InTech-Sensor_array_system_for_gases_identification_and_quantification

2293Winding resistance meter with one-time-connection systemThe Tettex 2293 is the result of extensive research and years of experience testing transformers. It incorporates a fast and highly advanced procedure to measure winding resistance. A simple one-time-connection system together with the simultaneous windingmagnetization method drastically reduces measuring time.The simultaneous winding magnetization (SWM) method guarantees fast and reliable measurements even on large power transformers with delta windings on the low voltage side, where stable measurements can be seldom reached using traditional winding resistance measurement instruments.In addition, the new demagnetization functioneliminates the magnetic remanence in the core after the application of a DC voltage. This feature can be used before performing other tests such as frequency response analysis (FRA), transformer turns ratiomeasurement (TTR) or recovery voltage measurement (RVM) which are adversely affected by remanence effects.The transformer is discharged by a state-of-the-artdischarge circuit in a fraction of the time taken by other instruments. The discharging function and the“Caution” indicator continue to operate even when linepower is lost.FEATURES AND BENEFITSResistance measurement made easy – simple one-time-connection system: Once connected will test all phases and windingsLarge 7” touch screen interface with full graphical testvisualizationUnique simultaneous winding magnetization method(SWM), equivalent to traditional equipment with up to 100 A test currentTap changer control signalHeat run function and 6 temperature measurementchannels with automatic resistance value correctionData transfer over USB memory-stick or direct to PCAPPLICATIONSResistance measurement and demagnetization function for all types of highly inductive test objects.Power transformers Distribution transformers Generators and motors Instrument transformersThe 2293 is a valuable tool for factory test, acceptance test and regular maintenance.A test solution optimized for easy and fastwinding resistance measurement on power and distribution transformers as well as motors and generators.1981COMPLETE AUTOMATIC TEST PROCEDUREThe 2293 performs resistance measurements on all windings without any reconnection. The test procedure is simple and efficient. One end of the measurement cable set is connected to each bushing of the transformer using the special Kelvin clamp, while the other end is connected to the 2293.Once the cable set is connected to the test object, the instrument will automatically measure selected resistances of both windings and all phases. In addition, the motorized tap changer can be controlled to perform fully automated measurements on all taps. A complete transformer can be tested by a single person in a fraction of the time compared to traditional instruments.GRAPHICAL INTERFACEThe 7” touch screen full graphical interface guides the operator through the test procedure.Select the test object by touching the appropriate icon and press start – The unit then visualizes each test cycle and displays the results graphically or in list format. DEMAGNETIZATION FUNCTIONApplying a DC current to an inductive test object, like a power transformer, magnetizes the core. The resulting magnetic remanence will have an adverse effect on other measurements.The 2293 includes a fully automatic demagnetization feature which eliminates the magnetic remanence. Select the test object by touching the appropriate icon and press start – The unit visualizes the whole demagnetization cycleand performs the correct core demagnetization.HEAT RUN TESTThe 2293, which can measure HV and LV side resistancessimultaneously and accurately, is the perfect tool forresistance measurements during a heat run test.The instrument provides efficient and accurate acquisitionof the required data points to allow drawingthe necessary cooling curve.Results are available as CSV and can be easily exported.DATA HANDLING AND TEST REPORTSThe 2293 allows easy data handling. Results can be savedon a USB memory stick or transferred to any computer. Inaddition the instrument can be connected via Ethernet to aLAN. It also includes a thermal printer for immediate reportprinting.SelectStartResults can also be saved in the instrument’s memorywhile continuing testing, to be downloaded later afterhaving returned to the office.ResultsTECHNICAL SPECIFICATIONSResistance MeasurementMax. Measuring Current 32 A (user selectable) Max. Charging Voltage 100 VRange 0.1 μΩ … 300 k ΩResistance Accuracy(1) 0.1 μΩ ... 300 μΩ 0.1% ± 0.5 μΩ300.1 μΩ … 30 k Ω 0.1% 30.01 k Ω … 300 k Ω 1% Mains Power Supply Voltage90 VAC … 264 VAC Maximum Power 1 kWFrequency 47 Hz … 63 HzEnvironmentalOperating temperature -10°C … +60°C Storage temperature -20°C ... +70°CHumidity 5% … 90% r.h. non-condensing MechanicalDimensions (W x D x H) 521 mm x 425 mm x 216 mmWeight (2)17.8 kg (2) Measuring cables not included (1) at temperature 0 … 50°C at highest available current Functions- 8 measuring channels (2 x 3 phases and 2 x 1 neutral)- 6 temperature channels with automatic resistance correction - Advanced 7” graphical touch screen interface- High efficient DC supply with SWM (simultaneous winding magnetization)- SWM mode and Classic mode (for traditional resistance measurement method) - Turbo discharge circuit- Automated demagnetizing function with flux indicator - Automatic heat run function- Tap changer control signal to automate test procedures on transformers with motorized tap changer - Internal memory >10'000 measurements- USB and LAN connections. Data can be saved on a memory stick or directly transferred to PC - Charges any inductive load and works with any resistive or inductive test object - Heavy duty protection circuit- Safety circuit ensures discharge even when line power is lost - Caution indicator - Built-in printerSCOPE OF SUPPLYMeasuring unit, cable set (10 m), carrying bag, test certificate, user manualOptions2293/TEMP1 Temperature probe for liquids2293/TEMP2 Magnetic temperature probe for metallic test objects 2293/TAP Tap changer connection cable2293/10 10 m extension cablesTettex Instruments offers a complete portfolio for transformer testingTTR 2795 / TTR 2796Transformer Turns Ratio Meterwith 100/250 V test voltageDetection of winding movements and mechanical failures of transformers. Active probing assures reliable and repetitive measurement results. Advanced analysis and touch screen operation.FRA 5310Frequency Response AnalyserOnsite testing of turns and voltage ratio, phase displacement and excitation current. Automatic winding connection identification and vector group detection. Remotely controllable via USB.RVM 5462Recovery Voltage MeterMobile system for non-destructive diagnosis of the state of paper-oil insulation (effect of moisture content and aging) using the recovery voltagemethod.MIDAS 2880Mobile Insulation Diagnosis & Analysing SystemThe ideal tool for periodic maintenance and inspection of high voltage insulation losses, dissipation factor (tan δ), power factor and capacitance of power transformers, bushings, motors, generators etc.OC60EOil Cell TesterFully automated digital liquid electrical test set designed to reliably and accurately test the dielectric strength of insulation liquids.Europe, Asia, South & Central America, Australia Haefely Test AGLehenmattstrasse 353 4052 Basel Switzerland+ 41 61 373 4111 + 41 61 373 4912 |**************** ChinaHaefely Test AG – Beijing Office8-1-602, Fortune StreetNo. 67, Chaoyang Road, Chaoyang DistrictBeijing, 100025 P. R. China+ 86 10 8578 8099 + 86 10 8578 9908 |*****************.cnNorth America Hipotronics Inc. 1650 Route 22 PO Box 414Brewster, NY 10509USA+ 1 845 279 3644 + 1 845 279 2467|*********************。

Key Features1” Exmor R ® CMOS sensor w/ Direct Pixel Read OutThe world’s first 1.0” CMOS sensor featuring an Exmor R ® CMOS image sensor technology. With this back-illuminated technology, the sensor doubles light sensitivity and combines with Sony’s Column A/D Conversion to reduce noise by half — a great help when photographing in dimly lit environments. Markedly reduced noise is evident even when high-sensitivity settings are used for capturing night landscapes or indoor scenes.14MP resolution video and 20MP still image captureCreate cinematic video with 14MP resolution sensor (for video) and high quality 20MP still images.Versatile shooting w/ XA VC-S, A VCHD and MP4 codecsThe HDR-CX900 records HD movies in the XA VC-S format, which uses MPEG-4 A VC/H.264 for video compression and linear PCM for audio compression, while saving files in a MP42 wrapper. The highly compressed files allow extensive record times. The camcorder also records in A VCHD, ideal for quality video for HDTV and Blu-ray disc burning. Additionally, the camcorder can shoot MP4 HD video, which is ideal for sharing over the internet at up to 28Mbps. Having the ability to switch between all three of three formats makes this camcorder an ideal tool that is versatile for creating content to live in a number of different environments.Carl Zeiss ® Vario Sonnar T* lens w/ 12x optical zoomThe HDR-CX900 comes equipped with a newly developed Carl Zeiss ® Vario-Sonnar T* lens that has cleared a series of tough performance tests. Not only is this 29mm wide-angle lens ideal for capturing grand landscapes, but it covers wide-ranging image expression thanks to maximum 12x optical zoom and 24x Clear Image zoomMulti-interface Accessory Shoe for system accessoriesUsers can expand photographic and movie shooting possibilities by attaching optional accessories via the Multi Interface Shoe, including an electronic viewfinder, powerful external flash and stereo microphone. You can also connect with a compatible remote control via Multi Terminal.BIONZ ® X Processor enables high Speed rec 120fpsThe new BIONZ ® X image processor enables the camcorder to create more naturally vivid and lifelike image quality, and higher resolution imagery.Notable features of BIONZ X technology include:1. Detail reproduction technology optimally filters edges and textures differently depending on the scene.2. Area specific noise reduction swiftly and efficiently analyzes the subject and reduces noise.This new image processing technology achieves an even better balance of exceptional detail and advanced noise control.Its ability to record at 120p enables slow-motion playback at one-fifth the speed in a 24p environment in post-processing.Optical SteadyShot™ Image Stabilization w/ Active ModeHDR-CX900/BHD Camcorder with 1" sensorWelcome to broadcast-quality HD video from the palm of your hand. The 1” image sensor is approximately 8x larger than that of typical camcorders for capturing defocused backgrounds and true cinematic depth. It’s flexible, too. Record your vision in XA VCS (up to 50mpbs), A VCHD or MP4 codecs with impressive clarity and color accuracy. There’s nothing else like it in the industry.Optical SteadyShot™ Image Stabilization with Intelligent Active Mode is an advanced optical image stabilization technology that corrects camera shake to capture scenes with phenomenal smoothness and stability. Intelligent Active Mode analyzes video frames and provides compensation with assistance from the new BIONZ® X image processing engine. Whether recording movies while strolling on vacation, shooting while chasing a child, or zooming in to capture faraway subjects, Handycam’s simple solution smoothly reproduces the scene with a higher level of stability.High contrast 0.39" OLED EVF for eye-level framingThe HDR-CX900 employs high contrast a 0.39” OLED Tru-Finder EVF which reproduces rich color and deep black. A new optical design of the EVF, using four dual-surface aspherical lenses, allows for a 33-degree wide angle view that is amazing clear through the edge of the view finder. Large 3.5" Xtra Fine LCD™ (921K)The 3.5” (16:9) Xtra Fine LCD™ screen (921K) displays sharp, bright, vivid images, letting you compose a shot more easily -- even outdoors, while enabling you to change settings to best represent the scene.Simple connectivity to smartphones via Wi-Fi®/NFCConnectivity with smartphones for One-touch sharing/One-touch remote has been simplified with Wi-Fi®/NFC control. In addition to Wi-Fi® support for connecting to smartphones, the HDR-CX900 also supports NFC (near field communication) providing “touch connection” convenience when transferring images to Android™ smartphones and tablets. Users need only touch devices to connect; no complex set-up is required. Moreover, when using Smart Remote Control — a feature that allows shutter release to be controlled by a smartphone — connection between HDR-CX900 and the smartphone can be established by simply touching devices.Specifications1. Requires NFC-compatible mobile device. Check device’s user manual for compatibility.© 2014 Sony Electronics Inc. All rights reserved. Reproduction in whole or in part without written permission is prohibited. Sony, Exmor R, BIONZ and the Sony logo are trademarks of Sony Corporation. All other trademarks are trademarks of their respective owners. Features and specifications subject to change without notice. / UPC:027********* / Updated: January 3, 2014。

