Additel 226 User Manual
  1. Manuals
  2. Brands
  3. Additel Manuals
  4. Test Equipment
  5. 226
  6. User manual

Additel 226 User Manual

Multifunction process calibrator
Hide thumbs Also See for 226:
Table of Contents

Advertisement

Quick Links

226/227
Multifunction Process Calibrator

Advertisement

Table of Contents
loading
Need help?

Need help?

Do you have a question about the 226 and is the answer not in the manual?

Questions and answers

Related Manuals for Additel 226

Summary of Contents for Additel 226

  • Page 1 226/227 Multifunction Process Calibrator...
  • Page 2 ADT226/227 Multifunction Process Calibrator -------User Manual [Version:2111V01] Additel Corporation...
  • Page 3 This user manual provides operating and safety instructions for the ADT226/227 Multifunction process calibrator. To ensure correct operation and safety, please follow the instructions in this manual. Additel Corporation reserves the right to change the contents and other information contained in this manual without notice.

  • Page 5: Table Of Contents

    CONTENT 1. Introduction ................................... 2 1.1 General Introduction ..............................2 1.2 Models and function ..............................3 1.3 Technical Specifications ............................. 6 1.3.1 General specifications ............................6 1.3.2 Electrical Measurement Specifications ........................ 7 1.3.3 Electrical Output Specifications ......................... 10 1.3.4 RTD Measurement and Source Specifications ....................11 1.3.5 Thermocouple Measurement and Source specifications ...................
  • Page 6 3.1.4 Pulse measurement ............................26 3.1.5 Frequency measurement ........................... 26 3.1.6 AC voltage measurement ..........................26 3.1.7 Scaling ................................27 3.1.8 Filter .................................. 27 3.1.9 Zeroing ................................28 3.1.10 Statistics ................................28 3.2 Pressure measurement ............................28 3.2.1 Pressure measurement settings ........................29 3.2.2 Filter ..................................
  • Page 7 3.4.2 HART Setting ..............................34 3.4.3 Process variables .............................. 36 3.4.4 Diagnosis/ Service ............................. 36 3.5 Output ..................................39 3.5.1 Voltage output..............................39 3.5.2 Current output..............................40 3.5.3 Frequency output ............................... 40 3.5.4 Pulse output ..............................41 3.5.5 Simulate Thermocouple (TC) output ........................41 3.5.6 Simulate RTD output ............................
  • Page 8 4.2.5 Auto power off after sleep ..........................49 4.3 Services ................................... 49 4.3.1 System calibration ....................Error! Bookmark not defined. 4.3.2 Maintenance ..............................50 4.3.3 4.3.3 Restore to factory data ..........................50 4.4 Personalization ................................ 50 4.4.1 Sound ................................50 4.4.2 Language ................................
  • Page 9 6.2.5 Temperature switch with sensor ........................72 6.3 Calibrate flow devices .............................. 75 6.3.1 Delta- pressure flowmeter ..........................75 6.3.2 Instantaneous flowmeter ........................... 76 6.3.3 Flow volume totalizers ............................78 6.3.4 Tachometer/ vortex meters ..........................79 6.4 Calibrate loop devices .............................. 81 6.4.1 Loop indicators ..............................
  • Page 10 7.7.4 Save the data ..............................95 7.8 Differential pressure ..............................95 8. Communicator ................................96 8.1 HART connection and search ..........................97 8.2 HART communicator operation ..........................97...
  • Page 11 ◆ Before using the product, please check the product for any damage ◆ If the product is damaged or malfunctions, do not use it, and contact Additel ◆ Never use the non-Ex version in an explosive, steam, or dust environment ◆...

  • Page 12: Introduction

    1. Introduction 1.1 General Introduction The ADT226/227 series calibrators are a new generation multifunction process calibrator provided by Additel. With the documenting test task built-in, it can significantly improve the efficiency of the testing and calibrating in field and laboratory applications. It combines a plentiful amount of functions in a single device, such as gauge measurement,...

  • Page 13: Models And Function

    HART communicator and thermal calculator. Users can perform field calibration, troubleshooting and maintenance by carrying only the ADT227, so that greatly improved the efficiency of field engineers and technicians. Contact us: Additel Corporation Tel: +1-714-998-6899 www.additel.com 1.2 Models and function...
  • Page 14 mV DC ±300 mV ±300 mV ±300 mV Voltage V DC ±30 V ±30 V ±30 V High Voltage V DC/AC ±300V DC/AC ±300V DC/AC ±300V DC/AC Current (mA DC) ±30 mA ±30 mA ±30 mA Resistance 0 - 4000 Ω 0 - 4000 Ω...
  • Page 15 Hold • • • Task • • On-demand Logging 10,000 readings 10,000 readings Features Intrinsically Safe (Ex) Color Touchscreen Display • • • Port Protection 50V Max 50V Max 50V Max Loop power 24 V 24 V 24 V Ramp/step •...

