Omega ILD24-UTP, ILD44-UTP manual Cycle Time Submenu

Page 49

CYCLE TIME SUBMENU:

Press d 15) Display flashes 1st digit of the previous “Cycle Time” value. Press b & c 16) Press b and c buttons to enter a new “Cycle Time” value

(1 to 199 seconds).

Press d 17) Display shows STRD stored message momentarily and then advances to RAMP only, if it was changed, otherwise press a to advance to RAMP Ramp Value Submenu.

A cycle time selected between 1 to 199 seconds indicates the total On/Off time of each proportional cycle. For example, a 15 second cycle time means that every 15 seconds the output will turn on for part or all of the cycle. For Relays’ Control Outputs, do not select a cycle time of less than 7 seconds or the relays’ lifetime will be shortened. For a cycle time of less than 7 seconds select SSR or DC pulse. Use an external SSR with the DC pulse option for higher current (higher than 1 Amp).

The DEADBAND Submenu will only appear if the ON/OFF was selected from the "Control Type" Submenu.

DEADBAND SUBMENU:

Press d 18) Display flashes 1st digit of the previous “Dead Band” value. Press b & c 19) Press b and c buttons to enter a new “Dead Band” value. Press d 20) Display shows STRD stored message momentarily and then

advances to RAMP only, if it was changed, otherwise press a to advance to RAMP Ramp Value Menu.

Dead Band units are the same as Proportional Band units.

The Dead Band is the number of degrees or counts around the Setpoint which the Process Variable must pass through before the output changes state.

45

Image 49
Contents User’s Guide Servicing North America Table of Contents List of Tables List of FiguresTIP Description Part IntroductionEMC Considerations Safety ConsiderationsBefore You Begin Mounting Part SetupMounting iLD Big Display Through Panel Front Panel AnnunciatorsMounting iLD Big Display on Bail Rear Panel Connections PowerInput OptionMain Power Connections Electrical Installation Power ConnectionsThermocouple Thermocouple Wiring Hookup TC Wire Color Chart3 Two/Three/Four-Wire RTD Process Voltage Process CurrentWithout Sensor Excitation RS-232 Output Wiring Hookup b RS-485 Output Wiring Hookup Wiring OutputsOutputs Wiring Hookup 12 Excitation Output Button Function in Configuration Mode Operation Configuration Mode IntroductionPart Turning your Controller On for the First TimeFlow Chart for ID and Setpoints Menu ConfigurationEntering Your NON-DEFAULT SETPOINT/ID Security ID Number Entering Your NON-DEFAULT Full Security ID NumberID Number Setpoint Set PointsEnter Configuration Menu Configuration MenuInput Type Menu Enter Input Type Menu Input Type ThermocoupleThermocouple Submenu Thermocouple TypesRTD Submenu Input Type RTDRTD Types RTD Value SubmenuInput Type Process Reading ConfigurationProcess Submenu Process TypesTemperature Unit Submenu Enter Reading Configuration MenuDecimal Point Submenu Filter Constant SubmenuINPUT/READING Scale and Offset Submenu Reading Configuration If Process was selectedRange Conversion Number Conversion TableEnter Alarm 1 Menu AlarmAlarm 1 ABSOLUTE/DEVIATION Submenu Alarm 1 ENABLE/DISABLE SubmenuAlarm 1 LATCH/UNLATCH Submenu Active Submenu Contact Closure SubmenuAlarm 1 LOW Value Submenu Alarm ENABLE/DISABLE AT Power onAlarm 1 HI Value Submenu Enter Analog Output Menu Analog Output RetransmissionCURRENT/VOLTAGE Submenu Analog Output ENABLE/DISABLE SubmenuReading OUTFor example Enter Alarm 2 Menu Loop Break ENABLE/DISABLE Submenu Alarm 2 ENABLE/DISABLE SubmenuLoop Break Time Enter Loop Break Time MenuSetpoint Deviation ENABLE/DISABLE Submenu Reading Adjust SubmenuLoop Break Time Value Submenu Thermocouple Field Calibration Submenu Output Flow Chart for OutputSelf Submenu Enter Output 1 MenuMINIMUM/PERCENT LOW Submenu Control Type Output MAXIMUM/PERCENT High SubmenuAuto PID Submenu Action Type SubmenuAnti Integral Submenu Proportional Band Submenu Start Auto Tune PIDRate Setup Submenu Reset Setup SubmenuCycle Time Submenu Deadband Submenu Damping Factor SubmenuControl Type Submenu Enter Output 2 MenuAction Type Submenu Cycle Time Submenu Soak ENABLE/DISABLE Submenu Ramp ENABLE/DISABLE SubmenuRamp & Soak Enter Ramp and Soak MenuSoak Value Submenu Ramp Value SubmenuID Code Entering or Changing Your NON-DEFAULT ID CodeEnter ID Code Menu Full Security Level Submenu Entering or Changing Your Default ID CodeSETPOINT/ID Security Level Submenu Communication Option 13 Flow Chart for Communication OptionCommunication Parameters Submenu Enter Communication Option MenuBaud Submenu Parity SubmenuBUS Format Submenu Stop BIT SubmenuModbus Protocol Submenu Line Feed SubmenuCommunication Interface Standard Submenu Data Flow Mode SubmenuData Separation Character Submenu Data Format Submenu Alarm Status SubmenuMain Reading Submenu Peak Value SubmenuAddress Value Submenu Address Setup SubmenuTransmit Time Interval Submenu Transmit Time Interval Value SubmenuDisplay Color Selection Alarm 1 Display Color SubmenuEnter Display Color Selection Menu Normal Color Display SubmenuExample Alarm 2 Display Color SubmenuDisplay Colors change sequences Green RED AmberRED Green Nmrr Part SpecificationsCmrr ControlSSR Control Output 1Insulation GeneralInput Type Range Accuracy Input PropertiesFactory preset value Part Factory Preset ValuesMenu Items Factory Preset Values Notes CE Approval Information Page Return REQUESTS/INQUIRIES WARRANTY/DISCLAIMERPRESSURE, Strain and Force TemperatureFLOW/LEVEL Data Acquisition
Related manuals
Manual 2 pages 47.34 Kb

