DMC1410 Reference Manual
1. Introduction . . . . . . . . . . . . . . . . . . 1 8. Document Mode . . . . . . . . . . . . . 52 1.1 Customer Service . . . . . . . . . . . . . . . . . . . . 1 1.2 Standard Equipment . . . . . . . . . . . . . . . . . . 1 1.3 Safety information . . . . . . . . . . . . . . . . . . . . 2 8.1 Introduction. . . . . . . . . . . . . . . . . . . . . . . . 52 Document Mode Menu Tree. . . . . . . . . . . . . . 54 8.2 New Tag As Found Test. . . . . . . . . . . . . . . 64 8.3 Adjustment. . . . . . . . . . . .
1. Introduction The Martel DMC1410 Multifunction Process Calibrator is a handheld, battery-operated instrument that measures and sources electrical and physical parameters. The calibrator has the following features and functions: • A dual display. The upper display is used for the measurement of volts, current, and pressure. The lower display can be used to measure volts, current, pressure, resistance temperature detectors (RTDs), thermocouples, frequency, and resistance, and to source pulse trains.
1.3 Safety information Symbols Used The following table lists the International Electrical Symbols. Some or all of these symbols may be used on the instrument or in this manual.
The following definitions apply to the terms “Warning” and “Caution”. • “Warning” identifies conditions and actions that may pose hazards to the user. • “Caution” identifies conditions and actions that may damage the instrument being used. Use the calibrator only as specified in this manual, otherwise injury and damage to the calibrator may occur. Warning To avoid possible electric shock or personal injury: • Do not apply more than the rated voltage. See specifications for supported ranges.
• When servicing the calibrator, use only specified replacement parts. • To avoid false readings, which could lead to possible electric shock or personal injury, replace the battery as soon as the battery indicator appears. • To avoid a violent release of pressure in a pressurized system, shut off the valve and slowly bleed off the pressure before you attach the pressure module to the pressure line.
2. Calibrator Interface Figure 1 shows the location of the input and output connections on the calibrator, while Table 1 describes their use. 8 F1 F2 7 8 9 4 5 6 1 2 3 – 0 . HOME CE ENTER MEASURE / SOURCE 3W mA+ 6 MEASURE + V Ω Hz – 4W mA– 9 F3 TC + V mA Loop – 1 2 7 4 5 3 Figure 1. Input/Output Terminals Table 1: Input and Output Terminals No. Name Description 1, 2 Measure Isolated V, mA terminals Input terminals for measuring current, voltage, and supplying loop power.
1 F1 5 F2 7 8 9 4 5 6 1 2 3 – 0 . F3 4W mA– 4 HOME CE ENTER MEASURE / SOURCE 3W mA+ 3 2 MEASURE + V Ω Hz – TC + V mA Loop – Figure 2. Keypad Figure 2 shows the location of the keys on the calibrator. Table 2 lists the functions of each key. Table 2. Key Functions No. Name Function 1 Function Keys F1, F2, F3 sed to operate the menu bar at the bottom U of the calibrator display. F1 is used for selecting options in the left box, F2 for the center box, and F3 for the right box.
The display of the calibrator, shown in Figure 3, is divided into three main sections: the upper display, the lower display, and the menu bar. The upper display is used for measuring dc voltage, dc current with and without loop power, and pressure. The lower display can be used for both measuring and sourcing. The menu bar is used to setup both the upper and the lower display to perform the desired function. Table 3 explains the different parts of the display: Table 3: Display Functions No.
2.2 Menu Bar The parameters on the display are controlled by the menu bar, which is located at the bottom of the LCD. The function keys (F1, F2, and F3) are used to navigate through all the levels and choices of the menu bar. Refer to the menu tree for a clarification on the layout of all the levels. The top level of the menu is the home menu. It can be accessed anytime by pressing the HOME key. There are three variations of the home menu: the input home menu, the output home menu, and the pulse home menu.
The Document Mode selection menu is next. Its options are [DOCUMENT], [NEXT], and [DONE]. Choosing [DOCUMENT] enters the document mode menu system described in section 8 of this manual, [NEXT] proceeds to the next menu level, and [DONE] returns to the home menu. The Auto Function Menu is the next menu if you are in source mode. Its options are [AUTO FUNC], [NEXT] and [DONE]. [AUTO FUNC] allows you to adjust the Automatic Output Function parameters.
before it shuts off. [NEXT] proceeds to the clock menu, and [DONE] returns to the home menu. The Clock menu is the next menu displayed in the [MORE] menu sequence. Its options are [CLOCK], [NEXT], and [DONE]. Choose [CLOCK] to set the calibrator date and time as described in section 8 of this manual, [NEXT] to proceed to the terminal emulation menu, and [DONE] to return to the home menu. The Terminal menu is the last menu displayed after choosing [MORE] in the main menu.
The parameter selection menu is called up when [UPPER] or [LOWER] is selected from the main menu. It contains the following options: [SELECT], [NEXT], and [DONE]. When the display is selected, a parameter will start to flash. Use the [SELECT] option to change the parameter, and the [NEXT] option to switch to another variable. [DONE] returns to the home menu and enables the selected mode. 2.
