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| HI-6138_16 Datasheet, PDF (153/254 Pages) Holt Integrated Circuits – Compact Multi-Terminal Device with SPI Host Interface | |||
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HI-6138
Bit No. Mnemonic R/W Reset Function
14 IWA
Interrupt When Accessed.
If the âRemote Terminal (RT) Interrupt Enable Register (0x0012)â IWA bit is
high, assertion of this bit enables interrupt generation at each instance of
R/W 0 a valid mode code command. Upon completion of command processing,
when IWA interrupts are enabled, an IWA interrupt is entered in the âRemote
Terminal (RT) Pending Interrupt Register (0x0009)â, the INT output pin is
asserted, and the interrupt is registered in the Interrupt Log.
13 IBR
Interrupt Broadcast Received.
If the âRemote Terminal (RT) Interrupt Enable Register (0x0012)â IBR bit is
high, assertion of this bit enables interrupt generation at each instance of a
valid broadcast receive mode code command. Upon completion of command
R/W 0 processing, when IBR interrupts are enabled, an IBR interrupt is entered in
the âRemote Terminal (RT) Pending Interrupt Register (0x0009)â, the INT
output pin is asserted, and the interrupt is registered in the Interrupt Log.
This bit has no function if the BCSTINV bit is high in the âRemote Terminal
Configuration Register (0x0017)â. In this case, commands to RT address 31
are not recognized as valid by the device.
Make Busy.
The host asserts the MKBUSY bit to respond with Busy status for commands
to this mode code. This bit is an alternative to globally applying Busy status
12 MKBUSY R/W 0 for all valid commands, enabled from the âRemote Terminal MIL-STD-1553
Status Word Bits Register (0x001A)â. See that register description for ad-
ditional information. When Busy is asserted, mode data words received with
MC16-MC31 are not stored and the DPB bit does not toggle after message
completion.
11 DBAC
Descriptor Block Accessed.
R
0
SR = 0
Internal device logic asserts the DBAC bit upon completion of message pro-
cessing. The host may poll this bit to detect mode command activity, instead
of using host interrupts. This bit is reset to logic 0 by MR master reset, SRST
software reset or a read cycle to this memory address.
10 DPB
Data Pointer B.
This status bit is maintained by the device and only applies for mode com-
mands using ping-pong buffer mode. This bit indicates the buffer to be used
for the next occurring mode command. When the DPB bit is logic 0, the
next message will use Data Pointer A; when DPB is logic 1, the next mes-
sage uses Data Pointer B. In ping-pong buffer mode, the bit is inverted after
R
0
SR = 0
each error-free message completion. To also ensure the DPB bit is not
altered after illegal commands or messages ending with Busy status,
the DPBTOFF bit should be set in the âExtended Configuration Regis-
ter (0x004D)â on page 43. This ensures unsuccessful messages are not
stored in the data buffer and are overwritten by subsequent successful mes-
sages. (see also âPing-Pong Enable / Disable Handshakeâ on page 168).
The DBP bit is reset to logic 0 by MR master reset or SRST software reset;
therefore the first message received after either reset will use Buffer A. This
bit is âdonât careâ for indexed single-buffer mode.
HOLT INTEGRATED CIRCUITS
153
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