DS4404 데이터 시트보기 (PDF) - Maxim Integrated
부품명
상세내역
제조사
DS4404 Datasheet PDF : 9 Pages
| |||
Two/Four-Channel, I2C Adjustable Current DAC
Acknowledgement (ACK and NACK): An Acknowledge-
ment (ACK) or Not Acknowledge (NACK) is always the
ninth bit transmitted during a byte transfer. The device
receiving data (the master during a read or the slave
during a write operation) performs an ACK by transmit-
ting a zero during the ninth bit. A device performs a
NACK by transmitting a one during the ninth bit. Timing
for the ACK and NACK is identical to all other bit writes
(Figure 4). An ACK is the acknowledgment that the
device is properly receiving data. A NACK is used to
terminate a read sequence or as an indication that the
device is not receiving data.
Byte Write: A byte write consists of 8 bits of information
transferred from the master to the slave (most significant
bit first) plus a 1-bit acknowledgement from the slave to
the master. The 8 bits transmitted by the master are
done according to the bit-write definition, and the
acknowledgement is read using the bit-read definition.
Byte Read: A byte read is an 8-bit information transfer
from the slave to the master plus a 1-bit ACK or NACK
from the master to the slave. The 8 bits of information
that are transferred (most significant bit first) from the
slave to the master are read by the master using the bit
read definition above, and the master transmits an ACK
using the bit write definition to receive additional data
bytes. The master must NACK the last byte read to ter-
minated communication so the slave will return control
of SDA to the master.
Slave Address Byte: Each slave on the I2C bus
responds to a slave address byte sent immediately follow-
ing a START condition. The slave address byte contains
the slave address in the most significant 7 bits and the
R/W bit in the least significant bit. The DS4402/DS4404s’
slave address is determined by the state of the A0 and A1
address pins. Table 1 describes the addresses corre-
sponding to the state of A0 and A1.
When the R/W bit is 0 (such as in A0h), the master is
indicating it will write data to the slave. If R/W = 1 (A1h
in this case), the master is indicating it wants to read
from the slave. If an incorrect slave address is written,
the DS4402/DS4404 assume the master is communi-
cating with another I2C device and ignore the commu-
nication until the next START condition is sent.
Memory Address: During an I2C write operation, the
master must transmit a memory address to identify the
memory location where the slave is to store the data.
The memory address is always the second byte trans-
mitted during a write operation following the slave
address byte.
I2C Communication
Writing to a Slave: The master must generate a START
condition, write the slave address byte (R/W = 0), write
the memory address, write the byte of data, and gener-
ate a STOP condition. Remember that the master must
read the slave’s acknowledgement during all byte-write
operations.
Reading from a Slave: To read from the slave, the
master generates a START condition, writes the slave
address byte with R/W = 1, reads the data byte with a
NACK to indicate the end of the transfer, and generates
a STOP condition.
SDA
tBUF
tLOW
SCL
tHD:STA
tR
STOP
START
NOTE: TIMING IS REFERENCED TO VIL(MAX) AND VIH(MIN).
Figure 3. I2C Timing Diagram
tHD:DAT
tF
tHIGH
tSU:DAT
tHD:STA
tSU:STA
REPEATED
START
tSP
tSU:STO
_____________________________________________________________________ 7
Share Link: 