Home Menu MENU LIGHT RAMP Selection Menu UPPER Parameter Selection SELECT NEXT LOWER MORE Document Mode Selection DOCUMENT DONE Home Menu Source Mode? NEXT DONE Document Menus Yes Auto Function Menu AUTO FUNC NEXT DONE No Frequency Out or Pulse mode? Yes Frequency Level Menu FREQ LEVEL NEXT DONE No RTD Custom mode? Yes RTD Custom Menu SET CUSTOM NEXT DONE No Either display in Pressure mode? Yes Pressure Zero Menu ZERO NEXT DONE No Contrast Menu Contrast Menu CONTRAST R
3. Using Measure Modes (Lower Display) 3.1 Measuring volts and frequency Electrical parameters volts and frequency can be measured using the lower display. To make the desired measurements, follow these steps: 1. Switch to the lower display [LOWER] from Main Menu. 2. Select the desired parameter for measurement. 3. Connect leads as shown in Figure 5. Figure 5. Measuring Volts and Frequency with Input/Output Terminals 3.2 Measuring mA To measure mA follow these steps: 1.
described in Specifications section. The calibrator also has a Cold Junction Compensation (CJC) function. Normally this function should be ON and the actual temperature of the thermocouple will be measured. With CJC OFF, the calibrator will measure the difference between the thermocouple at the junction and at its TC input terminal. Note: CJC off mode should only be used when calibration is being done using an external ice bath. To use the thermocouple to measure temperature, follow these steps: 1.
The calibrator accepts two, three, and four wire inputs, with four wire input being the most accurate. To use the RTD option, apply the following steps: 1. Switch to lower display [LOWER] from Main Menu. 2. Select RTD from the primary parameters. Select [IN] from input/output control. 3. Choose 2, 3, or 4-wire connection [2W, 3W, 4W]. (4-wire allows for the most precise measurement) 4. Select RTD type from the sensor types. 5. Attach RTD leads as shown in Figure 8. Figure 8.
Caution To avoid mechanically damaging the pressure module, never apply more than 10 ft-lb. of torque between the pressure module fittings, or between the fittings an the body of the module. To avoid damaging the pressure module from overpressure, never apply pressure above the rated maximum printed on the module. To avoid damaging the pressure module from corrosion, use it only with specified materials. Refer to the pressure module documentation for material compatibility.
To adjust the calibrator, follow these steps: 1. Enter the pressure zeroing menu. 2. Select [ZERO appear. Enter ]. [SET REFERENCE ABOVE] will the pressure using the keypad. 3. The calibrator stores the Barometric zero offset in nonvolatile memory. The zero offset is stored for one absolute pressure module at a time. If a new absolute module is connected this process must be repeated. 4.
4.1-1 Stepping the current output To use the 25% function with mA output, follow these steps: 1. S elect the lower display from the Main Menu, and choose mA. 2. U se the 25% key to cycle between 4 mA and 20 mA in 25 % intervals. 4.2 Using the Automatic Output Functions There are two automatic output functions, step and ramp. The selected function can be turned on and off using the Output Home Menu. The Automatic Output Function parameters can be set in the Auto Function Menu. Parameters include: 1.
4.3-1 HART™ Resistor Selection The DMC1410 can be set-up so that the 250 ohm resistor required for HART™ configuration devices resides inside the DMC1410. Enabling the DMC1410's internal 250 ohm resistor eliminates the need to manually add a series resistor during a HART™ calibration process. NOTE: When the DMC1410's internal 250 resistor is enabled, maximum load driving capability drops from 1000 ohms @ 20mA to 750 ohms @20mA. Enable/Disable Procedure 1.
2. Choose mA simulation from the primary parameters [mA 2W SIM], and enter the desired current. 3. Connect the 24V loop as shown in Figure 11. Figure 11. Connections for Simulating a Transmitter 4.5 Sourcing volts To source volts follow these steps: 1. Select lower display from the Main Menu. 2. Choose [VOLTS] from the primary parameters. Switch to input/ output control and select output [OUT]. 3. Connect the leads for the voltage source terminals, as shown in Figure 12. 4.
4.6 Sourcing frequency To source a signal use these steps: 1. Switch to the lower display and select frequency from the primary parameters. 2. Select output, and than choose the frequency units. 3. Connect the leads to the frequency output terminals as shown in Figure 12. 4. Enter the desired frequency using the keypad. 5. To change the amplitude, select [FREQ LEVEL] from frequency level menu. 6. Enter the amplitude. 4.
Figure 13. Connections for Outputting Thermocouples 4.8 Sourcing Thermocouples To source a thermocouple use the following steps: 1. Connect the thermocouple leads to the appropriate polarized TC miniplug, and insert the plug into the TC terminals on the calibrator, as shown in Figure 13. 2. Select lower display from the Main Menu, and choose thermocouple [TC] from the primary parameters. 3. Choose output [OUT] from the input/output control. 4. Select the desired thermocouple type from the sensor types.
4.9 Sourcing Ohms/RTDs To source an RTD, follow these steps: 1. Select lower display from the Main Menu, and choose [RTD] from the primary parameters. 2. Choose output [OUT] from the input/output control, and select RTD type from the sensor types. 3. Connect the calibrator to the instrument being tested, as in Figure 14. 4. Enter the temperature or resistance using the keypad. Figure 15. Using a 3- or 4-wire Connection for RTDs Note: The calibrator simulates a 2-wire RTD.
2. E nter the RTD custom setup main menu, and select [SET CUSTOM]. 3. U sing the keypad, enter the values that the calibrator prompts for: minimum temperature, maximum temperature, R0, and the values for each of the temperature coefficients. The custom function uses the Calendar-Van Dusen equation for outputting and measuring custom RTDs. The coefficient C is only used for temperatures below 0°C. Only A and B coefficients are needed for the range above 0°C, so coefficient C should be set to 0.
