TM201 ver.201001

Copyright 2001安装手册M4511v5 SuperOX TM高温氧探头Ver. 3.0美国专利号： 5,635,044SSi super systems目录 介绍. . . . . . . .说明. . . . . .特性. . . . . .运行理论. . .安装. . . . . . . . .发现修理故障 . . .质保. . . . . . . . . .11233, 456 备注 . . . . . . . . . . . . .7 回顾 . . . 8SuperOX SENSOR 手册介绍感谢您选择SuperOX TM使用在您的燃烧控制系统中。

SuperOX TM 代表着氧探测技术的最先进水平，它专门针对玻璃工业，发电，钢铁行业加热炉、化工行业和焚烧炉燃烧控制系统而设计。

SuperOX TM的电子测量结构受专利的保护，是由每个成员都拥有超过20年气氛化制经验的程序设计和应用工程师团队的合作的结晶。

SSi 的工程团队长期以来一直认为探测器是气氛控制系统的最重要的关键部件，通常也是最薄弱的环节。

现在，高温 SuperOX TM因其可靠性，可重复性和准确性能够完美的满足您的控制系统的要求。

说明O2的有效范围 - 10-20 to 100%温度- 1200o F to 2900o F稳定性- +/- 1 mvdc以内阻抗- 小于 5 kohms @ 1700F 有效输出- -50 to 1250 mvdc 总长- 18, 26.6, 30 and 36”重量-3.0 lbs.插入- to 18, 26.6, 30 and 36” 安装- 内孔1" NPT外壳直径 - 0.75"SuperOX SENSOR 手册特性典型的氧化锆氧传感器由一个一端封闭的带有传感器件的管组成。

探头为钇稳定氧化锆。

图1表示了SuperOXTM Sensor 的设计，为了使之更直观清晰，省略了细节。

BX-301M ID R ANGE M EMBRANEI NSTRUCTIONSMet One Instruments, Inc.1600 NW Washington Blvd.Grants Pass, Oregon 97526Telephone 541-471-7111Facsimile 541-471-71161 About the BX-301 Mid-Range MembraneThe BX-301 is a special purpose mid-range membrane foil assembly which may be used to verify the linearity of the BAM-1020 mass calculation system. The mass calculation of the BAM-1020 is inherently linear in nature, and therefore it is unnecessary to audit a mid range point in the vast majority of applications. The BX-301 is provided only as a convenience to certain customers who may be required to perform the check by local regulations.The BAM-1020 unit performs a span membrane check automatically every hour using it’s built-in membrane with a mass of approximately 0.800 mg/cm2. The BX-301 allows the user to periodically perform an additional span check at about 0.500 mg/cm2.The BX-301 membrane is a fragile assembly, and must be handled very carefully. Any puncture or damage to the foil surface will render the part useless. Any dirt or contamination on the foil surface will be measured as mass, and will also invalidate the measurement. This assembly must be protected and stored in a safe location away from heat and direct sunlight.2 Mid Range Span Check ProcedureNote: The BAM-1020 unit must be powered on and warmed up for at least one hour before performing the test. The pump does not need to be running during warm-up.1. Remove the ten case cover screws and washers from the BAM-1020. You will needto access the inside of the unit later to complete the test.2. Verify the factory determined ABS value of the BAM-1020 unit. This can be found inthe SETUP > CALIBRATE menu or on the calibration certificate for the unit. This is the expected mass of the span membrane foil in the unit, and will be about 0.800mg/cm2.3. Enter the TEST > CALIBRATE menu on the user interface. This is the screen thatwill be used for the membrane tests. See Section 7.13 of the BAM-1020 manual.The CALIBRATE Test Screen4. Press the START soft key to start a membrane measurement with the existing foil.The test will take about eight minutes to complete. The unit will then display themeasured value of the span membrane foil as the CAL MASS M value. Comparethis value with the ABS (expected) value and record the results. These shouldtypically match within a few micrograms. Note: If these values disagree by 5% ormore, then there is something wrong with the unit such as a dirty membrane or an incorrect ABS value. Do not proceed with the test if the BAM-1020 is not reading its own membrane correctly.5. Remove the BAM case cover. Locate the membrane assembly on the inside of theunit, and the brass raceway in which the membrane assembly slides forwards and backwards. Remove the small dust cover (two small screws and washers). Set the parts aside.MembraneMotorDust CoverMembraneAssemblyMembraneControl ArmThe Membrane Assembly Inside the BAM-10206. Carefully remove the existing membrane from the unit: Pull back the control armagainst it’s spring pressure until you can slide the membrane from the back of the assembly. There should be an expected mass value printed on the back of the mid-range membrane. Record this value. Insert the mid-range membrane foil exactly as the other membrane was installed. Note: Make sure the pin of the membrane is in the slot of the control arm, or the test will not work. Swapping membranes is a very simple matter once you know what you are doing.7. Press the START soft-key to start the test with the mid-range membrane in place.When the unit has calculated and displayed the new CAL MASS M value, record it and start the test over. Perform the test two more times and take an average of the three measured values. This average must be within 5% of the expected valueprinted on the membrane, and will typically be within a few micrograms. Record the results.8. Remove the mid-range membrane and replace the original part. Reinstall the smalldust cover and the main case cover of the BAM-1020.BAM-1020 Membrane Foil Mid-Range Linearity CheckTest Results Record:Test Performed By:Test Date:BAM-1020 Serial Number:Expected ABS Value:mg/cm2Measured Mass of Existing Foil:mg/cm2Difference:mg/cm2Difference %:%Expected Mass of Mid-Range Foil:mg/cm2Measured Mid-Range Mass, Test 1:mg/cm2Measured Mid-Range Mass, Test 2:mg/cm2Measured Mid-Range Mass, Test 3:mg/cm2Average Mid-Range Mass:mg/cm2Difference from Expected Value:mg/cm2Difference %:%。

