BetaGauge 320 User Manual
Contents
1. H20 60 F 27 130 H20 20 C 70 310 cmH20 4 C 70 376 cmH20 60 F 70 433 cmH20 20 C If conversions at full scale exceed the maximum 50 000 count resolution the converted engineering unit becomes invalid and will not display 48 SPECIFICATIONS MODEL 320 PRESSURE CALIBRATOR AVAILABLE RANGES Gauge Vacuum Absolute Differential PSIG PSIG PSIA PS1D gt 0 0 39 O to 1 0 15 0 1 Q 1 O to 5 0 30 Q 5 0 5 0 to 15 0 50 0 30 0 7 8 0 50 0 15 Prior to Jan 2002 these ranges were 0 30 typically non isolated sensors that required Z clean dry non corrosive air or gasses for 0 50 pressure media As of Jan 2002 all 0 100 aabsolute ranges and positive gauge ranges 0 150 from 5 PSI full scale through 5k are isolated 0 300 sensors where the wetted material is 316585 0 1000 xx These ranges are non isolated sensors that 0 1500 require clean dry non corrosive air or gas 0 3000 for pressure media 0 5000 Maximum static pressure 200 PSIG Plus deviations only All ranges come standard with eight engineering units readout selection keypad selectable by the operator inH2O inHg PSI kPa mmHg mbar cmH20 bars plus a user defined scale see appendix B 49 ACCURACY PRESSURE Rdg FS 1 LSD PST Range Rdg PFS PSI Res 0 39 0 07 0 03 0 0001 1 0 07 0 03 0 0001 5 0 05 0 02 0 001 7 8 0 05 0 02 0 001 15 0 05 0 02 0 001 30 0 05 0 02 0 001 50 0 05 0 02 0 001 100 0 05 0 022. s name cannot be changed unless the operator knows the unit s access code The access code is unique to each calibrator and is printed on the individual calibration sheet that 19 shipped with each calibrator When a new calibrator 1s received the owner should enter the desired owner name and file the access code in a safe place for future reference DO NOT keep the access code with the calibrator When the owner setup is selected the operator is prompted to enter the access code Enter the access code from the calibration sheet and press Enter If the correct code is entered the next display will be the current owner name on the top line YOUR NAME HERE The name of the owner can be any alphanumeric combination of characters up to a maximum of 16 The characters are assigned by entering the decimal 25 value of the desired character Appendix A lists the values for each character To advance to the next position without changing the ENT gt key repeatedly to exit the routine 6 Calib User Calibration The Model 320 s a fully digital instrument that employs advanced software correction algorithms to allow the instrument to be fully calibrated without the use of any analog adjustments 1 e trim pots The Model 320 allows all parameters except temperature compensation to be adjusted from the keypad CALIBRATION SHOULD ONLY BE ATTEMPTED BY QUALIFIED PERSONNEL HAVING SUITABLE METROLOGY STANDARDS AVAILABLE The
3. 0 01 150 0 05 0 02 0 01 300 0 06 0 03 0 01 1000 0 06 0 03 0 1 1500 0 07 0 03 0 1 3000 0 1 0 1 5000 0 1 0 1 Includes the effects of non linearity repeatability hysteresis and temperature for 180 days Sensors manufactured prior to 1997 may display 4 decimal places 50 ELECTRICAL FS 1 LSD Standard Units Range Units FS Res 0 10 V 0 025 0 001 0 30 V 0 1 0 01 0 20 mA 0 025 0 001 0 50 mA 0 1 0 01 CSA Approved Intrinsically Safe Units Range Units FS Res 0 10 V 0 05 0 001 0 30 V 0 1 0 01 0 20 mA 0 05 0 001 0 50 mA 0 1 0 01 IMPEDANCE Volts 1 MegaOhm mA 25 Ohms RESOLUTION 50 000 counts maximum depending on range see accuracy table and engineering unit see appendix B TEMPERATURE Operating 0 to 50 C No Effect on Accuracy within this range 51 Storage 30 C to 50 C with batteries 30 C to 70 C without batteries OVERPRESSURE Operating without damage or cal bration shift 0 100 ps 300 of sensor range 300 1500 psi 150 of sensor range 2000 5000 psi 150 of sensor range or 6100 ps whichever is less Custom order ranges will deviate Consult factory for overpressure specification PRESSURE FITTINGS 1 8 FNPT 316SS ELECTRICAL CONNECTIONS Miniature recessed banana jacks DISPLAY Simultaneous pressure and electrical on 32 character alphanumeric LCD display BATTERY Ni Cd four AA cells 50 hours nominal at 25 C rechargeable BATTERY CHARGER
4. The following keys are active during calibration mode 28 Select proceed to the next calibration step Clr If depressed while a user calibration step 1s enter the new calibration value from calibration source If depressed during numeric entry 1t functions as the normal clear entry key Enter and number keys used to enter calibration values Calibration values are entered as counts without any decimal places For example when calibrating milliamps the display might show 19 997 If the calibration source is 20 000 mA you would press Clr and then enter 20000 The followwing table lists the calibration steps and the required procedure to use The basic procedure for each step is to 1 Apply the requested input source 2 Observe the reading on the Model 320 3 If the reading 1s outside of limits press Clr and enter the correct value 29 4 If the reading 1s within the required limits press Select to progress to the next step After the last calibration step the user is prompted to enter the date THE CALIBRATION DATA IS NOT SAVED UNTIL A DATE IS ENTERED DETAILED PROCEDURE 1 Insure that the Model 320 to be calibrated by means of the user calibration mode is temperature stable at 25 degrees C 5 degrees Any deviation will induce temperature compensation correction inaccuracies 2 Press the set up key Select 6 from menu 2 To display the second menu screen press the select key while in