5.2 Measuring current with loop power To test a 2-wire, loop powered transmitter that is disconnected from wiring, use the loop power function. This function activates a 24V supply in series with the current measuring circuit. To use this option proceed as follows: 1. Select [mA LOOP] as primary parameter in the upper display. 2. Connect the calibrator to transmitter current loop terminals, as shown in Figure 17. Figure 17. Connection Using Current Loop 5.
3. Gently remove the top half of the case from the bottom. 4. Figure 10a. shows the location of the HART™ jumpers. 5.3 Measuring Pressure Note: The DMC1410 is compatible with BETA Calibrator Pressure Modules. The accessory BPPA-100 is required for pressure measurement. Note: Pressure is not read from modules with frequency or pulse train mode enabled.
VALVE PRESSURE MODULE F1 F2 7 8 9 4 5 6 1 2 3 – 0 . F3 HOME CE ENTER MEASURE / SOURCE 3W mA+ 4W mA– MEASURE + V Ω Hz – TC + V mA Loop – Figure 18. Measuring Pressure Transmitter Note: On high pressure modules engineering units normally associated with low pressure ranges such as, inH2O, cmH2O, etc. are not valid selections. Selecting one of these units with a high pressure module attached will cause the display to read "----". 6.
6.2 Calibrating an I/P Device The following steps show how to calibrate a device that controls pressure: 1. Select upper display from the Main Menu, and select pressure from the primary parameters. 2. Switch to lower display from the Main Menu, and select current source [mA out] from the primary parameters. 3. Connect the calibrator to the device as shown in Figure 20. The calibrator will simulate the transmitter current and measure the output pressure. 4. Enter a current using the keypad.
4. Connect the calibrator to the transmitter as shown in Figure 21. 5. Test transmitter at 0- 25- 50- 75- 100 % using the 25 % step function (25% key). Adjust the transmitter a necessary. To calibrate a different transmitter, follow the above steps with the exception of choosing TC on the lower display. Replace TC with the correct parameter for the transmitter. Figure 21. Calibrating a Transmitter 6.4 Calibrating a Pressure Transmitter To calibrate a pressure transmitter, use these steps: 1.
– + F1 7 4 F2 8 9 5 6 1 2 3 – 0 . F3 HOME CE ENTER MEASURE / SOURCE PRESSURE MODULE 3W mA+ 4W mA– MEASURE + V Ω Hz – TC + V mA Loop – HAND PUMP Figure 22. Calibrating a Pressure Transmitter 7. Remote Operation The calibrator can be remotely controlled using a PC terminal, or by a computer program running the calibrator in an automated system. It uses an RS-232 serial port connection for remote operation.
7.1 Setting up the RS-232 Port for Remote Control Note: The RS-232 connection cable should not exceed 15m unless the load capacitance measured at connection points is less than 2500pF. Serial parameter values: 9600 baud 8 data bits 1 stop bit no parity Xon/Xoff EOL (End of Line) character or CR (Carriage Return) or both To set up remote operation of the calibrator on the Windows Hyper Terminal, connected to a COM port on the PC as in Figure 23, use the following procedure: 1.
2. To enable Remote with Lockout, type in REMOTE and LOCKOUT in either order. 3. To switch back to local operation enter LOCAL at the terminal. This command also turns off LOCKOUT if it was on. For more information on commands refer to the Remote Commands section. 7.3 Using Commands 7.3-1 Command types Refer to the Section on Remote Commands for all available commands. The calibrator may be controlled using commands and queries. All commands may be entered using upper or lower case.
Overlapped Commands Commands that require more time to execute than normal. The command *WAI can be used after the overlapped command to tell the calibrator to wait until the command finishes before executing the next command. For example: TRIG; *WAI Triggers the pulse train. Once the pulse train has been triggered, the calibrator can proceed to the next command. Sequential Commands Commands that are executed immediately after the are entered. This type includes most of the commands. 7.
Indefinite ASCII (IAD) Any ASCII characters followed by a terminator. For example: *IDN? returns MARTEL, DMC1410, 250, 1.00 7.3-4 Calibrator Status Status registers, enable registers, and queues provide status information on the calibrator. Each status register and queue has a summary bit in the Serial Poll Status Byte. Enable registers generate summary bits in the Serial Poll Status Byte. The following is a list of registers and queues along with their function.
Event Status Enable Register (ESE) Enables and disables bits in the ESR. Setting a bit to 1 enables the corresponding bit in the ESR, and setting it to 0 disables the corresponding bit. Cleared at power reset. Bit assignments for the ESR and the ESE respectively are shown below. 15 14 13 12 11 10 9 8 0 0 0 0 0 0 0 0 7 6 5 4 3 2 1 0 PON 0 CME EXE DDE QYE 0 OPC PON Power On. Set to 1 if power was turned on and off before the Event Status Register was read.
Error Queue I f an error occurs due to invalid input or buffer overflow, its error code is sent to the error queue. The error code can be read from the queue with the command FAULT?. The error queue holds 15 error codes. When it is empty, FAULT? returns 0. The error queue is cleared when power is reset or when the clear command *CLS is entered. Input Buffer Calibrator stores all received data in the input buffer. The buffer holds 250 characters. The characters are processed on a first in, first out basis.
Table 6: Calibrator Commands Command Description CAL_START Puts the calibrator in calibration mode CJC_STATE Turns CJC on or off.
