MPC555LFMZP40 Freescale Semiconductor, MPC555LFMZP40 Datasheet - Page 517

MPC555LFMZP40

Manufacturer Part Number

MPC555LFMZP40

Description

IC MCU 32BIT 40MHZ 272-BGA

Manufacturer

Freescale Semiconductor

Series

MPC5xxr

Datasheets

1.MPC555LFMZP40.pdf (12 pages)

2.MPC555LFMZP40.pdf (966 pages)

3.MPC555LFMZP40.pdf (3 pages)

Specifications of MPC555LFMZP40

Core Processor

PowerPC

Core Size

32-Bit

Speed

40MHz

Connectivity

CAN, EBI/EMI, SCI, SPI, UART/USART

Peripherals

POR, PWM, WDT

Number Of I /o

101

Program Memory Size

448KB (448K x 8)

Program Memory Type

FLASH

Ram Size

26K x 8

Voltage - Supply (vcc/vdd)

2.5 V ~ 2.7 V

Data Converters

A/D 32x10b

Oscillator Type

External

Operating Temperature

-40°C ~ 125°C

Package / Case

272-PBGA

Controller Family/series

POWER 5xx

Ram Memory Size

26KB

Cpu Speed

63MIPS

Embedded Interface Type

QSPI, SCI, TouCAN

Operating Temperature Range

-40Â°C To +125Â°C

No. Of Pins

272

Rohs Compliant

Processor Series

MPC5xx

Core

PowerPC

Data Bus Width

32 bit

Data Ram Size

26 KB

Interface Type

CAN, QSPI, SCI

Maximum Clock Frequency

40 MHz

Number Of Programmable I/os

101

Operating Supply Voltage

3.3 V to 5 V

Maximum Operating Temperature

+ 125 C

Mounting Style

SMD/SMT

Development Tools By Supplier

MPC555CMEE

Minimum Operating Temperature

- 85 C

On-chip Adc

10 bit, 32 Channel

Cpu Family

MPC55xx

Device Core

PowerPC

Device Core Size

32b

Frequency (max)

40MHz

Total Internal Ram Size

32KB

# I/os (max)

101

Operating Supply Voltage (typ)

Instruction Set Architecture

RISC

Operating Temp Range

-40C to 85C

Operating Temperature Classification

Industrial

Mounting

Surface Mount

Pin Count

272

Package Type

BGA

For Use With

MPC555CMEE - KIT EVAL FOR MPC555

Lead Free Status / RoHS Status

Contains lead / RoHS non-compliant

Eeprom Size

Lead Free Status / Rohs Status

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MPC555

USER’S MANUAL

in the serial data stream, which makes SCIx tolerant to small frequency variations in

the received data stream.

The sequence of events used by the receiver to find a start bit is listed below.

Upon detection of a valid start bit, synchronization is established and is maintained

through the reception of the last stop bit, after which the procedure starts all over again

to search for a new valid start bit. During a frame's reception, SCIx resynchronizes the

RT clock on any one-to-zero transitions.

Additional logic in the receiver bit processor determines the logic level of the re-ceived

bit and implements an advanced noise-detection function. During each bit-time of a

frame (including the start and stop bits), three logic-sense samples are taken at RT8,

RT9, and RT10. The logic sense of the bit-time is decided by a majority vote of these

three samples. This logic level is shifted into register RDRx for every bit except the

start and stop bits.

If RT8, RT9, and RT10 do not all agree, an internal working noise flag is set. Addition-

ally for the start bit, if RT3, RT5, and RT7 do not all agree, the internal working noise

flag is set. If this flag is set for any of the bit-times in a frame, the NF flag in SCxSR is

set concurrently with the RDRF flag in SCxSR when the data is transferred to register

RDRx. The user must determine if the data received with NF set is valid. Noise on the

RXDx pin does not necessarily corrupt all data.

The operation of the receiver bit processor is shown in

demonstrates the search for a valid start bit and the synchronization procedure as out-

lined above. The possibilities of noise durations greater than one bit-time are not con-

sidered in this examples.

1. Sample RXDx input during each RT period and maintain these samples in a se-

2. If RXDx is low during this RT period, go to step 1.

3. If RXDx is high during this RT period, store sample and proceed to step 4.

4. If RXDx is low during this RT period, but not high for the previous three RT pe-

5. If RXDx is low during this RT period and has been high for the previous three

6. Skip RT2 but place RT3 in the pipeline and proceed to step 7.

7. Skip RT4 and sample RT5. If both RT3 and RT5 are high (RT1 was noise only),

8. Skip RT6 and sample RT7. If any two of RT3, RT5, or RT7 is high (RT1 was

9. A valid start bit is found and synchronization is achieved. From this point on until

MPC556

rial pipeline that is three RT periods deep.

riods (which is noise only), set an internal working noise flag and go to step 1,

since this transition was not a valid start bit transition.

RT periods, call this period RT1, set RAF, and proceed to step 6.

set an internal working noise flag. Go to step 3 and clear RAF. Otherwise, place

RT5 in the pipeline and proceed to step 8.

noise only), set an internal working noise flag. Go to step 3 and clear RAF. Oth-

erwise, place RT7 in the pipeline and proceed to step 9.

the end of the frame, the RT clock will increment starting over again with RT1

on each one-to-zero transition or each RT16. The beginning of a bit-time is thus

defined as RT1 and the end of a bit-time as RT16.

Freescale Semiconductor, Inc.

QUEUED SERIAL MULTI-CHANNEL MODULE

For More Information On This Product,

Go to: www.freescale.com

Rev. 15 October 2000

Figure

14-14. This example

MOTOROLA

14-55

MPC555LFMZP40 Freescale Semiconductor, MPC555LFMZP40 Datasheet - Page 517

MPC555LFMZP40

Specifications of MPC555LFMZP40

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