3 htl encoder at di1/di2, Htl encoder at di1/di2, 5motor control (mctrl) – Lenze 8400 HighLine User Manual
Page 279
Lenze · 8400 HighLine · Referenzhandbuch · DMS 10.0 EN · 06/2014 · TD05/TD14
279
5
Motor control (MCTRL)
5.11
Encoder/feedback system
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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
) 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.