PRES_UNIT? Returns the pressure unit for the upper and lower display PULSE_CNT Sets the number of pulses for the pulse train PULSE_CNT? Returns the number of pulses in the pulse train REMOTE Puts the calibrator in remote mode RTD_TYPE Sets the RTD type RTD_TYPE? Returns the RTD type RTD_WIRE Sets the number of wires used by the RTD mode.
Table 7: Parameter units Units Meaning MA milliamps of current MV Voltage in millivolts V CPM Hz KHz Ohms Voltage in volts Frequency in cycles per minute Frequency in Hertz Frequency in kiloHertz Resistance in Ohms Cel Temperature in Celsius Far Temperature in Fahrenheit Psi Pressure in pounds per square-inch InH2O4C Pressure in inches of water at 4°C InH2O20C Pressure in inches of water at 20°C CmH2O4C Pressure in centimeters of water at 4°C CmH2O20C Pressure in centimeters of water at
110 An unknown command was received 111 An invalid RTD or TC parameter value was received 112 The serial input buffer overflowed 113 Too many entries in the command line 114 The serial output buffer overflowed 115 Output is overloaded 116 Calibrator not in pulse train mode when TRIG was received 117 An invalid FREQ_TYPE was received 7.5 Entering Commands Commands for the calibrator may be entered in upper or lower case.
*ESR? Returns the contents of the Event Status Register in decimal form. For example: If the ESR contains 10111001, *ESR? will return 185. *IDN? Returns the manufacturer, model number, and firmware revision of the Calibrator. For example: *IDN? will return MARTEL,DMC1410,0,2.00 *OPC Enables the Operation Complete setting in the ESR. This setting makes it possible to check if an operations is complete after it has been initialized. For example this operation could be used with the command TRIG.
*SRE? Returns a byte from the SRE. The byte is returned in decimal format. For example: If 40 is returned, bits 5 and 3 are enabled. *STB Returns the status byte in decimal form from the Serial Poll Status Byte. For example; If 72 is returned, bits 6 and 3 are enabled. *WAI Prevents further remote commands from being executed until all previous commands are executed. For example: OUT 10 MA ; *WAI ; OUT 5 V will out put 10mA and wait until output settles, than volts command will be processed. 7.
CPRT_COEFA This command is used for entering a custom RTD into the calibrator. The numeric value entered after the command will be set as the first coefficient of the polynomial used by the custom RTD. For example: CPRT_COEFA 3.908E-03 enters 3.908e-3 as coefficient A. CPRT_COEFA? Returns the number which was entered for the first coefficient of the polynomial used in the custom RTD. Using the example above CPRT_COEFA? Would return: 3.
CPRT_MIN_T Sets the minimum temperature of the custom RTD range. The temperature value must be entered with a degrees label, CEL for Celsius and FAR for Fahrenheit. For example: CPRT_MIN_T -260 CEL enters -260°C as the minimum temperature. CPRT_MIN_T? Returns the value entered for minimum temperature in the range for a custom RTD. Note that the Calibrator always returns numbers in scientific notation. The above example would return: -2.
FAULT? Returns the error code number of an error that has occurred. The command may be entered when the previous command did not do what it was meant to do. For example, if a value for current output is entered that is bigger than the supported range (0-24mA) FAULT? Would return: 103 which is the code number for an entry over range. Refer to the Error Codes table for more information on error code numbers. FREQ_LEVEL Sets the amplitude of the wave used in the Frequency Out and Pulse modes.
FREQ_UNIT Sets the unit for frequency. There are three ranges of frequencies for frequency and pulse modes, CPM (cycles per minute), Hz, and kHz. Use this command to select the right range. For example: FREQ_UNIT HZ sets the frequency to Hz range FREQ_UNIT? Returns the frequency unit currently being used by the frequency and pulse modes. FUNC? Returns the current mode of the upper and lower displays.
L_PRES_UNIT Sets the unit for measuring pressure on the lower display. Add the unit after the command. The available pressure units and their syntax are shown in the Table 7. (Parameter Units). For example: L_PRES_UNIT KPAL sets the pressure unit to kiloPascals OUT Sets the output of the calibrator. This command may be used to output mA, volts, frequency, temperature, and ohms. Frequency output, which is set by the command FREQ_TYPE, is either continuous or pulse.
PULSE_CNT? Returns the number of pulses in the pulse train. Using the above example, the returned value would be: 3000 REMOTE Puts the calibrator in remote mode. From the remote mode the user can still use the keypad to get back to local unless the command LOCKOUT was entered before REMOTE. Than the keypad is totally locked out, and the user has to send the LOCAL command to get back to local operation. RTD_TYPE Sets the RTD type.
two digit hour in 24 hour format (0 to 23), nn is the two digit minute (0 to 59), and ss is the two digit second (0 to 59). Note that all two digit values must have a leading zero if they have a value less than 10. Returns if successful, otherwise an error message enclosed in angle brackets. For example: SET_CLOCK 2006 03 20 09 16 33 SIM Sets the output for current simulation. This command also switches the calibrator into mA simulation mode. A number and a unit must be entered after the command.
TAGS? Sends a list of all tag ID's in the calibrator to a PC. Returns a list of tag ID's, one per line, followed by if successful, otherwise an error message enclosed in angle brackets. Each line contains three data items separated from each other by spaces. First, the position of the tag in the calibrator, an integer from 1 to 50. Second, the status of the tag, a single character 'U' for downloaded uncalibrated or 'C' for calibrated. Third, the tag number string of up to 16 characters.