5. et 50 A v ee ee 51 Environmental 51 W s R to a pac necomnmionee 53 Return For Calibration RepalT ccccccccccnnnncnnnnnnnns 54 INTRODUCTION GENERAL DESCRIPTON The Model 320 pressure calibrator is a compact versatile functionally styled calibrator The unit is menu driven so technicians can immediately begin using it to its fullest capabilities without extensive training The Model 320 faceplate consists of three functional areas At the top is a two line alphanumeric liquid crystal display LCD for simltaneous indication of pressure and milliamps volts readings and operator prompting The center section is a membrane keypad for operator entry The lower left section contains recessed input jacks for connecting the supplied test leads to the device being calibrated The pressure connectors are at the lower end of the case and are 1 8 FNPT The Loop Power Supply LPS is an option that provides 24 VDC to power the device under test 1f 4 desired The LPS is stored in a pouch under the Model 320 calibrator for easy access BATTERY CHARGING Units are shipped with the internal batteries in an uncharged state Before using the Model 320 or the LPS as a portable unit it is necessary to charge the batteries for a minimum of 14 to 16 hours The calibrator battery charger is a wall plug in type see below that connects to a jack on the right hand side of the instrument Battery operation time is 50 hours
6. made invalid and will not be displayed when the Eng Unit key is pressed 18 After the conversion value is entered the name for the new units can be entered The name consists of 1 to 5 alphanumeric characters that are selected by entering their decimal equivalent Appendix A gives additional information on this If you do not choose to enter a name press the Clr key and a default name of USER will be applied As an example to set up a user defined scale for standard atmospheres where 1 PSI 06805 atmospheres enter the following enter 1PSI equiv Enter 06805 and press the Enter key enter units name USER 1722 19 The name shown in the lower left is the last name that has been entered To enter Atmos as the name you would enter the following values press Enter after each value 65 116 109 111 115 See Appendix A Press lt Ent gt for any undesignated letter to exit the routine If all 5 are used exiting will be automatic after the fifth entry To access the new user defined units press the EngUnit key until Atmos is displayed as the engineering units 2 BattSv Battery Save The battery save feature will turn the calibrator off 1f there is no keyboard activity for 30 minutes This prevents running the batteries down f the unit is accidentally turned on or if the unit is left unattended Battery Save should be on unless you have a specific application where the cal brator needs to run unatte
7. the setup mode Next the user will be prompted to enter the user calibration code from the unit s calibration data sheet When the correct access code is entered from this data sheet functions to be calibrated will be displayed in the following order Function Required Reference Value Volts input 10 000 Milliamp input 20 000 30 Left pressure zero Vent for gauge and gauge vacuum 0 003 PSI or less for absolute Left pressure Span FS range dependent Left pressure 25 23 of FS Left pressure 50 50 of FS Left pressure 75 75 of FS enter date single sensor Right pressure zero Vent for gauge and gauge vacuum 0 003 PSI or less for absolute Right pressure Span FS range dependent Right pressure 25 25 of FS Right pressure 50 30 of FS Right pressure 75 75 of FS enter date dual sensor If you have entered the user cal bration mode and do not wish to change any calibration values simply press the Select Key to bypass each step Bypassing each step with the Select Key will preserve the original calibration providing that the Clr Key has not been depressed at any point Enter the date per prompt to 31 exit the calibration mode To calibrate electrical or pressure functions proceed as follows 3 Apply a 10 volt signal to the volts input If adjustment is required press the CLR key Next enter the correct reference voltage value Calibration values are entered in counts without any decimal places E
