ST7265XEVALMS STMicroelectronics, ST7265XEVALMS Datasheet - Page 97
ST7265XEVALMS
Manufacturer Part Number
ST7265XEVALMS
Description
Manufacturer
STMicroelectronics
Datasheet
1.ST7265XEVALMS.pdf
(163 pages)
Specifications of ST7265XEVALMS
Lead Free Status / Rohs Status
Supplier Unconfirmed
SERIAL PERIPHERAL INTERFACE (Cont’d)
11.6.3.2 Slave Select Management
As an alternative to using the SS pin to control the
Slave Select signal, the application can choose to
manage the Slave Select signal by software. This
is configured by the SSM bit in the SPICSR regis-
ter (see
In software management, the external SS pin is
free for other application uses and the internal SS
signal level is driven by writing to the SSI bit in the
SPICSR register.
In Master mode:
Figure 57. Generic SS Timing Diagram
Figure 58. Hardware/Software Slave Select Management
– SS internal must be held high continuously
MOSI/MISO
(if CPHA=0)
(if CPHA=1)
Figure
Master SS
Slave SS
Slave SS
58)
SS external pin
SSI bit
Byte 1
SSM bit
1
0
SS internal
In Slave Mode:
There are two cases depending on the data/clock
timing relationship (see
If CPHA=1 (data latched on 2nd clock edge):
If CPHA=0 (data latched on 1st clock edge):
Byte 2
– SS internal must be held low during the entire
– SS internal must be held low during byte
transmission. This implies that in single slave
applications the SS pin either can be tied to
V
ing the SS function by software (SSM= 1 and
SSI=0 in the in the SPICSR register)
transmission and pulled high between each
byte to allow the slave to write to the shift reg-
ister. If SS is not pulled high, a Write Collision
error will occur when the slave writes to the
shift register (see
SS
, or made free for standard I/O by manag-
Byte 3
Section
Figure
11.6.5.3).
57):
ST7265x
97/163