Omega CL3001 User Manual Download

Page: 1 / 104

NORWALK, CT

e-mail: [email protected]

For latest product manuals:

www.omegamanual.info

Shop online at

omega.com

User’s Guide

CL3001

Lab Calibrator

Summary of Contents for CL3001

Page 1: ...NORWALK CT e mail info omega com For latest product manuals www omegamanual info Shop online at omega com User sGuide CL3001 Lab Calibrator ...

Page 2: ...specifications without notice omega com info omega com Servicing North America U S A Omega Engineering Inc Headquarters Toll Free 1 800 826 6342 USA Canada only Customer Service 1 800 622 2378 USA Canada only Engineering Service 1 800 872 9436 USA Canada only Tel 203 359 1660 Fax 203 359 7700 e mail info omega com For Other Locations Visit omega com worldwide ...

Page 3: ...tector RTD and Ohms Measure 19 4 4 Resistance Temperature Detector RTD and Ohms Source 20 4 5 Resistance Temperature Detector RTD with Custom Coefficients 22 4 6 Standard Platinum Resistance Thermometer SPRT Coefficients 24 4 7 Thermocouple T C Measure 25 4 8 Thermocouple TC Source 26 4 9 Pressure Measure 28 5 Isolated Inputs 29 5 1 Voltage Input 29 5 2 Current Input 30 5 3 Pressure Input 30 6 Out...

Page 4: ...Command Listing 62 11 Maintenance 86 11 1 Cleaning the Calibrator 86 11 2 Replacing a Line Fuse 86 11 3 Changing the Line Voltage 87 12 Specifications 88 12 1 General Specifications 88 12 2 DC Voltage Specifications Output 89 12 3 DC Voltage Specifications Isolated Input 89 12 4 DC Current Specifications Output 89 12 5 DC Current Specifications Isolated Input 90 12 6 Resistance Specifications Outp...

Page 5: ...1 2 Standard Equipment Power cord Thermocouple shorting jumper 1 3 Options and Accessories 4 Wire PT100 RTD probe P M 1 10 1 8 6 0 P 3 Traceable certificate of calibration for RTD Cal 3 RTD Thermocouple extension cables male mini connector to spade lug length is 2 ft CL 300 CABLE 2 Insert one thermocouple for CL 300 CABLE J K T E R S B N Test leads Black red set banana plug to banana plug 1 m L 3 ...

Page 6: ...01 Calibrator Instruction Manual AC Line Cord Thermocouple Shorting Jumper Certified Certificate 1 5 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 Symbol Description AC Alternating Current AC DC Battery CE Complies with European Union Directives DC Double Insulated Electric...

Page 7: ... suitable for the voltage and outlet of the location in which you are working Do not use the calibrator if it is damaged Before you use the calibrator inspect the case Look for cracks or missing plastic Pay particular attention to the insulation surrounding the connectors Inspect the test leads for damaged insulation or exposed metal Check test lead continuity Replace damaged test leads before you...

Page 8: ...e before you attach the pressure module to the pressure line Caution To avoid possible damage to the calibrator or to the equipment under test Use the proper terminals function and range for your measurement or sourcing application 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 and the body of...

Page 9: ...and controls See section 2 3 for details 3 Isolated input display controls and terminals See section 2 4 for details 2 2 Primary Input Output Terminals Figure 2 describes the primary input output terminals in detail The display and controls for these terminals are described in the next section Figure 2 Primary Input Output Terminals 5 ...

Page 10: ...e RTD and Ohms input terminals See notes 1 and 3 below 6 Pressure module input connector Note 1 These terminal binding posts are made of a special copper alloy to reduce thermal EMF s They support the use of either discreet wires or standard banana plugs and the HI LO pairs are spaced for standard dual banana plugs Note 2 Caution Do not exceed a maximum of 100 volts to chassis ground Note 3 Cautio...

Page 11: ...to output mode INPUT Change RTD Ohms or Thermocouple to input mode ZERO Zero the input for Pressure Thermocouple millivolts or RTD ohms SETUP Adjust the LCD Contrast LCD Backlight and Remote Interface Configuration as described in section 8 CJC Select internal or external cold junction compensation for Thermocouple temperature measurements When external compensation is selected XCJC is displayed a...

Page 12: ...are ignored including this one and the remote command LOCAL must be received to regain local control EXP Press during entry of a RTD custom curve coefficient to begin entering the exponent 3 Function keys Select DC voltage or current output mode and toggle between them Select Thermocouple or RTD Ohms input output mode and toggle between them Select Pressure input mode In Thermocouple mode cycle th...

Page 13: ...ad entry and reverts the calibrator output or parameter to its last known value Prepares for selection of a secondary function via the numeric keypad according to the text above each key The display changes to SHIFT ENABLED until a numeric key is pressed To cancel the selection press again 4 Cursor controls Press or to position the cursor under the digit in an output value that is to be incremente...

Page 14: ...r possible error messages 2 Function keys Select DC voltage and current input mode Subsequent presses of this key cycle through the ranges 10V 100V and 50mA When using 50mA mode to test a 2 wire loop powered transmitter that is disconnected from its wiring press this key to activate an internal 24V power supply in series with the current measuring circuit Press the key again to deactivate the 24V ...

