S9S12P32J0VFTR Freescale Semiconductor, S9S12P32J0VFTR Datasheet - Page 183

S9S12P32J0VFTR

Manufacturer Part Number

S9S12P32J0VFTR

Description

16-bit Microcontrollers - MCU 16 BIT 32K FLASH

Manufacturer

Freescale Semiconductor

Datasheet

1.MC9S12P64VQK.pdf (566 pages)

Specifications of S9S12P32J0VFTR

Rohs

yes

Core

S12

Processor Series

MC9S12P

Data Bus Width

16 bit

Maximum Clock Frequency

16 MHz

Program Memory Size

32 KB

Data Ram Size

2 KB

On-chip Adc

Yes

Operating Supply Voltage

3.15 V to 5.5 V

Operating Temperature Range

- 40 C to + 105 C

Package / Case

QFN-48

Mounting Style

SMD/SMT

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6.4.5.2.2

Loop1 Mode, similarly to Normal Mode also stores only COF address information to the trace buffer, it

however allows the ﬁltering out of redundant information.

The intent of Loop1 Mode is to prevent the Trace Buffer from being ﬁlled entirely with duplicate

information from a looping construct such as delays using the DBNE instruction or polling loops using

BRSET/BRCLR instructions. Immediately after address information is placed in the Trace Buffer, the

DBG module writes this value into a background register. This prevents consecutive duplicate address

entries in the Trace Buffer resulting from repeated branches.

Loop1 Mode only inhibits consecutive duplicate source address entries that would typically be stored in

most tight looping constructs. It does not inhibit repeated entries of destination addresses or vector

addresses, since repeated entries of these would most likely indicate a bug in the user’s code that the DBG

module is designed to help ﬁnd.

6.4.5.2.3

In Detail Mode, address and data for all memory and register accesses is stored in the trace buffer. This

mode is intended to supply additional information on indexed, indirect addressing modes where storing

only the destination address would not provide all information required for a user to determine where the

code is in error. This mode also features information bit storage to the trace buffer, for each address byte

storage. The information bits indicate the size of access (word or byte) and the type of access (read or

write).

When tracing in Detail Mode, all cycles are traced except those when the CPU is either in a free or opcode

fetch cycle.

6.4.5.2.4

In Compressed Pure PC Mode, the PC addresses of all executed opcodes, including illegal opcodes are

stored. A compressed storage format is used to increase the effective depth of the trace buffer. This is

achieved by storing the lower order bits each time and using 2 information bits to indicate if a 64 byte

boundary has been crossed, in which case the full PC is stored.

Each Trace Buffer row consists of 2 information bits and 18 PC address bits

6.4.5.3

ADRH, ADRM, ADRL denote address high, middle and low byte respectively. The numerical sufﬁx refers

to the tracing count. The information format for Loop1 and Normal modes is identical. In Detail mode, the

address and data for each entry are stored on consecutive lines, thus the maximum number of entries is 32.

In this case DBGCNT bits are incremented twice, once for the address line and once for the data line, on

Freescale Semiconductor

Trace Buffer Organization (Normal, Loop1, Detail modes)

Loop1 Mode

Detail Mode

Compressed Pure PC Mode

When tracing is terminated using forced breakpoints, latency in breakpoint

generation means that opcodes following the opcode causing the breakpoint

can be stored to the trace buffer. The number of opcodes is dependent on

program ﬂow. This can be avoided by using tagged breakpoints.

S12P-Family Reference Manual, Rev. 1.13

NOTE:

S12S Debug Module (S12SDBGV2)

183

S9S12P32J0VFTR Freescale Semiconductor, S9S12P32J0VFTR Datasheet - Page 183

S9S12P32J0VFTR

Specifications of S9S12P32J0VFTR

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