參數(shù)資料
型號(hào): SMM665BFR6
廠商: Summit Microelectronics, Inc.
英文描述: Six-Channel Active DC Output Controller, Monitor, Marginer and Sequencer
中文描述: 六通道有源直流輸出控制器,監(jiān)視器,Marginer和音序器
文件頁數(shù): 22/30頁
文件大?。?/td> 872K
代理商: SMM665BFR6
SMM665B
Preliminary Information
Summit Microelectronics, Inc
2089 1.1 10/20/04
22
SERIAL INTERFACE
Access to the configuration registers, general-purpose
memory and command and status registers is carried
out over an industry standard 2-wire serial interface
(I
C). SDA is a bi-directional data line and SCL is a
clock input. Data is clocked in on the rising edge of
SCL and clocked out on the falling edge of SCL. All
data transfers begin with the MSB. During data
transfers SDA must remain stable while SCL is high.
Data is transferred in 8-bit packets with an intervening
clock period in which an Acknowledge is provided by
the device receiving data. The SCL high period (t
HIGH
)
is used for generating Start and Stop conditions that
precede and end most transactions on the serial bus.
A high-to-low transition of SDA while SCL is high is
considered a Start condition while a low-to-high
transition of SDA while SCL is high is considered a
Stop condition.
The interface protocol allows operation of multiple
devices and types of devices on a single bus through
unique device addressing. The address byte is
comprised of a 4-bit device type identifier (slave
address) and a 3-bit bus address. The remaining bit
indicates either a read or a write operation. Refer to
Table 1 for a description of the address bytes used by
the SMM665B.
The device type identifier for the memory array is
generally set to 1010
BIN
following the industry standard
for a typical nonvolatile memory. There is an option to
change the identifier to 1011
BIN
allowing it to be used
on a bus that may be occupied by other memory
devices. The configuration registers are grouped with
the memory array and thus use 1010
BIN
or 1011
BIN
as
the device type identifier. The command and status
registers as well as the 10-bit ADC are accessible with
the separate device type identifier of 1001
BIN
.
The bus address bits A[1:0] are programmed into the
configuration registers. Bus address bit A[2] can be
programmed as either 0 or biased by the A2 pin. The
bus address accessed in the address byte of the serial
data stream must match the setting in the SMM665B
and on the A2 pin.
Any access to the SMM665B on the I
2
C bus will
temporarily halt the monitoring function. This does not
affect the ADOC function, which will continue
functioning and control the DC outputs. This is true
not only during the monitor mode, but also during
Power-on and Power-off sequencing when the device
is monitoring the channels to determine if they have
turned on or turned off.
The SMM665B halts the monitor function from when it
acknowledges the address byte until a valid stop is
received.
WRITE
Writing to the memory or a configuration register is
illustrated in Figures 16, 17, 19, 21 and 22. A Start
condition followed by the address byte is provided by
the
host;
the
SMM665B
Acknowledge; the host then responds by sending the
memory address pointer or configuration register
address pointer; the SMM665B responds with an
acknowledge; the host then clocks in on byte of data.
For memory and configuration register writes, up to 15
additional bytes of data can be clocked in by the host
to write to consecutive addresses within the same
page. After the last byte is clocked in and the host
receives an Acknowledge, a Stop condition must be
issued to initiate the nonvolatile write operation.
READ
The address pointer for the configuration registers,
memory, command and status registers and ADC
registers must be set before data can be read from the
SMM665B. This is accomplished by a issuing a
dummy write command, which is simply a write
command that is not followed by a Stop condition.
The dummy write command sets the address from
which data is read. After the dummy write command
is issued, a Start command followed by the address
byte is sent from the host. The host then waits for an
Acknowledge and then begins clocking data out of the
slave device. The first byte read is data from the
address pointer set during the dummy write command.
Additional bytes can be clocked out of consecutive
addresses with the host providing an Acknowledge
after each byte. After the data is read from the desired
registers, the read operation is terminated by the host
holding SDA high during the Acknowledge clock cycle
and then issuing a Stop condition. Refer to Figures
18, 20 and 23 for an illustration of the read sequence.
responds
with
an
I
2
C PROGRAMMING INFORMATION
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