ADSP-2188MKCA-300 データシートの表示（PDF） - Analog Devices

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ADSP-2188MKCA-300

DSP Microcomputer

Analog Devices 

ADSP-2188M

RESET

The RESET signal initiates a master reset of the ADSP-2188M.

The RESET signal must be asserted during the power-up

sequence to assure proper initialization. RESET during initial

power-up must be held long enough to allow the internal clock

to stabilize. If RESET is activated any time after power-up, the

clock continues to run and does not require stabilization time.

The power-up sequence is defined as the total time required for the

crystal oscillator circuit to stabilize after a valid VDD is applied to

the processor, and for the internal phase-locked loop (PLL) to lock

onto the specific crystal frequency. A minimum of 2000 CLKIN

cycles ensures that the PLL has locked but does not include the

crystal oscillator start-up time. During this power-up sequence

the RESET signal should be held low. On any subsequent resets,

the RESET signal must meet the minimum pulsewidth specifi-

cation, tRSP.

The RESET input contains some hysteresis; however, if an

RC circuit is used to generate the RESET signal, the use of an

external Schmidt trigger is recommended.

The master reset sets all internal stack pointers to the empty stack

condition, masks all interrupts, and clears the MSTAT register.

When RESET is released, if there is no pending bus request and

the chip is configured for booting, the boot-loading sequence is

performed. The first instruction is fetched from on-chip pro-

gram memory location 0x0000 once boot loading completes.

Power Supplies

The ADSP-2188M has separate power supply connections for

the internal (VDDINT) and external (VDDEXT) power supplies.

The internal supply must meet the 2.75 V requirement. The

external supply can be connected to either a 2.75 V or 3.3 V

supply. All external supply pins must be connected to the same

supply. All input and I/O pins can tolerate input voltages up to

3.6 V, regardless of the external supply voltage. This feature pro-

vides maximum flexibility in mixing 2.75 V and 3.3 V components.

MODES OF OPERATION

Setting Memory Mode

Memory Mode selection for the ADSP-2188M is made during

chip reset through the use of the Mode C pin. This pin is multi-

plexed with the DSP’s PF2 pin, so care must be taken in how

the mode selection is made. The two methods for selecting the

value of Mode C are active and passive.

Passive Configuration

Passive Configuration involves the use a pull-up or pull-down

resistor connected to the Mode C pin. To minimize power con-

sumption, or if the PF2 pin is to be used as an output in the DSP

application, a weak pull-up or pull-down, on the order of 10 kΩ,

can be used. This value should be sufficient to pull the pin to the

desired level and still allow the pin to operate as a programmable

flag output without undue strain on the processor’s output driver.

For minimum power consumption during power-down, recon-

figure PF2 to be an input, as the pull-up or pull-down will

hold the pin in a known state, and will not switch.

Active Configuration

Active Configuration involves the use of a three-statable external

driver connected to the Mode C pin. A driver’s output enable

should be connected to the DSP’s RESET signal such that it

only drives the PF2 pin when RESET is active (low). When

RESET is deasserted, the driver should three-state, thus allow-

ing full use of the PF2 pin as either an input or output. To

minimize power consumption during power-down, configure

the programmable flag as an output when connected to a three-

stated buffer. This ensures that the pin will be held at a constant

level, and will not oscillate should the three-state driver’s level

hover around the logic switching point.

Table II. Modes of Operation

MODE D MODE C MODE B MODE A Booting Method

X

0

0

0

BDMA feature is used to load the first 32 program memory words from

the byte memory space. Program execution is held off until all 32 words

have been loaded. Chip is configured in Full Memory Mode.1

X

0

1

0

No automatic boot operations occur. Program execution starts at external

memory location 0. Chip is configured in Full Memory Mode. BDMA can

still be used, but the processor does not automatically use or wait for these

operations.

0

1

0

0

BDMA feature is used to load the first 32 program memory words from

the byte memory space. Program execution is held off until all 32 words

have been loaded. Chip is configured in Host Mode. IACK has active

pull-down. (REQUIRES ADDITIONAL HARDWARE).

0

1

0

1

IDMA feature is used to load any internal memory as desired. Program

execution is held off until internal program memory location 0 is written

to. Chip is configured in Host Mode. IACK has active pull-down.1

1

1

0

0

BDMA feature is used to load the first 32 program memory words from

the byte memory space. Program execution is held off until all 32 words

have been loaded. Chip is configured in Host Mode; IACK requires exter-

nal pull down. (REQUIRES ADDITIONAL HARDWARE)

1

1

0

1

IDMA feature is used to load any internal memory as desired. Program

execution is held off until internal program memory location 0 is written

to. Chip is configured in Host Mode. IACK requires external pull-down.1

NOTE

1Considered as standard operating settings. Using these configurations allows for easier design and better memory management.

REV. 0

–11–

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