S9S12GN48F0VLF Freescale Semiconductor, S9S12GN48F0VLF Datasheet - Page 294

S9S12GN48F0VLF

Manufacturer Part Number

S9S12GN48F0VLF

Description

16-bit Microcontrollers - MCU S12 Core,64kFlash,Au

Manufacturer

Freescale Semiconductor

Datasheet

1.S9S12G96F0CLL.pdf (1292 pages)

Specifications of S9S12GN48F0VLF

Rohs

yes

Core

S12

Processor Series

MC9S12G

Data Bus Width

16 bit

Maximum Clock Frequency

25 MHz

Program Memory Size

48 KB

Data Ram Size

2 KB

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

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Background Debug Module (S12SBDMV1)

7.3.3

The family ID is an 8-bit value located in the BDM ROM in active BDM (at global address: 0x3_FF0F).

The read-only value is a unique family ID which is 0xC2 for devices with an HCS12S core.

7.4

The BDM receives and executes commands from a host via a single wire serial interface. There are two

types of BDM commands: hardware and ﬁrmware commands.

Hardware commands are used to read and write target system memory locations and to enter active

background debug mode, see

includes all memory that is accessible by the CPU.

Firmware commands are used to read and write CPU resources and to exit from active background debug

mode, see

accumulator (D), X index register (X), Y index register (Y), stack pointer (SP), and program counter (PC).

Hardware commands can be executed at any time and in any mode excluding a few exceptions as

highlighted (see

“Security”). BDM ﬁrmware commands can only be executed when the system is not secure and is in active

background debug mode (BDM).

7.4.1

If the user resets into special single chip mode with the system secured, a secured mode BDM ﬁrmware

lookup table is brought into the map overlapping a portion of the standard BDM ﬁrmware lookup table.

The secure BDM ﬁrmware veriﬁes that the on-chip Flash EEPROM are erased. This being the case, the

UNSEC and ENBDM bit will get set. The BDM program jumps to the start of the standard BDM ﬁrmware

and the secured mode BDM ﬁrmware is turned off and all BDM commands are allowed. If the Flash does

not verify as erased, the BDM ﬁrmware sets the ENBDM bit, without asserting UNSEC, and the ﬁrmware

enters a loop. This causes the BDM hardware commands to become enabled, but does not enable the

ﬁrmware commands. This allows the BDM hardware to be used to erase the Flash.

BDM operation is not possible in any other mode than special single chip mode when the device is secured.

The device can only be unsecured via BDM serial interface in special single chip mode. For more

information regarding security, please see the S12S_9SEC Block Guide.

7.4.2

The system must be in active BDM to execute standard BDM ﬁrmware commands. BDM can be activated

only after being enabled. BDM is enabled by setting the ENBDM bit in the BDM status (BDMSTS)

interface, using a hardware command such as WRITE_BD_BYTE.

After being enabled, BDM is activated by one of the following

1. BDM is enabled and active immediately out of special single-chip reset.

296

Functional Description

Section 7.4.4, “Standard BDM Firmware

Family ID Assignment

Security

Enabling and Activating BDM

Section 7.4.3, “BDM Hardware

MC9S12G Family Reference Manual,

Commands”) and in secure mode (see

Commands”. The CPU resources referred to are the

Commands”. Target system memory

Rev.1.23

Freescale Semiconductor

Section 7.4.1,

S9S12GN48F0VLF Freescale Semiconductor, S9S12GN48F0VLF Datasheet - Page 294

S9S12GN48F0VLF

Specifications of S9S12GN48F0VLF

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