ILD24-UTP, ILD44-UTP specifications

The Omega ILD44-UTP and ILD24-UTP are advanced intrusion detection sensors designed for versatile security applications. These devices stand out due to their cutting-edge technology, ensuring reliability and high performance in safeguarding various environments.

One of the primary features of the ILD44-UTP and ILD24-UTP is their unique dual-tech detection capability. By utilizing both passive infrared (PIR) and microwave detection, these sensors significantly reduce false alarms while ensuring accurate intrusion detection. The combination of these technologies allows for effective monitoring in different settings, including residential, commercial, and industrial spaces.

The ILD44-UTP model is equipped with a wider detection range compared to its counterpart, the ILD24-UTP. It is capable of covering a detection area of up to 44 meters, making it ideal for larger spaces. Conversely, the ILD24-UTP provides effective coverage for smaller areas, reaching up to 24 meters. This range flexibility gives users the option to select a model that best fits their particular needs.

Another important characteristic is the sensor's weather-resistant design, which allows it to be installed outdoors without compromising performance. The ILD44-UTP and ILD24-UTP are rated for various environmental conditions, ensuring they remain operational in rain, snow, or extreme temperatures. This durability makes them suitable for use on building perimeters, parking lots, and other outdoor security applications.

Both models are equipped with advanced signal processing algorithms that enhance their ability to differentiate between real threats and environmental disturbances, greatly minimizing false alarm rates. This feature is especially critical in settings where frequent alarms can lead to alarm fatigue among security personnel.

The installation process for both devices is straightforward, with user-friendly mounting options. They can be easily integrated into existing security systems, offering flexibility for users to combine them with other security measures such as cameras and access control systems.

Additionally, the ILD44-UTP and ILD24-UTP come with various output options, including relay and voltage outputs, enabling seamless integration with alarm systems and monitoring solutions. Their compatibility with different protocols ensures they can be tied into a wide array of security infrastructures.

Overall, the Omega ILD44-UTP and ILD24-UTP sensors represent a significant advancement in intrusion detection technology, combining robust performance with innovative features that cater to a variety of security needs. Their versatility, durability, and reliability position them as top choices for enhancing security across numerous applications.