MODULE FOR STEPPER MOTORSTRINAMIC Motion Control GmbH & Co. KGHamburg, GermanyHardware Version V1.2HARDWARE MANUAL+ +TMCM-1021++U NIQUE F EATURES :Table of Contents1Features (3)2Order Codes (5)3Mechanical and Electrical Interfacing (6)3.1Size of Board (6)3.2Connectors (7)3.2.1Power, Communication and I/O Connector (8)3.2.2Motor Connector (8)3.3Power Supply (9)3.4Communication (10)3.4.1RS485 (10)3.5Inputs and Outputs (11)3.5.1Digital Inputs IN_0, IN_1, IN_2, IN_3 (11)3.5.2Outputs OUT_0, OUT_1 (12)4Reset to Factory Defaults (13)5On-board LED (13)6Operational Ratings (14)7Functional Description (15)8Life Support Policy (16)9Revision History (17)9.1Document Revision (17)9.2Hardware Revision (17)10References (17)1FeaturesThe TMCM-1021 is a single axis controller/driver module for 2-phase bipolar stepper motors with state of the art feature set. It is highly integrated, offers a convenient handling and can be used in many decentralized applications. The module can be mounted on the back of NEMA11 (28mm flange size) and has been designed for coil currents up to 0.7A RMS and 24V DC supply voltage. With its high energy efficiency from TRINAMIC’s coolStep™ technology cost for power consumption is kept down. The TMCL™ firmware allows for both, standalone operation and direct mode.M AIN C HARACTERISTICSHighlights-Motion profile calculation in real-time-On the fly alteration of motor parameters (e.g. position, velocity, acceleration)-High performance microcontroller for overall system control and serial communication protocol handling-For position movement applications, where larger motors do not fit and higher torques are not requiredBipolar stepper motor driver-Up to 256 microsteps per full step-High-efficient operation, low power dissipation-Dynamic current control-Integrated protection-stallGuard2 feature for stall detection-coolStep feature for reduced power consumption and heat dissipationEncoder-sensOstep magnetic encoder (max. 1024 increments per rotation) e.g. for step-loss detection under all operating conditions and positioning supervisionInterfaces-Up to 4 multi-purpose inputs (2 shared with outputs)- 2 general purpose outputs-RS485 2-wire communication interfaceSoftware-TMCL: s tandalone operation or remote controlled operation,program memory (non volatile) for up to 876 TMCL commands, andPC-based application development software TMCL-IDE available for free.Electrical and mechanical data-Supply voltage: +24V DC nominal (9… 28V DC)-Motor current: up to 0.7A RMS (programmable)Refer to separate TMCL Firmware Manual, too.TRINAMIC S U NIQUE F EATURES – E ASY TO U SE WITH TMCLstallGuard2™ stallGuard2 is a high-precision sensorless load measurement using the back EMF on thecoils. It can be used for stall detection as well as other uses at loads below those which stall the motor. The stallGuard2 measurement value changes linearly over a wide range of load, velocity, and current settings. At maximum motor load, the value goes to zero or near to zero. This is the most energy-efficient point of operation for the motor.Load [Nm]stallGuard2Initial stallGuard2 (SG) value: 100%Max. loadstallGuard2 (SG) value: 0Maximum load reached. Motor close to stall. Motor stallsFigure 1.1 stallGuard2 load measurement SG as a function of loadcoolStep ™coolStep is a load-adaptive automatic current scaling based on the load measurement via stallGuard2 adapting the required current to the load. Energy consumption can be reduced by as much as 75%. coolStep allows substantial energy savings, especially for motors which see varying loads or operate at a high duty cycle. Because a stepper motor application needs to work with a torque reserve of 30% to 50%, even a constant-load application allows significant energy savings because coolStep automatically enables torque reserve when required. Reducing power consumption keeps the system cooler, increases motor life, and allows reducing cost.00,10,20,30,40,50,60,70,80,9050100150200250300350EfficiencyVelocity [RPM]Efficiency with coolStepEfficiency with 50% torque reserveFigure 1.2 Energy efficiency example with coolStep2Order CodesTable 2.2 Order codesA cable loom set is available for this module:Table 2.5 Cable loom order code3Mechanical and Electrical Interfacing3.1Size of BoardThe board with the controller/driver electronics has an overall size of 28mm x 28mm in order to fit on the back side of a NEMA11 (28mm flange size) stepper motor. The printed circuit board outline is marked green in the following figure:PCB outlineR 2.5mmFigure 3.1 Board dimensions and position of mounting holes3.2ConnectorsThe TMCM-1021 has two connectors, an 8-pin power and input/output connector and a 4-pin motor connector (used to connect the attached motor).Power / Communication / IOs11MotorFigure 3.2 TMCM-1021 connectorsOverview of connector and mating connector types:Table 3.2 Connectors and mating connectors, contacts and applicable wire3.2.1Power, Communication and I/O ConnectorAn 8-pin CVIlux CI0108P1VK0-LF 2mm pitch single row connector is used for power supply, RS485 serial communication and additional