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Quick PLC
Ireland
Приєднався 20 лют 2024
The Siemens LOGO! is a brilliant way to get started on PLC programming for small automation products in industry, school or at home. The basic models have eight inputs (up to four can be configured as analog inputs), four outputs, a 6 x 16 character LCD with programmable backlight color and a cursor keypad. This means that many applications can feature user settings without a separate HMI.
QuickPLC is pleased to provide a series of to-the-point tutorials on the PLC's instruction set and on the LOGO!Soft Comfort programming package.
QuickPLC is pleased to provide a series of to-the-point tutorials on the PLC's instruction set and on the LOGO!Soft Comfort programming package.
LOGO! Analog amplifier config | Siemens PLC programming
How to configure the Analog Amplifier gain, offset and decimal places using the QuickPLC online LOGO! gain and offset calculator.
Calculator: quickplc.com/?Home___LOGO%21_index___Analog_amp_config
Chapters:
0:00 - Intro
2:31 - The online calculator
3:31 - Example 1: LOGO! voltmeter 0 - 10 V
5:43 - Example 2: Ammeter 0 - 33 A
8:20 - Example 3: Steering potentiometer ±30°
11:42 - Example 4: Tank level distance sensor (negative slope)
13:47 - Recap
Calculator: quickplc.com/?Home___LOGO%21_index___Analog_amp_config
Chapters:
0:00 - Intro
2:31 - The online calculator
3:31 - Example 1: LOGO! voltmeter 0 - 10 V
5:43 - Example 2: Ammeter 0 - 33 A
8:20 - Example 3: Steering potentiometer ±30°
11:42 - Example 4: Tank level distance sensor (negative slope)
13:47 - Recap
Переглядів: 2
Відео
LOGO! Analog timer control | Siemens PLC programming
Переглядів 29314 днів тому
Controlling timer delay values using an analog input. This video shows how to configure an analog input, set the gain and offset and use the amplifier output to control the time delay parameter in a timer. See the playlists for many more tutorials.
Sidelines Aladdin magic carpet lift
Переглядів 18214 днів тому
Design, construction, drawings and notes on use for a theatre special effect used in an Aladdin ballet production. Links for files are on QuickPLC.com: quickplc.com/?Welcome_to_QuickPLC.com Sidelines Aladdin_magic_carpet_lift Structural Analyser file: structural-analyser.com/?shareID=E6XpJD2P
Sidelines: PLA 3D print hot water tweaking
Переглядів 70421 день тому
A quick demonstration of fixing, tweaking or reshaping a PLA 3D print using hot water at about 80°C. This is an extract of the genie lamp fabrication videos listed in the playlist. Tags: PLA 3D-print gap tweak tweaking distortion model making
Sidelines: Smok 22 vape pen disassembly
Переглядів 5621 день тому
How to dismantle a Smok Vape 22 pen using Vise Grip and mallet!
Sidelines: Genie Lamp - short version
Переглядів 17421 день тому
QuickPLC Sidelines videos are generally not directly related to industrial controls. This one documents the making of a smoking genie lamp for a theatrical (ballet) stage production of Aladdin. It combines 3D printing, some fabrication, a little electronics, woodwork and a vape pen for an effective stage prop! This is the long version of the video. There is also an extended version which is rec...
Sidelines: Genie lamp for Aladdin stage production - with smoke! (Full version.)
Переглядів 8921 день тому
QuickPLC Sidelines videos are generally not directly related to industrial controls. This one documents the making of a smoking genie lamp for a theatrical (ballet) stage production of Aladdin. It combines 3D printing, some fabrication, a little electronics, woodwork and a vape pen for an effective stage prop! This is the long version of the video. The short one is here: ua-cam.com/video/PWJ1t3...
LOGO! Analog basics 1 | Siemens PLC programming
Переглядів 1,6 тис.Місяць тому
The LOGO! basic module has four 0 - 10 V analog inputs. This video shows how to set gain and offset for 0 - 10 V signals and how to give low-level warnings using Message Text. 0:00 - Intro 1:16 - Example 1: Simple 0 - 10 V for 750 litre tank 4:32 - Example 2: 1.5 V to 7.5 V for 750 litre tank 4:57 - Calculating gain and offset 6:06 - LOGO! program checking the analog amplifier 7:24 - Adding the...
