5
Motor control (MCTRL)
5.11
Encoder/feedback system
282
Lenze · 8400 HighLine · Reference manual · DMS 12.0 EN · 06/2017 · TD23
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5.11.3
HTL encoder at DI1/DI2
Encoder evaluation method DigIn12
Depending on the encoder used at the digital inputs DI1 and DI2, the following table specifies which
evaluation method should be selected in
:
Note!
At the digital terminals DI1 and DI2, only encoders with HTL level can be used.
In spite of the selected operating mode
without
encoder feedback, the actual speed
value (
) is calculated if an encoder is connected and "1: Encoder signal FrqIn12" is
selected in
Selection in
Encoder evaluation method
0: High-resolution encoder
High-precision procedure for high-resolution encoders (>=512 increments)
• Method for speed measurement with automatic scan time setting
(0.5 … 500 ms).
• Evaluation with automatic scanning time minimisation for an optimum dynamic
performance.
• Particularly suited for high-resolution encoders (
≥
1024 inc) with good signal
quality, i.e.
• good scanning ratio 1:1
• exactly 90°-phase offset between track A and B (error
≤ ±
10°)
• Not suited for encoders with poor signal quality.
• Wiring according to EMC (e.g. motor and encoder cable shielding) is required!
1: Low-resolution encoder
(StateLine)
High-precision procedure for low-resolution encoders (<=128 increments)
• Exact method for speed measurement with automatic scanning time setting
(0.5 … 500 ms) for low-resolution encoders in the range of 4 …. 128 increments.
• Evaluation with automatic scanning time minimisation for an optimum dynamic
performance.
• Method is also suited for encoders with poor signal quality, e.g. for encoders with
high error rate in scanning ratio and phase offset.
• This method requires an equidistant period length per encoder increment.
• Wiring according to EMC (e.g. motor and encoder cable shielding) is required!
2: Comb. encoder method
(Lenze setting)
Combination of the first two procedures as a function of the speed (recommended
procedure)
• For a high-precision speed measurement suited for encoders with an arbitrary
number of increments (4 … 1024 increments).
• Low input frequencies at the encoder inputs:
The method is used for low-resolution encoders.
• High input frequencies at the encoder inputs:
The method is used for high-resolution encoders.
• This method is suited for encoders with average to good signal quality.
• Evaluation with automatic scanning time minimisation for an optimum dynamic
performance.
• This method requires an equidistant period length per encoder increment.
• Wiring according to EMC (e.g. motor and encoder cable shielding) is required!
3: Edge-counting procedure
Simple edge counting procedure with adjustable scanning time (
• Speed measurement by means of the edges of tracks A and B measured per
scanning interval.
• Integrated correction algorithm for EMC interference.
• Limited suitability for systems with unshielded encoder and/or motor cable.
• Limited suitability for encoders with poor signal quality, i.e. high error rate in
scanning ratio and phase offset.