ADDS-BF533-EZLITE Analog Devices Inc, ADDS-BF533-EZLITE Datasheet - Page 14

ADDS-BF533-EZLITE

Manufacturer Part Number

ADDS-BF533-EZLITE

Description

Manufacturer

Analog Devices Inc

Datasheet

1.ADDS-BF533-EZLITE.pdf (60 pages)

Specifications of ADDS-BF533-EZLITE

Significant Other Parts

ADV7183 Video Decode

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ADSP-BF531/ADSP-BF532/ADSP-BF533

frequency. The capacitor and resistor values shown in

are typical values only. The capacitor values are dependent upon

the crystal manufacturer's load capacitance recommendations

and the physical PCB layout. The resistor value depends on the

drive level specified by the crystal manufacturer. System designs

should verify the customized values based on careful investiga

tion on multiple devices over the allowed temperature range.

A third-overtone crystal can be used at frequencies above

25 MHz. The circuit is then modified to ensure crystal operation

only at the third overtone, by adding a tuned inductor circuit as

shown in

As shown in

peripheral clock (SCLK) are derived from the input clock

(CLKIN) signal. An on-chip PLL is capable of multiplying the

CLKIN signal by a user programmable 0.5× to 64× multiplica

tion factor (bounded by specified minimum and maximum

VCO frequencies). The default multiplier is 10×, but it can be

modified by a software instruction sequence. On-the-fly

frequency changes can be effected by simply writing to the

PLL_DIV register.

All on-chip peripherals are clocked by the system clock (SCLK).

The system clock frequency is programmable by means of the

SSEL3–0 bits of the PLL_DIV register. The values programmed

into the SSEL fields define a divide ratio between the PLL output

(VCO) and the system clock. SCLK divider values are 1 through

15.

Table 6. Example System Clock Ratios

The maximum frequency of the system clock is f

ratio must be chosen to limit the system clock frequency to its

maximum of f

without any PLL lock latencies by writing the appropriate values

Signal Name

SSEL3–0

0001

0011

1010

Table 6

CLKIN

Figure

REQUI RES PLL SEQ UENCING

illustrates typical system clock ratios.

Figure

“FI NE” ADJUSTMENT

Figure 9. Frequency Modification Methods

SCLK

0.5× to 64×

Divider Ratio

VCO/SCLK

1:1

3:1

10:1

. The SSEL value can be changed dynamically

PLL

9, the core clock (CCLK) and system

SCLK ≤ 133 MHz

SCLK ≤ CCLK

VCO

Example Frequency Ratios

(MHz)

VCO

100

400

500

“CO ARSE” ADJUSTMENT

÷ 1 to 15

÷ 1, 2, 4, 8

ON-THE-FLY

SCLK

100

133

. The divisor

Rev. E | Page 14 of 60 | July 2007

Figure 8

CCLK

SCLK

to the PLL divisor register (PLL_DIV). When the SSEL value is

changed, it will affect all the peripherals that derive their clock

signals from the SCLK signal.

The core clock (CCLK) frequency can also be dynamically

changed by means of the CSEL1–0 bits of the PLL_DIV register.

Supported CCLK divider ratios are 1, 2, 4, and 8, as shown in

Table

fast core frequency modifications.

Table 7. Core Clock Ratios

BOOTING MODES

The ADSP-BF531/ADSP-BF532/ADSP-BF533 processor has

two mechanisms (listed in

internal L1 instruction memory after a reset. A third mode is

provided to execute from external memory, bypassing the boot

sequence.

Table 8. Booting Modes

The BMODE pins of the reset configuration register, sampled

during power-on resets and software-initiated resets, imple

ment the following modes:

Signal Name

CSEL1–0

BMODE1–0

• Execute from 16-bit external memory – Execution starts

• Boot from 8-bit or 16-bit external flash memory – The flash

• Boot from SPI serial EEPROM/flash (8-, 16-, or 24-bit

from address 0x2000 0000 with 16-bit packing. The boot

ROM is bypassed in this mode. All configuration settings

are set for the slowest device possible (3-cycle hold time;

15-cycle R/W access times; 4-cycle setup).

boot routine located in boot ROM memory space is set up

using asynchronous Memory Bank 0. All configuration set

tings are set for the slowest device possible (3-cycle hold

time; 15-cycle R/W access times; 4-cycle setup).

addressable, or Atmel AT45DB041, AT45DB081, or

AT45DB161) – The SPI uses the PF2 output pin to select a

single SPI EEPROM/flash device, submits a read command

and successive address bytes (0x00) until a valid 8-, 16-, or

7. This programmable core clock capability is useful for

Divider Ratio

VCO/CCLK

1:1

2:1

4:1

8:1

Boot from 8-bit or 16-bit FLASH

Boot from serial master connected to SPI

Boot from serial slave EEPROM /flash (8-,16-,

Description

Execute from 16-bit external memory (bypass

boot ROM)

or 24-bit address range, or Atmel AT45DB041,

AT45DB081, or AT45DB161serial flash)

Table

Example Frequency Ratios

(MHz)

VCO

300

400

200

8) for automatically loading

CCLK

300

150

100