adsp-21266skstz-2b Analog Devices, Inc., adsp-21266skstz-2b Datasheet - Page 13

adsp-21266skstz-2b

Manufacturer Part Number

adsp-21266skstz-2b

Description

Sharc Embedded Processor

Manufacturer

Analog Devices, Inc.

Datasheet

1.ADSP-21266SKSTZ-2B.pdf (48 pages)

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Table 6. Pin Descriptions (Continued)

SPICLK

SPIDS

MOSI

MISO

BOOT_CFG1–0

CLKIN

XTAL

Type

I/O

I/O (O/D)

State During and

After Reset

Three-state with

pull-up enabled,

driven high in SPI-

master boot mode

Input only

Three-state with

pull-up enabled,

driven low in SPI-

master boot mode

Three-state with

pull-up enabled

Input only

Output only

Rev. E | Page 13 of 48 | July 2008

Function

Serial Peripheral Interface Clock Signal. Driven by the master, this signal controls the

rate at which data is transferred. The master can transmit data at a variety of baud rates.

SPICLK cycles once for each bit transmitted. SPICLK is a gated clock that is active during

data transfers, only for the length of the transferred word. Slave devices ignore the serial

clock if the slave select input is driven inactive (HIGH). SPICLK is used to shift out and shift

in the data driven on the MISO and MOSI lines. The data is always shifted out on one clock

edge and sampled on the opposite edge of the clock. Clock polarity and clock phase

relative to data are programmable into the SPICTL control register and define the transfer

format. SPICLK has a 22.5 kΩ internal pull-up resistor. If SPI master boot mode is selected,

MOSI and SPICLK pins are driven during reset. These pins are not three-stated during reset

in SPI master boot mode.

Serial Peripheral Interface Slave Device Select. An active low signal used to select the

DSP as an SPI slave device. This input signal behaves like a chip select, and is provided by

the master device for the slave devices. In multimaster mode, the DSP’s SPIDS signal can

be driven by a slave device to signal to the DSP (as SPI master) that an error has occurred,

as some other device is also trying to be the master device. If asserted low when the

device is in master mode, it is considered a multimaster error. For a single master,

multiple-slave configuration where flag pins are used, this pin must be tied or pulled high

to V

master ADSP-2126x’s flag pins can be used to drive the SPIDS signal on the ADSP-2126x

SPI slave device.

SPI Master Out Slave In. If the ADSP-2126x is configured as a master, the MOSI pin

becomes a data transmit (output) pin, transmitting output data. If the ADSP-2126x is

configured as a slave, the MOSI pin becomes a data receive (input) pin, receiving input

data. In an ADSP-2126x SPI interconnection, the data is shifted out from the MOSI output

pin of the master and shifted into the MOSI input(s) of the slave(s). MOSI has a 22.5 kΩ

internal pull-up resistor. If SPI master boot mode is selected, MOSI and SPICLK pins are

driven during reset. These pins are not three-stated during reset in SPI master boot mode.

SPI Master In Slave Out. If the ADSP-2126x is configured as a master, the MISO pin

becomes a data receive (input) pin, receiving input data. If the ADSP-2126x is configured

as a slave, the MISO pin becomes a data transmit (output) pin, transmitting output data.

In an ADSP-2126x SPI interconnection, the data is shifted out from the MISO output pin

of the slave and shifted into the MISO input pin of the master. MISO has a 22.5 kΩ internal

pull-up resistor. MISO can be configured as O/D by setting the OPD bit in the SPICTL

Note: Only one slave is allowed to transmit data at any given time. To enable broadcast

transmission to multiple SPI slaves, the DSP’s MISO pin can be disabled by setting (=1) Bit

5 (DMISO) of the SPICTL register.

Boot Configuration Select. Selects the boot mode for the DSP. The BOOT_CFG pins must

be valid before reset is asserted. See

modes.

Local Clock In. Used in conjunction with XTAL. CLKIN is the ADSP-2126x clock input. It

configures the ADSP-2126x to use either its internal clock generator or an external clock

source. Connecting the necessary components to CLKIN and XTAL enables the internal

clock generator. Connecting the external clock to CLKIN while leaving XTAL unconnected

configures the ADSP-2126x to use the external clock source such as an external clock

oscillator. The core is clocked either by the PLL output or this clock input depending on

the CLK_CFG1–0 pin settings. CLKIN should not be halted, changed, or operated below

the specified frequency.

Crystal Oscillator Terminal. Used in conjunction with CLKIN to drive an external crystal.

DDEXT

on the master device. For ADSP-2126x to ADSP-2126x SPI interaction, any of the

ADSP-21261/ADSP-21262/ADSP-21266

Table 8 on Page 15

for a description of the boot

adsp-21266skstz-2b Analog Devices, Inc., adsp-21266skstz-2b Datasheet - Page 13

adsp-21266skstz-2b

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