If any trips occur that could indicate that the encoder system is no longer initialized correctly (i.e. Enc2-Enc8 and Enc11-Enc17), or the internal 24V or

encoder power supplies are overloaded (i.e. Enc1 or PS.24V), Pr 3.48 is set to zero and the drive cannot be enabled until the encoder is re-initialized.

It is likely that the failure of either of these supplies will cause one of the other encoder trips and it should be noted that Enc1 or PS.24V trips can

override Enc2-Enc8 and Enc11-Enc17 trips so that the power supply overload is not mistaken for an encoder error.

3.49

Full motor object electronic nameplate transfer

Drive modes

Open-loop, Closed-loop vector, Servo

Bit

Coding

Default

Open-loop, Closed-loop vector, Servo

Update rate

Read on reset

When this parameter is set to one, additional information for the motor object can be transferred from Pr 18.11 to Pr 18.17 as shown below.

User parameter

Motor object parameter

Pr 18.11

Motor object version number

Pr 18.12

Motor type (MSW)

Pr 18.13

Motor type (LSW)

Pr 18.14

Motor manufacturer

Pr 18.15

Motor serial number (MSW)

Pr 18.16

Motor serial number

Pr 18.17

Motor serial number (LSW)

3.50

Position feedback lock

Drive modes

Open-loop, Closed-loop vector, Servo

Bit

Coding

Default

Open-loop, Closed-loop vector, Servo

Update rate

4ms read

If Pr 3.50 is set to one Pr 3.28, Pr 3.29 and Pr 3.30 are not updated. If this parameter is set to zero these parameters are updated normally.

5.5.1

Communication with Hiperface and EnDat encoders

It is possible to use the communications channel between the drive and a Hiperface or EnDat encoder. This allows access to the encoder functions

including reading the encoder position and, reading and writing to encoder memory. The system can be used to communicate with SC.Hiper and

SC.EnDat type encoders provided that the position checking system has been disabled, by setting Pr 90.21 to one.

To send a message to the encoder the required message must be written to the transmit register (Pr 90.22). To read the response from the encoder

the data is read from the receive register (Pr 90.23).

Bits 13-15 of the registers are used to indicate the following:

Bit

Transmit

Must be set for the drive to transfer the LS byte to the comms buffer.

The LS byte is the last byte of the message and this byte should be put in the comms buffer and be

Transmit

transferred to the encoder.

The LS byte is the first byte of the message. (If this is used the buffer pointer is reset to the start of

Transmit

the buffer).

Receive

Indicates data from the last transfer can be read from the receive buffer.

Receive

The byte in the LS byte is the last byte of the receive message

There is no data in the receive buffer and the LS byte is the comms system status. If there was an

Receive

error in the received message this will always be set and one of the status error bits will be set until

the comms is used again by this system or by the drive.

Data should be written to the transmit register (Pr 90.22) when the register has been reset to zero by the drive. The data will be transferred to the

comms buffer and the transmit register will be cleared.

Data can be read from the receive register (Pr 90.23) at any time. If there is receive data in the buffer bit 15 will be set. Once the data has been read

the register should be cleared and the drive will then transfer more data.

Parameter

x.00

description format

DE Txt VM DP ND RA NC NV

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Advanced parameter

Macros

descriptions

US RW BU

Function

Serial comms