9/USF100A-G10EP-9/USF100A-G15EP-9USF100A-G20EP-9/USF200S系列USF200S-G08-1-A300/USF200S-G08-1-ZMAXUSF200S-G10-1-AMAX/USF200S-G10-1-ZMAX/USF200S-G08-9-AMAXUSF200S-G08-9-ZMAX/USF200S-G10-9-AMAX/USF200S-G10-9-ZMAX美国Proteus industries inc流量传感器USF300C系列：USF300C-G15-1-A20/USF300C-G15-2-AMAX/USF300C-G15-1-BMAXUSF300C-G20-2-BMAX/USF300C-G20-2-ZMAX美国Proteus industries inc流量传感器双转子流量计DUO-PF系列所有DUO-PF200-091-AMAX-21-1-5V/DUO-PF200-091-BMAX-21-1-5V DUO-PF200-091-ZMAX-21-1-5V/DUO-PF200-091-AMAX-21-1-10V DUO-PF200-091-BMAX-21-1-10V/DUO-PF200-091-ZMAX-21-1-10V DUO-PF200-291-AMAX-21-1-5V/DUO-PF200-291-BMAX-21-1-5V DUO-PF200-299-ZMAX-21-1-5V/DUO-PF200-299-AMAX-21-1-10V DUO-PF200-299-BMAX-21-1-10V/DUO-PF200-299-ZMAX-21-1-10V DUO-PF200-999-AMAX-21-1-5V/DUO-PF200-999-BMAX-21-1-5V DUO-PF200-999-ZMAX-21-1-5V/DUO-PF200-999-AMAX-21-1-10V DUO-PF200-999-BMAX-21-1-10V/DUO-PF200-999-ZMAX-21-1-10V。

VIAVI SolutionsData SheetVIAVIAdaptive Fiber Test Heads OTU-8000 Optical Test UnitRack-mounted fiber test head for backbone, metro, andaccess networks for construction, service activation and monitoringKey Featuresy Large range of OTDRs, including tuneable DWDM y High sensitivity detection algorithm to locate low attenuation fiber tapping devicesy High accuracy trace for the whole fiber including the near endy Dual IP communication channels y Switch scalability up to 4464 ports with external switches y Web-browser accessy Advanced, rapid fault location y E-mail and SMS notificationsy Small size (2 RU) wtih dual power feeds, low power consumption y Solid-state disky LAN-based firmware downloadsy Expandable by adding an additional test moduleApplicationsy Fiber monitoring for service providers, utilities,and dark-fiber providersy FTT x construction, provisioning, and maintenance testsy Fiber-tapping detection for critical applicationsThe modularity of the OTU-8000 meets all of the requirements for monitoring light or dark fiber-optic networks. Integrated with the latest technology , it can monitor both long-haul and FTT x networks.With the OTU-8000 installed at the central office, providers can test hundreds of live passive optical networks (PONs), regardless of the split ratio. It can accelerate PON installations when setting up new customers and troubleshooting by enabling technicians to sectionalize the network to determine the cause of a fault.Organizations concerned with network security issues can use the OTU-8000 to detect and locate fiber tapping after only a few tenths of a decibel are inserted.Key Benefitsy Reduce MTTR by locating fiber optic faults in minutes instead of hoursy Reduce operational costs by eliminating erroneous dispatchesy Anticipate service disruptions by detecting fiber degradation before it affects servicey Protect your fiber investment by monitoring the long-term performance of installed fibersy Reduce construction costs by accelerating test processes and empowering test staffy Protect network integrity by quickly detecting and locating fiber intrusionThe Adaptive Fiber Test Head lies at the core of the VIAVI optical networkmonitoring system (ONMSi). Combining optical time-domain reflectometry (OTDR)and optical-switch technology, a single OTU-8000 unit can test thousands of fiber links. When a fiber fault occurs, the ONMSi reports the GPS location of the fault within minutes. This adaptive racked Fiber Test Head is great for Access PON or DAA networks as well as metrorings, data center interconnects, and long haul networks utilizing xWDM wavelength plans.OTU-8000 with the 576 MPO switch with an OTDR module© 2022 VIAVI Solutions Inc.Product specifications and descriptions in this document are subject to change without notice.Patented as described at /patentsotu8000-ds-fop-tm-ae 30149002 916 0122Contact Us+1 844 GO VIAVI (+1 844 468 4284)To reach the VIAVI office nearest you, visit /contactVIAVI Solutions1. Laser at 25°C and measured at 10 µs. 1650 nm ±1 nm for the E81165C module.2. The one way difference between the extrapolated backscattering level at the start ofthe fiber and the RMS noise level, after 3 minutes averaging and using the largest pulsewidth.3. Measured at ±1.5 dB down from the peak of an unsaturated reflective event using the shortest pulsewidth.4. Measured at ±0.5 dB from the linear regression using a FC/PC reflectance and using the shortest pulsewidth.5. Measured on a 15 dB attenuation with –70 dB reflectance.Base UnitOTU-8000 base unit - Front Power Input E98-FP-RF Base Unit OptionsGSM interface for alarm notification E98EGSM Relay for external alarm reporting device E98RELAYS 23 in rack-mounting kit for OTU-8000E98KIT2321 in rack-mounting kit for OTU-8000E98KIT2119 in rack-mounting kit for OTU-8000E98KIT19AC/DC converter (external unit)E98ACDC Optical Switch Plug-In ModulesOptical switch 1x4 plug-in module (SC/APC)E98X04Optical switch 1x8 plug-in module (SC/APC)E98X08Optical switch 1x12 plug-in module (SC/APC)E98X12Optical switch 1x16 plug-in module (SC/APC)E98X16Optical switch 1x24 plug-in module (SC/APC)E98X24Optical switch 1x36 plug-in module (LC/APC)E98X36LCAPC Optical switch 1x48 plug-in module (LC/APC)E98X48LCAPC Optical switch 1x288 plug-in module (MPO)E98X288MPO*Optical switch 1x576 plug-in module (MPO)E98X576MPO**Both the 288 and 576 MPO switch modules offer the Pay as Y ou Grow model in which you can license additional port capacity over time in increments of 12 ports. Part number is PAYG.External Optical Switch UnitsExternal optical Switch unit 36 ports SC/APC EOSX8000External optical Switch unit 24 ports LC/APC E9E-EXTX-24External optical Switch unit 36 ports LC/APC E9E-EXTX-36External optical Switch unit 144 ports LC/APC E98OSX144OTDR Plug-In ModulesOTDR module D with 1550 nm wavelength E8115D-APC OTDR module D with 1625 nm filtered wavelength E81162D-APC OTDR module D with 1650 nm filtered wavelength E81165D-APC OTDR module D 1550/1625 nmE8129D-APC Ultra high resolution filtered 1650 nm OTDR E81165C-HR-APC OTDR module C with 1550 nm wavelength E8115C-APC OTDR module C with 1625 nm filtered wavelength E81162C-APC OTDR module C with 1650 nm filtered wavelength E81165C-APC Tunable DWDM OTDR module C band for OTU8000E81WDM-COTDR module B with 1650 nm filtered wavelength E81165B-APC OTDR module B with 1550 nm wavelength E8115B-APC OTDR module B 1310/1550/1625 nmE8136B-APC。