  • Page 16: Technical Specifications

    1.3 Technical Specifications 1.3.1 General specifications Table 2 General specifications Specifications ADT226 ADT227 Operating Temperature -10°C to 50°C Specification guaranteed 10°C to 30°C temperature Storage Temperature -20°C to 70°C Humidity <95%, non-condensing 6600mAh, 23.8Wh lithium battery, Power supply charging time 4~6 hours, battery pack can be charged independently User interface Icon drive menus...

  • Page 17: Electrical Measurement Specifications

    Battery Life Typically, 16 hours 110V/220V external power adapter included. Battery can be charged external to the unit. Battery Charge Typically charge time is 6-8 hours. External pressure module Dual channel aerial plug, can connect two digital pressure modules Warm-up time Full specification performance is achieved after a 10-minute warm-up time.
  • Page 18 -30 to 30 V 0.1 mV 0.015% RDG + 0.005% FS 0.005% RDG + 0.005% FS Temperature Coefficient: ±5 ppm FS/°C (-10°C to 10°C and 30°C to 50°C) Impedance: -300 mV to 300 mV = > 100 MΩ -30 V to 30 V = >1 MΩ -300 to 300 V 10 mV 0.05% RDG + 0.01% FS...
  • Page 19 -10 to 75 mV 0.1 µV 0.015% RDG + 0.005% FS 0.008% RDG + 0.004% FS Voltage mV (TC) Temperature Coefficient: ±5ppm FS/°C (-10°C to 10°C and 30°C to 50°C) Impedance: >100 MΩ 0.01 to 50000 Hz Auto range, 6-digit 0.005% RDG + 5 on last digit 0.002% RDG + 2 on last digit Frequency...

  • Page 20: Electrical Output Specifications

    (6) DC high voltage measurement: input impedance >4MΩ, DC Coupling maximum input voltage: 300V,IEC61010 300V CATII CMRR: >100 dB (50 or 60 Hz) Note 3: The excitation power supply for RTD measure is 0.2mA, and each position has 4-wire, 3-wire, and 2-wire methods. The accuracy is as follows: (1) The accuracy data given in the table is based on the 4-wire method;...

  • Page 21: Rtd Measurement And Source Specifications

    0 to 9999999 Pulse Optional rising edge and falling edge, minimum threshold voltage: 2.5V Loop power (max 24V (226/227) ±1 V ±1 V 25mA) Note 1: When the environmental temperature is (-10~+10) ℃ and (30~50) ℃, the temperature coefficient is: (1) Measure of voltage, current, TC and RTD: ±5ppmFS/℃.
  • Page 22 200~600 0.77 0.67 600~850 0.88 0.75 -200~200 0.29 0.24 PT25(385) -200~850 200~600 0.40 0.30 600~850 0.47 0.34 -200~200 0.18 0.13 PT50(385) -200~850 200~600 0.27 0.17 600~850 0.34 0.20 PT100(385) -200~200 0.13 0.08 PT100(391) -200~850 200~600 0.21 0.11 PT100(3916) 600~850 0.27 0.14 PT100(3926) -200~200...

  • Page 23: Thermocouple Measurement And Source Specifications

    600~850 0.34 0.27 -200~200 0.13 0.10 PT1000(385) -200~850 200~600 0.21 0.16 600~850 0.27 0.20 Cu10(427) -200~260 -200~260 0.59 0.54 Cu50(428) -200~260 -200~260 0.15 0.11 Cu100(428) -200~260 -200~260 0.10 0.07 Ni100(617) -60~0 0.06 0.05 -60~180 Ni100(618) 0~180 0.06 0.05 Ni120 (672) -80~260 -80~260 0.06...
  • Page 24 -50~0 1.02 0.82 -50~1768 0~200 0.71 0.57 200~1768 0.56 0.38 200~300 1.89 1.51 300~500 1.25 1.00 0~1820 500~800 0.78 0.62 800~1820 0.55 0.43 -250~-200 0.97 0.72 -200~-100 0.30 0.23 -270~1372 -100~600 0.18 0.12 600~1372 0.35 0.22 -250~-200 1.50 1.14 -270~1300 -200~-100 0.44 0.33...
  • Page 25 -250~-100 0.74 0.55 -270~400 -100~0 0.15 0.12 0~400 0.11 0.08 0~1000 0.35 0.24 0~2315 1000~1800 0.62 0.40 1800~2315 1.02 0.65 0~100 0.39 0.31 100~1200 0.37 0.25 0~2315 1200~2000 0.65 0.42 2000~2315 1.03 0.65 50~100 1.12 0.90 100~200 0.72 0.57 0~2315 200~400 0.45 0.35...
  • Page 26 0~800 0.16 0.10 0~1200 0.45 0.31 0~2500 1200~2000 0.78 0.51 2000~2500 1.14 0.74 Note: It complies with the international temperature scale ITS90, depends on the maximum tolerance of the TC mV measurement and simulation signal output.