The Crown ® I-Tech Series offers amazing power, light weight and ease of use for touring sound applica-tions.Onboard DSP (Digital Signal Processing) provides a widearray of signal processing (compression, limiting, fi lters, and so on). This greatly reduces the need for rack com-ponents and rack wiring. The DSP features 24-bit, 96 kHz A/D and D/A converters. All models in the I-Tech Series are compatible with the IQ ® Network and TCP/IQ™ networking. CobraNet™ input available in optional CN models, coming soon.Pushbutton DSP presets simplify the setup. Custom pre-sets can be downloaded into the amplifi er, making it easy to confi gure for various loudspeaker arrays.The Global Power Supply works anywhere in the world, and offers PFC (Power Factor Correction). It is a switching power supply for reduced weight.I-Tech amplifi ers provide amazing power: up to 8 kWcontinuous and 10 kW peak in a 2U rack space. They have the highest output voltage in the industry (200V peak), which provides clean transient peaks. The 3rd-generationpatented Class I (BCA ®) circuitry couples power effi ciently to the load and provides low current drain.A front-panel control screen shows advanced diagnostics and status information. All controls are set from the front panel. A comprehensive array of indicators provide accu-rate diagnostics: Power, Data, Bridge, along with Ready, Signal, Clip, Thermal and Fault for each channel. An AC mains indicator in the power switch glows green when AC power is present.Input connectors include analog XLR and digital AES/EBU. Analog and digital thru connectors are provided. Outputconnectors are Speakon ®and 5-way binding posts.Advanced protection includes a management controller and two discrete thermal zones with variable-speed, forced-air cooling.For more details about the Crown I-Tech Series,contact Crown Customer Service at 800-342-6939 or 574-294-8200. Also, visit the Crown Audio website at .Specifi cations PerformanceMinimum Guaranteed Power: See power charts at left.Frequency Response (at 1 watt, 20 Hz - 20 kHz): ±0.25dB.Signal to Noise Ratio below rated full-bandwidth power, A-weighted: > 105 dB.Total Harmonic Distortion (THD) at full rated power: < 0.35%.Intermodulation Distortion (IMD) 60 Hz and 7 kHz at 4:1, from full rated output to –35 dB: < 0.35%.Damping Factor (20 Hz to 100 Hz at 8 ohms): > 5000.Crosstalk (below rated power, 20 Hz to 1 kHz): > 80 dB.Common Mode Rejection (CMR) (20 Hz to 1 kHz): > 50 dB.DC Output Offset (shorted input): < ± 3 mV.Input Impedance (nominal): 20 kilohms balanced, 10 kilohms unbalanced.Maximum Input Level: +15 dBu or +22 dBu, depending on input sensitivity.Latency (analog, digital inputs): 1.13 mS analog, 2.36 mS digital (44.1 kHz).A/D, D/A Converters : 24-bit 96 kHz Cirrus Logic.Digital Input: AES/EBU, 16-24 bit, 32-48 kHz. Onboard sample-rate converter.Network: Onboard TCP/IQ, compatible with standard 100 Mb Ethernet hardware.Features• Global Power Supply with PFC (Power Factor Correction) works anywhere in the world.• High power density, up to 8000 watts in a 2U chas-sis.• Highest output voltage in the industry (200V peak) provides clean transient peaks.• 3rd-generation patented Class I (BCA) circuitry cou-ples power effi ciently to the load and provides low AC current drain.• Onboard DSP with 24-bit, 96 kHz Cirrus Logic A/D and D/A converters.• Pushbutton presets simplify setup. Custom presets for various loudspeakers can be downloaded.• Front-panel control screen with advanced diagnos-tics and status information. All controls are set from the front panel.• Comprehensive array of indicators provide accurate diagnostics: Power, Data, Bridge, along with Ready, Signal, Clip, Thermal and Fault for each channel.• AC mains indicator in power switch glows green when AC power is present.• AES/EBU digital audio input. Ethernet connector accepts an RJ-45 connector for TCP/IQ networking. Analog and digital thru connectors. CobraNet input available in optional CN models, coming soon. • Labels on rear panel are color coded to group simi-lar functions under common colors.• Light weight due to aluminum construction, special internal construction and switching power supply.• Management controller, two discrete thermal zones with variable-speed fans, forced-air cooling.• Advanced protection circuitry guards against: shorted outputs, DC, mismatched loads, general overheating, under/over voltage, high-frequency overloads and internal faults.• Three-Year, No-Fault, Fully Transferable Warranty completely protects your investment and guarantees its specifi cations.12I-T40002-ohm Dual (per ch.) 4-ohm Dual (per ch.) 8-ohm Dual (per ch.) 4-ohm Bridge 8-ohm Bridge20 Hz - 20 kHzPower20 Hz - 20 kHz Power refers to guaranteed minimum power in watts with 0.35% THD.4,000W 3,600W1,800W 2,000W 1,250W I-T60002-ohm Dual (per ch.) 4-ohm Dual (per ch.) 8-ohm Dual (per ch.) 4-ohm Bridge 8-ohm Bridge20 Hz - 20 kHzPower20 Hz - 20 kHz Power refers to guaranteed minimum power in watts with 0.35% THD.6,000W5,000W 2,500W 3,000W 1,500WI-T80002-ohm Dual (per ch.) 4-ohm Dual (per ch.) 8-ohm Dual (per ch.) 4-ohm Bridge 8-ohm Bridge20 Hz - 20 kHzPower20 Hz - 20 kHz Power refers to guaranteed minimum power in watts with 0.35% THD.8,000W7,000W 3,500W4,000W 2,100WCrown International P .O. Box 1000Elkhart, IN 46515-1000 TEL: 574-294-8200FAX: 574-294-8FAX 4/04 137251-1FDSP: 24-bit conversion with 32-bit, fl oating-point DSP processing. Has 64 assignable fi lters with 9 different fi lter types. Includes all-pass fi lters, over 2 seconds of delay available per channel, and dual uncorrelated-noise and sine-wave generators.Load Supervision: Monitors the average impedance on the output of the amplifi er. If the impedance falls outside the specifi ed high/low limits, this function alerts the user via the front panel display, and via the IQwic™ software when amp is on an IQ Network.Error Reporting: Reports clip errors, thermal errors, fault conditions and load monitoring errors for each channel via the front panel display and via IQwic software when amp is on an IQ Network.Attenuators: Speed sensitive, continuously variable rotary encoder, 0.5 dB steps, range 0 to –90 dB.Load Impedance (Note: Safe with all types of loads):Stereo: 1/2/4/8/16 ohms.Bridge Mono: 2/4/8 ohms.Input Sensitivity (referenced to 8 ohm rated output): Adjustable in 0.1V steps from 1.4V to 7.75V.Voltage Gain (referenced to 8 ohm rated output): I-T4000: 37.1 dB to 22.2 dB I-T6000: 37.9 dB to 23.0 dB I-T8000: 39.3 dB to 24.5 dBRequired AC Mains: Universal AC input, 100-240VAC, 50/60 Hz (±15%). Maximum AC mains voltage 277VAC.AC Line Connector: Five cordsets supplied with amplifi er (USA, UK, European, Australia, India).Front Panel Controls and IndicatorsBridge Mode Indicator: Yellow LED illuminates when the amplifi er is set to Bridge-Mono mode. Ready Indicator: Green LED, one per channel, illuminates when the channel is initialized and ready to produce audio output. Indicator is off when the amplifi er is in standby mode via the IQ system.Signal Indicators: Three green LEDs per channel indicate the amplifi er’s input and output signal levels.Signal: input signal is above –40 dBu.–20 dB: amplifi er output is 20 dB below clipping.–10 dB: amplifi er output is 10 dB below clipping.Clip Indicator: Red LED, one per channel, illuminates when the channel’s output signal reaches the onset of audible clipping. The Clip Indicator also will illuminate during Thermal Level Control (TLC) limiting.Thermal Indicator: Red LED, one per channel, illuminateswhen the channel has shut down, or is very near shutting down, due to thermal stress or overload.Fault Indicator: Red LED, one per channel, fl ashes when the amplifi er output channel has stopped operating.Data Indicator: Yellow LED indicates IQ Network data activity. Data indicator fl ashes only when the amplifi er is polled for data, or is polled to see whether it is online Power Indicator: Blue LED indicates amplifi er has been turned on and AC power is available. The LED will fl ash when the AC line voltage is 15% above or below the nominal rated value.AC Mains Present Indicator: Green indicator built into power switch indicates AC power is present at the power cord and the amplifi er circuit breaker is in the “on” posi-tion.LCD Control Screen and Controls: These let the user adjust the amplifi er’s attenuation and muting, confi gure the amp, set up and view error monitoring (such as tem-perature and load supervision), and recall DSP presets. The presets allow the user to quickly reconfi gure the amp for various applications.LCD Control Screen: Integrated LCD with white LED back-light, controls amplifi er setup and operation.Normal mode: Attenuation in 0.5 dB steps, Mute/Unmute, Front Panel Lockout.Basic Menu: LCD Contrast, CH1 Sensitivity, CH2 Sensitiv-ity, Speaker Preset, Dual/Bridge mode, Input Y.Advanced Features Menu: Attenuator Limits, Attenuator Link, Clip Limiter, Peak Voltage Limiter, Average Power Limiter, Pink Noise Generator, AES/EBU Input Trim, Input Source, Maximum Analog Input, Amplifi er Label Edit, CH1 Label Edit, CH2 Label Edit.Menu/Exit Button: “Menu” enters the main menu. “Exit” gets out of the Menu.Next Button: Selects the next item in the Menu.Prev Button: Selects the previous item in the Menu.Level Controls (Encoders): Speed-sensitive rotary encod-ers, 0.5 dB steps, range 0 to –90 dB. These two knobs affect the Channel-1 and Channel-2 output levels. They also select Menu items and adjust parameter values that are displayed on the LCD Control Screen.Power Switch: Push-on/push-off switch with built-in green AC mains present indicator.Back Panel Controls, Indicators and ConnectorsPower Cord Connector: Standard 20 amp IEC inlet. Volt-age range is indicated above IEC inlet.Reset Switch/Circuit Breaker: If the current draw of the amplifi er exceeds safe limits, this breaker automatically disconnects the power supply from the AC mains. The switch resets the circuit breaker.Output Connectors: Two high-current, 50A Neutrik ®Speakon ®NL4MLP (mates with NL4FC), one per channel. Two pairs of high-current, 60A color-coded 5-way binding posts (for banana plugs, spade lugs or bare wire). Two male XLR passive analog loop through. XLR active/re-clocked AES/EBU digital loop through.Analog Input Connectors: A 3-pin female XLR connector for each channel.Digital Input Connector: A 3-pin female XLR connector that accepts a digital signal in the AES/EBU format.Ground Lift Switch: Isolates input ground from AC ground.Network Connector: This Ethernet connector accepts an RJ-45 connector for TCP/IQ networking. Built into the connector is a yellow LINK ACT indicator that shows network activity, and a green 100Mb indicator that shows a 100Mb network connection.Data Indicator: Yellow LED indicates IQ Network data activity. Data indicator fl ashes only when the amplifi er is polled for data, or is polled to see whether it is online.Preset Indicator: Yellow LED fl ashes to signal the number of the current preset if active.ConstructionCooling: Dual-zone, microprocessor controlled, continu-ously variable speed fans, front-to-back airfl ow.Front Panel: Cast aluminum with integrated handles.Dimensions: 19 in. (48.3 cm) W x 3.5 in. (8.9 cm) H x 16.2 in. (41.1 cm) D.Weight: 28 lbs (12.7 kg) net, 36 lbs (16.3 kg) shipping.Included Accessories: Rear rack ears with integral EZ-Rack Pin, rack screws, operation manual, power cords, foam air fi lter.© 2004 Crown Audio ®Inc.Specifi cations subject to change without prior notice. Latest information available at .Crown, Crown Audio, IQ, and BCA are registered trademarks of Crown International. TCP/IQ and IQwic are trademarks of Crown International. Other trademarks are the propertyof their respective owners. Printed in U.S.A.Crown’s Three-Year, No-Fault, Fully Transferable WarrantyCrown offers a Three-Year, No-Fault, Fully Transferable Warranty for every new Crown amplifi er—an unsurpassedindustry standard. With this unprecedented No-Fault protection, your new Crown amplifi er is warranted to meet or exceed original specifi cations for the fi rst three years of ownership. During this time, if your amplifi er fails, or does not perform to original specifi cations, it will be repaired or replaced at our expense. About the only things not covered by this warranty are those losses normally covered by insurance and those caused by intentional abuse. And the coverage is transferable, should you sell your amplifi er.See your authorized Crown dealer for full warranty disclosure and details. For customers outside of the USA, please contact your authorized Crown distributor for warranty information or call 574-294-8200.。

DESCRIPTIONThe TruStability ® Standard Accuracy Silicon Ceramic (SSC) Series is a piezoresistive silicon pressure sensor offering a ratiometric analog output for reading pressure over the specified full scale pressure span and temperature range.The SSC Series is fully calibrated and temperaturecompensated for sensor offset, sensitivity, temperature effects, and non-linearity using an on-board Application SpecificIntegrated Circuit (ASIC). Calibrated output values for pressure are updated at approximately 1 kHz.The SSC Series is calibrated over the temperature range of -20 C to 85 C [-4 F to 185 F]. The sensor is characterized for operation from a single power supply of either 3.3 Vdc or 5.0 Vdc.These sensors measure absolute, differential, and gage pressures. The absolute versions have an internal vacuum reference and an output value proportional to absolutepressure. Differential versions allow application of pressure to either side of the sensing diaphragm. Gage versions are referenced to atmospheric pressure and provide an output proportional to pressure variations from atmosphere.The TruStability ®pressure sensors are intended for use with non-corrosive, non-ionic gases, such as air and other dry gases. An available option extends the performance of these sensors to non-corrosive, non-ionic liquids.All products are designed and manufactured according to ISO 9001 standards.FEATURESIndustry-leading long-term stabilityExtremely tight accuracy of 0.25% FSS BFSL (Full ScaleSpan Best Fit Straight Line)Total error band of2% full scale span maximumModular and flexible design offers customers a variety of package styles and options, all with the same industry-leading performance specificationsMiniature 10 mm x 10 mm [0.39 in x 0.39 in] packageLow operating voltageExtremely low power consumptionRatiometric analog outputHigh resolution (min. 0.03 %FSS) Precision ASIC conditioning and temperature compensated over -20 C to 85 C [-4 F to 185F] temperature rangeRoHS compliantVirtually insensitive to mounting orientationInternal diagnostic functions increase system reliabilityAlso available with I 2C or SPI digital outputAbsolute, differential and gage typesPressure ranges from 1 psi to 150 psi (60 mbar to 10 bar)Custom calibration availableVarious pressure port options Liquid media option2 /sensingPOTENTIAL APPLICATIONS Medical:- Airflow monitors- Anesthesia machines - Blood analysis machines - Gas chromatography - Gas flow instrumentation - Kidney dialysis machines - Oxygen concentrators - Pneumatic controls - Respiratory machines - Sleep apnea equipment - VentilatorsIndustrial:- Barometry- Flow calibrators- Gas chromatography - Gas flow instrumentation - HVAC- Life sciences- Pneumatic controls1Honeywell Sensing and Control 3101. Absolute maximum ratings are the extreme limits the device will withstand without damage.2. Ratiometricity of the sensor (the ability of the device to scale to the supply voltage) is achieved within the specified operating voltage for eachoption.3. The sensor is not reverse polarity protected. Incorrect application of supply voltage or ground to the wrong pin may cause electrical failure.4. The compensated temperature range is the temperature range over which the sensor will produce an output proportional to pressure withinthe specified performance limits.5. The operating temperature range is the temperature range over which the sensor will produce an output proportional to pressure but may notremain within the specified performance limits.6. Accuracy: The maximum deviation in output from a Best Fit Straight Line (BFSL) fitted to the output measured over the pressure range at25 °C [77 °F]. Includes all errors due to pressure non-linearity, pressure hysteresis, and non-repeatability.7. Total Error Band: The maximum deviation from the ideal transfer function over the entire compensated temperature and pressure range.Includes all errors due to offset, full scale span, pressure non-linearity, pressure hysteresis, repeatability, thermal effect on offset, thermal effect on span, and thermal hysteresis.8. Full Scale Span (FSS) is the algebraic difference between the output signal measured at the maximum (Pmax.) and minimum (Pmin.) limits ofthe pressure range. (See Figure 1 for ranges.)9. Life may vary depending on specific application in which sensor is utilized. 10. Contact Honeywell Customer Service for detailed material information.CAUTIONPRODUCT DAMAGEEnsure liquid media is applied to Port 1 only; Port 2 is not compatible with liquids.Ensure liquid media contains no particulates. All TruStability ®sensors are dead-ended devices. Particulates can accumulate inside the sensor, causing damage or affecting sensor output.Recommend that the sensor be positioned with Port 1 facing downwards; any particulates in the system are less likely to enter and settle within the pressure sensor if it is in this position.Ensure liquid media does not create a residue when dried; build-up inside the sensor may affect sensor output. Rinsing of a dead-ended sensor is difficult and has limited effectiveness for removing residue.Ensure liquid media are compatible with wetted materials. Non-compatible liquid media will degrade sensor performance and may lead to sensor failure.Failure to comply with these instructions may result in product damage.4 /sensing11. The transfer function limits define the output of the sensor at a given pressure input. By specifying Pmin. and Pmax., the output at Pmin. andPmax., the complete transfer function of the sensor is defined. See Figure 2 for a graphical representation of the transfer function. Other transfer functions are available. Contact Honeywell Customer Service for more information.12. Digital outputs (SPI or I 2C) are also available. Contact Honeywell Customer Service for more information. 13. Custom pressure ranges are available. Contact Honeywell Customer Service for more information. 14. See Table 5 for an explanation of sensor pressure types. 15. See CAUTION on previous page.Honeywell Sensing and Control 5SSCSANN100PGAA3 SIP package, AN pressure port, no diagnostics, 100Output is proportional to the difference between the pressures applied to each port. (Port 1 Port 2)50% point of transfer function set at Port 1 = Port 2.Long-term Stability (1000 hr, 25 C [77 F]) 0.25% FSS 0.25% FSS 0.25% FSS 0.25% FSS 0.25% FSS 0.35% FSS 0.35% FSS 0.25% FSS 0.25% FSS 0.25% FSS 0.35% FSS 0.35% FSS 0.25% FSS 0.25% FSS 0.25% FSS 0.25% FSS 0.25% FSS6 /sensingLong-term Stability (1000 hr, 25 C [77 F]) 0.25% FSS 0.25% FSS 0.25% FSS 0.25% FSS 0.25% FSS 0.25% FSS 0.35% FSS 0.35% FSS 0.35% FSS 0.35% FSS 0.35% FSS 0.25% FSS 0.25% FSS 0.25% FSS 0.25% FSS 0.25% FSS 0.35% FSS 0.35% FSS 0.35% FSS0.35% FSS 0.35% FSS0.35% FSS 0.25% FSS 0.25% FSS 0.25% FSS 0.25% FSS 0.25% FSS 0.25% FSS16. Overpressure: The maximum pressure which may safely be applied to the product for it to remain in specification once pressure is returned tothe operating pressure range. Exposure to higher pressures may cause permanent damage to the product. Unless otherwise specified this applies to all available pressure ports at any temperature with the operating temperature range.17. Burst pressure: The maximum pressure that may be applied to any port of the product without causing escape of pressure media. Productshould not be expected to function after exposure to any pressure beyond the burst pressure.18. Common mode pressure: The maximum pressure that can be applied simultaneously to both ports of a differential pressure sensor withoutcausing changes in specified performance.Honeywell Sensing and Control78 /sensingHoneywell Sensing and Control910 /sensingHoneywell Sensing and Control 11Sensing and Control Honeywell1985 Douglas Drive NorthGolden Valley, MN 55422 008215-2-EN IL50 GLO Printed in USA March 2011© 2011 Honeywell International Inc.WARNINGWARRANTY/REMEDYHoneywell warrants goods of its manufacture as being free of defective materials and faulty workmanship. Honeywell s standard product warranty applies unless agreed to otherwise by Honeywell in writing; please refer to your order acknowledgement or consult your local sales office for specific warranty details. If warranted goods are returned to Honeywell during the period of coverage, Honeywell will repair or replace, at its option, without charge those items it finds defective. The foregoing is buyer s sole remedy and is in lieu of all other warranties, expressed or implied, including those of merchantability and fitness for a particular purpose. In no event shall Honeywell be liable for consequential, special, or indirect damages.While we provide application assistance personally, through our literature and the Honeywell web site, it is up to the customer to determine the suitability of the product in the application.Specifications may change without notice. The information we supply is believed to be accurate and reliable as of this printing. However, we assume no responsibility for its use.WARNINGMISUSE OF DOCUMENTATIONThe information presented in this product sheet is forreference only. DO NOT USE this document as aproduct installation guide.Complete installation, operation, and maintenanceinformation is provided in the instructions supplied witheach product.Failure to comply with these instructions could result in death or serious injury.SALES AND SERVICEHoneywell serves its customers through a worldwide network of sales offices, representatives and distributors. For application assistance, current specifications, pricing or name of the nearest Authorized Distributor, contact your local sales office or:E-mail:*********************Internet: /sensingPhone and Fax:Asia Pacific +65 6355-2828; +65 6445-3033 FaxEurope +44 (0) 1698 481481; +44 (0) 1698 481676 Fax Latin America +1-305-805-8188; +1-305-883-8257 FaxUSA/Canada +1-800-537-6945; +1-815-235-6847+1-815-235-6545 Fax。

