NXP Semiconductors 56F8013 User Manual

56F8000
16-bit Digital Signal Controllers

freescale.com

56F8013

Demonstration Board User Guide

MC56F8013DBUG
Rev. 0
3/2005

TABLE OF CONTENTS

Table of Contents, Rev. 0

Freescale Semiconductor i
Preliminary

Preface vii

Chapter 1

Introduction

1.1 56F8013 Demonstration Board Architecture . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1-1

1.2 56F8013 Demonstration Board Connections . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1-2

Chapter 2

Technical Summary

2.1 56F8013. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2-2

2.2 RS-232 Serial Communications . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2-2

2.3 Debug LEDs . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2-3

2.4 Debug Support . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2-4

2.5 External Interrupts. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2-4

2.6 Reset . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2-5

2.7 Power Supply . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2-5

2.8 Daughter Card Connector . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2-6

2.9 Test Points. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2-7

Appendix A

56F8013 Demonstration Board Schematics

Appendix B

56F8013 Demonstration Board

Bill of Material

56F8013 Demonstration Board User Guide, Rev. 0

ii Freescale Semiconductor

Preliminary

List of Figures, Rev. 0

Freescale Semiconductor iii
Preliminary

1-1 Block Diagram of the 56F8013 Demonstration Board . . . . . . . . . . . . . . .1-2

1-2 Connecting the 56F8013 Demonstration Board Cables. . . . . . . . . . . . . . . 1-3

2-1 Diagram of the Debug LED Interface . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2-3

2-2 Schematic Diagram of the User Interrupt Interface . . . . . . . . . . . . . . . . . . 2-5

LIST OF FIGURES

56F8013 Demonstration Board User Guide, Rev. 0

iv Freescale Semiconductor

Preliminary

LIST OF TABLES

List of Tables, Rev. 0

Freescale Semiconductor v
Preliminary

2-1 RS-232 Serial Connector Description . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2-2

2-2 LED Control. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2-4

2-3 Daughter Card Connector Description. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2-6

56F8013 Demonstration Board User Guide, Rev. 0

vi Freescale Semiconductor

Preliminary

Preface, Rev. 0

Freescale Semiconductor vii
Preliminary

Preface

This manual describes the hardware on the 56F8013 Demonstration Board in detail.

Audience

This document is intended for application developers who are creating software for
devices using the Freescale 56F8013 part or a member of the 56F8000 family that is
compatible with this part.

Organization

This manual is organized into two chapters and two appendices.

• Chapter 1, Introduction, provides an overview of the Demo board and its
features.

• Chapter 2, Technical Summary, describes the 56F8013 Demonstration Board
hardware in detail.

• Appendix A, 56F8013 Demonstration Board Schematics, contains the
schematics of the 56F8013 Demonstration Board.

• Appendix B, 56F8013 Demonstration Board Bill of Material,

provides a list of

the materials used on the 56F8013 Demonstration Board.

Suggested Reading

More documentation on the 56F8013 Demonstration Board and the 56F8013 Demo kit
may be found at URL:

www. freescale.com

56F8013 Demonstration Board User Guide, Rev. 0

viii Freescale Semiconductor

Preliminary

Notation Conventions

This manual uses the following notational conventions:

Term or Value Symbol Examples Exceptions

Active High
Signals
(Logic One)

No special symbol
attached to the
signal name

A0

CLKO

Active Low
Signals
(Logic Zero)

Noted with an
overbar in text and
in most figures

WE

OE

In schematic drawings,
Active Low Signals may be
noted by a backslash: /WE

Hexadecimal
Values

Begin with a “$”
symbol

$0FF0

$80

Decimal Values No special symbol

attached to the
number

10
34

Binary Values Begin with the letter

“b” attached to the
number

b1010

b0011

Numbers Considered positive

unless specifically
noted as a negative
value

5

-10

Voltage is often shown as
positive: +3.3V

Blue Text Linkable on-line ...refer to Chapter 7, License

Bold Reference sources,

paths, emphasis

...see:

http://www.freescale.com/

Preface, Rev. 0

Freescale Semiconductor ix
Preliminary

Definitions, Acronyms, and Abbreviations

Definitions, acronyms and abbreviations for terms used in this document are defined below for
reference.

