Difference between revisions of "Argon resolver adapter"

From Granite Devices Knowledge Wiki
Jump to: navigation, search
[checked revision][checked revision]
Line 1: Line 1:
 
[[File:Argonresolveradapter.jpg|thumb|Argon resolver adapters. These plug into Argon J1 port and resolver wires are directly connected to the pads of adapter.]]
 
[[File:Argonresolveradapter.jpg|thumb|Argon resolver adapters. These plug into Argon J1 port and resolver wires are directly connected to the pads of adapter.]]
 
Argon resolver adapter is a small sized adapter device that adds [[Feedback devices|resolver]] feedback device support to [[Argon]] servo drive.
 
Argon resolver adapter is a small sized adapter device that adds [[Feedback devices|resolver]] feedback device support to [[Argon]] servo drive.
 +
==Usage==
 +
[[File:Resolveradapterwiring.png|thumb|320px|Connection of resolver to adapter.]]
 +
Resolver has total of 6 wires and 3 windings: one for rotor (primary) and two stators (secondaries). Rotor connects to the adapter pins A+ and A- while secondaries connect to B+/- and C+/-.
  
 +
If pin-out of resolver is unknown, it can be found out with multimeter by finding the wire pairs where coils are connected. Rotor can be identified by searching for lowest resistance coil. Stators typically have at least twice as high resistance compared to rotor.
 
[[category:Motor drives]]
 
[[category:Motor drives]]
 
[[category:Argon]]
 
[[category:Argon]]

Revision as of 16:24, 28 March 2014

Argon resolver adapters. These plug into Argon J1 port and resolver wires are directly connected to the pads of adapter.

Argon resolver adapter is a small sized adapter device that adds resolver feedback device support to Argon servo drive.

Usage

Connection of resolver to adapter.

Resolver has total of 6 wires and 3 windings: one for rotor (primary) and two stators (secondaries). Rotor connects to the adapter pins A+ and A- while secondaries connect to B+/- and C+/-.

If pin-out of resolver is unknown, it can be found out with multimeter by finding the wire pairs where coils are connected. Rotor can be identified by searching for lowest resistance coil. Stators typically have at least twice as high resistance compared to rotor.