S9S12G96F0MLF Freescale Semiconductor, S9S12G96F0MLF Datasheet - Page 728

S9S12G96F0MLF

Manufacturer Part Number

S9S12G96F0MLF

Description

16-bit Microcontrollers - MCU 16BIT 96K FLASH

Manufacturer

Freescale Semiconductor

Datasheet

1.S9S12G96F0CLL.pdf (1292 pages)

Specifications of S9S12G96F0MLF

Rohs

yes

Core

S12

Processor Series

MC9S12G

Data Bus Width

16 bit

Maximum Clock Frequency

25 MHz

Program Memory Size

96 KB

Data Ram Size

8192 B

On-chip Adc

Yes

Operating Supply Voltage

3.13 V to 5.5 V

Operating Temperature Range

- 40 C to + 125 C

Package / Case

LQFP-48

Mounting Style

SMD/SMT

Available stocks

Company

Part Number

Manufacturer

Quantity

Price

Company:

BOSTOCK HK LIMITED

Part Number:

S9S12G96F0MLF

Manufacturer:

FREESCALE

Quantity:

5 500

Company:

BOSTOCK HK LIMITED

Part Number:

S9S12G96F0MLF

Manufacturer:

Freescale Semiconductor

Quantity:

10 000

Company:

BOSTOCK HK LIMITED

Part Number:

S9S12G96F0MLF

Manufacturer:

FREESCALE

Quantity:

5 500

Current page: 728 of 1292
Download datasheet (5Mb)

Serial Peripheral Interface (S12SPIV5)

21.4.7.3

Stop mode is dependent on the system. The SPI enters stop mode when the module clock is disabled (held

high or low). If the SPI is in master mode and exchanging data when the CPU enters stop mode, the

transmission is frozen until the CPU exits stop mode. After stop, data to and from the external SPI is

exchanged correctly. In slave mode, the SPI will stay synchronized with the master.

The stop mode is not dependent on the SPISWAI bit.

21.4.7.4

The reset values of registers and signals are described in

Deﬁnition”, which details the registers and their bit ﬁelds.

21.4.7.5

The SPI only originates interrupt requests when SPI is enabled (SPE bit in SPICR1 set). The following is

a description of how the SPI makes a request and how the MCU should acknowledge that request. The

interrupt vector offset and interrupt priority are chip dependent.

The interrupt ﬂags MODF, SPIF, and SPTEF are logically ORed to generate an interrupt request.

21.4.7.5.1

MODF occurs when the master detects an error on the SS pin. The master SPI must be conﬁgured for the

MODF feature (see

changed:

The MODF interrupt is reﬂected in the status register MODF ﬂag. Clearing the ﬂag will also clear the

interrupt. This interrupt will stay active while the MODF ﬂag is set. MODF has an automatic clearing

process which is described in

730

•

If a data transmission occurs in slave mode after reset without a write to SPIDR, it will transmit

garbage, or the data last received from the master before the reset.

Reading from the SPIDR after reset will always read zeros.

MSTR = 0, The master bit in SPICR1 resets.

SPI in Stop Mode

Reset

Interrupts

Care must be taken when expecting data from a master while the slave is in

wait or stop mode. Even though the shift register will continue to operate,

the rest of the SPI is shut down (i.e., a SPIF interrupt will not be generated

until exiting stop or wait mode). Also, the byte from the shift register will

not be copied into the SPIDR register until after the slave SPI has exited wait

or stop mode. In slave mode, a received byte pending in the receive shift

SPIDR copy is generated only if wait mode is entered or exited during a

tranmission. If the slave enters wait mode in idle mode and exits wait mode

in idle mode, neither a SPIF nor a SPIDR copy will occur.

MODF

Table

21-2). After MODF is set, the current transfer is aborted and the following bit is

Section 21.3.2.4, “SPI Status Register

MC9S12G Family Reference Manual,

NOTE

Section 21.3, “Memory Map and Register

Rev.1.23

(SPISR)”.

Freescale Semiconductor

S9S12G96F0MLF Freescale Semiconductor, S9S12G96F0MLF Datasheet - Page 728

S9S12G96F0MLF

Specifications of S9S12G96F0MLF

Available stocks

Related parts for S9S12G96F0MLF