Page 15: ...eously and can be set to display the same pressure measurement in different units if desired 3 Input Terminals Common input terminals for DC voltage and current See notes 1 and 2 below Note 1 These terminal binding posts are made of a special copper alloy to reduce thermal EMF s They support the use of either discreet wires or standard banana plugs and the HI LO pairs are spaced for standard dual ...

Page 16: ...ductor adapter or extension cord as this will break the protective ground Use the chassis ground terminal for a protective ground wire if there is any question about the grounding through the 3 conductor power cord 5 Standard IEC AC power inlet for 120 240 VAC 6 Main power on off switch 7 Power line voltage selector and fuse compartment See section 11 for instructions on changing the line voltage ...

Page 17: ...RTD TC or rem for remote operation 2 Input or output selection 3 RTD or thermocouple type selection 4 Output state for RTD outputs Stby Standby terminals inactive Opr Operating terminals are active with output per the displayed value Blank for RTD inputs Cold junction selection for thermocouple inputs and outputs XCJC External cold junction compensation the CL3001 automatic cold junction compensat...

Page 18: ...ing remote operation 2 Input value d Isolated Voltage and Current Display Figure 9 Isolated Voltage and Current Display Layout Item Description 1 Selected range and input mode 10V RANGE or 100V RANGE for DC voltage 50mA RANGE for basic DC current 24mA LPWR for loop powered 2 wire transmitter 24mA LPWR HART for loop powered 2 wire transmitter with 250 ohm resistor in circuit 2 Input value 3 Units 1...

Page 19: ...ds the CL3001 specifica tions For DC current mode the resistance of the circuit exceeds the CL3001 specifications OL For input modes the measured value exceeds the upper limit of the selected input mode range For output modes when the range is locked the present automat ically recalled preset setpoint exceeds the upper limit of the locked range The output is set to zero for the duration of this se...

Page 20: ...osition If the setting is not correct follow the instructions in section 11 3 to change it b Once the voltage selection has been made making sure that the power switch is off connect the AC power cord to the CL3001 see figure 5 in section 2 5 for the location c Turn on the CL3001 using the rear panel mounted rocker switch The CL3001 should power up within a few seconds briefly displaying the model...

Page 21: ...hanges to an output value are required or if specific decades need to be incremented or decremented e When DC voltage mode is first selected the CL3001 is placed in the standby Stby mode which puts the positive output jack into a high impedance state 100k ohm for safety To place the output into the active state press the key which toggles between the standby and operate modes The standby mode is a...

Page 22: ... the unit under test to the current output terminals of the CL3001 as shown in figure 11 Figure 11 DC Current Output Connection d Use the numeric keypad to enter the desired output value and press the key Alternatively use the or cursor key to select a digit to modify followed by the or cursor key to ramp the digit up or down This method offers a simple solution when small changes to an output val...

Page 23: ...ng common RTD types are supported Pt 385 100Ω 200Ω 500Ω 1000Ω Pt 3926 100Ω Pt 3916 JIS 100Ω Ni120 120Ω Cu 427 10Ω YSI 400 a Disconnect any test leads from external devices b Press the key to select thermocouple and RTD Ω mode if not already selected If thermocouple mode is displayed press the key again to cycle to RTD Ω mode c If output mode is displayed select input mode by pressing the and keys ...

Page 24: ...TD measure function as described above and press the key until the low or high ohms range is selected Short the RTD Ω terminals with the test leads normally used for RTD Ω measurements Allow at least 3 minutes for the test leads and terminals to stabilize to the same temperature Press the and keys to zero the ohms range 4 4 Resistance Temperature Detector RTD and Ohms Source The CL3001 can source ...

Page 25: ...e 13 RTD Ω Output Connection f Press the and keys to toggle the RTD display between F and C g Use the numeric keypad to enter the desired output value and press the key Alternatively use the or cursor key to select a digit to modify followed by the or cursor key to ramp the digit up or down This method offers a simple solution when small changes to an output value are required or if specific decad...

Page 26: ... entry f At the ENTER MIN TEMP prompt enter the minimum temperature limit for the custom RTD curve and press the key g At the ENTER MAX TEMP prompt enter the maximum temperature limit for the custom RTD curve and press the key h At the ENTER R0 prompt enter the nominal resistance value R0 for the custom RTD curve and press the key i At the ENTER COEFF A prompt enter the first A coefficient for the...

Page 27: ...Only the A and B coefficients are needed for the subrange 0 to 630 degrees The R0 value is the resistance of the probe at 0 degrees Celsius All 5 of the custom RTD curves are set to PT385 at the factory as shown in Table 2 Table 2 Default Custom RTD Coefficients Curve Subrange R0 Coefficient A Coefficient B Coefficient C 1 0 to 630 100 3 9083e10 3 5 775e10 7 0 2 260 to 0 100 3 9083e10 3 5 775e10 7...

Page 28: ...273 15K to 692 67K subrange was used A and B would represent A8 and B8 and C 0 To enter the deviation coefficients for a custom SPRT a Select RTD measure mode as described in the preceding section b Press the key until the SPRT type is selected c Press the key to display the action prompt SET 1 RECALL 2 d Press to select custom SPRT data entry e At the ENTER MIN TEMP prompt enter the minimum tempe...