Error MessagesF9001 Error internal function call.F9002 Error internal RTOS function callF9003 WatchdogF9004 Hardware trapF8000 Fatal hardware errorF8010 Autom. commutation: Max. motion range when moving back F8011 Commutation offset could not be determinedF8012 Autom. commutation: Max. motion rangeF8013 Automatic commutation: Current too lowF8014 Automatic commutation: OvercurrentF8015 Automatic commutation: TimeoutF8016 Automatic commutation: Iteration without resultF8017 Automatic commutation: Incorrect commutation adjustment F8018 Device overtemperature shutdownF8022 Enc. 1: Enc. signals incorr. (can be cleared in ph. 2) F8023 Error mechanical link of encoder or motor connectionF8025 Overvoltage in power sectionF8027 Safe torque off while drive enabledF8028 Overcurrent in power sectionF8030 Safe stop 1 while drive enabledF8042 Encoder 2 error: Signal amplitude incorrectF8057 Device overload shutdownF8060 Overcurrent in power sectionF8064 Interruption of motor phaseF8067 Synchronization PWM-Timer wrongF8069 +/-15Volt DC errorF8070 +24Volt DC errorF8076 Error in error angle loopF8078 Speed loop error.F8079 Velocity limit value exceededF8091 Power section defectiveF8100 Error when initializing the parameter handlingF8102 Error when initializing power sectionF8118 Invalid power section/firmware combinationF8120 Invalid control section/firmware combinationF8122 Control section defectiveF8129 Incorrect optional module firmwareF8130 Firmware of option 2 of safety technology defectiveF8133 Error when checking interrupting circuitsF8134 SBS: Fatal errorF8135 SMD: Velocity exceededF8140 Fatal CCD error.F8201 Safety command for basic initialization incorrectF8203 Safety technology configuration parameter invalidF8813 Connection error mains chokeF8830 Power section errorF8838 Overcurrent external braking resistorF7010 Safely-limited increment exceededF7011 Safely-monitored position, exceeded in pos. DirectionF7012 Safely-monitored position, exceeded in neg. DirectionF7013 Safely-limited speed exceededF7020 Safe maximum speed exceededF7021 Safely-limited position exceededF7030 Position window Safe stop 2 exceededF7031 Incorrect direction of motionF7040 Validation error parameterized - effective thresholdF7041 Actual position value validation errorF7042 Validation error of safe operation modeF7043 Error of output stage interlockF7050 Time for stopping process exceeded8.3.15 F7051 Safely-monitored deceleration exceeded (159)8.4 Travel Range Errors (F6xxx) (161)8.4.1 Behavior in the Case of Travel Range Errors (161)8.4.2 F6010 PLC Runtime Error (162)8.4.3 F6024 Maximum braking time exceeded (163)8.4.4 F6028 Position limit value exceeded (overflow) (164)8.4.5 F6029 Positive position limit exceeded (164)8.4.6 F6030 Negative position limit exceeded (165)8.4.7 F6034 Emergency-Stop (166)8.4.8 F6042 Both travel range limit switches activated (167)8.4.9 F6043 Positive travel range limit switch activated (167)8.4.10 F6044 Negative travel range limit switch activated (168)8.4.11 F6140 CCD slave error (emergency halt) (169)8.5 Interface Errors (F4xxx) (169)8.5.1 Behavior in the Case of Interface Errors (169)8.5.2 F4001 Sync telegram failure (170)8.5.3 F4002 RTD telegram failure (171)8.5.4 F4003 Invalid communication phase shutdown (172)8.5.5 F4004 Error during phase progression (172)8.5.6 F4005 Error during phase regression (173)8.5.7 F4006 Phase switching without ready signal (173)8.5.8 F4009 Bus failure (173)8.5.9 F4012 Incorrect I/O length (175)8.5.10 F4016 PLC double real-time channel failure (176)8.5.11 F4017 S-III: Incorrect sequence during phase switch (176)8.5.12 F4034 Emergency-Stop (177)8.5.13 F4140 CCD communication error (178)8.6 Non-Fatal Safety Technology Errors (F3xxx) (178)8.6.1 Behavior in the Case of Non-Fatal Safety Technology Errors (178)8.6.2 F3111 Refer. missing when selecting safety related end pos (179)8.6.3 F3112 Safe reference missing (179)8.6.4 F3115 Brake check time interval exceeded (181)Troubleshooting Guide | Rexroth IndraDrive Electric Drivesand ControlsI Bosch Rexroth AG VII/XXIITable of ContentsPage8.6.5 F3116 Nominal load torque of holding system exceeded (182)8.6.6 F3117 Actual position values validation error (182)8.6.7 F3122 SBS: System error (183)8.6.8 F3123 SBS: Brake check missing (184)8.6.9 F3130 Error when checking input signals (185)8.6.10 F3131 Error when checking acknowledgment signal (185)8.6.11 F3132 Error when checking diagnostic output signal (186)8.6.12 F3133 Error when checking interrupting circuits (187)8.6.13 F3134 Dynamization time interval incorrect (188)8.6.14 F3135 Dynamization pulse width incorrect (189)8.6.15 F3140 Safety parameters validation error (192)8.6.16 F3141 Selection validation error (192)8.6.17 F3142 Activation time of enabling control exceeded (193)8.6.18 F3143 Safety command for clearing errors incorrect (194)8.6.19 F3144 Incorrect safety configuration (195)8.6.20 F3145 Error when unlocking the safety door (196)8.6.21 F3146 System error channel 2 (197)8.6.22 F3147 System error channel 1 (198)8.6.23 F3150 Safety command for system start incorrect (199)8.6.24 F3151 Safety command for system halt incorrect (200)8.6.25 F3152 Incorrect backup of safety technology data (201)8.6.26 F3160 Communication error of safe communication (202)8.7 Non-Fatal Errors (F2xxx) (202)8.7.1 Behavior in the Case of Non-Fatal Errors (202)8.7.2 F2002 Encoder assignment not allowed for synchronization (203)8.7.3 F2003 Motion step skipped (203)8.7.4 F2004 Error in MotionProfile (204)8.7.5 F2005 Cam table invalid (205)8.7.6 F2006 MMC was removed (206)8.7.7 F2007 Switching to non-initialized operation mode (206)8.7.8 F2008 RL The motor type has changed (207)8.7.9 F2009 PL Load parameter default values (208)8.7.10 F2010 Error when initializing digital I/O (-> S-0-0423) (209)8.7.11 F2011 PLC - Error no. 1 (210)8.7.12 F2012 PLC - Error no. 2 (210)8.7.13 F2013 PLC - Error no. 3 (211)8.7.14 F2014 PLC - Error no. 4 (211)8.7.15 F2018 Device overtemperature shutdown (211)8.7.16 F2019 Motor overtemperature shutdown (212)8.7.17 F2021 Motor temperature monitor defective (213)8.7.18 F2022 Device temperature monitor defective (214)8.7.19 F2025 Drive not ready for control (214)8.7.20 F2026 Undervoltage in power section (215)8.7.21 F2027 Excessive oscillation in DC bus (216)8.7.22 F2028 Excessive deviation (216)8.7.23 F2031 Encoder 1 error: Signal amplitude incorrect (217)VIII/XXII Bosch Rexroth AG | Electric Drivesand ControlsRexroth IndraDrive | Troubleshooting GuideTable of ContentsPage8.7.24 F2032 Validation error during commutation fine adjustment (217)8.7.25 F2033 External power supply X10 error (218)8.7.26 F2036 Excessive position feedback difference (219)8.7.27 F2037 Excessive position command difference (220)8.7.28 F2039 Maximum acceleration exceeded (220)8.7.29 F2040 Device overtemperature 2 shutdown (221)8.7.30 F2042 Encoder 2: Encoder signals incorrect (222)8.7.31 F2043 Measuring encoder: Encoder signals incorrect (222)8.7.32 F2044 External power supply X15 error (223)8.7.33 F2048 Low battery voltage (224)8.7.34 F2050 Overflow of target position preset memory (225)8.7.35 F2051 No sequential block in target position preset memory (225)8.7.36 F2053 Incr. encoder emulator: Pulse frequency too high (226)8.7.37 F2054 Incr. encoder emulator: Hardware error (226)8.7.38 F2055 External power supply dig. I/O error (227)8.7.39 F2057 Target position out of travel range (227)8.7.40 F2058 Internal overflow by positioning input (228)8.7.41 F2059 Incorrect command value direction when positioning (229)8.7.42 F2063 Internal overflow master axis generator (230)8.7.43 F2064 Incorrect cmd value direction master axis generator (230)8.7.44 F2067 Synchronization to master communication incorrect (231)8.7.45 F2068 Brake error (231)8.7.46 F2069 Error when releasing the motor holding brake (232)8.7.47 F2074 Actual pos. value 1 outside absolute encoder window (232)8.7.48 F2075 Actual pos. value 2 outside absolute encoder window (233)8.7.49 F2076 Actual pos. value 3 outside absolute encoder window (234)8.7.50 F2077 Current measurement trim wrong (235)8.7.51 F2086 Error supply module (236)8.7.52 F2087 Module group communication error (236)8.7.53 F2100 Incorrect access to command value memory (237)8.7.54 F2101 It was impossible to address MMC (237)8.7.55 F2102 It was impossible to address I2C memory (238)8.7.56 F2103 It was impossible to address EnDat memory (238)8.7.57 F2104 Commutation offset invalid (239)8.7.58 F2105 It was impossible to address Hiperface memory (239)8.7.59 F2110 Error in non-cyclical data communic. of power section (240)8.7.60 F2120 MMC: Defective or missing, replace (240)8.7.61 F2121 MMC: Incorrect data or file, create correctly (241)8.7.62 F2122 MMC: Incorrect IBF file, correct it (241)8.7.63 F2123 Retain data backup impossible (242)8.7.64 F2124 MMC: Saving too slowly, replace (243)8.7.65 F2130 Error comfort control panel (243)8.7.66 F2140 CCD slave error (243)8.7.67 F2150 MLD motion function block error (244)8.7.68 F2174 Loss of motor encoder reference (244)8.7.69 F2175 Loss of optional encoder reference (245)Troubleshooting Guide | Rexroth IndraDrive Electric Drivesand Controls| Bosch Rexroth AG IX/XXIITable of ContentsPage8.7.70 F2176 Loss of measuring encoder reference (246)8.7.71 F2177 Modulo limitation error of motor encoder (246)8.7.72 F2178 Modulo limitation error of optional encoder (247)8.7.73 F2179 Modulo limitation error of measuring encoder (247)8.7.74 F2190 Incorrect Ethernet configuration (248)8.7.75 F2260 Command current limit shutoff (249)8.7.76 F2270 Analog input 1 or 2, wire break (249)8.7.77 F2802 PLL is not synchronized (250)8.7.78 F2814 Undervoltage in mains (250)8.7.79 F2815 Overvoltage in mains (251)8.7.80 F2816 Softstart fault power supply unit (251)8.7.81 F2817 Overvoltage in power section (251)8.7.82 F2818 Phase failure (252)8.7.83 F2819 Mains failure (253)8.7.84 F2820 Braking resistor overload (253)8.7.85 F2821 Error in control of braking resistor (254)8.7.86 F2825 Switch-on threshold braking resistor too low (255)8.7.87 F2833 Ground fault in motor line (255)8.7.88 F2834 Contactor control error (256)8.7.89 F2835 Mains contactor wiring error (256)8.7.90 F2836 DC bus balancing monitor error (257)8.7.91 F2837 Contactor monitoring error (257)8.7.92 F2840 Error supply shutdown (257)8.7.93 F2860 Overcurrent in mains-side power section (258)8.7.94 F2890 Invalid device code (259)8.7.95 F2891 Incorrect interrupt timing (259)8.7.96 F2892 Hardware variant not supported (259)8.8 SERCOS Error Codes / Error Messages of Serial Communication (259)9 Warnings (Exxxx) (263)9.1 Fatal Warnings (E8xxx) (263)9.1.1 Behavior in the Case of Fatal Warnings (263)9.1.2 E8025 Overvoltage in power section (263)9.1.3 E8026 Undervoltage in power section (264)9.1.4 E8027 Safe torque off while drive enabled (265)9.1.5 E8028 Overcurrent in power section (265)9.1.6 E8029 Positive position limit exceeded (266)9.1.7 E8030 Negative position limit exceeded (267)9.1.8 E8034 Emergency-Stop (268)9.1.9 E8040 Torque/force actual value limit active (268)9.1.10 E8041 Current limit active (269)9.1.11 E8042 Both travel range limit switches activated (269)9.1.12 E8043 Positive travel range limit switch activated (270)9.1.13 E8044 Negative travel range limit switch activated (271)9.1.14 E8055 Motor overload, current limit active (271)9.1.15 E8057 Device overload, current limit active (272)X/XXII Bosch Rexroth AG | Electric Drivesand ControlsRexroth IndraDrive | Troubleshooting GuideTable of ContentsPage9.1.16 E8058 Drive system not ready for operation (273)9.1.17 E8260 Torque/force command value limit active (273)9.1.18 E8802 PLL is not synchronized (274)9.1.19 E8814 Undervoltage in mains (275)9.1.20 E8815 Overvoltage in mains (275)9.1.21 E8818 Phase failure (276)9.1.22 E8819 Mains failure (276)9.2 Warnings of Category E4xxx (277)9.2.1 E4001 Double MST failure shutdown (277)9.2.2 E4002 Double MDT failure shutdown (278)9.2.3 E4005 No command value input via master communication (279)9.2.4 E4007 SERCOS III: Consumer connection failed (280)9.2.5 E4008 Invalid addressing command value data container A (280)9.2.6 E4009 Invalid addressing actual value data container A (281)9.2.7 E4010 Slave not scanned or address 0 (281)9.2.8 E4012 Maximum number of CCD slaves exceeded (282)9.2.9 E4013 Incorrect CCD addressing (282)9.2.10 E4014 Incorrect phase switch of CCD slaves (283)9.3 Possible Warnings When Operating Safety Technology (E3xxx) (283)9.3.1 Behavior in Case a Safety Technology Warning Occurs (283)9.3.2 E3100 Error when checking input signals (284)9.3.3 E3101 Error when checking acknowledgment signal (284)9.3.4 E3102 Actual position values validation error (285)9.3.5 E3103 Dynamization failed (285)9.3.6 E3104 Safety parameters validation error (286)9.3.7 E3105 Validation error of safe operation mode (286)9.3.8 E3106 System error safety technology (287)9.3.9 E3107 Safe reference missing (287)9.3.10 E3108 Safely-monitored deceleration exceeded (288)9.3.11 E3110 Time interval of forced dynamization exceeded (289)9.3.12 E3115 Prewarning, end of brake check time interval (289)9.3.13 E3116 Nominal load torque of holding system reached (290)9.4 Non-Fatal Warnings (E2xxx) (290)9.4.1 Behavior in Case a Non-Fatal Warning Occurs (290)9.4.2 E2010 Position control with encoder 2 not possible (291)9.4.3 E2011 PLC - Warning no. 1 (291)9.4.4 E2012 PLC - Warning no. 2 (291)9.4.5 E2013 PLC - Warning no. 3 (292)9.4.6 E2014 PLC - Warning no. 4 (292)9.4.7 E2021 Motor temperature outside of measuring range (292)9.4.8 E2026 Undervoltage in power section (293)9.4.9 E2040 Device overtemperature 2 prewarning (294)9.4.10 E2047 Interpolation velocity = 0 (294)9.4.11 E2048 Interpolation acceleration = 0 (295)9.4.12 E2049 Positioning velocity >= limit value (296)9.4.13 E2050 Device overtemp. Prewarning (297)Troubleshooting Guide | Rexroth IndraDrive Electric Drivesand Controls| Bosch Rexroth AG XI/XXIITable of ContentsPage9.4.14 E2051 Motor overtemp. prewarning (298)9.4.15 E2053 Target position out of travel range (298)9.4.16 E2054 Not homed (300)9.4.17 E2055 Feedrate override S-0-0108 = 0 (300)9.4.18 E2056 Torque limit = 0 (301)9.4.19 E2058 Selected positioning block has not been programmed (302)9.4.20 E2059 Velocity command value limit active (302)9.4.21 E2061 Device overload prewarning (303)9.4.22 E2063 Velocity command value > limit value (304)9.4.23 E2064 Target position out of num. range (304)9.4.24 E2069 Holding brake torque too low (305)9.4.25 E2070 Acceleration limit active (306)9.4.26 E2074 Encoder 1: Encoder signals disturbed (306)9.4.27 E2075 Encoder 2: Encoder signals disturbed (307)9.4.28 E2076 Measuring encoder: Encoder signals disturbed (308)9.4.29 E2077 Absolute encoder monitoring, motor encoder (encoder alarm) (308)9.4.30 E2078 Absolute encoder monitoring, opt. encoder (encoder alarm) (309)9.4.31 E2079 Absolute enc. monitoring, measuring encoder (encoder alarm) (309)9.4.32 E2086 Prewarning supply module overload (310)9.4.33 E2092 Internal synchronization defective (310)9.4.34 E2100 Positioning velocity of master axis generator too high (311)9.4.35 E2101 Acceleration of master axis generator is zero (312)9.4.36 E2140 CCD error at node (312)9.4.37 E2270 Analog input 1 or 2, wire break (312)9.4.38 E2802 HW control of braking resistor (313)9.4.39 E2810 Drive system not ready for operation (314)9.4.40 E2814 Undervoltage in mains (314)9.4.41 E2816 Undervoltage in power section (314)9.4.42 E2818 Phase failure (315)9.4.43 E2819 Mains failure (315)9.4.44 E2820 Braking resistor overload prewarning (316)9.4.45 E2829 Not ready for power on (316)。

