S912XET256J2VAGR Freescale Semiconductor, S912XET256J2VAGR Datasheet - Page 777

S912XET256J2VAGR

Manufacturer Part Number

S912XET256J2VAGR

Description

16-bit Microcontrollers - MCU Watchdog OSC/Timer -40 C to + 105 C HCS12X MCU SPI

Manufacturer

Freescale Semiconductor

Datasheet

1.S912XEQ512J3CAGR.pdf (1324 pages)

Specifications of S912XET256J2VAGR

Core

HCS12X

Data Bus Width

16 bit

Maximum Clock Frequency

50 MHz

Program Memory Size

256 KB

Data Ram Size

16 KB

On-chip Adc

Yes

Package / Case

LQFP

Mounting Style

SMD/SMT

A/d Bit Size

12 bit

A/d Channels Available

Interface Type

CAN, SCI, SPI

Maximum Operating Temperature

+ 105 C

Minimum Operating Temperature

- 40 C

Number Of Programmable I/os

119

Number Of Timers

Program Memory Type

Flash

Supply Voltage - Max

1.98 V, 2.9 V, 5.5 V

Supply Voltage - Min

1.72 V, 2.7 V, 3.13 V

Current page: 777 of 1324
Download datasheet (5Mb)

The CPOL clock polarity control bit speciﬁes an active high or low clock and has no signiﬁcant effect on

the transmission format.

The CPHA clock phase control bit selects one of two fundamentally different transmission formats.

Clock phase and polarity should be identical for the master SPI device and the communicating slave

device. In some cases, the phase and polarity are changed between transmissions to allow a master device

to communicate with peripheral slaves having different requirements.

21.4.3.2

The ﬁrst edge on the SCK line is used to clock the ﬁrst data bit of the slave into the master and the ﬁrst

data bit of the master into the slave. In some peripherals, the ﬁrst bit of the slave’s data is available at the

slave’s data out pin as soon as the slave is selected. In this format, the ﬁrst SCK edge is issued a half cycle

after SS has become low.

A half SCK cycle later, the second edge appears on the SCK line. When this second edge occurs, the value

previously latched from the serial data input pin is shifted into the LSB or MSB of the shift register,

depending on LSBFE bit.

After this second edge, the next bit of the SPI master data is transmitted out of the serial data output pin of

the master to the serial input pin on the slave. This process continues for a total of 16 edges on the SCK

line, with data being latched on odd numbered edges and shifted on even numbered edges.

Data reception is double buffered. Data is shifted serially into the SPI shift register during the transfer and

is transferred to the parallel SPI data register after the last bit is shifted in.

After 2n

Figure 21-12

CPOL = 0 and CPOL = 1. The diagram may be interpreted as a master or slave timing diagram because

the SCK, MISO, and MOSI pins are connected directly between the master and the slave. The MISO signal

is the output from the slave and the MOSI signal is the output from the master. The SS pin of the master

must be either high or reconﬁgured as a general-purpose output not affecting the SPI.

1. n depends on the selected transfer width, please refer to

Freescale Semiconductor

•

Data that was previously in the master SPI data register should now be in the slave data register and

the data that was in the slave data register should be in the master.

The SPIF ﬂag in the SPI status register is set, indicating that the transfer is complete.

(last) SCK edges:

CPHA = 0 Transfer Format

is a timing diagram of an SPI transfer where CPHA = 0. SCK waveforms are shown for

MC9S12XE-Family Reference Manual Rev. 1.25

Section 21.3.2.2, “SPI Control Register 2 (SPICR2)

Chapter 21 Serial Peripheral Interface (S12SPIV5)

777

S912XET256J2VAGR Freescale Semiconductor, S912XET256J2VAGR Datasheet - Page 777

S912XET256J2VAGR

Specifications of S912XET256J2VAGR

Related parts for S912XET256J2VAGR