Related Manuals for Allen-Bradley 2080-LC10-12AWA
Summary of Contents for Allen-Bradley 2080-LC10-12AWA
- Page 1 User Manual Micro810™ Programmable Controllers Catalog Numbers 2080-LC10-12AWA, 2080-LC10-12QWB, 2080-LC10-12QBB, 2080-LC10-12DWD...
- Page 2 Identifies information that is critical for successful application and understanding of the product. IMPORTANT Allen-Bradley, Rockwell Software, Rockwell Automation, Micro810, Micro830, Connected Components Workbench, and TechConnect are trademarks of Rockwell Automation, Inc. Trademarks not belonging to Rockwell Automation are property of their respective companies.
- Page 3 National Electrical Code - Published by the An article on wire sizes and types for grounding National Fire Protection Association of Boston, electrical equipment. Allen-Bradley Industrial Automation Glossary A glossary of industrial automation terms and AG-7.1 abbreviations. Rockwell Automation Publication 2080-UM001B-EN-E - November 2011...
- Page 4 Chapter Preface Preface You can view or download publications at http://www.rockwellautomation.com/literature/. To order paper copies of technical documentation, contact your local Rockwell Automation distributor or sales representative. You can download the latest version of Connected Components Workbench (CCW) for your Micro800 at the URL below. http://ab.rockwellautomation.com/Programmable-Controllers/Connected- Components-Workbench-Software.
- Page 5 Table of Contents Preface Who Should Use this Manual ........iii Purpose of this Manual .
- Page 6 Table of Contents About Accessories Accessories............25 External AC Power Supply .
- Page 7 Chapter 1 Configure TOF ..........80 Test the TOF Predefined Function .
- Page 8 Table of Contents Notes: viii Rockwell Automation Publication 2080-UM001B-EN-E - November 2011...
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Page 9: Micro810 12-Point Controllers
Chapter Hardware Overview Hardware Features The Micro800 controller is an economical brick style controller with embedded inputs and outputs. Micro810 12-point controllers cannot use Micro800 plug-in modules, but do support a USB adapter, and an LCD module, which can be used as a backup memory module. - Page 10 Outputs Analog In 0…10V (shared with DC In) 120V AC 240V AC 12…24V DC /V AC Relay 24 V DC SRC 2080-LC10-12QWB 24V DC 2080-LC10-12AWA 120…240V AC 2080-LC10-12QBB 12…24V DC 2080-LC10-12DWD 12V DC Rockwell Automation Publication 2080-UM001B-EN-E - November 2011...
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Page 11: Compliance To European Union Directives
Chapter About Your Controller • UL Listed Industrial Control Equipment, certified for US and Canada. Agency Certifications UL Listed for Class I, Division 2 Group A,B,C,D Hazardous Locations, certified for U.S. and Canada. • CE marked for all applicable directives •... -
Page 12: Installation Considerations
Chapter 2 About Your Controller For specific information required by EN 61131-2, see the appropriate sections in this publication, as well as the following Allen-Bradley publications: • Industrial Automation Wiring and Grounding Guidelines for Noise Immunity, publication 1770-4.1 • Guidelines for Handling Lithium Batteries, publication AG-5.4 •... - Page 13 Additional grounding connections from the power supply's mounting tabs or DIN rail (if used) are not required unless the mounting surface cannot be grounded. Refer to Industrial Automation Wiring and Grounding Guidelines, Allen-Bradley publication 1770-4.1, for additional information. ATTENTION: The USB cable is not to exceed 3.0 m (9.84 ft).
