ST72F264G ST Microelectronics, ST72F264G Datasheet - Page 76

ST72F264G

Manufacturer Part Number

ST72F264G

Description

(ST72F260G - ST72F264G) 8-BIT MCU

Manufacturer

ST Microelectronics

Datasheet

1.ST72F264G.pdf (171 pages)

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Current page: 76 of 171
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DataSheet

ST72260G, ST72262G, ST72264G

SERIAL PERIPHERAL INTERFACE (Cont’d)

11.4.3.2 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 49. Generic SS Timing Diagram

Figure 50. Hardware/Software Slave Select Management

76/171

– SS internal must be held high continuously

MOSI/MISO

(if CPHA=0)

(if CPHA=1)

.com

Figure

Master SS

Slave SS

50)

SS external pin

SSI bit

Byte 1

www.DataSheet4U.com

SSM bit

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):

SS internal

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

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

, or made free for standard I/O by manag-

Byte 3

Section

Figure

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11.4.5.3).

49):

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ST72F264G ST Microelectronics, ST72F264G Datasheet - Page 76

ST72F264G

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