Page 29: ...10 0 to 75 0 mV The following common thermocouple types are supported B C E J K L N R S T U XK BP a Disconnect any test leads from external devices b Press the key to select thermocouple and RTD O mode if not already selected If RTD O mode is displayed press the key again to cycle to thermocouple mode c If output mode is displayed select input mode by pressing the and keys d Press the key to selec...

Page 30: ...perature range of 18 to 28 C The maximum offset from unit calibration that can be zeroed out is 1 mV To zero the T C millivolt circuit Select the thermocouple measure function as described above and press the key until the millivolt range is selected Insert the supplied thermocouple shorting jumper into the thermocouple terminals Allow at least 3 minutes for the jumper and terminals to stabilize t...

Page 31: ...One pin is wider than the other do not attempt to force the plug in the wrong polarization The T C wire used for the connection must match the thermocouple type selected for proper cold junction compensation If the CL3001 and the T C miniplug are at different temperatures wait at least 3 minutes for the miniplug and terminals to stabilize to the same temperature Figure 15 Thermocouple Output Conne...

Page 32: ... can support the following types of pressure modules Omega Pressure Modules Mensor Corporation Model 6100 Modules The Omega modules require the use of the Omega PCL PMA Adapter and offer the best performance vs cost The adapter allows the user to Hot Swap a pressure module for quick range changes For applications that require very high accuracy the Mensor 6100 Series while expensive will yield the...

Page 33: ...when dealing with high pressures 5 Isolated Inputs 5 1 Voltage Input The CL3001 can measure DC voltages from 0 V to 100 V using the following two ranges for maximum accuracy 10 V and 100 V a Disconnect any test leads from external devices b Press the key to select isolated DC voltage and current input mode if not already selected If the desired DC voltage mode is not displayed press the key again ...

Page 34: ...WR to indicate that the supply is activated Press the key again to deactivate the supply and the top line reverts to 50mA RANGE e If a 250 ohm resistor is required during a HART calibration procedure press the key to switch in the CL3001 internal 250 ohm resistor The word HART is appended to the top line of the display to indicate that the resistor is switched in Press the key again to switch out ...

Page 35: ...ys e Attach the module to the pressure source according to the instruction sheet that came with the module taking care to follow all safety precautions when dealing with high pressures 6 Output Setpoints Nine preset output setpoints may be stored and recalled for each of the following output modes Voltage Current each thermocouple type including millivolts each RTD type including each of the five ...

Page 36: ...n be located after the usual ending setpoint number To recall a single setpoint a Select the output mode b Press the and keys to select the RECALL function c At the setpoint number selection prompt RECALL SPT press the numeric key 1 to 9 corresponding to the setpoint to be recalled To start an automatic setpoint cycle a Select the output mode b Press the and keys to select the AUTOSET function c A...

Page 37: ...ry display as described in section 4 9 3 Select current input on the isolated display as described in section 5 2 Select the isolated loop power option If a HART communicator is to be used for set up of the transmitter select the HART option 4 Connect the transmitter as shown in figure 20 5 Test and calibrate the transmitter per the manufacturer s instructions 33 ...

Page 38: ...rrent output on the primary display as described in section 4 2 3 Select pressure input on the isolated display as described in section 5 3 4 Connect the transmitter as shown in figure 21 5 Test and calibrate the transmitter per the manufacturer s instructions 7 3 V I Transmitter Figure 22 V I Transmitter Application 34 ...

Page 39: ...4 Connect the transmitter as shown in figure 22 5 Test and calibrate the transmitter per the manufacturer s instructions 7 4 RTD Test Figure 23 RTD Test Application 1 Disconnect any test leads from external devices 2 Select RTD input on the primary display as described in section 4 3 Select the RTD type which corresponds to the RTD being tested 3 Connect the RTD as shown in figure 23 4 Test the RT...

Page 40: ...o the transmitter being tested 3 Select current input on the isolated display as described in section 5 2 Select the isolated loop power option If a HART communicator is to be used for set up of the transmitter select the HART option 4 Connect the transmitter as shown in figure 24 5 Test and calibrate the transmitter per the manufacturer s instructions 7 6 Thermocouple Test Figure 25 Thermocouple ...

Page 41: ...ouple Transmitter Application 1 Disconnect any test leads from external devices 2 Select thermocouple output on the primary display as described in section 4 8 Select the thermocouple type which corresponds to the transmitter being tested 3 Select current input on the isolated display as described in section 5 2 Select the isolated loop power option If a HART communicator is to be used for set up ...

Page 42: ...ct the RTD type which corresponds to the indicator being tested 3 Connect the indicator as shown in figure 27 4 Test and calibrate the indicator per the manufacturer s instructions 7 9 Precision Current Trip Figure 28 Precision Current Trip Application 1 Disconnect any test leads from external devices 2 Select current output on the primary display as described in section 4 2 38 ...

Page 43: ...er Figure 29 I I Isolator Transmitter Application 1 Disconnect any test leads from external devices 2 Select current output on the primary display as described in section 4 2 3 Select current input on the isolated display as described in section 5 2 Select the isolated loop power option 4 Connect the transmitter as shown in figure 29 5 Test and calibrate the transmitter per the manufacturer s inst...

