DSP56301PW80B1 Freescale Semiconductor, DSP56301PW80B1 Datasheet - Page 14

DSP56301PW80B1

Manufacturer Part Number

DSP56301PW80B1

Description

Manufacturer

Freescale Semiconductor

Datasheet

1.DSP56301PW80B1.pdf (124 pages)

Specifications of DSP56301PW80B1

Device Core Size

24b

Format

Fixed Point

Clock Freq (max)

80MHz

Mips

Device Input Clock Speed

80MHz

Ram Size

24KB

Program Memory Size

Not RequiredKB

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

208

Package Type

TQFP

Lead Free Status / Rohs Status

Not Compliant

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Signals/Connections

1.7 Host Interface (HI32)

The Host Interface (HI32) provides fast parallel data to a 32-bit port directly connected to the host bus. The HI32

supports a variety of standard buses and directly connects to a PCI bus and a number of industry-standard

microcomputers, microprocessors, DSPs, and DMA hardware.

1.7.1

Careful synchronization is required when the system reads multiple-bit registers that are written by another

asynchronous system. This is a common problem when two asynchronous systems are connected (as they are in the

Host port). The considerations for proper operation are discussed in Table 1-10.

1-10

MODD

IRQD

RESET

Asynchronous read of

receive byte registers

Asynchronous write to

transmit byte registers

Signal Name

Action

Host Port Usage Considerations

Input

Type

When reading the receive byte registers, Receive register High (RXH), Receive register Middle (RXM), or

Receive register Low (RXL), use interrupts or poll the Receive register Data Full (RXDF) flag that indicates

data is available. This assures that the data in the receive byte registers is valid.

Do not write to the transmit byte registers, Transmit register High (TXH), Transmit register Middle (TXM), or

Transmit register Low (TXL), unless the Transmit register Data Empty (TXDE) bit is set, indicating that the

transmit byte registers are empty. This guarantees that the transmit byte registers transfer valid data to the

Host Receive (HRX) register.

Table 1-9.

Table 1-10.

Input

State During

Reset

DSP56301 Technical Data, Rev. 10

Interrupt and Mode Control (Continued)

Host Port Usage Considerations

Mode Select D

Selects the initial chip operating mode during hardware reset and becomes a

level-sensitive or negative-edge-triggered, maskable interrupt request input

IRQD during normal instruction processing. MODA, MODB, MODC, and

MODD select one of sixteen initial chip operating modes, latched into the OMR

when the RESET signal is deasserted.

External Interrupt Request D

Internally synchronized to CLKOUT. If IRQD is asserted synchronous to

CLKOUT, multiple processors can be re-synchronized using the WAIT

instruction and asserting IRQD to exit the Wait state. If the processor is in the

Stop stand-by state and IRQD is asserted, the processor exits the Stop state.

These inputs are 5 V tolerant.

Reset

Deassertion of RESET is internally synchronized to the clock out (CLKOUT).

When asserted, the chip is placed in the Reset state and the internal phase

generator is reset. The Schmitt-trigger input allows a slowly rising input (such

as a capacitor charging) to reset the chip reliably. If RESET is deasserted

synchronous to CLKOUT, exact start-up timing is guaranteed, allowing

multiple processors to start synchronously and operate together in “lock-step.”

When the RESET signal is deasserted, the initial chip operating mode is

latched from the MODA, MODB, MODC, and MODD inputs. The RESET

signal must be asserted after power-up.

This input is 5 V tolerant.

Description

Signal Description

Freescale Semiconductor

DSP56301PW80B1 Freescale Semiconductor, DSP56301PW80B1 Datasheet - Page 14

DSP56301PW80B1

Specifications of DSP56301PW80B1

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