56F8013

Digital signal controller with motor control peripherals

A/D Analog-to-Digital; a method of converting Analog signals to Digital values

ADC Analog-to-Digital Converter; a peripheral on the 56F8013 part

DSC

Digital Signal Controller

EOnCE

Enhanced On-Chip Emulation; a debug bus and port which enables a designer
to create a low-cost hardware interface for a professional-quality debug
environment

Demo Board

Demonstration Board; a hardware platform which allows a customer to evaluate
the silicon and develop his application

GPIO

General Purpose Input and Output port on Freescale’s family of digital signal
controllers; does not share pin functionality with any other peripheral on the
chip and can only be set as an input, output, or level-sensitive interrupt input

IC

Integrated Circuit

JTAG

Joint Test Action Group; a bus protocol/interface used for test and debug

LED

Light Emitting Diode

LQFP

Low-profile Quad Flat Package

OnCE

TM

On-Chip Emulation, a debug bus and port created to allow a means for low-cost
hardware to provide a professional-quality debug environment

PCB

Printed Circuit Board

PWM

Pulse Width Modulation

SCI

Serial Communications Interface; a peripheral on Freescale’s family of digital
signal controllers

SPI

Serial Peripheral Interface; a peripheral on Freescale’s family of digital signal
controllers

56F8013 Demonstration Board User Guide, Rev. 0

x Freescale Semiconductor

Preliminary

References

The following sources were referenced to produce this manual:

[1] DSP56800E Reference Manual, DSP56800ERM, Freescale Semiconductor, Inc.

[2] 56F8000 Peripheral Reference Manual, MC56F8000RM, Freescale Semiconduc-

tor, Inc.

[3] 56F8013 Technical Data, MC56F8013, Freescale Semiconductor, Inc.

Introduction, Rev. 0

Freescale Semiconductor 1-1
Preliminary

Chapter 1
Introduction

The 56F8013 Demonstration Board is used to demonstrate the abilities of the 56F8013 digital
signal controller and to provide a hardware tool allowing the development of applications.

The 56F8013 Demonstration Board is an evaluation module board that includes a 56F8013 part,
RS-232 interface, user LEDs, user pushbutton switches and a daughter card connector. The
daughter card connector allows signal monitoring and expandability of user features.

The 56F8013 Demonstration Board is designed for the following purposes:

• Allowing new users to become familiar with the features of the 56800E architecture. The
tools and examples provided with the 56F8013 Demonstration Board facilitate evaluation
of the feature set and the benefits of the family.

• Serving as a platform for real-time software development. The tool suite enables the user
to develop and simulate routines, download the software to on-chip memory, run it, and
debug it using a debugger via the JTAG/Enhanced OnCE (EOnCE) port. The breakpoint
features of the EOnCE port enable the user to easily specify complex break conditions and
to execute user-developed software at full speed until the break conditions are satisfied.
The ability to examine and modify all user-accessible registers, memory and peripherals
through the EOnCE port greatly facilitates the task of the developer.

• Serving as a platform for hardware development. The hardware platform enables the user
to connect external hardware peripherals. The on-board peripherals can be disabled,
providing the user with the ability to reassign any and all of the processor's peripherals.
The EOnCE port's unobtrusive design means that all memory on the board and on the
processor is available to the user.

1.1 56F8013 Demonstration Board Architecture

The 56F8013 Demonstration Board facilitates the evaluation of various features present in the
56F8013 part. The 56F8013 Demonstration Board can be used to develop real-time software and
hardware products. The 56F8013 Demonstration Board provides the features necessary for a

56F8013 Demonstration Board User Guide, Rev. 0

1-2 Freescale Semiconductor

Preliminary

user to write and debug software, demonstrate the functionality of that software and interface
with the user's application-specific device(s). The 56F8013 Demonstration Board is flexible
enough to allow a user to fully exploit the 56F8013's features to optimize the performance of his
product, as shown in Figure 1-1.

Figure 1-1. Block Diagram of the 56F8013 Demonstration Board

1.2 56F8013 Demonstration Board Connections

An interconnection diagram is shown in Figure 1-2 for connecting the PC and the external +9.0V
DC power supply to the 56F8013 Demonstration Board.