multi-purpose inputs and outputs.Table 3.3 Power, communication and I/O connector3.2.2Motor ConnectorAn 4-pin CVIlux CI0104P1VK0-LF 2mm pitch single row connector is used for connecting the four motor wires to the electronics.Table 3.4 Motor connector3.3 Power SupplyFor proper operation care has to be taken with regard to power supply concept and design. Due to space restrictions the TMCM-1021 includes just about 20µF/35V of supply filter capacitors. These are ceramic capacitors which have been selected for high reliability and long life time. The module includes a 28V suppressor diode for over-voltage protection.C AUTION !Add external power supply capacitors!It is recommended to connect an electrolytic capacitor of significant size (e.g. 470µF/35V) to the power supply lines next to the TMCM-1021!Rule of thumb for size of electrolytic capacitor: In addition to power stabilization (buffer) and filtering this added capacitor will also reduce any power supply wires and the ceramic capacitors. In addition it will limit slew-rate of power supply stability problems with some switching power supplies.Do not connect or disconnect motor during operation!Motor disconnected / connected while energized. These voltage spikes might exceed voltage limits of power supply before connecting / disconnecting the motor.Keep the power supply voltage below the upper limit of 28V!Otherwise operating voltage is near the upper limit a regulated power supply is highly recommended. Please see also chapter 6, operating values.There is no reverse polarity protection!The transistors.TMCM-1021 V1.2 Hardware Manual (Rev. 1.02 / 2013-JUL-23)10 3.4Communication3.4.1RS485For remote control and communication with a host system the TMCM-1021 provides a two wire RS485 bus interface. For proper operation the following items should be taken into account when setting up an RS485 network:1.BUS STRUCTURE:The network topology should follow a bus structure as closely as possible. That is, the connection between each node and the bus itself should be as short as possible. Basically, it should be short compared to the length of the bus.termination resistor (120 Ohm)termination resistor (120 Ohm)Figure 3.5: Bus structure2.BUS TERMINATION:Especially for longer busses and/or multiple nodes connected to the bus and/or high communication speeds, the bus should be properly terminated at both ends. The TMCM-1021 does not integrate any termination resistor. Therefore, 120 Ohm termination resistors at both ends of the bus have to be added externally.3.NUMBER OF NODES:The RS485 electrical interface standard (EIA-485) allows up to 32 nodes to be connected to a single bus. The bus transceiver used on the TMCM-1021 units (SN65HVD3082ED) has just 1/8th of the standard bus load and allows a maximum of 256 units to be connected to a single RS485 bus.4.NO FLOATING BUS LINES:Avoid floating bus lines while neither the host/master nor one of the slaves along the bus line is transmitting data (all bus nodes switched to receive mode). Floating bus lines may lead to communication errors. In order to ensure valid signals on the bus it is recommended to use a resistor network connecting both bus lines to well defined logic levels. In contrast to the termination resistors this network is normally required just once per bus. Certain RS485 interface converters available for PCs already include these additional resistors (e.g. USB-2-485).terminationresistor(120 Ohm)RS485- / RS485BRS485+ / RS485AFigure 3.6 Bus lines with resistor network3.5 Inputs and Outputs3.5.1 Digital Inputs IN_0, IN_1, IN_2, IN_3The eight pin connector of the TMCM-1021 provides four general purpose inputs IN_0, IN_1, IN_2 and IN_3. The first two inputs have dedicated connector pins while the other two share pins with two general purpose outputs.All four inputs are protected using voltage resistor dividers together with limiting diodes against voltages below 0V (GND) and above +3.3V DC (see figure below).IN_0IN_1IN_2IN_3microcontroller and TMC262Figure 3.7 General purpose inputsThe four inputs have alternate functionality depending on configuration in software. The following functions are available:Table 3.5 Multipurpose inputs / alternate functionsAll four inputs are connected to the on-board processor and can be used as general purpose digital inputs.Using the alternate functionality of IN_0 and IN_1 it is possible to control the on-board stepper motor driver with the help of an external stepper motor controller using step and direction signals. For the step and direction signals the signal levels are the same as for the general purpose digital inputs.IN_3 can be used as analog input, also. A 12bit analog to digital converter integrated in the microcontroller will convert any analog input voltage between 0 and +6.6V to a digital value between 0 and 4095 then.3.5.2Outputs OUT_0, OUT_1The eight pin connector of the TMCM-1021 provides two general purpose outputs. These two outputs are open-drain outputs and can sink up to 100mA each. The outputs of the N-channel MOSFET transistors are connected to freewheeling diodes each for protection against voltage spikes especially from inductive loads (relais etc.).Both outputs OUT_0 