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Page 14: Environment And Enclosure
Chapter 2 About Your Controller Environment and Enclosure This equipment is intended for use in a Pollution Degree 2 industrial environment, in overvoltage Category II applications (as defined in IEC 60664-1), at altitudes up to 2000 m (6562 ft) without derating. This equipment is considered Group 1, Class A industrial equipment according to IEC/CISPR 11. -
Page 15: North American Hazardous Location Approval
About Your Controller Chapter 2 North American Hazardous Location Approval The following information applies when operating this equipment Informations sur l’utilisation de cet équipement en environnements in hazardous locations: dangereux: Products marked "CL I, DIV 2, GP A, B, C, D" are suitable for use in Class I Les produits marqués "CL I, DIV 2, GP A, B, C, D"... -
Page 16: Safety Circuits
Chapter 2 About Your Controller Safety Circuits WARNING: Explosion Hazard Do not connect or disconnect connectors while circuit is live. Circuits installed on the machine for safety reasons, like overtravel limit switches, stop push buttons, and interlocks, should always be hard-wired directly to the master control relay. -
Page 17: Power Considerations
About Your Controller Chapter 2 Power Considerations The following explains power considerations for the micro controllers. Isolation Transformers You may want to use an isolation transformer in the AC line to the controller. This type of transformer provides isolation from your power distribution system to reduce the electrical noise that enters the controller and is often used as a step- down transformer to reduce line voltage. -
Page 18: Input States On Power Down
Chapter 2 About Your Controller Input States on Power Down The power supply hold-up time as described above is generally longer than the turn-on and turn-off times of the inputs. Because of this, the input state change from “On” to “Off ” that occurs when power is removed may be recorded by the processor before the power supply shuts down the system. -
Page 19: Using Emergency-Stop Switches
About Your Controller Chapter 2 WARNING: Never alter these circuits to defeat their function since serious injury and/or machine damage could result. If you are using an external DC power supply, interrupt the DC output side rather than the AC line side of the supply to avoid the additional delay of power supply turn-off. - Page 20 Chapter 2 About Your Controller • Install emergency-stop switches and the master control relay in your system. Make certain that relay contacts have a sufficient rating for your application. Emergency-stop switches must be easy to reach. • In the following illustration, input and output circuits are shown with MCR protection.
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Page 21: Schematic (Using Iec Symbols)
About Your Controller Chapter 2 Schematic (Using IEC Symbols) 230V AC Disconnect Fuse 230V AC circuits Isolation Operation of either of these contacts will transformer remove power from the external I/O Master Control Relay (MCR) circuits, stopping machine motion. 115V AC Cat. -
Page 22: Schematic (Using Ansi/Csa Symbols)
Chapter 2 About Your Controller Schematic (Using ANSI/CSA Symbols) 230V AC Disconnect Fuse 230V AC output circuits Isolation Operation of either of these contacts will transformer remove power from the external I/O Master Control Relay (MCR) circuits, stopping machine motion. 115V AC or Cat. -
Page 23: Mounting Dimensions
Install Your Controller Controller Mounting Mounting Dimensions Dimensions Mounting dimensions do not include mounting feet or DIN rail latches. Micro810 Controllers 2080-LC10-12AWA, 2080-LC10-12QWB, 2080-LC10-12QBB, 2080-LC10-12DWD 59 mm (2.32 in.) 91 mm (3.58 in.) 45054 74.85 mm (2.95 in.) Module Spacing Maintain spacing from objects such as enclosure walls, wireways and adjacent equipment. - Page 24 DIN rail. 2. Push the DIN rail latch back into the latched position. Use DIN rail end anchors (Allen-Bradley part number 1492-EA35 or 1492-EAHJ35) for vibration or shock environments. To remove your controller from the DIN rail, pry the DIN rail latch downwards until it is in the unlatched position.
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Page 25: Using Surge Suppressors
Chapter Wire Your Controller Wiring Requirements WARNING: Before you install and wire any device, disconnect power to the controller system. WARNING: Calculate the maximum possible current in each power and common wire. Observe all electrical codes dictating the maximum current allowable for each wire size. Current above the maximum ratings may cause wiring to overheat, which can cause damage. - Page 26 Suitable surge suppression methods for inductive AC load devices include a varistor, an RC network, or an Allen-Bradley surge suppressor, all shown below. These components must be appropriately rated to suppress the switching Rockwell Automation Publication 2080-UM001B-EN-E - November 2011...
