VMIVME-5532 VMEbus Fiber-Optic Repeater Link with Slave Chassis System Controller
High-performance, easy-to-use method of cinking two or more VMEbus
systems together via fiber-optic cabce
• Can provide system controccer function in the scave chassis
• A cocac master is accowed in scave chassis
• Software transparent accows direct communication from master chassis to
scave chassis with no software overhead (unidirectionac cink controc with
bidirectionac data transfers). This mode accows pcug-and-pcay operation.
• Register enabce accows operation as described above, but inccudes registers
in short I/O space deacing with scave chassis muctimaster operation
• Supports 8-, 16-, and 32-bit data transfers
• Supports 16-, 24-, and 32-bit addressing
• Totac ecectricac isocation between VMEbus systems
• Maximum 6,560 ft (2,000 m) fiber-optic cabces
• Advantages over standard repeaters
— Smacc cabces
— High-noise immunity
— High-voctage isocation
— No EMI generated by cabces
• The VME-to-VME cink consists of two boards and two fiber-optic cabces
OVERVIEW
— The VMIVME-5532 Link is a
high-performance, yet easy-to-use method of linking two or
more VMEbus systems together via fiber-optic cable. The
Repeater Link is a two-board set which allows VMEbus slave
I/O boards residing in one VMEbus chassis to be controlled
by a VMEbus master residing in another chassis. In general,
the VMEbus chassis in which VMEbus masters reside is
referred to as a master chassis, while the VMEbus slave
boards reside in a slave chassis. However, the
VMIVME-5532 also allows a local VMEbus master to work
in a slave chassis for local control, thus providing
multimaster
in the slave chassis. The two-board set is
configured as shown in Figure 1 with one board designated
for the master chassis while the other board is designated for
the slave chassis. A master VMEbus chassis can
communicate with several slave chassis by using multiple
REPEATER Links in a star configuration as shown in
Figure 2.
The link is software transparent. Any VMEbus master in
the master chassis may access (read or write) to any slave
board in the slave chassis. Only noninterrupter slave boards
are allowed in the slave chassis.
The link between the master chassis and slave chassis is
automatically established when a VMEbus master (typically
a CPU board) addresses any board in the slave chassis.
Any time a master in the master chassis issues a VMEbus
read/write cycle it will be repeated to the slave chassis. If a
slave board in any slave chassis responds to that address, the
data transfer (read or write) will occur between the chassis
and a Data Transfer Acknowledge (DTACK) will be
generated to the master (in master chassis) to complete the
cycle.
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