and OUT_1 share pins with two of the four inputs (IN_2 resp. IN_3).Please take into account the 20k (2x 10k in series) resistance to ground (transistor not active) of the input voltage divider (figure 4.8) when designing the external “load” circuit.OUT_0 / IN_2OUT_1 / IN_3microcontrollerFigure 3.8 General purpose outputs4Reset to Factory DefaultsIt is possible to reset the TMCM-1021 to factory default settings without establishing a communication link. This might be helpful in case communication parameters of the preferred interface have been set to unknown values or got accidentally lost.For this procedure two pads on the bottom side of the board have to be shortened (see Figure 4.1).Please perform the following steps:1.Power supply off and USB cable disconnected2.Short two pads as marked in Figure 4.13.Power up board (power via USB is sufficient for this purpose)4.Wait until the on-board red and green LEDs start flashing fast (this might take a while)5.Power-off board (disconnect USB cable)6.Remove short between pads7.After switching on power-supply / connecting USB cable all permanent settings have been restoredto factory defaultsShort these two padsFigure 4.1 Reset to factory default settings5On-board LEDThe board offers one LED in order to indicate board status. The function of the LED is dependent on the firmware version. With standard TMCL firmware the green LED flashes slowly during operation.When there is no valid firmware programmed into the board or during firmware update the green LED is permanently on.Green LEDFigure 5.1 On-board LED6Operational RatingsThe operational ratings show the intended or the characteristic ranges and should be used as design values. In no case shall the maximum values be exceeded!Table 6.1 General operational ratings of module*) maximum setting for prototype and first versions of TMCL firmware. Will be adapted in firmware for series version.Table 6.2 Operational ratings of multi-purpose I/OsTable 6.3 Operational ratings of RS485 interface7Functional DescriptionThe TMCM-1021 is a highly integrated controller/driver module which can be controlled via RS485 interface. Communication traffic is kept low since all time critical operations (e.g. ramp calculations) are performed on board. The nominal supply voltage of the unit is 24V DC. The module is designed for both, standalone operation and direct mode. Full remote control of device with feedback is possible. The firmware of the module can be updated via the serial interface.In Figure 7.1 the main parts of the module are shown:-the microprocessor, which runs the TMCL operating system (connected to TMCL memory),-the power driver with its energy efficient coolStep feature,-the MOSFET driver stage, and-the sensOstep encoder with resolutions of 10bit (1024 steps) per revolution.9…Figure 7.1 Main parts of TMCM-1021The TMCM-1021 comes with the PC based software development environment TMCL-IDE for the Trinamic Motion Control Language (TMCL). Using predefined TMCL high level commands like move to position a rapid and fast development of motion control applications is guaranteed. Please refer to the TMCM-1021 Firmware Manual for more information about TMCL commands.8Life Support PolicyTRINAMIC Motion Control GmbH & Co. KG does not authorize or warrant any of its products for use in life support systems, without the specific written consent of TRINAMIC Motion Control GmbH & Co. KG.Life support systems are equipment intended to support or sustain life, and whose failure to perform, when properly used in accordance with instructions provided, can be reasonably expected to result in personal injury or death. © TRINAMIC Motion Control GmbH & Co. KG 2013Information given in this data sheet is believed to be accurate and reliable. However neither responsibility is assumed for the consequences of its use nor for any infringement of patents or other rights of third parties, which may result from its use.Specifications are subject to change without notice.All trademarks used are property of their respective owners.9Revision History9.1Document RevisionFigure 9.1 Document revision9.2Hardware RevisionFigure 9.2 Hardware revision10References[TMCM-1021] TMCM-1021 TMCL Firmware Manual [QSH2818-32-07-006] NEMA11 / 28mm bipolar stepper motor [QSH2818-51-07-012] NEMA11 / 28mm bipolar stepper motor [USB-2-485] USB-2-485 interface converter TRINAMIC manuals are available on .。

TM_U_201 . 3G无线上网卡
[基本信息]
内部型号：TM_U_201
产品属性：TD-HSDPA无线上网卡，DL up to 2.2Mbps，最高可达2.8Mbps 支持网络：TD-SCDMA/EDGE/GPRS，自动切换
芯片方案/平台:
ADI Laguna +TD-SCDMA/EDGE套片联合芯片模组
A2000+H平台
网路模式:
TD-SCDMA 支持
EDGE 支持
GPRS 支持
HSDPA 支持
网络频段:
GPRS/EDGE 支持900/1800Mhz
TD-SCDMA 支持2010-2025Mhz
数据速率:
TD-SCDMA 支持上行128Kbps 下行384Kbps
TD-HSDPA 支持上行384Kbps 下行2.8Mbps
结构外观:
外形USB直插
尺寸支持84X39X12.5 MM(公差:+/- 0.2mm)
重量56克
天线内置
RF测试内置
功能特性:
多网络自动切换支持
复合SIM卡槽有
内置存储支持
U盘免驱支持
自动安装驱动支持
SMS 支持
PC操作系统支持(Windows XP, Windows,Vista)
通讯录管理支持
联系人1000条(存于PC侧)
联系人复制支持(在PC和USIM间复制)
选择存储位置支持(可选存于PC或USIM卡)
短信管理支持
短信存储1000条(存于PC侧)
短信复制支持(从USIM复制到PC)
选择存储位置支持(可选存于PC或USIM卡) 长短信发送支持。

