R88M-W75030T-S1 Omron, R88M-W75030T-S1 Datasheet - Page 194
R88M-W75030T-S1
Manufacturer Part Number
R88M-W75030T-S1
Description
SERVO MOTOR 750W 200V
Manufacturer
Omron
Datasheet
1.R88A-TK05W.pdf
(412 pages)
Specifications of R88M-W75030T-S1
Lead Free Status / Rohs Status
Lead free / RoHS Compliant
Other names
R88MW75030TS1
3-4
3-4-1 Adjustments When Load Inertia Is Large
Operation is possible with a large load inertia as long as the load torque is within a range that allows
Servo Driver control (i.e., no larger than the rated torque and within the electronic thermal range:
these depend on the motor speed and acceleration/deceleration). If the load inertia ratio is large,
however, adjustment becomes difficult using only the rigidity setting and autotuning, as shown below.
The following table lists the adjustment criteria according to the load inertia.
3-4-2 Dynamic Braking When Load Inertia Is Large
Dynamic braking is used to brake the Servomotor by consuming rotational energy using a resistor.
The Servomotor's rotational energy can be found by using the following equation.
Therefore, if the load inertia ratio is large and the motor speed is high, the load on the dynamic brake
circuit will be great and there will be a risk of burnout. Burnout may also occur if the dynamic brake is
used repeatedly within a short period of time. Do not use the dynamic brake under conditions where
the maximum speeds or load inertia ratios shown in the following table are exceeded. For operating
conditions other than these, use the following equation: 1/2 × J × ω
3-38
System Design and Installation
Below 500%
500% to 1,000%
1,000% to 3,000% Adjustment may be possible using the rigidity setting and autotuning, but it may be nec-
Above 3,000%
Load inertia ratio
Servomotor rotational energy - (1/2 × J × ω
J: Load inertia + Servomotor rotor inertia
N: Servomotor speed [r/min]
The value that is given for the Servomotor's applicable load inertia is the value that will
not damage the Servo Driver's internal circuits (dynamic brake circuit, regenerative
circuit, etc.) when control is basically stable and the operating status is normal. When
the Servomotor is used at the applicable load inertia or below, there are certain
operating conditions and precautions that must be observed when making adjustments
and using the dynamic brake. For details on regenerative energy processing, refer to
3-3 Regenerative Energy Absorption.
Adjustments and Dynamic Braking When Load Inertia Is
Large
Adjustment is possible using mainly the factory settings or the rigidity setting function
(Fn001).
Adjustment is possible using mainly the rigidity setting and autotuning.
essary to manually adjust settings such as the gain.
Adjustment will be difficult using the rigidity setting and autotuning. Set the load inertia
based on mechanism settings, and manually adjust the gain.
2
) = 1/2 × J × (2 × π )
Adjustment criteria
2
2
× (N/60)
= Constant.
2
Chapter 3
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