adsp-21266skstz-2b Analog Devices, Inc., adsp-21266skstz-2b Datasheet - Page 12

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)

Available stocks

Company

Part Number

Manufacturer

Quantity

Price

Company:

Bonase Electronics (HK) Co., Limited

Part Number:

ADSP-21266SKSTZ-2B

Manufacturer:

SUMIDA

Quantity:

3 000

Company:

BOSTOCK HK LIMITED

Part Number:

ADSP-21266SKSTZ-2B

Manufacturer:

Quantity:

1 000

Company:

Meier Automation Equipment Co., Limited

Part Number:

ADSP-21266SKSTZ-2B

Manufacturer:

ADI/亚德诺

Quantity:

20 000

Current page: 12 of 48
Download datasheet (2Mb)

ADSP-21261/ADSP-21262/ADSP-21266

PIN FUNCTION DESCRIPTIONS

The ADSP-2126x pin definitions are listed below. Inputs identi

fied as synchronous (S) must meet timing requirements with

respect to CLKIN (or with respect to TCK for TMS, TDI).

Inputs identified as asynchronous (A) can be asserted asynchro

nously to CLKIN (or to TCK for TRST). Tie or pull unused

inputs to V

Table 6. Pin Descriptions

AD15–0

ALE

FLAG3–0

DAI_P20–1

DDEXT

or GND, except for the following:

Type

I/O/T

I/O/A

I/O/T

State During and

After Reset

Rev. 0.1 silicon—

AD15–0 pins are

driven low both

during and after

reset.

Rev. 0.2 silicon—

AD15–0 pins are

three-stated and

pulled high both

during and after

reset.

Output only, driven

high

Output only, driven

high

Output only, driven

low

Three-state

Three-state with

programmable

pull-up

Rev. E | Page 12 of 48 | July 2008

Function

Parallel Port Address/Data. The parallel port and its corresponding DMA unit output

addresses and data for peripherals on these multiplexed pins. The multiplex state is deter

mined by the ALE pin. The parallel port can operate in either 8-bit or 16-bit mode. Each

AD pin has a 22.5 kΩ internal pull-up resistor. See

details of the AD pin operation.

For 8-bit mode: ALE is automatically asserted whenever a change occurs in the upper 16

external address bits, A23–8; ALE is used in conjunction with an external latch to retain

the values of the A23–8.

For 16-bit mode: ALE is automatically asserted whenever a change occurs in the address

bits, A15–0; ALE is used in conjunction with an external latch to retain the values of the

A15–0. To use these pins as flags (FLAG15–0), set (= 1) Bit 20 of the SYSCTL register and

disable the parallel port. See

the flag pins. When configured in the IDP_PDAP_CTL register, the IDP Channel 0 can use

these pins for parallel input data.

Parallel Port Read Enable. RD is asserted low whenever the DSP reads 8-bit or

16-bit data from an external memory device. When AD15–0 are flags, this pin remains

deasserted.

Parallel Port Write Enable. WR is asserted low whenever the DSP writes 8-bit or 16-bit

data to an external memory device. When AD15–0 are flags, this pin remains deasserted.

Parallel Port Address Latch Enable. ALE is asserted whenever the DSP drives a new

address on the parallel port address pin. On reset, ALE is active high. However, it can be

reconfigured using software to be active low. When AD15–0 are flags, this pin remains

deasserted.

Flag Pins. Each FLAG pin is configured via control bits as either an input or output. As an

input, it can be tested as a condition. As an output, it can be used to signal external

peripherals. These pins can be used as an SPI interface slave select output during SPI

mastering. These pins are also multiplexed with the IRQx and the TIMEXP signals.

In SPI master boot mode, FLAG0 is the slave select pin that must be connected to an SPI

EPROM. FLAG0 is configured as a slave select during SPI master boot. When Bit 16 is set

(= 1) in the SYSCTL register, FLAG0 is configured as IRQ0.

When Bit 17 is set (= 1) in the SYSCTL register, FLAG1 is configured as IRQ1.

When Bit 18 is set (= 1) in the SYSCTL register, FLAG2 is configured as IRQ2.

When Bit 19 is set (= 1) in the SYSCTL register, FLAG3 is configured as TIMEXP, which

indicates that the system timer has expired.

Digital Audio Interface Pins. These pins provide the physical interface to the SRU. The

SRU configuration registers define the combination of on-chip peripheral inputs or

outputs connected to the pin and to the pin’s output enable. The configuration registers

of these peripherals then determine the exact behavior of the pin. Any input or output

signal present in the SRU can be routed to any of these pins. The SRU provides the

connection from the serial ports, input data port, precision clock generators, and timers

to the DAI_P20–1 pins. These pins have internal 22.5 kΩ pull up resistors which are

enabled on reset. These pull-ups can be disabled in the DAI_PIN_PULLUP register.

The following symbols appear in the Type column of

A = asynchronous, G = ground, I = input, O = output,

P = power supply, S = synchronous, (A/D) = active drive,

(O/D) = open-drain, and T = three-state.

DAI_Px, SPICLK, MISO, MOSI, EMU, TMS,TRST, TDI

and AD15–0 (NOTE: These pins have internal pull-up

resistors.)

Table 7 on Page 15

for a list of how the AD15–0 pins map to

Address Data Modes on Page 15

Table

for

adsp-21266skstz-2b Analog Devices, Inc., adsp-21266skstz-2b Datasheet - Page 12

adsp-21266skstz-2b

Available stocks

Related parts for adsp-21266skstz-2b