daiflying

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  1. Maybe you can look at first How to Connect to an Allen Bradley Micrologix 1500 using RS-232 (DF1) in AB articles tutorials!
  2. FX-4AD manual

    I want to help you,but i can only find fx2n-4ad user's guide.I find it in http://www.mitsubishi-automation.de/.hope be helpful. s_guide.pdf
  3. FX-4AD manual

    maybe help.FX2N-4AD-PT. FX2N_4AD_PT.pdf
  4. s:4/0 bit micrologix1500

    First Pass S:1/15 Can be Yes or No. When the controller sets this bit it indicates that the first scan of the user program is in progress. Index Register S:24 Enter a value from -32768 to 32767. This word indicates the element offset used in indexed addressing. When an STI, high-speed counter, or Fault Routine interrupts normal execution of your program, the original value of this register is restored when execution resumes. Free Running Clock S:4 Status Only the first 8 bits (byte value) of this word are assessed by the processor. This value is zeroed at powerup in the REM Run mode. You can use any individual bit of this byte in your user program as a 50% duty cycle clock bit. Clock rates for S:4/0 to S:4/7 are: 20, 40, 80, 160, 320, 640, 1280, and 2560 ms.The application using the bit must be evaluated at a rate more than two times faster than the clock rate of the bit. This is illustrated in the example below for SLC 5/02 and higher processors. Dynamic Config All 16 bits of this word are assessed by the processor. The value of this word is zeroed upon power up in the REM Run mode or entry into the REM Run or REM Test mode. It is incremented every 100 microseconds thereafter.Application note: You can write any value to S:4. It will begin incrementing from this value.You can use any individual bit of this word in your user program as a 50% duty cycle clock bit. Clock rates for S:4/0 to S:4/15 are:20, 40, 80, 160, 320, 640, 1280, 2560, 5120, 10240, 20480, 40960, 81920, 163840, 327680, and 655360 msThe application using the bit must be evaluated at a rate more than two times faster than the clock rate of the bit.In the following example, bit S:4/3 toggles every 80 ms, producing a 160 ms clock rate. To maintain accuracy of this bit in your application, the instruction using bit S:4/3 (O:1/0 in this case) must be evaluated at least once every 79.999 ms. SLC Status, Main The status file lets you monitor how your operating system works and lets you direct how you want it to work. Depending on the type of processor you are using all of the fields explained below may not apply. Fields on this display that are in gray are read-only. Fields shown in white are read/write. However, this information is seldom written to by the user program or programming device (unless you want to reset or clear a function). If you write to status file data, make sure that you first understand the function fully. If you want to know how to access this display, click here. This information appears on the Main tab with the Structured Radix selected. What's on the Dialog? First Pass S:1/15 Can be Yes or No. When the controller sets this bit it indicates that the first scan of the user program is in progress. Index Register S:24 Enter a value from -32768 to 32767. This word indicates the element offset used in indexed addressing. When an STI, high-speed counter, or Fault Routine interrupts normal execution of your program, the original value of this register is restored when execution resumes. Free Running Clock S:4 Status Only the first 8 bits (byte value) of this word are assessed by the processor. This value is zeroed at powerup in the REM Run mode. You can use any individual bit of this byte in your user program as a 50% duty cycle clock bit. Clock rates for S:4/0 to S:4/7 are: 20, 40, 80, 160, 320, 640, 1280, and 2560 ms.The application using the bit must be evaluated at a rate more than two times faster than the clock rate of the bit. This is illustrated in the example below for SLC 5/02 and higher processors. Dynamic Config All 16 bits of this word are assessed by the processor. The value of this word is zeroed upon power up in the REM Run mode or entry into the REM Run or REM Test mode. It is incremented every 100 microseconds thereafter.Application note: You can write any value to S:4. It will begin incrementing from this value.You can use any individual bit of this word in your user program as a 50% duty cycle clock bit. Clock rates for S:4/0 to S:4/15 are:20, 40, 80, 160, 320, 640, 1280, 2560, 5120, 10240, 20480, 40960, 81920, 163840, 327680, and 655360 msThe application using the bit must be evaluated at a rate more than two times faster than the clock rate of the bit.In the following example, bit S:4/3 toggles every 80 ms, producing a 160 ms clock rate. To maintain accuracy of this bit in your application, the instruction using bit S:4/3 (O:1/0 in this case) must be evaluated at least once every 79.999 ms.
  5. W-Series Servo -> CJ1M. HELP!

    getting servo into 'run' mode.don't need the 'SEN' input,got the run command wired up pin 47(24vdc) and 40(0vdc).The display will be "RUN".
  6. connect the Micrologix 1500

    Yes to PC.So I don't sure.But I have upload the program this morning.
  7. connect the Micrologix 1500

    It's right.Thanks,tspisak
  8. Can I Use a 1761-CBL-PM02 cable to connect the Micrologix 1500 directly via the 8-pin mini-din connector (don't have 1761-NET-AIC)?