hi-6131pqtf QuickLogic Corp, hi-6131pqtf Datasheet - Page 23
hi-6131pqtf
Manufacturer Part Number
hi-6131pqtf
Description
Mil-std-1553 / Mil-std-1760 3.3v Bc / Mt / Rt Multi-terminal Device
Manufacturer
QuickLogic Corp
Datasheet
1.HI-6131PQTF.pdf
(271 pages)
combination of 11 command word bits comprising
subaddress, the transmit/receive bit and word count (or
mode code), plus broadcast vs non-broadcast status,
resulting in a total of 4,096 possible combinations.
Terminal response to an illegal command sets “Message
Error” status and transmits Status Word only. If illegal
command detection is not used (that is, no “illegal”
entries in Illegalization Table), the terminal responds “in
form” to all valid commands.
5.11. RT1 and RT2 Descriptor Tables
For each RT, a host-initialized Descriptor Table in RAM
defines how the terminal responds to valid commands.
The table is comprised of 128 four-word descriptor
blocks. Each of 32 subaddresses and 32 mode code
values has one descriptor block for transmit and another
for receive. The descriptor table defines message
options (interrupt selections, data buffer mode, etc.) and
contains pointers to allocated data storage in RAM.
5.12. RT1 and RT2 Temporary Receive
Remote Terminals RT1 and RT2 temporarily store
command and data words during message transaction.
At successful message completion, all data is transferred
to assigned subaddress buffers. This strategy prevents
valid data from being overwritten by incomplete or bad
data from a later message ending in error.
5.13. RT Message Data Buffers
Ordinary transmit and receive commands transact from
1 to 32 data words. The host allocates space in RAM
for storing transacted message data words as well as
message information words.
5.14. RT Storage for Mode Code
In addition to commands used for data transmit and
receive, MIL-STD-1553 also defines “mode code
commands” for command and control. These “mode
commands” transfer a single data word, or no data word
at all. The user has the option for storing mode command
data in RAM buffers assigned in the Descriptor Table, or
stored within the RT Descriptor Table itself. The second
option is often preferred for its simplicity.
Buffers
Commands
HOLT INTEGRATED CIRCUITS
HI-6130, HI-6131
23
6. HARDWARE FEATURES
6.1.
The 5-bit Remote Terminal address is set using pins
RTA4:0. The RTAP input pin should be set or reset to
present matching odd parity. The state of the RT address
and parity pins is latched into the RT Operational Status
register upon rising edge on the MR master reset
input. The state of the LOCK input is latched into the
RT Operational Status register at the same time, and
controls whether or not the active terminal address
and parity in the RT Operational Status register can
be overwritten by host writes into the register. When
the LOCK input pin is high, autoinitialization cannot
overwrite the RT address value latched from the input
pins. Between Master Reset assertions, the state of the
RTA and RTAP input pins is “don’t care”. If the value
of RT address and parity in the RT Operational Status
register has parity error, terminal operation is disabled.
6.2.
Built-in bus transceivers provide direct interface
between the device and MIL-STD-1553 bus isolation
transformers. The transceivers convert digital data to
and from differential Manchester II encoded bus signals.
A pair of “transmit inhibit” input pins exercises direct
control over transmission for both buses.
6.3.
The device uses separate Manchester II encoders and
decoders for each bus. Decoders check for proper
sync pulse and Manchester waveform, edge skew,
correct number of bits and parity. Encoders are used
for transmission. During transmit, each encoded word is
looped back through the bus decoder for error checking.
Receiver bus sampling is clocked at 50 MHz, providing
excellent tolerance to zero-crossing distortion.
6.4.
The device has an automatic self-initialization feature.
If self-initialization is enabled after MR master reset,
the device reads configuration settings from an external
serial EEPROM to initialize registers and RAM structures.
A method is provided to initially program or later modify
the external serial EEPROM by copying host-loaded
tables and register values to the serial EEPROM.
Remote Terminal Address Inputs
Dual Transceivers for MIL-STD-1553
Bus
Encoder and Decoders
Auto-Initialization Serial EEPROM
Interface
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