What's needed is a way of detecting export and using that to switch the loads. Some grid tie inverters may have this capability, but to make use of it would need some means of connecting to the inverter, which may not be an easy DIY job.

Sensing the current flow direction can be done with two clamp on current sensors, one on the grid tie inverter connection to the incoming cable, one on the incoming cable itself. The difference between these two will be an indication of the direction of current flow, and with a bit of circuitry this can be detected and used to switch a load on only when the grid tie inverter would otherwise be exporting.

AFAIK, there's only one off-the-shelf solution, but it's expensive, the EMMA, (http://www.igloo-eco.com/products.html). There are some cheaper DIY solutions around on the web, but you'd need to be reasonably comfortable with a bit of electronic bodging to have a go at building one, plus you'd need to be happy with building something that would be switching mains voltages.

Thanks Jeremy. I have contacted the Emma people. I don't have the capability to build such a gizmo.

Cheers Gavin. It is a sunnyboy but I'll check which model i have and look out the user manual. Strange that my installer never mentioned this facility.

What a great forum this is. I've been scouring the web for a couple of days and got nowhere until now!!

Cheers, keith

sunnyboy multi function relay and optitrac info manual .

http://files.sma.de/dl/5692/ZusFunktNG-TB-TEN115121.pdf

it's relatively simple, the complex bit comes if you want to also have a bypass switch on the circuit, so you can manually switch the load on when the sun's not shining. Not hugely complex though for a competent electrician with a bit of nouse.

I'm pretty sure it's the latter. TBH I don't really understand why it needs a different setting to the standard relay function, but I've not tried using the battery charge function so couldn't really say.

I presume you're aware that the relay needs to be used to trigger a contactor to switch the circuit on. IIRC it only has a 1amp maximum current through the relay circuit itself.

Be a contactor I should think, or do you mean for isolating?
Best go for a 2 pole one.
Something like this:
http://www.hopkins.biz/shop/spare-parts/hopkins-electrical-range-spares/20a-contactor-2-pole-240v-swit0033/

Or am I missing something by not re-reading the thread.

Oh and it is not unusual to have two relays, activated in parallel but taking the load in series for safety.

I think I have just found it on the SMA pdf but they look weird. Siemens Insta contactor 5TT5 is one of them. I notice that the relays on the Inverter only have a expected endurance of 100 000 switching cycles.

I think the inverter relay is 1A
I'd have thought any 20A contactor would do , such as
http://www.hagergroup.ae/energy-distribution/automation-control/modular-contactors/1503.htm
how many switching cycles do you estimate a day?

Posted By: jamesingramI think the inverter relay is 1A
I'd have thought any 20A contactor would do , such as
http://www.hagergroup.ae/energy-distribution/automation-control/modular-contactors/1503.htm" rel="nofollow" >http://www.hagergroup.ae/energy-distribution/automation-control/modular-contactors/1503.htm
how many switching cycles do you estimate a day?

them's the ones we use. Other makes are also available etc

Oh sorry it is the inverter that seems good for 100 000 switchings and they say that equates to about 12 switchings per day for 20 years. so seemingly 6 on and 6 off. Does not seem to be many but i guess the trick will be to set the wattage switch point quite high (perhaps at dull but bright level) then I guess it would contain itself to about 4 for my requirements. Thanks for your help again guys.

I considered the same approach myself until I worked out that I can sell the electricity in the day and they buy it back during economy 7 about breaking even. Given the loads I was interested in were a washing machine and dishwasher this seems simpler and more ethical.

For me it's the ethics that count: that FiT is there to help displace ff generation, not to encourage use for additional low-grade resistance heating IMHO.

Rgds

Damon

I think intent is important in all sorts of circumstances, and the intent of the FiT is fairly clear, to displace ff generation on the grid not encourage an immediate Jevons-style *extra* consumption via inefficient resistance heating.

I'm not suggesting that Keith is doing anything Bad(TM), and certainly not illegal, but I'm sure that it's anything but green.

Rgds

Damon

PS. I would avoid relays in anything switching regularly, and their failure modes are often unpleasant/unsafe.

Posted By: DamonHDI think intent is important in all sorts of circumstances, and the intent of the FiT is fairly clear, to displace ff generation on the grid

Actually I disagree. If the current FIT regime is intended to do this (at least directly) then it's not fit for purpose (no pun intended). A FIT system designed to do this would be more like a straight swap between the current feed-in and export rates, and would mandate an export meter.

The FIT system we actually have is designed to do one thing only: sell PV systems. That's why the feed-in rate is high and the export one is low: because it's much easier for people selling systems to forecast production than export, so makes them easier to sell, and allows buyers to estimate the risk better. The actual reduction of grid carbon intensity is a secondary effect of sales, but the primary intention of the FIT is to drive down the capital cost of PV. You may call that splitting hairs, but it's the only explanation for the oddball pricing system we have, that seems to directly encourage behaviour which, as you say, runs counter to green "best practice".

My opinion: anyone who stumps up several thousand pounds of their hard-earned to install the panels has the right to do whatever they want with them. From the collectivist viewpoint, even if they export nothing it's still a (small) win as they're still pulling in less from the grid, and their purchase still pushes the price of panels down.

And swerving back to the topic:

As for relays: most machines in the world are still controlled by some amount of relay logic. Go for it, especially if as Gavin says you can get software to do some of the work. I've worked on some hoary old machines with waaaaay too much relay logic in them, but this is basically a closed loop.

I have recently started working directly in the PV industry (after years of talking about it from an academic background) and I am amazed how our customers think. They start of from purely the 'investment' side (but this is really to do with the low returns from banks) but soon start to understand what their bills are telling them. They often ask what their PV system can run and seem a bit shocked when I tell them that it is hard pushed to run a kettle for two minutes. I then have to explain that a kettle is one of the heaviest loads that they draw (put less water in it), but a TV on all day may use more kWh overall.
The best customers are the ones that hate buying in electricity at 15p/kWh and have a daughter that spends an hour in a 10kW shower. That brings it home to them.
Reducing waste is the way to go.

As for the ethics of denying others what they are contributing to, think NHS and other public services, would you consider that fair?