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Page 27: Recommended Surge Suppressors
Output Device Output Device Surge Suppressor RC Network Varistor Recommended Surge Suppressors Use the Allen-Bradley surge suppressors shown in the following table for use with relays, contactors, and starters. Recommended Surge Suppressors Device Coil Voltage Suppressor Catalog Number Bulletin 509 Motor Starter... -
Page 28: Ground The Controller
Chapter 4 Wire Your Controller Ground the Controller This product is intended to be mounted to a well grounded mounting surface such as a metal panel. Refer to the Industrial Automation Wiring and Grounding Guidelines, publication 1770-4.1, for additional information. Additional grounding connections from the mounting tab or DIN rail, if used, are not required unless the mounting surface cannot be grounded. -
Page 29: Micro810 Controllers
Wire Your Controller Chapter 4 Micro810 Controllers 2080-LC10-12AWA Input Terminal Block L1 VAC L2/N VAC I-00 I-02 I-04 I-06 L2/N VAC I-01 I-03 I-05 I-07 45055 Output Terminal Block O-00 O-01 O-02 O-03 45059 2080-LC10-12QWB Input Terminal Block +DC24 COM0... -
Page 30: Analog Channel Wiring Guidelines
Chapter 4 Wire Your Controller install the Micro800 system in a properly rated (for example, NEMA) enclosure. Make sure that the Micro800 system is properly grounded. A system may malfunction due to a change in the operating environment after a period of time. -
Page 31: Ground Your Analog Cable
Wire Your Controller Chapter 4 Ground Your Analog Cable Use shielded communication cable (Belden #8761). The Belden cable has two signal wires (black and clear), one drain wire, and a foil shield. The drain wire and foil shield must be grounded at one end of the cable. Foil shield Black wire Insulation... - Page 32 Chapter 4 Wire Your Controller Sink input wiring example Fuse 45627 Source output wiring example +V DC Fuse Logic side User side – Load 24V Supply DC COM Micro800 QBB controller 45626 Source input wiring example Fuse 45625 Rockwell Automation Publication 2080-UM001B-EN-E - November 2011...
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Page 33: Accessories
Chapter About Accessories Accessories This chapter highlights the accessories you can use with the Micro810 controller. External AC Power Supply Use this optional power supply (2080-PS120-240VAC) in applications with smaller systems when a 24V DC power supply is not readily available. Wire the Module PAC-1 PAC-2 PAC-3 45062... -
Page 34: Lcd Display And Keypad Module
Chapter 5 About Accessories 1.5" LCD Display and Keypad Module This module (2080-LCD) also functions as a backup memory module for the Micro810 controller. This module offers an affordable and simple method of viewing status and configuring the Micro810 Controller. With this LCD module, you can also modify core Smart Relay function blocks. -
Page 35: Access The Main Menu
About Accessories Chapter 5 Access the Main Menu Press the ESC and OK buttons at the same time to access the Main Menu screen. Use the arrow keys to move the cursor up or down to the item you want to select. Mode Switch Set the controller to Program Mode or Run mode from this screen. -
Page 36: Usb Adapter
Chapter 5 About Accessories USB Adapter This module (2080-USBADAPTER) provides the Micro810 controller with a USB port. Use a standard USB A Male to B Male cable for programming the controller. 45221 Rockwell Automation Publication 2080-UM001B-EN-E - November 2011... -
Page 37: Micro810 Controllers
Appendix Specifications Micro810 Controllers General - 2080-LC10-12AWA, 2080-LC10-12QWB, 2080-LC1012DWD, 2080-LC10-12QBB Attribute 2080-LC10-12AWA 2080-LC10-12QWB 2080-LC1012DWD 2080-LC10-12QBB Number of I/O 8 Input (4 digital, 4 analog/digital, configurable) 4 Output Dimensions 91 x 75 x 59 mm HxWxD (3.58 x 2.95 x 2.32 in.) Supply voltage range 85V…263V... - Page 38 Appendix A Specifications Non-isolated AC Inputs (2080-LC10-12AWA) Attribute Value On-state voltage, nom 120/240 V AC On-state voltage, min 79 V AC On-state voltage, max 265 V AC Off-state voltage, max 40 V AC Off-state current, max 0.095 mA Operating frequency, nom...