TSENS_TYPE Sets the temperature sensor type to thermocouple, or to RTD for temperature measurement. After the command add TC for thermocouple, or RTD for RTDs. For example: TSENS_TYPE TC sets the sensor type to thermocouple TSENS_TYPE? Returns the type of sensor that is currently set to measure temperature, either TC or RTD. UPPER_MEAS Sets the measuring mode for the upper display. After the command enter DCI for mA, DCI_LOOP for mA with loop power, DCV for volts, and PRESSURE for pressure.
8. Document Mode 8.1 Introduction Document mode allows an instrumentation technician to create repeatable calibration tests for up to 50 tags while in the field, to download predefined calibration tests from a PC database for up to 50 tags before going to the field, or some combination of both types up to a maximum of 50 tags. Each test may consist of 1 to 21 user selectable test points, and may be repeated as many times as necessary to complete adjustment and calibration of the tag.
ends, the real time clock time stamp is saved, and the technician is prompted for changes to the tag identification data (any field but tag number which can not be changed). If test validation was selected, the technician has the option of displaying the As Found test results.
Document Mode Menu Tree 1 Detail Flowchart Document Menus Function Selection Menu TEST REVIEW EXIT Home Menu Review Menu Test Selection Menu AS FOUND AS LEFT EXIT Home Menu As Left Menu As Found Tag Selection Menu NEW SELECT EXIT Home Menu Downloaded Tag As Found Test As Found Setup Menu UPPER LOWER DONE A Parameter Selection SELECT DMC-1400 Calibrator Document Mode Flowchart 54Revised Version 3.
A Frequency Out or Pulse Mode? Pulse/Frequency Level Menu Yes DONE No No Pulse Mode? Yes Pulse Parameter Menu FREQ Upper display is manual type? Yes COUNTS DONE Upper Units Menu DONE No Lower display is manual type? Yes Lower Units Menu DONE No Either display in pressure mode? Yes Pressure Zero Menu ZERO DONE No B DMC-1400 Calibrator Revised Document Mode Flowchart 55 Page 4 of 12
B Pulse mode? AF data collection – pulse trigger Yes TRIGGER READY No AF data collection – pulse stop STOP Manual Input or Output? AF data collection – manual entry Yes NEXT DONE LEFT KEY ABORT No B C Manual Output? Manual output entry Yes DONE BACK No Manual Input? Manual input entry Yes DONE BACK No AF data collection – save test point SAVE DONE B C DMC-1400 Calibrator Revised Document Mode Flowchart Version 3.
C Tag ID field selection SELECT NEXT SAVE Tag field data entry DONE NEXT SAVE Save As Found data and time stamp Validate test results? YES NO Tolerance field selection SELECT DONE Tolerance field data entry DONE Show test results? YES NO View test results DONE Save AF results as AL? YES NO Document Menus Adjust Instrument? DMC-1400 Calibrator Revised Document Mode Flowchart Version 3.
Downloaded Tag As Found Test Either display in pressure mode? Yes Pressure Zero Menu ZERO DONE No K Pulse mode? Yes AF data collection – pulse trigger TRIGGER READY No AF data collection – pulse stop STOP Manual Input? Yes AF data collection – manual entry NEXT ABORT REPEAT LEFT KEY No K Manual input entry DONE K No Last data point? Yes Save As Found test data and time stamp BACK AF data collection – save test point SAVE ABORT REPEAT LEFT KEY K L 58 DMC-1400 Calibrator Revis
L Tag ID field selection SELECT NEXT SAVE Tag field data entry DONE NEXT SAVE Save Tag ID data changes Validating results? Yes Show test results? YES No NO View test results DONE Save AF results as AL? YES NO Document Menus Adjust Instrument? DMC-1400 Calibrator Revised Document Mode Flowchart Version 3.
D Either display in pressure mode? Yes Pressure Zero Menu ZERO DONE No Pulse mode? Yes Adjust – pulse trigger TRIGGER READY No Adjust – pulse stop STOP Adjust – monitor/step/enter UP DOWN AS LEFT E As Left Menu As Left tag selection SELECT EXIT Home Menu Already has AL results? Yes Overwrite AL results? YES NO No E Either display in pressure mode? Yes Pressure Zero Menu ZERO DONE No F DMC-1400 Calibrator Revised Document Mode Flowchart Version 3.
F Pulse mode? Yes AL data collection – pulse trigger TRIGGER READY No AL data collection – pulse stop STOP Manual Input? Yes AL data collection – manual entry NEXT ABORT REPEAT LEFT KEY No F Manual input entry DONE No BACK AL data collection – save test point Last data point? SAVE ABORT REPEAT Yes F Save As Left data and time stamp Validating results? No LEFT KEY Yes Show test results? YES NO View test results DONE AL complete, adjustment required? YES D DMC-1400 Calibrator R
Review Menu Review Function Select VIEW PRINT CLEAR View Tag Select SELECT EXIT Print Tag Select SELECT EXIT View Tag DONE EXIT Review Menu G Clear Tag Select SELECT Confirm Tag Clear YES NO CLEAR ALL EXIT Confirm Clear All Tags YES NO G Review Menu G Final Confirm Clear All Tags YES NO G DMC-1400 Calibrator Revised Document Mode Flowchart Version 3.
