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SMARTRAC FEATURES
SMARTRAC | OPERATOR’S MANUAL REV. 0 | 4/06/2018 5
Single Continuous Traction
e force is increased to the Traction Force with the congured Speed and stays there for the
Traction Force Hold Time.
Depending on the congured Speed and the Traction Force, the total treatment time is calculated
and shown in the treatment screen.
Single Intermittent Traction
e force is increased to the Traction Force with the congured Speed and stays there for the
Traction Force Hold Time. en it will lower the force towards the Base Force with the same
congure Speed and stays there for the Base Force Hold Time. is sequence is repeated as
congured.
Depending on the congured Speed, the Traction Forces, and number of repeats; the total treatment
time is calculated and shown in the treatment screen.
Single Cyclic Traction
e force is increased to the Traction Force with the congured Speed. en it will be lowered
to the Base Force with the congured Ramp Down Time. When the Base Force is reached, the
force is increased again to the Traction Force, this time with the congured Ramp Up Time. is
sequence is repeated as congured. Aer the last repeat the force is lowered towards zero with the
congured Speed.
With the congured Speed, the Traction Forces , Ramp Up Time, Ramp Down Time, and number
of repeats; the total treatment time is calculated and shown in the treatment screen.
Single Progressive Traction
e force is increased in a congured number of Steps. Each Step increases the force partly, in
such a way that all Steps together result in the programmed Traction Force. Between each Step the
force stays there for the Steps Hold Time. e force between Steps is increased with the congured
Speed. When the last Steps Hold Time of the last Step has ended, the force is lowered towards zero
(if no other traction type is added).
With the congured Speed, the Traction Force, and number of Steps; the total treatment time is
calculated and shown in the treatment screen.
Single Regressive Traction
e force is increased towards the Traction Force and then lowered in a congured number of
Steps. Each Step decreases the force partly, in such a way that all Steps together result in a zero force
value. Between each Step the force stays there for the Steps Hold Time. e force between Steps is
decreased with the congured Speed. When the last Steps Hold Time of the last Step has ended,
the force is zero.
With the congured Speed, the Traction Force, and number of Steps; the total treatment time is
calculated and shown in the treatment screen.