I'm looking for a magnetic hotplate stirrer, any experiences with the "cheap" ones from ebay, amazon, etc.?
I just bought this one off ebay used for $100:
Microyn SH-II-4C Magnetic Stirrer Hotplate
There are other very similar variations of this, SH-4C-T and MT-SH-4C-T appear to be identical except stirring speed is 0-1600 rpm and are $240
https://www.ebay.com/itm/Digital-Laboratory-Magnetic-Stirrer-Hotplate-w-timer-7x7-inch-600W-0-1600rpm-/153500887526 https://www.amazon.com/Laboratory-Magnetic-Hotplate-Function-7x7inch-Capacity/dp/B0725BS5XJ/MT-SH-4C is similar but with a speed control knob
▲Specifications
1.Voltage: 100~120, 60 Hertz
2.Heating power: 600 watts
3.Stirring power: 20 watts
4.Maximum heating plate temperature: 350°C
5.Stirring speed: 200~2000rpm stepless adjustable
6.Maximum Stirring capacity: 5000ml liquid (H2O) volume
7.Square Heating plate size: 190mm x 190mm (7.5 inch)
8.Heating plate material: Ceramic
9.Overall dimensions (LxWxH): 320mm x 190mm x 125mm
10. Weight with packaging: 5 kg
▲Packing list
1 x Main unit
1 x Stirring bar (Diameter 9mm x 28mm length)
1 x Power Cable with US Plug
1 x Rack with Rods
1 x Fuse
1 x User Manual
This is a capable, well made, sturdy all metal instrument, but the user interface is arcane, and the user manual is poorly written and/or translated. I bought one used off ebay for $100. Upon receipt, the device appeared to be brand new. My guess is that someone bought and then returned it because it was too difficult to figure out how to use. I had to read the manual and experiment for an hour or so to get it to work. For example, the button at the lower right with the international power on/off symbol on it (a circle with a short vertical line) and the text “STIRRING” below it, must be pressed and held 3 seconds to start or stop magnetic stirring. Who would have thought?
Be aware that whenever the rear mounted power switch is on, the heater may be operating, even when “OFF” is shown on the control panel. This only indicates that the stirrer is off. There is no way to turn the heater off manually from the front panel, so far as I can determine. The heater is controlled by the PID control loop, which lights the “HEAT” indicator when powered. At times the heater will be turned off, as for example at the end of a timing cycle, when the alarm sounds, and the stirrer is switched “OFF.” An overtemperature condition (user setable, by default 20c above the setpoint) lights the overtemperature alarm triangle, and shuts the heater off.
The 3 second time delay of the “STIRRING” button press, as well as dozens of other parameters, are user changeable. So the first thing I did was reset everything to factory default values. To accomplish this, press and hold the “TEMP” button for 3 seconds until the prompt “Lc” appears. Set the value to “67” using the up/down arrows, then press “TEMP” once again. The prompt “rST” will be shown. set this to “1” then press “TEMP” again. A relay will click, rpm will show “500”, and the parameters are reset. Totally intuitive, right? Just don't lose the manual. I would really like to download a pdf version of it for safekeeping, but I haven't found out where to do that.
To calibrate the PID controller, place a flask of water on the platform filled to a volume typical of the experiment that you wish to do, 1L for example. Mount the probe so that it is immersed in the water, toss in the stirrer and set it to, say, 700 rpm. Set the temperature to, say, 70c. Press and hold “AT” for 6 seconds. The “AT” prompt will be shown. Change the flashing “0” to a flashing “1” and then press “TEMP.” The “[AT]” indicator will start flashing, indicating calibration mode, which entails turning the heater on and off as it measures time constants for the controller. It may take a long time to finish this proceedure. I waited 40 min for it to finish for the above setup. You can press “AT” for 6 seconds to exit calibration, but the manual does not state what happens then to the PID parameters. Perhaps they are unchanged, perhaps they are reset to factory values, or something else. I would expect that the larger the mass of the water in the flask, the longer the time constants, and the longer that calibration will require. During calibration, the controller overheats the water by about 10C. Then it takes a while to cool down below the setpoint and to start exercising the control loop to measure the PID parameters. Apparently, you can also set these values directly, but I have not experimented with that.
There are two temperature sensors. “A” is the PT100 thermal probe that you immerse in the solution. “B” is a thermocouple embedded in the underside of the hot plate. Press and hold the “SHIFT” button for 3 seconds to switch between the two. The sensor currently selected is shown on the display next to the speed button. I guess there wasn't room to place it somewhere more intuitive, as for example, near the “TEMP” button. PT100 “A” readings were within 1C of the readings on my multimeter thermocouple during the time I experimented.
I did not take it apart, but I did measure resistance at 200 ma from the ground prong to various points on the chassis. Most of the values were in the tens of milliohms, except points near the motor case on the bottom were around 1 ohm. Still, this meets the IEC 2 ohm spec. Hi pot testing at 500v from ground to the ac inputs was >550 MOhms. On power up, my unit displayed version “Fsv1”
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