日本横河调节器UT35A-000-11-00日本横河YOKOGAWA这

GS 01C21F01-02CY标准规格RE JA530A 压力变送器用于测量液体、气体或蒸汽的液位、密度与压力，然后将其转变成4~20mADC TM 的电流信号输出。

EJA530A 也可与BRAIN 手操器、TM YHC4150、CENTUMCS 、FieldMate 、HART 375互相通讯，通过它们进行设定、监控等。

ABCD可调量程的参考精度(包括从零点开始的线性、滞后性和重复性)若量程小于XX 取值：环境温度影响o 总影响量/28℃(50F )±[0.15%量程+0.15%量程上限]±0.1%量程上限/12个月稳定性±0.005%/V (21.6V~32V DC ，350Ω)供电电源影响“”功能规格MPaPsi (D1)Bar (/D3)2Kgf/cm (/D4)10~200kPa 调 零在膜盒量程的上下限范围内，零点可任意调整外部调零通过外部调零螺钉，可在测量范围内对零点进行连续调校，分辩率为0.01%，量程可通过数字表头上的量程设定开关进行现场调校。

安装位置影响与膜片面平行方向的安装位置变化不会造成零点漂移，与膜片面垂直方向旋转到90度，将会产生0.27kPa{1.1inH2O}的零漂，并可通过调零校正。

膜 盒A B C D XMP a {psi }40kPa {5.8}0.2{29}1{145}8{1160}振动影响±0.1%量程上限(5~15Hz ；4mm15~150Hz ；2g 150~2000Hz ；1g )0~200kPa量程范围量程范围量程范围量程范围量程/范围□ 1.45~290~2914.5~2900~29072.5~14500~1450720~72000~72000.1~20~21~200~205~1000~10050~5000~5000.1~20~21~200~205~1000~10050~5000~5000.1~20~20.5~100~105~500~50性能规格（以标准零点为基准调校量程，接液部分材质代码“S ”充灌液为硅油）输出“ ”2线制，4～20m A D C 输出，数字通讯，可编程设定线性或平方根输出方式，BRAIN 或HART FSK 协议加载在 4～20mA DC 的信号上。

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UT55A-001-11-00 调节器??? 日本横河 YOKOGAWA 原装正品现货特价热卖日本横河调节器 UT55A-001-11-00 日本横河 YOKOGAWA 这个产品怎么样？哪家价格好？ 广州日横电子科技有限公司长期现货供应横河调节器 UT55A-001-11-00 日本横河 YOKOGAWA，原装正 品，假一罚十。

