ETC DSP56F807EVMUM

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DSP56F807EVMUM/D
Rev. 2, 06/05/2003
56F807 Evaluation Module
Hardware User’s Manual
© Motorola, Inc., 2003. All rights reserved.
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Table of Contents
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Preface
Audience . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . xi
Organization. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . xi
Suggested Reading . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . xi
Notation Conventions . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . xii
Definitions, Acronyms, and Abbreviations . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . xii
References . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . xiii
Chapter 1
Introduction
1.1
1.2
1.3
56F807EVM Architecture . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1-1
56F807EVM Configuration Jumpers. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1-2
56F807EVM Connections . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1-4
Chapter 2
Technical Summary
2.1
2.2
2.3
2.4
2.5
2.6
2.7
2.7.1
2.7.2
2.8
2.9
2.10
2.11
2.12
2.13
2.14
2.15
56F807 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2-3
Program and Data Memory . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2-5
RS-232 Serial Communications. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2-6
Clock Source . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2-7
Operating Mode . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2-7
Debug LEDs. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2-8
Debug Support . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2-8
JTAG Connector. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2-9
Parallel JTAG Interface Connector . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2-10
External Interrupts . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2-11
Reset. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2-12
Power Supply . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2-13
Primary UNI-3 Interface . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2-14
Secondary UNI-3 Interface . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2-15
General Purpose Switches and Run/Stop Switch. . . . . . . . . . . . . . . . . . . . . . . . 2-17
Serial 10-bit 4-channel D/A Converter . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2-18
Motor Control PWM Signals and LEDs . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2-18
MOTOROLA
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2.16 Motor Protection Logic . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
2.16.1
Primary UNI-3 Motor Protection Logic. . . . . . . . . . . . . . . . . . . . . . . . . . . .
2.16.2
Secondary UNI-3 Motor Protection Logic. . . . . . . . . . . . . . . . . . . . . . . . . .
2.17 Back-EMF and Motor Phase Current Sensing. . . . . . . . . . . . . . . . . . . . . . . . . .
2.18 Quadrature Encoder/Hall-Effect Interface. . . . . . . . . . . . . . . . . . . . . . . . . . . . .
2.19 Zero-Crossing Detection . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
2.20 CAN Interface . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
2.21 Software Feature Jumpers . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
2.22 Peripheral Connectors . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
2.22.1
Port B Expansion Connector . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
2.22.2
Port D Expansion Connector . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
2.22.3
Port E Expansion Connector . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
2.22.4
External Memory Control Signal Expansion Connector . . . . . . . . . . . . . . .
2.22.5
Primary Encoder/Timer Channel A Expansion Connector . . . . . . . . . . . . .
2.22.6
Secondary Encoder/Timer Channel B Expansion Connector . . . . . . . . . . .
2.22.7
Timer Channel C Expansion Connector . . . . . . . . . . . . . . . . . . . . . . . . . . .
2.22.8
Timer Channel D Expansion Connector . . . . . . . . . . . . . . . . . . . . . . . . . . .
2.22.9
Address Bus Expansion Connector . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
2.22.10 Data Bus Expansion Connector . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
2.22.11 A/D Port A Expansion Connector . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
2.22.12 A/D Port B Expansion Connector . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
2.22.13 Serial Communications Port 0 Expansion Connector . . . . . . . . . . . . . . . . .
2.22.14 Serial Communications Port 1 Expansion Connector . . . . . . . . . . . . . . . . .
2.22.15 Serial Peripheral Interface Expansion Connector . . . . . . . . . . . . . . . . . . . .
2.22.16 CAN Expansion Connector . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
2.22.17 PWM Port A Expansion Connector . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
2.22.18 PWM Port B Expansion Connector . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
2.23 Test Points . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
2-19
2-20
2-21
2-22
2-23
2-23
2-24
2-25
2-26
2-27
2-27
2-28
2-28
2-29
2-29
2-30
2-30
2-31
2-32
2-32
2-33
2-33
2-34
2-34
2-34
2-35
2-35
2-36
Appendix A
56F807EVM Schematics
Appendix B
56F807EVM Bill of Material
vi
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List of Figures
1-1
Block Diagram of the 56F807EVM . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1-2
1-2
56F807EVM Jumper Reference . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1-3
1-3
Connecting the 56F807EVM Cables . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1-4
2-1
Schematic Diagram of the External Memory Interface . . . . . . . . . . . . . . 2-5
2-2
Schematic Diagram of the RS-232 Interface . . . . . . . . . . . . . . . . . . . . . . 2-6
2-3
Schematic Diagram of the Clock Interface . . . . . . . . . . . . . . . . . . . . . . . . 2-7
2-4
Schematic Diagram of the Debug LED Interface . . . . . . . . . . . . . . . . . . . 2-8
2-5
Block Diagram of the Parallel JTAG Interface. . . . . . . . . . . . . . . . . . . . 2-10
2-6
Schematic Diagram of the User Interrupt Interface . . . . . . . . . . . . . . . . 2-11
2-7
Schematic Diagram of the RESET Interface . . . . . . . . . . . . . . . . . . . . . 2-12
2-8
Schematic Diagram of the Power Supply . . . . . . . . . . . . . . . . . . . . . . . . 2-13
2-9
Run/Stop and General Purpose Switches . . . . . . . . . . . . . . . . . . . . . . . . 2-17
2-10
Serial 10-bit, 4-Channel D/A Converter . . . . . . . . . . . . . . . . . . . . . . . . . 2-18
2-11
PWM Group A Interface and LEDs . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2-19
2-12
FAULTA1 Selection Circuit. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2-20
2-13
DC-Bus Over-Voltage and Phase Over-Current Detection Circuits. . . . 2-21
2-14
FAULTB1 Selection Circuit . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2-22
2-15
Primary Back-EMF or Motor Phase Current Sense Signals . . . . . . . . . . 2-23
2-16
Zero-Crossing Encoder Interface . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2-24
2-17
CAN Interface . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2-24
2-18
Software Feature Jumpers. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2-25
A-1
56F807 Processor . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . A-2
A-2
Reset, Mode,Clock & IRQS . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . A-3
A-3
Program & Data SRAM Memory . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . A-4
A-4
RS-232 and SCI Connectors . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . A-5
A-5
Debug Serial 4-Channel D/A Converter . . . . . . . . . . . . . . . . . . . . . . . . . . A-6
A-6
PWMA and 3 User LEDs . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . A-7
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A-7
Primary UNI-3 Interface and Over-Voltage Fault Detection . . . . . . . . . . A-8
A-8
Secondary UNI-3 and Over-Voltage Detection . . . . . . . . . . . . . . . . . . . . A-9
A-9
User General Purpose Switches and Jumpers. . . . . . . . . . . . . . . . . . . . . A-10
A-10
Motor Phase-Current/Back-EMF Voltage Analog Input Selector . . . . . A-11
A-11
Primary and Secondary 3-Phase Over-Current Sense . . . . . . . . . . . . . . A-12
A-12
Primary Zero-Crossing/Quadrature-Encoder or Hall-Effect Selector . . A-13
A-13
Secondary Zero-Crossing/Quadrature-Encoder or Hall-Effect
Selector . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . A-14
A-14
Port Expansion Connectors . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . A-15
A-15
High-Speed CAN Interface . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . A-16
A-16
Parallel JTAG Host Target Interface and JTAG Connector. . . . . . . . . . A-17
A-17
Power Supplies . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . A-18
A-18
Bypass Capacitors and Spare Gates . . . . . . . . . . . . . . . . . . . . . . . . . . . . A-19
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List of Tables
1-1
56F807EVM Default Jumper Options . . . . . . . . . . . . . . . . . . . . . . . . . . . 1-3
2-1
RS-232 Serial Connector Description. . . . . . . . . . . . . . . . . . . . . . . . . . . . 2-6
2-2
Operating Mode Selection . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2-7
2-3
JTAG Connector Description . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2-9
2-4
Parallel JTAG Interface Disable Jumper Selection. . . . . . . . . . . . . . . . . . 2-9
2-5
Parallel JTAG Interface Connector Description . . . . . . . . . . . . . . . . . . . 2-10
2-6
Primary UNI-3 Connector Description . . . . . . . . . . . . . . . . . . . . . . . . . . 2-14
2-7
Secondary UNI-3 Connector Description . . . . . . . . . . . . . . . . . . . . . . . . 2-15
2-8
D/A Header Description . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2-18
2-9
FAULTA1 Source Selection Jumper . . . . . . . . . . . . . . . . . . . . . . . . . . . 2-20
2-10
FAULTB1 Source Selection Jumper . . . . . . . . . . . . . . . . . . . . . . . . . . . 2-22
2-11
CAN Header Description . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2-25
2-12
Port B Connector Description . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2-27
2-13
Port D Connector Description. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2-27
2-14
Port E Connector Description . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2-28
2-15
External Memory Control Signal Connector Description . . . . . . . . . . . 2-28
2-16
Timer A Connector Description . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2-29
2-17
Timer B Connector Description . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2-29
2-18
Timer C Connector Description . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2-30
2-19
Timer D Connector Description . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2-30
2-20
External Memory Address Bus Connector Description . . . . . . . . . . . . . 2-31
2-21
External Memory Address Bus Connector Description . . . . . . . . . . . . . 2-32
2-22
A/D Port A Connector Description. . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2-32
2-23
A/D Port B Connector Description . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2-33
2-24
SCI0 Connector Description . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2-33
2-25
SCI1 Connector Description . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2-34
2-26
SPI Connector Description . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2-34
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CAN Connector Description . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2-34
2-28
PWM Port A Connector Description . . . . . . . . . . . . . . . . . . . . . . . . . . . 2-35
2-29
PWM Port B Connector Description . . . . . . . . . . . . . . . . . . . . . . . . . . . 2-35
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2-27
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Preface
This reference manual describes in detail the hardware on the 56F807 Evaluation Module.
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Audience
This document is intended for application developers who are creating software for
devices using the Motorola 56F807 part.
Organization
This manual is organized into two chapters and two appendixes.
•
Chapter 1, Introduction - provides an overview of the EVM and its features.
•
Chapter 2, Technical Summary - describes in detail the 56F807EVM hardware.
•
Appendix A, 56F807EVM Schematics - contains the schematics of the
56F807EVM.
•
Appendix B, 56F807EVM Bill of Material - provides a list of the materials used on the
56F807EVM board.
Suggested Reading
More documentation on the 56F807 and the 56F807EVM kit may be found at URL:
http://www.motorola.com/semiconductors
MOTOROLA
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Notation Conventions
This manual uses the following notational conventions:
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Term or Value
Symbol
Examples
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
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
Bold
Reference
sources, paths,
emphasis
...see: http://www.motorola.com...
Exceptions
In schematic
drawings, Active
Low Signals may be
noted by a
backslash: /WE
Voltage is often
shown as positive:
+3.3V
Definitions, Acronyms, and Abbreviations
Definitions, acronyms and abbreviations for terms used in this document are defined
below for reference.
A/D
CAN
CiA
D/A
DSP
xii
Analog-to-Digital
Controller Area Network; serial communications peripheral and method
CAN in Automation, an international CAN user’s group that coordinates
standards for CAN communications protocols
Digital-to-Analog
Digital Signal Processor or Digital Signal Processing
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EVM
GPIO
IC
JTAG
LQFP
MPIO
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OnCETM
PCB
PLL
PWM
RAM
ROM
SCI
SPI
SRAM
UART
Evaluation Module
General Purpose Input and Output Port
Integrated Circuit
Joint Test Action Group, a bus protocol/interface used for test and debug
Low-profile Quad Flat Pack
Multi Purpose Input and Output Port ; shares package pins with other
peripherals on the chip and can function as a GPIO
On-Chip Emulation, a debug bus and port created by Motorola to enable
designers to create a low-cost hardware interface for a
professional-quality debug environment
Printed Circuit Board
Phase Locked Loop
Pulse Width Modulation
Random Access Memory
Read-Only Memory
Serial Communications Interface
Serial Peripheral Interface Port
Static Random Access Memory
Universal Asynchronous Receiver/Transmitter
References
The following sources were referenced to produce this manual:
[1] DSP56800 Family Manual, Motorola, DSP56800FM/D
[2] DSP56F801/803/805/807 User’s Manual, Motorola, DSP56F801-7UM/D
[3] 56F807 Technical Data, Motorola, DSP56F807/D
[4] CiA Draft Recommendation DR-303-1, Cabling and Connector Pin
Assignment, Version 1.0, CAN in Automation
[5] CAN Specification 2.0B, BOSCH or CAN in Automation
MOTOROLA
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Chapter 1
Introduction
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The 56F807EVM is used to demonstrate the abilities of the 56F807 and to provide a
hardware tool allowing the development of applications that use the 56F807.
