jrflyer
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Paid Quick Project (30 min) RSLogix 5000
jrflyer replied to jrflyer's topic in For Sale, Employment, Services or Wanted
Can someone please help me.... -
RSLogix 5000 Paid Project $50
jrflyer replied to jrflyer's topic in Allen Bradley / Rockwell Automation
You are probably correct. I can understand the logic and edit it, but am having trouble creating the program. The teacher is going to go over it tomorrow, so i will have a better understanding of it. But can someone please help me... Thank you for your time. -
RSLogix 5000 Paid Project $50
jrflyer replied to jrflyer's topic in Allen Bradley / Rockwell Automation
I just updated the post, also added the prints. The first person to email me an accurate program will get $50 paypal. Please send program to hauptc0943@yahoo.com, The add will be removed once a program has been reviewed. Thank you! -
Paid Quick Project (30 min) RSLogix 5000
jrflyer replied to jrflyer's topic in For Sale, Employment, Services or Wanted
I added the prints. Also I will pay $50 for this small project. I will take the add down once I receive a correct completed program Thank You -
If anyone is interested in making a few extra dollars please let me know. I have a simple project that I will pay the first person to complete. I will close this thread once the first person completes, It should only take 30 min and I will Pay $50 via paypal. I will need you to email me the file once complete. hauptc0943@yahoo.com Below are the directions: 1) Please open up RSLogix 5000 and create a new v.17 program for a 1769-L35E processor named with your initials. 2) Add an Ethernet master and Ethernet I/O cards as per the prints. 3) Set up aliased tags for all I/O that is included in the prints. 4) Utilizing the aliased I/O tags, create logic for the following faults: a. Motor Disconnect Off b. Motor Overload Tripped c. Motor Failed To Start 5) Utilizing the aliased I/O tags, create some simple logic to start and stop Hot Water Pump #1 (911MTR). The motor should only start when there are no faults and the start pushbutton has been held for three seconds. 6) Integrate steps 4 and 5 into a single AOI for Hot Water Pump #2 (913MTR). 7) Create an UDT for a motor faceplate that includes variables for the following: voltage, FLA, Hz, RPM. Within this UDT, also include status variables for enabled, fwd, rev, and faulted, as well as control variables for start, stop, jog forward, and jog reverse. 8) In a separate routine, write logic using the UDT variables to turn on Hot Water Pump #1 when it is enabled and start or jog forward is pressed. If the motor gets above 3000 RPM, trigger a fault. 9) Within the routine for step 8, create a PID loop to control the tank temperature via the heat exchanger control valve. 10) Save your work and submit. Schematics.pdf
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Paid Quick Project (30 min) RSLogix 5000
jrflyer posted a topic in For Sale, Employment, Services or Wanted
If anyone is interested in making a few extra dollars please let me know. I have a simple project that I will pay the first person to complete. I will close this thread once the first person completes, It should only take 30 min and I will Pay $50 via paypal. I will need you to email me the file once complete. hauptc0943@yahoo.com Below are the directions: 1) Please open up RSLogix 5000 and create a new v.17 program for a 1769-L35E processor named with your initials. 2) Add an Ethernet master and Ethernet I/O cards as per the prints. 3) Set up aliased tags for all I/O that is included in the prints. 4) Utilizing the aliased I/O tags, create logic for the following faults: a. Motor Disconnect Off b. Motor Overload Tripped c. Motor Failed To Start 5) Utilizing the aliased I/O tags, create some simple logic to start and stop Hot Water Pump #1 (911MTR). The motor should only start when there are no faults and the start pushbutton has been held for three seconds. 6) Integrate steps 4 and 5 into a single AOI for Hot Water Pump #2 (913MTR). 7) Create an UDT for a motor faceplate that includes variables for the following: voltage, FLA, Hz, RPM. Within this UDT, also include status variables for enabled, fwd, rev, and faulted, as well as control variables for start, stop, jog forward, and jog reverse. 8) In a separate routine, write logic using the UDT variables to turn on Hot Water Pump #1 when it is enabled and start or jog forward is pressed. If the motor gets above 3000 RPM, trigger a fault. 9) Within the routine for step 8, create a PID loop to control the tank temperature via the heat exchanger control valve. 10) Save your work and submit. Schematics.pdf