56F8013

RESET

JTAG/EOnCE

SPI

SCI

Time r A

PWM

+3.3V & GND

+3.3VA & AGND

Daughter Card

Connector

IRQ Pushbuttons

JTAG

Connector

DSub
9-Pin

RS-232

Interface

Power Supply

+3.3V &+3.3VA

RESET Pushbutton

Debug LEDs

ADCA

ADCB

56F8013 Demonstration Board Connections

Introduction, Rev. 0

Freescale Semiconductor 1-3
Preliminary

Figure 1-2. Connecting the 56F8013 Demonstration Board Cables

Perform the following steps to connect the 56F8013 Demonstration Board cables:

1. Connect the parallel extension cable to the parallel port of the host computer.

2. Connect the other end of the parallel extension cable to the JTAG interface POD. Connect
the ribbon cable from the JTAG interface POD to J1, shown in Figure 1-2, on the
56F8013 Demonstration Board. This provides the connection which allows the host
computer to control the board.

3. Make sure that the external +9V DC, 450mA power supply is not plugged into a +120V
AC power source.

4. Connect the 2.1mm output power plug from the external power supply into P1, shown in

Figure 1-2, on the 56F8013 Demonstration Board.

5. Apply power to the external power supply. The green Power-ON LED, LED7, will
illuminate when power is correctly applied.

PC-compatible

Cable

Computer

Parallel Extension

External

+9V

Power

J1

P1

Connect cable

to Parallel/Printer port

with 2.1mm,
receptacle
connector

JTAG POD

56F8013
Demonstration
Board

56F8013 Demonstration Board User Guide, Rev. 0

1-4 Freescale Semiconductor

Preliminary

Technical Summary, Rev. 0

Freescale Semiconductor 2-1
Preliminary

Chapter 2
Technical Summary

The 56F8013 Demonstration Board is designed as a versatile development card using the
56F8013

processor, allowing the creation of real-time software and hardware products to support

a new generation of applications in servo and motor control, digital and wireless messaging,
digital answering machines, feature phones, modems, and digital cameras. The power of the
16-bit 56F8013 processor, combined with the on-board RS-232 interface and daughter card
connector, makes the 56F8013 Demonstration Board ideal for developing and implementing
many motor control algorithms, as well as for learning the architecture and instruction set of the
56F8013 processor.

The main features of the 56F8013 Demonstration Board, with board and schematic reference
designators, include:

• 56F8013, a 16-bit +3.3V digital signal controller operating at 60MHz [U1]

• Joint Test Action Group (JTAG) port interface connector, for an external debug Host
Target Interface [J1]

• RS-232 interface, for easy connection to a host processor [U2 and P3]

• Daughter Card connector, to allow the user to connect his own PWM, ADC, SCI, SPI or
GPIO-compatible peripheral to the digital signal controller [P2]

• On-board power regulation provided from an external +9V DC-supplied power input [P1]

• Light Emitting Diode (LED) power indicator [LED7]

• Six on-board real-time user debugging LEDs [LED1-6]

• Manual RESET push-button [S3]

• Manual interrupt #1 push-button [S1]

• Manual interrupt #2 push-button [S2]

56F8013 Demonstration Board User Guide, Rev. 0

2-2 Freescale Semiconductor

Preliminary

2.1 56F8013

The 56F8013 Demonstration Board uses a Freescale 56F8013 part, designated as U1 on the board
and in the schematics. This part will operate at a maximum external bus speed of 60MHz. A full
description of the 56F8013, including functionality and user information, is provided in these
documents:

• 56F8013 Technical Data Sheet, (MC56F8013): Electrical and timing specifications, pin
descriptions, device specific peripheral information and package descriptions

• 56F8000 Peripheral Reference Manual, (MC56F8000RM): Detailed description of
peripherals of the 56F8000 family of devices

• DSP56800E Reference Manual, (DSP56800ERM): Detailed description of the 56800E
family architecture, 16-bit core processor, and the instruction set

Refer to these documents for detailed information about chip functionality and operation. They
can be found on this URL:

www.freescale.com

2.2 RS-232 Serial Communications

The 56F8013 Demonstration Board provides an RS-232 interface by the use of an RS-232 level
converter, Sipex SP3220EUCY, designated as U2. Refer to the RS-232 schematic details in

Appendix A. The RS-232 level converter transitions the SCI port’s +3.3V signal levels to

RS-232-compatible signal levels and connects to the host’s serial port via connector P3. The SCI
ports signals, GPIOB6 and GPIOB7, can be disconnected from the RS-232 level converter by
cutting the JP1 and JP2 jumpers on the board. The pin-out of connector P2 is shown in Table 2-1.

