IC693PWR328

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

IC693PWR328 Image

IC693PWR328

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  • Units in Stock: Immediate Availablity: 4 Units!
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  • Manufacturer: GE-IP
  • Description: GE Fanuc Series 90-30 Power Supply 48 VDC IC693PWR
  • Weight: 1 lbs :: ≈ 1 kgs
  • Warranty: 1 Years
  • Product Revisions Available:
  • Other Available Revisions of the IC693PWR328 : 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,

Product Manual Excerpt

PLC I/O Module Specifications July 2000 GFK 0898F Table 4-7. Specifications for IC693PWR322 Power Supply Nominal Rated Voltage Input Voltage Range Start Run 24 or 48 VDC 21 to 56 VDC 18 to 56 VDC Input Power 50 watts maximum at full load Inrush Current 4A peak, 100 ms maximum Output Power 5 VDC: 15 watts maximum 24 VDC Relay: 15 watts maximum 24 VDC Isolated: 20 watts maximum NOTE: 30 watts maximum total (all three outputs) Output Voltage 5 VDC: 5.0 VDC to 5.2 VDC (5.1 VDC nominal) 24 VDC Relay: 24 to 28 VDC 24 VDC Isolated: 21.5 VDC to 28 VDC Protective Limits Overvoltage: Overcurrent; 5 VDC output: 6.4 to 7 V 5 VDC output: 4 A maximum Holdup Time: 14 ms minimum Standards Refer to data sheet, GFK-0867B, or later version for product standards, and general specifications. Calculating Input Power Requirements for IC693PWR322 The following graph is a typical 24/48 VDC power supply efficiency curve. A basic procedure for determining efficiency of the 24/48 VDC power supply follows the figure. 5 10 15 25 30 AVERAGE INPUT POWER (WATTS) TOTAL OUTPUT POWER (WATTS) a44963 50 20 10 20 30 40 45W Figure 4-5. Typical Efficiency Curve for 24/48 VDC Power Supply Note Start-up surge at full load is 4 amps for 250 milliseconds (maximum). Series 90 30 Power Supplies 4 GFK 0898F Chapter 4 Series 90 30 Power Supplies 4-9 Input Power/Current Calculation Determine total output load from typical specifications listed for individual modules in Chapters 2 and 3. Use the graph to determine average input power. Divide the input power by the operating source voltage to determine the input current requirements. Use the lowest input voltage to determine the maximum input current. Allow for start-up surge current requirements. Allow margins (10% to 20%) for variations.