The 56F807EVM is an evaluation module board that includes a 56F807 part, peripheral
expansion connectors, external memory and a CAN interface. The expansion connectors
are for signal monitoring and user feature expandability.
The 56F807EVM is designed for the following purposes:
•
Allowing new users to become familiar with the features of the 56800 architecture.
The tools and examples provided with the 56F807EVM 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 or
on-board RAM, run it, and debug it using a debugger via the JTAG/OnCETM port.
The breakpoint features of the OnCE 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 OnCE 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 hybrid
controller’s peripherals. The OnCE port's unobtrusive design means that all of the
memory on the board and on the chip are available to the user.
1.1 56F807EVM Architecture
The 56F807EVM facilitates the evaluation of various features present in the 56F807 part.
The 56F807EVM can be used to develop real-time software and hardware products based
on the 56F807. The 56F807EVM provides the features necessary for a user to write and
debug software, demonstrate the functionality of that software and interface with the
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customer's application-specific device(s). The 56F807EVM is flexible enough to allow a
user to fully exploit the 56F807's features to optimize the performance of their product, as
shown in Figure 1-1.
56F807
Freescale Semiconductor, Inc...
RESET
LOGIC
MODE/IRQ
LOGIC
Program Memory
64Kx16-bit
SRAM
RESET
MODE/IRQ
Address,
Data &
Control
SPI
SCI #0
RS-232
Interface
SCI #1
Peripheral
Expansion
Connector(s)
TIMER
DSub
25-Pin
PWM LEDs
Over V Sense
Over I Sense
Zero Crossing
Detect
JTAG/OnCE
PWM #1
Pri UNI-3
A/D #0
Parallel
JTAG
Interface
Low Freq
Crystal
Debug LEDs
GPIO
Memory
Expansion
Connector(s)
JTAG
Connector
DSub
9-Pin
CAN Interface
CAN
Data Memory
64Kx16-bit
SRAM
4-Channel
10-bit D/A
A/D #1
Sec UNI-3
PWM #2
XTAL/EXTAL
3.3 V & GND
Power Supply
3.3V, 5.0V & 3.3VA
Figure 1-1. Block Diagram of the 56F807EVM
1.2 56F807EVM Configuration Jumpers
Seventeen jumper groups, (JG1-JG17), shown in Figure 1-2, are used to configure various
features on the 56F807EVM board. Table 1-1 describes the default jumper group settings.
1-2
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56F807EVM Configuration Jumpers
JG3
3
2
1
JG12
JG17
1
JG16
1
3
3
3
2
1
JG13
3
2
1
JG10
JG7
USER
J4
PWM
JG5
1
3
2
1
JG12
3
JG10
3
2
1
JG17JG16 JG13
JG3 JG7
JG11
JG6
J1
Y1
JG2
JG5
JG15
JG15
Freescale Semiconductor, Inc...
DSP56F807EVM
2
JG1
S/N
J2
S4
S5
S6
GP1
S1
GP2
S2
RUN/STOP
S3
7
JTAG
JG9
JG4
J3
U9
LED3
P3 RESET
7
IRQA
8
P2
P1
1
JG11
U1
U2
JG14
1
4
7
8
2
1
JG8
1
3
JG2
J5
3
2
1
IRQB
JG14
1
4
7
3
6
9
JG8
JG9
JG1
3
JG6
1
JG4
Figure 1-2. 56F807EVM Jumper Reference
Table 1-1. 56F807EVM Default Jumper Options
Jumper
Group
Comment
Jumpers
Connections
JG1
Primary UNI-3 Phase A Over-Current Selected for FAULTA1
1–2
JG2
Secondary UNI-3 Phase A Over-Current Selected for FAULTB1
1–2
JG3
CAN termination unselected
NC
JG4
Enable on-board Parallel JTAG Host/Target Interface
NC
JG5
Use on-board EXTAL crystal input for oscillator
2–3
JG6
Use on-board XTAL crystal input for oscillator
1–2
JG7
Selects device’s Mode 0 operation upon exit from reset
1-2
JG8
Enable on-board SRAM
1–2
JG9
Disable RS-232 output
NC
JG10
Secondary UNI-3 3-Phase Current Sense Selected as inputs to A/D
JG11
Secondary UNI-3 serial selected
1–2, 3–4, 5–6 & 7–8
JG12
Primary Encoder Input Selected
2–3, 5–6 & 8–9
JG13
Secondary Encoder Input Selected
2–3, 5–6 & 8–9
JG14
Primary UNI-3 3-Phase Current Sense Selected as inputs to A/D
2–3, 5–6 & 8–9
JG15
Primary UNI-3 serial selected
JG16
PD0 input selected as a high input
1–2
JG17
PD1 input selected as a high input
1–2
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2–3, 5–6 & 8–9
1–2, 3–4, 5–6 & 7–8
1-3
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1.3 56F807EVM Connections
An interconnection diagram is shown in Figure 1-3 for connecting the PC and the external
+12V DC power supply to the 56F807EVM board.
Parallel Extension
Cable
56F807EVM
PC-compatible
Computer
Freescale Semiconductor, Inc...
P1
Connect cable
to Parallel/Printer port
P2
External with 2.1mm,
+12V receptacle
Power connector
Figure 1-3. Connecting the 56F807EVM Cables
Perform the following steps to connect the 56F807EVM 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 P1, shown in Figure 1-3,
on the 56F807EVM board. This provides the connection which allows the host
computer to control the board.
3. Make sure that the external +12V DC, 4.0A 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 P2,
shown in Figure 1-3, on the 56F807EVM board.
5. Apply power to the external power supply. The green Power-On LED, LED10, will
illuminate when power is correctly applied.
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Chapter 2
Technical Summary
The 56F807EVM is designed as a versatile hybrid controller development card for
developing real-time software and hardware products to support a new generation of
applications in digital and wireless messaging, servo and motor control, digital answering
machines, feature phones, modems, and digital cameras. The power of the 16-bit 56F807
controller, combined with the on-board 64K × 16-bit external program static RAM
(SRAM), 64K × 16-bit external data SRAM, CAN interface, Hall-Effect/Quadrature
Encoder interface, motor zero crossing logic, motor bus over-current logic, motor bus
over-voltage logic and parallel JTAG interface, makes the 56F807EVM ideal for
developing and implementing many motor controlling algorithms, as well as for learning
the architecture and instruction set of the 56F807 processor.
The main features of the 56F807EVM, with board and schematic reference designators,
include:
•
56F807 16-bit +3.3V hybrid controller operating at 80MHz [U1]
•
External fast static RAM (FSRAM) memory [U2], configured as:
— 64K×16-bit of Program memory with 0 wait states at 70MHz
— 64K×16-bit of Data memory with 0 wait states at 70MHz
•
4-Channel 10-bit Serial D/A, SPI for real-time user data display [U14]
•
8.00MHz crystal oscillator for frequency generation [Y1]
•
Optional external oscillator frequency input connector [JG5 and JG6]
•
Joint Test Action Group (JTAG) port interface connector for an external debug
Host Target Interface [J3]
•
On-board Parallel JTAG Host Target Interface, with a connector for a PC printer
port cable [P1]
•
RS-232 interface for easy connection to a host processor [U13 and P3]
•
CAN interface for high speed, 1.0Mbps, communications [U8 and J24]
•
CAN bypass and bus termination [J25 and JG3]
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2-2
•
Connector to allow the user to connect his own SCI0 / MPIO-compatible peripheral
[J15]
•
Connector to allow the user to connect his own SCI1 /MPIO-compatible peripheral
[J14]
•
Connector to allow the user to connect his own SPI / MPIO-compatible peripheral
[J13]
•
Connector to allow the user to connect his own PWMA or MPIO-compatible
peripheral [J10]
•
Connector to allow the user to connect his own PWMB / MPIO-compatible
peripheral [J11]
•
Connector to allow the user to connect his own CAN physical layer peripheral
[J16]
•
Connector to allow the user to connect his own Timer A / MPIO-compatible
peripheral [J18]
•
Connector to allow the user to connect his own Timer B / MPIO-compatible
peripheral [J21]
•
Connector to allow the user to connect his own Timer C / MPIO-compatible
peripheral [J19]
•
Connector to allow the user to connect his own Timer D / MPIO-compatible
peripheral [J22]
•
Connector to allow the user to attach his own Port B GPIO-compatible peripheral
[J20]
•
Connector to allow the user to attach his own Port D GPIO-compatible peripheral
[J23]
•
Connector to allow the user to attach his own Port E GPIO-compatible peripheral
[J17]
•
Connector to allow the user to attach their own A/D Port A-compatible peripheral
[J9]
•
Connector to allow the user to attach his own A/D Port B-compatible peripheral
[J12]
•
56F807’s external memory expansion connectors [J6, J7 and J8]
•
On-board power regulation from an external +12V DC-supplied power input [P2]
•
Light Emitting Diode (LED) power indicator [LED10]
•
Three on-board real-time user debugging LEDs [LED1-3]
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56F807
•
Six on-board Primary PWM monitoring LEDs [LED4-9]
•
Primary UNI-3 Motor interface [J1]
— Encoder/Hall-Effect interface and selector [JG12]
— Over-Voltage sensing [U16]
— Over-Current sensing [U3]
— Phase Current sensing [U3 and U4]
— Back-EMF sensing and selector [JG14]
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— Temperature sensing
— Zero Crossing detection and selector [JG14]
— Pulse Width Modulation
•
Secondary UNI-3 Motor interface [J2]
— Encoder/Hall-Effect interface and selector [JG13]
— Over-Voltage sensing [U16]
— Over-Current sensing [U6]
— Phase Current sensing [U5 and U6]
— Back-EMF sensing and selector [JG10]
— Temperature sensing
— Zero Crossing detection and selector [JG10]
— Pulse Width Modulation
•
Manual RESET push-button [S1]
•
Manual interrupt push-button for IRQA [S2]
•
Manual interrupt push-button for IRQB [S3]
•
General purpose push-button on GPIO PD3 [S4]
•
General purpose push-button on GPIO PD4 [S5]
•
General purpose toggle switch for RUN/STOP control(PD5) [S6]
•
General purpose jumper on GPIO PD0 [JG16]
•
General purpose jumper on GPIO PD1 [JG17]
2.1 56F807
The 56F807EVM uses a Motorola DSP56F807FV80 part, designated as U1 on the board
and in the schematics. This part will operate at a maximum speed of 80MHz. A full
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description of the 56F807, including functionality and user information, is provided in
these documents:
•
DSP56800 Family Manual, (DSP56800FM/D): Provides a detailed description of
the core processor, including internal status and control registers and a detailed
description of the family instruction set.
•
DSP56F801/803/805/807 User’s Manual, (DSP56F801-7UM/D): Provides an
overview description of the hybrid controller and detailed information about the
on-chip components including the memory and I/O maps, peripheral functionality,
and control/status register descriptions for each subsystem.
•
56F807 Technical Data, (DSP56F807/D): Provides features list and specifications
including signal descriptions, DC power requirements, AC timing requirements
and available packaging.
Refer to these documents for detailed information about chip functionality and operation.
They can be found on this URL:
http://www.motorola.com/semiconductors
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Program and Data Memory
The 56F807EVM uses one bank of 128K×16-bit Fast Static RAM (GSI GS72116, labeled
U2) for external memory expansion; see the FSRAM schematic diagram in Figure 2-1.
This physical memory bank is split into two logical memory banks of 64Kx16-bits: one
for Program memory and the other for Data memory. By using the controller’s program
strobe, PS, signal line along with the memory chip’s A0 signal line, half of the memory
chip is selected when Program memory accesses are requested and the other half of the
memory chip is selected when Data memory accesses are requested. This memory bank
will operate with zero wait-state accesses while the 56F807 is running at 70MHz.
However, when running at 80MHz, the memory bank operates with four wait-state
accesses. This memory bank can be disabled by removing the jumper at JG8.