2 Summary Flowchart Function Selection Menu TEST REVIEW EXIT Review Function Select VIEW PRINT CLEAR Test Selection Menu AS FOUND New No Tag Source? AS LEFT EXIT Download Configure Upper and Lower Displays Select Tag for Testing Collect As Found Test Data Collect As Found Test Data Enter Tag Identification Data Optionally, Modify Some Tag Identification Data Optionally, Enter Tag Validation Data, Validate Tag, and Display Results Optionally, Display Validation Results Select Tag for T
8.2 New Tag As Found Test 8.2.1 Setup At the main menu, press the MENU function key, followed by the MORE function key, followed by the DOCUMENT function key to display the first level document mode menu. Press the TEST function key to display the test selection menu. Press the AS FOUND function key to display the As Found Tag Selection menu which shows all uncalibrated downloaded tags. The letter U indicates an uncalibrated downloaded tag.
These two menus operate the same as the normal upper and lower type and parameter selection menus described earlier in this manual, except that they have two extra type selections, MANUAL IN and MANUAL OUT. The currently selected parameter field blinks (indicated by bold italicized text above). Press the SELECT function key to cycle through the possible selections for that field. Press the NEXT function key to move to the next parameter field.
Up to 5 characters may be entered for a unit description using a telephone style entry method. The four lower lines provide a mapping of the allowed alphanumeric characters to the numeric keypad keys. To enter a character press the corresponding numeric key multiple times to cycle through the mapped characters until the desired character is displayed. For example, to enter E, press the 8 key 3 times.
The value displayed on the top line is the current pressure reading adjusted with the current reference pressure. Enter the new reference pressure using the numeric keys followed by the ENTER key, or if satisfied with the current reference value press the DONE function key to bypass changing it. When satisfied with the pressure reference, press the DONE function key to continue.
Enter the new peak to peak voltage using the numeric keys followed by the ENTER key, or if satisfied with the current voltage press the DONE function key to bypass changing it. When satisfied with the voltage value, press the DONE function key to continue. Pulse train has two variable parameters, frequency and pulse count. Since the calibrator can only store one variable parameter per test, one of these must be set to a fixed value for all test points, while the other is changed.
analysis, it is suggested that the test points be evenly spaced across the test range and that they be entered in ascending order, descending order, ascending followed by descending, or descending followed by ascending. The prompt displayed during the test depends on the input and output types selected. Any combination which includes pulse train output has its own unique prompt sequence, as does any combination which includes a manual input, manual output, or both.
interrupted. Press the YES function key to abandon the data collected. Pulse Train Type Prompt When the input/output combination includes a pulse train output, the following is displayed for each test point. The current test type, AF for As Found, and point number are shown in the upper right corner of the display. Note that the point number is the next point to be tested and data has not been saved for it yet. Enter the output value to be generated using the numeric keys, followed by ENTER.
If the data displayed is correct, press the SAVE function key to save the data and step to the next point. The point number in the upper right increases to show that the test data is saved. If the pulse train or manual data must be corrected before saving it, press the LEFT ARROW key to change back to the TRIG/READY prompts and repeat the test.
If the calibrator input is not manual, wait for the displayed calibrator input value to settle and then press the NEXT function key to prompt for the manual entry(s) as described in the following subsection. If the calibrator input is manual, wait for the external device reading to settle and then press the NEXT function key to prompt for the manual entry(s) as described in the following subsection. Upon return from the manual entry prompts(s), the NEXT function key label changes to SAVE.
8.2.3 Identification Data Entry When the DONE function key is pressed at the data collection stage, the first page of the following two page identification data display is shown. Initially all data fields are blank, but after data is entered the current value of each field is shown to the right of its description. These two pages provide space to enter eight phrases of up to 16 characters each to describe the test that has been performed.
Up to 16 characters may be entered for the field using a telephone style entry method. The four lower lines provide a mapping of the allowed alphanumeric characters to the numeric keypad keys. To enter a character press the corresponding numeric key multiple times to cycle through the mapped characters until the desired character is displayed. For example, to enter E, press the 8 key 3 times.
If the instrument's output/input relationship is not linear, test results validation should not be selected. Press the YES function key to validate the results. Press the NO function key to bypass validation and proceed to the test conclusion stage. When validation is selected, the following prompt is displayed showing the current settings for output zero and span, input zero and span, and the % span error tolerance. Initially the span tolerance is set to 0.
The overall test status display provides the option of displaying details for each test point. The overall test status is displayed on the top line. If all points passed, PASSED is displayed. If one or more points have failed, FAILED is displayed. Press the NO function key to bypass detail results display and proceed to the test conclusion stage. Press the YES function key to display the test details.
If pressure is selected on the upper or lower display, the pressure zero prompt is displayed first and operates as described under As Found Setup. The prompt displayed during the test depends on the input and output types selected. Any combination which includes pulse train output has its own unique prompt sequence. All other combinations are covered by a generic prompt. Generic Type Prompt A prompt similar to the following is displayed for each test point when the output is not pulse train.
The PT in the upper right corner of the display indicates that this is the adjustment display. If an As Found data point is selected, its number is displayed. If a user entered value is selected, two dashes are displayed. Use the numeric keys, followed by ENTER, to enter a user value for generation, or press the READY function key to proceed to the next menu where the UP and DOWN function keys can be used to scroll through the As Found data points. Press the TRIG function key to generate the pulse train.