Page 44: ...s the total system error is 0 03 C 2 Disconnect any test leads from external devices 3 Select RTD input on the primary display as described in section 4 3 Select the user defined curve containing the custom coefficients for the Probe If custom coefficients have not yet been entered for the Probe follow the instructions in section 4 5 to do so 4 Connect the probe as shown in figure 30 40 ...

Page 45: ...displayed press the key 9 Remote Interface 9 1 Introduction The CL3001 can be controlled remotely from a personal computer PC using either a RS 232 serial connection or an IEEE 488 parallel connection also called a General Purpose Interface Bus or GPIB connection In either case individual commands can be typed into a terminal emulator program suitable for the connection type or the calibrator can ...

Page 46: ... link with a PC The RS 232 cable length for the port should not exceed 15 meters 50 feet although longer cable lengths are permitted if the load capacitance measured at a connection point including signal terminator does not exceed 2500 pF The serial communications parameters in the CL3001 are fixed at the following values 9600 baud 8 data bits 1 stop bit no parity Xon Xoff EOL end of line charact...

Page 47: ...a talker listener A PC equipped with an IEEE 488 interface controls the CL3001 When using the IEEE 488 remote control interface there are two restrictions A maximum of 15 devices can be connected in a single IEEE 488 bus system The total length of IEEE 488 cables used in one IEEE 488 bus system is 2 meters times the number of devices in the system or 20 meters whichever is less See section 8 for i...

Page 48: ...remote state when it receives a remote command This state can only be entered by sending the IEEE 488 command GTL Go To Local when in the remote with lockout state c Remote State When the CL3001 is placed in remote either via a RS 232 REMOTE command or via the IEEE 488 asserting the REN line it enters the remote state The left end of the top line of the display changes to rem Front panel operation...

Page 49: ...nge rate is 1 Mbyte per second with a maximum distance of 20 meters for the total length of the connecting cables A single cable should not exceed 4 meters in length Several commands are used only for RS 232 serial operation because these functions must be implemented as IEEE uniline single control line bus management messages per the IEEE Standards For example the command REMOTE could be sent as ...

Page 50: ...wer case letters to upper case before processing 9 6 1 Types of Commands The commands for the CL3001 can be grouped into the following categories based on how they function a Device Dependent Commands Device dependent commands are unique to the CL3001 An example of a device dependent command is OUT 1 V This command instructs the CL3001 to source 1 volt DC b Common Commands Common commands are defi...

Page 51: ...onverted to parallel signal levels on the bus data and control lines IEEE 488 standards define interface messages which are handled automatically in most cases e Compound Commands A compound command is two or more commands placed on a single command line separated from each other with semicolons For example consider the following two individual commands OUT 1 V OPER These could be combined into th...

Page 52: ...ace the CL3001 into remote operating mode but it is not because the IEEE Standards call for the remote function to be sent to the device as the uniline message REN This is also true for several other commands and functions as shown in table 6 below with their RS 232 equivalents For these commands the detailed command descriptions in section 10 show a check mark beside RS 232 but no check mark besi...

Page 53: ...Ohm Resistance in units of ohms kOhm Resistance in units of kilohms1 MOhm Resistance in units of megohms1 cel Temperature in degrees Celsius far Temperature in degrees Fahrenheit psi Pressure in pounds per square inch mmHg Pressure in millimeters of mercury at 0 C inHg Pressure in inches of mercury at 0 C inH2O4C Pressure in inches of water at 4 C inH2O20C Pressure in inches of water at 20 C inH2O...

Page 54: ...n parameters as desired Extra spaces within a parameter are generally not allowed except between a number and its associated multiplier or unit d Terminators Table 8 summarizes the terminator characters for both the IEEE 488 and the RS 232 remote interfaces Table 8 Terminator Characters Terminator Function ASCII Character Control Language Command Command Number Program Terminator Terminator Carria...

Page 55: ...converted to upper case before processing f Response Message Syntax In the detailed command descriptions in section 10 the responses from the CL3001 are described wherever appropriate In order to know what type of data to read in refer to the beginning of the response description for the command 9 7 Checking CL3001 Status Figure 33 shows the status registers enable registers and queues in the CL30...

Page 56: ...egister ESE ESE ESE Each status register and queue has a summary bit in the Serial Poll Status Byte Enable registers are used to mask various bits in the status registers and to generate summary bits in the Serial Poll Status Byte For IEEE 488 interface operation the Service Request Enable Register is used to assert the SRQ control line on detection of any status condition or conditions that the p...

Page 57: ...available An error has occurred and an error is available to be read from the error queue by using the FAULT query Figure 34 Serial Poll Status Byte STB and Service Request Enable SRE Registers 2 Service Request SRQ Line IEEE 488 Service Request SRQ is an IEEE 488 1 bus control line that the CL3001 asserts to notify the controller that it requires some type of service Many instruments can be on th...

Page 58: ...s bit CME 5 in the Event Status Register ESR goes to 1 if enabled in ESE register and the error is logged in the error queue 6 Event Status Enable ESE Register A mask register called the Event Status Enable register ESE allows the controller to enable or mask disable each bit in the ESR When a bit in the ESE is 1 the corresponding bit in the ESR is enabled When any enabled bit in the ESR is 1 the ...

