DSP56001FE33 MOTOROLA [Motorola, Inc], DSP56001FE33 Datasheet - Page 6

DSP56001FE33

Manufacturer Part Number

DSP56001FE33

Description

24-Bit General Purpose Digital Signal Processor

Manufacturer

MOTOROLA [Motorola, Inc]

Datasheet

1.DSP56001FE33.pdf (64 pages)

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Part Number:

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Power Considerations

The average chip-junction temperature, T

Where:

For most applications P

between P

Solving equations (1) and (2) for K gives:

Where K is a constant pertaining to the particular part. K can be determined from equation (2) by measuring P

known T

heat flow from the semiconductor junction to the package (case) surface (

terms are related by the equation:

management techniques as heat sinks, ambient air cooling, and thermal convection. Thus, good thermal management on the part of

the user can significantly reduce C

lower semiconductor junction temperature. Values for thermal resistance presented in this document, unless estimated, were derived

using the procedure described in Motorola Reliability Report 7843, “Thermal Resistance Measurement Method for MC68XX

Microcomponent Devices”, and are provided for design purposes only. Thermal measurements are complex and dependent on

procedure and setup. User-derived values for thermal resistance may differ.

Layout Practices

Each Vcc pin on the DSP56001 should be provided with a low-impedance path to + 5 volts. Each GND pin should likewise be provided

with a low-impedance path to ground. The power supply pins drive four distinct groups of logic on chip. They are:

. The total thermal resistance of a package (

K = P

is device related and cannot be influenced by the user. However, C

INT

I/O

= T

= Ambient Temperature, C

= P

= K/(T

= Package Thermal Resistance, Junction-to-Ambient, C/W

= Power Dissipation on Input and Output Pins - User Determined

= I

. Using this value of K, the values of P

INT

+ (P

and T

+ P

+ C

+ 273 C)

Vcc, Watts - Chip Internal Power

+ 273 C) +

35, 36, 128, 129 33, 34, 130, 131

63, 64

100, 101

12, 13

I/O

G12,C6

(if P

Vcc

)

I/O

is neglected) is:

<< P

Power and Ground Connections for CQFP and PQFP

DSP56001 Electrical Characteristics

INT

55, 56, 73, 74

90, 91, 111, 112

23, 24

and can be neglected; however, P

so that

G11,B7

L6,L9

D3,J3

E11

GND

Power and Ground Connections for PGA

GND

, in C can be obtained from:

approximately equals

and T

) can be separated into two components,

Internal Logic supply pins

Address bus output buffer supply pins

Data bus output buffer supply pins

Port B and C output buffer supply pins

Internal Logic supply pins

Address bus output buffer supply pins

Data bus output buffer supply pins

can be obtained by solving equations (1) and (2) iteratively for any value of

Function

I/O

is user dependent and can be minimized by such thermal

. Substitution of

+ P

) and from the case to the outside ambient (C

INT

(1)

(3)

(2)

(4)

must not exceed P

for

and C

in equation (1) will result in a

. An appropriate relationship

, representing the barrier to

(at equilibrium) for a

DSP56001

). These

DSP56001FE33 MOTOROLA [Motorola, Inc], DSP56001FE33 Datasheet - Page 6

DSP56001FE33

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