GS72116
56F807
A0-A15
A1-A16
PS
A0
D0-D15
DQ0-DQ15
RD
OE
WR
WE
+3.3V
Jumper Pin 1-2:
Enable SRAM
Jumper Removed:
Disable SRAM
JG8
1
2
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2.2 Program and Data Memory
CE
Figure 2-1. Schematic Diagram of the External Memory Interface
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2.3 RS-232 Serial Communications
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The 56F807EVM provides an RS-232 interface by the use of an RS-232 level converter,
(Maxim MAX3245EEAI, designated as U13). Refer to the RS-232 schematic diagram in
Figure 2-2. The RS-232 level converter transitions the SCI UART’s +3.3V signal levels
to RS-232-compatible signal levels and connects to the host’s serial port via connector P3.
Flow control is not provided, but could be implemented using uncommitted GPIO signals.
The pin-out of connector P3 is listed in Table 2-1. The RS-232 level converter/transceiver
can be disabled by placing a jumper at JG9.
RS-232
Level Converter
Interface
56F807
1
6
TXDO
T1in
RXDO
R1out
T1out
2
R1in
3
7
8
+3.3V
x
FORCEOFF
Jumper Removed:
Enable RS-232
Jumper Pin 1-2:
Disable RS-232
4
9
5
JG9
1
2
Figure 2-2. Schematic Diagram of the RS-232 Interface
.
Table 2-1. RS-232 Serial Connector Description
P3
2-6
Pin #
Signal
Pin #
Signal
1
Jumper to 6 & 4
6
Jumper to 1 & 4
2
TXD
7
Jumper to 8
3
RXD
8
Jumper to 7
4
Jumper to 1 & 6
9
N/C
5
GND
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Operating Mode
2.4 Clock Source
The 56F807EVM uses an 8.00MHz crystal, Y1, connected to its External Crystal Inputs,
EXTAL and XTAL. The 56F807 uses its internal PLL to multiply the input frequency by
10, to achieve its 80MHz maximum operating frequency. An external oscillator source can
be connected to the controller by using the oscillator bypass connector, JG6 and JG18; see
Figure 2-3.
Freescale Semiconductor, Inc...
EXTERNAL
OSCILLATOR
HEADERS
56F807
JG5
3
2
EXTAL
1
8.00MHz
10M
JG6
1
2
XTAL
Figure 2-3. Schematic Diagram of the Clock Interface
2.5 Operating Mode
The 56F807EVM provides a boot-up MODE selection jumper, JG7. This jumper is used
to select the operating mode of the hybrid controller as it exits RESET. Refer to the
DSP56F801/803/805/807 User’s Manual for a complete description of the chip’s
operating modes. Table 2-2 shows the two operation modes available on the 56F807.
Table 2-2. Operating Mode Selection
MOTOROLA
Operating Mode
JG7
Comment
0
1–2
Bootstrap from internal memory (GND)
3
No Jumper
Bootstrap from external memory (3.3V)
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2.6 Debug LEDs
Three 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 2-4. User
LED1 is controlled by Port B’s PB0 signal. User LED2 is controlled by PB1. User LED3
is controlled by PB2. Setting PB0, PB1 or PB2 to a Logic One value will turn on the
associated LED.
56F807
INVERTING BUFFER
+3.3V
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RED LED
PB0
YELLOW LED
PB1
GREEN LED
PB2
Figure 2-4. Schematic Diagram of the Debug LED Interface
2.7 Debug Support
The 56F807EVM provides an on-board Parallel JTAG Host Target Interface and a JTAG
interface connector for external Target Interface support. Two interface connectors are
provided to support each of these debugging approaches. These two connectors are
designated the JTAG connector and the Host Parallel Interface Connector.
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Debug Support
2.7.1 JTAG Connector
The JTAG connector on the 56F807EVM allows the connection of an external Host
Target Interface for downloading programs and working with the 56F807’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.
Table 2-3. JTAG Connector Description
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J3
Pin #
Signal
Pin #
Signal
1
TDI
2
GND
3
TDO
4
GND
5
TCK
6
GND
7
NC
8
KEY
9
RESET
10
TMS
11
+3.3V
12
NC
13
NC
14
TRST
When this connector is used with an external Host Target Interface, the parallel JTAG
interface should be disabled by placing a jumper in jumper block JG4. Reference
Table 2-4 for this jumper’s selection options.
Table 2-4. Parallel JTAG Interface Disable Jumper Selection
MOTOROLA
JG4
Comment
No jumpers
On-board Parallel JTAG Interface Enabled
1–2
Disable on-board Parallel JTAG Interface
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2.7.2 Parallel JTAG Interface Connector
The Parallel JTAG Interface Connector, P1, allows the 56F807 to communicate with a
Parallel Printer Port on a Windows PC; reference Figure 2-5. By using this connector, the
user can download programs and work with the 56F807’s registers. Table 2-5 shows the
pin-out for this connector. When using the parallel JTAG interface, the jumper at JG4
should be removed, as shown in Table 2-4.
Parallel JTAG Interface
DB-25 Connector
IN OUT
OUT IN
IN OUT
TDI
TDO
TRST
TMS
IN
OUT
TMS
TCK
IN
OUT
TCK
IN
OUT
RESET
TDI
TDO
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56F807
P_TRST
P_RESET
+3.3V
EN
JG4
Jumper Removed:
Enable JTAG I/F
1
2
Jumper Pin 1-2:
Disable JTAG I/F
Figure 2-5. Block Diagram of the Parallel JTAG Interface
Table 2-5. Parallel JTAG Interface Connector Description
P1
2-10
Pin #
Signal
Pin #
Signal
1
NC
14
NC
2
PORT_RESET
15
PORT_IDENT
3
PORT_TMS
16
NC
4
PORT_TCK
17
NC
5
PORT_TDI
18
GND
6
PORT_TRST
19
GND
7
NC
20
GND
8
PORT_IDENT
21
GND
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External Interrupts
Table 2-5. Parallel JTAG Interface Connector Description
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P1
Pin #
Signal
Pin #
Signal
9
PORT_VCC
22
GND
10
NC
23
GND
11
PORT_TDO
24
GND
12
NC
25
GND
13
PORT_CONNECT
2.8 External Interrupts
Two on-board push-button switches are provided for external interrupt generation, as
shown in Figure 2-6. S2 allows the user to generate a hardware interrupt for signal line
IRQA. S3 allows the user to generate a hardware interrupt for signal line IRQB. These two
switches allow the user to generate interrupts for his user-specific programs.
+3.3V
56F807
10K
SW2
IRQA
0.1µF
+3.3V
10K
SW3
IRQB
0.1µF
Figure 2-6. Schematic Diagram of the User Interrupt Interface
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2.9 Reset
Logic is provided on the 56F807 to generate a clean Power-On RESET signal. Additional,
reset logic is provided to support the RESET signals from the JTAG connector, the
Parallel JTAG Interface and the user RESET push-button; refer to Figure 2-7.
+3.3V
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RESET
PUSHBUTTON
MANUAL RESET
RESET
P_RESET
Figure 2-7. Schematic Diagram of the RESET Interface
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Power Supply
2.10 Power Supply
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The main power input, +12V DC at 4.0A, to the 56F807EVM is through a 2.1mm coax
power jack. A 4.0A power supply is provided with the 56F807EVM; however, less than
500mA is required by the EVM. The remaining current is available for user motor control
applications when connected to an optional motor power stage board. The 56F807EVM
provides +3.3V DC voltage regulation for the hybrid controller, memory, D/A, CAN,
parallel JTAG interface and supporting logic; refer to Figure 2-8. Power applied to the
56F807EVM is indicated with a Power-On LED, referenced as LED10.
+3.3V
+5.0V
+12V DC
+3.3V
Regulator
+5.0V
Regulator
+3.3V Digital
+3.3V Analog
56F807
POWER ON
56F807EVM
PARTS
GREEN LED
LED10
Figure 2-8. Schematic Diagram of the Power Supply
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2.11 Primary UNI-3 Interface
Motor control signals from a family of motor driver boards can be connected to the EVM
board via the Primary UNI-3 connector/interface. The Primary UNI-3 connector/interface
contains all of the signals needed to drive and control the motor drive boards. These
signals are connected to various groups of the hybrid controller’s input and output ports:
A/D, TIMER and PWM Port A. The header, JG14, is used to select between the
Back-EMF and Motor Phase Current signals. Refer to Table 2-6 for the pin-out of the
Primary UNI-3 connector, J1.
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Table 2-6. Primary UNI-3 Connector Description
J1
2-14
Pin #
Signal
Pin #
Signal
1
PWM_AT
2
Shield
3
PWM_AB
4
Shield
5
PWM_BT
6
Shield
7
PWM_BB
8
Shield
9
PWM_CT
10
Shield
11
PWM_CB
12
GND
13
GND
14
+5.0V DC
15
+5.0V DC
16
Analog +3.3V DC
17
Analog GND
18
Analog GND
19
Analog +15V DC
20
Analog -15V DC
21
Motor DC Bus
Voltage Sense
22
Motor DC Bus
Current Sense
23
Motor Phase A
Current Sense
24
Motor Phase B
Current Sense
25
Motor Phase C
Current Sense
26
Motor Drive
Temperature
Sense
27
NC
28
Shield
29
Motor Drive Brake
Control
30
Serial COM
31
PFC PWM
32
PFC Inhibit
33
PFC Zero Cross
34
Zero Cross A
35
Zero Cross B
36
Zero Cross C
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Secondary UNI-3 Interface
Table 2-6. Primary UNI-3 Connector Description (Continued)
J1
Pin #
Signal
Pin #
Signal
37
Shield
38
Back-EMF Phase
A Sense
39
Back-EMF Phase
B Sense
40
Back-EMF Phase
C Sense
Freescale Semiconductor, Inc...
2.12 Secondary UNI-3 Interface
A Secondary UNI-3 Motor Drive interface is available on the EVM board. Motor control
signals from a family of motor driver boards can be connected to the EVM board via the
Secondary UNI-3 connector/interface. The Secondary UNI-3 connector/interface contains
all of the signals needed to drive and control the motor drive boards. These signals are
connected to various groups of the controller’s input and output ports: A/D, TIMER and
PWM Port B. The header, JG10, is used to select between the Back-EMF and Motor Phase
Current signals. Refer to Table 2-7 for the pin-out of the Secondary UNI-3 connector, J2.
Table 2-7. Secondary UNI-3 Connector Description
J2
MOTOROLA
Pin #
Signal
Pin #
Signal
1
PWM_AT
2
Shield
3
PWM_AB
4
Shield
5
PWM_BT
6
Shield
7
PWM_BB
8
Shield
9
PWM_CT
10
Shield
11
PWM_CB
12
GND
13
GND
14
NC
15
NC
16
NC
17
Analog GND
18
Analog GND
19
NC
20
NC
21
Motor DC Bus
Voltage Sense
22
Motor DC Bus
Current Sense
23
Motor Phase A
Current Sense
24
Motor Phase B
Current Sense
Technical Summary
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2-15
Freescale Semiconductor, Inc.
Table 2-7. Secondary UNI-3 Connector Description (Continued)
Freescale Semiconductor, Inc...
J2
2-16
Pin #
Signal
Pin #
Signal
25
Motor Phase C
Current Sense
26
Motor Drive
Temperature
Sense
27
NC
28
Shield
29
Motor Drive Brake
Control
30
Serial COM
31
PFC PWM
32
PFC Inhibit
33
PFC Zero Cross
34
Zero Cross A
35
Zero Cross B
36
Zero Cross C
37
Shield
38
Back-EMF Phase
A Sense
39
Back-EMF Phase
B Sense
40
Back-EMF Phase
C Sense
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General Purpose Switches and Run/Stop Switch
2.13 General Purpose Switches and Run/Stop Switch
Two general-purpose user pushbutton switches are connected to Port D GPIO signals,
PD3 and PD4. A Run/Stop toggle switch is connected to GPIO signal PD5. Refer to
Figure 2-9.
+3.3V
Freescale Semiconductor, Inc...
GP #1 SWITCH
56F807
10K
PD3
+3.3V
GP #2 SWITCH
10K
PD4
+3.3V
START/STOP SWITCH
10K
PD5
Figure 2-9. Run/Stop and General Purpose Switches
MOTOROLA
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Freescale Semiconductor, Inc.
2.14 Serial 10-bit 4-channel D/A Converter
The 56F807EVM board contains a serial 10-bit, 4-channel D/A converter connected to the
56F807’s SPI port. The output pins are uncommitted and are connected to a 4X2 header,
J26, to allow easy user connections. Refer to Figure 2-10 for the D/A connections and
Table 2-8 for the header’s pin-out. The D/A’s output full-scale range value can be set to a
value from 0.0V to 2.4V by a trimpot, R97. This trimpot is preset to +2.05V, which
provides approximately 2mV per step.