ENERGY VISION Product DataCopyright © 2015 Honeywell GmbH ▪ All Rights Reserved EN0Z-1012GE51 R1115ENERGY VISION – PRODUCT DATAEN0Z-1012GE51 R1115 2GENERALENERGY VISION is a professional tool for energy benchmarking and analysis, built on Niagara web graphics technology, andproviding a large range of techniques for managing all aspects of energy related data.EnergyVision is the ideal system to:▪ help manage energy, analyze, and optimize theoperation of facilities and▪ measure performance across multiple levels within yourbuilding or estateIt is fully web-enabled and able to integrate data from a wide range of existing systems. HAWK and ARENA AX can provide data from most of the metering devices used in the market. It enables an integrated solution, allowing the user to collate and manage all aspects of their energy data at a central location.FEATURES - BENEFITSFeatureBenefitsCompletely integrated into Niagara AXSave costs. NO additional equipment needed.Get metering data from most of the metering communication protocols in the market.Automatically collect and aggregate metering dataNo need for expensive data collection devices.Reliable and continuous data collection. No need to send thehousekeeper to note metering data. Monitor energy con-sumption with daily, weekly , monthly or annual profilesEasily recognize waste of energyAnalyse energy profiles Detect waste of energy. Optimize energy efficiency. Translate raw energy values into monetary unitsAlways have an overview of the energy costs.Compare actual costs with budget. Energy Benchmarking graphs, with weekly, monthly, yearly viewsProve the efficiency of your energy saving actions.Easily understand how your energy consumption is against targetprofiles or historical consumptions. Visualization andranking of consumptionbetween meters, zones, systems, buildings, sitesGet an overview of your highest consumers. Start optimizing your energy efficiency, where you can achieve the biggest savings. Instant and automatic reports for users,energy managers and auditorsSave costs for generating energy reports.Have the relevant data for energy managers and auditors with highest accuracy and just in timeKiosk Mode - a rotating sequence of easyunderstandable energy efficiency dataUse in a building foyer or reception area to raise occupants awareness.Honeywell offers the complete meter portfolioHoneywell offers all the needed metering devices starting from one and three phase electrical meters, heating , cooling energy meters, hot and cold water meters and all kinds of flow meters.FeatureBenefitsCost-efficient solutionLogos & layout can be customized free of chargeAll components are part of an AX palette – low effort for technical supportexisting BACnet Schedules can be usedLow training effort for engineers and usersLow training efforts for customers and partners/ engineersTraining video available on the partner webVery easy installation and start-up∙ UNIQUE SELLING POINTS 100% Web-Enabled Architecture The ENERGY MANAGEMENT is a 100% web-enabled software. This means that:- Needs to be installed at only a single location; - Can be accessed via the internet or intranet;- Requires only one browsers (Internet Explorer, Firefox, or Opera) to access it from the client PC;- Can be managed from a single central location, thus making installation and ongoing maintenance simple and cost-effective.∙ Ability to Integrate Data from a Variety of Sources ENERGY VISION is able to integrate data from a wide range of existing systems. HAWK and ARENA AX can provide data from most commercially available metering devices. ARENA supports the data exchange between the L ON W ORKS network, M-Bus, and all existing Honeywell installed base to the energy management suite. This makes it unnecessary to completely replace the system. ENERGY VISION enables an integrated solution, allowing the user to collate and manage all aspects of their energy data at a central location. ∙ Energy AnalysisThe software detects energy waste using a number of predefined analysis templates of metering data, including heating/ cooling energy, electricity, water, and other meters. ENERGY VISION proactively monitors facilities and identifies opportunities for cost savings.The software supports intelligent metering components with normalization of data, handling meter roll-over, and periods of missing data.ENERGY VISION – PRODUCT DATA3 EN0Z-1012GE51 R1115∙ Analyze Energy ProfilesBuilding management systems, utility smart meters, data loggers, and utility online databases are rich with data, yet many customers find the data difficult to acquire, aggregate, analyze, and leverage. ENERGY VISION delivers this information in real-time, providing the intelligence needed for proactive business and energy management decisions. ∙ OptimizeENERGY VISION uncovers opportunities for efficiency gains and provides data to continuously optimize the performance of each of these building systems - without affecting the comfort of occupants. Once building systems are optimized, ENERGY VISION helps keep the systems operating at highly efficient levels so that you can realize long-term energy reductions and extended equipment life. ∙ Financial AnalysisThe financial tools within the Energy Management software enable users to convert energy usage into monetary values. Users input single-tariff utility contracts