Effective opto solid state relay for High-Risk Applications
Reliable opto solid state relay Designs for Industrial and Industrial Applications
CHINA – ?¡ãAny Electronics?¡À proudly presents their whole variety of opto solid state relay . They offer a complete set of opto solid state relay merchandise along with other interrelated merchandise. These units are observed in different applications like industrial applications, industrial handle circuits together with OEM Panels. These devices include superb precision and repeatability. The standard opto solid state relay which might be created nowadays call for really small panel space.
opto solid state relays
opto solid state relays
opto solid state relays
Opto 22 240A10 AC Control Solid State Relay, 240 VAC, 10 Amp, 4000 V Optical Isolation, 1/2 Cycle Maximum Turn-On/Off Time, 25 - 65 Hz Operating Frequency
Opto 22 offers a complete line of SSRs, from the rugged 120/ 240/380-volt AC Series to the small footprint MP Series, designed for mounting on printed circuit boards. All Opto 22 SSRs feature 4,000 volts of optical isolation, and most are UL and CSA recognized. The innovative use of room-temperature liquid epoxy encapsulation, coupled with Opto 22's unique heat-spreader technology, are key to mass producing the world's most reliable solid state relays. Every Opto 22 solid state relay is subjected to full load test and six times the rated current surge both before and after encapsulation. This double testing of every part before it leaves the factory means you can rely on Opto 22 solid state relays. All Opto 22 SSRs are guaranteed for life. Opto 22 provides a full range of Power Series relays with a wide variety of voltage (120-575 volts) and current options (3-45 amps). All Power Series relays feature 4,000 volts of optical isolation and have a high PRV rating. Some Power Series relays include built-in LEDs to indicate operation. The AC Series offers the ultimate in solid state reliability. All AC Power Series relays feature a built-in snubber and zero voltage turn on. Transient-proof models offer self protection for noisy electrical environments. Specifications: 4,000 V optical isolation, input to output, Zero voltage turn-on, Turn-on time: 0.5 cycle maximum, Turn-off time: 0.5 cycle maximum, Operating temperature: -40 degree C to 100 degree C, Operating frequency: 25 to 65 Hz, (operates at 400 Hz with six times off-state leakage), Coupling capacitance, input to output: 8 pF maximum, Hermetically sealed, DV/DT Off-state: 200 volts per microsecond, DV/DT commutating: snubbed for rated current at 0.5 power factor, UL recognized, CSA certified, CE component, Torque specs for screws: Control terminals; 6 in/lb, Field terminals, 18 in/lb.
89/336/EEC, 2002/95/EC, Canadian Standards Association, IEC 950: 1991-09
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Eddard asked How to build a 120v 3 channel flasher?
I'm tring to build a AC 120v circuit for a light display at work. It will have 3 light bulbs on it that need to light in sequence. Basicly one light would come on, stay on 3-5 sec then it would turn off while the 2nd one turns on etc... I know it will involve a 555 timer but I cant seem to find any schematics online that are for AC. Lights to go has one for sale but its $40 and since how I'm doing this for a display at work I do not want to spend that much of my own money. Any help would be greatly appreciated. Also I should point out that I do have basic knowlede on how to build circuits I just need a diagram and parts list.
And got the following answer:
First: If you're doing this for a display at work, the place you work for should be buying the parts!! You will probably want a setup something like this: 555 drives a binary ripple counter that's used to get the clock rate down to 1/3 to 1/5 Hz or so. (555's do not work well if you try to get a very low clock rate out of them directly.) This clock then drives a 4017 or 4022 Johnson counter with one-of-N outputs. If you don't want to use all of the outputs you can wire one of them to reset the counter. (Or you can build the three-state Johnson counter out of a few flip-flops.) So your counter would be doing something like 0, 1, 2, 0, 1, 2, ... and each of those outputs would control one lamp. Re. AC, get it working driving LEDs first. Then change the LEDs to optocouplers, with the optos' outputs going either to relay coils or to triacs to switch power to the AC lamps. Your absolute best bet for safety would be to use solid state relays like the one I've linked below. But three of those would blow your budget, even though they're heavily discounted (they're surplus), and you haven't even bought lamps yet. Circuit design is not about finding diagrams that already exist. It's about finding building blocks that you can put together and use creatively. I would be remiss if I didn't mention that you could also dispense with the individual chips and just use a microcontroller. Nobody builds stuff like this out of low-level logic circuits any more. The "obvious" choice, a regular Arduino, would set you back $30, or $25 for the Arduino Micro. But there are much cheaper options. For example the Adafruit Trinket would let you control those LEDs and it's just $8. Add power, optocouplers, and relays or SSRs. Done. This gives you huge flexibility. Want to have a delay between one lamp going off and another coming on? Want to have different "on" times for the different lamps? Maybe even turn one lamp on slightly before you turn the previous one off? Not a problem. If you use triacs or SSRs you can even use PWM to get varying levels of brightness instead of just on or off. It's just a matter of changing a few lines of code. Of course you'll have to write that code, and program it into the controller. But that's what it's about these days. p.s.: I disagree with Ken. Even with random logic, working out the logic is the easy part. If you think homebrewing something that runs on 120VAC and is going to be used in a commercial environment and making it SAFE is easy, think again. For that matter, there are almost certainly insurance provisions or fire code regulations at the workplace that prohibit the use of AC-powered devices that are not UL approved.
The opto solid state relay function incredibly properly with various applications which are distinct to energy distribution and protection. The relays come with wide adjustment ranges with a scale that is certainly simple to read either in 3 or 4 digits according to the model. These opto solid state relay enable in escalating the flexibility in the applications, minimize the general energy and maintenance costs. There are actually relays which are utilized for common purposes which come in trustworthy designs with fast replacement alternatives. And you’ll find models that are applied for industrial applications and heavier duty applications that perform on substantial loads. These solutions are produced to meet the lifetime industrial handle requires with the applications.
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