- Page 39 Controller current Turn-on- time, max 0.1 ms Turn-off time, max 1.0 ms Relay Outputs (2080-LC10-12AWA, 2080-LC10-12QWB, 2080-LC10-12DWD) Attribute Value Output rating Relay 00 & 01: 8 A @ 240V AC, 5A @ 24V DC, B300, R300 Relay 02 & 03: 4 A @ 240V AC, 2A @ 24V DC, C300, R150...
- Page 40 Appendix A Specifications Micro810 High Current Relay Chart Maximum IEC 947 Amperes Amperes Volt-Amperes Volts Continuous Make Break Make Break 120V AC AC-15 30 A 3600 VA 360 VA 240V AC AC-15 15.0 A 1.5 A 3600 VA 360 VA 125V DC DC-13 0.22 A...
- Page 41 Specifications Appendix A Micro810 Low Current Relay Chart Relay life AC 125 V resistive load DC 30 V resistive load AC 250 V resistive load AC 125 V cos f = 0.4 DC 30 V T = 7 ms AC 250 V cos f = 0.4 Switching capacity (A) Maximum IEC 947...
- Page 42 Appendix A Specifications Environmental Attribute Value Temperature, IEC 60068-2-1 (Test Ad, Operating Cold), operating IEC 60068-2-2 (Test Bd, Operating Dry Heat), IEC 60068-2-14 (Test Nb, Operating Thermal Shock): 0…55 °C (32…131 °F) Temperature, 55 °C (131 °F) surrounding air, max Temperature, IEC 60068-2-1 (Test Ab, Unpackaged Non-operating Cold), storage...
- Page 43 Specifications Appendix A Certifications Certification (when Value product is marked) c-UL-us UL Listed Industrial Control Equipment, certified for US and Canada. See UL File E322657. UL Listed for Class I, Division 2 Group A,B,C,D Hazardous Locations, certified for U.S. and Canada. See UL File E334470. European Union 2004/108/EC EMC Directive, compliant with: EN 61000-6-2;...
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Page 44: Micro800 Programmable Controller External Ac Power Supply
Appendix A Specifications Micro800 Programmable Controller External AC Power Supply General Attribute Value Dimensions, HxWxD 90 x 45 x 80 mm (3.55 x 1.78 x 3.15 in.) Shipping weight 0.34 kg (0.75 lb) Supply voltage range 100V…120V AC, 1A 200…240V AC, 0.5A Supply frequency 47…63 Hz Supply power... -
Page 45: Overview Of Program Execution
Appendix Running Programs with Micro800 This section provides a brief overview of running or executing programs with a Micro800 controller. Overview of Program A Micro800 cycle or scan consists of reading inputs, executing programs in sequential order, updating outputs and performing communications Execution housekeeping. -
Page 46: Execution Rules
Appendix B Running Programs with Micro800 Execution Rules This section illustrates the execution of a program. The execution follows eight main steps within a loop. The loop duration is a cycle time for a program. 1. Scan input variables 2. Consume bound variables 3. - Page 47 Running Programs with Micro800 Appendix B • A User Defined Function Block (UDFB) can be executed within another UDFB, with a limit of 5 nested UDFBs. Avoid creating UDFBs with references to other UDFBs, as executing these UDFBs too many times may result in a compile error.
- Page 48 Appendix B Running Programs with Micro800 Notes: Rockwell Automation Publication 2080-UM001B-EN-E - November 2011...