  • Page 27: Basic Structure

    1.4 Basic Structure Figure 1 Basic Structure...

  • Page 28: Power Supply Description

    Table 6 Basic Structure Part Name Function Display+ capacitive touch screen Display area, touchable Power key For switch on/off Lemo type connection B Connect to external pressure module. Lemo type connection A Connect to external pressure module. Adaptor port Power supply from adaptor. USB slave port For USB communication.
  • Page 29 ⚫ The adapter can quickly adapt to power plugs in various countries ⚫ Do not expose the battery to fire or short circuit the battery ⚫ Only use Additel power adaptors and batteries Figure 2 Power adaptor...

  • Page 30: Display And Functions

    2. Display and functions After switching on the device, it will go directly to the Calibrator Function, users can also return to the main page (see Paragraph 3). The main interface provides access of the functions. Figure 3 Main interface 2.1 Main interface In the main interface, there are three sections from top to bottom: status bar, APPs list and main function guide.

  • Page 31: Control Center

    2. APP’s list: shows all the applications provided in the device, including pressure unit converter, leak test, thermal calculator, communicator, PSV test, sensor library, task, data logger, simulate transmitter, etc. 3. Main function guide: the main function guide at the bottom of the interface provides access to three main functions of the device: calibrator, data management, system settings.

  • Page 32: Calibrator

    : Battery level, shows battery remaining, plug the adaptor and change the charge mode : Barometric pressure, click to change its unit : Internal temperature of the device, click to change its unit : Message center, there will be a red dot when abnormal, click to enter the message center and show the abnormal message : Bluetooth, click to switch on/ off the Bluetooth : 24V power supply, click to switch on/ off the 24V power supply...
  • Page 33 As shown in the Figure 5 of the interface, the ADT227 calibrator can be used to calibrate pressure, loop, temperature, and flow equipment. The two channels can be displayed simultaneously. Channel 1 (at the top of the screen) is used for electrical signal measurement, HART, temperature signal measurement and external pressure module measurement.

  • Page 34: Electrical Measurement

    Figure 5 Calibrator interface 3.1 Electrical Measurement 3.1.1 DC voltage measurement Please connect the leads as shown in the figure (Figure 6 Voltage measurement). Then switch the measurement signal of channel 1 to voltage measurement.

  • Page 35: Current Measurement

    In order to ensure the measurement accuracy and adapt to more usage scenarios, two different ranges can be selected for voltage measurement in channel: (-30~30) V and (-300~300) mV, users should select the appropriate measurement item according to the use situation. Figure 6 Voltage/ pulse/ frequency/ switch Measurement 3.1.2 Current measurement Please connect the leads as shown in the figure (Figure 7 Current measurement).

  • Page 36: Switch Measurement

    3.1.3 Switch measurement The wiring method of the switch measurement function is the same as the voltage measurement, please connect as shown in the figure 6. Then switch the measurement signal of channel 1 to switch measurement. The switch measurement also works on channel 2, the calibrator can display the measured value of channel 2 when the switch action occurs.

  • Page 37: Scaling

    3.1.7 Scaling The scaling function gives the calibrator the ability to convert electrical measurement signals into other signals. Click the menu button of the measurement channel, select the scaling menu item in the pop-up menu, and the parameter configurations related to scaling will be displayed (see Table 9). Table 9 Scaling configurations Subject Valid Value...

  • Page 38: Zeroing

    Subject Valid Value Description Enable/disable Enable/disable Enable or disable the filter function first-order linear filter or Method Filtering algorithm moving average filter Filter coefficient 0.01 ~ 1 Only available when the first-order linear filter is selected Number of samples 1~100 Only available when the moving average filter is selected De-extremum pairs 0~10...

  • Page 39: Pressure Measurement Settings

    3.2.1 Pressure measurement settings Click the menu button in the pressure measurement channel and click the "Settings" menu in the pop-up menu to set the pressure type, resolution, stability, tare, and other functions of the current pressure measurement channel, see Table 11.