.

Table 2-1. RS-232 Serial Connector Description

P3

Pin # Signal Pin # Signal

1 Jumper to 6 & 4 6 Jumper to 1 & 4

2TXD7 NC

3RXD8 NC

4 Jumper to 1 & 6 9 NC

5GND

Debug LEDs

Technical Summary, Rev. 0

Freescale Semiconductor 2-3
Preliminary

2.3 Debug LEDs

Six on-board Light-Emitting Diodes, (LEDs), are provided to allow real-time debugging for user
programs. These LEDs will allow the programmer to monitor program execution without having
to stop the program during debugging; refer to Figure 2-1. Table 2-2 describes the control of
each LED.

Setting GPIOA0, GPIOA1, GPIOA2, GPIOA3, GPIOA4, or GPIOA5 to a Logic One value will
turn on the associated LED.

Figure 2-1. Diagram of the Debug LED Interface

56F8013 INVERTING BUFFER

GPIOA0

GPIOA1

GPIOA2

GREEN LED

YELLOW LED

RED LED

+3.3V

GREEN LED

YELLOW LED

RED LED

GPIOA3

GPIOA4

GPIOA5

56F8013 Demonstration Board User Guide, Rev. 0

2-4 Freescale Semiconductor

Preliminary

2.4 Debug Support

A JTAG connector, J1, on the 56F8013 Demonstration Board allows the connection of an
external Host Target Interface for downloading programs and working with the 56F8013’s
registers. This connector is used to communicate with an external Host Target Interface, which
passes information and data back and forth with a host processor running a debugger program.

Table 2-3 shows the pin-out for this connector.

2.5 External Interrupts

Two on-board push-button switches are provided for external interrupt generation, as shown in

Figure 2-2. S1 allows the user to generate a hardware interrupt, IRQ #1, using GPIO Port B,

Bit 2. S2 allows the user to generate a hardware interrupt, IRQ #2, using GPIO Port B, Bit 3.
These two switches allow the user to generate interrupts for his user-specific programs.
Alternately, the user can use GPIO Port B, Bit 4 for IRQ #1. To accomplish this, cut the trace at
JP3 pins 1 and 2 and solder a jumper between JP3 pins 2 and 3. Also, the user can use GPIO
Port B, Bit 5 for IRQ #2. To accomplish this, cut the trace at JP4 pins 1 and 2 and solder a jumper
between JP4 pins 2 and 3.

Table 2-2. LED Control

Controlled by

User LED Color Signal

LED1 RED GPIO Port A, Bit 0

LED2 YELLOW GPIO Port A, Bit 1

LED3 GREEN GPIO Port A, Bit 2

LED4 RED GPIO Port A, Bit 3

LED5 YELLOW GPIO Port A, Bit 4

LED6 GREEN GPIO Port A, Bit 5

Power Supply

Technical Summary, Rev. 0

Freescale Semiconductor 2-5
Preliminary

Figure 2-2. Schematic Diagram of the User Interrupt Interface

2.6 Reset

Logic is provided on the 56F8013 to generate an internal Power-On RESET. Additional reset
logic is provided to support the RESET signal from the JTAG connector and the user RESET
push-button, S3; refer to the schematics in Appendix A.

2.7 Power Supply

The main power input to the 56F8013 Demonstration Board, +9V DC at 450mA, is through a

2.1mm coax power jack, P1. This input power passes through a reverse power-blocking diode to
provide a DC supply input for the +3.3V voltage regulator, U3. A 450mA power supply is
provided with the 56F8013 Demonstration Board; however, less than 200mA is required by the
Demo Board. The remaining current is available for custom control applications when connected
to the daughter card connector. The 56F8013 Demonstration Board provides +3.3V DC voltage
regulation for the processor, ADC, JTAG interface and supporting logic; refer to schematics in

Appendix A. Additional voltage regulation logic provides a low-noise +3.3V DC voltage to the

processor’s A/D peripheral. Power applied to the 56F8013 Demonstration Board is indicated
with a Power-ON LED, referenced as LED7.

