MC9S12NE64CPV Freescale Semiconductor, MC9S12NE64CPV Datasheet - Page 421

MC9S12NE64CPV

Manufacturer Part Number

MC9S12NE64CPV

Description

IC MCU 25MHZ ETHERNT/PHY 112LQFP

Manufacturer

Freescale Semiconductor

Series

HCS12r

Datasheet

1.MC9S12NE64VTU.pdf (554 pages)

Specifications of MC9S12NE64CPV

Mfg Application Notes

MC9S12NE64 Integrated Ethernet Controller Implementing an Ethernet Interface with the MC9S12NE64 Web Server Development with MC9S12NE64 and Open TCP

Core Processor

HCS12

Core Size

16-Bit

Speed

25MHz

Connectivity

EBI/EMI, Ethernet, I²C, SCI, SPI

Peripherals

POR, PWM, WDT

Number Of I /o

Program Memory Size

64KB (64K x 8)

Program Memory Type

FLASH

Ram Size

8K x 8

Voltage - Supply (vcc/vdd)

2.375 V ~ 3.465 V

Data Converters

A/D 8x10b

Oscillator Type

Internal

Operating Temperature

-40°C ~ 85°C

Package / Case

112-LQFP

Data Bus Width

16 bit

Data Ram Size

8 KB

Interface Type

I2C, SCI, SPI

Maximum Clock Frequency

25 MHz

Number Of Programmable I/os

Number Of Timers

16 bit

Operating Supply Voltage

- 0.3 V to + 3 V

Maximum Operating Temperature

+ 105 C

Mounting Style

SMD/SMT

Minimum Operating Temperature

- 65 C

On-chip Adc

10 bit

For Use With

EVB9S12NE64E - BOARD EVAL FOR 9S12NE64DEMO9S12NE64E - DEMO BOARD FOR 9S12NE64

Lead Free Status / RoHS Status

Contains lead / RoHS non-compliant

Eeprom Size

Lead Free Status / Rohs Status

No RoHS Version Available

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15.4.3.2

There are two special operating modes that correspond to normal operating modes. These operating modes

are commonly used in factory testing and system development.

15.4.3.2.1

When the MCU is reset in this mode, the background debug mode is enabled and active. The MCU does

not fetch the reset vector and execute application code as it would in other modes. Instead the active

background mode is in control of CPU execution and BDM firmware is waiting for additional serial

commands through the BKGD pin. When a serial command instructs the MCU to return to normal

execution, the system will be configured as described below unless the reset states of internal control

registers have been changed through background commands after the MCU was reset.

There is no external expansion bus after reset in this mode. Ports A and B are initially simple bidirectional

I/O pins that are configured as high-impedance inputs with internal pull resistors disabled; however,

writing to the mode select bits in the MODE register (which is allowed in special modes) can change this

after reset. All of the Port E pins (except PE4/ECLK) are initially configured as general purpose

high-impedance inputs with internal pull resistors enabled. PE4/ECLK is configured as the E clock output

in this mode.

The pins associated with Port E bits 6, 5, 3, and 2 cannot be configured for their alternate functions IPIPE1,

IPIPE0, LSTRB, and R/W while the MCU is in single chip modes. In single chip modes, the associated

control bits PIPOE, LSTRE and RDWE are reset to zero. Writing the opposite value into these bits in

single chip mode does not change the operation of the associated Port E pins.

Port E, bit 4 can be configured for a free-running E clock output by clearing NECLK=0. Typically the only

use for an E clock output while the MCU is in single chip modes would be to get a constant speed clock

for use in the external application system.

15.4.3.2.2

In expanded wide modes, Ports A and B are configured as a 16-bit multiplexed address and data bus and

Port E provides bus control and status signals. In special test mode, the write protection of many control

bits is lifted so that they can be thoroughly tested without needing to go through reset.

15.4.3.3

There is a test operating mode in which an external master, such as an I.C. tester, can control the on-chip

peripherals.

15.4.3.3.1

This mode is intended for factory testing of the MCU. In this mode, the CPU is inactive and an external

(tester) bus master drives address, data and bus control signals in through Ports A, B and E. In effect, the

whole MCU acts as if it was a peripheral under control of an external CPU. This allows faster testing of

on-chip memory and peripherals than previous testing methods. Since the mode control register is not

accessible in peripheral mode, the only way to change to another mode is to reset the MCU into a different

Freescale Semiconductor

Special Operating Modes

Test Operating Mode

Special Single-Chip Mode

Special Test Mode

Peripheral Mode

MC9S12NE64 Data Sheet, Rev. 1.1

Functional Description

421

MC9S12NE64CPV Freescale Semiconductor, MC9S12NE64CPV Datasheet - Page 421

MC9S12NE64CPV

Specifications of MC9S12NE64CPV

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