56F807
Freescale Semiconductor, Inc...
MAX5251
MOSI
D/A CONNECTOR
J26
DIN
MISO
DOUT
SCLK
SCLK
OUT A
OUT B
OUT C
OUT D
PB4
CS
RSTO
CL
D/A 0
D/A 1
D/A 2
D/A 3
1
2
3
4
5
6
7
8
Vref
R97
+3.3VA
10K
Figure 2-10. Serial 10-bit, 4-Channel D/A Converter
Table 2-8. D/A Header Description
J20
Pin #
Signal
Pin #
Signal
1
D/A Channel 0
2
AGND
3
D/A Channel 1
4
AGND
5
D/A Channel 2
6
AGND
7
D/A Channel 3
8
AGND
2.15 Motor Control PWM Signals and LEDs
The 56F807 has two independent groups of dedicated PWM units. Each unit contains six
PWM, three Phase Current sense and four Fault input lines. PWM group A’s PWM lines
are connected to the UNI-3 interface connector and to a set of six PWM LEDs via
inverting buffers. The inverting buffers are used to isolate and drive the controller’s PWM
2-18
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Freescale Semiconductor, Inc.
Motor Protection Logic
group A’s outputs to the PWM LEDs. The secondary PWM signals are routed to the
Secondary UNI-3 connector. The PWM LEDs indicate the status of PWM group A
signals, as shown in Figure 2-11. PWM Group A and B signals are routed out to headers,
J10 and J11 respectively, and are available for use by the end user.
Freescale Semiconductor, Inc...
56F807
UNI-3
PWMA0
PWMA1
PWMA2
PWMA3
PWMA4
PWMA5
PWMA0
PWMA1
PWMA2
PWMA3
PWMA4
PWMA5
+3.3V
LED4
YELLOW LED
PHASE A TOP
LED5
GREEN LED
LED
BUFFER
PHASE A BOTTOM
LED6
YELLOW LED
PHASE B TOP
LED7
GREEN LED
PHASE B BOTTOM
LED8
YELLOW LED
PHASE C TOP
LED9
GREEN LED
PHASE C BOTTOM
Figure 2-11. PWM Group A Interface and LEDs
2.16 Motor Protection Logic
The 56F807EVM contains two UNI-3 connectors that interface with various motor drive
boards, Primary UNI-3 and Secondary UNI-3. The device can sense error conditions
generated by the motor power stage boards via signals on the UNI-3 connector. The motor
driver board’s Motor Supply DC Bus Voltage, Current and Motor Phase Currents are
sensed on the power stage board. The conditioned signals are transferred to the board via
the UNI-3 connector. These analog input signals are compared to a limit set by trimpots. If
the input analog signals are greater than the limit set by the trimpot, a controller digital
voltage-compatible +3.3V DC fault signal is generated.
MOTOROLA
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Freescale Semiconductor, Inc.
2.16.1 Primary UNI-3 Motor Protection Logic
Freescale Semiconductor, Inc...
The Primary UNI-3 DC Bus Over-Voltage signal is connected to the hybrid controller’s
PWM group A fault inputs. The three Primary UNI-3 Phase Over-Current signals are
connected to the device’s PWM group A’s fault inputs, i.e., FAULTA1, FAULTA2 and
FAULTA3. Figure 2-13 contains the diagram of the Over-Voltage and one phase of the
Phase Over-Current circuit for the UNI-3 interface. The FAULTA1 input can be sourced
from the Phase A Over-Current circuit or the DC Bus Over-Current circuit. Jumper JG1,
provides the selection; reference Figure 2-12 and Table 2-9.
DC BUS CURRENT SENSE
I_sense_DCB
+3.3V
+5.0V
+5.0V
+
–
LM393
+5.0V
JG1
3
2
1
FAULTA1
+3.3V
+5.0V
PHASE A CURRENT SENSE
PHA_IS
+
–
LM393
Figure 2-12. FAULTA1 Selection Circuit
Table 2-9. FAULTA1 Source Selection Jumper
JG1
2-20
Comment
1–2
Phase A Over-Current Sense input
2–3
DC Bus Over-Current Sense input
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Freescale Semiconductor, Inc.
Motor Protection Logic
2.16.2 Secondary UNI-3 Motor Protection Logic
Freescale Semiconductor, Inc...
The Secondary UNI-3 interface is similar to the Primary UNI-3 interface. The Secondary
UNI-3 Over-Voltage signal is connected to the hybrid controller’s PWM group B’s fault
input, FAULTB1. The three Secondary UNI-3 Phase Over-Current signals are connected
to the device’s PWM group B fault inputs, i.e., FAULTB1, FAULTB2 and FAULTB3.
The Secondary UNI-3 interface is similar to the circuits contained in Figure 2-13. The
FAULTB1 input can be sourced from the Phase A Over-Current circuit or the DC Bus
Over-Current circuit. Jumper JG16, provides the selection; reference Figure 2-14 and
Table 2-10.
DC BUS VOLTAGE SENSE
V_sense_DCB
+3.3V
+5.0V
+5.0V
+
FAULT0
–
LM393
EXAMPLE DC PHASE CURRENT SENSE
+5.0V
+3.3V
+5.0V
+
FAULT2
PHB_IS
–
LM393
Figure 2-13. DC-Bus Over-Voltage and Phase Over-Current Detection Circuits
MOTOROLA
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Freescale Semiconductor, Inc.
DC BUS CURRENT SENSE
I_sense_DCB
+3.3V
+5.0V
+5.0V
+
–
LM393
Freescale Semiconductor, Inc...
+5.0V
JG2
3
2
FAULTB1
1
+3.3V
+5.0V
PHASE A CURRENT SENSE
+
PHA_IS
–
LM393
Figure 2-14. FAULTB1 Selection Circuit
Table 2-10. FAULTB1 Source Selection Jumper
JG2
Comment
1–2
Phase A Over-Current Sense input
2–3
DC Bus Over-Current Sense input
2.17 Back-EMF and Motor Phase Current Sensing
The primary and secondary UNI-3 connectors supply Back-EMF and Motor Phase
Current signals from the three phases of a motor attached to a motor drive unit. The
Back-EMF signals on the UNI-3 connectors are derived from a resistor divider network
contained in the motor drive unit. These resistors divide down the attached motor’s
Back-EMF voltages to a 0 to +3.3V level. The Motor Phase Current signals are derived
from current sense resistors. Both of these signal groups are then routed to a group of
2-22
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Freescale Semiconductor, Inc.
Zero-Crossing Detection
header pins, JG14, that allow the end user to select which signal group the device’s A/D
will monitor. Refer to Figure 2-15 for the design of a single channel. The Secondary
UNI-3’s Back-EMF signals are simularly derived and routed to a group of header pins,
JG10, that allow the end user to select which signal group the controller’s A/D will
monitor; reference Table 2-8.
Typical Motor Phase-Current/Back-EMF Analog Input Selector
Freescale Semiconductor, Inc...
JG14
BACK_EMF_A
1
PHASE_A_I_SENSE
3
2
AN2
Figure 2-15. Primary Back-EMF or Motor Phase Current Sense Signals
2.18 Quadrature Encoder/Hall-Effect Interface
The 56F807EVM board contains a Primary and Secondary Quadrature
Encoder/Hall-Effect interface connected to the hybrid controller’s first and second Quad
Encoder input ports. The circuit is designed to accept +3.0V to +5.0V encoder or
Hall-Effect sensor inputs. Input noise filtering is supplied on the input path for the
Quadrature Encoder/Hall-Effect interface, along with additional noise rejection circuitry
inside the device. Figure 2-16 contains the primary encoder interface. The secondary
encoder interface is a duplicate of the primary encoder interface.
2.19 Zero-Crossing Detection
An attached UNI-3 motor drive board contains logic that can send out pulses when the
phase voltage of an attached 3-phase motor drops to zero. The motor drive board circuits
generate a 0 to +5.0V DC pulse via voltage comparators. The resulting pulse signals are
sent to a set of jumper blocks shared with the Encoder/Hall-Effect interface. The jumper
blocks allow the selection of Zero-Crossing signals or Quadrature Encoder/Hall-Effect
signals. When in operation, the controller will only monitor one set of signals,
Encoder/Hall-Effect or Zero-Crossing. Figure 2-16 contains the Zero-Crossing and
Encoder/Hall circuits.
MOTOROLA
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Freescale Semiconductor, Inc.
ZERO_X_A
56F807
ZERO_X_B
JG12
1
ZERO_X_C
2
PHASEA1
5
PHASEB
8
INDEX1
3
FILTER
+5.0V
4
6
Freescale Semiconductor, Inc...
1
2
3
4
5
6
PIN 1:
PIN 2:
PIN 3:
PIN 4:
PIN 5:
PIN 6:
FILTER
7
FILTER
9
+5.0V
GROUND
PHASE A
PHASE B
INDEX
HOME
HOME 1
FILTER
Figure 2-16. Zero-Crossing Encoder Interface
2.20 CAN Interface
The 56F807EVM board contains a CAN physical-layer interface chip that is attached to
the MSCAN_RX and MSCAN_TX pins on the 56F807. The EVM board uses a Philips,
PCA82C250, high speed, 1Mbps, physical layer interface chip. Due to the +5.0V
operating voltage of the CAN chip, a pull-up to +5.0V is required to level shift the
Transmit Data output line from the 56F807. A primary, J24, and daisy-chain, J25, CAN
connector are provided to allow easy daisy-chaining of CAN devices. CAN bus
termination of 120 ohms can be provided by adding a jumper to JG3. Refer to Table 2-11
for the CAN connector signals, and to Figure 2-17 for a connection diagram
+5.0V
56F807
1K
CAN Transceiver
MSCAN_TX
MSCAN_RX
TXD
CANH
J24
RXD
x
+5.0V
Daisy-Chain CAN Connector
CAN Connector
VCC
CANL
VREF
SLOPE GND
PCA82C250T
x
x
1
3
5
7
9
J25
2
4
6
8
10
x
x
x
x
x
x
x
1
3
5
7
9
2
4
6
8
10
x
x
x
x
JG3
1
2
CAN Bus
Terminator
120
Figure 2-17. CAN Interface
2-24
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Freescale Semiconductor, Inc.
Software Feature Jumpers
Table 2-11. CAN Header Description
Freescale Semiconductor, Inc...
J24 and J25
Pin #
Signal
Pin #
Signal
1
NC
2
NC
3
CANL
4
CANH
5
GND
6
NC
7
NC
8
NC
9
NC
10
NC
2.21 Software Feature Jumpers
The 56F807EVM board contains two software feature jumpers that allow the user to select
“User Defined” software features. Two GPIO port pins, PD0 and PD1, are pulled high
with 10K ohm resistors on JG16 and JG17. Attaching a jumper will ground the respective
Port D signal line; see Figure 2-18.
56F807
User Jumper # 0
PD0
JG16
1
2
3
+3.3V
10K
10K
User Jumper # 1
PD1
JG17
1
2
3
+3.3V
10K
10K
Figure 2-18. Software Feature Jumpers
MOTOROLA
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Freescale Semiconductor, Inc.
2.22 Peripheral Connectors
Freescale Semiconductor, Inc...
The EVM board contains a group of Peripheral Expansion Connectors used to gain access
to the resources of the 56F807. These signal groups have Expansion Connectors:
•
Port B
•
Port D
•
Port E
•
External Memory Control
•
Encoder A/Timer Channel A
•
Encoder B/Timer Channel B
•
Timer Channel C
•
Timer Channel D
•
Port A/Address Bus
•
Data Bus
•
A/D Input Port A
•
A/D Input Port B
•
Serial Communications Port 0
•
Serial Communications Port 1
•
Serial Peripheral Port
•
PWM Port A
•
PWM Port B
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Freescale Semiconductor, Inc.
Peripheral Connectors
2.22.1 Port B Expansion Connector
Port B is a GPIO port which is connected to the Port B header. The pins of the port,
PB0-PB7, are dedicated to general purpose I/O and Interrupt operations. The GPIO port
pins may be programmed as inputs, outputs or level-sensitive interrupt inputs. Table 2-12
shows the port pin to headed connections.
Table 2-12. Port B Connector Description
Freescale Semiconductor, Inc...