56F8013

GPIOB2

GPIOB3

+3.3V

+3.3V

10K

10K

S1

S2

0.1µF

0.1µF

GPIOB4

GPIOB5

JP3

1

3

JP4

1

3

2

2

56F8013 Demonstration Board User Guide, Rev. 0

2-6 Freescale Semiconductor

Preliminary

2.8 Daughter Card Connector

The 56F8013 Demonstration Board contains a daughter card connector, P2, which contains the
processor’s peripheral port signals. The daughter card connector is used to connect a daughter
card or a user-specific daughter card to the processor’s peripheral port signals. The daughter card
connector is a 40-pin 0.1” pitch connector with signals for RESET, SPI, SCI, PWM, ADC and
GPIO ports. Table 2-3 shows the daughter card connector’s signal-to-pin assignments.

Table 2-3. Daughter Card Connector Description

P2

Pin # Signal Pin # Signal

1+3.3V2 NC

3 GND 4 GPIOA7 / RESET / V

PP

5 GPIOB7 / TXD / SCL 6 NC

7 GPIOB6 / RXD / SDA / CLKIN 8 NC

9 GPIOA0 / PWM0 10 GPIOC0 / ANA0

11 GPIOA1 / PWM1 12 GPIOC1 / ANA1

13 GPIOB4 / T0 / CLK0 14 GPIOC2 / V

REFH

/ ANA2

15 GPIOB5 / T1 / FAULT3 16 NC

17 GPIOB3 / MOSI / T3 18 GPIOC4 / ANB0

19 GPIOB2 / MISO / T2 20 GPIOC5 / ANB1

21 GPIOB0 / SCLK / SCL 22 GPIOC6 / V

REFL

/ ANB2

23 GPIOB1 / SS

/ SDA 24 NC

25 GPIOD0 / TDI 26 GPIOB1 / SS / SDA

27 GPIOD1 / TDO 28 GPIOB0 / SCLK / SCL

29 GPIOD2 / TCK 30 GPIOA2 / PWM2

31 GPIOD3 / TMS 32 GPIOA3 / PWM3

33 GPIOA6 / FAULT0 34 GPIOA4 / PWM4 / FAULT1 / T2

35 NC 36 GPIOA5 / PWM5 / FAULT2 / T3

37 NC 38 NC

39 NC 40 NC

Test Points

Technical Summary, Rev. 0

Freescale Semiconductor 2-7
Preliminary

2.9 Test Points

The 56F8013 Demonstration Board board has two test points:

• +3.3V, TP1

• Digital Ground (GND), TP2

56F8013 Demonstration Board User Guide, Rev. 0

2-8 Freescale Semiconductor

Preliminary

56F8013 Demonstration Board Schematics, Rev. 0

Freescale Semiconductor Appendix A-1
Preliminary

Appendix A
56F8013 Demonstration Board
Schematics

56F8013 Demonstration Board User Guide, Rev. 0

Appendix A-2 Freescale Semiconductor

Preliminary

Figure A-1. MC56F8013 PROCESSOR

A

A

B

B

C

C

D

D

E

E

4 4

3 3

2 2

1 1

Single trace

to GNDA

JTAG Connector

/TRST

DSCO Design

MC56F8013 Processor

MC56F8013DEMO.DSN

1.0

15Wednesday, December 08, 2004

A

Digital Signal Controller Operation

2100 East Elliot Road

Tempe, Arizona 85284

Title

Document

Date:

Size

Designer: Sheet of

Rev.