PK-93307-10-00-2BWARNINGS AND CAUTIONS:• TO AVOID FIRE, SHOCK, OR DEATH; TURN OFF POWER AT CIRCUIT BREAKER OR FUSE AND TEST THAT POWER IS OFF BEFORE WIRING!• To be installed and/or used in accordance with appropriate electrical codes and regulations.• If you are unsure about any part of these instructions, consult an electrician.• Sensors must be mounted on a vibration free surface.• Do not terminate using data type wire, such as Cat 5/5E.• Do not mount sensors closer than 10 feet to each other.• All sensors must be mounted at least 6 feet away from air vents, air handlers, and reflective surfaces (windows/mirrors).• Do not touch the surface of the lens. Clean outer surface with a damp cloth only.WARNINGS AND CAUTIONS:For Occupancy Sensors installed to control Emergency Lighting Equipment:If this equipment is being used for Emergency Lighting and Power Equipment, please adhere to the following information. This equipment is rated for only 25C if used on Emergency Lighting Equipment. Apply the "Emergency Circuits" label (provided) to the front cover.IMPORTANT SAFEGUARDSWhen using electrical equipment, basic safety precautions should always be followed, including the following:a) READ AND FOLLOW ALL SAFETY INSTRUCTIONS.b) DO NOT use outdoors.c) DO NOT mount near gas or electric heaters.d) Equipment should be mounted in locations and at heights where it will not readily be subjected to tampering by unauthorized personnel.e) The use of accessory equipment not recommended by manufacturer may cause an unsafe condition.f) DO NOT use this equipment for other than the intended use.SAVE THESE INSTRUCTIONSAll servicing shall be performed by qualified service personnel. If any Emergency Circuits are fed or controlled from this panel, it must be located electrically where fed from a UPS, generator, or other guaranteed source of power during emergencies and power outage situations.120V 60Hz277V 60Hz800W/VA, Tungsten, Ballast 8A, Electronic Ballast1/4 hp1200VA, Ballast 5A, Electronic Ballast 1/3 hpRating:6A-6AX 250VOperating Temperature:32˚ to 104˚F (0˚ to 40˚C)720-1440 W/VA120-240 50Hz MUltrasonic Ceiling Mounted Line Voltage Occupancy SensorCalifornia Title 20 CompliantCat. No. ODC Ø5-UDW, ODC1Ø-UDW, ODC2Ø-UDWNo Minimum Load RequiredCompatible with electronic and magnetic ballasts, electronic and magnetic low-voltage transformers, incandescent lamps, and fansINSTALLATION INSTRUCTIONSMount in corner/over doorwaySuggested Mounting Location 500 sq. ft.1000 sq. ft.2000 sq. ft.Coverage ODC05-UDW ODC10-UDW ODC20-UDW Cat. No.1-Way Ultrasonic 2-Way Ultrasonic 2-Way Ultrasonic Description120-277,50/60Hz 120-277,50/60Hz 120-277,50/60HzVoltage Range60-30ma 60-30ma 60-30maCurrent ConsumptionCATALOG ITEMSMount in center of room, 8-12 ft height Mount in center of room, 8-12 ft heightLIMITED 5 YEAR WARRANTY AND EXCLUSIONSLeviton warrants to the original consumer purchaser and not for the benefit of anyone else that this product at the time of its sale by Leviton is free of defects in materials and workmanship under normal and proper use for five years from the purchase date. Leviton’s only obligation is to correct such defects by repair or replacement, at its option. For details visit or call 1-800-824-3005. This warranty excludes and there is disclaimed liability for labor for removal of this product or reinstallation. This warranty is void if this product is installed improperly or in an improper environment, overloaded, misused, opened, abused, or altered in any manner, or is not used under normal operating conditions or not in accordance with any labels or instructions. There are no other or implied warranties of any kind, including merchantability and fitness for a particular purpose, but if any implied warranty is required by the applicable jurisdiction, the duration of any such implied warranty, including merchantability and fitness for a particular purpose, is limited to five years. Leviton is not liable for incidental, indirect, special, or consequential damages, including without limitation, damage to, or loss of use of, any equipment, lost sales or profits or delay or failure to perform this warranty obligation. The remedies provided herein are the exclusive remedies under this warranty, whether based on contract, tort or otherwise.。

机械与材料工程学院本科毕业论文（设计）题目基于单片机的车载酒驾检测系统设计专业班级测控技术与仪器二班学号**********学生姓名指导教师设计所在单位2015年5月基于单片机的车载酒驾检测系统设计摘要：针对酒后驾车导致交通事故频繁发生的现象，设计了一种能够防止酒后驾驶的控制系统。

将酒驾带来的潜在后果扼杀在源头。

该系统是一款基于MSP430单片机的超低功耗酒精检测控制系统。

该系统可以自动对酒精浓度进行检测，以确保行车的安全。

系统可以根据检测到的酒精含量是否超标对驾驶人员反馈相应的信息。

如果超标，则驾驶人员无法启动汽车，因此从根本上杜绝了酒后驾车的出现。

该系统具有性价比高，智能化程度高，工作稳定可靠的优点。

而且可以用在需要控制酒精浓度以确保安全的任何场合。

该系统以单片机为核心, 配以检测电路、控制电路、LCD液晶显示电路、语音报警电路，从而实现智能车载安全控制服务。

由于具有设备检测的主动判断能力和较强的人机交互性，因此具有较高的实用价值。

关键词：酒精检测；语音报警；LCD液晶显示；MSP430单片机The Design of Alcohol Testing System Based on MCUAbstract：Aiming at the phenomenon of that the drunk driving causes traffic accidents frequently, designed a controlling system to prevent drunk driving. By doing this，the potential consequences of the drunk driving will be killed at source. This syst-em is an ultra low power system based on MSP430 single chip microcomputer alcohol detection controlling instrument. And it could test the alcohol concentratio-n automatically, so that the driving safety could be ensured. The system would fe edback specific informations to the driver according to the detected result of alcoh ol. If it is out of the standard, the driver could not launch the car, which fundame ntally put an end to the emergence of drunk driving. There are many advantages on high cost performance, high intelligence degree and working stably and reliabl-y. And it can be used in any occasion where the alcohol concentration needs to b e monitored.The system is as the core of MCU, and associated with the detection circuit, control circuit, LCD display circuit, voice alarm circuit, so as to provide the intelligent vehicle safety control services. Because of the capacity of equipment detecting，making judge actively and strong human-computer interaction, it has a high value on practicing.Key words：Alcohol test; V oice alarm; LCD liquid crystal display; MSP430 singl e chip microcomputer目录第一章绪论 (1)1.1 选题的目的与意义 (1)1.2 车载酒精检测系统的发展趋势 (1)1.3 本文研究内容和主要工作 (2)第二章酒精检测系统的总体分析 (3)2.1酒精检测系统的工作原理 (3)2.2酒精检测系统的主要功能与特点 (3)2.3单片机的选型 (3)第三章硬件设计 (6)3.1 系统的硬件原理框图 (6)3.2电源电路 (6)3.3酒精检测电路 (7)3.4复位电路 (8)3.5 键盘输入电路 (9)3.6 LCD显示电路 (10)3.7 语音报警电路 (11)3.8输出控制电路 (13)第四章软件设计 (14)4.1 软件开发环境 (14)4.2 系统软件结构 (15)4.3 系统软件设计 (16)4.4系统调试 (20)第五章总结与展望 (22)致谢 (23)参考文献 (24)附录1 (26)附录2 (27)第一章绪论1.1 选题的目的与意义早在1936 年，挪威就颁布了0.05%(g/ml)的血液酒精浓度（Blood alcohol con centration；BAC）为酒后驾车的标准[1]。

H38 | INCREMENTAL OPTICAL ENCODERSPECIFICATIONSThe H38 is an explosion proof version of the field-proven H25 encoder series. The H38 is UL certified for NEMA Class 4X and 6 (outdoor nonhazardous locations) and Class 4X and 13 (indoor non-hazardous locations). It is available with single and triple certifications for use in hazardous locations and includes a standard shaft seal, double bearing seals, and a cast aluminum housing with hard anodized and dichromate sealed finish. The H38 is suitable for use in petroleum service industries, solvent refining operations, spray painting applications, and explosive dust environments.IntroductionMechanicalSPECIFICATIONS (CONTINUED)Notes & Tables:All notes and tables referred to in the text can be found on pages 4 and 5.ElectricalEnvironmentalDIMENSIONS Dimensions in mm1. Non-standard index widths and multiple indices are available by special order. Consult factory.2. Complementary outputs are recommended for use with line driver type (source/sink) outputs. When used with differential receivers, this combination provides a high degree of noise immunity.3. Output IC’s: Output IC’s are available as either Line Driver (LD) or NPN Open Collector (OC) types. Open Collectors require pull-up resistors, resulting in higher output source impedance (sink impedance is similar to that of line drivers). In general, use of a Line Driver style output is recommended. Line Drivers source or sink current and their lower impedance means better noise immunity and faster switching times. Warning: Do not connect any line driver outputs directly to circuit common/OV. Those may damage the driver. Unused outputs should be isolated and left floating. Our applications specialists would be pleased to discuss your system requirements and the compatibility of your receiving electronics with Line Driver type outputs. 28V/V: Multi-voltage Line Driver (7272*): 100 mA source/sink. Input voltage 5 to 28 VDC +/- 5% standard (Note: Vout = Vin). This driver is TTL compatible when used with 5 volt supply. Supply lines are protected against overvoltage to 60 volts and reverse voltage. Outputs are short circuit protected for one minute. Supply current is 120 mA typical (plus load current). This is the recommended replacement for 3904R and 7406R open collector outputs with internal pullup resistors. It is also a direct replacement for any 4469, 88C30, 8830 or 26LS31 line driver 28V/5: Multi-voltage Line Driver (7272*): 100 mA source/sink. Input voltage 5 to 28 VDC +/- 5% standard, internally regulated with 5V (TTL compatible) logic out. Supply lines are protected against overvoltage to 60 volts and reverse voltage. Outputs are short circuit protected for one minute. Supply current is 90 mA typical (plus load current). 15V/V: Multi-voltage Line Driver (4469*): 100 mA source/sink. Input voltage 5 to 15 VDC +/- 5% standard (Note: Vout = Vin). TTL compatible when used with 5 volt. Supply lines are protected against overvoltage to 60 volts and reverse voltage. Outputs are short circuit protected for one minute. Supply current is 90 mA typical (plus load current). This is a direct replacement for the 4469 Line Driver. 28V/OC: NPN Open Collector (3904*, 7273*). Current sink of 80 mA max. Current sourced by external pull- up resistor. Output can be pulled up to voltage other than supply voltage (30 V max). Input voltage 5 to 28 VDC +/- 5% standard. Supply current is 120 mA typical. This replaces prior IC’s with designations of 3904, 7406, 3302, 681 and 689. 5V/OCR, 15V/OCR, 24V/OCR: Open Collector (3904R*, 7406R*, 7273R*): Current sink of 70 mA max. Includes internal pull-ups sized at approximately 100 ohms/ volt. Max current source is 10 mA. Supply current is 100 mA typical, 120 mA with internal pull-ups. The 5V/OCR, 15V/OCR and 24V/OCR are often replaced by the 28V/V in system upgrades.4. Special –S at the end of the model number is used to define a variety of non-standard features such as special shaft lengths, voltage options, or special testing. Please consult the factory to discuss your special requirements.5. Higher frequency response may be available. Please consult with the factory.6. Extended temperature ratings are available. Consult with factory for more specific information.7. For interpolation options, contact factory. See Doc. 01059-000 supplied with encoders for Important Installation and Usage notes summarized here.1. Environment: Hazardous Locations — UL Complies with UL and cUL requirements; CEN Shall comply with UL requirements plus CENELAC/ATEX plus IECEx standards2. WARNING: Open all circuits prior to connecting this product to power and controller.3. The installation must comply with NEC Class 2 circuits or with the regulations of the country of use.4. AWG 14 - 22 stranded wire stripped to .25” [6.3mm} is recommended.5. Use agency approved 105° C minimum rated cable/conductors housed within an approved rigid conduit.6. Conduit runs must have a sealing fitting certified to 60079-0 Ex d IIB immediately at the entrance to the device.7. Tightly close terminal block access cover prior to applying power.8. For maximum bearing life, a flexible coupling is recommended between encoder shaft and driving shaft.Encoder Installation1. Keep terminal block access tightly secured during use.2. DO NOT loosen two 5/16” set screws at opposite face.1. There are no user serviceable parts inside. Encoder must be returned to factory for service.2. WARNING: Open all circuits to this product prior to opening access cover to disconnect wires.During UseMaintenance and Service*AB or ABC output only.NOTE: Resolutions up to 72,000 are available. See Note 7.ORDERING OPTIONSS = Special features specified on purchase order (consult factory) See note 4Page 7CONTACT USAmericas+1 (800) 350 2727 – Option 1****************************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 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 AGENCY APPROVALS & CERTIFICATIONSEN 61000-6-4 and EN 61000-6-2Class I, Group C & D;Class II Group E,F & G;Class I, XXXXXII 2 G Ex d IIB T4 GbIECEx (Exd IIB T4)UL 14.0006XThe Mine Safety and Health Administration (MSHA) is an organization that operates in the United States and enforces compliance with safety and health standards in the Nation’s mines. Consult factory for MSHArated product.。

NEMA 4X (IP65) MASS FLOW CONTROLLERS AND METERSFMA-8301$1697ߜNEMA 4X (IP65)Watertight ConstructionߜStackable Designfor Easy InstallationߜDual AnalogSignal OutputsߜRemovable SensorߜCorrosion-ResistantValveThese controllers and meters offerhigh accuracy, control, andmeasurement of industrial gaseswith the added integrity of NEMA 4X(IP65) industrial packaging. Theheart of the controller and meter isthe removable flow sensor whichproduces an electrical output signal linear with mass flow rate. This output can be used for indicating, recording, and/or controlling purposes. The FMA-8300 controller has an integral valve and accepts a remote setpoint, which makes it a simple and easy-to-install flow control system. SPECIFICATIONSAccuracy:±1% FS including linearity at calibrated conditions Repeatability:0.25% of rate Response Time:Less than 6 seconds to within 2% of full scale of final value for a 0 to 100% command change Operating Pressure:1500 psig (100 bar) maximum Differential Pressure:5 to 50 psid pressure dropPressure Sensitivity:±0.03% per psi up to 200 psig (N2) Operating Temperature:5 to 65°C (41 to 149°F)Temperature Sensitivity:Zero:Less than ±0.075% FSper degree CSpan:Less than ±1.0 FS shift from original calibration over10 to 50°C (50 to 122°F)Leak Integrity:1 x 10-9Atm. scc/sec heliumWetted Materials:316 SS with Viton®O-rings Set Point Input:4 to 20 mA(75⍀ resistance) or0 to 5 Vdc 220 K⍀ resistanceOutput Signal:4 to 20 mA,loop-resistance is power supply dependent or 0 to 5 Vdc 220 K⍀or greater load. Maximum ripple 3 mV Power Voltage:Current:FMA-8200 Series:240 mA @15 VdcFMA-8300 Series:90 mAControl Range:50 to 1Weight:FMA-8200 Series:4.5 kg (10 lb)FMA-8300 Series:2.7 kg (6 lb)Note:Ranges are based on Nitrogen.* For controllers, insert: gas, inlet/outlet pressure and temperature.Comes complete with manual, connection fittings and calibration data.For calibration above 200 psig, add $355to the price.Ordering Examples: FMA-8300,0 to 10 SCCM mass flow meter,$2085.FMA-8209-H2-0/50 PSIG-70°C, 0 to 10 SLM mass flow controller for hydrogen, inlet/outlet pressure, 0/50 PSIG at 70°F,$2275.FMA-8300,$2085.FMA-8200,$2665.D-29CANADA www.omega.ca Laval(Quebec) 1-800-TC-OMEGA UNITED KINGDOM www. Manchester, England0800-488-488GERMANY www.omega.deDeckenpfronn, Germany************FRANCE www.omega.frGuyancourt, France088-466-342BENELUX www.omega.nl Amstelveen, NL 0800-099-33-44UNITED STATES 1-800-TC-OMEGA Stamford, CT.CZECH REPUBLIC www.omegaeng.cz Karviná, Czech Republic596-311-899TemperatureCalibrators, Connectors, General Test and MeasurementInstruments, Glass Bulb Thermometers, Handheld Instruments for Temperature Measurement, Ice Point References,Indicating Labels, Crayons, Cements and Lacquers, Infrared Temperature Measurement Instruments, Recorders Relative Humidity Measurement Instruments, RTD Probes, Elements and Assemblies, Temperature & Process Meters, Timers and Counters, Temperature and Process Controllers and Power Switching Devices, Thermistor Elements, Probes andAssemblies,Thermocouples Thermowells and Head and Well Assemblies, Transmitters, WirePressure, Strain and ForceDisplacement Transducers, Dynamic Measurement Force Sensors, Instrumentation for Pressure and Strain Measurements, Load Cells, Pressure Gauges, PressureReference Section, Pressure Switches, Pressure Transducers, Proximity Transducers, Regulators,Strain Gages, Torque Transducers, ValvespH and ConductivityConductivity Instrumentation, Dissolved OxygenInstrumentation, Environmental Instrumentation, pH Electrodes and Instruments, Water and Soil Analysis InstrumentationHeatersBand Heaters, Cartridge Heaters, Circulation Heaters, Comfort Heaters, Controllers, Meters and SwitchingDevices, Flexible Heaters, General Test and Measurement Instruments, Heater Hook-up Wire, Heating Cable Systems, Immersion Heaters, Process Air and Duct, Heaters, Radiant Heaters, Strip Heaters, Tubular HeatersFlow and LevelAir Velocity Indicators, Doppler Flowmeters, LevelMeasurement, Magnetic Flowmeters, Mass Flowmeters,Pitot Tubes, Pumps, Rotameters, Turbine and Paddle Wheel Flowmeters, Ultrasonic Flowmeters, Valves, Variable Area Flowmeters, Vortex Shedding FlowmetersData AcquisitionAuto-Dialers and Alarm Monitoring Systems, Communication Products and Converters, Data Acquisition and Analysis Software, Data LoggersPlug-in Cards, Signal Conditioners, USB, RS232, RS485 and Parallel Port Data Acquisition Systems, Wireless Transmitters and Receivers。