LOGO! Slow PWM | Siemens PLC Programming
Переглядів 8032 місяці тому
How to program a slow pulse width modulation control on a LOGO! with relay outputs. This is suitable for control of slow-cycle heating systems, etc. 0:00 - Intro 0:32 - PWM = pulse width modulation 1:32 - Analog input configuration 4:32 - Add the Asynchronous Timer 6:07 - Fix the "off" time 8:18 - Relay life 11:23 - Recap Full video index on QuickPLC.com. ""Scan time - How Quick is the LOGO!"":...
LOGO! Basic functions - AND OR NAND NOR XOR NOT & Edge | Siemens PLC Programming
Переглядів 6163 місяці тому
Useful details on LOGO! Basic Functions, AND, AND Edge, NAND, NAND Edge, OR, NOR, XOR and NOT. 0:00 - Intro and electronic logic gate equivalents 0:16 - The eight Basic Functions 0:38 - NOT 1:03 - NAND | NOR 1:21 - AND - NAND | OR - NOR 3:31 - XOR (ExOR) 3:55 - Ladder equivalents 5:30 - AND Edge | NAND Edge 8:32 - Recap Topics covered. Default values for unconnected inputs. Use of Invert Connec...
LOGO! Scan time - how Quick is the LOGO!? | Siemens PLC programming
Переглядів 4933 місяці тому
Add program scan rate monitoring to your LOGO! program and display. Check scan rates for small and medium programs. See the effect of Online Test on scan rate. 0:00 - Intro 0:32 - Machine animation and scan rate impact on cycle time 1:18 - Scan rate monitor program 2:51 - Test a short program in the LOGO! 3:39 - Scan rate for a larger program 4:38 - Recap / summary LOGO! file download at quickp...
LOGO! Get connected! (IP addressing quick start) | Siemens PLC programming
Переглядів 4554 місяці тому
How to connect your LOGO! to the network over Ethernet cable. A little bit of IP addressing is also explained. See the playlists for more on LOGO! function block instructions and LOGO! hardware and software (LOGO!Soft Comfort).
LOGO! programming without software | Siemens PLC programming
Переглядів 8014 місяці тому
Using only the keypad and LCD it's possible to enter simple programs into a LOGO! PLC. This video shows you how! 0:00 - Intro 0:18 - Drawing a diagram 0:53 - Using the demo software to create a diagram 1:12 - Running the demo software simulator 1:26 - Programming the LOGO! using the LCD and buttons 3:25 - Testing the program with the IO simulator 3:33 - Modifying a timer setting via the front p...
LOGO! 4 - 20 mA on the 0 - 10 V input? | Siemens PLC programming
Переглядів 4,5 тис.4 місяці тому
The LOGO! basic module has four 0 - 10 V analog inputs. This video shows how to convert and program for 4 - 20 mA signals. 0:00 - Intro 0:48 - Using a pot for setpoint adjustment on 24 V supply 1:59 - Industrial analog standards 0 - 10 V and 4 - 20 mA 2:34 - 4 - 20 mA analog inputs 4:41 - Analog signal from the IO simulator 5:07 - Pressure transducer 4 - 20 mA example 5:40 - Simple method for c...
LOGO! Kamami IO simulator - circuit and use | Siemens PLC programming
Переглядів 4904 місяці тому
Features and use of the KAMAMI KA-LOGO!-IO-Simulator KAMAMI, Poland, makes a much better simulator than Siemens! The unit has 8 input signals and, of those, inputs 7 and 8 can be switched to analog with selection of onboard potentiometer, photosensor, temperature sensor and external 0 - 5 V input. This video discusses the features and internal circuit of the simulator board. kamami.pl/zestawy-s...
LOGO! training camera rig construction | Siemens PLC programming
Переглядів 4724 місяці тому
LOGO! training camera rig construction | Siemens PLC programming
LOGO! Shift register - 8, 16, 24, 32-bit | Siemens PLC programming.
Переглядів 3924 місяці тому
LOGO! Shift register - 8, 16, 24, 32-bit | Siemens PLC programming.