8.4 Downloaded Tag As Found Test 8.4.1 Tag Selection At the main menu, press the MENU function key, followed by the MORE function key, followed by the DOCUMENT function key to display the first level document mode menu. Press the TEST function key to display the test selection menu. Press the AS FOUND function key to display the As Found Tag Selection menu which shows all uncalibrated downloaded tags. Tag numbers are displayed on multiple pages, six tags to a page.
1) The test outputs can not be changed, they will be the predefined values that were downloaded. For pressure and manual output types, the downloaded value is displayed for the technician to set it on the external source. For all other output types, the calibrator automatically generates the As Found value. 2) Once the SAVE function key is pressed for the last test point, the process automatically proceeds to the identification data entry stage.
Press the TEST function key to display the test selection menu. Press the AS LEFT function key to display the tag selection prompt which shows all previously calibrated tags available for recalibration. Tag numbers are displayed on multiple pages, six tags to a page. Press the UP ARROW and DOWN ARROW keys to scroll the tag selector highlight one tag at a time, scrolling from page to page, cycling from top to bottom of the list and vice versa.
2) The test outputs can not be changed, they will be the same as the As Found values. This ensures that the As Found and As Left test results line up when being compared later. For pressure and manual output types, the As Found value is displayed for the technician to set it on the external source. For all other output types, the calibrator automatically generates the As Found value.
The letter U indicates an uncalibrated downloaded tag, the remainder have been calibrated. Tag numbers are displayed on multiple pages, six tags to a page. Press the UP ARROW and DOWN ARROW keys to scroll the tag selector highlight one tag at a time, scrolling from page to page, cycling from top to bottom of the list and vice versa. Use the LEFT ARROW and RIGHT ARROW keys to scroll the tag selector highlight one page at a time, cycling from top to bottom of the list and vice versa.
orientation during testing, which was with respect to the calibrator. Press the DONE function key to return to the tag selection menu. Press the EXIT function key to return to the review selection menu. 8.7 Printing Test Results At the main menu, press the MENU function key, followed by the MORE function key, followed by the DOCUMENT function key to display the first level document mode menu. Press the REVIEW function key to display the review selection menu.
At the main menu, press the MENU function key, followed by the MORE function key, followed by the DOCUMENT function key to display the first level document mode menu. Press the REVIEW function key to display the review selection menu. Press the CLEAR function key to display the tag selection prompt and clear menu options. To erase all tags from the calibrator memory, press the CLEAR ALL function key. Additional prompts are displayed to confirm the request.
Initially the date and time values displayed on the top line are the precise clock setting when the screen was first displayed. After that they are static values representing any data changes made. The clock is not updated until the SAVE function key is pressed. For the most accurate setting it is recommended that all values but the seconds be entered first, then enter a seconds value slightly ahead of the current time, and finally press the SAVE function key exactly when the entered seconds is reached.
• Sufficient extra disk space for storage of tag reports 9.2 Installation Insert the Video Tutorial CD into your PC's drive. A menu will be automatically displayed. Choose the menu option "Install Martel USV Utility Software." Follow the on-screen prompts to complete the installation. As an alternative, use Explorer to browse to the "\Martel USV" directory on the CD and run SETUP.EXE. Follow the on-screen prompts to install the application. 9.
to select the communications port to which the calibrator is connected. The Help menu contains the application help, support, and program information. 9.4 File Menu Initially USV is set to store reports in the root folder 'Martel USV' within the 'My Documents' folder. If you wish to store them into another folder, navigate to the alternate folder before saving the first report. From then on, until a further alternate folder is chosen, that folder will be the default for storage.
exist within the root directory, the tag subdirectory is created and the file is saved there. If the reports were uploaded from a calibrator, the file extension is TXT or CSV depending on the report format selection on the Upload menu at the time the reports were uploaded. If the reports were loaded from a file, the file extension is set the same as that of the source file. Print Print the tag calibration reports contained in the Reports list box.
Selected Tag Reports Upload selected tag calibration reports from the calibrator into the Reports list box. Before using this function, upload a list of the tag configurations contained in the calibrator using the Tag ID's function above. In the Tag ID's list box, highlight the tags which are to be uploaded, and then select this function to upload them. The Reports list box is cleared before the upload. Use the Configure menu to select the communications port.
9.6 Erase Menu All Tags Erase all tag configurations from the calibrator. Both list boxes are cleared after the erasure. Use the Configure menu to select the communications port. Selected Tags Erase selected tag configurations from the calibrator. Before using this function, upload a list of the tag configurations contained in the calibrator into the Tag ID's list box using the Tag ID's function on the Upload menu.
provides a Cancel button for terminating the download. As the download proceeds, a right angle bracket indicates the tag presently being processed, and the status is displayed as Loading. All tags not yet downloaded have status Pending. If a tag can not be downloaded for some reason, an error message is displayed explaining the problem and the tag status shows FAILED. All successfully downloaded tags have status Loaded.
the tag is selected, or directly if the report file contained a single tag, the configuration data is extracted and presented in a dialog screen with the tabs Identification, Instrument Input, Instrument Output, Tolerance, and Test Points for modification of the configuration data. This dialog screen is described in detail in section 9.9 below. When complete, the configuration is saved into a user named file with the fixed extension UTG. Display/Print Display a tag configuration, and optionally print it.
