2 effect of c01130 on the sync phase position, Effect of c01130 on the sync phase position – Lenze E94ARNE Regenerative power supply User Manual

9400 regenerative power supply module | Parameter setting

"CAN on board" system bus

Process data transfer

118

L

EDS94ARNExxxx EN 2.3 - 06/2014

Sync application cycle
This parameter affects the influence of the sync phase position (

C01122

) with respect to

the instant of acceptance of the synchronous PDOs into the application and the instant of

transmission of the synchronous PDOs on the system bus.

For software versions below V3.0, the following applies:



The sync application cycle is fixedly set to 1000 μs.



Taking into account an internal processing time of 150 μs, the resulting PDO delay is

calculated as follows:

PDO delay = (sync cycle time - sync phase position + 150 μs) modulo 1000

From software version V3.0 onwards, the following applies:



The sync application cycle can be set in

C01130

. The set value is automatically rounded

down to integer multiples of 1000 μs.



Taking into account an internal processing time of 150 μs, the resulting PDO delay is

calculated as follows:

PDO delay = (sync cycle time - sync phase position + 150 μs) modulo

C01130

6.6.5.2

Effect of C01130 on the sync phase position



Note!

Setting a higher value for the sync application cycle (

C01130

) than for the sync

cycle time (

C01121

) results in undefined behaviour. The same applies if the sync

phase position (

C01122

) is set to a higher value than the sync cycle time

(

C01121

).

In this case, usually synchronous PDOs are not put on the system bus anymore.

Example 1:



Sync cycle time (

C01121

)

= 2000 μs

Sync phase position (

C01122

)

= 0 μs

Sync application cycle (

C01130

)

= 1000 μs



Instant of PDO acceptance/transmission



Inactive instant of acceptance

n Device cycle

0

1

0

1

Œ

150 µs

n-1

1

150 µs

n

n+1

n+2

SYNC

SYNC