Page 59: ...lk when no response data was available or appropriate or when the controller failed to retrieve data from the output queue OPC Operation complete All commands previous to reception of a OPC command have been executed and the inter face is ready to accept another message Figure 35 Event Status Register ESR and Event Status Enable ESE Registers 8 Programming the ESR and ESE To read the contents of t...

Page 60: ... byte from the controller it places the byte in a portion of memory called the input buffer The input buffer holds up to 250 data bytes and operates in a first in first out fashion IEEE 488 interface The CL3001 treats the IEEE 488 EOI control line as a separate data byte and inserts it into the input buffer if it is encountered as part of a message terminator Input buffer operation is transparent ...

Page 61: ...Returns the contents of the Event Status Enable register ESR Returns the contents of the Event Status register and clears the register IDN Identification query Returns the manufacturer model number serial number and firmware revision level of the Calibrator OPC Sets bit 0 OPC for Operation Complete in the Event Status Register to 1 when all pending device operations are complete OPC Returns a 1 af...

Page 62: ...T Returns the isolated display pressure units LOOP_POWER Returns the 24V loop power setting for the isolated milliamp range ON or OFF LOOP_POWER _OFF Turns off the 24V loop power on the isolated milliamp range LOOP_POWER _ON Turns on the 24V loop power on the isolated milliamp range PRES_UNIT Sets the primary display pressure units PRES_UNIT Returns the primary display pressure units RTD_TYPE Sets...

Page 63: ...ule for its manufacturer and serial number PRES_MEAS Changes the operating mode of the primary display to pressure measurement RTD_MEAS Changes the operating mode to RTD measurement TC_MEAS Changes the operating mode to thermocouple measurement VAL Returns the last values for the isolated and primary measurements in that order ZERO_MEAS Zeros the pressure module TC mV or RTD ohms ZERO_MEAS Returns...

Page 64: ...An attempt to enter RTD source mode was made when SPRT is selected or to select SPRT when RTD source mode is selected 105 EXE Entry is above upper limit for the selected out put range 106 EXE Entry is below lower limit for the selected out put range 108 CME A required command parameter was missing 109 CME An invalid TC_MEAS or RTD_MEAS unit parameter not CEL or FAR was received or an invalid PRES_...

Page 65: ... 01 ohm on the low range 117 CME An unrecognizable command was received 118 CME An invalid parameter was received 120 EXE The serial input buffer overflowed 121 EXE The command string buffer overflowed 122 QYE The serial output buffer overflowed 123 DDE The output overloaded See display error message OVER LOAD in section 2 7 124 DDE The CL3001 is out of tolerance This error is set after a failed i...

Page 66: ...ne Response None Example CLS This example clears the ESR the error queue and the RQS bit in the status byte ESE IEEE 488 RS 232 Sequential Overlapped Event Status Enable command This command loads a byte into the Event Status Enable ESE register See the Event Status Enable Register ESE description in section 9 7 Parameter value where value is the decimal equivalent of the ESE byte 0 to 255 Respons...

Page 67: ...00111101 which indicates that bits 5 CME 4 EXE 3 DDE 2 QYE and 0 OPC are enabled FAULT IEEE 488 RS 232 Sequential Overlapped This command returns the most recent error code from the error queue If the queue is empty no errors have occurred it returns 0 The command is normally used to verify that the previous command did what it was intended to do Parameter None Response value where value is one of...

Page 68: ...urce DC voltage DCI source DC current RTD_OUT source RTD Ohms RTD_IN measure RTD Ohms TC_OUT source thermocouple TC_IN measure thermocouple PRESSURE measure pressure Example FUNC DC10V PRESSURE This example indicates that the isolated display is selected to the 10V range and the primary display is selected to pressure HART IEEE 488 RS 232 Sequential Overlapped This command returns the isolated DC ...

Page 69: ...ample enables the isolated DC current input HART resistor IDN IEEE 488 RS 232 Sequential Overlapped This command returns the unit identification instrument manufacturer model number serial number and firmware revision level Parameter None Response text string where text string contains the following four fields separated by commas 1 Manufacturer 2 Model number 3 Serial number always 0 4 Firmware r...

Page 70: ...S 232 Sequential Overlapped This command sets the isolated pressure unit Parameter value where value is one of the following PSI pounds per square inch INH2O4C inches of water at 4 C INH2O20C inches of water at 20 C INH2O60F inches of water at 60 F CMH2O4C centimeters of water at 4 C CMH2O20C centimeters of water at 20 C MMH2O4C millimeters of water at 4 C MMH2O20C millimeters of water at 20 C BAR...

Page 71: ... of water at 4 C INH2O20C inches of water at 20 C INH2O60F inches of water at 60 F CMH2O4C centimeters of water at 4 C CMH2O20C centimeters of water at 20 C MMH2O4C millimeters of water at 4 C MMH2O20C millimeters of water at 20 C BAR bars MBAR millibars KPA kilopascals MPA megapascals INHG inches of mercury at 0 C MMHG millimeters of mercury at 0 C KG CM2 kilograms per square centimeter Example I...