Series 441 Installation and Operating Instructions 1 SAFETY NOTESSafe and secure operation of the head transmitter can only be guaranteed if the operating instructions and all safety notes contained are understood and followed.1.1 Correct UseThe unit is a universal, presettable temperature transmitter for resistance thermometer (RTD), thermocouple (TC) as well as resistance and voltage sensors. The unit is constructed for mounting in a connection head (form B) and a field housing. The manufacturer cannot be held responsible for damage caused by misuse of the unit.1.2 Installation, commissioning and operationThe unit is constructed using the most up-to-date production equipment and complies with the safety requirements of the EU guidelines. If it is installed incorrectly or misused certain application dangers can occur. Trained personnel must do installation, wiring and maintenance of the unit. These personnel must have read and understood these instructions and must follow them to the letter.2 FUNCTION AND SYSTEM CONSTRUCTION2.1 FunctionProvides electronic monitoring and transformation of various input signals into an analog output signal in industrial temperature measurement. The head transmitter is mounted in a connection head form B or separated from the sensor in a field housing. Setting up of the head transmitter is done using PC and configuration software. The configuration kit is required for setting up the head transmitter.2.2 Measurement systemTransforming the following input signals:• Resistance thermometers (RTD) and resistance sensors (in 2, 3 or 4 wire connection systems)• Thermocouples (TC)• Voltage sensors into a scalable analog output signal (4...20 or 20...4) mAFault monitoring of:• Measurement range override or undercut• Sensor breakage and short circuit - not for thermocouples (TC)3 INSTALLATION3.1 Installation conditionsAmbient temperature: (-40 to 85) °C [-40 to 185] °FInstallation area: Field housing; connection head Form B according to DIN 43 729Installation angle: No limitSafety notes: The unit must only be powered by a power supply that operates using an IEC 61010-1 compliant energy limited circuit.3.2 Installation• Feed the sensor leadwires through the central hole in the head transmitter• P osition the head transmitter in the connection head in such way so that the current output terminals (terminals 1 and 2) are towards the cable entry gland.• Feed the installation screws through the holes in the head transmitter.• Screw the head transmitter into the field housing using a screwdriver while not over tightening.4 WIRING4.1 OverviewTerminal layout4.2 Measurement unit connectionAttention: Switch off power supply before opening the housing cover. Do not install or connect the unit to power. If this is not followed parts of the electronic circuit will be damaged.• S ensors: Connect the sensor lead to the respective head transmitter terminals (Terminals 3 to 6) by following the wiring diagram (see figure 4.1).• O utput signal and power supply: Open the PG cable gland on the head transmitter or field housing. Feed the cable through the opening in the PG cable gland and then connect the cable cores to terminals 1 and 2 according to the wiring diagram (see figure 4.1).• P C configuration (SETUP socket): Open the flap on the SETUP socket (Figure 4.1, Pos. A) and connect the SETUP connection cable.Note: The screws on the terminals must be screwed tightly. Head transmitter configuration during measurement operation is possible. There is no need to disconnect leads.POTENTIAL LEVELINGPlease take note when installing the head transmitter remotely in a field housing. The screen on the (4 to 20) mA signal output must have the same potential as the screen at the sensor connections. When using earthed thermocouples, screening of the output (4 to 20) mA cable is recommended. In plants with strong electromagnetic fields, screening of all cables with a low ohm connection to the transmitter housing is recommended.5 OPERATION5.1 Short form instructions (SETUP)For detailed TransComm operating instructions, please read the online documentation contained in the software.5.2 CommunicationThe head transmitter must be set up using a PC and configuration kit. The following points must be taken into account if troublefree setting up is to be achieved:• Configuration software installation• Connect the head transmitter to the PC using the connection cable from the configuration kit.7 MAINTENANCEThe head transmitter is maintenance free.8 TROUBLESHOOTINGAlways start troubleshooting with the checklists below if faults occur after start up or during operation. This takes you directly (via various queries) to the cause of the problem and the appropriate remedial measures. Note: Due to its design, the device cannot be repaired. However, it is possible to send the device in for examination.General errorsConnecting the head transmitter to the PC using the configuration kit connection cable 1. C onnect the SETUP connector of the interface cable to the SETUP socket in the head transmitter (see figure 4.1, Pos. A). 2. C onnect the RS232C connector to a free serial interface socket on the PC. In order to achieve optimum connection tighten the RS232C connector screws to the PC.Note: Configuration of the head transmitter must be done with power applied.6 COMMISSIONING 6.1 Installation checkMonitor all connections making sure they are tight. In order to guarantee fault free operation the terminal screws must be tight onto the connection cables. The unit is now ready for operation.6.2 CommissioningOnce the power supply has been connected the head transmitter is operational.Set up using the PC configuration softwareThe head transmitter left the factory with a default parameter configuration. If no customer specific configuration was mentioned on the order the default parameter configuration is constructed as follows:Hint: If a change has been made to the measurement point then the head transmitter can be re-configured. In order to re-configure the parameters follow these instructions:• Install the configuration software and make connection to the PC (see Chapter 5, Operation).• F or detailed operating instructions for the PC configuration software, please read the online documentation contained in the software.Interactive setting up of the temperature transmitterCustomer specific linearization and sensor matching is done using the TransComm configuration software. The program calculates the linearization coefficients X0 to X4, that need to be entered into the PC configuration software.6.3 Function checkMeasuring the analog (4 to 20) mA output signal or following failure signals:SensorPt100 (RTD)Connection mode 3-wire Measurement range and units(0 to 100) °CUnderranging Linear drop from 4.0 to 3.8 mA OverrangingLinear increase from 20.0 to 20.5 mAFailure, e.g. sensor breakage; sensor short circuit≤ 3.6 mA (“low”) or ≥ 21 mA (“high”), can be selectedThe “high” alarm setting can be set between 21.6 mA and 23 mA, thus providing the flexibility needed to meet the requirements of various control systems.Application errors for RTD sensor connectionApplication errors for TC sensor connection。