to convert kWh to financial data. In addition, users are able to create and analyze consumption or financial targets. ∙ ReportsCombining historical usage information and energy analytics with real-time data feeds provides usable information and justification for both operational and capital business decisions. With ENERGY VISION, you can proactively monitor your facility and identify opportunities for cost savings. ∙ Different UsersENERGY VISION can be engineered to support different users, energy managers with access to the complete functionality, and users with limited access rights.ENGINEERINGThe ENERGY VISION engineering can be done using COACH AX or ARENA AX .KEY ENERGY ANALYSIS FEATURESDaily ConsumptionDetect inefficient energy usage by comparing multiple days across their 24-hr periods.Energy RankingVisualize and compare the performance of your sites,buildings and plants. Start energy efficiency actions optimizing your biggest consumers.Energy PerformanceCompare your actual energy consumption with your planned target consumption. Display energies in range, below, and above estimated ranges.Energy BenchmarkingDetect low energy-efficiency areas by comparing con-sumptions against similar periods, e.g., days, weeks , months, years....ENERGY VISION – PRODUCT DATAEN0Z-1012GE51 R1115 4Energy ContributionGet an overview of the energy or monetary energycontribution for different zones, buildings, or time periods.Energy Efficiency ReportsSave management effort, generating booklets of reports, e.g., for the energy manager, departments, or energy audits.ENERGY VISION – PRODUCT DATA5 EN0Z-1012GE51 R1115Energy Signature ET AnalysisDiscover anomalies in energy consumption by visualizing the effect of the outside temperature on the energy consumption.Regression AnalysisCompare your consumption with the line-of-best-fit against outdoor temperature, degree days, or any other value of interest.Kiosk ModeGet an overview of the most important energy consumers - show a rotating sequence ofenergy dashboard pages ideal for use in a building foyer or reception area.PLATFORM REQUIREMENTSCentraLine ENERGY VISION is designed to run on Niagara 3.8 on the following platforms:CLEMC12 runs on HAWK 600 with Niagara 3.8 or any other ARENA AX Supervisor.All the other products – e.g., CLEMDEMO, CLEMS75,CLEMSPRO and CLEMADVCHARTS - will run on ARENA AX Niagara 3.8 only and the following Windows platforms:▪ Microsoft® Windows Server 2012 Standard/ Enterprise SP2 (64 bit)▪Microsoft® Windows Server 2012 R2 Standard/ Enterprise SP2 (64 bit)▪ Microsoft® Windows 7 Professional/ Enterprise/ Ultimate (32/64 bit).▪ Microsoft® Windows 8 Professional/ Enterprise/ Ultimate (32/64 bit).▪ Microsoft® Windows 8.1 Professional/ Enterprise/ Ultimate (64 bit)▪ Microsoft® Windows 10 64 Bit ▪VMware – ESXi 5.1.0▪Microsoft Virtual Se rver 2008We do not currently provide support for CentraLine ENERGY VISION on any other platforms.ENERGY VISION – PRODUCT DATAEN0Z-1012GE51 R1115 6ENERGY VISION PCThis chapter defines the minimum and recommended hard-ware requirements for the installation of ENERGY VISION. The hardware specification should be used as a guide only, as the number of concurrent users, metering channels, and read frequency will affect the specific hardware required.Specification Minimum Recommended Processor type Intel® Core™ i3 Intel® Core™ i5, i7 Processor speed 3.2 GHz 4.0 GHz RAM16 GB 24 GB Hard disk space 240 GB500 GBOS requirements Windows 7 proWindows 7/10 proOS Type 32 Bit 64 BitDisplayVideo card and monitor capable of displaying 1024 x 768 pixel resolution or greaterNetwork Support Ethernet adapter (10/100 Mb with RJ-45 connector)ConnectivityFull-time high-speed ISP connection recommended for remote site access (i.e. T1, ADSL, cable modem)ENERGY VISION PRODUCTSCentraLine ENERGY VISION provides the following functionality:Product DescriptionCLEMC12License for HAWK orARENA AX with max. 12 metersCLEMDEMO Three-month demo version for customer trial job sites CLEMS75Basic supervisor license for ARENA AX with maximum 75 metersCLEMSPROProfessional supervisorlicense for ARENA AX for max.1400 meters and 5 sitesCLEUPGR75PRO Upgrade from SupervisorBasic to Supervisor professional CLEMADVCHARTS Advanced Charts andReports Tenant Billing Future module Will be available in Q4 2016SOFTWARE DOWNLOADSYou can find the following files on the DONWLOADS sectionof the PARTNER web https:// : ∙ Software files ∙ Release bulletin ∙ Training Video∙ Link to the Demo Station (which can be accessed only outside the Honeywell network)You need an account for the CentraLine PARTNER web.InstallationTo install the software, copy the java files into the COACH AX modules directory:…\CentraLine\COACHAX-3.8.38\modulesCopy the demo station in the COACH AX station directory: …\CentraLine\COACHAX-3.8.38\stationsCheck the software version using the Software Manager of the platform.LicensingFor licensing your software, you need an account for the Niagara Central.Honeywell will provide unbundled licenses for the software you have ordered.To create your bundled licenses, you must log-in to theNiagara Central and host create the software licenses, adding your host IDs and serial numbers for HAWK