FM3204 データシートの表示(PDF) - Unspecified
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FM3204 Datasheet PDF : 20 Pages
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three bytes of a write operation to set the internal
address followed by subsequent read operations.
To perform a selective read, the bus master sends out
the slave address with the LSB set to 0. This specifies
a write operation. According to the write protocol,
the bus master then sends the address bytes that are
loaded into the internal address latch. After the
FM32xx acknowledges the address, the bus master
issues a Start condition. This simultaneously aborts
the write operation and allows the read command to
be issued with the slave address LSB set to a 1. The
operation is now a read from the current address.
Read operations are illustrated below.
Companion Write Operation
All Companion writes operate in a similar manner to
memory writes. The distinction is that a different
device ID is used and only one byte of address is
needed instead of two. Figure 15 illustrates a single
byte write to this device.
Companion Read Operation
As with writes, a read operation begins with the
Slave Address. To perform a register read, the bus
FM3204/16/64/256
master supplies a Slave Address with the LSB set to
1. This indicates that a read operation is requested.
After receiving the complete Slave Address, the
FM32xx will begin shifting data out from the current
register address on the next clock. Auto-increment
operates for the special function registers as with the
memory address. A current address read for the
registers look exactly like the memory except that the
device ID is different.
The FM32xx contains two separate address registers,
one for the memory address and the other for the
register address. This allows the contents of one
address register to be modified without affecting the
current address of the other register. For example,
this would allow an interrupted read to the memory
while still providing fast access to a companion
register. A subsequent memory read will then
continue from the memory address where it
previously left off, without requiring the load of a
new memory address. However, a write sequence
always requires an address to be supplied.
By Master
Start
Address
No
Acknowledge
S
Slave Address 1 A
Data Byte
1P
By FM32xx
Acknowledge Data
Figure 12. Current Address Memory Read
Stop
By Master
Start
Address
Acknowledge
No
Acknowledge
S
Slave Address 1 A
Data Byte
A
Data Byte
1P
By FM32xx
Acknowledge
Data
Figure 13. Sequential Memory Read
Stop
Rev 2.1
Dec. 2004
Page 14 of 20
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