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SMH4044 Datasheet, PDF (16/20 Pages) Summit Microelectronics, Inc. – Compact PCI Hot-Swap Controller With IPMI Support
SMH4044
Preliminary
Start and Stop Conditions
Both Data and Clock lines remain high when the bus is not
busy. Data transfer between devices may be initiated with
a Start condition only when SCL and SDA are high. A high-
to-low transition of the Data line while the Clock line is high
is defined as a Start condition. A low-to-high transition of
the Data line while the Clock line is high is defined as a
Stop condition. See Figure 7.
SCL
START
Condition
STOP
Condition
SCL
1
2
3
8
9
SDA
Trans
SDA
Rec
ACK
2057 Fig08
Figure 8. Acknowledge Timing
leave the Data line high for a NACK. This will cause the
Summit part to stop sending data, and the Master will
issue a Stop on the clock pulse following the NACK.
SDA In
2057 Fig07
Figure 7. I2C Start and Stop Timing
Protocol
The protocol defines any device that sends data onto the
bus as a Transmitter, and any device that receives data
as a Receiver. The device controlling data transmission
is called the Master, and the controlled device is called
the Slave. In all cases the Summit Microelectronic
devices are Slave devices, since they never initiate any
data transfers.
Acknowledge
Data is always transferred in 8-Bit bytes. Acknowledge
(ACK) is used to indicate a successful data transfer. The
Transmitting device will release the bus after transmitting
eight bits. During the ninth clock cycle the Receiver will
pull the SDA line low to Acknowledge that it received the
eight bits of data (See Figure 8). The termination of a
Master Read sequence is indicated by a non-Acknowl-
edge (NACK), where the Master will leave the Data line
high.
In the case of a Read from a Summit part, when the last
byte has been transferred to the Master, the Master will
In the case of a Write to a Summit part the Master will send
a Stop on the clock pulse after the last Acknowledge. This
will indicate to the Summit part that it should begin its
internal nonvolatile write cycle.
Basic Read and Write
The first byte from a Master is always made up of a seven
bit Slave address and the Read/Write bit. The R/W bit tells
the Slave whether the Master is reading data from the bus
or writing data to the bus (1 = Read, 0 = Write). The first
four of the seven address bits are called the Device Type
Identifier (DTI). The DTI for the SMH4044 is 1010BIN. The
next two bits are used to select one-of-four possible
devices on the bus. The next bit is the block select bit.
The SMH4044 will issue an Acknowledge after recogniz-
ing a Start condition and its DTI.
In the Read mode the SMH4044 transmits eight bits of
data, then releases the SDA line, and monitors the line for
an Acknowledge signal. If an Acknowledge is detected,
and no Stop condition is generated by the Master, the
SMH4044 will continue to transmit data. If an Acknowl-
edge is not detected (NACK), the SMH4044 will terminate
further data transmission. See Figure 10.
In the Write mode the SMH4044 receives eight bits of
data, then generates an Acknowledge signal. It will
continue to generate ACKs until a Stop condition is
generated by the Master. See Figure 11.
SCL
SDA
16
1
2
3
4
5
6
7
8
9
1
0
1
0
x
x
x
R/W
ACK
2057 Fig09
Figure 9. Typical Master Address Byte Transmission
2057 1.x 8/16/01
SUMMIT MICROELECTRONICS, Inc.