Acromag IOS-571, Руководство пользователя

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SERIES I/O SERVER MODULE MIL-STD-1553A/B Bus Interface Module
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Address decoding of eighteen of the IOS address signals A (1:18) is implemented in the
FPGA, in conjunction with the IOS select signals, to identify access to the IOS modules
MEM, INT, ID or I/O spaces. In addition, the byte strobes BS0 and BS1 are decoded to
identify low byte, high byte, or double byte data transfers.
The carrier to IOS module interface implements access to MEM, INT, ID and I/O space via
16 or 8-bit data transfers. Read only access to ID space provides the identification for the
module (as given in Table 1). Read and write access to the I/O space provides a means to
control the IOS-57x and monitor status. Reads and writes to MEM space provide access to
the Micro ACE 1553 controllers.
The timing for access to the various address spaces is shown in Table 9.
Table 9 Access Times
Address Space
Wait States
Read Write
INT 1 0
ID 1 N/A
I/O 1 0
MEM (8 MHz IOS clock) 3 3
MEM (32 MHz IOS
clock) 8 8
IOS-57xCONTROL LOGIC
All logic to provide access to the Micro ACE 1553 controllers is imbedded in th
e module’s
FPGA. Once the IOS-57x FPGA has been configured, the control logic provides the
following functions:
Source of the 16 MHz clock to the Micro ACE.
Issues interrupt requests to the carrier.
Controls the Micro ACE master clear (reset) signal
Source of the 100 KHz tag clock output signal used to synchronize the IOS-57x
with external devices
Accepts an external TTL level tag clock input signal to synchronize the IOS-57x
with external devices
Provides mode control (inhibit) to each of the Micro ACE dual redundant
transceivers.
TAG CLOCK Input / Output
The TAG clock for each 1553 channel can be selected from three possible sources:
Micro ACE internal time tag clock, selectable 2µs, 4µs, 8µs, 16µs, 32µs, 64µs
resolution.
FPGA generated 100 KHz clock, provides 10 µs resolution. This clock is also an
output on the P2 connector.
External (P2 connector) tag clock input.
To select the Micro ACE internal time tag clock: write bits TTR2:0 in configuration register
#2 for each 1553 channel with the appropriate pattern for the resolution desired.
To select the FPGA generated 100 KHz clock as the Micro ACE time tag clock: write bits
TTR2:0 in configuration register #2 with the bit pattern “111”. Write the tag clock source
(bit 7) of the IOS I/O space control register with the value 0.