横河EJA变送器的零点调整及测量范围设置教程一、零点调整1.准备工作首先，需要准备以下设备和工具：横河EJA变送器、压力源、电压表和电流表。

其中，压力源用于提供一个已知的稳定的压力信号，电压表和电流表用于测量变送器的输出信号。

2.连接变送器将压力源的输出口与变送器的进口连接，然后将变送器的出口连接至电压表或电流表，以便测量其输出信号。

3.开始调整首先，将压力源的压力调至合适的范围，然后将电压表或电流表选择至合适的量程，并将其连接至变送器的输出端。

4.调整零点在调整零点之前，需要先确认变送器的电源电压和工作温度是否正常。

然后，按照以下步骤进行零点调整：-将变送器的输出略高于0mA或低于4mA的信号（略偏离量程的最低点）视为初始零点。

-调整变送器的零点调整螺丝（通常位于变送器的侧面），使输出信号达到0mA或4mA。

-反复调整零点螺丝，直到输出信号稳定在0mA或4mA。

5.调整范围完成零点调整后，可以进行范围调整。

范围调整通常通过增加或减小进口压力来完成。

二、测量范围设置1.准备工作同样需要准备横河EJA变送器、压力源、电压表和电流表。

在测量范围设置中，压力源用于提供多个已知压力值，以便设置不同的测量范围。

2.连接变送器将压力源的输出口和变送器的进口连接，再将变送器的出口连接至电压表或电流表。

3.开始设置首先，将压力源的压力调至需要设置的测量范围的最低值，然后将电压表或电流表选择至合适的量程，并将其连接至变送器的输出端。

4.设置最低值调整变送器的量程调整螺丝（通常位于变送器的侧面），使输出信号达到对应的最低值（例如0.2mA或2mA）。

5.设置最高值接下来，将压力源的压力调至需要设置的测量范围的最高值，再次调整量程调整螺丝，使输出信号达到对应的最高值（例如 3.8mA或20mA）。

6.确认设置完成最低值和最高值的设置后，再次确认变送器的输出信号是否在所需的测量范围内。

同时，还可以通过与其他已校准的压力传感器进行对比，来验证测量范围的准确性。

现货特价清仓：日本横河：温控器UT35A,UT55A,UT32A,UT152，UP35A，UP550，功率计WT210，WT310E-C1-H/G5,WT310E-C2-H/G5,WT310-H-C2,WT310E-C2-H,WT310-H-C1,WT333E,WT310E-C2-H/EX2/G5。

记录仪SR10006，S10004，436106，436104，47103,437112，DX1006，FX1006，MV1006，MV1012，记录纸B9565AW，感温线TT-K-30。

数据采集器MX100,DA100，DS400，模块MX110,DU200，DT300，DU100，DV200，背板MX150，DCS3000系统卡件ADV151-P50，ADV551-P50，ALR121-S50，AAI143-S50，AAI543-S00，AAR145-S50，电极FU20-10-T1-NPT，FLXA21，PH8EFP,K9142TN,K9142TH,K9142TK,PH72SN,锆池E7042UD，溶液K9084LP,流量计AXF015G,AXF025G,AXF040G,DY015，DY025，DY032,RAMC01，RAMC02，RAMC08，兆欧表MY40-01，3213A45，MY1003，分流器221511,21513,221515，温度计TX1001，TX1002，探头90020，90021，90022，90023等。

日本ADEX：测试线AP-01（AX-114N专用）。

日本AEMIC：测试线AEA-01等。

日本日置：测试线L2101,9451,9140，温度线Z2001,电池测试仪3555，3554，BT3561，BT3561-01，BT3562，BT3562-01，BT3563,BT3563-02等。

