BECKHOFF ET1100 User Manual

PDI description

Slave Controller

– ET1100 Hardware Description

III-73

BHE1

CS

BHE

WR

RD

DATA

BUSY

ADR1

ADR

t

WR_active

t

WR_to_BUSY

t

CS_delay

t

WR_delay

t

ADR_BHE_DATA_hold

DATA1

t

ADR_BHE_DATA_setup

t

write_int

t

CS_to_BUSY

t

CS_to_BUSY

t

CS_to_BUSY

Internal

state

Writing ADR1

BHE2

ADR2

t

WR_active

t

WR_to_BUSY

t

BUSY_to_WR

t

CS_delay

t

ADR_BHE_DATA_hold

DATA2

t

ADR_BHE_DATA_setup

t

read

ADR3

BHE3

t

CS_to_BUSY

t

CS_to_BUSY

Idle

Writing ADR2

Reading ADR3

DATA3

Idle

Idle

t

write

t

write_int

t

WR_to_RD

t

read_int

t

BUSY_to_DATA_valid

Coll.

t

coll

Figure 27: Sequence of two write accesses and a read access

Note: The first write access to ADR1 is performed after the first rising edge of WR. After that, the ESC is internally
busy writing to ADR1. After CS is de-asserted, BUSY is not driven any more, nevertheless, the ESC is still writing
to ADR1.

Hence, the second write access to ADR2 is delayed because the write access to ADR1 has to be completed first.
So, the second rising edge of WR must not occur before BUSY is gone. After the second rising edge of WR, the
ESC is busy writing to ADR2. This is reflected with the BUSY signal as long as CS is asserted.

The third access in this example is a read access. The ESC is still busy writing to ADR2 while the falling edge of
RD occurs. In this case, the write access to ADR2 is finished first, and afterwards, the read access to ADR3 is
performed. The ESC signals BUSY during both write and read access.