ADSP-2186MKCA-300 データシートの表示（PDF） - Analog Devices

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ADSP-2186MKCA-300

DSP Microcomputer

Analog Devices 

ADSP-2186M

Slow Idle

The IDLE instruction is enhanced on the ADSP-2186M to let

the processor’s internal clock signal be slowed, further reducing

power consumption. The reduced clock frequency, a program-

mable fraction of the normal clock rate, is specified by a selectable

divisor given in the IDLE instruction.

ADSP-2186M also provides four external interrupts and two

serial ports or six external interrupts and one serial port. Host

Memory Mode allows access to the full external data bus, but

limits addressing to a single address bit (A0). Through the use

of external hardware, additional system peripherals can be added

in this mode to generate and latch address signals.

The format of the instruction is:

IDLE (n);

where n = 16, 32, 64, or 128. This instruction keeps the proces-

sor fully functional, but operating at the slower clock rate. While

it is in this state, the processor’s other internal clock signals, such

as SCLK, CLKOUT, and timer clock, are reduced by the same

ratio. The default form of the instruction, when no clock divisor

is given, is the standard IDLE instruction.

When the IDLE (n) instruction is used, it effectively slows down

the processor’s internal clock and thus its response time to incom-

ing interrupts. The one-cycle response time of the standard idle

state is increased by n, the clock divisor. When an enabled inter-

rupt is received, the ADSP-2186M will remain in the idle state

for up to a maximum of n processor cycles (n = 16, 32, 64, or

128) before resuming normal operation.

When the IDLE (n) instruction is used in systems that have an

externally generated serial clock (SCLK), the serial clock rate

may be faster than the processor’s reduced internal clock rate.

Under these conditions, interrupts must not be generated at a

faster than can be serviced, due to the additional time the

processor takes to come out of the idle state (a maximum of n

processor cycles).

SYSTEM INTERFACE

Figure 2 shows typical basic system configurations with the

ADSP-2186M, two serial devices, a byte-wide EPROM, and

optional external program and data overlay memories (mode-

selectable). Programmable wait state generation allows the

processor to connect easily to slow peripheral devices. The

Clock Signals

The ADSP-2186M can be clocked by either a crystal or a

TTL-compatible clock signal.

The CLKIN input cannot be halted, changed during opera-

tion, nor operated below the specified frequency during normal

operation. The only exception is while the processor is in the

power-down state. For additional information, refer to Chap-

ter 9, ADSP-2100 Family User’s Manual, for detailed information

on this power-down feature.

If an external clock is used, it should be a TTL-compatible signal

running at half the instruction rate. The signal is connected to

the processor’s CLKIN input. When an external clock is used,

the XTAL input must be left unconnected.

The ADSP-2186M uses an input clock with a frequency equal to

half the instruction rate; a 37.50 MHz input clock yields a 13 ns

processor cycle (which is equivalent to 75 MHz). Normally,

instructions are executed in a single processor cycle. All device

timing is relative to the internal instruction clock rate, which is

indicated by the CLKOUT signal when enabled.

Because the ADSP-2186M includes an on-chip oscillator circuit,

an external crystal may be used. The crystal should be connected

across the CLKIN and XTAL pins, with two capacitors con-

nected as shown in Figure 3. Capacitor values are dependent on

crystal type and should be specified by the crystal manufacturer.

A parallel-resonant, fundamental frequency, microprocessor-

grade crystal should be used.

A clock output (CLKOUT) signal is generated by the processor

at the processor’s cycle rate. This can be enabled and disabled by

the CLKODIS bit in the SPORT0 Autobuffer Control Register.

FULL MEMORY MODE

HOST MEMORY MODE

1/2x CLOCK

OR

CRYSTAL

SERIAL

DEVICE

SERIAL

DEVICE

ADSP-2186M

CLKIN

XTAL

FL0–2

14

ADDR13–0

IRQ2/PF7

24

IRQE/PF4 DATA23–0

IRQL0/PF5

IRQL1/PF6

BMS

MODE D/PF3

MODE C/PF2

MODE A/PF0

MODE B/PF1

SPORT1

WR

RD

IOMS

SCLK1

RFS1 OR IRQ0

TFS1 OR IRQ1

DT1 OR FO

DR1 OR FI

PMS

DMS

SPORT0

CMS

SCLK0

RFS0

TFS0

DT0

DR0

BR

BG

BGH

PWD

PWDACK

A13–0

D23–16

D15–8

A0–A21

BYTE

DATA MEMORY

A10–0

D23–8

A13–0

D23–0

CS

ADDR I/O SPACE

DATA (PERIPHERALS)

2048 LOCATIONS

CS

ADDR OVERLAY

DATA MEMORY

TWO 8K

PM SEGMENTS

TWO 8K

DM SEGMENTS

1/2x CLOCK

OR

CRYSTAL

SERIAL

DEVICE

SERIAL

DEVICE

SYSTEM

INTERFACE

OR

␮CONTROLLER

16

Figure 2. Basic System Interface

ADSP-2186M

CLKIN

XTAL

FL0–2

1

A0

IRQ2/PF7

16

IRQE/PF4 DATA23–8

IRQL0/PF5

IRQL1/PF6

BMS

MODE D/PF3

MODE C/PF2

MODE A/PF0

WR

RD

MODE B/PF1

SPORT1

IOMS

SCLK1

RFS1 OR IRQ0

TFS1 OR IRQ1

DT1 OR FO

DR1 OR FI

PMS

SPORT0

DMS

SCLK0

RFS0

CMS

TFS0

BR

DT0

BG

DR0

BGH

IDMA PORT

PWD

IRD/D6

PWDACK

IWR/D7

IS/D4

IAL/D5

IACK/D3

IAD15–0

–10–

REV. 0

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