LOGO! M & Q (flags and outputs) and the program scan, Recursive logic | Siemens PLC Programming
Переглядів 4354 місяці тому
LOGO! M & Q (flags and outputs) and the program scan, Recursive logic | Siemens PLC Programming
LOGO!Soft Comfort - Diagram Editor toolbar | Siemens PLC programming
Переглядів 5024 місяці тому
LOGO!Soft Comfort - Diagram Editor toolbar | Siemens PLC programming
LOGO! Miscellaneous 1 - Latching relay | Pulse relay | Siemens PLC Programming
Переглядів 4074 місяці тому
LOGO! Miscellaneous 1 - Latching relay | Pulse relay | Siemens PLC Programming
LOGO! Inputs 2 - Shift register bit, Status lo / hi, Output, Open connector, Flag | Siemens PLC.
Переглядів 7404 місяці тому
LOGO! Inputs 2 - Shift register bit, Status lo / hi, Output, Open connector, Flag | Siemens PLC.
LOGO! Inputs 1 - Input, Cursor & Function key | Siemens PLC Programming
Переглядів 8844 місяці тому
LOGO! Inputs 1 - Input, Cursor & Function key | Siemens PLC Programming
LOGO! - Basic module selection | Siemens PLC programming
Переглядів 4144 місяці тому
LOGO! - Basic module selection | Siemens PLC programming
LOGO! Counters 3 - Threshold trigger | Siemens PLC Programming
Переглядів 3094 місяці тому
LOGO! Counters 3 - Threshold trigger | Siemens PLC Programming
LOGO! Counters 2 - Hours Counter | Siemens PLC Programming
Переглядів 5544 місяці тому
LOGO! Counters 2 - Hours Counter | Siemens PLC Programming
LOGO! Timers 4 | Weekly timer | Yearly timer | Siemens PLC programming
Переглядів 3074 місяці тому
LOGO! Timers 4 | Weekly timer | Yearly timer | Siemens PLC programming
LOGO! Counters 1 - Up/Down counter | Siemens PLC programming
Переглядів 2854 місяці тому
LOGO! Counters 1 - Up/Down counter | Siemens PLC programming
LOGO! Timers 5 | Astronomical clock | Stopwatch | Siemens PLC programming
Переглядів 3084 місяці тому
LOGO! Timers 5 | Astronomical clock | Stopwatch | Siemens PLC programming
LOGO! Timers 3 | Stairway lighting | Multiple function | Siemens PLC programming
Переглядів 3075 місяців тому
LOGO! Timers 3 | Stairway lighting | Multiple function | Siemens PLC programming
LOGO! Timers 1 | On-Delay | Off-Delay | On/Off-Delay | Retentive | Siemens PLC programming
Переглядів 6645 місяців тому
LOGO! Timers 1 | On-Delay | Off-Delay | On/Off-Delay | Retentive | Siemens PLC programming
Excelente vídeo, ganhou um inscrito. Poderia fazer um vídeo ensinando como fazer para integrar o logo com programa ignition achei bem interessante animação dos dasboard
Yes, I am working (slowly) on a video for Ignition and LOGO! Thank you.
Fico ansioso no aguardo desse vídeo
The problem, you lost 200 counts in the AI or the same, resoluton.
Correct. This is explained clearly at around 3:27. While you lose some resolution, you gain a ""live zero" and save the cost and space of an analog module. You said, "... or the same resolution." I don't understand that part of your comment. Thank you for the feedback.
Very useful indeed and clearly explained 👍🏾
Thank you. As mentioned, keep an eye out for the gain and offset tutorial and accompanying online calculator.
Perfect 👌🏽 so simple when you know how. Many thanks.
Great videos, well explained. I'm trying to use an analogue input to vary the setting of a timer as I would in a normal PLC. is it possible to do this in logo?
Thanks for the feedback, Dale. I've answered your question in a new video. ua-cam.com/video/NLgtvqi1fHU/v-deo.html.
Very clearly explained 👌🏽
❤
When watching one of your videos just a moment ago i thought to request a video explaining differences between the LOGO controller, but here we go! You have it already. Nice. Only i can try to guess that you haven't got a video explaining additional I/O modules and if all controller models can controll all of it and how many of I/Os can be added. Or of you have this video already, then soon i will find it. ;) Thank you.