EasySense SNS200 Sensor for Advanced GroupingPhilips SpecificationsSection I - Physical Characteristics1.1 Sensor shall be suitable for integration into a light fixture.1.2 Sensor shall have a slim profile with height ≤ 1.26 in and width ≤ 0.75 in. and length ≤ 1.97 in.1.3 Sensor shall be two-wire connection only to driver.Section II - Performance Requirements2.1 Sensor shall be compatible with SR LED drivers.2.2 Sensor shall be capable of operating with up to (4) SR LED drivers.2.3 Sensor shall use the zigbee wireless protocol based on IEEEE 802.15.4 with AES-128 encryption.2.4 Sensor shall have occupancy detection capability via passive infrared (PIR).2.5 Sensor shall support light control based on local and shared occupancy2.6 Sensor shall support light control based on daylight detection and have auto-calibration.2.7 Sensor shall be capable of task tuning between 5% and 100%.2.8 Sensor shall be capable of auto-off/manual-on and auto-off/partial on functionality.2.9 Sensor shall have independent settings for task level, background level and eco-on level.2.10 Sensor and driver shall have combined standby power less < 1W.2.11 Sensor shall have an operating temperature range of 0C to 55C (32F to 131F).2.12 Sensor shall be capable of grouping up to (40) together and compatible with qualified wirelessswitches.2.13 Sensor shall be capable of spacing from sensor-to-sensor up to 33 ft.2.14 Sensor shall be configurable via handheld tool when unpowered, or from a 2 meter distance whenpowered.2.15 Sensor shall be capable of being used for scene setting application.Section III - Regulatory3.1 Sensor shall be Underwriters Laboratories (UL) listed per UL916, Canadian Standards Association(CSA) listed per CSA C22.2 No. 205-12.3.2 Sensor shall have a digital interface to the SR driver that meets UL Class 2 requirements.3.3 Sensor shall comply with applicable requirements of the Federal Communications Commission(FCC) rules and regulations, Title 47 CFR part 15, for Non-Consumer equipment.3.4 Sensor shall meet requirements in California Title 20.3.5 Sensor shall listed in the Design Lights Consortium (DLC) Qualified Products List (QPL) forNetworked Lighting Controls (NLC).3.6 Sensor shall be RoHS compliant.3.7 Sensor shall not contain any Polychlorinated Biphenyl (PCB).Section IV - Other4.1 Sensor shall be manufactured in a factory certified to ISO 9001 Quality System Standards.4.2 Sensor shall carry a five-year limited warranty from date of manufacture against defects in materialor workmanship, including replacement, for operation at a maximum case temperature of 55C (Go to our web site for up-to-date warranty information:/connect/tools_literature/warranties.wpd).4.3 Manufacturer shall have a 20-year history of producing lighting electronics for the North Americanmarket.4.4 Sensor shall be Philips Part # SNS200 or approved equal.。

621516 A2A1T1T118 SOU-2ManProgAuto + tSOU-215 16 18A1 A2 T1 T1UnSKSSOU-2 |A1 - A2AC 230 V / 50 - 60 Hz max. 4 VA / 1.5 W3 W -15 %; +10 %yes CR 2032 (3V)automatic1x changeover / SPDT (AgSnO 2)8 A / AC12000 VA / AC1, 240 W / DC 250 V AC / 30 V DC3x1071x1053 yearsmax. ±1 s day (23 °C / 73.4 °F )1 min min. 10 years 10-50000 lx displayed on LCD*100daily, weekly, yearlyLCD display, illuminated by back up -10 °C to +55 °C (-4 °F to 131 °F)-30 °C to +70 °C (-22 °F to 158 °F)4 kV (supply - output)any DIN rail EN 60715IP40 from front panel / IP20 terminalsIII.2solid wire max. 1x 2.5 or 2x 1.5, with sleeve max. 1x 1.5 (AWG 12)90 x 35.6 x 64 mm (3.5˝ x 1.4˝ x 2.5˝)139 g (4.9 oz.)66 x Ø 23.5 mm (2.6" x Ø 0.9")15 g (0.5 oz.)EN 61812-1, EN 61010-1, EN 60255-6; EN 60730-1; EN 60730-2-7Supply terminals:Voltage range:Burden:Max. dissipated power (Un + terminals):Voltage range:Back-up supply:Type of backup battery:Summer / winter time:OutputNumber of contacts:Current rating:Breaking capacity:Switching voltage:Mechanical life:Electrical life (AC1):Time circuitPower back-up:Accuracy:Minimum interval:Data stored for:Program circuitIllumination range:Sensor failure indication:Program place number:Program period:Data readout:Other informationOperating temperature:Storage temperature:Electrical strength:Operating position:Mounting:Protection degree:Overvoltage category:Pollution degree:Max. cable size (mm 2):Dimensions:Weight:Dimensions of the sensor SKS:Weight of sensor SKS:Standards:• Is used for control of lights on the basis of ambient light intensity and real time (combination of SOU-1 and time switch clock SHT-1 in one device).• Time clock can override the light sensor for applications when lights are not required.• Adjustable light intensity 10-50000 lx.• Function …random switching“ enables simulation of presence in a house when nobody is at home.• Switching: according to a program (AUTO) / permanently manual / ran-dom (CUBE).• External sensor IP44 issuitable for mounting on the wall / in panel (cov-er and sensors are part of delivery).• Sealable transparent cover of front panel.• Backup of data and time by battery (reserve battery up to 3 years).• Easy replacement of backup battery with plug-in module located on front panelof device (no disassembly required).• 2-MODULE, DIN rail mounting .Description of visual elements on the displayDescriptionConnection SymbolPlug-in moduleexternal sensorEAN codeSOU-2 + SKS: 8595188130523SOU-2: 8595188121644Photosensor SKS: 8594030337288Supply voltage terminal (A1)(A2)Backlight displayLead-sealing pointSensor-TerminalControlling buttonsOutput - Channel 1(15-16-18)Plug-in module for replacement of the backup battery with battery backup without battery backupDisplaying the day of the week Displaying the timeIndication of operating mode Displaying 12/24 h regime Diplaying the set-up menu data Control button PRG / + Control button MAN / -Control button OKControl button ESCStatus indication Indication of the switchingprogramResetTwilight switch with digital time switch clockTechnical parameters* ERROR - sensor short circuit。

BNI IOL-709-000-K006 BNI IOL-710-000-K006IO-Link Sensor-Hub analogUser’s GuideContent1Notes to the user 21.1Structure of the guide 21.2Typographical conventions 2Enumerations 2 Actions 2 Syntax 2 Cross-references 21.3Symbols 21.4Abbreviations 21.5Divergent views 2 2Safety 32.1Intended use 32.2Installation and startup 32.3General safety Notes 32.4Resistance to Aggressive Substances 3Hazardous voltage 3 3Getting Started 43.1Connection overview 43.2Mechanical connection 53.3Electrical connection 53.4Function ground 53.5IO-Link connection 53.6Digital Sensors 63.7Analogue Sensors 6 4IO-Link Interface 74.1IO-Link Data 74.2Process data inputs 74.3Process data outputs 84.4Parameter data/ On-request data 8Identification data 8 Inversion 9 Switch point enable 9 Switch point 94.5Errors 104.6Events 10 5Technical Data 115.1Dimensions 115.2Mechanical data 115.3Electrical data 115.4Operating conditions 115.5Function indicators 12Module LEDs 12 Digital Input LEDs 12 Analogue Input LEDs 12 6Appendix 136.1Type designation code 136.2Order information 13IO-Link Sensor-HubBNI IOL-709-… / BNI IOL-710-…1 Notes to the user1.1 Structure of theguide The Guide is organized so that the sections build on one another. Section 2 : Basic safety information. …………1.2 Typographicalconventions The following typographical conventions are used in this Guide. EnumerationsEnumerations are shown in list form with bullet points.• Entry 1, • Entry 2.Actions Action instructions are indicated by a preceding triangle. The result of an action is indicated by an arrow.Action instruction 1. Action result.Action instruction 2. SyntaxNumbers:Decimal numbers are shown without additional indicators (e.g. 123),Hexadecimal numbers are shown with the additional indicator hex (e.g. 00hex ).Cross-references Cross-references indicate where additional information on the topic can be found.1.3 SymbolsAttention!This symbol indicates a security notice which most be observed.NoteThis symbol indicates general notes.1.4 AbbreviationsBCD BNI CV DPP I-Port EMC FE IOL LSB MSB SP SPDU VVBinary coded switch Balluff Network InterfaceCurrent Version: BNI IOL 709… Direct Parameter Page Digital input portElectromagnetic Compatibility Function ground IO-LinkLeast Significant Bit Most Significant Bit Switch PointService Protocol Data UnitVoltage version: BNI IOL 710…1.5 Divergent views Product views and images can differ from the specified product in this manual. They serve only as an illustration.2 Safety2.1 Intended use The BNI IOL-… is a decentralized sensor input module which is connected to a host IO-Linkmaster over an IO-Link interface.2.2 Installation andstartup Attention!Installation and startup are to be performed by trained technical personnel only. Skilled specialists are people who are familiar with the work such as installation and the operation of the product and have the necessary qualifications for these tasks. Any damage resulting from unauthorized tampering or improper use shall void warranty and liability claims against the manufacturer. The operator is responsible for ensuring that the valid safety and accident prevention regulations are observed in specific individual cases.2.3 General safetyNotes Commissioning and inspectionBefore commissioning, carefully read the User's Guide.The system must not be used in applications in which the safety of persons depends on the function of the device.Intended useWarranty and liability claims against the manufacturer shall be rendered void by damage from:•Unauthorized tampering•Improper use•Use, installation or handling contrary to the instructions provided in this User's Guide.Obligations of the owner/operator!The device is a piece of equipment in accordance with EMC Class A. This device can produce RF noise. The owner/operator must take appropriate precautionary measures against this for its use. The device may be used only with a power supply approved for this. Only approved cables may be connected.MalfunctionsIn the event of defects and device malfunctions that cannot be rectified, the device must be taken out of operation and protected against unauthorized use.Approved use is ensured only when the housing is fully installed.2.4 Resistance toAggressiveSubstances Attention!The BNI modules always have good chemical and oil resistance. When used in aggressive media (such as chemicals, oils, lubricants and coolants, each in a high concentration (i.e. too little water content)), the material must first be checked for resistance in the particular application. No defect claims may be asserted in the event of a failure or damage to the BNI modules caused by such aggressive media..Hazardous voltage Attention!Disconnect all power before servicing equipment.NoteIn the interest of continuous improvement of the product,Balluff GmbH reserves the right to change the technical data of the product and the content of these instructions at any time without notice.IO-Link Sensor-HubBNI IOL-709-… / BNI IOL-710-…3 Getting Started3.1 Connectionoverview1 Mounting hole2 IO-Link interface3 Analogue input-Port 14 Status-LED: Analogue port5 Analogue input port 36 Status-LED: digital input Pin 27 Digital input port 18 Status-LED: Digital port Pin 49 Digital input port 3 10 Status LED “Power Supply”11 Digital input port 212 Digital input port 013 Analogue input port 214 Analogue input port 015 Label16 Status-LED …COM“17 Function ground connection3 Getting Started3.2 Mechanicalconnection The BNI IOL modules are attached using 3 M4 screws (Item 1, Fig. 3-1/3-2).3.3 Electricalconnection The Sensor Hub modules require no separate supply voltage connection. Power is provided through the IO-Link interface by the host IO-Link Master.3.4 Function groundThe modules are provided with a ground terminal.Connect Sensor Hub module to the ground terminal.NoteThe FE connection from the housing to the machine must be low-impedance and as short as possible.3.5 IO-LinkconnectionThe IO-Link connection is made using an M12 connector (A-coded, male).IO-Link (M12, A-coded, male)Pin Function 1Supply voltage, +24 V, max. 1.6 A 2 - 3 GND, reference potential4 C/Q, IO-Link data transmission channelConnection protection ground to FE terminal, if present. Connect the incoming IO-Link line to the Sensor Hub.NoteA standard sensor cable is used for connecting to the host IO-Link Master.IO-Link Sensor-HubBNI IOL-709-… / BNI IOL-710-…3 Getting Started3.6 Digital Sensors Digital input port (M12, A-coded, female)Pin Function 1 +24 V, 100 mA 2 Standard Input 3 0 V, GND 4 Standard Input 5 -NoteFor the digital sensor inputs follow the input guideline per EN 61131-2, Type 2.3.7 AnalogueSensors Analogue input port (M12, A-coded, female)Pin Function1 +24 V, 100 mA2BNI IOL-709...: 4 - 20 mABNI IOL-710…:n.c. 3 0 V, GND4BNI IOL-710...: 0 - 10 V BNI IOL-709…:n.c 5 FE, function groundNoteUnused I/O port sockets must be fitted with cover caps to ensure IP67 protection rating.NoteOvercurrent (> 25mA) on the BNI IOL-709 Module´s inputs can distort the measurement results of the other channels and it may leads to malfunction..4 IO-Link Interface4.1 IO-Link Data Baudrate COM2 (38,4 kBaud)Frame type 1Minimum cycle time 3 msProcess data cycle 30 ms with minimum cycle time4.2 Process datainputs BNI IOL-710-…/BNI IOL-709-…(Sensor-Hub digital/analog)Process data length 10Byte:Byte 0 Byte 17 6 5 4 3 2 1 0 7 6 5 4 3 2 1 0InputPort7Pin4InputPort6Pin4InputPort5Pin4InputPort4Pin4SwitchPoint1Port3SwitchPoint1Port2SwitchPoint1Port1SwitchPoint1PortInputPort7.Pin2InputPort6.Pin2InputPort5.Pin2InputPort4.Pin2SwitchPoint2Port3SwitchPoint2Port2SwitchPoint2Port1SwitchPoint2PortByte 2 Byte 37 6 5 4 3 2 1 0 7 6 5 4 3 2 1 0Error1Error2Error3MSBAnalogue valueLSBPort 0Byte 4 Byte 57 6 5 4 3 2 1 0 7 6 5 4 3 2 1 0Error1Error2Error3MSBAnalogue valueLSBPort 1Byte 6 Byte 77 6 5 4 3 2 1 0 7 6 5 4 3 2 1 0Error1Error2Error3MSBAnalogue valueLSBPort 2Byte 8 Byte 97 6 5 4 3 2 1 0 7 6 5 4 3 2 1 0Error1Error2Error3MSBAnalogue valueLSBPort 3IO-Link Sensor-HubBNI IOL-709-… / BNI IOL-710-…4 IO-Link InterfaceInput: Input-Signal at Port and PinSwitch Point: The switch point bits show a switch pointoverrun. The switch point can be configuredby parameter ( see 0.0 - “Switch pointenable” and 0.0 - “Switch point”)Analogue value: VV: actual voltage value between0 and 1056 (1Bit = 0.01V)CV: actual current value between0 and 2150 (1Bit = 0.01mA)Error:• Error 1 • Error 2 • Error 3 Overcurrent/short circuit on sensor supply Measurement range overflow Measurement range undercut (only CV)4.3 Process dataoutputsThere are no outputs at BNI IOL-710-... and BNI IOL-709-... modules.4.4 Parameter data/On-request dataDPP SPDU Parameter DatawidthAccess Index Index Sub-indexIdentificationData07hex Vendor ID 2 ByteReadonly 08hex09hex Device ID 3 Byte0A hex0B hex10hex0 Vendor Name 8 Byte11hex0 Vendor text 16 Byte12hex0 Product Name 34 Byte13hex0 Product ID 21 Byte14hex0 Product text 34 Byte16hex Hardware Revision 3 Byte17hex0 Firmware Revision 3 ByteIdentification data Type Device ID VersionBNI IOL-710-000-K006 050201hex Voltage versionBNI IOL-709-000-K006 050202hex Current version4 IO-Link InterfaceDPPSPDUParameter Data width Value rangeDefault- valueIndex Index Sub-index P a r a m e t e r D a t a10hex 40hex640 1-16 Inversion 2 Byte 0000hex …FFFF hex 0000hex 11hex 12hex 41hex650 1-8 Switch point enable 1 Byte 00hex …FF hex 00hex 42hex660 Switch point 1 Port 0 2 Byte 0000hex … 03E8hex 0000hex 43hex670 Switch point 1 Port 1 2 Byte 0000hex … 03E8hex 0000hex 44hex680 Switch point 1 Port 2 2 Byte 0000hex … 03E8hex 0000hex 45hex690 Switch point 1 Port 3 2 Byte 0000hex … 03E8hex 0000hex 46hex700 Switch point 2 Port 0 2 Byte 0000hex … 03E8hex 0000hex 47hex710 Switch point 2 Port 1 2 Byte 0000hex … 03E8hex 0000hex 48hex720 Switch point 2 Port 2 2 Byte 0000hex … 03E8hex 0000hex 49hex73Switch point 2 Port 32 Byte0000hex … 03E8hex0000hexInversionInversion of the input signals:Byte 0Byte 176543217654321I n v e r s i o n P o r t 7 P i n 4I n v e r s i o n P o r t 6 P i n 4I n v e r s i o n P o r t 5 P i n 4I n v e r s i o n P o r t 4 P i n 4I n v e r s i o n S P 1 P o r t 3I n v e r s i o n S P 1 P o r t 2I n v e r s i o n S P 1 P o r t 1I n v e r s i o n S P 1 P o r t 0I n v e r s i o n P o r t 7 P i n 2I n v e r s i o n P o r t 6 P i n 2I n v e r s i o n P o r t 5 P i n 2I n v e r s i o n P o r t 4 P i n 2I n v e r s i o n S P 2 P o r t 3I n v e r s i o n S P 2 P o r t 2I n v e r s i o n S P 2 P o r t 1I n v e r s i o n S P 2 P o r t 0Switch point enableEnable the switch points by setting the enable bitsByte 07654321E n a b l e s w i t c h p o i n t 2 P o r t 3E n a b l e s w i t c h p o i n t 2 P o r t 2E n a b l e s w i t c h p o i n t 2 P o r t 1E n a b l e s w i t c h p o i n t 2 P o r t 0E n a b l e s w i t c h p o i n t 1 P o r t 3E n a b l e s w i t c h p o i n t 1 P o r t 2E n a b l e s w i t c h p o i n t 1 P o r t 1E n a b l e s w i t c h p o i n t 1 P o r t 0Switch pointByte 0Byte 1 7 6 5 4 3217654321Switch pointValue range (dec) CV= 400...2000 VV= 0 (1000)BNI IOL-709-… / BNI IOL-710-…4 IO-Link Interface4.5 Errors Byte 0Byte 1Device application error: 80hex11hex Index not available 12hex Subindex not available 30hex Value out of range4.6 EventsClass/QualifierCode (high + low)Mode Type InstanceP a r a m e t e r D a t aappears Error AL Device Hardware supply Supply low voltage U2 = supply + 24VC0hex 30hex 03hex 5000hex 0100hex 0010hex 0002hex F3hex5112hex disappears ErrorAL Device Hardware supply Supply low voltage U2 = supply + 24V80hex 30hex 03hex 5000hex 0100hex 0010hex 0002hexB3hex 5112hexappears Error AL Device Hardware supply supply peripheryC0hex30hex 03hex 5000hex 0100hex0060hexF3hex 5160hexdisappears ErrorAL Device Hardware supply supply periphery80hex30hex 03hex5000hex0100hex0060hexB3hex5160hex5 Technical Data5.1 Dimensions5.2 Mechanical data Housing Material Plastic, transparentIO-Link-Port M12, A-coded, maleInput-Ports 8x M12, A-coded, femaleEnclosure rating IP67 (only when plugged-in and threaded-in)Weight 90 gDimensions(L × W × H, excluding connector)115 × 50 × 30,8 mm5.3 Electrical data Operating voltage 18 ... 30,2 V DC, per EN 61131-2Ripple < 1 %Current draw without load ≤ 40 mA5.4 Operatingconditions Operating temperature -5 °C … +55 °C Storage temperature -25 °C … +70 °CBNI IOL-709-… / BNI IOL-710-…5 Technical Data5.5 FunctionindicatorsModule LEDs LED 5, IO-Link CommunicationStatus FunctionGreen No CommunicationGreen negative pulsed Communication OKRed Communication line overloadOff Module unpoweredLED 4, Power supply statusStatus FunctionGreen Module power is OKGreen slowly flashing Short circuitGreen rapidly flashing Module power supply < 18 VOff Module unpowered Digital Input LEDs LED 3, Input Pin 4 and LED 2, Input Pin 2Status FunctionYellow Input signal = 1Off Input signal = 0Analogue Input LEDs LED 1, Analogue input portStatus Signal 709 (4-20 mA) Signal 710 (0-10 V) Green ≥ 4 mA - ≤ 20 mA> 0,05 VRed < 4 mA - > 20 mA > 10,05 V6 Appendix6.1 Type designationcode6.2 OrderinformationType Order CodeBNI IOL-709-000-K006 BNI0007BNI IOL-710-000-K006 BNI0008BNI IOL-7xx-000-K006 Balluff Network InterfaceIO-Link interfaceFunctions710 = 8 digital inputs 0,15 A + 4 analog inputs 0 - 10 V709 = 8 digital inputs 0,15 A + 4 analog inputs 4 - 20 mAVariant000 = StandardvarianteMechanical configurationK006 =Plastic housing,Connectors:- BUS and Power supply: 1x M12x1, external thread- Input ports: 8x M12x1, internal threadBNI IOL-709-… / BNI IOL-710-… NotesBalluff GmbHSchurwaldstrasse 973765 Neuhausen a.d.F. GermanyTel. +49 7158 173-0 N r . 910442-726 E •01.125277 • E d i t i o n K 17 • R e p l a c e s E d i t i o n 1311 • S u b j e c t t o m o d i f i c a t i o n。