Page 72: ...lockout state when in remote control see the REMOTE command In this state no local operation is allowed at the front panel including the LOCAL key To clear the lockout condition use the LOCAL command This command duplicates the IEEE 488 LLO Local Lockout message Parameter None Response None Example LOCKOUT This example puts the instrument into the lockout state No front panel controls can be used ...

Page 73: ...2 Sequential Overlapped Operations Complete command This command sets bit 0 OPC of the Event Status Register to 1 when all pending device operations are complete Also see the ESR command Parameter None Response None Example OPC This example sets bit 0 of the Event Status Register to 1 when all pending device operations are done OPC IEEE 488 RS 232 Sequential Overlapped Operations Complete query Th...

Page 74: ...front panel terminals It also indicates Opr on the display OPER IEEE 488 RS 232 Sequential Overlapped This command returns the present operate standby mode setting Parameter None Response value where value is 1 for operate mode and 0 for standby mode Example OPER 1 This example indicates that the CL3001 is in operate mode OPT IEEE 488 RS 232 Sequential Overlapped This command returns a list of the...

Page 75: ...ut value to be generated and where units is one of the following with a possible prefix multiplier k m or u as described above V DC volts A DC current OHM Resistance CEL Temperature in Celsius FAR Temperature in fahrenheit Response None Examples Explanation OUT 15 2 V Change to DC volts output 15 2 V OUT 1 2 mA Change to DC current output 1 2 mA note units prefix multiplier m OUT 5 Ohm Change to R...

Page 76: ...l Overlapped This command queries the attached pressure module for its manufacturer serial number and firmware version Parameter None Response text string where text string contains the following three fields separated by commas 1 Manufacturer 2 Serial number 3 Firmware revision level always 0 Example PRES OMEGA 610070 0 This example indicates that the manufacturer is Omega the serial number is 61...

Page 77: ...of water at 4 C CMH2O20C centimeters of water at 20 C MMH2O4C millimeters of water at 4 C MMH2O20C millimeters of water at 20 C BAR bars MBAR millibars KPA kilopascals MPA megapascals INHG inches of mercury at 0 C MMHG millimeters of mercury at 0 C KG CM2 kilograms per square centimeter Response None Example PRES_UNIT BAR This example sets the primary display pressure units to bars PRES_UNIT IEEE ...

Page 78: ...KG CM2 kilograms per square centimeter Example PRES_UNIT BAR This example indicates that the primary pressure display units are bars RANGE IEEE 488 RS 232 Sequential Overlapped This command returns the present DC voltage or current output range Parameter None Response value where value is one of the following V_0 1V DC volts 100 mV range V_1V DC volts 1V range V_10V DC volts 10 V range V_100V DC v...

Page 79: ...alue where value is one of the following ON DC voltage range lock is on OFF DC voltage range lock is off Example RANGELCK OFF This example indicates that the range lock is off REMOTE IEEE 488 RS 232 Sequential Overlapped This command places the CL3001 into the remote state It duplicates the IEEE 488 REN Remote Enable message When the CL3001 is in the remote state but not locked out only the LOCAL ...

Page 80: ...display and selections remain as they were last selected Parameter None Response None Example RST This example resets the CL3001 invoking the commands and values shown above RTD_MEAS IEEE 488 RS 232 Sequential Overlapped This command places the primary display in RTD measure mode Parameter value where value is one of the following CEL display in degrees celsius FAR display in degrees fahrenheit No...

Page 81: ...RTD curve a 0 00385 ohms ohm C PT385_1000 1000 ohm RTD curve a 0 00385 ohms ohm C PT392_100 100 ohm RTD curve a 0 003926 ohms ohm C PTJIS_100 100 ohm RTD curve a 0 003916 ohms ohm C CU10 10 ohm RTD empirical curve NI120 120 ohm RTD empirical curve YSI_400 YSI thermistor curve OHMS_HIGH 4000 ohms range OHMS_LOW 400 ohms range SPRT standard PRT with user defined error coefficients only available for...

Page 82: ...rical curve NI120 120 ohm RTD empirical curve YSI_400 YSI thermistor curve OHMS_HIGH 4000 ohms range OHMS_LOW 400 ohms range SPRT standard PRT with user defined error coefficients only available for measurement USR_DEF x RTD with user defined custom coefficients where x is the curve number and ranges from 1 to 5 i e USR_DEF2 for curve 2 Example RTD_TYPE PTJIS_100 This example indicates that the RT...

Page 83: ...ple SRE 48 This example indicates that bits 4 MAV and 5 ESB are enabled STB IEEE 488 RS 232 Sequential Overlapped Status Byte Register query This command returns the byte in the Status Byte Register See the Status Byte Register STB description in section 9 7 Parameter None Response value where value is the decimal equivalent of the STB byte 0 to 255 Example STB 96 This example indicates that bits ...

Page 84: ...ne display in the last selected temperature unit Response None Example TC_MEAS FAR This example sets the CL3001 to thermocouple measure mode displaying in degrees fahrenheit TC_REF IEEE 488 RS 232 Sequential Overlapped This command selects the internal temperature sensor or an external reference value for cold junction compensation of thermocouple source and measurement Parameter value where value...

Page 85: ...ture source and measurement Normally before using the TC_TYPE command to select the TC type use the TSENS_TYPE command to select TC mode and afterwards set the output temperature using the OUT command if applicable A change in temperature sensors sets the output to 0 C Parameters value where value is one of the following B B type thermocouple C C type thermocouple E E type thermocouple J J type th...