- Page 49 Appendix IPID Function Block This function block diagram shows the arguments in the IPIDCONTROLLER function block. IPIDCONTROLLER IPIDCONTROLLER Output Process SetPoint AbsoluteError FeedBack ATWarning Auto OutGains Initialize Gains AutoTune ATParameters ErrorMode The following table explains the arguments used in this function block. IPIDCONTROLLER Arguments Parameter Parameter...
- Page 50 Appendix C IPID Function Block IPIDCONTROLLER Arguments Parameter Parameter Data Type Description Type AutoTune Input BOOL Start AutoTune sequence ATParameters Input AT_Param Auto tune parameters See AT_Param Data Type ErrorMode Input DINT Mode used to handle errors. Possible value are: •...
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Page 51: How To Autotune
IPID Function Block Appendix C AT_Param Data Type Parameter Type Description Load REAL Initial controller value for Auto tuning process. Deviation REAL Deviation for auto tuning. This is the standard deviation used to evaluate the noise band needed for AutoTune (noise band = 3* Deviation) Step REAL... -
Page 52: Pid Application Example
Appendix C IPID Function Block PID Application Example Water In Water Level Tank Water Out The illustration above shows a basic water level control system, to maintain a preset water level in the tank. A solenoid valve is used to control incoming water, filling the tank at a preset rate. -
Page 53: Pid Code Sample
IPID Function Block Appendix C PID Code Sample The illustration above shows sample code for controlling the PID application example shown before. Developed using Function Block Diagrams, it consists of a pre-defined function block, IPIDCONTROLLER, and four user-defined function blocks. These four are: •... - Page 54 Appendix C IPID Function Block Notes: Rockwell Automation Publication 2080-UM001B-EN-E - November 2011...
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Page 55: Status Indicators On The Controller
Appendix Troubleshooting Status Indicators on the Micro810 Controllers Controller Status Indicator Status Indicator on the Controller State During Normal Operation During Firmware Update or Program/Data Transfer No power applied to device, or in Fault No power applied to device, or in Fault mode mode Solid green... - Page 56 Appendix D Troubleshooting If an error persists after performing the recommended action, contact your local Rockwell Automation technical support representative. For contact information, go to http://support.rockwellautomation.com/MySupport.asp. List of Error Codes for Micro800 controllers Error Code Description Recommended Action 0xF000 The controller was unexpectedly reset Perform one of the following: due to a noisy environment or an internal •...
- Page 57 Troubleshooting Appendix D List of Error Codes for Micro800 controllers Error Code Description Recommended Action 0xF010 The user program contains a function/ Perform the following: function block that is not supported by • Modify the program so that all functions/function blocks are supported by the the Micro800 controller.
- Page 58 Appendix D Troubleshooting List of Error Codes for Micro800 controllers Error Code Description Recommended Action 0xF023 The controller program has been cleared. • Download or transfer the program. This happened because: • a power down occurred during program download or transfer from the memory module.
- Page 59 Troubleshooting Appendix D List of Error Codes for Micro800 controllers Error Code Description Recommended Action 0xF8A0 The TOW parameters are invalid. Perform the following: • Correct the program to ensure that there are no invalid parameters. • Build and download the program using Connected Components Workbench. •...
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Page 60: Controller Error Recovery Model
Appendix D Troubleshooting Controller Error Recovery Use the following error recovery model to help you diagnose software and hardware problems in the micro controller. The model provides common Model questions you might ask to help troubleshoot your system. Refer to the recommended pages within the model for further help. -
Page 61: Calling Rockwell Automation For Assistance
Troubleshooting Appendix D Calling Rockwell If you need to contact Rockwell Automation or local distributor for assistance, it is helpful to obtain the following (prior to calling): Automation for Assistance • controller type, series letter, revision letter, and firmware (FRN) number of the controller •... - Page 62 Appendix D Troubleshooting Notes: Rockwell Automation Publication 2080-UM001B-EN-E - November 2011...
