Kaverilla on tuollainen kone jossa mach 3 ohjaus , machiin helppo nakki saada spindle index , eri asia on miten ihmeessä tuosta tamusta saisi pulssi tiedon machhiin. tamun manuaali kertoo avo elikkä analog out nastan toiminnasta näin.
It defines meanings of AVO. The first part of LED: it defines the meanings of analog output terminal AVO. 0:Output freq. Amplitude accumulation of AVO is in direct ratio to the output frequency. F2.11 is corresponding to the upper limit freq. 1:Output current Amplitude accumulation of AVO is in direct ratio to the output current. F2.11 is twice rated current of inverter. 2:Output voltage Amplitude accumulation of AVO is in direct ratio to the output voltage. F2.11 is corresponding to [F1.4] and [F1.15]. 3:Rotational speed of applied motor Amplitude accumulation of AVO is in direct ratio to the motor rotational speed of inverter. F2.11 is corresponding to rotational speed that is corresponded with the upper limit freq. 4:PID setting Amplitude accumulation of AVO is in direct ratio to the setting value of PID. F2.11 is corresponding to feedback of 10.00. 5:PID feedback Amplitude accumulation of AVO is in direct ratio to the PID feedback. F2.11 is corresponding to feedback of 10.00. The second, third and fourth part of LED: Reserved
mutta itellä on tuo amplitude accumulation termi hukassa , jotenkin järki sanoisi että tuo olisi pulssia mutta taas toisaalta tuohon avoon kehotetaan laittamaan 0-10v jännite mittari :(.
eli onko tosiaan niin ettei näissä karan tamuissa ole otettu huomioon ollenkaan ohjaukselle rpm dataa vai enkö vain osaa.
ajattelin kysellä täältä ennen kun ainut mitä itse keksin on arduinolla mitata tuolta avo nastasta jännite jollain ihme hauskalla kaavalla muodostaa siitä rpm pulssi data.
It defines meanings of AVO. The first part of LED: it defines the meanings of analog output terminal AVO. 0:Output freq. Amplitude accumulation of AVO is in direct ratio to the output frequency. F2.11 is corresponding to the upper limit freq. 1:Output current Amplitude accumulation of AVO is in direct ratio to the output current. F2.11 is twice rated current of inverter. 2:Output voltage Amplitude accumulation of AVO is in direct ratio to the output voltage. F2.11 is corresponding to [F1.4] and [F1.15]. 3:Rotational speed of applied motor Amplitude accumulation of AVO is in direct ratio to the motor rotational speed of inverter. F2.11 is corresponding to rotational speed that is corresponded with the upper limit freq. 4:PID setting Amplitude accumulation of AVO is in direct ratio to the setting value of PID. F2.11 is corresponding to feedback of 10.00. 5:PID feedback Amplitude accumulation of AVO is in direct ratio to the PID feedback. F2.11 is corresponding to feedback of 10.00. The second, third and fourth part of LED: Reserved
mutta itellä on tuo amplitude accumulation termi hukassa , jotenkin järki sanoisi että tuo olisi pulssia mutta taas toisaalta tuohon avoon kehotetaan laittamaan 0-10v jännite mittari :(.
eli onko tosiaan niin ettei näissä karan tamuissa ole otettu huomioon ollenkaan ohjaukselle rpm dataa vai enkö vain osaa.
ajattelin kysellä täältä ennen kun ainut mitä itse keksin on arduinolla mitata tuolta avo nastasta jännite jollain ihme hauskalla kaavalla muodostaa siitä rpm pulssi data.