J20
Pin #
Signal
Pin #
Signal
1
PB0
2
PB1
3
PB2
4
PB3
5
PB4
6
PB5
7
PB6
8
PB7
9
GND
10
+3.3V
2.22.2 Port D Expansion Connector
Port D is an MPIO port with signal lines attached to various headers. The six pins of the
port, PD0-PD5, are dedicated to general purpose operation. The remaining two pins, PD6
and PD7, are shared with the TXD1 and RXD1 signal lines. The GPIO port pins may be
programmed as inputs, outputs or level-sensitive interrupt inputs. Table 2-13 shows the
exclusive Port D signals. The shared Port D signals are contained in Table 2-20.
Table 2-13. Port D Connector Description
J23
MOTOROLA
Pin #
Signal
Pin #
Signal
1
PD0
2
PD1
3
PD2
4
PD3
5
PD4
6
PD5
7
GND
8
+3.3V
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Freescale Semiconductor, Inc.
2.22.3 Port E Expansion Connector
Port E is an MPIO port with signal lines attached to various headers. The pins of the port
are shared with one SCI port, SCI0, two Address bus lines, A6 and A7, and the SPI port.
Table 2-14 shows the shared pins and functions
Table 2-14. Port E Connector Description
Freescale Semiconductor, Inc...
J17
Pin #
Signal
Alternate Funct
Pin #
Signal
Alternate Funct
1
PE0
TXD0
2
PE1
RXD0
3
PE2
TXD1
4
PE3
RXD1
5
PE4
SCLK
6
PE5
MOSI
7
PE6
MISO
8
PE7
SS
9
GND
GND
10
+3.3V
+3.3V
2.22.4 External Memory Control Signal Expansion Connector
The External Memory Control Signal connector contains the device’s external memory
control signal lines. Refer to Table 2-15 for the names of these signals.
Table 2-15. External Memory Control Signal Connector Description
J8
2-28
Pin #
Signal
Pin #
Signal
1
RD
2
IRQA
3
WR
4
IRQB
5
PS
6
RESET
7
DS
8
RSTO
9
CLKO
10
DE
11
GND
12
+3.3V
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Peripheral Connectors
2.22.5 Primary Encoder/Timer Channel A Expansion Connector
The Primary Encoder/Timer Channel A port is an MPIO port attached to the Timer A
expansion connector. The port can act as a Quadrature Decoder interface port or as a
general purpose Timer port. See Table 2-16 for the signals attached to the connector.
Table 2-16. Timer A Connector Description
Freescale Semiconductor, Inc...
J18
Pin #
Signal
Alternate
1
TA0
PhaseA0
2
TA1
PhaseB0
3
TA2
INDEX0
4
TA3
HOME0
5
+3.3V
+3.3V
6
GND
GND
2.22.6 Secondary Encoder/Timer Channel B Expansion Connector
The Secondary Encoder/Timer Channel B port is an MPIO port attached to the Timer B
expansion connector. The port can act as a Quadrature Decoder interface port or as a
general purpose Timer port. Refer to Table 2-17 for the signals attached to the connector.
Table 2-17. Timer B Connector Description
J21
MOTOROLA
Pin #
Signal
Alternate
1
TB0
PhaseA1
2
TB1
PhaseB1
3
TB2
INDEX1
4
TB3
HOME1
5
+3.3V
+3.3V
6
GND
GND
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Freescale Semiconductor, Inc.
2.22.7 Timer Channel C Expansion Connector
The Timer Channel C port is an MPIO port attached to the Timer C expansion connector.
Refer to Table 2-18 for the signals attached to the connector.
Table 2-18. Timer C Connector Description
Freescale Semiconductor, Inc...
J19
Pin #
Signal
1
TC0
2
TC1
3
+3.3V
4
GND
2.22.8 Timer Channel D Expansion Connector
The Timer Channel D port is an MPIO port attached to the Timer D expansion connector.
Refer to Table 2-19 for the signals attached to the connector.
Table 2-19. Timer D Connector Description
J22
2-30
Pin #
Signal
1
TD0
2
TD1
3
TD2
4
TD3
5
+3.3V
6
GND
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Peripheral Connectors
2.22.9 Address Bus Expansion Connector
The 16-bit Address bus connector contains the hybrid controller’s external memory
address signal lines. The upper 8 bits, A8 - A15, can also be used as Port A GPIO lines.
See Table 2-20 for the Address bus connector information.
Table 2-20. External Memory Address Bus Connector Description
Freescale Semiconductor, Inc...
J6
MOTOROLA
Pin #
Signal
Pin #
Signal
1
A0
2
A1
3
A2
4
A3
5
A4
6
A5
7
A6
8
A7
9
A8
10
A9
11
A10
12
A11
13
A12
14
A13
15
A14
16
A15
17
GND
18
+3.3V
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Freescale Semiconductor, Inc.
2.22.10 Data Bus Expansion Connector
The 16-bit Data bus connector contains the device’s external memory data signal lines.
Refer to Table 2-21 for the Data bus connector information.
Table 2-21. External Memory Address Bus Connector Description
Freescale Semiconductor, Inc...
J7
Pin #
Signal
Pin #
Signal
1
D0
2
D1
3
D2
4
D3
5
D4
6
D5
7
D6
8
D7
9
D8
10
D9
11
D10
12
D11
13
D12
14
D13
15
D14
16
D15
17
GND
18
+3.3V
2.22.11 A/D Port A Expansion Connector
The 8-channel Analog-to-Digital conversion Port A is attached to this connector. See
Table 2-22 for the connection information.
Table 2-22. A/D Port A Connector Description
J9
2-32
Pin #
Signal
Pin #
Signal
1
AN0
2
AN4
3
AN1
4
AN5
5
AN2
6
AN6
7
AN3
8
AN7
9
GNDA
10
+3.3VA
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Peripheral Connectors
2.22.12 A/D Port B Expansion Connector
The 8-channel Analog-to-Digital conversion Port B is attached to this connector. Refer to
Table 2-23 for the connection information.
Table 2-23. A/D Port B Connector Description
Freescale Semiconductor, Inc...
J12
Pin #
Signal
Pin #
Signal
1
AN8
2
AN12
3
AN9
4
AN13
5
AN10
6
AN14
7
AN11
8
AN15
9
GNDA
10
+3.3VA
2.22.13 Serial Communications Port 0 Expansion Connector
The Serial Communications Port 0, SCI0, is attached to this connector. See Table 2-24 for
the connection information.
Table 2-24. SCI0 Connector Description
J15
MOTOROLA
Pin #
Signal
1
TXD0
2
RXD0
3
GND
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2.22.14 Serial Communications Port 1 Expansion Connector
The Serial Communications Port 1, SCI1, is attached to this connector. Refer to
Table 2-25 for the connection information.
Table 2-25. SCI1 Connector Description
Freescale Semiconductor, Inc...
J14
2.22.15
Pin #
Signal
1
TXD1
2
RXD1
3
GND
Serial Peripheral Interface Expansion Connector
The Serial Peripheral Interface, SPI, is attached to this connector. Refer to Table 2-26 for
the connection information.
Table 2-26. SPI Connector Description
J13
Pin #
Signal
1
MOSI
2
MISO
3
SCLK
4
GND
2.22.16 CAN Expansion Connector
The CAN port is attached to this connector. See Table 2-27 for the connection
information.
Table 2-27. CAN Connector Description
J16
2-34
Pin #
Signal
1
MSCAN_TX
2
MSCAN_RX
3
GND
56F807EVM Hardware User’s Manual
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Go to: www.freescale.com
MOTOROLA
Freescale Semiconductor, Inc.
Peripheral Connectors
2.22.17 PWM Port A Expansion Connector
The PWM Port A is attached to this connector. Refer to Table 2-28 for the connection
information.
Table 2-28. PWM Port A Connector Description
Freescale Semiconductor, Inc...
J10
Pin #
Signal
Pin #
Signal
1
PWMA0
2
PWMA1
3
PWMA2
4
PWMA3
5
PWMA4
6
PWMA5
7
FAULTA0
8
FAULTA1
9
FAULTA2
10
FAULTA3
11
ISA0
12
ISA1
13
ISA2
14
GND
2.22.18 PWM Port B Expansion Connector
The PWM Port B is attached to this connector. Refer to Table 2-29 for the connection
information.
Table 2-29. PWM Port B Connector Description
J11
MOTOROLA
Pin #
Signal
Pin #
Signal
1
PWMB0
2
PWMB1
3
PWMB2
4
PWMB3
5
PWMB4
6
PWMB5
7
FAULTB0
8
FAULTB1
9
FAULTB2
10
FAULTB3
11
ISB0
12
ISB1
13
ISB2
14
GND
Technical Summary
For More Information On This Product,
Go to: www.freescale.com
2-35
Freescale Semiconductor, Inc.
2.23 Test Points
Freescale Semiconductor, Inc...
The 56F807EVM board has a total of eight test points. Four test points are located near the
breadboard area: +3.3VA, AGND, +3.3V and GND. Three test points are located near the
Primary UNI-3 connector, J1: -15VA, GND and +15VA. The final test point, GND, is
located in the upper left corner of the board.
2-36
56F807EVM Hardware User’s Manual
For More Information On This Product,
Go to: www.freescale.com
MOTOROLA
Freescale Semiconductor, Inc.
Freescale Semiconductor, Inc...
Appendix A
56F807EVM Schematics
MOTOROLA
56F807EVM Schematics
For More Information On This Product,
Go to: www.freescale.com
A-1
A-2
56F807EVM Hardware User’s Manual
For More Information On This Product,
Go to: www.freescale.com
1
2
3
4
/PS
/DS
TD0
TD1
TD2
TD3
TC0
TC1
TDI
TDO
TCK
/TRST
TMS
Secondary PFC_PWM
Primary PFC_PWM
Primary PFC_ZERO_CROSSING
Secondary ZERO_CROSSING
Primary PFC_ENABLE
Secondary PFC_ENABLE
JTAG
A
MISO
MOSI
S C LK
/SS
D E B U G _EVENT
TXD1
RXD1
TXD0
RXD0
/ R E S ET
/RSTO
XTAL
EXTAL
CLKO
EXTBOOT
/IRQA
/IRQB
/WR
/RD
Primary serial_com
D[0..15]
A[0..15]
A
TCS
D0
D1
D2
D3
D4
D5
D6
D7
D8
D9
D10
D11
D12
D13
D14
D15
A0
A1
A2
A3
A4
A5
A6
A7
A8
A9
A10
A11
A12
A13
A14
A15
145
146
144
143
136
137
134
132
135
133
121
130
131
126
127
128
129
55
56
159
160
98
97
92
93
158
86
69
70
21
22
19
20
23
24
25
26
27
28
29
30
31
32
33
35
36
37
38
39
1
2
3
4
5
6
7
8
10
11
12
13
14
15
16
17
U1A
MISO
MOSI
SCLK
SS
TDI
TDO
TCK
TRST
TMS
TCS
DE
TC0
TC1
TD0
TD1
TD2
TD3
TXD1
RXD1
TXD0
RXD0
RESET
RSTO
XTAL
EXTAL
CLKO
XBOOT
IRQA
IRQB
WR
RD
PS
DS
D0
D1
D2
D3
D4
D5
D6
D7
D8
D9
D10
D11
D12
D13
D14
D15
A0
A1
A2
A3
A4
A5
A6
A7
A8
A9
A10
A11
A12
A13
A14
A15
B
D S P 5 6F807FV80
MSCAN_TX
MSCAN_RX
ANA8
ANA9
ANA10
ANA11
ANA12
ANA13
ANA14
ANA15
VRH2
PHA1
PHB1
INDEX1
HOME1
PWMB0
PWMB1
PWMB2
PWMB3
PWMB4
PWMB5
ISB0
ISB1
ISB2
FAULTB0
FAULTB1
FAULTB2
FAULTB3
ANA0
ANA1
ANA2
ANA3
ANA4
ANA5
ANA6
ANA7
VRH
PHA0
PHB0
INDEX0
HOME0
PWMA0
PWMA1
PWMA2
PWMA3
PWMA4
PWMA5
ISA0
ISA1
ISA2
FAULTA0
FAULTA1
FAULTA2
FAULTA3
MPIOD0
MPIOD1
MPIOD2
MPIOD3
MPIOD4
MPIOD5
MPIOB0
MPIOB1
MPIOB2
MPIOB3
MPIOB4
MPIOB5
MPIOB6
MPIOB7
B
139
142
113
114
115
116
117
118
119
120
110
151
152
154
155
57
58
59
60
61
62
64
66
67
71
72
73
74
102
103
104
105
106
107
108
109
99
147
148
149
150
75
77
78
79
80
81
123
124
125
82
83
84
85
49
50
51
52
53
54
40
41
42
43
44
45
46
47
UNI-3
UNI-3
UNI-3
UNI-3
UNI-3
UNI-3
UNI-3
UNI-3
UNI-3
UNI-3
AN8
AN9
A N 10
A N 11
A N 12
A N 13
A N 14
A N 15
0
1
2
3
4
5
OVER VOLTAGE
PHASE A OVER CURRENT
PHASE B OVER CURRENT
PHASE C OVER CURRENT
PWM
PWM
PWM
PWM
PWM
PWM
U3_V_SENSE_DCB
U3_I_SENSE_DCB
U3_I/BK_EMF_SENSE_A
U3_I/BK_EMF_SENSE_B
U3_I/BK_EMF_SENSE_C
U3_TEMP_SENSE
C
U3_V_SENSE_DCB
U3_I_SENSE_DCB
U3_I/BK_EMF_SENSE_A
U3_I/BK_EMF_SENSE_B
U3_I/BK_EMF_SENSE_C
U3_TEMP_SENSE
CAN
Secondary
Secondary
Secondary
Secondary
Secondary
Secondary
SECONDARY ENCODER
HALL EFFECT /
ZERO CROSSING
Secondary
Secondary
Secondary
Secondary
Secondary
Secondary
Secondary
Secondary
Secondary
Secondary
Primary
Primary
Primary
Primary
Primary
Primary
M S C A N_TX
MSCAN_RX
P H ASEA1
P H ASEB1
I N D E X1
HOME1
P W MB0
P W MB1
P W MB2
P W MB3
P W MB4
P W MB5
ISB0
ISB1
ISB2
F A U LTB0
F A U LTB1
F A U LTB2
F A U LTB3
AN0
AN1
AN2
AN3
AN4
AN5
AN6
AN7
0
1
2
3
4
5
OVER VOLTAGE
PHASE A OVER CURRENT
PHASE B OVER CURRENT
PHASE C OVER CURRENT
PWM
PWM
PWM
PWM
PWM
PWM
PRIMARY ENCODER
HALL EFFECT /
ZERO CROSSING
UNI-3
UNI-3
UNI-3
UNI-3
UNI-3
UNI-3
UNI-3
UNI-3
UNI-3
UNI-3
B
Size
Title
C8
0.1uF
+ 3 .3VA
D
D
1K
C7
0.1uF
+
+3.3VA
+3.3V
E
C2
2.2uF
E
1
of
18
1.0
Rev.