  • Page 40: Filter

    3.2.2 Filter See paragraph 3.1.8. 3.2.3 Module information The pressure measurement provides a view of the information for the external pressure module, click icon the pressure measurement channel, and select module information in the pop-up menu to view the information. 3.2.4 Zeroing In the gauge pressure mode, when the device is vented, it can be zeroed if there is deviation in the zero point, so as to eliminate the zero drift.

  • Page 41: Thermocouple Settings

    3.3.2 Thermocouple settings Click the "Setup" button of the thermocouple measurement channel to set various parameters for the thermocouple measurement function, see Table 12. Table 12 TC settings Subject Valid Value Description Sensor type mV/ All supported TC types Select the type of thermocouple sensor Select the cold junction compensation method, Int means to use the built-in cold junction sensor of the calibrator.

  • Page 42: Rtd Measurement

    3.3.3 RTD measurement The connection configuration for an RTD measurement is shown in the Figure 9, RTD measurement. Once connected, click the channel setup icon and select the RTD measurement. measurement Figure 9 RTD 3.3.4 RTD settings Click the "Setup" button of the RTD measurement channel to set various parameters for the RTD measurement function.

  • Page 43: Zeroing

    Resolution 0/0.1/0.01/0.001 Temperature display resolution 3.3.5 Zeroing See paragraph 3.1.8. 3.3.6 Statistics See paragraph 3.1.10. 3.4 HART calibration The device provides HART bus communication, using the simplified DD file, provide general settings, service and calibration for HART temperature and pressure transmitters. It is recommended to read the transmitter’s manual before use.

  • Page 44: Search And Connection

    Figure 10 Internal source + internal resistor Figure 11 External source + external resistor Figure 12 External source + external resistor (supports loop current measurement) 3.4.1 Search and connection Switch to HART on the Calibrator page, the calibrator will automatically use the last selected power supply configuration (default is the internal resistance and internal source), and search for the address "0".
  • Page 45 Final Assembly Number Support integer, the length cannot be greater than 8 characters Preambles Integer 5~20 Manufacturer Read only Device type Read only Device ID Read only Write-protect Read only Universal Version Read only Software Version Read only Hardware Version Read only Device Version Read only...

  • Page 46: Process Variables

    Poll Address Default 0, integer 0-15 Burst Mode Enable or disable, depends on the transmitter Burst Command Set burst command Alarm State Read only Note: The temperature transmitter can provide additional setting items such as sensor type, wires, sensor status, CJC type and value according to the function supported by the transmitter.
  • Page 47 Current Adjustment ♦ By adjusting the scaling coefficient of current output of the transmitter, the output current value of the transmitter will maintain the same as the actual loop current output value. ♦ It provides adjustment of D/A zero point (4mA) and D/A full scale (20mA): press the screen to get the value for adjustment.
  • Page 48 Note: For some transmitters, it is not necessary to input the adjustment value, the transmitter automatically uses the upper and lower limits of the range (the lower limit of the range corresponds to the lower point adjustment value, and the upper limit of the range corresponds to the upper point adjustment value) as the adjustment value.

  • Page 49: Output

    3.5 Output The calibrator provides a variety of electrical signal output and analog temperature output functions to cope with various usage scenarios and different devices under test. The output function of the calibrator not only supports manual setting of set points for signal output, but also provides two automatic output functions: automatic ramp output and automatic step output, and two convenient manual output functions: manual step output and manual fine-tuning output.

  • Page 50: Current Output

    3.5.2 Current output The connection configuration for an output of voltage is shown in the Figure 14. Once connected, click the channel Figure 14 Current output setup icon and select the (0~25)mA . 3.5.3 Frequency output The connection configuration for a frequency output is shown in the Figure 13 Voltage, frequency, pulse output. Once connected, click the channel setup icon and select the (0.01~50k)Hz.

  • Page 51: Pulse Output

    3.5.4 Pulse output The wiring method of using the pulse output function is the same as the voltage output (Figure 13 voltage/frequency/pulse output). After connecting as shown in the figure 14, click the channel menu of channel 2 to collapse it and select (1~9999999). The pulse output option provides a setting menu, and the amplitude and frequency of the pulse output can be set in the setting menu.

  • Page 52: Simulate Rtd Output

    Table 15 TC Output Setting Subject Valid Value Description Sensor Type mV/ TC sensor Select sensor type Select cold junction(CJC) type, Int means internal CJC, Ext Cold junction type Int/Ext/Custom means external CJC, custom means an external sensor providing a measurement. CJC value -80~300 Available when the cold junction type is Ext...
  • Page 53 Figure 16 Simulate RTD Output Table 16 RTD Output Settings Subject Valid Value Description Sensor Type Ω/RTD sensor Select RTD sensor Scale 400Ω/4000Ω/ Auto Available for sensor type Ω Temp. Unit K / ℉/ ℃ Select the temperature unit Resolution 0/0.1/0.01/0.001 Decimal accuracy of temperature display...

