LM4041-ADJ
About 30 years ago, some guy told me he had a 4-to-20 mA current source. He wished he could tell if the current was out of range—or if the wire was broken! But nobody could tell him how to detect this. Well, if you want to wave a red flag in front of a bull, just tell me that there’s an analog function and nobody knows how to do it. So I began to figure. How can we tell if a 4.0-mA current shifts down to 3.70 mA or less? If we could tell that, that would be an illegal condition.
I decided to use Bob Widlar’s new LM10, which incorporates a voltage reference and an op amp. Surely I could invent a trick circuit to detect and transmit the error when the current gets too small. I sketched and fiddled and invented a circuit that worked. The customer agreed that it worked.
I also submitted this as a sort of “Idea for Design” to one of the instrument and industrial magazines, because we knew its readers always used a lot of “4-to-20 mA.” So the magazine published that circuit. About three months later, we got a nice letter in AWE, because the reader response to this little circuit had drawn more interest than the magazine had ever seen before. Well, I guess so.
These days, the LM10 is still made and sold, but at $2.30, it’s a little more expensive than you really need for such a simple function. When we brought out the inexpensive (37 cents in quantity) LM4041-ADJ, I figured, “That ought to be able to do it, too.” The LM4041-ADJ has a little gain stage and a 1.2-V reference, so it will perform those functions (see the figure).
Key Specs
The 4N28 has fairly mediocre gain (0.1 to 0.3), but it’s adequate to put out a little flag that can be detected down near “ground.” The LM4041-ADJ detects the 4.0-mA current through the 332 Ω and turns on the 4N28. If that current drops below 3.7 mA, the LM4041 turns the opto off. Even a simple circuit can perform a very useful function. You don’t have to try to find a 30-year-old magazine.
If you want to check the actual level at which this circuit trips and detects, you’ll want a little triangle-wave tester to put in calibrated currents both above and below 3.7 mA. If the output duty cycle is exactly 50%, you’ll know that the threshold is correct. You could trim if you wanted better than 2% accuracy.
I used to work for Teledyne, and if you know your Greek, you’ll know it means “distance and force.” Well, this circuit puts out a small force even isolated hundreds of volts distant, above or below ground. No galvanic connections. So, isolation does not mean poor accuracy or great expense.
Dirty Dishes, Daddy Do? Part 2
My recent column on dirty dishes (May 5, p. 104) prompted a lot of mail from readers with similar complaints, including my brother-in-law Alan Tausch, who had figured out the problem pretty well:
Hi Bob,
I just read your column, and I was very interested in your section about dishwasher soap. Your column is so far the only place where I have seen this issue brought out in print. I went through the same frustration recently. The dishwasher that worked fine for years suddenly no longer gets the dishes clean. Besides that, the glasses are starting to come out with a white haze on them, which cannot be removed with any solvent I’ve found so far. The only solution has been to throw out the glasses and buy new ones. We even bought a new dishwasher, thinking the old one was not working right any more—and got no improvement with the new one.
Then I learned about phosphates being banned from dishwasher soap. And frankly, I’m livid. It’s a prime example of overreaching government intrusion. But what’s worse, they apparently decided to do it without publicizing it. Yes, if you do a search on the Internet, you will find articles saying that phosphates were banned. But I do not remember ever seeing anything in the news that it had been decided and was about to happen. Was this a liberal/government/media/conspiracy? Well it sure does look like it.
Anyway, here is the solution. Go to your hardware store and buy a box of tri-sodium phosphate (TSP), the same stuff you’d use for cleaning your deck or other tough outside cleaning jobs. Put a teaspoon of the TSP into the little soap compartment of the dishwasher, along with the soap gel for each load.
And, by the way, if you go to the appliance store and say your dishwasher doesn’t seem to be working well and you want to buy a new one, they will be happy to sell you one, but they don’t mention that the reason your dishes aren’t coming clean is the phosphates. Do even the appliance sales people not know? Or do they just want the commission on the sale?