Page 86: ...S S type thermocouple T T type thermocouple U U type thermocouple XK XK type thermocouple BP BP type thermocouple Z 1 mV C Example TC_TYPE K This example indicates that the thermocouple sensor type is K type TSENS_TYPE IEEE 488 RS 232 Sequential Overlapped This command sets the temperature mode to thermocouple TC or Resistance Temperature Detector RTD for temperature source and measurement Paramet...

Page 87: ... for pass or a 1 for fail If any faults are detected they are logged into the fault queue where they can be read by the FAULT query Parameter None Response value where value is one of the following 0 failed self test 1 passed self test Example TST 1 This example runs the self test and indicates that it passed VAL IEEE 488 RS 232 Sequential Overlapped This command returns the last values for the is...

Page 88: ...L 2 137000E 00 V 5 763300E 01 CEL This example indicates that the isolated measurement is 2 137 volts and that the primary measurement is 57 633 C WAI IEEE 488 RS 232 Sequential Overlapped This command prevents further remote commands from being executed until all previous remote commands have been completed For example if you send an OUT command you can cause the CL3001 to wait until the output h...

Page 89: ...ot measure absolute pressure value is barometric pressure for absolute pressure modules expressed in the currently selected pressure units Response None Example ZERO_MEAS If thermocouple millivolts are currently selected this example zeros the offset ZERO_MEAS IEEE 488 RS 232 Sequential Overlapped This command returns the zero offset for pressure modules thermocouple millivolts or RTD ohms Paramet...

Page 90: ...e or fuse compartment The line power fuses and line voltage selector are located in the compartment above the power switch on the right rear of the Calibrator See the rear panel layout in section 2 5 Table 10 shows the correct replacement fuse for each line voltage setting Table 10 Replacement Fuses Fuse Description Line Voltage Setting 0 25 A 250 V fast 120 V 90 V to 132 V 0 125 A 250 V fast 240 ...

Page 91: ... 240 V for line voltages between 198 V and 264 V Warning To avoid electrical shock hazard disconnect line power before opening the case or fuse compartment To change the line voltage 1 Disconnect line power 2 Using the blade of a suitable flat screwdriver pry up the tab at the base of the line fuse compartment by inserting the blade in the center slot under the tab The compartment cover will pop p...

Page 92: ... 5 C is 10 of the 90 day specification or 1 year if applicable per C Relative humidity Operating 80 to 30 C 70 to 40 C 40 to 50 C Storage 95 noncondensing Altitude Operating 3 050 m 10 000 ft maximum Nonoperating 12 200 m 40 000 ft maximum Safety EN 61010 Second ANSI ISA S82 01 1994 CAN CSA C22 2 No 1010 1 92 NRTL Analog low isolation 20 V Line power Line Voltage selectable 100V 120V or 220V 240V ...

Page 93: ... 2 Remote sensing is not provided Output resistance is 1Ω Noise Bandwidth 0 1 to 10 Hz p p Bandwidth Ranges ppm of output μV 10 Hz to 10 kHz rms μV 0 to 100 000 mV 1 μV 6 μV 0 to 1 00000 V 10 μV 60 μV 0 to 10 0000 V 100 μV 600 μV 0 to 100 000 V 10 ppm 1 mV 20 mV 12 3 DC Voltage Specifications Isolated Input Absolute Uncertainty Ranges tcal 5 C ppm of reading mV Resolution 0 to 10 0000 V 50 0 2 100...

Page 94: ...1 year Resolution Nominal Current1 5 to 400 000 Ω 0 012 Ω 0 015 Ω 0 001 Ω 1 to 3 mA 5 to 4 00000 kΩ 0 25 Ω 0 3 Ω 0 01 Ω 100 µA to 1 mA 1 Continuously variable from 0 to 4 kΩ 2 For currents lower than shown the specification becomes New Spec Stated Spec x Imin Iactual For example a 500 µA stimulus measuring 100 Ω has a specification of 0 015 Ω x 1 mA 500 µA 0 03 Ω 12 7 Resistance Specifications Inp...

Page 95: ... 650 C 0 14 C 0 16 C 650 C 1000 C 0 16 C 0 21 C J 210 C 100 C 0 20 C 0 27 C 100 C 30 C 0 18 C 0 20 C 30 C 150 C 0 14 C 0 16 C 150 C 760 C 0 14 C 0 17 C 760 C 1200 C 0 18 C 0 23 C K 200 C 100 C 0 25 C 0 33 C 100 C 25 C 0 19 C 0 22 C 25 C 120 C 0 14 C 0 16 C 120 C 1000 C 0 19 C 0 26 C 1000 C 1372 C 0 30 C 0 40 C L 200 C 100 C 0 37 C 0 37 C 100 C 800 C 0 26 C 0 26 C 800 C 900 C 0 17 C 0 17 C N 200 C ...

