Core1553BBC-SKT MICROSEMI, Core1553BBC-SKT Datasheet - Page 20

Core1553BBC-SKT

Manufacturer Part Number

Core1553BBC-SKT

Description

Programmable Logic Development Tools Bus Controller

Manufacturer

MICROSEMI

Datasheet

1.CORE1553BBC-SKT.pdf (30 pages)

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Asynchronous Messages

Core1553BBC supports asynchronous messages. While

idle, or when a normal message list is being processed,

the CPU can initiate the core to jump to a secondary

(asynchronous) message list and process these messages.

When complete, the core will go back to the original

message list.

The asynchronous message list can be started directly by

the CPU by writing to the control register. When the

current message completes, the core pushes the current

LISTPTR address on the stack and loads the LISTPTR with

the value specified in the ASYNCPTR. It will execute these

instructions until a RETAS instruction is found. At this

point, the LISTPTR is reloaded from the stack and the bus

controller enters the idle state or resumes the original

instruction list. While the asynchronous message list is

being processed, the START instruction and further

asynchronous events are disabled. They are re-enabled

by the RETAS instruction.

Retry Operations

Core1553BBC supports an automatic retry system that

retries messages that fail automatically. On detecting an

error that can be retried, the BC immediately retries the

message. Each message can be retried up to six times.

The Core1553BBC can be programmed to retry up to

three times on the original bus, then retry up to three

times on the alternative bus, or to simply retry initially

on the alternative bus and then switch buses after each

attempt.

Inter-Message Gap (IMG) Control

Core1553BBC provides several ways to control the 1553B

inter-message gaps. First, a default IMG is programmed

into the Core1533BBC control register. Secondly every

message block can be programmed with its own inter-

2 0

Core1553BBC MIL-STD-1553B Bus Controller

v4.0

message gap; this specifies the delay to the next

message. Finally, the WAITC and DELAY instructions can

be used to insert extra delays between messages.

The actual IMG gap is also a function of the backend

memory access system. There is a six-cycle overhead

required between each message to read and write to the

message block. These six memory accesses directly effect

the inter-message gap. The actual IMG will be the largest

of the duration of these six memory cycles or the

programmed IMG value.

Bus Transceivers

Core1553BBC needs a 1553B transceiver to drive the

1553B bus. Core1553BBC is designed to directly interface

to common MIL-STD-1553 transceivers, such as the DDC

BU-63147 and the Aeroflex ACT4402. When using

ProASIC

to connect the 5V output levels of the 1553B transceivers

to the 3.3V input levels of the FPGA.

In addition to the transceiver, a pulse transformer is

required for interfacing to the 1553B bus.

page

show the connections required from the Core1553BBC to

the transceivers and then to the bus via the pulse

transformers.

Development System

A complete 1553B Bus controller development system is

also available. The Actel part number is “Core1553BBC

Eval Board." The development system implements a PCI

to 1553B bus controller on a single PCB using an Actel

A54SX32A FPGA.

The PCI target interface uses the Actel CorePCI66 PCI

target interface core.

21,

PLUS

Figure 8 on page

or Axcelerator, level translators are required

22, and

Figure 9 on page 23

Figure 7 on

Core1553BBC-SKT MICROSEMI, Core1553BBC-SKT Datasheet - Page 20

Core1553BBC-SKT

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