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MP240D2 Datasheet(PDF) 17 Page - Opto Electronics Co,. LTD |
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MP240D2 Datasheet(HTML) 17 Page - Opto Electronics Co,. LTD |
17 / 23 page Solid-State Relays Opto 22 • 43044 Business Park Drive • Temecula, CA 92590-3614 • www.opto22.com SALES 800-321-6786 • 951-695-3000 • FAX 951-695-3095 • sales@opto22.com • SUPPORT 800-835-6786 • 951-695-3080 • FAX 951-695-3017 • support@opto22.com © 2006–2014 Opto 22. All rights reserved. Dimensions and specifications are subject to change. Brand or product names used herein are trademarks or registered trademarks of their respective companies or organizations. PAGE 17 Transformer Loads Careful consideration should be given to the selection of the proper SSR for driving a given transformer. Transformers are driven from positive saturation of the iron core to negative saturation of the core each half cycle of the alternating voltage. Large inrush currents can occur during the first half cycle of line voltage if a zero-voltage SSR happens to turn on during the positive half cycle of voltage when the core is already in positive saturation. Inrush currents greater than 10 times rated transformer current can easily occur. The following table provides a guide for selecting the proper SSR for a given transformer rating. Solenoid Valve and Contactor Loads All Opto 22 SSRs are designed to drive inductive loads such as solenoid valves and electromechanical contactors. The built-in snubber in each SSR assures proper operation into inductive loads. The following table is a guide in selecting an SSR to drive a solenoid or contactor. Control Current Calculation All Opto 22 DC-controlled SSRs have a control circuit consisting of 1000 ohms in series with an Optocoupler LED. The LED will drop 1 volt, so the voltage across the internal resistor will be 1 volt less than the control voltage. The control current (I C ) can be calculated from the control voltage (V C ) as follows: I C = (VC - 1)/1000 Examples: 3 VDC control voltage: I C = (3 - 1)/1000 = 0.002 A (2 mA) 32 VDC control voltage: I C = (32 - 1)/1000 = 0.031 A (31 mA) For control voltages above 32 VDC, an external resistor can be added in series with the SSR to limit the control current. Also, if the device driving the control current to the SSR is limited, you can limit the control current by using an external resistor (Re). I C = (VC - 1)/ (Re + 1000) Re = [(VC - 1)/(IC)] -1000 To limit the control current to 2 mA, this simplifies to: Re = 500 (VC - 3) 120-Volt Coils SSR CURRENT RATING SOLENOID CONTACTOR 2-Amp 1-Amp NEMA Size 4 4-Amp 3-Amp NEMA Size 7 240-Volt Coils SSR CURRENT RATING SOLENOID CONTACTOR 2-Amp 1-Amp NEMA Size 7 4-Amp 3-Amp NEMA Size 7 |
Similar Part No. - MP240D2 |
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Similar Description - MP240D2 |
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