Number

(512) 895-7215 FAX: (480) 413-2510

ANA_0

ANA_1

ANA_2

ANB_0

ANB_1

ANB_2

TDO

/RESET

/DE

/DE

TDI

TDO

TCK

TMS

GNDA

GND

GND

GND

ANA_0

ANA_1

ANA_2

ANB_0

ANB_1

ANB_2

TMS

GND

TCK

/RESET

PA3

PA2

PA1

PB1

PA0

PB2

PB4

PB5

PB7

PA5

PA6

PA4

PB0

PB3

PB6

ANA0

ANA1

ANA2

ANB0

ANB1

ANB2TDO

TDI

TCK

TMS

+3.3VA

+3.3VA

+3.3V

+3.3V

+3.3V

+3.3V

C16

100pF

C1

2.2uF

C15

0.001uF

C4

0.1uF

C17

0.0022uF

C18

0.0022uF

C19

0.0022uF

R1

100

R2

100

R3

100

R5

100

R4

100

C22

0.0022uF

C20

0.0022uF

R6

100

C21

0.0022uF

L2

FERRITE BEAD

C14

0.01uF

R20

10K

L1

FERRITE BEAD

KEY

J1

135791113

246

101214

R18

47K

DNP

U1

MC56F8013VFAE

17

12111056

9

19416

7

8

27

13

201822

323014

1

3

24

232928

21

2

25

26

31

15

PB2/MISO/T2

ANA0/PC0

ANA1/PC1

ANA2/VREFH/PC2

ANB0/PC4

ANB1/PC5

VSSA_ADC

PB4/T0/CLKO

PB5/T1/FAULT3

PB3/MOSI/T3

ANB2/VREFL/PC6

VDDA_ADC

VSS_IO1

VSS_IO0

PA5/PWM5/FAULT2/T3

PA6/FAULT0

PA4/PWM4/FAULT1/T2

TDO/PD1

TDI/PD0

TCK/PD2

PB6/RXD/SDA/CLKIN

PB7/TXD/SCL

PA3/PWM3

PA2/PWM2

PA0/PWM0

PA1/PWM1

PB0/SCLK/SCL

PB1/SS/SDA

VCAP1

VDD_IO

TMS/PD3

RESET/PA7/VPP

C5

0.1uF

R19

47K

R21

10K

DNP

56F8013 Demonstration Board Schematics, Rev. 0

Freescale Semiconductor Appendix A-3
Preliminary

Figure A-2. RESET & IRQ Pushbuttons and User LEDs

A

A

B

B

C

C

D

D

E

E

4 4

3 3

2 2

1 1

IRQ PUSHBUTTON #1

RESET PUSHBUTTON

IRQ PUSHBUTTON #2

PWM3

PWM1

PWM2

PWM0

RED LED

YELLOW LED

GREEN LED

RED LED

PWM4

PWM5

YELLOW LED

GREEN LED

74AC04

DSCO Design

RESET & IRQ PUSHBUTTONS AND USER LEDS

MC56F8013DEMO.DSN

1.0

25Sunday, September 26, 2004

A

Digital Signal Controller Operation

2100 East Elliot Road

Tempe, Arizona 85284

Title

Document

Date:

Size

Designer: Sheet of

Rev.

Number

(512) 895-7215 FAX: (480) 413-2510

/RESET

PA3

PA2

PA1

PA0

PA5

PA4

PB2

PB4

PB3

PB5

+3.3V

+3.3V

+3.3V

+3.3V

+3.3V

C6

0.1uF

R15

10K

S1

R17

10K

S3

C7

0.1uF

R16

10K

S2

U4C

74AC04

5 6

U4E

74AC04

11 10

U4B

74AC04

3 4

R9

270

R8

270

LED1

R7

270

U4D

74AC04

9 8

LED3

LED2

LED4

U4F

74AC04

13 12

U4A

74AC04

1 2

R12

270

LED6

LED5

R10

270

R11

270

C13

0.1uF

JP3

JP4

56F8013 Demonstration Board User Guide, Rev. 0

Appendix A-4 Freescale Semiconductor

Preliminary

Figure A-3. RS-232 Interface

A

A

B

B

C

C

D

D

E

E

4 4

3 3

2 2

1 1

CONNECTOR

CTS

DSR

DTR

RXD

TXD

RTS

DCD

RS-232

Bypass

DSCO Design

RS-232 INTERFACE

MC56F8013DEMO.DSN

1.0

35Sunday, September 26, 2004

A

Digital Signal Controller Operation

2100 East Elliot Road

Tempe, Arizona 85284

Title

Document

Date:

Size

Designer: Sheet of

Rev.

