CobraNet Hardware User’s Manual
Host Management Interface (HMI)
DS651UM23 ©Copyright 2005 Cirrus Logic, Inc. 23
Version 2.3
7.0 Host Management Interface (HMI)
7.1 Hardware
The host port is 8 bits wide with 4 bits of addressing. Ten of the 16 addressable registers
are implemented. The upper two registers can be used to configure and retrieve the
status on the host port hardware. However, only the first 8 are essential for normal HMI
communications. It is therefore feasible, in most applications, to utilize only the first 3
address bits and tie the most significant bit (A3) low.
Host port hardware supports Intel
®
(little-endian), Motorola
®
, and Motorola multiplexed
bus (big-endian) protocols. Standard CobraNet firmware configures the port in the
Motorola, big-endian mode.
The host port memory map is shown in Tabl e 3. Refer also to "HMI Definitions" on
page 33 and "HMI Access Code" on page 34.
Table 3. Host port memory map
The message and data registers provide separate bi-directional data conduits between
the host processor and the CS1810xx/CS4961xx. A 32-bit word of data is transferred to
the CS1810xx/CS4961xx when the host writes the D message or data register after
presumably previously writing the A, B, and C registers with valid data. Data is transferred
from the CS1810xx/CS4961xx following a read of the D message or data register. Again,
presumably the A, B, and C registers are read previously.
Two additional hardware signals are associated with the host port: HACK
and HREQ.
Both are outputs to the host.
HACK
may be wired to an interrupt request input on the host. HACK can be made to
assert (logic 0) on specific events as specified by the hackEnable MI variable. HACK
is
deasserted (logic 1) by issuance of the Acknowledge Interrupt message (see “Messages”
below).
Host Address Register
0 Message A (MS)
1 Message B
2 Message C
3 Message D (LS)
4 Data A (MS)
5 Data B
6 Data C
7 Data D (LS)
8 Control
9 Status