FAX: (480) 413-2510
Sheet
(480) 413-5090
2100 East Elliot Road
Tempe, Arizona 85284
DSP Standard Products Division
+
Designer: DSPD Design
TCS
C1
2.2uF
65
138
87
88
96
9
34
63
94
153
140
89
R 1 24
VCAPC1
VCAPC2
VSSA_AREG1
VDDA_AREG1
VDDA_CORE1
VDD_IO1
VDD_IO2
VDD_IO3
VDD_IO4
VDD_IO5
VDD_IO6
VDD_IO7
D S P 5 6F807FV80
VSSA_ADC1
VSSA_ADC2
VDDA_ADC1
VDDA_ADC2
VPP
VPP2
VSS_IO1
VSS_IO2
VSS_IO3
VSS_IO4
VSS_IO5
VSS_IO6
VSS_IO7
VSS_IO8
VSS_IO9
63A10516S
112
101
111
100
156
68
18
48
76
95
157
141
91
90
122
U1B
Date: Monday, October 16, 2000
Document
Number
DSP56F807 Processor
Figure A-1. 56F807 Processor
+ 3 .3VA
+ 3 .3VA
P H ASEA0
P H ASEB0
I N D E X0
HOME0
Primary
Primary
Primary
Primary
Primary
Primary
Primary
Primary
Primary
Primary
GP PUSH BUTTON 1
GP PUSH BUTTON 2
START/STOP SW
USER JUMPER #1
USER JUMPER #2
SERIAL D/A /CS
PRIMARY UNI-3 BRAKE CONTROL
SECONDARY UNI-3 BRAKE CONTROL
SECONDARY serial_con
USER LED: RED
USER LED: YELLOW
USER LED: GREEN
P W MA0
P W MA1
P W MA2
P W MA3
P W MA4
P W MA5
ISA0
ISA1
ISA2
F A U LTA0
F A U LTA1
F A U LTA2
F A U LTA3
PD0
PD1
PD2
PD3
PD4
PD5
PB0
PB1
PB2
PB3
PB4
PB5
PB6
PB7
C
Freescale Semiconductor, Inc...
1
2
3
4
Freescale Semiconductor, Inc.
MOTOROLA
MOTOROLA
56F807EVM Schematics
For More Information On This Product,
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1
2
3
4
Y1
8.00MHz
A
A
+3.3V
3
2
3
2
DS1818
1
RST
DS1818
DNP
GND
Vcc
U17
OPTIONAL
1
RESET PUSHBUTTON
S1
10M
R1
2
2
/POR
B
R125
10K
+3.3V
1
JG6
A
Size
Title
XTAL
EXTAL
63A10516S
C
Date: Monday, October 16, 2000
Document
Number
RESET, MODE, CLOCK & IRQS
S3
2
1
JG7
D
D
EXTBOOT
/IRQB
/IRQA
E
E
of
18
1.0
Rev.
FAX: (480) 413-2510
Sheet 2
(480) 413-5090
2100 East Elliot Road
Tempe, Arizona 85284
DSP Standard Products Division
R84
10K
+3.3V
C68
0.1uF
R83
10K
+3.3V
C67
0.1uF
R82
10K
+3.3V
Designer: D S P D D e s i g n
IRQB PUSHBUTTON
S2
IRQA PUSHBUTTON
BOOT MODE JUMPER
EXT BOOT
NC
INT BOOT 1 - 2
C
Figure A-2. Reset, Mode,Clock & IRQS
/POR
OSC BYPASS
1
3
JG5
B
Freescale Semiconductor, Inc...
1
2
3
4
Freescale Semiconductor, Inc.
A-3
A-4
56F807EVM Hardware User’s Manual
For More Information On This Product,
Go to: www.freescale.com
1
2
3
4
NC
SRAM DISABLE
A
1 - 2
SRAM ENABLE
SRAM ENABLE JUMPER
OPTION
JG8
A
B
B
D
A
Size
Title
R86
1K
/RD
/WR
R87
1K
41
17
6
39
40
5
4
3
2
1
44
43
42
27
26
25
24
21
20
19
18
22
U2
VSS
VSS
VDD
VDD
DQ1
DQ2
DQ3
DQ4
DQ5
DQ6
DQ7
DQ8
DQ9
DQ10
DQ11
DQ12
DQ13
DQ14
DQ15
DQ16
GS72116TP-12
OE
WE
CE
LB
UB
A0
A1
A2
A3
A4
A5
A6
A7
A8
A9
A10
A11
A12
A13
A14
A15
A16
63A10516S
C
Date: Monday, October 16, 2000
Document
Number
PROGRAM & DATA SRAM MEMORY
R85
10K
A0
A1
A2
A3
A4
A5
A6
A7
A8
A9
A10
A11
A12
A13
A14
A15
D0
D1
D2
D3
D4
D5
D6
D7
D8
D9
D10
D11
D12
D13
D14
D15
+3.3V
D
E
E
of
18
1.0
Rev.
FAX: (480) 413-2510
Sheet 3
(480) 413-5090
2100 East Elliot Road
Tempe, Arizona 85284
DSP Standard Products Division
D[0..15]
Designer: D S P D D e s i g n
12
34
11
33
7
8
9
10
13
14
15
16
29
30
31
32
35
36
37
38
Figure A-3. Program & Data SRAM Memory
1
2
JG8
+3.3V
A[0..15]
/PS
64Kx16-bit Program and 64Kx16-bit Data Memory
C
Freescale Semiconductor, Inc...
1
2
3
4
Freescale Semiconductor, Inc.
MOTOROLA
MOTOROLA
56F807EVM Schematics
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1
2
3
4
1 - 2
RS-232 DISABLE
A
N/C
RS-232 ENABLE
RS-232 SHUTDOWN JUMPER
A
1
2
JG9
B
R90
1K
+3.3V
RXD0
TXD0
A
Size
Title
/EN
1
1
1
1
1
T2IN
T3IN
22
23
20
19
18
17
16
15
14
13
12
2
24
1
28
GND
V+
V-
VCC
INVALID
R1IN
R2IN
R3IN
R4IN
R5IN
T1OUT
T2OUT
T3OUT
21
4
5
6
7
8
9
10
11
25
27
3
26
T12
T13
1
T22
R2IN
R3IN
R4IN
R5IN
1
1
C63 +
1.0uF
1.0uF
C62
+3.3V
63A10516S
C
Date: Monday, November 27, 2000
Document
Number
RS-232 AND SCI CONNECTORS
MAX3245EEAI
FORCEOFF
FORCEON
R2OUTB
R1OUT
R2OUT
R3OUT
R4OUT
R5OUT
T1IN
T2IN
T3IN
C2-
C1C2+
C1+
U13
C
+
D
P3
TXD
CTS
RXD
RTS
DTR
DCD
DSR
D
1K
1K
R94
R95
R4IN
R5IN
1K
1K
1K
1K
1K
R93
R92
R91
R89
R88
R3IN
R2IN
T3IN
T2IN
/EN
E
+3.3V
E
of
18
1.0
Rev.
FAX: (480) 413-2510
Sheet 4
(480) 413-5090
2100 East Elliot Road
Tempe, Arizona 85284
DSP Standard Products Division
SCI0
RS-232
CONNECTOR
1
6
2
7
3
8
4
9
5
Designer: D S P D D e s i g n
Figure A-4. RS-232 and SCI Connectors
T14
T15
T16
T17
T21
+
C61
1.0uF
+
C60
1.0uF
B
Freescale Semiconductor, Inc...
1
2
3
4
Freescale Semiconductor, Inc.
A-5
A-6
56F807EVM Hardware User’s Manual
For More Information On This Product,
Go to: www.freescale.com
1
2
3
4
A
A
+3.3V
+3.3V
5.1K
R96
/RSTO
PB4
SCLK
MISO
MOSI
11
14
7
8
10
12
9
20
A
Size
Title
FBA
AGND
UP0
FBD
OUTD
OUTC
FBC
REFCD
REFAB
FBB
OUTB
OUTA
1
13
19
18
17
16
15
6
5
4
3
2
1
T18
+Vref
63A10516S
C
Date: Monday, October 16, 2000
Document
Number
D
D/A0
D/A1
D/A2
D/A3
+Vref
J26
2
4
6
8
R97
10K
+3.3VA
1
3
5
7
Sheet 5
E
of
18
1.0
Rev.
FAX: (480) 413-2510
2100 East Elliot Road
Tempe, Arizona 85284
(480) 413-5090
Designer: D S P D D e s i g n
D
E
DSP Standard Products Division
SERIAL D/A CONNECTOR
D E B U G S E RIAL 4-CHANNEL D/A CONVERTER
MAX5251BEAP
DGND
PDL
CL
CS
SCLK
DOUT
DIN
VDD
U14
C
Figure A-5. Debug Serial 4-Channel D/A Converter
B
B
Freescale Semiconductor, Inc...
1
2
3
4
Freescale Semiconductor, Inc.
MOTOROLA
MOTOROLA
56F807EVM Schematics
For More Information On This Product,
Go to: www.freescale.com
1
2
3
4
PB2
PB1
PB0
PWMA5
PWMA4
PWMA3
PWMA2
PWMA1
PWMA0
A
A
13
9
3
3
74AC04
U12B
74AC04
U15F
74AC04
U15D
74AC04
U15B
12
8
4
4
11
5
1
5
1
B
74AC04
U12C
74AC04
U12A
74AC04
U15E
74AC04
U15C
74AC04
U15A
B
10
6
2
6
2
63A10516S
C
Date: Monday, October 16, 2000
Document
Number
+3.3V
D
D
E
E
of
18
1.0
Rev.