8. typically for the Model 320 and 6 hours nominal at 20 milliamps for the LPS CALIBRATOR CHARGER INPUT 120 VAC 60 HZ OUTPUT 12 VDC 200 MA For use only with Beta Calibrators OPERATION The Model 320 cal brator s user friendly and menu driven A first time user can normally start operating the unit with few or no instructions The following information is intended to provide a detailed understanding of the unit POWER ON SEQUENCE The cal brator is turned on or off by pressing the On Off key Each time it is turned on a series of internal tests and cal brations are performed The start up procedures provide a pass fail test of certain internal circuitry If the tests determine the unit has an internal failure a fault message is displayed and the unit will not operate Refer to the Service Information on page 54 for information on how to contact the factory The start up calibrations provide for dynamic recalibration of the internal calibrator support circuitry by applying the primary reference voltages to points in the circuitry and recording the readings as references for further measurements The start up auto calibration does not in any way affect the primary calibration done at the factory or at a field metrology lab using available software and suitable standards During the time the start up tests and calibrations are being performed certain informational displays are presented to show the status of the cal
9. 0 mA input and to the instrument to be calibrated to form a series loop 38 4 Turn on the Model 320 and select mA 5 Select the desired engineering units by pressing the Eng Unit button 6 Press the Zero button to zero the Model 320 Checking zero several times in the first 4 minutes of operation 1s recommended 7 Proceed with calibration 39 Transmitter Calibration Using Pressure Pump UNDER TEST 4 20 mA 3 40 USING THE MODEL 320 PRESSURE CALIBRATOR AND LPS WITH A HAND PUMP l Safely take the instrument to be tested out of service equilize it and vent it 2 Vent the low side to atmosphere and connect the high side as shown being very careful that there are no leaks Note It is best to drain the high and low sides to prevent liquids from entering the calibration tubing 3 Connect the special connector to the Model 320 mA input 4 Connect the test leads to the LPS at the loop power connection and to the instrument to be calibrated being careful to observe the correct polarity 5 Turn on the Model 320 and select mA 6 Select the desired engineering units by pressing the Eng Unit key 7 Press the Zero key to zero the Model 320 Checking zero several times in the first 4 minutes of operation is recommended 8 Proceed with cal bration 41 Transmitter Calibration Using Loop Power Supply LPS 42 Pressure Switch Calibration Us
10. 0 measures voltage at the volts terminals at the lower left corner of the keypad area The negative terminal is common to volts and milliamps measurements To measure voltage press the V mA Key until Volts 1s displayed on the upper line of the LCD display If you have a Model 320 wih 2 pressure sensors you must first ensure that volts mA are available by pressing the Port Select key There are 2 voltage ranges and the Model 320 autoranges between them The ranges are 0 10 000V and 0 30 00V When the input voltage exceeds approximately 11 volts the Model 320 will change to the 30V scale When the input voltage falls below 10 5 volts the Model 320 switches back to the 10V scale MA The Model 320 measures current at the mA terminals 34 at the lower left corner of the keypad area The negative terminal is common to volts and milliamps measurements To measure current press the V mA Key until milliamps is displayed on the upper line of the LCD display If you have a Model 320 with 2 pressure sensors you must first ensure that volts mA are available by pressing the Port Select key There are 2 current ranges and the Model 320 autoranges between them The ranges are O 20 000mA and 0 50 00mA When the input current exceeds approximately 22 mA the Model 320 will change to the 50mA scale When the input current falls below 21 mA the Model 320 switches back to the 20mA scale PRESSURE The model 320 measures pressure at the