EXGPOxygen Analyzer System (ATEX)Installation & Operating Guide Oxygen Transmitters –Models 4680 & 4685ABBAlthough Warning hazards are related to personal injury, and Caution hazards are associated with equipment or property damage,it must be understood that operation of damaged equipment could, under certain operational conditions, result in degraded process system performance leading to personal injury or death. Therefore, comply fully with all Warning and Caution rmation in this manual is intended only to assist our customers in the efficient operation of our equipment. Use of this manual for any other purpose is specifically prohibited and its contents are not to be reproduced in full or part without prior approval of the Technical Communications Department.The CompanyWe are an established world force in the design and manufacture of instrumentation for industrial process control, flow measurement, gas and liquid analysis and environmental applications.As a part of ABB, a world leader in process automation technology, we offer customers application expertise, service and support worldwide.We are committed to teamwork, high quality manufacturing, advanced technology and unrivalled service and support.The quality, accuracy and performance of the Company’s products result from over 100 years experience, combined with a continuous program of innovative design and development to incorporate the latest technology.The NAMAS Calibration Laboratory No. 0255 is just one of the ten flow calibration plants operated by the Company, and is indicative of our dedication to quality and accuracy.Cert. No. Q5907EN 29001 (ISO 9001)Lenno, Italy – Cert. No. 9/90AUse of InstructionsHealth and SafetyTo ensure that our products are safe and without risk to health, the following points must be noted:1.The relevant sections of these instructions must be read carefully before proceeding.2.Warning labels on containers and packages must be observed.3.Installation, operation, maintenance and servicing must only be carried out by suitably trained personnel and in accordance with the information given.4.Normal safety precautions must be taken to avoid the possibility of an accident occurring when operating in conditions of high pressure and/or temperature.5.Chemicals must be stored away from heat, protected from temperature extremes and powders kept dry. Normal safe handling procedures must be used.6.When disposing of chemicals ensure that no two chemicals are mixed.Safety advice concerning the use of the equipment described in this manual or any relevant hazard data sheets (where applicable) may be obtained from the Company address on the back cover, together with servicing and spares information.Stonehouse, U.K.1CONTENTS1INTRODUCTION1.1DocumentationDocumentation for the EXG P Oxygen Analyzer System isshown in Fig. 1.1.Section Page1INTRODUCTION ..........................................................11.1Documentation ..................................................11.2System Hardware. (22)PREPARATION ............................................................32.1Checking the Instrument Type .. (3)2.1.1Wall-/Pipe-mounted Instruments .........32.1.2Panel-mounted Instruments . (33)MECHANICAL INSTALLATION (3)3.1Siting Requirements..........................................33.2Mounting (4)3.2.1Wall-/Pipe-mounted Instruments .........43.2.2Panel-mounted Instruments . (54)ELECTRICAL CONNECTIONS (6)4.1Connections – General (6)4.1.1Cable and Gland Specifications ..........64.1.2Relay Contact Protectionand Interference Suppression (7)4.2Wall-mounted Instrument Connections.............84.3Panel-mounted Instrument Connections ........104.4Selecting the Mains Voltage. (12)4.4.1Wall-/Pipe-mounted Instruments .......124.4.2Panel-mounted Instruments .. (125)CONTROLS AND DISPLAYS (13)5.1Displays...........................................................135.2Switch Functions (136)OPERATION...............................................................146.1Instrument Start-up .........................................146.2Operating Page .. (14)6.2.1Operating Page Error Messages (147)PROGRAMMING (15)7.1System Calibration (Single Point)...................167.2System Calibration (Two Point)......................177.3Access to Secure Parameters ........................187.4Language Page...............................................187.5Set Up Outputs Page .. (19)…1INTRODUCTION1.2System Hardware – Fig. 1.2The 4680 and 4685 transmitters are part of the EXGP Oxygen Analyzer System which measures oxygen content and temperature within a gas flue. The system comprises an EXGP oxygen probe, an interface electronics unit and a 4680/85 transmitter – see Fig. 1.2. Signals from the transmitters can also be retransmitted to remote monitoring equipment.The 4680/501 model is a wall-mounted instrument and the 4685/501 model is a panel-mounted, DIN-sized instrument. Both have a single programmable input channel and a single temperature input channel.Instrument operation and programming is via four tactile membrane switches located on the front panel. Programmed functions are protected from unauthorized alteration by a five-digit security code.232.1Checking the Instrument Type2.1.1Wall-/Pipe-mounted Instruments – Fig. 2.12PREPARATION3MECHANICAL INSTALLATION…3MECHANICAL INSTALLATION3.2Mounting3.2.1Wall-/Pipe-mounted Instruments – Figs. 3.2 and 3.343MECHANICAL INSTALLATION …3.2Mounting3.2.2Panel-mounted Instruments – Figs. 3.4 and 3.554ELECTRICAL CONNECTIONSTable 4.1 Cable and Gland Specifications (electrical requirements only)64ELECTRICAL CONNECTIONS…4.1.2Relay Contact Protection and Interference Suppression – Fig. 4.1If the relays are used to switch loads on and off, the relay contacts can become eroded due to arcing. Arcing also generates radio frequency interference (RFI) which can result in instrument malfunctions and incorrect readings. To minimize the effects of RFI, arc suppression components are required; resistor/capacitor networks for a.c. applications or diodes for d.c. applications. These components can be connected either across the load or directly across the relay contacts. On 4600 Series instruments the RFI components must be fitted to the relay terminal block along with the supply and load wires – see Fig 4.1For a.c. applications the value of the resistor/capacitor network depends on the load current and inductance that is switched. Initially, fit a 100R/0.022µF RC suppressor unit (part no. B9303) as shown in Fig. 4.1A. If the instrument malfunctions (incorrect readings) or resets (display shows 88888) the value of the RC network is too low for suppression an alternative value must be used. If the correct value cannot be obtained, contact the manufacturer of the switched device for details on the RC unit required. For d.c. applications fit a diode as shown in Fig. 4.1B. For general applications use a 1N5406 type (600V peak inverse voltage part no. B7363)at 3A –7…4ELECTRICAL CONNECTIONS84ELECTRICAL CONNECTIONS……4.2Wall-mounted Instrument Connections– Figs. 4.2 and 4.3…4ELECTRICAL CONNECTIONS4ELECTRICAL CONNECTIONS……4.3Panel-mounted Instrument Connections – Figs. 4.4 and 4.5…4ELECTRICAL CONNECTIONS4.4Selecting the Mains Voltage4.4.1Wall-/Pipe-mounted Instruments – Fig. 4.65.1Displays – Fig. 5.1The display comprises a 5-digit, 7-segment digital upper display line and a 16-character dot-matrix lower display line.The upper display line shows actual values of % oxygen,temperature, alarm set points or programmable parameters.The lower display line shows the associated units or programming information.5CONTROLS AND DISPLAYS5.2Switch Functions – Fig. 5.26OPERATION6.1Instrument Start-upEnsure all electrical connections have been made correctly and switch on.6.2Operating PageThe Operating Page is a general use page in which frames are viewed only and cannot be altered. To alter or program a frame refer to the programming pages in Section 7.% OxygenThe upper display indicates the measured oxygen value. If over or under temperature is monitored, the upper display shows '– ––– –' and an error message is displayed on the lower dot matrix display – see Table 6.1.Cell MillivoltsThe upper display indicates the measured cell millivolts .Temperature (°C)The upper display indicates the measured cell temperature.Alarm Set PointThe upper display indicates the alarm set point, displayed as % oxygen. The set point value and the relay/l.e.d. action can be programmed in the Set Up Outputs Page –see Section 7.4.Advance to Oxygen Calibration Sequence Page .6.2.1Operating Page Error MessagesWhen an error has been detected, the appropriate error message (see Table 6.1) will appear in the Operating Page instead of the % oxygen scroll.eg a s s e M r o r r E es u a C e l b i s s o P R O R R E Y R O M E M V N e h t y f i t c e r o T .p u r e w o p g n i r u d y l t c e r r o c d a e r n e e b t o n e v a h y r o m e m e l i t a l o v -n o n e h t f o s t n e t n o c e h T .y n a p m o C e h t t c a t n o c s t s i s r e p t l u a f e h t f I .n i a g a n o h c t i w s d n a s d n o c e s 01t i a w ,f f o h c t i w s ,t l u a f .P M E T R E D N U L L E C 006<(s g n i d a e r e l b a t i u s n i a t b o o t h g u o n e h g i h t o n s i r o s n e s e b o r p e h t t a e r u t a r e p m e t e h T °.)C .P M E T R E V O L L E C 0041>(e l b i s s i m r e p m u m i x a m e h t d e d e e c x e s a h r o s n e s e b o r p e h t t a e r u t a r e p m e t e h T °.)C ST I M I L F O T U O f i s e h s a l f y a l p s i d r e p p u e h T (.t n e m u r t s n i e h t f o s t i m i l e h t e d i s t u o s i e u l a v n e g y x o %d e r u s a e m e h T .)%52o t %52.0f o s t i m i l e h t e d i s t u o Table 6.1 Error Messages7PROGRAMMING…7PROGRAMMING7.1System Calibration (Single Point)A single-point oxygen calibration sequence involves standardizing the instrument and the oxygen probe, using air as the standard test gas. The existing slope remains unaffected.Oxygen Calibration Sequence Array Page header.Cell Constant mVThe upper display shows the millivolt offset of the oxygen probe from the lastsuccessful calibration.Span % of TheoryA value between 90 and 110% should be displayed. If the value is outside theselimits then the oxygen probe must be checked.Calibration User CodeEnter the required code number between 00000 and 19999, to gain access tothe calibration page. If an incorrect value is entered, access to the calibrationpage is barred.One Point CalibrationSelect one-point calibration sequence.Connect to AirConnect the air supply to the probe (refer to Probe Guide). The upper displayindicates the test gas value in % oxygen.Calibrating AirThe upper display indicates the measured % oxygen until a stable reading isdetected and the display automatically advances to the next frame.Calibration Pass/FailOn completion a calibration status message is displayed:Calibration Pass–calibration sequence successfulFailed Constant–cell offset >10mV(upper display shows cell constant)Failed Unstable–cell output unstable.Advance to Access to Secure Parameters Page.7PROGRAMMING…7.2System Calibration (Two Point)A two-point oxygen calibration sequence involves standardizing the instrument and the oxygen probe, using air as the zero standard test gas and a known span test gas.Oxygen Calibration Sequence Array Page header.Cell Constant mVThe upper display shows the millivolt offset of the oxygen probe from the lastsuccessful calibration.Span % of TheoryA value between 90 and 110% should be displayed. If the value is outside theselimits then the oxygen probe must be checked.Calibration User CodeEnter the required code number between 00000 and 19999, to gain access tothe calibration page. If an incorrect value is entered, the calibration pagecannot be accessed.Two Point CalibrationSelect two-point calibration sequence.Connect to AirConnect the air supply to the probe (refer to the Probe Guide). The upperdisplay indicates the test gas value in % oxygen.Calibrating AirThe upper display indicates the measured % oxygen until a stable reading isdetected and the display advances automatically to the next frame.Enter Span Gas).Enter the value of the calibration span gas used (between 0.25 and 10.00% O2Connect Span GasConnect the span gas to the probe (refer to Probe Guide). The upper displayindicates the test gas value in % oxygen.Calibrating SpanThe upper display indicates the measured % oxygen until a stable reading isdetected and the display automatically advances to the next frame.Continued on next page……7PROGRAMMING…7.2System Calibration (Two Point)Calibration Pass/FailOn completion, a calibration status message is displayed.Calibration Pass –calibration sequence successfulFailed Constant–EXGP cell offset >10mV(upper display shows cell constant)Failed Span %–EXGP cell output <90% or >110% of slope (upper display shows measured slope)Failed Unstable–EXGP cell output unstable (drifting).Note . If a calibration fail is indicated, it is recommended that the EXGP which part of the system is at fault (refer to Probe Guide ).Advance to Access to Secure Parameters Page .7.3Access to Secure ParametersA 5-digit security code is used to prevent tampering with the secure parameters.Failed Constant Enter the required code number between 00000 and 199999, to gain access to the secure parameters. If an incorrect value is entered, subsequent programming pages cannot be accessed.Advance to Language Page .7.4Language PageLanguage PageSelect the language that all subsequent pages are to be displayed in.Advance to Set Up Outputs Page .7PROGRAMMING…7.5Set Up Outputs Page1920…7.5Set Up Outputs PageHold OutputsThe retransmission and alarm output can be held to prevent inadvertent operation during a test gas calibration sequence.Test RetransmissionThe instrument automatically transmits a test signal of 0, 25, 50, 75 and 100%of the retransmission range selected above. The % test signal selected is shown on the upper display.Example: for a selected range of 0 to 20mA and 50% retransmission test signal, 10mA is transmitted.Alter Security CodeSet the security code to a value between 00000 and 199999.Alter Calibration CodeSet the calibration code to a value between 00000 and 199999.Advance to Electrical Calibration Page.Note.Electrical calibration is carried out prior to despatch and should refer to the Electrical Calibration Supplement for full calibration procedures.…7PROGRAMMINGPRODUCTS & CUSTOMER SUPPORTA Comprehensive Instrumentation RangeAnalytical Instrumentation•TransmittersOn-line pH, conductivity, and dissolved oxygen transmitters and associated sensing systems.•SensorspH, redox, selective ion, conductivity and dissolved oxygen.•Laboratory InstrumentationpH and dissolved oxygen meters and associated sensors.•Water AnalyzersFor water quality monitoring in environmental, power generation and general industrial applications including: pH, conductivity, ammonia, nitrate, phosphate, silica, sodium, chloride, fluoride, dissolved oxygen and hydrazine.•Gas AnalyzersZirconia, katharometers, hydrogen purity and purge-gas monitors, thermal conductivity.Controllers & Recorders•ControllersDigital display, electronic, pneumatic. Discrete single-loop and multi-loop controllers which can be linked to a common display station, process computer or personal computer.•RecordersCircular and strip-chart types (single and multi-point) for temperature, pressure, flow and many other process measurements.Electronic Transmitters•Smart & Analog TransmittersFor draft, differential, gauge and absolute pressure measurement. Also, liquid level and temperature.•I to P Converters and Field IndicatorsFlow Metering•Magnetic FlowmetersElectromagnetic, insertion type probes and watermeters.•Turbine Flowmeters•Wedge Flow Elements•Mass Flow MetersTransmitters, sensors, controllers and batch/display units.Level Control•Submersible, Capacitance & Conductivity.Pneumatic Instrumentation•Transmitters•Indicating Controllers•Recording Controllers Customer SupportABB Instrumentation provides a comprehensive after sales service via a Worldwide Service Organization. Contact one of the following offices for details on your nearest Service and Repair Centre.United KingdomABB LimitedTel: +44 (0)1453 826661Fax: +44 (0)1453 827856United States of AmericaABB Inc.Tel: +1 775 883 4366Fax: +1 775 883 4373Client WarrantyPrior to installation, the equipment referred to in this manual must be stored in a clean, dry environment, in accordance with the Company's published specification. Periodic checks must be made on the equipment's condition.In the event of a failure under warranty, the following documentation must be provided as substantiation:1.A listing evidencing process operation and alarm logs at timeof failure.2.Copies of operating and maintenance records relating to thealleged faulty unit.I M /E X G P –4600I s s u e 4ABB LimitedOldends Lane, Stonehouse Gloucestershire GL10 3TA UKTel:+44 (0)1453 826661Fax:+44 (0)1453 827856ABB Inc2175 Lockheed Way Carson City NV 89706USATel:+1 775 883 4366Fax:+1 775 883 4373ABB has Sales & Customer Supportexpertise in over 100 countries worldwide The Company’s policy is one of continuous product improvement and the right is reserved to modify theinformation contained herein without notice.Printed in UK (09.03)© ABB 2003。