  • Page 54: Set Point Output

    3.5.7 Set point output Click the signal output value in channel 2 of the calibrator and input the set point value you want to output in the pop- up set point input keyboard and click the confirm button to set the output value of the current option. 3.5.8 Ramp output The three electrical settings of voltage, current, and frequency of the calibrator, and the two simulate temperature output options of, simulate thermocouple and simulate thermal resistance, all support automatic ramp output mode.

  • Page 55: Automatic Step Output

    Fall time (1~999999) Down stroke run time High point dwell (0~999999) High point dwell time Low point dwell (0~999999) low point dwell time Ramp cycle index (a complete up and down stroke is a Cycle index (0~100) cycle), if this item is set to 0, it means an infinite cycle. 3.5.9 Automatic step output The three electrical channel settings for voltage, current, and frequency of the calibrator, and the two simulate output options all support automatic step output mode.

  • Page 56: Manual Step Output

    Step point/ percentage/ engineering Step mode Select step mode unit/ custom Number of step points (2~16) Number of step points, available for Step point mode Percentage: 7~100 Step size Step size, available for percentage/ engineering unit Engineering unit: dynamic range Add or delete set points, available for custom step Step point list Step point...

  • Page 57: Fine Adjustment Output

    The step length setting menu button of manual step is at the bottom right of channel 2, click this button to select the step length of 25%, 100%, or manually input a custom step length by the user. Click the button at the top right of channel 2 to exit manual step mode.

  • Page 58: System Settings

    4. System settings On the main screen of the device, click the icon in the right bottom to enter the system setting interface. It includes Bluetooth, power management, system calibration, services, personalization, and product information. 4.1 Bluetooth communication The calibrator includes Bluetooth communication. Click the "Bluetooth Communication" menu item in the system settings interface to enter the Bluetooth communication setting interface.

  • Page 59: Auto Sleep After Backlight Off

    4.2.4 Auto sleep after backlighting goes off ◆ The backlight turns off after the set time has exceeded with no keypad and communication activity. At this time, the automatic timing to sleep mode starts, then the calibrator will go to sleep. ◆...

  • Page 60: Maintenance

    1. Select the signal to be calibrated in the signals list. 2. Use a high-precision reference, after fully warming up, follow the calibration guide in the interface and click the "Start" button to start the calibration. 3. According to the reference calibration point provided on the interface, select the appropriate standard value, and enter 4.

  • Page 61: Language

    Table 19 Sound settings Subject Valid Value Comment Touch sound On / Off Touch sound setting Prompt sound On / Off Prompt sound setting Over range sound On / Off Over range sound setting Snapshot sound On / Off Snapshot sound setting Stable sound On / Off Stable sound...

  • Page 62: Product Information

    Date format Y-M-D / M-D-Y / D-M-Y Date format setting Separator -,/,. Date separator setting Time zone UTC±00:00~12:00 Set device time zone 24 hours enable 24-hour or 12-hour format 4.5 Product information Product information is read-only information, includes basic information and the module information. ◆...

  • Page 63: Task

    6. Task The calibrator provides a powerful task function, which can realize fully automatic calibration. At the same time, the calibration data can be automatically collected, stored, and analyzed, and it can be easily executed and viewed. Click the task icon on the main interface of the device to enter the task interface.
  • Page 64 2. Create the task Create the corresponding DUT tasks as described above and input the necessary information. Table 21 Pressure gauge task setting Subject Valid value Description Name Numbers, letters, symbols Task name Numbers, letters, symbols Task S/N Model Numbers, letters, symbols Model of DUT Pressure type GP/AP/DP...
  • Page 65 Owner Numbers, letters, symbols Owner of DUT Location Numbers, letters, symbols Location of DUT Note Numbers, letters, symbols Additional information 3. Task setting After starting the task, go to the task information interface and set the required information for the task to run. If multiple pressure modules are connected, you will also need to select which module to use to perform the task.
  • Page 66 4. Start the task ◆ Click Start to start the task. ◆ Click button to switch between lines mode and table mode. ◆ Calibration process: (1) After the pressure is stable at the set point, read and enter the displayed value of the DUT on the task interface.