11. 1 8 FNPT port at the base of the unit Units with 2 pressure sensors or one differential sensor will have 2 ports The full scale pressure for the individual port s is shown at the base of the keypad directly above the pressure port s 35 The Model 320 does not employ any overpressure relief bypass The maximum overpressure for the various sensors is given in the specifications section Exceeding these pressures can cause a shift in the calibration of the unit or permanent damage to the sensor OPERATION LOOP POWER SUPPLY The Loop Power Supply LPS contains eight 8 AA Ni Cd batteries that provide power to a DC to DC converter This converter boosts the battery voltage 10 6 to 9 2 to 24 VDC 5 The LPS is intended for use as a power suppy for any two wire 4 to 20 milliamp instrument requiring 24 VDC power Battery life is 6 hours nominal at 20 milliamps Full specifications can be found on page 51 The LPS s designed to turn itself on and off automatically based on current demand When a series loop exists at the LPS loop power jacks calling for 5 milliamps or greater the LPS will automatically 36 turn on Open the loop and power down occurs This allows for maximum battery life by not allowing the unit to be left in the on mode accidentally The LPS can be used with or without the Model 320 calibrator When the test leads are connected from the LPS Loop Power connections to a device requiring power the LPS
12. 115 VAC 50 60 Hz wall mount 12 14 hours for full charge optional 12 VDC charger available LOOP POWER SUPPLY MODULE Rechargeable Ni Cd batteries eight AA cells 6 hours nominal 20 mA 25 C voltage 24 VDC 5 52 WARRANTY Beta Calibrators devices are warranted to be free from all latent defects in material and workmanship under normal use and service Should any of Beta Calibrators devices to be found within one 1 year from date of shipment to be defective Beta will repair such part and return to buyer FOB Beta s plant or will furnish FOB Beta s plant a similar part to replace it provided written notice of such defect s given to Beta within ten 10 days after the discovery of such defect and provided the original part is returned to Beta s plant with transportation charges prepaid THE FORGOING WARRANTIES ARE IN LIEU OF ALL OTHER WARRANTIES EXPRESSED OR IMPLIED INCLUDING BUT NOT LIMITED TO THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE 53 SERVICE INFORMATION Return for calibration recertification or repair It is recommended that each calibrator be recalibrated and or recertified on a 6 month basis against precision standards that are traceable to the National Institute of Standards and Technology All returns should include a statement on the work requested and the exact address to which the unit should be returned Beta Calibrators will return units on a p
13. MODEL 320 PRESSURE CALIBRATOR amp LOOP POWER SUPPLY BETA CALIBRATORS USER S GUIDE CALIBRATORS PRESSURE CALIBRATOR MODEL 320 TABLE OF CONTENTS INTRODUCTION Page General Descriptio ss nel 4 Model 520 Calibrators ici 4 Loop Power Supply LPS 4 Battery Chats ne il is at 5 Operation Model 320 Calibrator PowerOn Sequence sio ici 6 Battery Check Model 320 Calibrator 9 Battery Check Loop Power Supply 9 A A ee eat a 10 PTO E E letras A A tee mh Nolan 10 NI Max Key 11 ENS UMIS Keys 12 Damp Rey ae ua 12 Port Select Rev 13 MAY alada 14 TOR AA ia 14 Trip Reset Key 15 Cleat KV atmen 17 Setup Key and Mens 17 User T 18 Batte SAV Cas aaa Haa daa 20 Tos UNC HOM coset O 21 A O 24 Tip Desire Input Functions VOS T E E tee ueatiedets Millamps rd blo 34 POS SUT ansehe Differential Absolute Vacuum Operation Loop Power Supply Power On Off Sequence carnal ra 36 Batlery Check au 36 How To Use The LPS aan a 36 Application Notes Using the Model 320 Calibrator With A anid Pirin A ote outs eeaas anatomist Usina Che LPS ad ind Pressure Switch Calibration Using Trip BEE A ee Calibrating a Pneumatic Transmitter Calibration Using Function Appendix A Entering Alphanumeric Data sss sese 47 B Pressure Conversion FactorsS coooccnooccnnnccnnocon 48 Specifications PGT oaamanstot va asa uatak si o lukset ouk m ivs tat saat
14. automatically turns itself on and provides 24 VDC Breaking the connections causes the LPS to automatically turn itself off preventing needless battery drain To use the Model 320 calibrator with the LPS simply plug the special connector provided with the LPS from the plug marked Calibrator mA Input on the LPS to the Model 320 milliamp input terminals This automatically puts the Model 320 in series with the 4 to 20 mA loop Reference page 42 The Batteries of the LPS can be checked by plugging the same special cable provided with LPS from the plug marked Battery Charger on the LPS to the V input jacks on the Model 320 When voltage is selected on the keypad the LPS battery voltage will be displayed on the Model 320 37 The LPS battery voltage should be between 10 6 and 9 2 volts When the voltage falls below 8 8 volts the LPS will automatically turn itself off to prevent damage to the batteries due to possible cell reversal The battery charger used for the Model 320 should be used for the LPS APPLICATION NOTES USING THE MODEL 320 PRESSURE CALIBRATOR WITH A HAND PUMP l Safely take the instrument to be tested out of service equalize it and vent it 2 Vent the low side to atmospere and connect the high side as shown being very careful that there are no leaks Note It is best to drain the high and low sides to prevent liquids from entering the calibration tubing 3 Connect the test leads to the Model 32
