ADSP-2188MKST-300 Analog Devices Inc, ADSP-2188MKST-300 Datasheet - Page 17

ADSP-2188MKST-300

Manufacturer Part Number

ADSP-2188MKST-300

Description

IC DSP CONTROLLER 16BIT 100LQFP

Manufacturer

Analog Devices Inc

Series

ADSP-21xxr

Type

Fixed Pointr

Datasheet

1.ADSP-2188MKSTZ-300.pdf (40 pages)

Specifications of ADSP-2188MKST-300

Rohs Status

RoHS non-compliant

Interface

Host Interface, Serial Port

Clock Rate

75MHz

Non-volatile Memory

External

On-chip Ram

256kB

Voltage - I/o

3.30V

Voltage - Core

2.50V

Operating Temperature

0°C ~ 70°C

Mounting Type

Surface Mount

Package / Case

100-LQFP

Device Core Size

16b

Architecture

Enhanced Harvard

Format

Fixed Point

Clock Freq (max)

75MHz

Mips

Device Input Clock Speed

75MHz

Ram Size

256KB

Operating Supply Voltage (typ)

2.75/3.3V

Operating Supply Voltage (min)

2.61V

Operating Supply Voltage (max)

2.89/3.6V

Operating Temp Range

0C to 70C

Operating Temperature Classification

Commercial

Mounting

Surface Mount

Pin Count

100

Package Type

LQFP

Lead Free Status / Rohs Status

Not Compliant

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In addition to the programmable flags, the ADSP-2188M has five

fixed-mode flags, FI, FO, FL0, FL1, and FL2. FL0–FL2 are

dedicated output flags. FI and FO are available as an alternate

configuration of SPORT1.

Note: Pins PF0, PF1, PF2, and PF3 are also used for device

configuration during reset.

Instruction Set Description

The ADSP-2188M assembly language instruction set has an

algebraic syntax that was designed for ease of coding and read-

ability. The assembly language, which takes full advantage of the

processor’s unique architecture, offers the following benefits:

• The algebraic syntax eliminates the need to remember cryptic

• Every instruction assembles into a single, 24-bit word that

• The syntax is a superset ADSP-2100 Family assembly lan-

• Sixteen condition codes are available. For conditional jump,

• Multifunction instructions allow parallel execution of an

DESIGNING AN EZ-ICE-COMPATIBLE SYSTEM

The ADSP-2188M has on-chip emulation support and an

ICE-Port, a special set of pins that interface to the EZ-ICE.

These features allow in-circuit emulation without replacing the

target system processor by using only a 14-pin connection from

the target system to the EZ-ICE. Target systems must have a

14-pin connector to accept the EZ-ICE’s in-circuit probe, a

14-pin plug.

Issuing the chip reset command during emulation causes the

DSP to perform a full chip reset, including a reset of its memory

mode. Therefore, it is vital that the mode pins are set correctly

PRIOR to issuing a chip reset command from the emulator user

interface. If a passive method of maintaining mode information is

being used (as discussed in Setting Memory Modes), it does not

matter that the mode information is latched by an emulator

reset. However, if the RESET pin is being used as a method of

setting the value of the mode pins, the effects of an emulator

reset must be taken into consideration.

One method of ensuring that the values located on the mode

pins are those desired is to construct a circuit like the one shown

in Figure 12. This circuit forces the value located on the Mode

A pin to logic high; regardless of whether it is latched via the

RESET or ERESET pin.

assembler mnemonics. For example, a typical arithmetic add

instruction, such as AR = AX0 + AY0, resembles a simple

equation.

can execute in a single instruction cycle.

guage and is completely source and object code compatible

with other family members. Programs may need to be relocated

to utilize on-chip memory and conform to the ADSP-2188M’s

interrupt vector and reset vector map.

call, return, or arithmetic instructions, the condition can

be checked and the operation executed in the same instruc-

tion cycle.

arithmetic instruction with up to two fetches or one write to

processor memory space during a single instruction cycle.

See the ADSP-2100 Family EZ-Tools data sheet for complete

information on ICE products.

The ICE-Port interface consists of the following ADSP-2188M

pins: EBR, EINT, EE, EBG, ECLK, ERESET, ELIN, EMS,

and ELOUT

These ADSP-2188M pins must be connected only to the EZ-ICE

connector in the target system. These pins have no function except

during emulation, and do not require pull-up or pull-down

resistors. The traces for these signals between the ADSP-2188M

and the connector must be kept as short as possible, no longer

than 3 inches.

The following pins are also used by the EZ-ICE: BR, BG,

RESET, and GND.

The EZ-ICE uses the EE (emulator enable) signal to take con-

trol of the ADSP-2185M in the target system. This causes the

processor to use its ERESET, EBR, and EBG pins instead of

the RESET, BR, and BG pins. The BG output is three-stated.

These signals do not need to be jumper-isolated in your system.

The EZ-ICE connects to your target system via a ribbon cable

and a 14-pin female plug. The female plug is plugged onto the

14-pin connector (a pin strip header) on the target board.

Target Board Connector for EZ-ICE Probe

The EZ-ICE connector (a standard pin strip header) is shown in

Figure 13. You must add this connector to your target board

design if you intend to use the EZ-ICE. Be sure to allow enough

room in your system to fit the EZ-ICE probe onto the 14-pin

connector.

KEY (NO PIN)

ELOUT

RESET

EBR

GND

EBG

TOP VIEW

PROGRAMMABLE I/O

MODE A/PFO

ERESET

RESET

ADSP-2188M

ERESET

EINT

ELIN

EMS

ECLK

ADSP-2188MKST-300 Analog Devices Inc, ADSP-2188MKST-300 Datasheet - Page 17

ADSP-2188MKST-300

Specifications of ADSP-2188MKST-300

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