Sensor para Interiores/Exteriores con Atenuación 0-10V, InfrarrojoPasivo (PIR), Bajo Voltaje, Sensor SolCat. Núm. ZLS10-ILWADVERTENCIAS:• ¡PARA EVITAR INCENDIO, DESCARGA ELÉCTRICA O LA MUERTE, APAGUE LA ELECTRICIDAD aen el interruptorde circuito o fusible y compruebe que la electricidad esté apagada antes de cablear!• Debe ser instalado y/o utilizado de conformidad con los códigos y reglamentos eléctricos apropiados.• En caso de que tenga alguna duda en relación a cualquier parte de estas instrucciones, consulte a un electricista.INSTALACIÓNADVERTENCIA: ¡PARA EVITAR INCENDIO, DESCARGA ELÉCTRICA O LAMUERTE, APAGUE LA ELECTRICIDAD en el interruptor de circuito o fusible ycompruebe que la electricidad esté apagada antes de cablear!1. Confirme los ajustes del interruptor DIP predeterminados de fábrica y configuresegún sea requerido.a. Sensibilidad: 100%b. Tiempo de Espera: 10 segundosc. Sensor de Luz Diurna: 30 luxd. Nivel de Reserva: 30%e. Tiempo de Reserva: 60 minutos2. Coloque el sensor correctamente en el accesorio, alinee el lente e instale girando ensentido contrario a las manecillas del reloj hasta que quede apretado.3. Realice las conexiones de los cables de acuerdo al diagrama de cableado.4. Después de haber realizado todas las conexiones, asegúrese de que los conectoresde todos los cables estén fijados firmemente y que no esté expuesto el cobre.5. Restablezca la energía al circuito y verifique que la luz del LED localizadoresté ENCENDIDA.Patrones de Cobertura del Lente• Configure los ajustes del interruptor DIP antes de la instalación dentro del accesorio.• Consulte las dimensiones del sensor para los requerimientos de montaje.PARA UN FUNCIONAMIENTO ÓPTIMO:El lente del sensor ZLS10-ILW establece docenas de zonas de detección. El sensor es sensible al calor emitidopor el cuerpo humano. Con la finalidad de activar el sensor, la fuente de calor debe moverse de una zona dedetección a otra. El dispositivo es más eficaz para detectar movimiento a través de su campo de visión, y menoseficaz para detectar movimiento hacia o fuera de su campo de visión. Tenga esto en mente al seleccionarla ubicación de la instalación. Recuerde que los sensores de ocupación responden a cambios rápidos en latemperatura, por lo tanto debe tener cuidado de no montar el dispositivo cerca de una fuente de control de clima(es decir, radiadores, intercambiadores de aire y aire acondicionado). Las corrientes calientes o frías pareceráncomo movimiento del cuerpo para el dispositivo y se activarán si la unidad está montada demasiado cerca. Serecomienda montar el Sensor de Ocupación al menos a 1.8 metros (6 pies) de distancia de una fuente de controlde clima. Además, también se recomienda NO montar el Sensor de Ocupación directamente bajo una fuentede luz grande. Los focos de mucha potencia en vatios (mayores a 100W incandescentes) desprenden bastantecalor y prender el foco provoca un cambio de temperatura que puede ser detectado por el dispositivo. Realiceel montaje del Sensor de Ocupación al menos a 1.8 m (6 pies) de distancia de focos grandes. Si es necesariomontar el dispositivo más cerca, reduzca la potencia en vatios del foco que se encuentre directamente arriba.CABLEADO CLASE 2:Para el Cableado de Control de 0-10V: Conecte el cable color Violeta a la línea + 0-10V y el cable color Rosadoal común de 0-10V utilizando los métodos de cableado Clase 1 ó Clase 2 de acuerdo a lo indicado en estasinstrucciones, las instrucciones del balastro/accesorio/controlador o las indicaciones de la etiqueta del balastro/accesorio/controlador. Observe todos los requerimientos de cualquier autoridad que tenga jurisdicción conrespecto al tipo de cable, mangas, métodos de aislamiento y similares.DimensionesOPERACIÓNEl Sensor Solo ZLS10 está diseñado para operar de acuerdo con los ajustes de la configuración programados por el interruptor DIP, o utilizando el control remoto IR opcional ZLS0R-RC1. Consulte el manual del usuario para mayor información sobre lascaracterísticas y operación del ZLS0R-RC1.60 ft19.1 mmVista Lateral de la CoberturaCobertura de 360°Vista Superior de la Cobertura© 2021 Leviton Mfg. Co., Inc.Utilice los Interruptores DIP en el sensor, o el control remoto opcional ZLS0R-RC1 para ajustar los parámetros de configuración. Consulte el manual del usuario para mayor información sobre la configuración, utilizando el control remoto.Configuración del sensor utilizando los interruptores DIP en el dispositivo: • Interruptores DIP 1 y 2 para Sensibilidad / Rango• Interruptores DIP 3 y 4 para Tiempo de Espera / Tiempo de Espera Agotado • Interruptores DIP 5 y 6 para Nivel de Iluminación del Sensor de Luz Diurna • Interruptores DIP 7 y 8 para Nivel de Reserv• Interruptores DIP 9 y 10 para Tiempo de Espera del Nivel de Reserva1. Sensibilidad / Rango: Ajusta la sensibilidad de detección de la ocupación deseada.3. N ivel de Iluminación del Sensor de Luz Diurna: Ajusta o desactiva el umbral de Iluminación deseado, en el cual el sensor evitará que la luz se ENCIENDA cuando exista suficiente luz ambiental.4. N ivel de Reserva: Ajusta el nivel deseado en el cual la luz se atenuará después de que se agota el Tiempo de Espera.2. T iempo de Espera / Tiempo de Espera Agotado: Ajusta el período de tiempo que se desea que la luz permanezca ENCENDIDA después de que ya no se detecta ocupación.5. T iempo de Reserva: Ajusta el período de tiempo que se desea que la luzpermanezca en el nivel de Reserva. Si se selecciona +∞, la luz permanecerá en ese nivel de manera indefinida, o hasta que se detecte ocupación.SENSIBILIDAD: 1, 250%20%70%100%SENSIBILIDAD TIEMPO: 3, 41 minuto10 segundos 5 minutos 15 minutos TIEMPO LUZ: 5, 610 Lux(sensor de luz desactivado)30 Lux 50 LuxLUZ NIVEL DE RESERVA: 7, 810%0%30%50%NIVEL DE RESERVA78TIEMPO DE RESERVA: 9, 101 minuto 30 minutos 60 minutosTIEMPO DE RESERVADECLARACIÓN DE LA INDUSTRIA DE CANADÁ (IC)Este dispositivo cumple con la(s) norma(s) RSS sobre la exención de licencia de la Industria de Canadá. La operación está sujeta a las siguientes dos condiciones: (1) Este dispositivo podría no causarinterferencia, y (2) este dispositivo debe aceptar cualquier interferencia, incluyendo la interferencia que pudiera causar la operación no deseada del dispositivo.DECLARACIÓN DE LA FCC:Este equipo ha sido probado y se ha determinado que cumple con los límites de un dispositivo digital Clase B, de conformidad con la Parte 15 de las Reglas de la FCC. Estos límites están diseñados para proporcionar protección razonable contra interferencia dañina en una instalación residencial. Este equipo genera, utiliza y puede irradiar energía de radiofrecuencia, y si no se instala y utiliza de acuerdo con las instrucciones, puede causar interferencia dañina a las comunicaciones de radio. Sin embargo, no hay garantía de que no ocurra interferencia en una instalación particular. En caso de que este equipo cause interferencia dañina a la recepción de radio o televisión, la cual se puede determinar apagando y encendiendo el equipo, el usuario puede tratar de corregir la interferencia por medio de una o más de las siguientes medidas: - Reoriente o reubique la antena de recepción.- Aumente la separación entre el equipo y el receptor.- Conecte el equipo en un contacto en un circuito diferente del que está conectado el receptor. - Para ayuda consulte con el vendedor o técnico con experiencia en radio/televisión.DECLARACIÓN DE CONFORMIDAD DE PROVEEDORES (SDOC) DE LA FCC:El Modelo ZLS10-ILW es manufacturado por Leviton Manufacturing Co., Inc., 201 North Service Road,Melville, NY 11747, . Este dispositivo cumple con la Parte 15 de las Reglas de la FCC. Su operación está sujeta a las siguientes dos condiciones: (1) Este dispositivo podría no causar interferencia dañina, y (2) este dispositivo debe aceptar cualquier interferencia recibida, incluyendo la interferencia que pudiera causar una operación no deseada.Las luces no se ENCIENDEN.• E l sensor está cableado incorrectamente. Confirme que el cableado del sensor coincida con el diagrama de cableado, y realice una inspección visual por posibles problemas.• S i está activado el sensor de luz diurna, verifique las configuraciones y realice ajustes en los niveles de Iluminación (Lux).Las luces no se APAGAN.• E l sensor está cableado incorrectamente. Confirme que el cableado del sensor se realice de manera correcta y realice una inspección visual por posibles problemas.• A segúrese de que la lámpara esté instalada con un espacio de al menos 30 cm (1 pie) entre la lámpara y las superficies reflectantes circundantes (por ejemplo, paredes de metal, cristal o concreto).• S e configuró incorrectamente la Sensibilidad / Rango. Ajuste los Interruptores DIP 1 y s luces se APAGAN y se ENCIENDEN demasiado rápido.• S e configuró incorrectamente la Sensibilidad / Rango. Ajuste los Interruptores DIP 1 y 2.• S e configuró incorrectamente el Tiempo de Espera / Tiempo de Espera Agotado. Ajuste los Interruptores DIP 3 y 4.Este aparato digital Clase B cumple con CAN ICES-3(B)/NMB-3(B) de Canadá.Cualquier cambio o modificación no aprobados de manera expresa por Leviton podrían anular la autorización del usuario para operar el equipo.Leviton ® y el logotipo de Leviton son marcas registradas de Leviton Manufacturing Co., Inc. Intellect es una marca registrada de Leviton Manufacturing Co., Inc. registrada en los EUA, Canadá, México, la Unión Europea y el Reino Unido.Para Asistencia Técnica llame al: 1-800-824-3005 (Sólo en EE.UU.) GARANTIA LIMITADA POR CINCO AÑOS Y EXCLUSIONESLeviton garantiza al consumidor original de sus productos y no para beneficio de nadie más que este producto en el momento de su venta por Leviton está libre de defectos en materiales o fabricación por un período de cinco años desde la fecha de la compra original. La única obligación de Leviton es corregir tales defectos ya sea con reparación o reemplazo, como opción. Para detalles visite o llame al 1-800-824-3005. Esta garantía excluye y renuncia toda responsabilidad de mano de obra por remover o reinstalar este producto. Esta garantía es inválida si este producto es instalado inapropiadamente o en un ambiente inadecuado, sobrecargado, mal usado, abierto, abusado o alterado en cualquier manera o no es usado bajo condiciones de operación normal, o no conforme con las etiquetas o instrucciones. No hay otras garantías implicadas de cualquier otro tipo, incluyendo mercadotecnia y propiedad para un propósito en particular pero si alguna garantía implicada se requiere por la jurisdicción pertinente, la duración de cualquiera garantía implicada, incluyendo mercadotecnia y propiedad para un propósito en particular, es limitada a cinco años. Leviton no es responsable por daños incidentales, indirectos, especiales o consecuentes, incluyendo sin limitación, daños a, o pérdida de uso de, cualquier equipo, pérdida de ventas o ganancias o retraso o falla para llevar a cabo la obligación de esta garantía. Los remedios provistos aquí son remedios exclusivos para esta garantía, ya sea basado en contrato, agravio o de otra manera.DATOS DEL USUARIONOMBRE: _____________ DIRECCIÓN: ________COL: _________________ C.P. ________________CIUDAD: ___________________________________ESTADO: ___________________________________TELÉFONO: ________________________________DATOS DE LA TIENDA O VENDEDORRAZÓN SOCIAL:________ PRODUCTO: ________MARCA: _______________ MODELO: __________NO. DE SERIE: ______________________________NO. DEL DISTRIBUIDOR:______________________DIRECCIÓN: ________________________________COL: _________________ C.P. ________________CIUDAD: ___________________________________ESTADO: ___________________________________TELÉFONO: ________________________________FECHA DE VENTA: ___________________________FECHA DE ENTREGA O INSTALACIÓN: __________SÓLO PARA MÉXICO POLÍTICA DE GARANTÍA DE 5 AÑOS: Leviton S de RL de CV, Lago Tana No. 43, Col. Huichapan, Del. M. Hidalgo, Ciudad de México, CP 11290 México. Tel +52 (55) 5082-1040. Garantiza este producto por el término de cinco años en todas sus partes y mano de obra contra cualquier defecto de fabricación y funcionamiento a partir de la fecha de entrega o instalación del producto bajo las siguientes CONDICIONES:1. P ara hacer efectiva esta garantía, no podrán exigirse mayores requisitos que la presentación de esta póliza junto con el producto en el lugar donde fue adquirido en cualquiera de los centros de servicio que se indican a continuación.2. L a empresa se compromete a reemplazar o cambiar el producto defectuoso sin ningún cargo para el consumidor, los gastos de transportación que se deriven de su cumplimiento serán cubiertos por: Leviton S de RL de CV.3. E l tiempo de reemplazo en ningún caso será mayor a 30 días contados a partir de la recepción del producto en cualquiera de los sitios en donde pueda hacerse efectiva la garantía.4. C uando se requiera hacer efectiva la garantía mediante el reemplazo del producto, esto se podrá llevar a cabo en: Leviton S de RL de CV.5. E sta garantía no es válida en los siguientes casos: A) Cuando el producto ha sido utilizado en condiciones distintas a las normales. B) Cuando el producto no ha sido operado de acuerdo con el instructivo de uso en idioma español proporcionado. C) Cuando el producto ha sido alterado o reparado por personas no autorizadas por Leviton S de RL de CV.6. E l consumidor podrá solicitar que se haga efectiva la garantía ante la propia casa comercial donde adquirió el producto. 7. E n caso de que la presente garantía se extraviara el consumidor puede recurrir a su proveedor para que se le expida otra póliza de garantía previa presentación de la nota de compra o factura respectiva.。