日本菊水：TOS5200，TOS5301A，TOS6200A，TOS5303，TL01-TOS测试线等。

GeneralUT35A, UT32ADigital Indicating Controller(Panel Mounting Type)GS 05P01D31-01ENOverviewThe UT35A and UT32A digital indicating control-lers employ an easy-to-read, 14-segment large colorLCD display, along with navigation keys, thus greatly increasing the monitoring and operating capabilities. A ladder sequence function is included as standard. The short depth of the controller helps save instrument panel space. The UT35A and UT32A also support open networks such as Ethernet communication.The UT35A and UT32A have a DIN rail mounting type (with option code /MDL). For more details, please seeFeatures• A 14-segment, active (PV display color changing function) color LCD display is employed.manner. The guide display shows parameter names.• Easy to operateNavigation keys (SET/ENTER and Up/Down/Left/Right arrow keys) are employed to facilitate making settings.• 65 mm depthsmall instrumented panel.• Ladder sequence function is included as standard. This function allows for creating a simple sequence control. Dedicated LL50A Parameter Setting Software (sold separatly) allows for performing programming using a ladder language.-(UT32A support CC-Link and RS485 communicationonly.)• Quick setting functionSetting only the minimum necessary parameters for.• Equipped with a multitude of functionsUniversal I/O and retransmission output are included as standard. PID control, heating/cooling control, etc. • LL50A Parameter Setting Software (sold separately) The parameters and ladder programs of UTAdvanced using this software. It makes data management even easier.• Dust-proof and drip-proof close mounting.)NEMA4 (Hose-down test only)(1) Control Mode Single-loop control (2) Control period 200 msTable of Number of Inputs and Outputs*2: In the case cooling control output is analog output, it *3:Excluding control output relaysUT35A UT32AControl Computation Function(1) Types of control • PID control• ON/OFF control (*4)• Two-position two-level control (*5)• Heating and cooling control (*5)(2) Control Computation Function-eter groupsRespectively, four sets of target setpoints, alarm• Measured input zone PID • Target setpoint zone PID• Reached target setpoint zone PID(c) Auto-tuningheating/cooling control.)(d) “Super” function: Overshoot-suppressing function (e) “Super 2” function: Hunting-suppressing function (f) STOP preset output function(g) Input ERROR preset output function (h) MANUAL preset output functionAlarm FunctionsContact I/O FunctionThis function allows for allocating the input errorcondition, operation condition, alarm condition or otherconditions to the contact input and contact output.Ladder Sequence Functionpoints. (See the model code.)Physical InterfaceEthernet Standard : IEEE802.3 (10BASE-T, 100BASE-TX)Max segment length : 100mRS-485 Standard : EIA RS-485Communication method : Two-wire harf-duplex or four-wire harf-duplex, start-stop synchoronization,and non-proceduralMaximum communication distance : 1200mCorresponding version : DP V0Baud rate : 9.6k, 19.2k, 45.45k, 93.75k, 187.5k, 0.5M, 1.5M, 3M, 6M, 12M, AUTO (*3)Communication distance : 1200m (9.6k to 93.75k) 1000m (187.5k)400m (0.5M) 200m (1.5M)100m (3M to 12M)CC-Link Supported version : Remote device (Ver.1.10, Ver.2.00)When using optical repeater : 7.6 km (156k) to 4.3 km (10M)Control output (heating-side output): 1 point(standard), which is shared with transmissionoutputCooling-side output: 1 point, which isshared with transmission output• Output functionsCurrent output or voltage pulse output• Current output4 to 20 mA DC or 0 to 20 mA DC/load resistance• Current output accuracy±0.1% of span (however, ±5% of span for 1 mAor less)The