S912XEP768J5MAGR Freescale Semiconductor, S912XEP768J5MAGR Datasheet - Page 331

S912XEP768J5MAGR

Manufacturer Part Number

S912XEP768J5MAGR

Description

16-bit Microcontrollers - MCU 16-bit 768K Flash

Manufacturer

Freescale Semiconductor

Datasheet

1.S912XEG128J2MAL.pdf (1324 pages)

Specifications of S912XEP768J5MAGR

Rohs

yes

Core

HCS12X

Processor Series

MC9S12

Data Bus Width

16 bit

Maximum Clock Frequency

50 MHz

Program Memory Size

768 KB

Data Ram Size

48 KB

On-chip Adc

Yes

Operating Supply Voltage

3.3 V to 5 V

Operating Temperature Range

- 40 C to + 125 C

Package / Case

LQFP-144

Mounting Style

SMD/SMT

Available stocks

Company

Part Number

Manufacturer

Quantity

Price

Company:

BOSTOCK HK LIMITED

Part Number:

S912XEP768J5MAGR

Manufacturer:

Freescale Semiconductor

Quantity:

10 000

Current page: 331 of 1324
Download datasheet (5Mb)

When comparing the XGATE address bus in outside range mode, the initial vector fetch as determined by

the vector contained in the XGATE XGVBR register should be taken into consideration. The XGVBR

8.4.3

Trigger modes are used as qualiﬁers for a state sequencer change of state. The control logic determines the

trigger mode and provides a trigger to the state sequencer. The individual trigger modes are described in

the following sections.

8.4.3.1

If a forced trigger comparator match occurs, the trigger immediately initiates a transition to the next state

sequencer state whereby the corresponding ﬂags in DBGSR are set. The state control register for the

current state determines the next state for each trigger. Forced triggers are generated as soon as the

matching address appears on the address bus, which in the case of opcode fetches occurs several cycles

before the opcode execution. For this reason a forced trigger at an opcode address precedes a tagged trigger

at the same address by several cycles.

8.4.3.2

If a CPU12X or XGATE taghit occurs, a transition to another state sequencer state is initiated and the

corresponding DBGSR ﬂags are set. For a comparator related taghit to occur, the S12XDBG must ﬁrst

generate tags based on comparator matches. When the tagged instruction reaches the execution stage of

the instruction queue a taghit is generated by the CPU12X/XGATE. The state control register for the

current state determines the next state for each trigger.

8.4.3.3

The TAGLO and TAGHI pins (mapped to device pins) can be used to tag an instruction. This function can

be used as another breakpoint source. When the tagged opcode reaches the execution stage of the

instruction queue a transition to the disarmed state0 occurs, ending the debug session and generating a

breakpoint, if breakpoints are enabled. External tagging is only possible in device emulation modes.

8.4.3.4

The XGATE S/W breakpoint request issues a forced breakpoint request to the CPU12X immediately and

triggers the state sequencer into the disarmed state. Active tracing sessions are terminated immediately,

thus if tracing has not yet begun, no trace information is stored. XGATE generated breakpoints are

independent of the DBGBRK bits. The XGSBPE bit in DBGC1 determines if the XGATE S/W breakpoint

function is enabled. The BDM bit in DBGC1 determines if the XGATE requested breakpoint causes the

system to enter BDM Mode or initiate a software interrupt (SWI).

8.4.3.5

Independent of comparator matches or external tag signals it is possible to initiate a tracing session and/or

breakpoint by writing the TRIG bit in DBGC1 to a logic “1”. If conﬁgured for begin or mid aligned tracing,

Freescale Semiconductor

Trigger Modes

Forced Trigger On Comparator Match

Trigger On Comparator Related Taghit

External Tagging Trigger

Trigger On XGATE S/W Breakpoint Request

TRIG Immediate Trigger

MC9S12XE-Family Reference Manual Rev. 1.25

Chapter 8 S12X Debug (S12XDBGV3) Module

331

S912XEP768J5MAGR Freescale Semiconductor, S912XEP768J5MAGR Datasheet - Page 331

S912XEP768J5MAGR

Specifications of S912XEP768J5MAGR

Available stocks

Related parts for S912XEP768J5MAGR