controllers toENERGY VISION – PRODUCT DATA7 EN0Z-1012GE51 R1115Products and Features of the Basic ProductsFeature/ LicenseCLEMC12CLEMDEMO; CLEMS75; CLEMSPR Web-based system, accessible from anywherelimited Energy benchmarking graphs, with weekly, monthly, or yearly views to compare this week, against last week, against this week last yearMonitoring & Targeting against historic, pre-set, or degree day data.High number of users with user segregation limited Automated email of energy reportsAggregation of meter data to compare energy profiles or peak demands for different zones, buildings, or sites.Ranking of consumption between meters, zones, systems, buildings, sites etc…Support for a wide variety of meter communications including Modbus & MBUS protocolsImport or export meter data using .csv files, SQL, web services, etc…limited Kiosk mode – displays a selection of pages in a rotating sequence for display in a building reception areaInstant reports – generated from each graph or chart as csv or pdf.automatically generated reports to PDF file and saved locally, or sent to email accounts.Support of multiple languages. Language is a user property Energy Temperature Analysis available December 2015Components of Advanced ChartsFeature/ License∙ Stacked bar charts (Energy Contribution) ∙ Enhanced Regression Analysis graph ∙ Base load analysis∙ Inside / Outside schedule comparison ∙ Multiple Y Axis chartENERGY VISION – PRODUCT DATAManufactured for and on behalf of the Environmental and Combustion Controls Division of Honeywell Technologies Sàrl, Rolle, Z.A. La Pièce 16, Switzerland by its Authorized Representative:CentraLineHoneywell GmbHBöblinger Strasse 1771101 Schönaich, Germany Phone +49 (0) 7031 637 845 Fax +49 (0) 7031 637 740 *******************Subject to change without notice EN0Z-1012GE51 R1115SYSTEM DIAGRAMThe picture below outlines a typical system architecture:You should connect maximum 1400 meters and five sites to a professional license CLEMSPRO. When your project size is bigger, you can install several licenses distributed in the network. You can access the data of the remote stations via remote access. The remote station licenses can be:∙ CLEMC12 ∙ CLEMS75∙ CLEMSPROFor the scalable solution, you simply create a cluster of ENERGY VISIONSupervisors which collect and aggregate the meter data, and a single ENERGY VISION Supervisor which is the user interface. It works very much in the same way as a BMS system. One Niagara instance is used to host the graphics, and multiple HAWKs collect the data.For ENERGY VISION, one instance is used for graphics, and multiple HAWKs or supervisors are used to host the meter aggregators.The software contains a driver which is built into every copy of ENERGY VISION to handle the communication between the user interface and the aggregators. This creates proxy copies of the aggregators in the user interface station, but the aggregators are processed in a remote supervisor or HAWK controllers.。

Immersion CoolerNeoCool DipModel BE201/201F/301Instruction ManualFirst Edition●Thank you for choosing BE series immersion NeoCool Dip coolers from Yamato Scientific Co., Ltd.●For proper equipment operation, please read thisinstruction manual thoroughly before use. Alwayskeep equipment documentation safe and close athand for convenient future reference.Warning: Read instruction manual warnings andcautions carefully and completely beforeproceeding.Yamato Scientific America Inc．Santa Clara，CAPrinted on recycled paper1. SAFETY PRECAUTIONS (1)Explanation of Safety Symbols (1)Symbol Glossary (2)Warnings & Cautions (3)2. PRE-OPERATION PROCEDURES (4)Placement Precautions & Procedures (4)3. COMPONENT NAMES & FUNCTIONS (10)Main Unit Overview (10)4. OPERATION PROCEDURE (12)Main Operation (12)Cooling Capacity Curves (Reference Data) (13)Choosing Coolant for Low-T emp Applications (Reference Data) (15)5. HANDLING PRECAUTIONS (16)6. INSPECTION & MAINTENANCE (17)7. STORAGE & DISPOSAL (18)Extended Storage / Unit Disposal (18)Disposal Considerations (18)8. TROUBLESHOOTING (19)Troubleshooting Guide (19)9. SERVICE & REPAIR (20)10. SPECIFICATIONS (21)11. WIRING DIAGRAM (22)12. LIST OF HAZARDOUS SUBSTANCES (23)1.Explanation of Safety SymbolsSymbol GlossaryGeneral WarningDanger!: HighVoltageDanger!:Extremely HotDanger!: MovingPartsDanger!: BlastHazardGeneral CautionCaution:Shock Hazard!Caution: BurnHazard!Caution: Do NotHeat WithoutWater!Caution: MayLeak Water!Caution: WaterOnlyCaution: T oxicChemicalsGeneralRestrictionNo Open FlameDo NotDisassembleDo Not T ouchGeneral ActionRequiredConnect GroundWireLevel InstallationRequiredDisconnect PowerInspectRegularly1.Warnings & CautionsWarning Do not install or operate CF301 unit near flammable or explosive gases/fumes. Unit is NOT fire orSubstances” (PAlways ground this unit properly to avoid electric shock.Damagingshock to the operator.NeverHazardous Substances” (PBe sure there is adequate ventilation when working with certain flammable substances (such as ethanol, etc.), which evaporate quickly at or below room temperature, and emit flammable fumes. Insufficient ventilation may cause a fire or explosion.Caution2. Placement Precautions & ProceduresWarningOutlet