Thermal overload relay setting 120 x full load current phase max.
Thermal overload relay setting.
Size and type of.
Thermal overload relay setting 70 x full load current phase min.
Some manufacturers have the 125 setting built in which means you must set the overload protection at the motor s nameplate current.
The overload relay itself will have markings to indicate which class it belongs to.
Cara setting thermal overload relay identik dengan rumus diatas setting trip overload.
Thermal overload relay setting 100 x6 6 amp.
In the case of electronic overload relay an additional knob for tripping class selection is also provided.
These include class 10 20 and 30.
The class number indicates the response time in seconds.
Overload relay is the one of important device for motor control it can prevent our motor from overheat or winding burning due overload of ampere.
Rentang trip current dalam persen tersebut saya ambil dari data overload mitsubishi jadi tidak ngarang ngarang.
We need to setting the value of overload relay properly depend on our application and motor full load ampere if we setting low from fla it can cause motor trip c0ntinues and process not running smoothly.
Ada yang membahas trip current 125 namun saya cari dipuil 2000 tidak ketemu sehingga saya ketemu dari mitsubishi.
2 thermal overload set incorrectly.
Hence overload must be chosen closer to the range of 8 6 14 7.
A reset button is present over the overload relay to reset the overload relay after a trip and clearance of fault.
Thermal overload relay bekerja saat suhu pada dalam tor tersebut terpenuhi jadi tor ini terdapat sebuah settingan berapa maksimum amper untuk melakukan trip jika ampere tersebut sudah terpenuhi didalam tor tersebut ada sebuah bimetal element yang menjadi panas saat ampere beban sudah melebihi ampere settingan tor.
Overload relays and their heaters belong to one of three classes depending on the time it takes for them to respond to an overload in the motor.
Thermal overload relay setting 120 x4 4 amp.
Thermal overload relay setting 70 x4 3 amp.
However if motors are designed with a service factor which is then shown on the nameplate eg.
Thermal overload relay setting 120 x12 28 14 7a.
1 15 the set current for the overload relay can be raised by 15 compared to full load current or to the service factor amps sfa which is normally indicated on the nameplate.
The required overload protection setting for motors is 125 of their full load current according to the nec but make sure you read the overload relay instructions as well.
If the motor is connected in star 440 v 60 hz the overload relay then has to be set to 3 1 a.
The current can be set between the upper and lower limits provided.
Selection of thermal overload.
Thermal overload relay phase.
