Hi all! First post...
Is it really necessary to add a battery disconnect switch and a "T class" fuse in-between a Victron Lynx setup (with a properly sized + Victron recommended main fuse) and a server rack battery (with bms and breaker switch)?
Setup in question:
X2 24v EG4 server rack batteries with integrated 125amp breaker on/off switches - specsheet/manual state various bms overcurrent safeties and breaker capabilities
Victron Lynx shunt with recommended 300amp "main fuse" and Lynx distribution block. (Also assume overkill wiring sizing and extremely short lengths)
Multiplus II 3000kva 24v 120v x2 inverter
I would like to keep the system as simple as possible. Less connections are better right?
I understand the concern for arc extinguishing high current T class fuses vs what Victron recommends but under what failure circumstances are we trying to prepare for?
Is it really necessary to add a battery disconnect switch and a "T class" fuse in-between a Victron Lynx setup (with a properly sized + Victron recommended main fuse) and a server rack battery (with bms and breaker switch)?
Setup in question:
X2 24v EG4 server rack batteries with integrated 125amp breaker on/off switches - specsheet/manual state various bms overcurrent safeties and breaker capabilities
Victron Lynx shunt with recommended 300amp "main fuse" and Lynx distribution block. (Also assume overkill wiring sizing and extremely short lengths)
Multiplus II 3000kva 24v 120v x2 inverter
I would like to keep the system as simple as possible. Less connections are better right?
I understand the concern for arc extinguishing high current T class fuses vs what Victron recommends but under what failure circumstances are we trying to prepare for?