with ground receptacleOutlet with no ground receptacle Ground adapterGround wireW 3-pronged ground ｗ G3-pronged plug withground 115V AC onlyPlacement Precautions & ProceduresWarning4. DO NOT disassemble or modify.Attempting to disassemble or modifiy this unit in any way may result in malfunction, electric shock.Placement Precautions & ProceduresWarningCaution 6. Place on level surfaces.Place unit on a level and even surface. Failure to do so may result in abnormal vibrations ornoise and damage to the refrigeration system.Placement Precautions & ProceduresCautionPlacement Precautions & ProceduresCautionPlacement Precautions & Procedures3. Main Unit OverviewBE201 front viewBE201 rear viewPower Switch (10A)Operation LampCooling CoilPower Cable(with plug)Cooling Coil SheathHandleHeat VentMain Unit OverviewBE201F/301 front viewBE201F/301 rear viewPower Switch (10A)Operation LampHandle Flexible Cooling Tube BE201F ：500mm BE301 ：1000mmMain OperationImmerse cooling coil in fluid as shown in diagram below. Turn power switch (ELB) “ON” to start operation.Wait at least five minutes to resume after halting an operation (e.g. turning power off). DONOT turn power switch “ON” and “OFF” repeatedly within a short timeframe. Damage tothe refrigeration system may result.Avoid operating unit continuously at fluid temperatures abive 35°C.Cooling Capacity Curves (Reference Data)Analysis provisions・External temperature：23°C・Power：115V AC・CPM：50Hz・Antifreeze fluid：60% Naiburain solution (covered, stirred and heat insulated)・Fluid quantity：BE201/201F: 5 ℓ BE301: 5 ℓ /10ℓ・T emp sensor placement：container centerBE201(5L)BE301(10L)BE201F(5L)BE301(5L)Cooling Capacity Curves (Reference Data) Analysis provisions・Room temperature：20°C・Power supply：115V AC・CPM：50Hz・Antifreeze fluid：60% Naiburain solution (covered, stirred and heat insulated)・Fluid quantity：BE201/201F: 5 ℓ BE301:10ℓ・Temp sensor placement：container centerChoosing Coolant for Low-T emp Applications (Reference Data)An anti-freeze coolant solution is required for applications below 10°C. Select a Naiburain® product with freezing point of 10°C or more below objective temperature. See “select coolant based on operating temperature ” on P .10.0-10-20-30-40-500102030405060708090100-10-20-30-40-50Concentration （wt%） Naiburain ® Freezing PointsT e m p e r a t u r e （°C ）Warning2. DO NOT operate equipment when abnormalities are detected.Caution2. DO NOT place objects on equipment.3. DO NOT operate equipment during thunderstorms.4. DO NOT operate dry.5. Operate equipment as directed.6. Keep upright.6.Daily general maintenance and inspection is recommended to ensure optimal performance.WarningCaution◆ Contact local dealer or Yamato sales office for further assistance.7.Extended Storage / Unit DisposalCaution WarningDisposal Considerations Dispose of or recycle this unit in a responsible and environmentally friendly manner.Yamato Scientific Co., Ltd. strongly recommends disassembling unit, as far as is possible, in order to separate parts and recycle them in contribution to preserving the global environment.Troubleshooting Guide◆If problem persists, turn off power immediately, disconnect power cable and call for service.9.When a problem occurs, terminate operation immediately, turn off main power switch (ELB) and disconnect power cable.Contact a local dealer or Yamato sales office for assistance.The following information is required for all repairs. ● Model name ● Serial Number● Date (year/month/day) of purchase● Description of problem in as much detail as possibleGuaranteed maximum supply period for repair parts is 7 (seven) years from date of discontinuation for BE series NeoCool Dip immersion coolers .“Repair parts” is defined as components which, when installed, allow for continued unit operation.See production/rating label on unit. Refer to P .11 & 12 for location.⌘1 Performance based on AC115V power supply; 20°C±5°C external temperature; 65%RH±20% humidity; no load. Performance will vary depending on operation conditions..⌘2 Protrusions excluded.11. BE201/201F/30112.Never process explosive substances, flammable substances or substances that containexplosives or flammables.Excerpt from T able 1, Hazardous Substances, of Cabinet Order of the Occupational Safety and Health Law (substances related to Articles 1, 6, and 9)Limited liabilityAlways operate equipment in strict compliance to the handling and operation procedures set forth by this instruction manual.Yamato Scientific Co., Ltd. assumes no responsibility for malfunction, damage, injury or death resulting from negligent equipment use.Never attempt to disassemble, repair or perform any procedure on BE series unit which is not expressly mandated by this manual. Doing so may result in equipment malfunction, serious personal injury or death.Notice●Instruction manual descriptions and specifications are subject to change withoutnotice.●Yamato Scientific Co., Ltd. will replace flawed instruction manuals (pages missing,pages out of order, etc.) upon request.Instruction ManualImmersion Cooler NeoCool DipBE201/201F/301First Edition:June 6, 2017Yamato Scientific America Inc.925 Walsh Avenue, Santa Clara, CA 95050Phone: 800.292.6286 / 408.235.7725。