  • Page 67: Pressure Transmitter

    Save as As found/ As left/ Both Result type 6.1.2 Pressure transmitter 1. Connect to DUT ◆ Connect the external pressure module to the Lemo type connection A or B. ◆ Connect the DUT output with calibrators electrical module according to DUT output signal type. (current: figure 7/voltage: figure 6/HART: figure 10 or 11) 2.
  • Page 68 Analog signal: 4~20mA,0~10mA,0~20mA,1~5V,0~5V,0~10V,custom Output Output range of DUT HART device:host variable, percentage, output current, loop current Accuracy of DUT. If custom is selected, the input 0.05%,0.1%,0.2%,0.5%, Accuracy number establishes the accuracy level of this 1%,1.5%,2%,2.5%,custom pressure transmitter. Transfer function Linear / square / square root Transfer function of the DUT signal Owner Numbers, letters, symbols...

  • Page 69: Pressure Switch

    Refer to Finish the task in paragraph 6.1.1.5. 6.1.3 Pressure switch 1. Connect to DUT Connect the external pressure module to the Lemo type connection A or B. Connect the DUT output with calibrator’s electrical module. (Figure 6) 2. Create the task Create the corresponding DUT tasks as described above, and input the necessary information Table 25 Pressure switch task setting Subject...

  • Page 70: I/P Converter

    Dead band Numbers Dead band range of the DUT Owner Numbers, letters, symbols Owner of DUT Location Numbers, letters, symbols Location of DUT Note Numbers, letters, symbols Additional information 3. Task setting Refer to the task setting in paragraph 6.1.1.3. 4.
  • Page 71 Figure 17 I/P converter 2. Create the task Create the corresponding DUT tasks as described above and input the necessary information. Table 26 I/P Converter task setting Subject Valid value Description Name Numbers, letters, symbols Task name Numbers, letters, symbols Task S/N...
  • Page 72 Model Numbers, letters, symbols Model of DUT Pressure type GP/AP/DP Pressure type of DUT Input 4~20mA,4~12mA,12~20mA,custom Input range of DUT Output Numbers Output range of DUT 0.025%,0.05%,0.1%,0.16%,0.25%, Accuracy of DUT. If choose custom, the input number means the Accuracy 0.4%,1%,1.6%,2.5%,4%, custom accuracy level of this I/P converter.

  • Page 73: Calibrate Temperature Devices

    Refer to Finish the task in paragraph 6.1.1.5. 6.2 Calibrate temperature devices 6.2.1 Temperature indicator 1. Connect to DUT Connect the DUT input to the TC output (Figure 15) or RTD (Figure 16) output of the calibrator. 2. Create the task Create the corresponding DUT tasks as described above and input the necessary information.

  • Page 74: Temperature Transmitter

    3. Task setting Refer to the task setting in paragraph 6.1.1.3. 4. Start the task ◆ For part of the content, refer to Start the task in paragraph 6.1.1.4. ◆ During the task performing, the calibrator simulates and outputs a temperature signal to the DUT, users need to manually input the value.
  • Page 75 Figure 18 Temperature transmitter 2. Create the task Create the corresponding DUT tasks as described above and input the necessary information. See Table 28. Table 28 Temperature transmitter task setting Subject Valid value Description Name Numbers, letters, symbols Task name Numbers, letters, symbols Task S/N...
  • Page 76 Model Numbers, letters, symbols Model of DUT Input Numbers Input range of DUT Sensor TCs or RTDs optional Sensor type of the DUT Analog signal: 4~20mA,0~10mA,0~20mA,1~5V,0~5V,0~10V,custom Output Output range of DUT HART devices:Process variables, percentage, Output current, loop current 0.06%,0.1%,0.16%,0.25%,0.4%, Accuracy of DUT, the input is Accuracy 0.6%,1%,1.6%,2.5%,4%, custom...

  • Page 77: Temperature Transmitter With Sensor

    5. Finish the task Refer to Finish the task in paragraph 6.1.1.5. 6.2.3 Temperature transmitter with sensor This type of task is for calibrating temperature transmitters with a sensor. During calibration, it requires that you put the DUT into a temperature source (such as ADT875/878 dry well or thermostatic bath). At the same time, use a reference sensor to connect to the TC/RTD measurement ports on the calibrator, as shown in Figure 19.
  • Page 78 Connect to Figure 19 Temperature transmitter with sensor...

