Manual Omega Engineering DPS3301

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  • Omega Engineering DPS3301 - page 1

    http://www.omega.com e - mail: info@omega.com DPS3301 Series Wall-Mount Programmable Temperature Monitor ...

  • Omega Engineering DPS3301 - page 2

    Page 2 SPECIFICATIONS .......................................................................................................................................................... 4 DESCRIPTION ............................................................................................................................................................... ...

  • Omega Engineering DPS3301 - page 3

    Page 3 R ESETTING : ................................................................................................................................................................... 16 E LECTRO -M ECHANICAL R ELAY O PTIO N ....................................................................................................................... 16 Fi ...

  • Omega Engineering DPS3301 - page 4

    Page 4 SPECIFICATIONS Typical @ 25 C and rated supply voltage unless otherwise specified. INPUTS: • Input types: J,K,T,E,R,S,B t/c, RTD, Voltage, Millivolt, Current & thermistor • Cold junction compensation erro r: +/- 0.5C m ax (10C to 40C) • Open thermocouple indication: ‘OPEN TC’ displayed OPTIONS: • 240Vac @ 50 Hz Power Supply ? ...

  • Omega Engineering DPS3301 - page 5

    Page 5 DESCRIPTION Housed in a wall-mount, water-tight plastic enclos ure, the DPS3301 Series is a powerful temperature monitor/indicator. It accepts a single Thermocouple, RTD or Thermistor sensor input and then displays the temperature in either degrees C or F. In addition, it al so monitors a num ber of useful functions such as high and low proc ...

  • Omega Engineering DPS3301 - page 6

    Page 6 How to Reset and Program Th ermocouple Type (or RTD) How to Reset and Program Th ermocouple Type (or RTD) A DPS3301-TC that is calibrated for a J, K, T, or E ty pe thermocouple or an RTD model may be programmed for a specific thermocouple, or RTD ( 385/392) type, by going into SETUP mode (Look unde r ‘SETUP’). Alternately, a thermoc oupl ...

  • Omega Engineering DPS3301 - page 7

    Page 7 SEE SETUP ON HOW TO SELECT ONE OF THE DISPLAY MODES. RETAINING USER SETTINGS ON POWER DOWN DPS3301 saves all the programmed parameters in an EEPROM (electrically erasable programmable read only memory). An EEPROM stores the programmed parame ters even when the power is removed from the unit. However, it is important to note that if the pa ra ...

  • Omega Engineering DPS3301 - page 8

    Page 8 FLOW CHART PROGRAM CONTROLLER Back to SETUP COLD JUNCTION CALIBRATION INPUT CALIBRATION DISPLAY TIM E DISPLAY OPTION a. Process b. Setpt Devn. c. In. Rate d. Process High e. Process Low f. Elapsed Time g. Timer 1 C ount h. Timer 2 C ount i. Scan all RATE TIMEBASE INPUT SIGNAL TYPE SETPT PROGRAM LI MIT2 Configure Limit3 as Process or Rate PRO ...

  • Omega Engineering DPS3301 - page 9

    Page 9 SETUP MODE Setup is used for configuring vari ous par ameters of DPS3301 unit. These parameters include entering limits, timers, dead-bands etc. Entering and Exiting Setup Mode: To get into setup mode, press and hold SETUP key. The display will show ELPSd t and then the value of elapsed time. Keep holding-in ‘ SETUP’ key till the display ...

  • Omega Engineering DPS3301 - page 10

    Page 10 'PROGRAM CONTROLLER' MODE Display Time On entering Program Controller mode, the very first step lets you program is the display time. This determines the length of time (in seconds) that any VALUE is displayed before message, such as ‘PROCESS’ is flashed. The unit will first show 'dSPLy t' (for Display Time), and the ...

  • Omega Engineering DPS3301 - page 11

    Page 11 Cold Junction adjustment: After setting Heat/Cool mode, the next parameter is the cold junction reference temperature adjustment. The display will first show 'COLd JN' , and then the cold junction temperature will be indicated. Use ‘^DIGv’ key to adjust until the display reads the proper temperature. Once the correct temperatu ...

  • Omega Engineering DPS3301 - page 12

    Page 12 NOTE 1: The unit must be powered up for at least ten minutes before any adjustments are made. NOTE 2: For calibrating units with RTD or Thermistor inputs, connect the source to input c onnector, dial in a temperature near high end of the scale and adjust gain potentiometer on the back of the unit (See figure 7 for reference). Thermocouple t ...

  • Omega Engineering DPS3301 - page 13

    Page 13 Programming Limit 3: As Process Limit: If Limit 3, in the above step, was configured as a Pro cess limit, then the message displayed on entering this mode will be ‘PrG Lt3’ . This will be followed by displaying the current value of Limit 3 . Use ‘<DIG>’ key to move flashing to the next digit and ‘^DIGv’ key to increment/de ...

  • Omega Engineering DPS3301 - page 14

    Page 14 energized. In Mode 1 the timer is ON for a programmed amount of time after a temperature limit is reached (limit1 for Timer 1 and Limit 2 for Tim er 2). When programmed amount of tim e has elapsed, the timer is de- energized. Mode 2 is used to produce a programmable tim e delay af ter the temperature limit is reached. After the delay, the t ...

