Sign in to follow this  
Followers 0
Inntele

Progressive user libraries for signal processing of FX-series analog modules

16 posts in this topic

https://plus.google.com/u/0/collection/oCtiX To be continued... Edited by Inntele

Share this post


Link to post
Share on other sites
What exactly is not clear?

Share this post


Link to post
Share on other sites
The article, a link to which I gave, was written and published in English... But, well, henceforth I'll publish all articles there only in the native language, i.e. in Russian. Apparently, it will be easier for reading and understanding... And the text of first article, I published yesterday, has been also replaced to Russian. So enjoy!

Share this post


Link to post
Share on other sites
https://plus.google.com/105445006108716761629/posts/bLtAz2hpciD https://plus.google.com/105445006108716761629/posts/GynsMUp4J2L

Share this post


Link to post
Share on other sites
FX_INT_SCALE: https://plus.google.com/105445006108716761629/posts/SR6sV3vhjay

Share this post


Link to post
Share on other sites
FX1N_2AD_BD: https://plus.google.com/105445006108716761629/posts/YLYn52vyHwz FX1N_1DA_BD: https://plus.google.com/105445006108716761629/posts/gGGMiQvVRb7

Share this post


Link to post
Share on other sites
FX3G_2AD_BD: https://plus.google.com/105445006108716761629/posts/h1dgBcvYz9o FX3G_1DA_BD: https://plus.google.com/105445006108716761629/posts/f5dmnhShBM7 Edited by Inntele

Share this post


Link to post
Share on other sites
FX3U_4AD_ADP: https://plus.google.com/105445006108716761629/posts/9jfWYGkmHR3 FX3U_4DA_ADP: https://plus.google.com/105445006108716761629/posts/gbRgouK5Sit FX3U_4AD_PT_ADP: https://plus.google.com/105445006108716761629/posts/LzH5TTmyEKP FX3U_4AD_PTW_ADP: https://plus.google.com/105445006108716761629/posts/fYjKEWE6eSM FX3U_4AD_PNK_ADP: https://plus.google.com/105445006108716761629/posts/bdxwekZWG4z FX3U_4AD_TC_ADP: https://plus.google.com/105445006108716761629/posts/3CQWi9CETVz

Share this post


Link to post
Share on other sites
FX3U_3A_ADP: A/D Channel: https://plus.google.com/105445006108716761629/posts/ec5wKxKGcQY D/A Channel: https://plus.google.com/105445006108716761629/posts/CPyPaPtW9z3

Share this post


Link to post
Share on other sites
FX2N_2AD: https://plus.google.com/105445006108716761629/posts/3i2oU5uo6wi FX2N_2DA: https://plus.google.com/105445006108716761629/posts/Tp3NL59zygk

Share this post


Link to post
Share on other sites
FX2N_8AD: https://plus.google.com/105445006108716761629/posts/ZnSScZV47UB FX2N_4AD: https://plus.google.com/105445006108716761629/posts/gFMKW8HCyBy

Share this post


Link to post
Share on other sites
FB_SCL_INT is an universal function block, a part of user's library, which is intended for scaling of 16-bit integer value with rounding of result according to arithmetic rules. The library is supported by any FX CPU, e.g. FX1N, and occupies only 35 steps for each FB instance and also 143 steps of program memory, 8 words (D), 1 label (P) for whole project. I can share the library with first five old members of this forum, who will post a request in the topic, in exchange for testing and feedback. And you'll free to use the library in your projects. Note: So far, the library is compatible with GX IEC Developer and is not compatible with GX Works due to its reverse order of device/label assignment, while it's a critical issue for correct operation. If I can overcome this strange effect, the library will be compatible with GX Works software too. https://plus.google.com/105445006108716761629/posts/BN2Bg8DaCTK Edited by Inntele

Share this post


Link to post
Share on other sites
UPD: The same library like in previous post, but under GXW v1.513K

Share this post


Link to post
Share on other sites
UPD2: The same library is available for Q-serie (GX IEC Developer & GX Works). Program memory: 53 steps for whole project + 16 steps for each FB instance. System variables: D - 8 words, P - 1 label (for whole project) Edited by Inntele

Share this post


Link to post
Share on other sites
A week ago I offered to share my library for scaling of unlimited integers with several old members of this forum. Nobody showed an interest, while this routine may be useful in work with such modules like FX2N-5A, FX3U-4AD, Q62AD, Q64AD etc., which support input modes with extended range of analog-to-digital conversion (-20000 to 20000, -32000 to 32000, ...), in work with PID, loadcells etc. Obviously, everybody has own library for scaling of unlimited integers, therefore the offer is withdrawn.

Share this post


Link to post
Share on other sites

Create an account or sign in to comment

You need to be a member in order to leave a comment

Create an account

Sign up for a new account in our community. It's easy!


Register a new account

Sign in

Already have an account? Sign in here.


Sign In Now
Sign in to follow this  
Followers 0