  • Page 79: Temperature Switch

    ◆ According to the Figure 8 or 9 and the type of reference sensor, to measure the TC or RTD. Then according to Figure 6 or 7 to measure the voltage or circuit based on the transmitter’s output type. 1. Connect the DUT as shown in figure 19. 2.
  • Page 80 Figure 20 Temperature switch 2. Create the task Create the corresponding DUT tasks as described above and input the necessary information. See Table 29. Table 29 Temperature switch task setting...
  • Page 81 Subject Valid value Description Name Numbers, letters, symbols Task name Numbers, letters, symbols Task S/N Model Numbers, letters, symbols Model of DUT Range Numbers Input range of DUT Sensor TCs or RTDs optional DUT sensor type 0.06%,0.1%,0.16%,0.25%,0.4%, Accuracy Accuracy of DUT, the input is customizable 0.6%,1%,1.6%,2.5%,4%,custom Set point Numbers...

  • Page 82: Temperature Switch With Sensor

    5. Finish the task Refer to Finish the task in paragraph 6.1.1.5. 6.2.5 Temperature switch with sensor This type of task is for calibrating temperature switch with sensor. During calibration, it requires to put the DUT into a temperature source (such as ADT875/878 dry well or thermostatic bath, as shown in Figure 21.
  • Page 83 Figure 21 Temperature switch with sensor...
  • Page 84 1. Connect to DUT ◆ According to the Figure 8 or 9 and the type of reference sensor, to measure the TC or RTD. Then according to Figure 6 to measure the switch signal. 2. Create the task Refer to paragraph 6.2.4. 3.

  • Page 85: Calibrate Flow Devices

    6.3 Calibrate flow devices 6.3.1 Delta- pressure flowmeter 1. Connect DUT ◆ Connect the external pressure module to the module Lemo type connection A or B. ◆ Connect DUT output with the electrical module of the calibrator according to the signal type of DUT output (current/ voltage), as shown in the Figure 6 or 7.

  • Page 86: Instantaneous Flowmeter

    Owner Numbers, letters, symbols Owner of DUT Location Numbers, letters, symbols Location of DUT Note Numbers, letters, symbols Additional information 3. Task setting Refer to the task setting in paragraph 6.1.1.3. 4. Start the task ◆ For part of the content, refer to Start the task in paragraph 6.1.1.4. ◆...
  • Page 87 Table 31 Instantaneous flowmeter task setting Subject Valid value Description Name Numbers, letters, symbols Task name Numbers, letters, symbols Task S/N Model Numbers, letters, symbols Model of DUT Input range of DUT, switch the unit to change the input signal Input Numbers type (current/ voltage/ frequency)

  • Page 88: Flow Volume Totalizers

    ◆ The calibrator will automatically switch the output electrical signals to the DUT according to the type of DUT input set by the user, then the user will need to manually input the value of each set point. 5. Finish the task Refer to Finish the task in paragraph 6.1.1.5.

  • Page 89: Tachometer/ Vortex Meters

    K coefficient of DUT (The flow rate represented by each signal K-Param Numbers pulse) Tolerance Numbers Tolerance of DUT Owner Numbers, letters, symbols Owner of DUT Location Numbers, letters, symbols Location of DUT Note Numbers, letters, symbols Additional information 3. Task setting Refer to the task setting in paragraph 6.1.1.1.
  • Page 90 2. Create the task Create the corresponding DUT tasks as described above and input the necessary information. See Table 33. Table 33 Tachometer task setting Subject Valid value Description Name Numbers, letters, symbols Task name Numbers, letters, symbols Task S/N Model Numbers, letters, symbols Model of DUT...

  • Page 91: Calibrate Loop Devices

    4. Start the task ◆ For part of the content, refer to Start the task in paragraph 6.1.1.4. ◆ The calibrator will automatically record the measured signal value, the current display of DUT needs to be entered manually. 5. Finish the task Refer to Finish the task in paragraph 6.1.1.5.
  • Page 92 Name Numbers, letters, symbols Task name Numbers, letters, symbols Task S/N Model Numbers, letters, symbols Model of DUT Range (4~20)mA,(0~10)mA,(0~20)mA,(1~5)V,(0~5)V,(0~10)V, custom Input range of DUT Accuracy 0.025%,0.05%,0.1%,0.16%,0.25%,0.4%,1%,1.6%,2.5%,4%,custom Accuracy of DUT Owner Numbers, letters, symbols Owner of DUT Location Numbers, letters, symbols Location of DUT Note Numbers, letters, symbols...

  • Page 93: Loop Signal Source

    6.4.2 Loop signal source 1. Connect to DUT ◆ Connect the DUT with the measurement module of the calibrator, as shown in the figure 7 (for current measurement) or 6 (for voltage measurement). 2. Create the task Create the corresponding DUT tasks as described above and input the necessary information. See Table 35. Table 35 Loop signal source task setting Subject Valid value...

