EVB9S08DZ60 Freescale Semiconductor, EVB9S08DZ60 Datasheet - Page 211
EVB9S08DZ60
Manufacturer Part Number
EVB9S08DZ60
Description
BOARD EVAL FOR 9S08DZ60
Manufacturer
Freescale Semiconductor
Type
MCUr
Datasheets
1.DEMO9S08DZ60.pdf
(416 pages)
2.EVB9S08DZ60.pdf
(2 pages)
3.EVB9S08DZ60.pdf
(32 pages)
4.EVB9S08DZ60.pdf
(13 pages)
5.EVB9S08DZ60.pdf
(4 pages)
Specifications of EVB9S08DZ60
Contents
Module and Misc Hardware
Processor To Be Evaluated
S08D
Data Bus Width
8 bit
Interface Type
RS-232, USB
Silicon Manufacturer
Freescale
Core Architecture
HCS08
Core Sub-architecture
HCS08
Silicon Core Number
MC9S08
Silicon Family Name
S08D
Kit Contents
Board Cables CD Power Supply
Rohs Compliant
Yes
For Use With/related Products
MC9S08DZ60
Lead Free Status / RoHS Status
Lead free / RoHS Compliant
Available stocks
Company
Part Number
Manufacturer
Quantity
Price
Company:
Part Number:
EVB9S08DZ60
Manufacturer:
TI
Quantity:
101
11.4.1.3
Before successful slave addressing is achieved, the data transfer can proceed byte-by-byte in a direction
specified by the R/W bit sent by the calling master.
All transfers that come after an address cycle are referred to as data transfers, even if they carry sub-address
information for the slave device
Each data byte is 8 bits long. Data may be changed only while SCL is low and must be held stable while
SCL is high as shown in
transferred first. Each data byte is followed by a 9th (acknowledge) bit, which is signalled from the
receiving device. An acknowledge is signalled by pulling the SDA low at the ninth clock. In summary, one
complete data transfer needs nine clock pulses.
If the slave receiver does not acknowledge the master in the ninth bit time, the SDA line must be left high
by the slave. The master interprets the failed acknowledge as an unsuccessful data transfer.
If the master receiver does not acknowledge the slave transmitter after a data byte transmission, the slave
interprets this as an end of data transfer and releases the SDA line.
In either case, the data transfer is aborted and the master does one of two things:
11.4.1.4
The master can terminate the communication by generating a stop signal to free the bus. However, the
master may generate a start signal followed by a calling command without generating a stop signal first.
This is called repeated start. A stop signal is defined as a low-to-high transition of SDA while SCL at
logical 1 (see
The master can generate a stop even if the slave has generated an acknowledge at which point the slave
must release the bus.
11.4.1.5
As shown in
signal to terminate the communication. This is used by the master to communicate with another slave or
with the same slave in different mode (transmit/receive mode) without releasing the bus.
11.4.1.6
The IIC bus is a true multi-master bus that allows more than one master to be connected on it. If two or
more masters try to control the bus at the same time, a clock synchronization procedure determines the bus
clock, for which the low period is equal to the longest clock low period and the high is equal to the shortest
one among the masters. The relative priority of the contending masters is determined by a data arbitration
procedure, a bus master loses arbitration if it transmits logic 1 while another master transmits logic 0. The
losing masters immediately switch over to slave receive mode and stop driving SDA output. In this case,
Freescale Semiconductor
•
•
Relinquishes the bus by generating a stop signal.
Commences a new calling by generating a repeated start signal.
Figure
Data Transfer
Stop Signal
Repeated Start Signal
Arbitration Procedure
Figure
11-9, a repeated start signal is a start signal generated without first generating a stop
11-9).
Figure
11-9. There is one clock pulse on SCL for each data bit, the msb being
MC9S08DZ60 Series Data Sheet, Rev. 4
Chapter 11 Inter-Integrated Circuit (S08IICV2)
211
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