  • Omega Engineering DPS3301 - page 15

    Page 15 Audio Alarm On/Off: This unit supports an audio alarm option which comes on when ever a limit value is exceeded. This alarm can be turned On or Off, as desired. The selection is made by pushing ‘^DIGv’ key. If the alarm is ON, the display will read ‘ALR ON’ (Alarm On). Alternately, it will display ‘ALR OFF’ (for ‘Alarm Off’) ...

  • Omega Engineering DPS3301 - page 16

    Page 16 setpoing will be indicated. Deviation Alarm: Limit 4 has the capability to work either as process or as deviation alarm. This configuration is done during setup (look under SETUP). Also entered during setup is the alarm value. Programmed value is absolute and it works on negative as well as positive deviation e.g. if de viation alarm is set ...

  • Omega Engineering DPS3301 - page 17

    Page 17 limit alarms. (Check model number printed on the unit fo r option). If ordered with relays, then these relays are programmed during Setup to operate as Normally Op en (NO) or Normally Closed (NC). The default setting is Normally Open. Each of these limit relays pr ovides a switched output whenever a limit is reached. The maximum rating for ...

  • Omega Engineering DPS3301 - page 18

    Page 18 To display Timer #1 value, push the TIME key twice . The first push shows elapsed time, while the second push will first display 'tr1 Cnt' (for T ime r1 Count) and then Timer 1 value. To display Timer #2 value, push TIMER key three times . First two pushes display elapsed time and timer 1 value respectively, while the third push b ...

  • Omega Engineering DPS3301 - page 19

    Page 19 HIGH AND LOW PEAKS A useful feature provided by the DPS3301 system is its ability to track high and low temperature peaks. This function is useful if a process must be left unattended for a long period of time, and it is necessary to find temperature extremes during the unattended period. High and low process peaks are displayed by pushing ...

  • Omega Engineering DPS3301 - page 20

    Page 20 ‘SIGNAL CONNECTOR’ in figure 4. Also indicated ar e the input signal’ s positive and negative polarities for thermocouple connection. These markings are also on the printed circuit board in front of the connector. Care should be taken to connect the positive and negative legs of the signal source to the proper term inals on the connec ...

  • Omega Engineering DPS3301 - page 21

    Page 21 FIG 4. DPS3301 Series TERMINAL COMPARTMENT 1 2 3 4 5 6 7 8 9 10 11 12 1 3 14 POSITIVE SIGNAL NEGATIVE SIGNAL GAIN ADJ UST OFFSET ADJUST (For Millivolt, T/C input) OUTPUT CONNECTOR PWR GND L2 L1 SIGNAL CONNECTOR + - L1= NEGATIVE SUPPLY L2= POSITIVE SUPPLY (FOR DC POWER S UPPLY OPTIO N) ...

  • Omega Engineering DPS3301 - page 22

    DIRECT INTERFACE TO UNIVERSAL RELAY MODULE For high amperage loads, DPS3300 series units can be used in conjunction with Universal Relay Module (Model RELAY-URM400/800) which provide up to e ight 15 ampere relays. Both open collector and relay models can be interfaced directly to RELAY-URM400/800 units. Page 22 RELAY-URM400/800 series relay module ...

  • Omega Engineering DPS3301 - page 23

    Page 23 MOUNTING 120mm 4.72” PICTURE HANGING -TY PE FIXTURE FOR MOUNTI NG SCREW MOUNTING SCREW SLOTS (Mount Screws from front—see picture below ) 151mm 5.94” SLOTS IN TERMINAL COMPARTMENT FOR MOUNTING SCREWS ...

  • Omega Engineering DPS3301 - page 24

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  • Omega Engineering DPS3301 - page 26

    Page 26 M4300/0907 ...

Manufacturer Omega Engineering Category Computer Monitor

Documents that we receive from a manufacturer of a Omega Engineering DPS3301 can be divided into several groups. They are, among others:
- Omega Engineering technical drawings
- DPS3301 manuals
- Omega Engineering product data sheets
- information booklets
- or energy labels Omega Engineering DPS3301
All of them are important, but the most important information from the point of view of use of the device are in the user manual Omega Engineering DPS3301.

A group of documents referred to as user manuals is also divided into more specific types, such as: Installation manuals Omega Engineering DPS3301, service manual, brief instructions and user manuals Omega Engineering DPS3301. Depending on your needs, you should look for the document you need. In our website you can view the most popular manual of the product Omega Engineering DPS3301.

A complete manual for the device Omega Engineering DPS3301, how should it look like?
A manual, also referred to as a user manual, or simply "instructions" is a technical document designed to assist in the use Omega Engineering DPS3301 by users. Manuals are usually written by a technical writer, but in a language understandable to all users of Omega Engineering DPS3301.

A complete Omega Engineering manual, should contain several basic components. Some of them are less important, such as: cover / title page or copyright page. However, the remaining part should provide us with information that is important from the point of view of the user.

1. Preface and tips on how to use the manual Omega Engineering DPS3301 - At the beginning of each manual we should find clues about how to use the guidelines. It should include information about the location of the Contents of the Omega Engineering DPS3301, FAQ or common problems, i.e. places that are most often searched by users in each manual
2. Contents - index of all tips concerning the Omega Engineering DPS3301, that we can find in the current document
3. Tips how to use the basic functions of the device Omega Engineering DPS3301 - which should help us in our first steps of using Omega Engineering DPS3301
4. Troubleshooting - systematic sequence of activities that will help us diagnose and subsequently solve the most important problems with Omega Engineering DPS3301
5. FAQ - Frequently Asked Questions
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