ADSP-2187LKSTZ-210 Analog Devices Inc, ADSP-2187LKSTZ-210 Datasheet - Page 11

ADSP-2187LKSTZ-210

Manufacturer Part Number

ADSP-2187LKSTZ-210

Description

IC DSP CONTRLR 16BIT 100-TQFP

Manufacturer

Analog Devices Inc

Series

ADSP-21xxr

Type

Fixed Pointr

Datasheet

1.ADSP-2184LBSTZ-160.pdf (48 pages)

Specifications of ADSP-2187LKSTZ-210

Interface

Host Interface, Serial Port

Clock Rate

52MHz

Non-volatile Memory

External

On-chip Ram

160kB

Voltage - I/o

3.30V

Voltage - Core

3.30V

Operating Temperature

0°C ~ 70°C

Mounting Type

Surface Mount

Package / Case

100-TQFP, 100-VQFP

Device Core Size

16b

Format

Fixed Point

Clock Freq (max)

52.5MHz

Mips

52.5

Device Input Clock Speed

52.5MHz

Ram Size

160KB

Program Memory Size

Not RequiredKB

Operating Supply Voltage (typ)

3.3V

Operating Supply Voltage (min)

Operating Supply Voltage (max)

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

Lead free / RoHS Compliant

Other names

ADSP-2187LKSTZ210

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See

flag and composite control register and the system

control register.

Byte Memory Select

The ADSP-218xL’s BMS disable feature combined with the

CMS pin allows use of multiple memories in the byte memory

space. For example, an EPROM could be attached to the BMS

select, and a flash memory could be connected to CMS. Because

at reset BMS is enabled, the EPROM would be used for booting.

After booting, software could disable BMS and set the CMS sig-

nal to respond to BMS, enabling the flash memory.

Byte Memory

The byte memory space is a bidirectional, 8-bit-wide,

external memory space used to store programs and data. Byte

memory is accessed using the BDMA feature. The byte memory

space consists of 256 pages, each of which is 16K

The byte memory space on the ADSP-218xL series supports

read and write operations as well as four different data formats.

The byte memory uses data bits 15–8 for data. The byte mem-

ory uses data bits 23–16 and address bits 13–0 to create a 22-bit

address. This allows up to a 4 megabit

or RAM to be used without glue logic. All byte memory accesses

are timed by the BMWAIT register.

SPO RT0 ENABL E

0 = DISABL E

1 = ENABL E

RESERVED

N OTE: RESERVED BITS ARE SHO WN O N A GRAY FIELD . THESE B ITS

R ESERVED

SPO RT1 C ONF IGURE

0 = FI, FO , IRQ0, IRQ1, SCLK

1 = SPORT1

Figure 9

15 14 13 12 11 10

15 14 13 12 11 10 9

SET T O 0

SPORT 1 ENABLE

0 = DISABLE

1 = ENABLE

Figure 9. Programmable Flag and Composite Control Register

BMWAIT

SHOUL D ALW AYS BE WR ITTEN W ITH Z EROS.

PROGRAMMABLE FLAG AND COMPOSITE

and

(WHERE BIT: 11-IOM, 10-BM, 9-DM, 8-PM)

Figure 10

Figure 10. System Control Register

CMSSEL

0 = DISABLE CMS

1 = ENABLE CMS

SELECT CONTROL

SYSTEM CONTROL

RESERVED,ALW AYS

SET TO 0

for illustration of the programmable

DISABLE BMS

0 = ENABL E BMS

1 = DISAB LE BMS

PFTYPE

0 = INPUT

1 = OUTPUT

8 (32 megabit) ROM

PW AIT

PRO GRAM MEMOR Y

W AIT ST ATES

ADSP-2184L/ADSP-2185L/ADSP-2186L/ADSP-2187L

Rev. C | Page 11 of 48 | January 2008

8 bits.

DM(0x3FE6)

DM(0x3F FF)

Byte Memory DMA (BDMA, Full Memory Mode)

The byte memory DMA controller

and storing of program instructions and data using the byte

memory space. The BDMA circuit is able to access the byte

memory space while the processor is operating normally and

steals only one DSP cycle per 8-, 16-, or 24-bit word transferred.

The BDMA circuit supports four different data formats that are

selected by the BTYPE register field. The appropriate number of

8-bit accesses are done from the byte memory space to build the

word size selected.

the BDMA circuit.

Table 7. Data Formats

Unused bits in the 8-bit data memory formats are filled with 0s.

The BIAD register field is used to specify the starting address for

the on-chip memory involved with the transfer. The 14-bit

BEAD register specifies the starting address for the external byte

memory space. The 8-bit BMPAGE register specifies the start-

ing page for the external byte memory space. The BDIR register

field selects the direction of the transfer. Finally, the 14-bit

BWCOUNT register specifies the number of DSP words to

transfer and initiates the BDMA circuit transfers.

BDMA accesses can cross page boundaries during sequential

addressing. A BDMA interrupt is generated on the completion

of the number of transfers specified by the BWCOUNT register.

The BWCOUNT register is updated after each transfer so it can

be used to check the status of the transfers. When it reaches

zero, the transfers have finished and a BDMA interrupt is gener-

ated. The BMPAGE and BEAD registers must not be accessed

by the DSP during BDMA operations. The source or destination

of a BDMA transfer is always on-chip program or data memory.

When the BWCOUNT register is written with a nonzero value

the BDMA circuit starts executing byte memory accesses with

wait states set by BMWAIT. These accesses continue until the

count reaches zero. When enough accesses have occurred to

BTYPE

15 14 13 12 11 10

BMPAGE

Internal Memory

Space

Program memory

Data memory

Figure 11. BDMA Control Register

Table 7

BDMA CONTROL

(SEE TABLE 12)

shows the data formats supported by

OVERLAY

BDMA

BITS

(Figure

Word Size

BCR

0 = RUN DURING BDMA

1 = HALT DURING BDMA

11) allows loading

BTYPE

BDIR

0 = LOAD FROM BM

1 = STORE TO BM

Alignment

Full word

MSBs

LSBs

DM (0x3FE3)

ADSP-2187LKSTZ-210 Analog Devices Inc, ADSP-2187LKSTZ-210 Datasheet - Page 11

ADSP-2187LKSTZ-210

Specifications of ADSP-2187LKSTZ-210

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