15. d As numeric keys are pressed the value is echoed on the display If a keying error is made press Clr to cancel the value entered and return SETUP KEY AND MENUS The Setup key allows the user to perform certain custom operations with the Model 320 calibrator When the Setup key is pressed the display will display two menus of items that are configurable by the operator Pressing the Select key will bring up a second menu display Pressing the Select key again will bring back the original menus Pressing the Enter key will clear the Setup mode and the Model 320 will resume its normal display All of the user setup parameters are retained when the Model 320 is turned off 17 Next to each menu in Setup 1s a number Pressing that number on the keypad allows the operator to configure that specific 1tem 1 UsrEng User Defined Engineering Unit This allows the user to enter a custom engineering uit coversion The conversion factor to be entered is the conversion from PSI Up to 6 significant digits can be entered however the Model 320 calibrator will display a maximum of 50 000 counts The Model 320 will display the user defined engineering units with the same number of decimal places that were entered as the conversion factor Enter the desired conversion and press Enter If you make a mistake while entering the value press the Clr key to allow the value to be re entered If the Clr key user defined engineering units are
16. ent function Pressing the key a second time will return the display to the selected engineering units The percent mode is also terminated if a new function or engineering unit is selected TRIP RESET KEY The Trip Rst key is used in conjunction with the trip 15 detect mode that is available through the setup menus When trip detect is active the Model 320 calibrator will monitor the electrical measurement for a significant change of state When a change of state s detected the last pressure measurement is frozen on the display and the message tripped is displayed over the electrical measurement When the Trip Rst key 1s pressed the Model 320 will resume displaying the instantaneous pressure and monitoring for a change of state at the electrical terminals The message ready will be displayed over the electrical measurement A change of state 1s signified by a 10 change in either the volts or milliamps reading When trip detect 1s active voltage measurements will be made on the 30 V scale and milliamps measurements will be made on the 50 mA scale The Model 320 makes 2 3 electrical measurements per second To guarantee that the change of state will be detected the change must exist for a minimum of 2 second For a hook up diagram refer to the application note on page 43 16 CLEAR KEY The Clear key allows the operator to re enter an incorrect numeric entry When the Model 320 prompt is displaye
17. ernate the electrical measurement being displayed between milliamps and volts KEY Pressing the key will cause the Model 320 calibrator to switch from displaying in the selected engineering units to displaying the readings as a percentage The Model 320 percent function is a powerful feature that greatly simplifies the calibration of I P E P P I P E AND PY P transmitters When the percent function is active the input to the instrument being calibrated is displayed as a percent of full scale and the output from the instrument being calibrated 1s displayed as an error percent To utilize the percent function the operator should first utilize the setup function func to enter the desired zero and full scale values required for the calibrator This is described on page 21 14 Once the proper zero and full scale values have been entered the operator presses the key to activate the percent function The zero and span adjustments to the transmitter can now be quickly adjusted by applying aproximately 0 and 100 inputs to the transmitter as shown on the display and adjusting the output for 0 error as shown on the display After the zero and span adjustments have been made the linearity can be quickly checked by applying various intermediate inputs and noting the error directly in percent If there is no error 0 will be displayed for any pressure input The application note on page 45 gives examples for using the perc