  • Page 94: Signal Isolator/ Converters

    3. Task setting Refer to the task setting in paragraph 6.1.1. 4. Start the task ◆ For part of the content, refer to Start the task in paragraph 6.1.1.4. ◆ During the task performing, the calibrator will output electrical signals according to the set point and measure the DUT output signal, no manual input required during the process.
  • Page 95 Subject Valid value Description Name Numbers, letters, symbols Task name Numbers, letters, symbols Task S/N Model Numbers, letters, symbols Model of DUT Input (4~20)mA,(0~10)mA,(0~20)mA,(1~5)V,(0~5)V,(0~10)V, custom Input range of DUT Output (4~20)mA,(0~10)mA,(0~20)mA,(1~5)V,(0~5)V,(0~10)V, custom Output range of DUT Accuracy 0.05%,0.1%,0.2%,0.5%,1%,1.5%,2%,2.5%,custom Accuracy of DUT Transfer Linear / square / square root Transfer function of the DUT...

  • Page 96: Limit Switches

    calibrator will give the task result according to the measured value and entered reading as well as the accuracy analysis set by users. 5. Finish the task Refer to Finish the task in paragraph 6.1.1.5. 6.4.4 Limit Switches 1. Connect to DUT ◆...

  • Page 97: Applications

    Set action type Open/ closed Action type of DUT Switch difference range of the DUT(dead Dead band Numbers band) Owner Numbers, letters, symbols Owner of DUT Location Numbers, letters, symbols Location of DUT Note Numbers, letters, symbols Additional information 3. Task setting Refer to the task setting in paragraph 6.1.1.3.

  • Page 98: Leak Test

    7.2 Leak Test In the Leak test function, connect the pressure gauge and the calibrator in a gas circuit, then perform leak test to check for the leakage. Click the blank area in the leak test page to enter the settings, see Table 38. Table 38 Leak test setting Subject Valid value...

  • Page 99: Psv Test

    e. Record the pressure at the end of the test time as the end pressure; f. The entire leak detection process ends, and the final leakage = initial pressure - end pressure; 2. The entire process will be displayed in stages in the leak curve at the bottom of the screen. 7.3 PSV test The PSV test is used for evaluating the opening pressure of the safety valve.

  • Page 100: Thermal Calculator

    b. Press the Start icon on the right of the screen to start performing, apply the pressure gradually to the safety valve; c. Count down the test time and record the real-time pressure value and create the pressure curve, then record the maximum pressure during the process;...

  • Page 101: Data Logger

    Subject Valid value Description Pressure transmitter/TC-temperature Type of transmitter transmitter/RTD- temperature Select transmitter type transmitter / signal convertor Initial range Value(the unit depends on the transmitter type) Transmitter input range Resolution 4/ 5/ 6 Transmitter resolution Scaled range value(select frequency, voltage or current as unit) Transmitter output range Transfer function linear/ square/ root...

  • Page 102: Logger Management

    save the data recorded before the shutdown. When the power is turned, on and enter the data logger management interface again, the calibrator will prompt that there are unsaved records that need to be saved. 7.7.1 Logger Management In the data logging management interface displayed after the application of "data logging", the completed log files displayed on the management interface are arranged in reverse order by date and time.

  • Page 103: The Operation Of Data Logging

    Table 41 Data logging parameter setting table Project Effective value Description Interval 0.5~100 To record the data interval time. Unit: second Samples 2~1000000 Number of data Time Hour: minute: second Data logging time 7.7.3 The operation of data logging For more intuitive display and convenient operation, the record operation interface is divided into three functional areas: data logging curve display area, channel information display area (or data logging operation area) and record operation information display area.
  • Page 104 ♦ Click on the curve area to switch the channel information display area to the data logging operation display area; 2. Channel information display area ♦ Display the real-time data and statistical information of each logging channel (maximum, minimum, average, peak, and standard deviation) ♦...

  • Page 105: Save The Data

    ♦ Following Mode: The following mode is based on the time width of the current window, when the curve runs to the end of the curve frame, the start time in the data image will automatically change, so that the image curve can show the latest running status.

  • Page 106: Communicator

    differential pressure module is enabled, the differential pressure module channels will be displayed in the related functions channel list. Resolution 4/5/6 The resolution of differential pressure Range Numbers Differential module measuring range For the composite mode of differential pressure module, A and Calculate type A-B or B-A B represent external pressure module A and external pressure...

  • Page 107: Hart Connection And Search

    communicator on the HART device depends on the DD file, the operation varies greatly between different HART devices, so please refer to the manual of the HART device before using the function. Note: The calibrator always acts as the master station during the communication with the HART device. Therefore, in order to avoid harm to the control system, the HART device must be separated from the control system before using the calibrator to connect to the HART device.

This manual is also suitable for:

227

Table of Contents