Number

(512) 895-7215 FAX: (480) 413-2510

TXD

RXD

TD

RD

PB7

PB6

+3.3V

+3.3V

+3.3V

C12

0.1uF

C8

0.1uF

JP1

JP2

C11

0.1uF

C10

0.1uF

P3

594837261

C9

0.1uF

U2

SP3220EUCY

3

5156

12

2

11

9 8

13

16

4

7

14

1

V+

C2+

VCC

C2-

FORCEON

C1+

TIN

ROUT RIN

TOUT

SHDN

C1-

V-

GND

EN

R14

1K

56F8013 Demonstration Board Schematics, Rev. 0

Freescale Semiconductor Appendix A-5
Preliminary

Figure A-4. Input / Output Signal Connector

A

A

B

B

C

C

D

D

E

E

4 4

3 3

2 2

1 1

I/O SIGNAL SOCKET

TXD/SCL

RXD/SDA/CLKIN

PWM0

PWM1

T0/CLKO

T1/FAULT3

MOSI/T3

MISO/T2

SCLK/SCL

/SS/SDA

PD0

PD1

PD2

PD3

FAULT0

PA7/VPP

PC0

PC1

VREFH/PC2

PC4

PC5

VREFL/PC6

/SS/SDA

SCLK/SCL

PWM2

PWM3

PWM4/FAULT1/T2

PWM5/FAULT2/T3

LOCATED ON BOTTOM OF BOARD

DSCO Design

INPUT/OUTPUT SIGNAL CONNECTOR

MC56F8013DEMO.DSN

1.0

45Thursday, February 10, 2005

A

Digital Signal Controller Operation

2100 East Elliot Road

Tempe, Arizona 85284

Title

Document

Date:

Size

Designer: Sheet of

Rev.

Number

(512) 895-7215 FAX: (480) 413-2510

GND

GND

PB7

PB6

PA0

PA1

PB4

PB5

PB3

PB2

PB0

PB1

TDI

TDO

TCK

TMS

PA6

/RESET

ANA0

ANA1

ANA2

ANB0

ANB1

ANB2

PB1

PB0

PA2

PA3

PA4

PA5

+3.3V

P213579111315171921232527293133353739

246

8

101214161820222426283032343638

40

56F8013 Demonstration Board User Guide, Rev. 0

Appendix A-6 Freescale Semiconductor

Preliminary

Figure A-5. Power Supply

A

A

B

B

C

C

D

D

E

E

4 4

3 3

2 2

1 1

POWER GOOD LED

TEST POINT

+3.3V GROUND

TEST POINT

21

3.3V

3

4

REGULATOR

LM1117

EXTERNAL POWER

9VDC INPUT

DSCO Design

POWER SUPPLY

MC56F8013DEMO.DSN

1.0

55Sunday, September 26, 2004

A

Digital Signal Controller Operation

2100 East Elliot Road

Tempe, Arizona 85284

Title

Document

Date:

Size

Designer: Sheet of

Rev.

Number

(512) 895-7215 FAX: (480) 413-2510

+3.3V

+9V

+3.3V

+3.3V

U3

LM1117MPX-3.3

3 2

41

VIN VOUT

VOUTGND

R13

270

LED7

GREEN LED

TP1

DNP

1

TP2

DNP

1

+

C2

22uF

16VDC

+

C3

22uF

6.3VDC

D1

FM4001

P1

1

3

2

56F8013 Demonstration Board Bill of Material, Rev. 0

Freescale Semiconductor Appendix B-1
Preliminary

Appendix B
56F8013 Demonstration Board
Bill of Material

Qty Description Ref. Designators Vendor Part #

Integrated Circuits

1 MC56F8013 U1 Freescale, MC56F8013VFAE

1 RS-232 Transceiver U2 Sipex, SP3220EUCY

1 +3.3V Voltage Regulator U3 National Semi, LM1117MPX-3.3

1 74AC04 U4 ON Semiconductor, MC74AC04AD

Resistors

6 100 Ω, 0603 R1 — R6 SMEC, RC73L2X101JT
7 270 Ω, 0603 R7 — R13 SMEC, RC73L2X271JT
11K Ω, 0603 R14 SMEC, RC73L2X102JT
410K Ω, 0603 R15 — R17, R20 SMEC, RC73L2X103JT
047K Ω, 0603 R18 (Optional) SMEC, RC73L2X473JT
147K Ω, 0603 R19 SMEC, RC73L2X473JT
010K Ω, 0603 R21 (Optional) SMEC, RC73L2X103JT