accuracy is that in the standard operatingconditions: 23 ±2°C, 55 ±10%RH, and powerfrequency at 50/60 Hz• Voltage pulse outputApplication: time proportional outputON voltage: 12 V or more/load resistance of 600OFF voltage: 0.1 V DC or lessTime resolution: 10 ms or 0.1% of output value,whichever is largerwith 15 V DC loop power supplyAdditional 1 points when analog control output arenot used• Output function: current output4 to 20 mA DC or 0 to 20 mA DC/load• Current output accuracy (conversion accuracy from PV display on the set scale): ±0.1% of span (how-ever, ±5% of span for 1 mA or less)conditions: 23 ±2°C, 55 ±10%RH, and powerfrequency at 50/60 HzThis is not conversion accuracy through inputoutput itself.with retransmission output• Supply voltage: 14.5 to 18.0 V DCcircuit current limiting circuit)Within 1 s(Response time at 63% of transmission output when a 90% of input span)Control relay output: one 1c-contact pointControl output of heating and cooling control:2 1a-contact pointsAlarm output: 3 1a-contact points (Common isseparated)• Contact rating1c-contact: 3 A at 250 V AC or 3 A at 30 V DC (resistance load)1a-contact:For alarm output: 1 A at 240 V AC or 1 A at30 V DC (resistance load)For output of heating and cooling controlrelay output: 3 A at240 V AC or 3 A at 30 V DC (resistance load)of 10 mA or more.of 1 mA or more.• Application: time proportional output, alarm output, FAIL output, etc.• Time resolution for control output: 10 ms or 0.1% of output value, whichever is larger• Output form: open collector (sink current)• Output contact capacity: Up to 24 V DC, 50 mA• Output time resolution: min 200 ms• Application: alarm output, FAIL output, etc.• Position signal inputof total resistance100% side and slide line: with disconnectiondetection0% side: without disconnection detection Current input: 4 to 20 mA DC (with disconnectiondetection)• Sampling period: 50 ms• Measurement resolution: 0.1% of input span• Position proportional relay outputUT35A: Two 1a-contact points , 3 A at 250 VAC or 3A at 30 V DC (resistance load) UT32A: Two 1a-contact points , 3 A at 240 VAC or 3A at 30 V DC (resistance load) *:• Function: Measures the heater current using an external current transformer (CT) and generates a than the disconnection detection value.output)• CT input range: 0.0 to 0.1 Arms (0.12 Arms or more• Heater current alarm setting range: OFF, 0.1 to 300.0 ArmsHeater current measured value display range: 0.0 to 360.0 Arms• Recommended CT: CT from URD Co. Ltd.range: 0.1 to 80.0 Armsrange: 0.1 to 180.0 Arms• Heater current measurement period: 200 ms• Heater current measurement accuracy: ±5% of CT input range span ±1 digit (CT error is not included)• Heater current detection resolution: Within 1/250 of CT input range span• Disconnection detection ON time: Minimum 200 ms. (for time proportional output)(for /LP Option)• Application: Power is supplied to the 2-wire transmitter.• Supply voltage: 21.6 to 28.0 V DC• Rated current: 4 to 20 mA DCcircuit current limiting circuit)Safety and EMC Standards• Safety:Compliant with IEC/EN 61010-1 (CE), IEC/EN 61010-61010-1.Installation category: IIPollution degree: 2Measurement category: I (CAT I) (UL, CSA)O (Other) (CE)Rated measurement input voltage: Max. 10 V DCRated transient overvoltage: 1500 V (*)*: This is a reference safety standard value for measure-ment category I of CSA/UL 61010-1, and for measure-ment category O of IEC/EN 61010-2-030. This value isnot necessarily a guarantee of instrument performance.