18. for transmitters that accept a current or voltage as an input and produce a pressure as an output Select P I for transmitters that accept a pressure as an input and produce a current or voltage as an output Select P P for pneumatic transmitters that accept a pressure as and input and produce a pressure as an output The P P selection is only available on a Model 320 that is eguipped with two 2 pressure sensors If the P P selection is made an additional prompt screen will be displayed l input on left 2 input on right Select 1 1f the pressure input to the pneumatic transmitter is being measured on the left port of the Model 320 23 Select 2 1f the pressure input to the pneumatic transmitter is being measured on the right port of the Model 320 After the percent function setup 1s completed the function 1s activated by pressing the key 4 H Oref H O Reference Temperature The HO Reference refers to the temperature correction for inches and centimeters of water measurements There are three choices 20 C ISA Standard 4 C Scientific Standard and 60 F American Gas Association Standard Press the number for the desired temperature correction 1 20C 2 4C 3 60F 5 Owner Change Owner s Name The Model 320 calibrator contains a security feature that allows the owner to enter a name or other 24 identifying information into the calibrator s nonvolatile memory The owner
19. ibrator The first message displayed will be Beta Gauge 01 04 94 This indicates the date in MM DD YY format of the last factory calibration The example indicates the Model 320 was calibrated on Jan 4 1994 If the unit has been recalibraed in the field the date will be displayed in a MM DD YY format See page 26 for a description of the calibration procedure The next display will be property of YOUR NAME HERE This gives the name of the owner of the calibrator The preceding display shows the default setting as the calibrator 1s shipped The name can be changed through the operator setups See page 24 for how to change the owner s name The next display will be Auto Calibration in progress This display will remain until the internal tests and calibrations are finished If the auto calibration message fails to clear the unit must be returned for service See page 54 for details The next display will be the functions that had been selected when the calibrator was last used inH2O mA 0 0 0 000 This display indicates the cal brator is operating properly and is ready to go to work BATTERY CHECK The Bat Ck key may be pressed at any time after completion of the calibrator startup routine to diplay the current batttery voltage for approximately 1 second before the normal display returns The current input funciton is not disturbed by making a battery check measurement The battery voltage of the Model 320 cal
20. ibrator should be between 5 3 and 4 6 volts When the voltage falls below 4 8 volts a warning message is displayed approximately every minute When the voltage falls below 4 6 volts for 1 minute the calibrator will turn itself off to prevent damage to the batteries due to possible reversal The batteries of the LPS are checked by plugging the cable provided with the LPS into the battery charger jack located on the side of the LPS The other end of the cable should be plugged into the Model 320 V input When voltage is selected on the keypad the LPS battery voltage will be displayed on the Model 320 The LPS battery voltage should be between 10 6 and 9 2 volts indicating a full charge When the voltage falls below 8 8 volts the LPS will turn itself off to prevent damage to the batteries due to possible cell reversal SELECT KEY The Select Key is used for two functions First while in Setup pressing Select will switch the dispay from two sets of menu screens Second Select is used in the field calibration described on page 26 ZERO KEY When the Model 320 is first turned on a small zero offset may appear Pressing the zero key wil eliminate it A warm up of up to four minutes may be required to achieve nominal accuracy For absolute pressure sensors only the following procedure may be used Press the Zero Key The calibrator will request the user to enter the calibration access code found on the factory calibration data shee
21. ing Trip Detect No ORN C CONTACTS CAN BE USED 43 Calibration of a Pneumatic Flow Transmitter g paa F 44 CALIBRATION USING FUNCTION You can use the Function to calibrate a P I pressure transmitter For this example we will calibrate a pressure transmitter that has a manufacturer s range of 0 50 PSIG The desired calibration will be 0 25 PSIG for a 4 20 mA output We are using a Model 320 with a 30 PSIG range Press Setup 3 to enter the percent function setup mode Enter the following values in response to the prompts Enter input Z 0 Enter input FS 25 Enter output Z 4 Enter output FS 20 1 V P2 P 13 P P 2 The Model 320 will then exit the setup mode and resume a normal display Press the key to activate the percent function With the pressure vented to the transmitter you should see a display similar to this scale error 0 00 1 25 45 This shows that the pressure input to the transmitter 1s at 0 00 of scale and the milliamp output is 1 25 low If the of scale reading 1s not 0 you can press the Zero Key to acquire a new zero reference Change the zero adjustment on the transmitter until the error reading 1s 0 Now apply pressure to the transmitter and Model 320 and adjust the pressure until the scale reading s 95 100 Change the span adjustment on the transmitter until the error reading 1s 0 Repeat the zero and span adjustments u