FAX: (480) 413-2510
Sheet 6
(480) 413-5090
2100 East Elliot Road
Tempe, Arizona 85284
DSP Standard Products Division
USER
LEDS
PWM STATE
LEDS
Designer: D S P D D e s i g n
G R EEN LED
Y E L L O W LED
RED LED
G R EEN LED
Y E L L O W LED
G R EEN LED
Y E L L O W LED
G R EEN LED
Y E L L O W LED
PWM PORT A AND 3 USER LEDS
LED3
LED2
LED1
LED9
LED8
LED7
LED6
LED5
LED4
+3.3V
Figure A-6. PWMA and 3 User LEDs
A
Size
Title
270
R106
270
R105
270
R104
270
R103
270
R102
270
R101
270
R100
270
R99
270
R98
C
Freescale Semiconductor, Inc...
1
2
3
4
Freescale Semiconductor, Inc.
A-7
d
1
2
3
4
BK_EMF_B
PHASE B ZERO CROSSING
PHASE B BACK EMF
PFC_PWM
PFC_ZERO_CROSS
RXD1
TC0
2
4
6
8
10
12
14
16
18
20
22
24
26
28
30
32
34
36
38
40
SERIAL_COMM
PFC_INHIBIT
1
3
5
7
J G 15
2
4
6
8
SERIAL_COMM
PFC_INHIBIT
TD1
TD2
+ 5 . 0 V _ U NI3
GNDA +3.3VA
U3_-15
U3_I_S_DCB
GND
PRIMARY UNI-3 CONNECTOR
PFC_PWM
PFC_ZERO_CROSS
GNDA
U3_+15
U3_V_S_DCB
GND
J1
1
3
5
7
9
11
13
15
17
19
21
23
25
27
29
31
33
35
37
39
AN0
A
(U3_V_S_DCB)
UNI-3 OVER-VOLTAGE
SENSE
PHASE
PHASE
PHASE
PHASE
A
C
A
C
ZERO
ZERO
BACK
BACK
CROSSING
CROSSING
EMF
EMF
B
2
3
-
+
1M
LM393
U16A
+ 5 .0V
R109
1
F A U LTA0
DSP PWM 0
FAULT SENSE A0
R 1 10
5.1K
+ 3 .3V
C
PFC_PWM JUMPER
PFC_ZERO_CROSSING JUMPER
ZERO_X_A
Z E RO_X_C
B K _ E M F_A
BK_EMF_C
B
Size
Title
TP2
-15VA
+15VA
(480) 413-5090
63A10516S
D
Date: Tuesday, October 24, 2000
Document
Number
Designer: DSPD Design
E
Sheet 7
of
18
1.0
Rev.
FAX: (480) 413-2510
2100 East Elliot Road
Tempe, Arizona 85284
DSP Standard Products Division
E
PRIMARY UNI-3 INTERFACE AND OVER-VOLTAGE FAULT DETECTION
U 3 _ -15
U3_+15
TP1
UNI-3 +/- 15 VOLT ANALOG
AT THE BREAD BOARD AREA
D
Figure A-7. Primary UNI-3 Interface and Over-Voltage Fault Detection
R 1 11
10K
+5.0V
16K
C65
0.1uF
R 1 08
R 1 07
16K
C
AN1
MOTOR BUS CURRENT SENSE
U 3 _ P H B _IS MOTOR PHASE B CURRENT SENSE
AN5
MOTOR DRIVE TEMPERATURE SENSE
PRIMARY UNI-3 OVER-VOLTAGE FAULT DETECTION
JUMPER
JUMPER
PB5
ZERO_X_B
MOTOR DRIVE BRAKE CONTROL
AN0
MOTOR BUS VOLTAGE SENSE
MOTOR PHASE A CURRENT SENSE U 3 _ P H A _IS
MOTOR PHASE C CURRENT SENSE U 3 _ P H C _ I S
serial_COM
PFC_ENABLE
P W MA0
P W MA1
P W MA2
P W MA3
P W MA4
P W MA5
+ 5 . 0 V _ U NI3
PWM_AT
PWM_AB
PWM_BT
PWM_BB
PWM_CT
PWM_CB
B
8
56F807EVM Hardware User’s Manual
For More Information On This Product,
Go to: www.freescale.com
4
1
A-8
1
A
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56F807EVM Schematics
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1
2
3
SU3_BK_EMF_B
GND
SU3_PFC_PWM
SU3_PFC_ZERO_CROSS
PB7
TC1
2
4
6
8
10
12
14
16
18
20
22
24
26
28
30
32
34
36
38
40
SU3_SERIAL_COMM
SU3_PFC_INHIBIT
SU3_I_S_DCB
GNDA
GND
1
3
5
7
J G 11
2
4
6
8
SU3_SERIAL_COMM
SU3_PFC_INHIBIT
SECONDARY UNI-3 CONNECTOR
SU3_PFC_PWM
SU3_PFC_ZERO_CROSS
SU3_V_S_DCB
GNDA
J2
1
3
5
7
9
11
13
15
17
19
21
23
25
27
29
31
33
35
37
39
TD0
TD3
PHASE
PHASE
PHASE
PHASE
A
B
A
C
ZERO
ZERO
BACK
BACK
CROSSING
CROSSING
EMF
EMF
SECONDARY UNI-3 DC BUS CURRENT SENSE
MOTOR PHASE B CURRENT SENSE
MOTOR DRIVE TEMPERATURE SENSE
PFC PWM JUMPER
PFC ZERO CROSSING JUMPER
S U 3_ZERO_X_A
S U 3 _ Z ERO_X_C
SU3_BK_EMF_A
S U 3 _BK_EMF_C
AN9
S U 3 _ P H B_IS
AN13
C
A
SECONDARY UNI-3
OVER-VOLTAGE SENSE
(SU3_V_S_DCB)
AN8
16K
R 1 12
R 1 16
10K
B
6
5
-
+
1M
7
LM393
U 1 6B
+5.0V
R 1 14
F A ULTB0
DSP PWM 1
FAULT SENSE B0
R 1 15
5.1K
+3.3V
C
B
Size
Title
63A10516S
D
Date: Tuesday, October 24, 2000
Document
Number
E
Designer: DSPD Design
E
of
18
1.0
Rev.
FAX: (480) 413-2510
Sheet 8
(480) 413-5090
2100 East Elliot Road
Tempe, Arizona 85284
DSP Standard Products Division
SECONDARY UNI-3 AND OVER-VOLTAGE FAULT DETECTION
D
Figure A-8. Secondary UNI-3 and Over-Voltage Detection
+ 5 .0V
16K
C66
0.1uF
R 1 13
SECONDARY UNI-3 OVER-VOLTAGE FAULT DETECTION
Secondary Serial_COM JUMPER
PFC_ENABLE JUMPER
PHASE B BACK EMF
S U 3_ZERO_X_B
PB6
MOTOR DRIVE BRAKE CONTROL
PHASE C ZERO CROSSING
AN8
S U 3 _ P H A_IS
SU3_PHC_IS
P W MB0
P W MB1
P W MB2
P W MB3
P W MB4
P W MB5
MOTOR PHASE A CURRENT SENSE
MOTOR PHASE C CURRENT SENSE
PWM_AT
PWM_AB
PWM_BT
PWM_BB
PWM_CT
PWM_CB
B
8
MOTOROLA
4
4
A
Freescale Semiconductor, Inc...
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Freescale Semiconductor, Inc.
A-9
A-10
56F807EVM Hardware User’s Manual
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1
2
3
4
S5
GP SW-2
S4
GP SW 1
PD4
PD3
B
A
+3.3V
10K
R119
10K
R118
10K
R117
S6
PD5
PD4
PD3
RUN/STOP
A
Size
Title
User
Jumper
#0
PD1
63A10516S
C
Date: Monday, October 16, 2000
Document
Number
R123
10K
Sheet
9
E
of
18
1.0
Rev.
FAX: (480) 413-2510
2100 East Elliot Road
Tempe, Arizona 85284
(480) 413-5090
Designer: D S P D D e s i g n
D
User
Jumper
#1
E
DSP Standard Products Division
1
2
3
R121
10K
JG17
+3.3V
SOFTWARE FEATURE JUMPERS
R122
10K
1
2
3
R120
10K
JG16
+3.3V
D
U S E R G E N E R A L P U R P O S E SWITCHES AND JUMPERS
PD0
C
Figure A-9. User General Purpose Switches and Jumpers
B
PD5
GENERAL PURPOSE SWITCHES
A
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MOTOROLA
56F807EVM Schematics
For More Information On This Product,
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1
2
3
4
A
A
8
5
2
9
A
Size
Title
AN4
AN3
AN2
SU3_BK_EMF_C
SU3_BK_EMF_B
SU3_BK_EMF_A
SU3_PHC_IS
SU3_BK_EMF_C
SU3_PHB_IS
SU3_BK_EMF_B
SU3_PHA_IS
SU3_BK_EMF_A
7
8
5
2
8
JG10
9
7
6
4
3
1
9
JG10
D
63A10516S
C
Date: Monday, October 16, 2000
Document
Number
Sheet 1 0
E
of
18
1.0
Rev.
FAX: (480) 413-2510
2100 East Elliot Road
Tempe, Arizona 85284
(480) 413-5090
Designer: D S P D D e s i g n
D
E
DSP Standard Products Division
SU3_PHC_IS
SU3_PHB_IS
SU3_PHA_IS
AN12
AN11
AN10
M O T O R PHASE-CURRENT/BACK-EMF VOLTAGE ANALOG INPUT SELECTOR
C
Figure A-10. Motor Phase-Current/Back-EMF Voltage Analog Input Selector
B
U3_PHC_IS
U3_BK_EMF_C
8
U3_PHB_IS
U3_BK_EMF_B
7
U3_PHA_IS
U3_BK_EMF_A
JG14
9
6
U3_PHB_IS
7
4
BK_EMF_B
U3_PHC_IS
3
U3_PHA_IS
BK_EMF_C
1
JG14
BK_EMF_A
B
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A-11
56F807EVM Hardware User’s Manual
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1
2
3
4
AN1
R36
10K
+5.0V
16K
R16
16K
16K
A
16K
R28
16K
16K
16K
R29
P R I _ O V E R _ I_LIMIT
C15
0.1uF
C13
0.1uF
16K
R25
U 3 _ I _ L I M IT_REF
C11
0.1uF
R17
U 3 _ I _ L I M IT_REF
R9
C9
0.1uF
U 3 _ I _ L I M IT_REF
R8
R24
U3_I_S_DCB
U3_PHC_IS
U 3 _ P H B _IS
U 3 _ P H A _IS
R2
10K
+5.0V
-
+
-
+
-
+
-
+
LM393
U3B
7
7
1
1
R34
5.1K
+3.3V
R22
5.1K
+3.3V
R14
5.1K
+3.3V
R6
5.1K
+3.3V
P _ O I _FAULT
P _ P H A_IS
3
1
2
JG1
F A U LTA1
PRIMARY UNI-3
DC BUS OVER-CURRENT
FAULT SENSE A1
F A U LTA3
PRIMARY UNI-3
PHASE C CURRENT
FAULT SENSE A3
F A U LTA2
PRIMARY UNI-3
PHASE B CURRENT
FAULT SENSE A2
P _ P H A_IS
PRIMARY UNI-3
PHASE A CURRENT
FAULT SENSE A1
B
PRIMARY UNI-3
PHASE A CURRENT/DC BUS CURRENT
FAULT SENSE A1
B
C
C
R37
10K
AN9
S U 3 _ P H C _ IS
S U 3 _ P HB_IS
S U 3 _ P H A_IS
+ 5 .0V
B
Size
Title
16K
16K
16K
C16
0.1uF
C14
0.1uF
16K
R32
16K
R27
SU3_I_LIMIT_REF
C12
0.1uF
R19
SU3_I_LIMIT_REF
C10
0.1uF
R11
SU3_I_LIMIT_REF
D
6
5
6
-
+
-
1M
LM393
U5A
-
+
1M
LM393
U6B
7
LM393
U5B
+5.0V
+ 5 .0V
+
1M
LM393
U6A
+5.0V
R21
2
3
R33
5
-
+
R13
2
3
1M
+5.0V
R5
7
1
1
S _ O I _ FAULT
S _ P H A_IS
63A10516S
D
Date: Monday, October 16, 2000
Document
Number
3
1
2
JG2
F A ULTB1
SECONDARY UNI-3
DC BUS OVER-CURRENT
FAULT SENSE B1
F A U LTB3
SECONDARY UNI-3
PHASE C CURRENT
FAULT SENSE B3
F A U LTB2
SECONDARY UNI-3
PHASE B CURRENT
FAULT SENSE B2
S _ P H A_IS
SECONDARY UNI-3
PHASE A CURRENT
FAULT SENSE B1
E
Designer: DSPD Design
E
18
1.0
Rev.
