HI-1575 HOLTIC [Holt Integrated Circuits], HI-1575 Datasheet - Page 4

HI-1575

Manufacturer Part Number

HI-1575

Description

3.3V Dual Transceivers with Integrated Encoder / Decoders

Manufacturer

HOLTIC [Holt Integrated Circuits]

Datasheet

1.HI-1575.pdf (12 pages)

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Bit Name

10 ERRORA

11 RCVB

12 RSYNCB

13 GAPB

14 ERRORB

15 SENDDATA Read-only

STATUS & MODE REGISTER (SAM)

TXDISA

TXDISB

RENA

RENB

TXSYNC

CHAN

RCVA

RSYNCA

GAPA

Read-only

R/W

Default Description

Writing TXDISA to a '1' disables the transmitter for MIL-STD-1553 bus A

Writing TXDISB to a '1' disables the transmitter for MIL-STD-1553 bus B

Setting RENA to a '1' enables the receiver for MIL-STD-1553 bus A. A '0' disables the

receiver causing the HI-1575 to ignore all activity on bus A.

Setting RENB to a '1' enables the receiver for MIL-STD-1553 bus B. A '0' disables the

receiver causing the HI-1575 to ignore all activity on bus B.

The TXSYNC bit is logically ORed with the SYNC input pin during host write cycles to the

Transmit Data Register (TX). If TXSYNC OR SYNC is a '1' the transmitter prefixes the

transmitted word with a MIL-STD-1553 Command Sync. If TXSYNC OR SYNC is a '0'

during a write to TX, then the transmitted word has a MIL-STD-1553 Data Sync.

The CHAN bit is logically ORed with the

between MIL-STD-1553 bus A or B during write transfers to the TX register, or reading data

from the RX registers. When CHAN OR

data is transmitted on MIL-STD-1553 bus A. When the result is a '1', MIL-STD-1553

bus B is selected. During HI-1575 data read cycles, if CHAN OR

Not used. Internally set to '0'.

This bit reflects the state of the RCVA output pin. RCVA goes high whenever a new word is

received on MIL-STD-1553 bus A. The received word may be read by the host from the RXA

If the data words are contiguous, then RCVA will be high for about 3 us before the new word

resets it. The data is still available in the RXA register and may be retreived any time up until

the RCVA flag goes high again. If the user does not read the data, the word is lost when

the RCVA flag goes high on reception of the next word.

RSYNCA indicates the Sync of the last MIL-STD-1553 word received on bus A. RSYNCA is a

'0' for a Data sync, and a '1' for a Command Sync. When the RXA register is read, the

RSYNCA value is also output on the SYNC I/O pin.

GAPA is a '1' when there is no activity detected on MIL-STD-1553 bus A, for example during an

inter-message gap. GAPA is a '0' whenever the HI-1575 detects bus traffic.

ERRORA goes high when the HI-1575 Manchester decoder receives an incorrectly encoded

word on MIL-STD-1553 bus A

Same function as RCVA but for MIL-STD-1553 bus B.

Same function as RSYNCA but for MIL-STD-1553 bus B.

Same function as GAPA but for MIL-STD-1553 bus B.

Same function as ERRORA but for MIL-STD-1553 bus B.

SENDDATA goes high approximately 3.5 us after the start of a MIL-STD-1553 word

transmission. SENDATA goes low approximately 18.5 us after the start of a MIL-STD-1553

word transmission. If new a new data word is written to the TX register while SENDDATA is

high, that word will be transmitted contiguously after the currently transmitting word.

FIGURE 2. STATUS AND MODE REGISTER

HOLT INTEGRATED CIRCUITS

MSB

15 14 13 12 11 10 9

HI-1575

CHA

/CHB is a '1' then the data is read from RXB.

CHA

/CHB input pin and the result used to Select

/CHB is a '0' during a transmit operation,

CHA

LSB

/CHB is a '0', the RXA

HI-1575 HOLTIC [Holt Integrated Circuits], HI-1575 Datasheet - Page 4

HI-1575

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