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Page 63: Use The Micro810 Smart Relay Functionality
Appendix Quickstarts This appendix covers some common tasks for the Micro810 controller. It includes the following quickstart instructions: Topic Page Use the Micro810 Smart Relay Functionality Flash Update the Micro800 Firmware Establish Communication Between RSLinx and a Micro810 12-point controller through USB Forcing I/O Use the Micro810 Smart The Micro810 12-point (8 Inputs and 4 Outputs) controller comes with eight... -
Page 64: Navigate The Lcd Display
Appendix E Quickstarts Navigate the LCD Display Language Allows user to select English, Chinese, French, Spanish, Italian Micro810 splash screen Appears briefly upon Navigation buttons controller power up Allows user to navigate, select, confirm, and undo selection Password activated User display A button sign indicates password protection for LCD A filled square indicates that a user has operation is activated. - Page 65 Quickstarts Appendix E 4. Press the UP arrow button once to navigate to the function block controlling Output 1. RIGHT 5. Press the RIGHT arrow button once. The instruction parameter field is selected and shows the CTU instruction. 6. Press the RIGHT arrow button once to select the CLK parameter field. This parameter triggers counting.
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Page 66: Test The Ctu Predefined Function
Appendix E Quickstarts c. Press RIGHT arrow button once to go to the last digit. Press the DOWN arrow button five times to set the last digit to 3. PV value 9. Press the RIGHT arrow button once to navigate to the screen selection parameter. - Page 67 Quickstarts Appendix E the preset value PV, and energizes output O1 when CV > PV. To test the operation, we connect a count push button to I02, a reset push button to I03, and a pilot light to output O01. 1.
- Page 68 Appendix E Quickstarts 4. Press the OK button to confirm the RUN mode selection. 5. The screen indicates that the controller is in RUN mode. Press the ESC button to return to the Main Menu. 6. Press the DOWN arrow button once to navigate to SR Function. a.
- Page 69 Quickstarts Appendix E a. Press and release the count push button. The current value CV increments to 00002. b. Press and release the count push button. The current value CV increments to 00003. Since the current value CV = present value PV, the output O1 is energized, and the pilot light turns on.
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Page 70: Configure On-Delay Timing (Ton)
Appendix E Quickstarts Configure On-delay Timing (TON) TON – Sample parameter configuration Parameter Field Configuration Value Time Resolution SS:MS 15:000 1. Power up the Micro810 controller. The Micro810 splash screen briefly appears after follow up. 2. The status display shows PROG mode, the day and time, and the I/O status. -
Page 71: Test The Ton Predefined Function
Quickstarts Appendix E 9. Press the RIGHT arrow button once to select the first digit entry in PT parameter field. First digit entry for PT parameter To change the PT parameter value to 15:000, do the following steps: a. Press the UP arrow button once to turn the first digit entry to 1. b. -
Page 72: Configure Doy
Appendix E Quickstarts 6. Press the DOWN arrow button once and select SR FUNCTION. Press the OK button. The TON function block to control Output 0 becomes available. 7. Press the push button connected to I01. ET starts to elapse. 8. - Page 73 Quickstarts Appendix E 5. Press the RIGHT arrow button once to select the DOY instruction parameter field. 6. Press the RIGHT arrow button once. The CHANNEL parameter field is selected and it shows CHANNEL A. Channel parameter 7. Press the RIGHT arrow button to select the EN parameter field. Press the DOWN arrow button four times to change the EN parameter value to I03.
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Page 74: Test The Doy Predefined Function
Appendix E Quickstarts 9. Press the RIGHT arrow button once to select the first entry in the OFF parameter field. Change the Off date settings to 11/08/19 (YY/MM/DD). To do this, follow these steps: a. Press the RIGHT arrow button once to select the second entry in the OFF parameter field. -
Page 75: Test The Doy Function
Quickstarts Appendix E 3. Press the DOWN arrow button thrice to go to Clock Setup then press the OK button. Press the OK button again on Clock. 4. Press the RIGHT arrow button to navigate through Year, MM.DD, and HH:MM fields. Set the MM.DD field value to the On date established during configuration (11/08/18). -
Page 76: Configure Tow
Appendix E Quickstarts 7. Press the push button connected to I03. If the value of RTC is in the range of Year-Time setting for CHANNEL A, then the pilot light turns on. Configure TOW TOW – Sample Parameter Configuration Parameter Field Configuration Value Channel MO-08:30... - Page 77 Quickstarts Appendix E 4. Press the UP arrow button twice to navigate to the function block for Output 2 (TOW). 5. Press the RIGHT arrow button once to select the TOW instruction parameter field. 6. Press the RIGHT arrow button once to select CHANNEL parameter field.