Inductors

2 Ferrite Bead, 0604 L1 — L2 SMEC, FCB0603-1000HNT

LEDs

2 Red LED, 1206 LED1, LED4 Hewlett-Packard, HSMS-C650

2 Yellow LED, 1206 LED2, LED5 Hewlett-Packard, HSMY-C650

2 Green LED, 1206 LED3, LED6, LED7 Hewlett-Packard, HSMG-C650

56F8013 Demonstration Board User Guide, Rev. 0

Appendix B-2 Freescale Semiconductor

Preliminary

Diode

1 S2B-FM401, SMA D1 Vishay, DL4001DICT

Capacitors

1 2.2µF, +25V DC, 0805

(Low ESR)

C1 TAIYO YUDEN, CELMK212BJ225MG-T

1 22µF, +16V DC, EIA-B C2 SMEC, TCC22K16B

1 22µF, +6.3V DC, EIA-A C3 SMEC, TCC22M6.3A

10 0.1µF, 0603 C4 — C13 SMEC, MCCA104K1NR-T1

1 0.01µF, 0603 C14 SMEC, MCCA103K1NR-T1

1 0.001µF, 0603 C15 SMEC, MCCA102K1NRT

1 100pF, 0603 C16 SMEC, MCCA101K1NRT

6 0.0022µF, 0603 C17 — C22 SMEC, MCCA222K1NRT

Test Points

0 +3.3V Test Point TP1 (Optional) KEYSTONE, 5000, RED

0 GND Test Point TP2 (Optional) KEYSTONE, 5001, BLACK

Connectors

12.1mm coax
Power Connector

P1 Switchcraft, RAPC-722

1 Daughter Card

Connector

P2 SAMTEC, SSM-120-L-DV-LC

1 DE9S Connector P3 AMPHENOL, 617-C009S-AJ120

1 7x2 JTAG Header J1 SAMTEC, TSW-107-07-S-D

Switches

3 SPST Pushbutton S1 — S3 Panasonic, EVQ-PAD05R

Miscellaneous

2 Stand-off Post, 4-40 Aluminum 0.25” Hex Female, 0.375”

2 4-40 Screws SAE 4-40 machine screw, 0.375”

Qty Description Ref. Designators Vendor Part #

INDEX

Index, Rev. 0

Freescale Semiconductor i
Preliminary

Numerics

450mA power supply 2-5
56F8000 Peripheral Reference Manual x

, 2-2

56F8013 ix
56F8013 Technical Data x
56F8013 Technical Data Sheet 2-2

A

A/D ix
ADC ix
Analog-to-Digital

A/D ix

Analog-to-Digital Converter

ADC ix

D

Daughter Card Expansion

interface 2-1
Debugging 2-3
Demo Board ix
Demonstration Board

Demo Board ix
Digital Signal Controller

DSC ix
DSC ix
DSP56800E Reference Manual x

, 2-2

E

Enhanced On-Chip Emulation

EOnCE ix
EOnCE ix

G

General Purpose Input and Output

GPIO ix
GPIO ix

I

IC ix
Integrated Circuit

IC ix

J

Joint Test Action Group

JTAG ix
JTAG ix
JTAG/Enhanced OnCE (EOnCE) 1-1

L

LED ix
Light Emitting Diode

LED ix
Low-profile Quad Flat Package

LQFP ix
LQFP ix

O

On-board power regulation 2-1
OnCE ix
On-Chip Emulation

OnCE ix

P

PCB ix
peripheral port signals 2-6
Printed Circuit Board

PCB ix
Pulse Width Modulation

PWM ix
PWM ix

R

real-time debugging 2-3
RS-232

level converter 2-2

schematic diagram 2-2

S

SCI ix
Serial Communications Interface

SCI ix
Serial Peripheral Interface

SPI ix
SPI ix

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This product incorporates SuperFlash® technology licensed from SST.

© Freescale Semiconductor, Inc. 2004. All rights reserved.

56F8013 DBUG
Rev. 0
03/2005

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