22. nded for greater than 30 minutes New units are shipped with Battery Save On Battery Save 1 On 2 Off 20 Press either 1 or 2 using the numeric keys to turn battery save on or off 3 func Percent Function The percent function allows the operator to specify the zero and full scale values for a calibration to be performed The Model 320 calibrator will then automatically calculate the percent of error based on this information When the Percent Setup is selected the operator is prompted to enter the zero and full scale values for the input to the transmitter and the zero and full scale values for the output from the transmitter The first prompt screen for entering the transmitter input zero value is enter input z 0 297 The current value is shown in the lower left If there Is no change reguired simply press Enter to accept the current value Otherwise enter the desired value and press Enter 21 Note that the input will be a pressure value for P I or P P transmitters and will be a voltage or milliamp value for an I P or E P transmitter After the input zero is entered the next screens will prompt for input full scale output zero and output full scale enter input FS 100 2277 4 2999 enter output FS 20 227 After the zero and full scale values are entered the operator will be prompted to define the type of instrument being calibrated 22 2 SP 1 I P 3 PP Select I P
23. nter 10000 for 10 000 volts Repeat the sequence if necessary to acquire a proper calibration When you are satisfied with the calibration press the Select key to proceed to the next calibration step 4 The next screen will display the milliamp calibration Calibrate the full scale mA at 20 000 mA Use the CLR and Select key as previously described 5 The next prompt will be for the left pressure port The sequence will be zero span 25 50 and 75 of full scale When using a dead weight tester the exact percent of scale may not be possible The percent of scale need not be exact but should be as close as possible Many times only the zero and span will need adjustment As in the previous sequences apply the correct reference use the Clr key to clear the reading enter the new reference reading in counts without decimal places press ent to enter the new value and select key when finished to proceed to the 32 next calibration step Repeat this process for all points to be calibrated At the end of the pressure calibration sequence you will be prompted for the current date The format 1s MMDDY Y CALIBRATION DATA IS NOT SAVED UNTIL A DATE IS ENTERED 7 Trip Trip Detect The trip detect setup function allows trip detect to be turned on or off trip detect l on 2 off The operation of the trip detect function is explained on page 15 and 16 under the Trip Rst key 33 INPUT FUNCTIONS VOLTS The Model 32
24. ntil the error readings are within the accuracy required Since the Model 320 calculates the of error at any pressure input the adjustments can be quickly made After the zero and span adjustments are made the linearity can be quickly checked at 25 50 and 75 of scale and the error read out directly 46 APPENDIX A Entering Alphanumeric Data The user 1s required to enter alphanumeric data when changing the owner s name and configuring user defined engineering units Since the Model 320 does not have an alphanumeric keyboard the characters are entered by using the decimal equivalent of each character from the table below 32 sp 56 8 80 P 104 h 33 57 9 81 Q 105 i 34 8 58 82 R 106 j 35 59 83 S 107 k 36 60 84 T 108 1 37 6l 85 U 109 m 38 amp 62 86 V 110 n 39 63 87 W Jl o 40 64 a 88 X 112 p 41 65 A 89 Y 113 g 42 66 B 90 Z 114 r 43 67 C 91 115 s 44 68 D 92 Y 116 t 45 69 E 93 117 u 46 70 F 94 A 118 v 47 1 71 G 95 _ 119 w 48 0 72 H 96 120 x 49 73 97 a Di s 50 2 74 J 98 b 122 z 51 3 75 K 99 e 123 lt 52 4 76 L 100 d 124 1 53 5 77 M 101 125 gt 54 6 78 N 102 f 126 gt 55 7 79 0 103 g 0 lt 47 APPENDIX B Pressure Conversion Factors The factors used by the Model 320 Calibrator to convert from PSI to other enineering units aare listed below 2 036 Hg 0 C 51 715 mmHg 0 C 6 8948 KPascals 68 948 milliBars 068948 Bars 27 681 H20 4 C 27 707