• EMC standards:Compliant withCE markinglocations),EN 61326-2-3*: The instrument continues to operate at a measurement accuracy of within ±20% of the range during testing.EN 55011 Class A, Group 1EN 61000-3-2 Class AEN 61000-3-3EMC Regulatory Arrangement in Australia and New ZealandEN 55011 Class A, Group 1• KC marking: Electromagnetic wave interference prevention standard, electromagnetic wave protection standard compliance• Power supplyRated voltage: 100 to 240 V AC (+10%/-15%), 50/60 Hz24 V AC/DC (+10%/-15%) (When the • Power consumption: UT35A: 18 VA (For the /DCoption. DC: 9 VA, AC: 14 VA)UT32A: 15 VA (For the /DCoption. DC: 7 VA, AC: 11 VA)• Storage: Nonvolatile memory•• Withstanding voltagesecondary terminals (UL, CSA)secondary terminals (CE)terminals(Primary terminals = Power (*) and relay outputterminals, Secondary terminals = Analog I/O signal terminals, contact input terminals, communication terminals, and functional grounding terminals.)*: Power terminals for 24 V AC/DC models are thesecondary terminals.• Insulation resistanceBetween power supply terminals and a grounding The circuits divided by lines are insulated mutually.Control and transmission (analog) output terminal(not isolated between the analog output terminals)Valve position (feedback) input terminalPV (universal) input terminalControl relay (c-contact or 2 a-contact) output terminalAlarm-1 relay (a-contact) output terminalAlarm-2 relay (a-contact) output terminalAlarm-3 relay (a-contact) output terminalPosition proportional relay output terminalInternalcircuitsPowersupplyContact input terminal (All)RS485 communication terminal (2 ports)24 V DC loop power supply terminalEthernet/PROFIBUS-DP/CC-Link/DeviceNetcommunication terminalCurrent transformer input terminalContact output (transistor) terminalEnvironmental ConditionsNormal operating conditionsmounting: -10 to 40 °C)UT35A; 0 to 40 °C for UT32A.UT32A with CC-Link option)1.5 mm or less(at 9 to 150 Hz) 4.9 m/s2 or less, 1 oct/min for 90 min-utes each in the three axis directions2, 15 s or less• Impact: 98 m/s2 or less, 11 msec.• Warm-up time: 30 minutes or more after the power is turned on• Start-up time within 10 sTransportation and Storage Conditions• Temperature: -25 to 70°C• Temperature change rate: 20°C per hour or less• Humidity: 5 to 95%RH (no condensation)Effects of Operating ConditionsFor voltage or TC input:range)/°C, whichever is greaterFor RTD input:For current input:±0.01% of F.S. (instrument range)/°CFor analog output:±0.02% of F.S./°C or lessFor analog input: ±0.05% of F.S. (instrument range) or lessFor analog output: ±0.05% of F.S. or less(Each within rated voltage range)Block DiagramSingle Loop Control(Current when retransmission output)PV inputContact inputsEquipped as standardEquipped as standard.UT35AUnit: mm[(N-1)×96+92]+0.80+.892“N” stands for the number of controllers to beinstalled.• General mounting• Side-by-side close mountingNormal tolerance:±(value of JIS B 0401-1998 tolerance class IT18)/2UT32AUnit: mm[(N-1)×48+45]+0.60+.892• General mounting• Side-by-side close mounting“N” stands for the number of controllers to beinstalled.However, the measured value applies if N5.Normal tolerance:±(value of JIS B 0401-1998 tolerance class IT18)/2Construction, Mounting, and Wiring• Dust-proof and drip-proof: IP66 (Front panel) (Not*: Hose-down test only•• Case color: White (Light gray) or Black (Light Char-coal gray)• Weight: 0.5 kg or less• External dimensions (mm):UT35A: 96 (width) x 96 (height) x 65 (depth from thepanel surface)UT32A: 48 (width) x 96 (height) x 65 (depth from thepanel surface)one each for upper and lower mounting• Panel cutout dimensions (mm):UT35A: 92+0.8/0 (width) x 92+0.8/0 (height)UT32A: 45+0.6/0 (width) x 92+0.8/0 (height)-zontal. No downward titling allowed.• Wiring: M3 screw terminal with square washer (signalwiring and power)Standard accessoriesUser’s ManualURL: /ns/ut/im/。