Fixed gas detectoriTrans 2CharacteristicsApplications• Large Sensor Offering – Electrochemical, Catalytic and Infrared • Non-Intrusive Calibration • Smart Sensor • HART (optional)• RS-485 Modbus• Programmable Relays (optional)• Dual Gas Sensing (optional)• Oil and Gas Industry • Offshore Drilling • Utilities and Power • Petrochemical Industry• Water and Waste Treatment •Food and Beverage ProductionOther features and benefitsVersatile• The iTrans 2 can be configured to meet nearly any applicationthrough its state-of-the art features and options.• Explosion-proof • HART (optional)• RS-485 Modbus• Stainless Steel Enclosure (optional)• Programmable Relays (optional)• 3-wire, 4-wire Installations • Dual Gas Sensing (optional)• Remote Sensing (optional)• Large Sensor Offering – Electrochemical, Catalytic and InfraredSensors• The iTrans 2 is available with sensors for most common gasesincluding: Infrared, CO 2, Catalytic Bead Combustible and electrochemical sensors. It can support simultaneous detection from two sensors, either directly attached to the display, or remote sensors.Easy to use• Smart Sensor• Non-Intrusive Calibration• Dual-channel split-screen LED displayOrdering informationiTrans 2 offers a wide variety of sensor configurations and relay options for maximum flexibility and affordability. Use the following guide to select the options that best fit your monitoring needs and applications. Oldham recommends that a fixed system application survey be completed to help provide the most accurate assessment of your equipment requirements.iTrans 2 Base Part Number : iTrans 2-ABCDEFG (sensoroptions listed below) Magnetic calibration tool, and calibration cup are standard items with all iTrans 2 monitors.Questions ? Visit us at Example : iTrans 2 - 1C21241An iTrans 2 with an on-board LEL (4-20 mA scale 0-100) and remote mount H2S (4-20 mA scale 0-500) with optional relays and Modbus RTU-A = S e n s o r 1 C o n fi g u r a t i o n B C = G a s& 4-20m A O u t p u t s c a l e f o r S e n s o r 1D = O p t i o n a l o n b o a r d E = S en s o r2 C o n fi g u r a t i o n F = G a s & 4-20m A O u t p u ts c a l e f o r S e n s o r 2cdbaeTeledyne Oldham Simtronics quality assurance programmes demand the continuous assessment and improvement of all our products. Information in this leaflet could thus change without notification and does not constitute a product specification. Please contact Teledyne Oldham Simtronics or their representative if you require more details.Measuring rangesCombustible Gases 0-100% LEL in 1% incrementsHydrogen 0-999 ppm in 1 ppm increments Oxygen 0-30% by Volume in 0.1% increments Ammonia 0-500 ppm in 1 ppm incrementsCarbon Monoxide 0-999 ppm in 1 ppm incrementsHydrogen Sulfide 0-500 ppm in 1 ppm increments Sulfur Dioxide 0.2-99.9 ppm in 0.1 ppm increments Hydrogen Cyanide 0.2-30 ppm in 0.1 ppm increments Hydrogen Chloride 0.2-30 ppm in 0.1 ppm increments Phosphine 0-1 ppm in 0.01 ppm increments Nitrogen Dioxide 0.2-99.9 ppm in 0.1 ppm increments Nitric Oxide 0-999 ppm in 1 ppm increments Chlorine 0.2-99.9 ppm in 0.1 ppm increments Chlorine Dioxide 0.02-1.00 ppm in 0.1 ppm increments Carbon Dioxide 0-100% by Volume in 1% increments Carbon Dioxide 0-0.5% by Volume in 0.01% increments Carbon Dioxide0-5% by Volume in 0.01% incrementsCopyright © 2023 Teledyne Technologies. GF-00174J-EN. All rights reserved *********************************.AMERICAS4055 Technology Forest Blvd.The Woodlands, TX 77381USATel.: +1 713-559-9200Fax: +1 713-893-6729EMEAZI Est, Rue Orfila,CS 2041762027 ARRAS CEDEX, France Tel.: +33-3-21-60-80-80Fax: +33-3-21-60-80-00ASIA PACIFICRoom 04, 9th Floor, 275 Ruiping Road, Xuhui District, Shanghai,China**********************。

12Releasedate:217-1-118:37Dateofissue:217-1-1216619_eng.xml 1L+L-23R e l e a s e d a t e : 2017-01-11 08:37D a t e o f i s s u e : 2017-01-12106619_e n g .x m lInstructionManual electrical apparatus for hazardous areas Device category 1Gfor use in hazardous areas with gas, vapour and mist EC-T ype Examination CertificateCE marking ATEX marking ¬ II 1G Ex ia IIC T6…T1 G aThe Ex-related marking can also be printed on the enclosed label.Standards EN 60079-0:2012+A11:2013 EN 60079-11:2012 Ignition protection "Intrinsic safety"Use is restricted to the following stated conditions Appropriate typeNCB15+U...+N0...Effective internal inductivity C i≤ 110 nF ; a cable length of 10 m is considered.Effective internal inductance L i ≤ 160 µH ; a cable length of 10 m is considered.G eneralThe apparatus has to be operated according to the appropriate data in the data sheet and in this instruction manual. The EU-type examination certificate has to beobserved. The special conditions must be adhered to! Directive 94/9/EC and there-fore the EC-type-examination certificates generally apply only to the use of electrical apparatus under atmospheric conditions. The device has been checked for suitabil-ity for use at ambient temperatures of &gt;60°C by the named certification authority. The surface temperature of the device remains within the required limits. If the equip-ment is not used under atmospheric conditions, a reduction of the permissible mini-mum ignition energies may have to be taken into consideration.Ambient temperatureDetails of the correlation between the type of circuit connected, the maximum per-missible ambient temperature, the temperature class, and the effective internal reac-tance values can be found on the EC-type examination certificate. Note: Use the temperature table for category 1 The 20 % reduction in accordance with EN 1127-1 has already been applied to the temperature table for category 1.Installation, commissioningLaws and/or regulations and standards governing the use or intended usage goal must be observed. The intrinsic safety is only assured in connection with an appro-priate related apparatus and according to the proof of intrinsic safety. The associated apparatus must satisfy the requirements of category ia.Due to the possible danger of ignition, which can arise due to faults and/or transient currents in the equipotential bonding system, galvanic isolation of the power supply and signal circuit is preferable. Associated apparatus without electrical isolation must only be used if the appropriate requirements of IEC 60079-14 are met. If the Ex-related marking is printed only on the supplied label, then this must be attached in the immediate vicinity of the sensor. The sticking surface for the label must be clean and free from grease. The attached label must be legible and indelible, including in the event of possible chemical corrosion. After opening the housing, you should check that the seal is in the correct position and is clean and intact before closing the housing again.Maintenance No changes can be made to apparatus, which are operated in hazardous areas.Repairs to these apparatus are not possible.Special conditionsThe connecting parts of the sensor must be set up in such a way that degree of pro-tection IP20, in accordance with lEC 60529, is achieved as a minimum.Protection from mechanical dangerWhen using the device in a temperature range of -60 °C to -20 °C, protect the sensor against the effects of impact by installing an additional enclosure. The information regarding the minimum ambient temperature for the sensor as provided in the datasheet must also be observed.Electrostatic chargeWhen used in group IIC non-permissible electrostatic charges should be avoided on the plastic housing parts. Information on electrostatic hazards can be found in the technical specification IEC/TS 60079-32-1. Additional requirements for gas group IIC. Avoid electrostatic charges that can cause electrostatic discharge when install-ing or operating the device.4Releasedate:217-1-118:37Dateofissue:217-1-1216619_eng.xmlInstruction Manual electrical apparatus for hazardous areasDevice category 2G for use in hazardous areas with gas, vapour and mistEC-T ype Examination CertificateCE markingATEX marking ¬ II 1G Ex ia IIC T6…T1 G aThe Ex-related marking can also be printed on the enclosed label.Standards EN60079-0:2012+A11:2013,EN60079-11:2012Ignition protection "Intrinsic safety"Use is restricted to the following stated conditionsAppropriate type NCB15+U...+N0...Effective internal inductivity C i≤ 110 nF ; a cable length of 10 m is considered.Effective internal inductance L i≤ 160 µH ; a cable length of 10 m is considered.G eneral The apparatus has to be operated according to the appropriate data in the data sheetand in this instruction manual. The EU-type examination certificate has to beobserved. The special conditions must be adhered to! Directive 94/9/EC and there-fore the EC-type-examination certificates generally apply only to the use of electricalapparatus under atmospheric conditions. The device has been checked for suitabil-ity for use at ambient temperatures of &gt;60°C by the named certification authority.The surface temperature of the device remains within the required limits. If the equip-ment is not used under atmospheric conditions, a reduction of the permissible mini-mum ignition energies may have to be taken into consideration.Maximum permissible ambient temperature T amb Details of the correlation between the type of circuit connected, the maximum per-missible ambient temperature, the temperature class, and the effective internal reac-tance values can be found on the EC-type examination certificate.Installation, commissioning Laws and/or regulations and standards governing the use or intended usage goalmust be observed. The intrinsic safety is only assured in connection with an appro-priate related apparatus and according to the proof of intrinsic safety. If the Ex-relatedmarking is printed only on the supplied label, then this must be attached in the imme-diate vicinity of the sensor. The sticking surface for the label must be clean and freefrom grease. The attached label must be legible and indelible, including in the eventof possible chemical corrosion. After opening the housing, you should check that theseal is in the correct position and is clean and intact before closing the housingagain.Maintenance No changes can be made to apparatus, which are operated in hazardous areas.Repairs to these apparatus are not possible.Special conditions The connecting parts of the sensor must be set up in such a way that degree of pro-tection IP20, in accordance with lEC 60529, is achieved as a minimum.Protection from mechanical danger When using the device in a temperature range of -60 °C to -20 °C, protect the sensoragainst the effects of impact by installing an additional enclosure. The informationregarding the minimum ambient temperature for the sensor as provided in thedatasheet must also be observed.Electrostatic charge Additional requirements for gas group IIC. Avoid electrostatic charges that can causeelectrostatic discharge when installing or operating the device. Information on elec-trostatic hazards can be found in the technical specification IEC/TS60079-32-1.5R e l e a s e d a t e : 2017-01-11 08:37D a t e o f i s s u e : 2017-01-12106619_e n g .x m lInstructionManual electrical apparatus for hazardous areas Device category 1Dfor use in hazardous areas with combustible dust EC-T ype Examination CertificateCE marking ATEX marking ¬ II 1D Ex ia IIIC T135°C DaThe Ex-related marking can also be printed on the enclosed label.Standards EN 60079-0:2012+A11:2013 EN 60079-11:2012Ignition protection "Intrinsic safety" Use is restricted to the following stated condi-tionsAppropriate typeNCB15+U...+N0...Effective internal inductivity C i≤ 110 nF ; a cable length of 10 m is considered.Effective internal inductance L i ≤ 160 µH ; a cable length of 10 m is considered.G eneralThe apparatus has to be operated according to the appropriate data in the data sheet and in this instruction manual. The EU-type examination certificate has to beobserved. The special conditions must be adhered to! The ATEX directive and there-fore the EU-type examination certificates are in general only applicable to the use of electrical apparatus operating at atmospheric conditions.The use in ambient temperatures of > 60 °C was tested with regard to hot surfaces by the mentioned certification authority.If the equipment is not used under atmospheric conditions, a reduction of the permis-sible minimum ignition energies may have to be taken into consideration.Permissible ambient temperature rangeDetails of the correlation between the type of circuit connected, the maximum per-missible ambient temperature, the surface temperature, and the effective internal reactance values can be found on the EC-type-examination certificate. The maxi-mum permissible ambient temperature of the data sheet must be noted, in addition, the lower of the two values must be maintained.Installation, commissioningLaws and/or regulations and standards governing the use or intended usage goal must be observed. The intrinsic safety is only assured in connection with an appro-priate related apparatus and according to the proof of intrinsic safety. If the Ex-related marking is printed only on the supplied label, then this must be attached in the imme-diate vicinity of the sensor. The sticking surface for the label must be clean and free from grease. The attached label must be legible and indelible, including in the event of possible chemical corrosion. After opening the housing, you should check that the seal is in the correct position and is clean and intact before closing the housing again.MaintenanceNo changes can be made to apparatus, which are operated in hazardous areas.Repairs to these apparatus are not possible. After opening the housing, you should check that the seal is in the correct position and is clean and intact before closing the housing again.Special conditionsThe connecting parts of the sensor must be set up in such a way that degree of pro-tection IP20, in accordance with lEC 60529, is achieved as a minimum.Protection from mechanical dangerWhen using the device in a temperature range of -60 °C to -20 °C, protect the sensor against the effects of impact by installing an additional enclosure. The information regarding the minimum ambient temperature for the sensor as provided in the datasheet must also be observed.Electrostatic chargeAvoid electrostatic charges that can cause electrostatic discharge when installing or operating the device. Information on electrostatic hazards can be found in the techni-cal specification IEC/TS 60079-32-1. Electrostatic charges must be avoided on the mechanical housing components. Dangerous electrostatic charges on the mechani-cal housing components can be avoided by incorporating these in the equipotential bonding. Do not attach the nameplate provided in areas where electrostatic charge can build up.。