S912XEP768J5MAGR Freescale Semiconductor, S912XEP768J5MAGR Datasheet - Page 257

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

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Price

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BOSTOCK HK LIMITED

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S912XEP768J5MAGR

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Freescale Semiconductor

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10 000

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5.5.1.1

The first example of bus timing of an external read and write access with the external wait feature disabled

is shown in

The associated supply voltage dependent timing are numbers given in

Systems designed this way rely on the internal programmable access stretching. These systems have

predictable external memory access times. The additional stretch time can be programmed up to 8 cycles

to provide longer access times.

5.5.1.2

The external wait operation is shown in this example. It can be used to exceed the amount of stretch cycles

over the programmed number in EXSTR[2:0]. The feature must be enabled by configuring at least one

CSx line for EWAIT.

If the EWAIT signal is not asserted, the number of stretch cycles is forced to a minimum of 2 cycles. If

EWAIT is asserted within the predefined time window during the access it will be strobed active and

another stretch cycle is added. If strobed inactive, the next cycle will be the last cycle before the access is

finished. EWAIT can be held asserted as long as desired to stretch the access.

An access with 1 cycle stretch by EWAIT assertion is shown in

The associated timing numbers for both operations are given in

It is recommended to use the free-running clock (ECLK) at the fastest rate (bus clock rate) to synchronize

the EWAIT input signal.

5.5.2

In emulation mode applications, the development systems use a custom PRU device to rebuild the single-

chip or expanded bus functions which are lost due to the use of the external bus with an emulator.

Accesses to a set of registers controlling the related ports in normal modes (refer to SoC section) are

directed to the external bus in emulation modes which are substituted by PRR as part of the PRU. Accesses

to these registers take a constant time of 2 cycles.

Depending on the setting of ROMON and EROMON (refer to S12X_MMC section), the program code

can be executed from internal memory or an optional external emulation memory (EMULMEM). No wait

Freescale Semiconductor

•

Figure ‘Example 1a: Normal Expanded Mode — Read Followed by Write’

Table ‘Example 1a: Normal Expanded Mode Timing V

Figure ‘Example 1b: Normal Expanded Mode — Stretched Read Access’

Figure ‘Example 1b: Normal Expanded Mode — Stretched Write Access’

Table ‘Example 1b: Normal Expanded Mode Timing V

Emulation Modes

Example 1a: External Wait Feature Disabled

Example 1b: External Wait Feature Enabled

MC9S12XE-Family Reference Manual Rev. 1.25

DD5

= 5.0 V (EWAIT disabled)’

= 3.0 V (EWAIT disabled)’

= 5.0 V (EWAIT enabled)’

= 3.0 V (EWAIT enabled)’

Chapter 5 External Bus Interface (S12XEBIV4)

257

S912XEP768J5MAGR Freescale Semiconductor, S912XEP768J5MAGR Datasheet - Page 257

S912XEP768J5MAGR

Specifications of S912XEP768J5MAGR

Available stocks

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