Electronics

Calculating current limiting resistor between MOC3052 and BTA16-600B?

How to correctly calculate current limiting resistor between MOC3052 and BTA16-600B?
The maximum current switched by the optotriac is 60mA, and the minimum required current to open the BTA16-600B = 50mA. According to my calculations, I get more than 1 kOhm. And in circuits in different ways from 470 ohms to 600 ++ ohms, where does such a calculation come from?
In my circuit, the load is 30 ohms, the mains voltage is 230v. So how to count correctly so that you can open it at any time?
For example, here is the diagram avrproject.ru/dimmer/jhi.png
From this article here avrproject.ru/publ/poleznaja_informacija/setevoj_d...
The only figure that approximately corresponds to such results is this calculation:
Max. Amplitude in the network 230V = √2 * 230 = 325.3V
Max surge current MOC3052 = 1A
Max load BTA16-600B = 16A
My payload is 30 ohms.
335.3 / 1 = 335.3 Ohm, that is, this is the minimum resistance at which the optocoupler will work for no more than 200 μs.
Now the calculation according to the rules is 230 / 0.05 = 4.6 kOhm.
But it is set that it will open in this way only at the maximum amplitude value of the mains voltage.
Now what seems right to me
. Since min 50mA is required to open the triac BTA16-600B and the maximum peak current of which MOC3052 = 1A can briefly switch, we can safely assume that the current of 0.6A of the optocoupler will quietly pass through pulses.
325.3 / 0.6 = 542 ohms.
Отсюда можно вычислить начало открытия оптопары изходя из того что знаем минимальный ток открытия симистора и сопротивления = 542*0,05= 27в. То есть это то напряжение достигнув которого синусоидальных, откроет симистор.
Вот теперь у меня и голова кругом, откуда у них в схемах такие значения?