MC908AP64CFAE Freescale Semiconductor, MC908AP64CFAE Datasheet - Page 216

MC908AP64CFAE

Manufacturer Part Number

MC908AP64CFAE

Description

IC MCU 64K 8MHZ SPI 48-LQFP

Manufacturer

Freescale Semiconductor

Series

HC08r

Datasheets

1.MC908AP8CFBE.pdf (324 pages)

2.MC908AP16ACFBER.pdf (316 pages)

Specifications of MC908AP64CFAE

Core Processor

HC08

Core Size

8-Bit

Speed

8MHz

Connectivity

I²C, IRSCI, SCI, SPI

Peripherals

LED, LVD, POR, PWM

Number Of I /o

Program Memory Size

64KB (64K x 8)

Program Memory Type

FLASH

Ram Size

2K x 8

Voltage - Supply (vcc/vdd)

2.7 V ~ 5.5 V

Data Converters

A/D 8x10b

Oscillator Type

Internal

Operating Temperature

-40°C ~ 85°C

Package / Case

48-LQFP

Cpu Family

HC08

Device Core Size

Frequency (max)

8MHz

Interface Type

SCI/SPI

Total Internal Ram Size

2KB

# I/os (max)

Number Of Timers - General Purpose

Operating Supply Voltage (typ)

3.3/5V

Operating Supply Voltage (max)

5.5V

Operating Supply Voltage (min)

2.7V

On-chip Adc

8-chx10-bit

Instruction Set Architecture

CISC

Operating Temp Range

-40C to 85C

Operating Temperature Classification

Industrial

Mounting

Surface Mount

Pin Count

Package Type

LQFP

Controller Family/series

HC08

No. Of I/o's

Ram Memory Size

2KB

Cpu Speed

8MHz

No. Of Timers

Embedded Interface Type

I2C, SCI, SPI

Rohs Compliant

Yes

Processor Series

HC08AP

Core

HC08

Data Bus Width

8 bit

Data Ram Size

2 KB

Maximum Clock Frequency

8 MHz

Number Of Programmable I/os

Number Of Timers

Maximum Operating Temperature

+ 85 C

Mounting Style

SMD/SMT

Development Tools By Supplier

FSICEBASE, DEMO908AP64E, M68CBL05CE

Minimum Operating Temperature

- 40 C

Package

48LQFP

Family Name

HC08

Maximum Speed

8 MHz

Operating Supply Voltage

3.3|5 V

Lead Free Status / RoHS Status

Lead free / RoHS Compliant

Eeprom Size

Lead Free Status / Rohs Status

Compliant

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Serial Peripheral Interface Module (SPI)

13.5.3 Transmission Format When CPHA = 1

Figure 13-6

replacement for data sheet parametric information. Two waveforms are shown for SPSCK: one for

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

diagram since the serial clock (SPSCK), master in/slave out (MISO), and master out/slave in (MOSI) pins

are directly connected 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 line is the slave select input to the slave. The

slave SPI drives its MISO output only when its slave select input (SS) is at logic 0, so that only the selected

slave drives to the master. The SS pin of the master is not shown but is assumed to be inactive. The SS

pin of the master must be high or must be reconfigured as general-purpose I/O not affecting the SPI. (See

13.7.2 Mode Fault

edge. Therefore, the slave uses the first SPSCK edge as a start transmission signal. The SS pin can

remain low between transmissions. This format may be preferable in systems having only one master and

only one slave driving the MISO data line.

When CPHA = 1 for a slave, the first edge of the SPSCK indicates the beginning of the transmission. This

causes the SPI to leave its idle state and begin driving the MISO pin with the MSB of its data. Once the

transmission begins, no new data is allowed into the shift register from the transmit data register.

Therefore, the SPI data register of the slave must be loaded with transmit data before the first edge of

SPSCK. Any data written after the first edge is stored in the transmit data register and transferred to the

shift register after the current transmission.

13.5.4 Transmission Initiation Latency

When the SPI is configured as a master (SPMSTR = 1), writing to the SPDR starts a transmission. CPHA

has no effect on the delay to the start of the transmission, but it does affect the initial state of the SPSCK

signal. When CPHA = 0, the SPSCK signal remains inactive for the first half of the first SPSCK cycle.

When CPHA = 1, the first SPSCK cycle begins with an edge on the SPSCK line from its inactive to its

active level. The SPI clock rate (selected by SPR1:SPR0) affects the delay from the write to SPDR and

the start of the SPI transmission. (See

derivative of the internal MCU clock. To conserve power, it is enabled only when both the SPE and

SPMSTR bits are set. SPSCK edges occur halfway through the low time of the internal MCU clock. Since

the SPI clock is free-running, it is uncertain where the write to the SPDR occurs relative to the slower

SPSCK. This uncertainty causes the variation in the initiation delay shown in

no longer than a single SPI bit time. That is, the maximum delay is two MCU bus cycles for DIV2, eight

MCU bus cycles for DIV8, 32 MCU bus cycles for DIV32, and 128 MCU bus cycles for DIV128.

214

shows an SPI transmission in which CPHA is logic 1. The figure should not be used as a

CAPTURE STROBE

FOR REFERENCE

SPSCK; CPOL = 0

SPSCK; CPOL =1

SPSCK CYCLE #

FROM MASTER

FROM SLAVE

;

Error.) When CPHA = 1, the master begins driving its MOSI pin on the first SPSCK

TO SLAVE

MOSI

MISO

Figure 13-6. Transmission Format (CPHA = 1)

MC68HC908AP Family Data Sheet, Rev. 4

MSB

Figure

BIT 6

13-7.) The internal SPI clock in the master is a free-running

BIT 5

BIT 4

BIT 3

BIT 2

BIT 1

Figure

LSB

Freescale Semiconductor

LSB

13-7. This delay is

MC908AP64CFAE Freescale Semiconductor, MC908AP64CFAE Datasheet - Page 216

MC908AP64CFAE

Specifications of MC908AP64CFAE

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