Delta RMC101 User Manual download pdf (Page 599)

100

101

Quadrature with Stepper Output 6.4

Transducer Interface Modules 6-55

Following Error from being generated.

There are several of ways that these scales can be set up. The following examples illustrate the

potential uses of these scale parameters.

Example 1:

The user has a 100-line encoder, a 1.8°-per-step (200 steps per revolution) motor, and a stepper

drive configured to use half steps. The encoder is mounted on the same shaft as the stepper

motor, so each will turn one revolution in the same amount of time.

The user chose these devices so that the number of quadrature counts per revolution is equal to

the number of half steps per revolution, and wishes to use the raw counts as position units. That

is, because the stepper drive uses half steps there are 400 steps per revolution to match the 400

quadrature counts per revolution on the 100-line encoder.

Therefore, the ratio of steps to counts to position units is 1:1:1. The following parameters achieve

this:

Parameter

Value

Steps/Rev

400

Position Units/Rev

400

Quad Counts/Rev 400

Example 2:

The user has a 256-line encoder, a 7.5°-per-step (48 steps per revolution) motor, and a full-step

stepper drive. Therefore, the encoder generates 1024 quadrature counts per revolution. The

encoder is mounted on the same shaft as the stepper motor, so each will turn one revolution in

the same amount of time. The user wants positions to be given in degrees, so we will have 360

position units per revolution.

In this example, we simply enter the following values direct from our calculations above:

Parameter

Value

Steps/Rev

Position Units/Rev

360

Quad Counts/Rev

1024

Therefore, each quadrature count will affect the actual position by 360/1024 of a position unit.

Each target position unit causes 48/360 of a step. Notice that this means that it takes 7.5 position

units to get one step output. This would need to be taken into consideration when the Following

Error Window parameter is set.

Example 3:

Suppose we have the same motor, drive, and encoder as in the previous example: the stepper

has 48 steps per revolution, and the encoder has 256 lines. However, this time the stepper motor

is on shaft A and the encoder is on shaft B. Shaft A must turn 15 revolutions in order to turn shaft

B one revolution; the gear ratio is 1:15. The user wishes to measure positions in degrees on shaft

Therefore, we define a revolution as one turn of shaft B. This means we have 1024 quadrature

counts per revolution of our 256-line encoder, and 360 position units per revolution. Calculating

the number of steps per revolution of shaft B requires multiplying by the gear ratio between shaft

A to shaft B:

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Delta RMC101 User Manual Page 599

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