Thank you for the nice feedback. No, I haven't started to look at add-on modules. I still have a lot to do on the basic modules, the web server capability, cloud and networking. You'll have to read the manuals for now!
I started to watch your series of programming elements. Easy to understand and follow your explanations. Great beginners tutorial. Thank you.
Great to hear!
What a load of convoluted formula just to achieve a simple up and down movement for a Magic Carpet. Get a Fork Lift truck to do the job.
As far as I remember I only used one formula, F = ma. Sure, one could get a forklift, but learn nothing and have no understanding!
Golden rule of Special Effects-keep it simple.
I did. No electrics. No hydraulics. Simple levers. Human powered. Silent.
I think you’re getting ahead of yourself. I was referring to your comment about ‘understanding’. Millions upon millions use computers successfully every day without having to know what each component does in the circuit. Now do understand my previous comment?
Interesting
Thanks for the feedback. I hope it helps.
Thanks.
Excelent!!! a nice trick for repertoire. Speacilly useful for big pieces
Thanks! It solved the problem for me anyway.
Great gate explanation ❤
That's a nice trick! A slight recommendation would be for the print base to be three pieces, the handle, the actual base and the vessel, with the vessel in one piece and on its head, that would achieve the ideal 3d printing orientation to avoid warping, and if for some reason you need really good tolerances you could print it with a raft
Thanks, Eric. I had a couple of constraints. I have a really cheap, low-quality printer at home but decided to make these on an Ultimaker 2+ at my local library. (It just worked!) The print bed is about 22.5 cm square so it was a tight fit. It also put all the support on the inside which kept the outside clean. I think I could have avoided most of the distortion by fitting the lamp top during the glue-up. It would have held the lamp sides in the correct relative positions. Have a look at ua-cam.com/video/PWJ1t3-23SE/v-deo.htmlsi=TVp8rnDAgg5_9OKE to see more!
@@QuickPLC-kh5of I see, in that case you may benefit from creating a guiding lid, just some "jigsaw" pattern on the bottom that will help you align everything else, you could also get some ideas from wood joins, I've made my fair share of them for 3D prints and they do wonders
Nice!
The video is very informative, hardware and programing are very clear. Thank you Sir! Regards from Ukraine.
Thank you for the feedback. We hope that your lives can get back to normal as soon as possible. There are many refugees from your country in my town in Ireland.
@@QuickPLC-kh5of Thank you for the support!
Well explained
Excellent videos! Thanks for taking your time to make theses videos that have helped my learning curve greatly
very good tutorial.Thank you very much
how to use all input and output siemens logo PLC
Have a look at the lesson on the Kamami simulator where I explain the inputs. ua-cam.com/video/TGmH7R_G87g/v-deo.html
Hello! I have a question again)) - did I understand correctly: the NOT block in one cycle has an output of 1, in the next cycle it has 0 and then everything repeats?
Sorry for the delay. I didn't notice your comment. At what time in the video are you asking?
Hello. Everything is fine! Starting from 1:37, you assemble a circuit with recursion to the NOT block. In the first cycle, the output of the NOT block is a logical one, in the second cycle it is a zero, and so on, each odd cycle is equal to a logical one, and every even cycle is equal to a logical zero? It turns out that the block does NOT switch its state in each new cycle?
Ah, yes. Have a look at the "LOGO! M & Q and the program scan" (ua-cam.com/video/Bm6qlgkng1M/v-deo.html) where I go into some detail. I think this will answer your question. Follow that up with the "LOGO! Shift Register" (ua-cam.com/video/tsi72VobvYg/v-deo.html) video and you'll be expert! Let me know how you get on.
Good, thank you. I'll watch these videos and give you feedback!
Hello. Thank you for the video! Tell me, what program did you use to simulate the capacity and dial gauges?
I used Inductive Automation's Ignition system. The Perspective module is designed for browser applications. The full software is expensive but you can use the two-hour trial mode indefinitely (with a manual reset) or use the free Maker edition. They have an Inductive University with online training. I'm hoping to make a video of using Ignition as a HMI for the LOGO! I'm glad you liked it.