COM Port The communications port is selected by clicking on one of the following menu items. The selected port is indicated by the menu item with the checkmark, and is also displayed on the status line at the bottom of the screen. Use COM1 Use COM2 Use COM3 Use COM4 Use COM5 Use COM6 Use COM7 Use COM8 9.9 Tag Configuration Details Tag Identification Tab The Tag ID field is required and must not contain a space as its first character.
text string for it as documented in the user manual addendum accompanying your calibrator. The CJ field appears only for the Thermocouple type. It contains a drop down list presenting all of the available options for a standard calibrator. Select the cold junction option corresponding to the instrument to be calibrated.
documented in the user manual addendum accompanying your calibrator. The Wires field appears only for the RTD type. It contains a drop down list presenting all of the available options for a standard calibrator. Select the connection option corresponding to the instrument to be calibrated. If your calibrator contains special software implementing a non?standard connection option, enter the text string for it as documented in the user manual addendum accompanying your calibrator.
9.10 Group Configuration Details The display contains two lists. The leftmost contains all available tags which are not presently members of the group. The rightmost contains the present group members. All tags which are members of the group must reside in the same directory as the group. To add tags to the group, highlight them in the available list and click the right arrow. To add a single tag, double click it. To remove tags from the group, highlight them in the group list and click the left arrow.
10. Specifications One year at 23°C ± 5°C, unless specified otherwise. Outside of this range the stability of the measurements is ± 0.003% of FS/°C. Table 9: General Specifications Operating Temperature -10°C to 50°C Storage Temperature -20°C to 60°C Power 4 X AA batteries; Alkaline or optional rechargeable Battery Life Approximately 20 hours Serial Communications SCII; RS232 or USB depending on the communications A cable used CE - EMC EN61326: 2006, ANNEX B Criterion A Safety CSA C22.2 No.
Table 12: Frequency Measurement/Source Read Source Range Accuracy (% of reading ± floor) 2.0CPM - 600.0CPM 0.05% ± 0.1CPM 1.0Hz - 1000.0Hz 0.05% ± 0.1Hz 1.00KHz - 10.00KHz 0.05% ± 0.01KHz 2.0CPM - 600.0CPM 0.05% 1.0Hz - 1000.0Hz 0.05% 1.00KHz - 10.00KHz 0.250% I nput voltage amplitude range on frequency is 1V to 20V zero based square wave only.Output amplitude is adjustable from 1V to 20V, and is a square wave with 50% duty cycle.
Table 16: Thermocouple Read and Source (errors in °C) Range (°C) Accuracy (°C) TC Type Minimum Maximum CJC OFF CJC ON J -210.0 -150.0 0.4 0.6 -150.0 1200.0 0.2 0.4 -200.0 -100.0 0.5 0.7 -100.0 600.0 0.2 0.4 600.0 1000.0 0.3 0.5 1000.0 1372.0 0.4 0.6 -250.0 -200.0 1.5 1.7 -200.0 0.0 0.5 0.7 0.0 400.0 0.2 0.4 -250.0 -200.0 1.0 1.2 -200.0 -100.0 0.3 0.5 -100.0 1000.0 0.2 0.4 0.0 200.0 1.7 1.9 200.0 1767.0 1.0 1.2 K T E R1 S1 B1 0.0 200.0 1.
Table 17: RTD Read and Source RTD Type Range (°C) Minimum PT385, 10 ohm PT385, 50 ohm PT385, 100 ohm PT3926, 100 ohm PT3916, 100 ohm Maximum Accuracy (°C) Measure 4W/Source Measure 3W -200.0 -80.0 0.76 2.01 -80.0 0.0 0.78 2.03 0.0 100.0 0.83 2.14 100.0 300.0 0.92 2.35 300.0 400.0 0.98 2.45 400.0 630.0 1.05 2.62 630.0 800.0 1.16 2.83 -200.0 -80.0 0.16 0.41 -80.0 0.0 0.23 0.57 0.0 100.0 0.23 0.58 100.0 300.0 0.23 0.59 300.0 400.0 0.27 0.61 400.0 630.
RTD Type Range (°C) Minimum PT385, 200 ohm Maximum Accuracy (°C) Measure 4W/Source Measure 3W -200.0 -80.0 0.35 0.41 -80.0 0.0 0.40 0.46 0.0 100.0 0.42 0.49 100.0 260.0 0.45 0.52 260.0 300.0 0.45 0.52 300.0 400.0 0.52 0.59 400.0 630.0 0.53 0.61 -200.0 -80.0 0.15 0.17 -80.0 0.0 0.18 0.20 0.0 100.0 0.19 0.21 100.0 260.0 0.21 0.24 260.0 300.0 0.25 0.28 300.0 400.0 0.26 0.28 400.0 630.0 0.29 0.31 -200.0 -80.0 0.10 0.11 -80.0 0.0 0.12 0.14 0.
11. Maintenance / Warranty 11.1 Replacing Batteries Replace batteries as soon as the battery indicator turns on to avoid false measurements. If the batteries discharge too deeply the DMC1410 will automatically shut down to avoid battery leakage. Note: Use only AA size alkaline batteries or optional rechargeable battery pack. 11.2 Cleaning the Unit Warning To avoid personal injury or damage to the calibrator, use only the specified replacement parts and do not allow water into the case.
1919896 USB/RS232 Converter Cable with Miniature Plug 5353050 48" Stackable Testleads MRBK-204 Nickel-Metal Hydride Rechargeable Battery Kit with External Charger/Conditioner MRBK-AA Set of 4 AA 2500 mAH Nickel-Metal Hydride Batteries 1001-9V Battery Adapter/Charger 11.5 Warranty Martel Electronics Corporation warrants all products against material defects and workmanship for a period of twelve (12) months after the date of shipment.
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