Page 96: ...0 36 C 1000 C 1400 C 0 30 C 0 37 C 1400 C 1750 C 0 35 C 0 46 C T 250 C 150 C 0 51 C 0 63 C 150 C 0 C 0 18 C 0 24 C 0 C 120 C 0 13 C 0 16 C 120 C 400 C 0 12 C 0 14 C U 200 C 0 C 0 56 C 0 56 C 0 C 600 C 0 27 C 0 27 C XK 200 C 100 C 0 22 C 0 22 C 100 C 300 C 0 12 C 0 13 C 300 C 800 C 0 19 C 0 20 C BP 0 C 200 C 0 42 C 0 42 C 200 C 600 C 0 32 C 0 32 C 600 C 800 C 0 39 C 0 40 C 800 C 1600 C 0 45 C 0 46 ...

Page 97: ...C Pt 3916 100 Ω 200 C 190 C 0 03 C 0 03 C 190 C 80 C 0 03 C 0 04 C 80 C 0 C 0 03 C 0 04 C 0 C 100 C 0 03 C 0 04 C 100 C 260 C 0 03 C 0 04 C 260 C 300 C 0 03 C 0 04 C 300 C 400 C 0 03 C 0 04 C 400 C 600 C 0 04 C 0 05 C 600 C 630 C 0 04 C 0 05 C Pt 385 200 Ω 200 C 80 C 0 31 C 0 38 C 80 C 0 C 0 32 C 0 38 C 0 C 100 C 0 33 C 0 39 C 100 C 260 C 0 33 C 0 39 C 260 C 300 C 0 36 C 0 43 C 300 C 400 C 0 36 C ...

Page 98: ...C 0 06 C 0 07 C 80 C 0 C 0 06 C 0 08 C 0 C 100 C 0 07 C 0 08 C 100 C 260 C 0 07 C 0 08 C 260 C 300 C 0 07 C 0 09 C 300 C 400 C 0 07 C 0 09 C 400 C 600 C 0 08 C 0 09 C 600 C 630 C 0 08 C 0 09 C Ni 120 120 Ω 80 C 0 C 0 02 C 0 02 C 0 C 100 C 0 02 C 0 02 C 100 C 260 C 0 01 C 0 02 C Cu 427 10 Ω 100 C 260 C 0 30 C 0 38 C YSI 400 15 C 50 C 0 005 C 0 007 C 1 2 wire output 94 ...

Page 99: ...06 C 190 C 80 C 0 011 C 0 012 C 80 C 0 C 0 014 C 0 015 C 0 C 100 C 0 018 C 0 019 C 100 C 260 C 0 025 C 0 028 C 260 C 300 C 0 026 C 0 029 C 300 C 400 C 0 031 C 0 034 C 400 C 600 C 0 040 C 0 045 C 600 C 630 C 0 042 C 0 047 C Pt 385 200 Ω 200 C 80 C 0 008 C 0 009 C 80 C 0 C 0 012 C 0 013 C 0 C 100 C 0 015 C 0 017 C 100 C 260 C 0 020 C 0 022 C 260 C 300 C 0 050 C 0 053 C 300 C 400 C 0 053 C 0 057 C 40...

Page 100: ...019 C 0 020 C 100 C 260 C 0 025 C 0 028 C 260 C 300 C 0 027 C 0 030 C 300 C 400 C 0 030 C 0 034 C 400 C 600 C 0 041 C 0 045 C 600 C 630 C 0 042 C 0 047 C Ni 120 120 Ω 80 C 0 C 0 009 C 0 010 C 0 C 100 C 0 010 C 0 011 C 100 C 260 C 0 011 C 0 012 C Cu 427 10 Ω 100 C 260 C 0 067 C 0 069 C YSI 400 15 C 50 C 0 005 C 0 007 C SPRT 200 C 660 C 0 05 C 0 06 C 1 4 wire mode Uncertainties listed do not include...

Page 101: ...ressure module PSI pounds per square inch in H2O 4ºC inches of water at 4 degrees Celsius in H2O 20 C inches of water at 20 degrees Celsius in H2O 60 F inches of water at 60 degrees Fahrenheit cm H2O 4ºC centimeters of water at 4 degrees Celsius cm H2O 20 C centimeters of water at 20 degrees Celsius mm H2O 4ºC millimeters of water at 4 degrees Celsius mm H2O 20 C millimeters of water at 20 degrees...

Page 102: ...by OMEGA if the unit is found to be defective it will be repaired or replaced at no charge OMEGA s WARRANTY does not apply to defects resulting from any action of the purchaser including but not limited to mishandling improper interfacing operation outside of design limits improper repair or unauthorized modification This WARRANTY is VOID if the unit shows evidence of having been tampered with or ...

Page 103: ......

Page 104: ...s Air Velocity Indicators Turbine Paddlewheel Systems Totalizers Batch Controllers pH CONDUCTIVITY pH Electrodes Testers Accessories Benchtop Laboratory Meters Controllers Calibrators Simulators Pumps Industrial pH Conductivity Equipment DATA ACQUISITION Communications Based Acquisition Systems Data Logging Systems Wireless Sensors Transmitters Receivers Signal Conditioners Data Acquisition Softwa...

Search results

Summary of Contents for CL3001

Reviews:

Related manuals for CL3001

Brands by name

Popular brands

Omega CL3001, User Manual

Search results

Summary of Contents for CL3001

Reviews:

Related manuals for CL3001

Brands by name

Popular brands