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Page 78: Test The Tow Predefined Function
Appendix E Quickstarts c. Press the RIGHT arrow button twice to get to the fifth digit entry in the OFF parameter field, and press the UP arrow button once to get the digit value of 1. 11. Press the OK button to submit the parameter changes. A screen confirms your request to save the parameter changes. -
Page 79: Test The Tow Function
Quickstarts Appendix E 4. Press the RIGHT arrow button to navigate through Year, MM.DD, and HH:MM fields. Set the MM.DD field value to a date that falls on a Monday, as set in the Configure example. Use the UP or DOWN arrow buttons to increase or decrease the digit values on the MM.DD field. -
Page 80: Configure Countdown (Ctd)
Appendix E Quickstarts 8. Press the push button connected to I03. If the value of RTC is in the range of Day-Time setting for CHANNEL A, the pilot light turns on. Configure Countdown (CTD) CTD – Sample Parameter Configuration Parameter field Configuration value LOAD 00010... -
Page 81: Test The Ctd Predefined Function
Quickstarts Appendix E 6. Press the RIGHT arrow button once to select the CLK parameter field. This is the trigger for counting. Press the UP arrow button once to change CLK parameter to I01. 7. Press the RIGHT arrow button once to select the LOAD parameter field. This input reloads the preset value PV. - Page 82 Appendix E Quickstarts 2. Press the UP arrow button once to select Mode Switch and press the OK button. 3. Press the DOWN arrow button once to select RUN mode. Press the OK button. 4. Press the OK button to confirm the RUN mode selection. 5.
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Page 83: Configure Tonoff
Quickstarts Appendix E 8. Press and release the count push button connected to I01. The current value CV decrements to 00009. Repeat the step 8 nine times, until CV decrements to 00000. When CV = 0, the output O00 is energized, and the pilot light turns off. - Page 84 Appendix E Quickstarts 6. Press the DOWN arrow button twice to go to TONOFF instruction. 7. Press the RIGHT arrow button once to select the IN parameter field. This input marks the start for the internal timer. Press the UP arrow button once to change IN parameter value to I03. 8.
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Page 85: Test The Tonoff Predefined Function
Quickstarts Appendix E Test the TONOFF Predefined Function The TONOFF instruction starts an internal timer up to a given value PT when input IN makes a transition from low to high, and energizes the output when ET = PT. Restart the internal timer up to a given value PTOF when input IN makes a transition from high to low, and de-energize the output when EP=PTOF. -
Page 86: Configure Pulse Timing (Tp)
Appendix E Quickstarts 10. Release the push button connected to I03. The elapsed time ET restarts to elapse. When the current elapsed time ET = programmed time PTOF, the output O01 is de-energized, and the pilot light turns off. Configure Pulse Timing (TP) TP –... -
Page 87: Test The Tp Predefined Function
Quickstarts Appendix E d. Press the RIGHT arrow button twice to select the fourth digit entry in PT parameter field. e. Press the DOWN arrow button once to get the digit value of zero. 8. Press the OK button to submit the parameter changes. A screen confirms your request to save the parameter changes. -
Page 88: Rockwell Automation Publication 2080-Um001B-En-E - November
Appendix E Quickstarts 8. Press the push button connected to I03. The elapsed time ET starts to elapse and the pilot light turns on. When the current elapsed time ET = programmed time PT, the output O02 is de-energized, and the pilot light turns off. Configure TOF TOF –... -
Page 89: Test The Tof Predefined Function
Quickstarts Appendix E 6. Press the RIGHT arrow button once to select the IN parameter field. This marks the start for the Off-delay timer. Press the DOWN arrow button four time to change IN parameter value to I02. 7. Press the RIGHT arrow button once to select the Time-Resolution parameter field. -
Page 90: Micro800 Firmware
Appendix E Quickstarts given value PT, it de-energizes the output. To test the operation, we connect a push button to I02, and a pilot light to output O03. 1. Press the ESC button to return to the Main Menu. 2. Press the UP arrow button once to select Mode Switch. Press the OK button. - Page 91 Quickstarts Appendix E Before attempting to flash update your controller, ensure that the controller is in Program mode. For more information on enabling program mode, see Access the Main Menu on page 27. 1. First verify successful RSLinx Classic communications with your Micro800 controller via USB using RSWho (Micro810 12-pt.