Enterprise Development专业品质权威Analysis Report企业发展分析报告深圳东昇射频技术有限公司免责声明:本报告通过对该企业公开数据进行分析生成，并不完全代表我方对该企业的意见，如有错误请及时联系;本报告出于对企业发展研究目的产生，仅供参考，在任何情况下，使用本报告所引起的一切后果，我方不承担任何责任:本报告不得用于一切商业用途，如需引用或合作，请与我方联系:深圳东昇射频技术有限公司1企业发展分析结果1.1 企业发展指数得分企业发展指数得分深圳东昇射频技术有限公司综合得分说明：企业发展指数根据企业规模、企业创新、企业风险、企业活力四个维度对企业发展情况进行评价。

该企业的综合评价得分需要您得到该公司授权后，我们将协助您分析给出。

1.2 企业画像类别内容行业计算机、通信和其他电子设备制造业-电子器件制造资质一般纳税人产品服务是：微波射频测试解决方案和系统集成服务；1.3 发展历程2工商2.1工商信息2.2工商变更2.3股东结构2.4主要人员2.5分支机构2.6对外投资2.7企业年报2.8股权出质2.9动产抵押2.10司法协助2.11清算2.12注销3投融资3.1融资历史3.2投资事件3.3核心团队3.4企业业务4企业信用4.1企业信用4.2行政许可-工商局4.3行政处罚-信用中国4.5税务评级4.6税务处罚4.7经营异常4.8经营异常-工商局4.9采购不良行为4.10产品抽查4.12欠税公告4.13环保处罚4.14被执行人5司法文书5.1法律诉讼（当事人）5.2法律诉讼（相关人）5.3开庭公告5.4被执行人5.5法院公告5.6破产暂无破产数据6企业资质6.1资质许可6.2人员资质6.3产品许可6.4特殊许可7知识产权7.1商标7.2专利7.3软件著作权7.4作品著作权7.5网站备案7.6应用APP7.7微信公众号8招标中标8.1政府招标8.2政府中标8.3央企招标8.4央企中标9标准9.1国家标准9.2行业标准9.3团体标准9.4地方标准10成果奖励10.1国家奖励10.2省部奖励10.3社会奖励10.4科技成果11 土地11.1大块土地出让11.2出让公告11.3土地抵押11.4地块公示11.5大企业购地11.6土地出租11.7土地结果11.8土地转让12基金12.1国家自然基金12.2国家自然基金成果12.3国家社科基金13招聘13.1招聘信息感谢阅读:感谢您耐心地阅读这份企业调查分析报告。

