SPAKDSP303AG100 Freescale Semiconductor, SPAKDSP303AG100 Datasheet - Page 174

SPAKDSP303AG100

Manufacturer Part Number

SPAKDSP303AG100

Description

IC DSP 24BIT 100MHZ 144-LQFP

Manufacturer

Freescale Semiconductor

Series

DSP563xxr

Type

Fixed Pointr

Datasheets

1.DSP56303AG100.pdf (108 pages)

2.SPAKDSP303AG100.pdf (112 pages)

3.SPAKDSP303AG100.pdf (292 pages)

Specifications of SPAKDSP303AG100

Interface

Host Interface, SSI, SCI

Clock Rate

100MHz

Non-volatile Memory

ROM (576 B)

On-chip Ram

24kB

Voltage - I/o

3.30V

Voltage - Core

3.30V

Operating Temperature

-40°C ~ 100°C

Mounting Type

Surface Mount

Package / Case

144-LQFP

Device Core Size

24b

Clock Freq (max)

100MHz

Mips

100

Device Input Clock Speed

100MHz

Ram Size

24KB

Operating Supply Voltage (typ)

3.3V

Operating Supply Voltage (min)

Operating Supply Voltage (max)

3.6V

Operating Temp Range

-40C to 100C

Operating Temperature Classification

Industrial

Mounting

Surface Mount

Pin Count

144

Package Type

LQFP

Lead Free Status / RoHS Status

Lead free / RoHS Compliant

Available stocks

Company

Part Number

Manufacturer

Quantity

Price

Company:

BOSTOCK HK LIMITED

Part Number:

SPAKDSP303AG100

Manufacturer:

Freescale Semiconductor

Quantity:

10 000

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Serial Communication Interface (SCI)

8.4 SCI Initialization

The SCI is initialized as follows:

If interrupts are to be used, the signals must be selected, and global interrupts must be enabled

and unmasked before the SCI can operate. The order does not matter; any one of these three

requirements for interrupts can enable the SCI, but the interrupts should be unmasked last (that is,

I[1–0] bits in the Status Register (SR) should be changed last). Synchronous applications usually

require exact frequencies, so the crystal frequency must be chosen carefully. An alternative to

selecting the system clock to accommodate the SCI requirements is to provide an external clock

to the SCI. When the SCI is configured in Synchronous mode, internal clock, and all the SCI pins

are simultaneously enabled, an extra pulse of one DSP clock length is provided on the

There are two workarounds for this issue:

Following is an example of one way to initialize the SCI:

Note:

8-6

Enable an SCI pin other than

In the next instruction, enable the remaining SCI pins, including the

Ensure that the SCI is in its individual reset state (PCRE = $0). Use a hardware

signal or software RESET instruction.

Program the SCI control registers.

Configure at least one SCI signal as an SCI signal.

Ensure that the SCI is in its individual reset state (PCRE = $0).

Configure the control registers (SCR, SCCR) according to the operating mode, but do

not enable transmitter (TE = 0) or receiver (RE = 0).

Enable the SCI by setting the PCRE bits according to which signals are used during

operation.

If transmit interrupt is not used, write data to the transmitter.

Enable transmitters (TE = 1) and receiver (RE = 1) according to use.

It is now possible to set the interrupts enable bits that are used during the operation. No

interrupt occurs yet.

If transmitter interrupt enable is set, an interrupt is issued and the interrupt handler

should write data into the transmitter. The DMA channel services the SCI transmit

request if it is programmed to service the SCI transmitter.

DSP56303 User’s Manual, Rev. 2

SCLK

Freescale Semiconductor

pin.

SCLK

RESET

pin.

SPAKDSP303AG100 Freescale Semiconductor, SPAKDSP303AG100 Datasheet - Page 174

SPAKDSP303AG100

Specifications of SPAKDSP303AG100

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