- Page 92 Appendix E Quickstarts 3. Select the catalog number of the Micro800 controller that you are going to update and click Next. 4. Select the controller in the browse window and click OK. 5. If you see the following screen (Micro810 controller only), leave the Slot Number at 0 and click OK.
- Page 93 Quickstarts Appendix E 6. Click Next to continue, and verify the revisions. Click Finish, and Yes to initiate the update. Rockwell Automation Publication 2080-UM001B-EN-E - November 2011...
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Page 94: Controller Through Usb
Appendix E Quickstarts The next screen shows the download progress. 7. If you see an error message instead, check to see if the controller is faulted or in Run mode. If so, clear the fault or switch to Program mode, click OK and try again. - Page 95 Quickstarts Appendix E 3. Click No, not this time and Next when you are prompted to search for software through Windows Update. 4. Click Next to continue. Rockwell Automation Publication 2080-UM001B-EN-E - November 2011...
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Page 96: Forcing I/O
Appendix E Quickstarts 5. Click Finish after Found New Hardware Wizard completes installation of the software. 6. Open RSLinx Classic and run RSWho by clicking the icon. 7. The Micro810 controller shows up under the 12PtM810 driver. 8. You can now use ControlFLASH or CCW to communicate with the Micro810 controller. -
Page 97: Check If Forces (Locks) Are Enabled
Quickstarts Appendix E The following diagram illustrates forcing behaviour. User Program Physical Physical Logical Logical Force Force Inputs Outputs Inputs Outputs Normal Variables • LED status indicators always match the phyical value of I/O • Normal, non-physical internal variables cannot be forced Check if Forces (locks) are Enabled If Connected Components Workbench (CCW) is available, check the Variable Monitor while debugging online. - Page 98 Appendix E Quickstarts following is an example program in Structured Text. If the front of the controller is visible, and not blocked by the cabinet enclosure, Micro830 and higher controllers have a Force LED indicator. Rockwell Automation Publication 2080-UM001B-EN-E - November 2011...
- Page 99 Index Numerics Forcing I/Os 88 1.5" LCD Display and Keypad Module 26 general considerations 4 grounding the controller 20 About Accessories 25 Guidelines and Limitations 38 About Your Controller 3 Accessories 25 Additional Resources iii Agency Certifications 3 Hardware Features 1 analog cable grounding 23 Hardware Overview 1 analog channel wiring guidelines 22...
- Page 100 Chapter 1 Index power supply inrush power considerations 9 preventing excessive heat 10 Quickstarts 55 relays surge suppressors for 19 Running Programs with Micro800 37 safety circuits 8 safety considerations 6 disconnecting main power 7 hazardous location 7 master control relay circuit periodic tests 8 periodic tests of master control relay circuit 8 safety circuits 8...
- Page 102 Rockwell Automation Support Rockwell Automation provides technical information on the Web to assist you in using its products. At http://www.rockwellautomation.com/support/, you can find technical manuals, a knowledge base of FAQs, technical and application notes, sample code and links to software service packs, and a MySupport feature that you can customize to make the best use of these tools.