RF capacitancepoint LeveL SenSoRSU S uperior 0.5 pFSensitivity EnsuresReliabilityU B uild-Up Immunity Helps Eliminate False Signals U H igh Intensity LEDIndicating Light(Ordinary LocationIntegral Sensors Only)U S imple 2-Step Manual CalibrationLV800 Series RF capacitance sensors offer cost-effective point level monitoring with reliability you can count on. Omega® provides you with the most affordable solution for your application. Omega’s RF capacitance probes are designed to provide a high level of sensitivity, stability and durability for powder and bulk solids applications, as well as liquid and slurry applications. Principal of OperationA radio frequency is applied to the probe and is continually analyzed to determine the influence caused by the surrounding environment. As material contacts the probe, the radio frequency shifts indicatingan increase in capacitance (C). The active probe of the unit and the vessel’s wall make up the 2 plates, (A) of a capacitor which are separated by a fixed distance (D). The probe’s insulator and surrounding air provide the dielectric material [with dielectric constant (K)]. As the air (K=1.0) is displaced with any other material (K > 1.0), the capacitance effect (C) is enhanced, thereby changing the application’s impedance. This influence is measured within the circuitry and compared to a refer-ence established by the sensitivity setting. The setting determines how much influence must be present before the output changes. The driven shield section of the probe enables the circuitry to ignore prod-uct build-up on the probe that would otherwise cause false sensing. The driven shield is activated with thesame radio frequency potential asthe sensing probe. Since current cannot flow between identical potentials,the driven shield blocks current flowfrom the active probe to the vesselwall through the material build-up,thereby eliminating the sensing of thematerial build-up.LV801, shown smaller than actual size.LV801 Dimensions: mm (inch)LV800 SeriesK Applications LV800 Series capacitance point level sensors are versatile devices providing high and low level readings in bins, silos, tanks, hoppers, and other vessels. LV800 Series superior sensitivity range allows users to properly adjust units to meet the needs of a wide variety of applications. Whether your application is for a powder, liquid, granular solid, or viscous material, the LV800 Series product line offers the right solution.Ordering Examples: LV801, 40 cm (16") PPS probe, 115 Vac, 11⁄4 NPT Al connection.LV804, 40 cm (16") food grade nylon probe, 115 Vac, 11⁄4 NPT Al connection.。

阿美泰克射频导纳电容
阿美泰克射频导纳电容是一种用于高频电路中的电容器。

它的主要作用是通过控制电路中的阻抗来调节电路的频率响应和相位延迟。

这种电容器在通信、雷达、微波、卫星通信、天线和无线电等领域中得到广泛应用。

阿美泰克射频导纳电容的优点是它可以有效地抵抗高频信号的干扰，同时还可以提高电路的可靠性和稳定性。

这种电容器的工作原理是通过调节电容器内部的结构和材料来控制电路的阻抗。

这种技术可以提供高质量的信号传输和抵抗干扰的能力。

在阿美泰克射频导纳电容的设计中，有几个关键的因素需要考虑。

首先是电容器的尺寸和形状。

这些因素直接影响了电容器的阻抗和频率响应。

其次是电容器的材料。

不同的材料具有不同的介电常数和损耗，这对电容器的性能也有重要的影响。

最后，还需要考虑电容器的连接方式和外部电路的匹配。

阿美泰克射频导纳电容在实际应用中可以提供很多优势。

例如，它可以有效地降低信号传输时的噪声和失真，提高信号的质量和可靠性。

此外，它还可以减少电路中的反射和干扰，从而提高整个系统的性能和稳定性。

当然，阿美泰克射频导纳电容也有一些限制和不足之处。

例如，它的成本相对较高，需要一定的专业知识和技能才能进行设计和应用。

此外，它还可能受到温度、湿度和其他环境因素的影响，需要特别注意这些因素的变化。

总的来说，阿美泰克射频导纳电容是一种非常重要的高频电路元件。

它可以提供很多优势和功能，同时也需要特别注意其设计和应用的相关因素。

在未来的发展中，这种电容器将继续发挥着重要的作用，并不断推动着高频电路技术的进步和发展。

IMADA公司专业设计、制造各种测力仪器，主要包括：指针式推拉力计、数显推拉力计、电批扭力测试仪、扭力测试仪、瓶盖扭力测试仪、数显扭力起子、数显扭力测试仪、电动测试台、手动测试台、IMADA推拉力计专用软件及连线、记录绘图机、速度长度计/计时器（电动测试台可选配件）以及各种精密测量夹具。

亚美科技坐落在无锡国家高新技术产业开发区，主要从事日本依梦达（IMADA）产品的售前、售中以及售后服务，同时也提供各种精密量具、光学仪器、专用仪器的销售工作，尽我们的最大努力为您解决生产上的难题。

现代的工作、生产领域对精密测量技术的质量，精度要求日益严格，我们继续在此方面助贵公司一臂之力，也敬请各位给予支持和指导。