IC693CPU331 | IC693CPU331T

GE-IP | 9030 | GE Fanuc 90-30 GE-IP PLC


IC693CPU331 | IC693CPU331T

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  • Units in Stock: Immediate Availablity: 6 Units!
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  • Manufacturer: GE-IP
  • Description: GE Fanuc Series 90-30 CPU 16K Bytes with Battery Included
  • Weight: 1 lbs :: ≈ 1 kgs
  • Warranty: 1 Years
  • Product Revisions Available:
  • Other Available Revisions of the IC693CPU331 : A, B, C, D, E, F, G, H, I, J, K, L, M, N, O, P, Q, R, S, T, U, V, W, X, Y, Z, -AA, -AB, -BB, -CC, -CD, -CE, -LU, -UX,

Product Manual Excerpt

The IOP module reads a parallel output Gray Code Encoder or an AQUADB Encoder every 500 μ s. Encoder Gray Code data , Encoder Binary Code data, Encoder Total Counts and Counts per Timebase (encoder velocity) are reported to the PLC on each I/O scan using %AI data. Absolute Gray Code Encoders must provide 256, 360, 512, or 1024 counts per revolution. IOP Configuration allows the direction of encoder rotation to be electrically reversed. IOP Configuration and %AQ immediate commands also allow a position offset to be introduced. This offset value can eliminate the need to mechanically align the encoder zero position. Absolute Encoders always use IOP inputs 1–8. Nine bit encoders require IOP input 9; Ten bit encoders require IOP inputs 9 and 10. AQUADB Encoders with an optional marker channel can also be used. The encoder maximum (rollover) Binary Count value is configurable between 10 and 64999 counts. Normally the maximum count value should be set to 1 less than the encoder counts per revolution. However this is not a requirement and some applications may benefit from the use of other rollover values. Position initialization of AQUADB encoders can be accomplished in three ways: 1. The PLC can send a %AQ immediate command to initialize the encoder Binary Count value. 2. The PLC can initiate a Find Home operation which causes Binary Count data to be set to the configured Home Position when the Home Switch input is ON and an encoder marker rising edge transition occurs. 3. The encoder marker channel can be connected to the IOP faceplate Preload input. If the %Q Reset Preload Latch bit is set ON, each marker rising edge transition will set Encoder Binary Count data to the configured Preload value. This technique provides a pseudo-absolute encoder function because Binary Count data is re-initialized once per encoder revolution. For systems which can allow the encoder to rotate at least one revolution before initializing position, operation will be similar to an absolute encoder of equal resolution

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