1⁄16 DIN Autotune Temperature and Process ControllersCN63200 andCN63400 SeriesU P ID Control WithReduced OvershootU C N63200 AcceptsThermocouples and RTDs U Cand 0/4 to 20 mA SignalsU O n-Demand Auto-Tuning of PID SettingsU D C Analog Output(Optional)U U ser ProgrammableFunction ButtonU F ront Panel ProgrammingThe CN63200 controllersaccepts signals from a variety of temperature sensors (thermocouple or RTD), while the CN63400 controllers accepts either a0 to 10 Vdc or 0/4 to 20 mAdc input signal. Both controllers can provide an accurate output control signal (time proportional or DC analog output) to maintain a process at a setpoint value. Dual 4-digit displays allow viewing of the process/ temperature and setpoint simultaneously. Front panel indicators inform the operator of the controller and output status. The comprehensive programming allows these controllers to meet a wide variety of application requirements.Low Voltage Models:DC Power: 18 to 36 Vdc, 4 WAC Power: 24 Vac, ±10%,50/60 Hz, 7 VAControls: 3 rubber push buttons for modification and setup ofcontroller parameters, 1 additional button (F1) for user programmable function, 1 external user input (models with alarms) for parameter lockoutor other user programmable functions Memory: Non-volatile E2PROM retains all programmable parametersIsolation Level: AC power with respect to all other I/O; 250V working (2300V for 1 minute)Sensor Input to Analog Output:50V working (500V for 1 minute)Relay Contacts to All Other I/O: 300V working (2300V for 1 minute)DC Power with Respect to Sensor Input and Analog Output: 50V working (500V for 1 minute)Environmental Conditions: Operating Temperature Range:0 to 50°C (32 to 122°F)Storage Temperature Range:-40 to 80°C (-40 to 176°F)SpecificationsDisplay: 2-line by 4-digit, LCD negative image transmissive with backlighting Top (Process) Display: 7.6 mm H (0.3") digits with red backlighting Bottom (Parameter) Display: 5.1 mm H (0.2") digits with green backlightingOperating and Storage Humidity: 85% max relative humidity (non- condensing) from 0 to 50°C (32 to 122°F) Altitude: Up to 2000 meters Connection: Wire-clamping screw terminalsConstruction: Black plastic alloy case and collar style panel latch; panellatch can be installed for vertical or horizontal instrument stacking; black plastic textured bezel with transparent display window; controller meets NEMA 4X (IP65) requirements for indoor use when properly installed; Installation Category II, Pollution Degree 2 Weight: 179 g (6.3 oz)OMEGACARE SM extended warranty program is available for models shown on this page. Ask your sales representative for full details when placing an order. OMEGACARE SM covers parts, labor and equivalent loaners.(32 to 122°F) ambient range after 20 minute warm-up.warm up; includes NIST conformity, cold junction effect, A/D conversion errors and linearization conformity Span Drift (Maximum): 130 PPM/°C User Input (Only Controllers with Alarms Have a User Input Terminal): Internally pulled up to 7 Vdc (100 K Ω) V IN Max: 35V V IL : 0.6V max V IH : 1.5V minI OFF : 40 µA max Response Time: 120 ms max Functions: Programmable Output Specifications Control and Alarm Outputs: Relay Output: Type: Form “A” Contact Rating: 3 A @ 250 Vac or 30 Vdc;1/10 HP @ 120 Vac (inductive load) Life Expectancy: 100,000 cycles at max load rating (decreasing load and/or increasing cycle time, increases life expectancy) Logic/SSR Output (Main Control Output Only): Rating: 45 mA max @ 4V min, 7V nominalMain Control: Control: PID or on/off Output: Time proportioning or DC analog Cycle Time: Programmable Auto-Tune: When selected, sets proportional band, integral time, derivative time, and output dampening time; also sets input filter and (if applicable) cooling gain Probe Break Action: Programmable Alarms (Optional): 2 relay alarm outputs Reset Action: Programmable; automatic or latchedStandby Mode: Programmable; enable or disableHysteresis: Programmable Sensor Fail Response: Upscale Input Specifications Sensor Input:Sample Period: 100 ms (10 Hz rate)Step Response Time: 300 ms typical, 400 msec max to within 99% of final value with step input Failed Sensor Response: Main Control Output(s): Programmable preset output Display: “OPEN” Alarms: Upscale drive Thermocouple Inputs (CN63200 Only)Types:T, E, J, K, R, S, B, N, C, and linear mV Input Impedance: 20 M Ω for all types Lead Resistance Effect: 0.25 µV/ΩCold Junction Compensation: <±1°C typical (1.5°C max) error over Annunciator:“A1” and “A2” programmable for normal or reverse acting Cooling:Software selectable (overrides alarm 2)Control: PID or on/offOutput:Time proportioning Cycle Time: ProgrammableProportional Gain Adjust: Programmable Heat/Cool Deadband Overlap: Programmable Analog DC Output (Optional): Action:Control or retransmission Update Rate: 0.1 to 250 s(32 to 122°F) ambient range after 20 minute warm-up.**Outputs are independently jumper selectable for either 10V or20 mA. The output range may be field calibrated to yield approximately 5% overrange and a small underrange (negative) signal.*Analog out may be used for retransmitted signals. When using analog output for retransmitted signals,AL1 becomes main control O1, if selected for heating in the analog out models.Ordering Examples: CN63400-DC1-AL, 18 to 36 Vdc power, process inputs, single DC pulse output with 2 alarms.CN63200-R1-AL, 85 to 250 Vac power, temperature inputs, single relay output with 2 alarms.。