25. parameters that are adjusted and the required reference sources are listed below 26 Function to calibrate Required ref source Volts In 10VDC 01 mA In 20mA 01 pressure zero span pressure at 0 25 linearity 50 75 100 of scale Accuracy should be 3 times better than the Model 320 range The sequence required to perform the calibrations is 1 apply the required calibration source 2 observe the reading on the Model 320 3 if the reading on the 320 is outside of the required tolerance enter the desired reading If the reading is correct proceed to the next calibration step The pressure ranges are calibrated using the engineering units that were selected when calibration mode is activated Ensure that the proper engineering units are selected before entering the calibration mode Also be sure to select the proper temperature compensation value if inches of water column are selected The temperature compensation value should be the same for the Model 320 and the pressure source 24 To place the Model 320 into the calibrate mode press 6 user cal while in set up mode screen number 2 The unit will prompt for the access code to be entered enter access code Enter the calibration access code from the individual calibration data sheet that is supplied with the unit If the correct access code is entered the Model 320 will enter the calibration mode as shown below volts user cal 10 000 volt in
26. repaid basis RETURN AUTHORIZATION All equipment and or parts to be returned to Beta Calibrators for repair or credit must have a Beta Calibrators Return Authorization Form This form will be issued by the Beta Calibrators Customer Service 972 241 2200 for credit or the Beta Calibrators Service Department 800 537 2181 for repair 54 Website www betacalibrators com Email sales betacalibrators com When calling for a form please provide your Purchase Order Number and an explanation of why equipment and or parts are being returned After the form has been obtained return equipment along with the form and a copy of your Purchase Order This will ensure rapid service and or credit Ship Prepaid To Beta Calibrators 2309 Springlake Road Suite 600 Farmers Branch Texas 75234 5875 Attention Service Department 55 BETA CALIBRATORS 2309 Springlake Road Suite 600 Farmers Branch TX 75234 5875 USA Copyright 2002 Beta Calibrators
27. t After entering the code and pressing the enter key the calibrator will prompt the user to enter the new zero actual barometric 10 pressure A barometric standard of at least 025 accuracy should be used to determine atmospheric pressure When entering this value proper decimal place entry must be observed The Zero key is inactive during user calibration Only numeric entry 9 is active in this mode MIN MAX KEY The Model 320 calibrator constantly monitors the displayed readings and stores the minimum and maximum values internally Pressing the Min Max key will cause the minimum and maximum values to be displayed The maximum values will be displayed on the top line and the minimum values will be displayed on the bottom line Pressing the Min Max key a second time will return the Model 320 to a normal display mode and will reset the minimum and maximum values to the current reading The minimum and maximum values are also reset Whenever a new function or engineering unit is selected 11 ENG UNIT KEY The Eng Unit key allows the user to select any of the 8 standard or 1 user definable engineering units to be activated for the pressure display Each time the Eng Unit key is pressed the next engineering unit is selected Engineering units which exceed PSI resolution will not be valid Example 50 000 counts when converted from the 5000 0 PSIG converted to mmHg equals 258 575 mmHg This exceeds 50 000 coun
28. ts and will not be an active unit of measurement If a user defined engineering unit has been entered it is displayed as the 9 entry The user defined entry can always be identified by a u in the first position followed by the name The user defined engineering uits are configured from the operator setup functions UsrEng DAMP KEY The Damp key alternately enables or disables damping of the displayed pressure measurements When damping is active the Model 320 displays a running average of the last 16 measurements rather 12 than the instantaneous values This feature is useful when measuring pressures that are pulsating or otherwise unstable The Model 320 makes 2 3 pressure measurements per second When the Damp mode is active the Model 320 updates the display each time a measurement 1s made The displayed is the average of the last 16 measurements PORT SELECT KEY The Port Select key 1s used to select either or both of the pressure ports to be displayed on dual sensor 320 calibrator models If the Model 320 s equipped with dual pressure sensors pressing the Port Select key will alternately select the left port the right port or both ports If both ports are selected the Model 320 will display both pressures simultaneously but milliamps or volts cannot be displayed If one port is selected the Model 320 will display one pressure and either milliamps or volts 13 MA V KEY The mA V key will alt
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