Thank you for your feedback! I really liked your videos, although I haven’t watched the whole playlist yet. I will get acquainted with the program! Thank you!
Thankyou Sir.
Excellent thank you keep up great work
Thankyou Sir.
Please I need you email to discuss
Excellent, thanks once again.
👍👍👍👍
important information, Thanks Sir.
Great videos and definitely the best I've come across (I'm studying EE lvl 3). The only improvements in my opinion would be some real life examples of how the less common blocks could be used. Eg, in what scenario would edge be useful.
Thanks for the feedback. I want to finish off the basic operation tutorials first but may slip in some application videos too. I'll take note of your suggestion for edge-trigger applications.
Awesome thanks !
Thankyou, great tutorial.
Thank you! There are plenty more!
Thankyou.
Thankyou.
Thankyou very much- its taken me weeks to come across your video. I only found it because I specifically searched for latching relays. All the other tutorials I have come across just have cheesy music with no explanation. Unless someone explains what functions like Trg means then the tutorials in the logo manual are very hard to understand. Its a shame you're not coming up as top results on the search!
Good! It's great to know that the tutorials are a help.
I would like to thank you for making these videos, I have found them immensely useful and I am looking forward to new content from you.
Great to hear!
Thank you. It's very helpful for newbie like me.
I'm glad it was helpful!
Can you do one with pressure sensor (or temperature) to include threshold triggers and mathematic instructions? Let me expand. You have a 0-10V, 0 to 16 bar pressure sensor and you set up the gain, install it and instead of showing the working pressure of 3.8 bar, it reads 3.2 bar. Can you show using mathematic instruction or similar how to trim the resulting pressure to read correctly. Also add threshold triggers for alarms on same.
What is the configuration of your analog amplifier? The analog videos seem to be of higher interest than others. I'll see if I can do some more. Thanks!
First check the signal arriving at the LOGO! 3.8 bar / 16 bar * 10 V = 2.37 V. If you don't measure that with a meter then the problem is outside the LOGO! If you can't fix it then you need to rescale your reading by 3.8 / 3.2 = 1.1875. So instead of Measurement Range maximum = 160 or 1600 make it 160 * 1.1875 = 190 or 1900. Set the decimal places in message text to 1 or 2 depending on your 160 or 1600 for 0.1 bar or 0.01 bar steps.
I really benefited a lot from your wonderful channel I have a solar energy system to charge 54 VDC batteries, and I want to control the turning on and off of the electric generator at values for example: 44 - 60 VDC volts using the Siemens logo!8. Is there a voltage sensor for this? or any anther ideas Thank you for your help🌹
If the LOGO! M (negative) is connected to the solar system negative then you can just use a pair of resistors to make a potential divider. A 9k - 1k divider would give you 4.4 to 6.0 V input to the LOGO! and that would give you 440 to 600 counts inside the LOGO! Make sure to calculate the power dissipated in the resistors using V^2/R for each resistor.
@@QuickPLC-kh5of Thanks Sir
Thanks
Excellent thanks for the video
❤ I love ..from Sri Lanka
Do you have any information about the plc programming of sacami company's presses?
I never heard of them. Should that be Sacami (capital S). a brand name? Capitals matter!
It mean need laddar drawing... Without difficult to make Programme directly from logo timer (pLC)
Sorry, I do not understand your comment.
Please do more videos about logo :)
I am, thank you. What did you like? What could I do better?
I wish continued..PLC logo programming..
thanks could you please explain for me the gain and offset
What do you not understand. Give enough details that someone could provide an answer.
like it thanks for effort
Thank you 🎉
It has been a long time since I attended the training. I hope I remember correctly and can explain. In one of the exercises I got mysterious errors when driving, most of the program laps it worked but sometimes I got wrong signals. I had written my code in the reverse order of the video. the solution to get rid of these inconsistent error behaviors was to rewrite all the code so it was in the same order as in the video. the teacher's explanation was something about the plc needing a whole var to update all the variables in the program code that interprets our connection
Thanks, Torgny. In most PLCs running ladder it is very easy to see the execution order. I will do some more experiments and some more web searching. Thank you for your feedback. Happy coding.