FAX: (480) 413-2510
Sheet 11 of
(480) 413-5090
2100 East Elliot Road
Tempe, Arizona 85284
DSP Standard Products Division
SECONDARY UNI-3
PHASE A CURRENT/DC BUS CURRENT
FAULT SENSE B1
R35
5.1K
+ 3 .3V
R23
5.1K
+3.3V
R15
5.1K
+3.3V
R7
5.1K
+3.3V
PRIMARY AND SECONDARY 3-PHASE OVER CURRENT SENSE
S E C _ O V ER_I_LIMIT
16K
R26
16K
R18
16K
R10
R31
R3
10K
+ 5 .0V
Figure A-11. Primary and Secondary 3-Phase Over-Current Sense
6
5
1M
LM393
U4B
+5.0V
R30
6
5
1M
LM393
U4A
+5.0V
R20
2
3
1M
LM393
U3A
+5.0V
R12
2
3
1M
+5.0V
R4
8
4
8
4
8
4
8
4
8
4
8
4
8
4
8
A-12
4
A
Freescale Semiconductor, Inc...
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MOTOROLA
56F807EVM Schematics
For More Information On This Product,
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1
2
3
4
PIN
PIN
PIN
PIN
PIN
PIN
1:
2:
3:
4:
5:
6:
A
J4
1
2
3
4
5
6
B
A
Size
Title
R44
1K
+5.0V
C19
470pF
24 Ohm
R40
D
CONNECT
E
ZERO_X_C
ZERO_X_B
ZERO_X_A
9
7
6
4
3
1
8
5
2
JG12
(480) 413-5090
63A10516S
C
Date: Monday, October 16, 2000
Document
Number
D
Designer: D S P D D e s i g n
Sheet 1 2
E
of
18
1.0
Rev.
FAX: (480) 413-2510
2100 East Elliot Road
Tempe, Arizona 85284
DSP Standard Products Division
HOME0
INDEX0
PHASEB0
PHASEA0
1-2: ZERO CROSSING
2-3: ENCODER/HALL EFFECT
UNI-3: ZERO CROSSING
24 Ohm
C21
470pF
24 Ohm
24 Ohm
R43
C20
470pF
24 Ohm
R39
R46
24 Ohm
R42
R38
1K
+5.0V
R45
R41
1K
+5.0V
C
PRIMARY ZERO-CROSSING/QUADRATURE-ENCODER OR HALL-EFFECT SELECTOR
24 Ohm
C22
470pF
R49
C18
2.2uF
24 Ohm
+
+5.0V
R48
R47
1K
+5.0V
C17
0.1uF
B
Figure A-12. Primary Zero-Crossing/Quadrature-Encoder or Hall-Effect Selector
+5.0V
GROUND
PHASE A
PHASE B
INDEX
HOME
ENCODER/
HALL-EFFECT
CONNECTOR
A
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1
2
3
4
PIN
PIN
PIN
PIN
PIN
PIN
1:
2:
3:
4:
5:
6:
A
J5
1
2
3
4
5
6
R60
+
B
C28
470pF
24 Ohm
R59
1K
+5.0V
C23
0.1uF
+5.0V
B
C24
2.2uF
R61
A
Size
Title
24 Ohm
24 Ohm
R57
R51
24 Ohm
24 Ohm
R52
C25
470pF
24 Ohm
R55
C26
470pF
24 Ohm
R58
CONNECT
E
SU3_ZERO_X_C
SU3_ZERO_X_B
SU3_ZERO_X_A
9
7
6
4
3
1
8
5
2
JG13
(480) 413-5090
FAX: (480) 413-2510
2100 East Elliot Road
Tempe, Arizona 85284
DSP Standard Products Division
HOME1
INDEX1
PHASEB1
PHASEA1
1-2: ZERO CROSSING
2-3: ENCODER/HALL-EFFECT
SECONDARY UNI-3: ZERO CROSSING
C27
470pF
24 Ohm
R54
R50
1K
+5.0V
D
63A10516S
C
Date: Monday, October 16, 2000
Document
Number
D
Designer: D S P D D e s i g n
Sheet 1 3
E
of
18
1.0
Rev.
SECONDARY ZERO-CROSSING/QUADRATURE-ENCODER OR HALL-EFFECT SELECTOR
R56
1K
+5.0V
R53
1K
+5.0V
C
Figure A-13. Secondary Zero-Crossing/Quadrature-Encoder or Hall-Effect Selector
+5.0V
GROUND
PHASE A
PHASE B
INDEX
HOME
SECONDARY
ENCODER/
HALL-EFFECT
CONNECTOR
A
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1
2
3
4
TB0
TB1
TB2
TB3
TA0
TA1
TA2
TA3
P H ASEA1
PHASEB1
I N D E X1
H O M E1
P H ASEA0
P H ASEB0
I N D E X0
H O M E0
A
+ 3 .3V
+ 3 .3V
MOSI
MISO
SCLK
A[0..15]
A
TIMER CHANNEL B
1
2
3
4
5
6
J21
TIMER CHANNEL A
1
2
3
4
5
6
J18
SPI
1
2
3
4
J13
P W MA0
P W MA2
P W MA4
F A U LTA0
F A U LTA2
ISA0
ISA2
A0
A2
A4
A6
A8
A10
A12
A14
2
4
6
8
10
12
14
16
18
2
4
6
8
10
12
14
PWM1
1
3
5
7
9
11
13
J10
ADDRESS BUS
1
3
5
7
9
11
13
15
17
J6
TD0
TD1
TD2
TD3
TC0
TC1
+3.3V
+3.3V
+3.3V
1
2
3
4
5
6
J22
TIMER CHANNEL C
1
2
3
4
J19
SCI1
1
2
3
J14
A[0..15]
B
PD0
PD2
PD4
PB0
PB2
PB4
PB6
TXD0
RXD0
D[0..15]
2
4
6
8
10
2
4
6
8
PORT D
1
3
5
7
J23
PORT B
1
3
5
7
9
J20
SCI0
1
2
3
J15
D0
D2
D4
D6
D8
D10
D12
D14
C
P W MB0
P W MB2
P W MB4
F A U LTB0
F A U LTB2
ISB0
ISB2
C
+ 3 .3V
+ 3 .3V
2
4
6
8
10
12
14
16
18
2
4
6
8
10
12
14
PD1
PD3
PD5
PB1
PB3
PB5
PB7
PWM2
1
3
5
7
9
11
13
J11
DATA BUS
1
3
5
7
9
11
13
15
17
J7
M S C A N_TX
MSCAN_RX
B
Size
Title
+ 3 .3V
CAN
1
2
3
J16
D[0..15]
D
PE0
PE2
PE4
PE6
TXD0
TXD1
SCLK
MISO
AN8
AN9
A N 10
A N 11
AN0
AN1
AN2
AN3
/RD
/WR
/PS
/DS
C L KO
63A10516S
D
Date: Monday, October 16, 2000
Document
Number
2
4
6
8
10
12
2
4
6
8
10
2
4
6
8
10
2
4
6
8
10
+3.3V
+ 3 .3VA
+ 3 .3VA
+ 3 .3V
E
R X D0
R X D1
MOSI
/SS
A N 12
A N 13
A N 14
A N 15
AN4
AN5
AN6
AN7
PE1
PE3
PE5
PE7
/IRQA
/IRQB
/ R E S ET
/RSTO
D E B U G _EVENT
E
18
1.0
Rev.
FAX: (480) 413-2510
Sheet 14 of
(480) 413-5090
2100 East Elliot Road
Tempe, Arizona 85284
DSP Standard Products Division
PORT E
1
3
5
7
9
J17
DSP A/D
Port B
1
3
5
7
9
J12
DSP A/D
Port A
1
3
5
7
9
J9
ADDRESS CONTROL
1
3
5
7
9
11
J8
Designer: DSPD Design
DSP PORT EXPANSION CONNECTORS
P W MB1
P W MB3
P W MB5
F A U LTB1
F A U LTB3
ISB1
D1
D3
D5
D7
D9
D11
D13
D15
Figure A-14. Port Expansion Connectors
TIMER CHANNEL D
P W MA1
P W MA3
P W MA5
F A U LTA1
F A U LTA3
ISA1
TXD1
R X D1
A1
A3
A5
A7
A9
A11
A13
A15
B
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56F807EVM Hardware User’s Manual
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1
2
3
4
A
M S C A N _ TX
MSCAN_RX
A
R62
1K
+5.0V
8
1
4
GND
CANH
CANL
VCC
VREF
PCA82C250T
SLOPE
TXD
RXD
U8
B
B
2
7
6
3
5
T19
2
4
6
8
10
CANL
CANH
63A10516S
C
Date: Monday, October 16, 2000
Document
Number
HIGH-SPEED CAN INTERFACE
1
3
5
7
9
J24
1
2
JG3
D
E
CANL
2
4
6
8
10
CANH
E
of
18
1.0
Rev.
FAX: (480) 413-2510
Sheet 1 5
(480) 413-5090
2100 East Elliot Road
Tempe, Arizona 85284
DSP Standard Products Division
1
3
5
7
9
J25
DAISY-CHAIN
CAN BUS CONNECTOR
CAN BUS
TERMINATION
D
Designer: D S P D D e s i g n
R63
120
1/4W
CAN BUS CONNECTOR
Figure A-15. High-Speed CAN Interface
A
Size
Title
CANH
CANL
1
+5.0V
C
Freescale Semiconductor, Inc...
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1
2
3
A
P_RESET
R77
47K
DB25M
13
12
11
10
9
8
7
6
5
4
3
2
1
Q1
2 N 2222A
R73
5.1K
+3.3V
B
/ J _ R E SET
P O R T _ C O NNECT
P O RT_TDO
P O R T _ VCC
P O R T_DE
/ P O RT_TRST
P O R T _TDI
P O RT_TCK
PORT_TMS
PORT_RESET
/J_TRST
/POR
/ J _ R E SET
74AC00
R76
+3.3V
/J_TRST
47K
R74
47K
C
13
7 4 AC00
U18D
12
U 1 8B
U18C
5
4
7 4 AC00
8
3
JG4
+3.3V
T20
11
6
B
Size
Title
1
R72
5.1K
20
1
19
3
5
7
11
8
6
4
2
GND
2A4
2A3
2A2
2Y1
1Y4
1Y3
1Y2
1Y1
TCK
TDO
TDI
MC74LCX244D W
VCC
1G
2G
2Y4
2Y3
2Y2
2A1
1A4
1A3
1A2
1A1
U9
D
13
11
9
7
5
3
1
J3
14
12
10
8
6
4
2
5.1K
R69
KEY
/J_TRST
TMS
(480) 413-5090
63A10516S
D
Date: Tuesday, December 05, 2000
Document
Number
Designer: DSPD Design
E
Sheet 16 of
18
1.0
Rev.
FAX: (480) 413-2510
2100 East Elliot Road
Tempe, Arizona 85284
DSP Standard Products Division
JTAG Connector
+3.3V
+3.3V
TDO
/J_TRST
TDI
TCK
TMS
P_RESET
/ J _ R E SET
10
17
15
13
9
12
14
16
18
E
PARALLEL JTAG HOST TARGET INTERFACE AND JTAG CONNECTOR
/TRST
/ R E S ET
On-Board
Host Target Interface
Disable
74AC00
U 1 8A
TDO
10
9
2
1
51 Ohm
R71
51 Ohm
R70
270
R68
270
R67
270
R66
270
R65
270
R64
Parallel JTAG Interface
C
Figure A-16. Parallel JTAG Host Target Interface and JTAG Connector
5.1K
R75
25
24
23
22
21
20
19
18
17
16
15
14
P1
P O R T _ I DENT
B
2
1
4
A
Freescale Semiconductor, Inc...
1
2
3
4
Freescale Semiconductor, Inc.
A-17
1
+3.3VA
TP3
+3.3VA
TEST POINT
1
2
A
TP4
ANALOG GROUND
TEST POINT
1
3
EXTERNAL POWER IN
INPUT 12V DC
P2
1
FM4001
D2
TP5
GROUND
TEST POINT
2
1
4
B
B
+3.3V
TP6
1
3
1
U10
D3
VOUT
TP7
4
2
4
2
C30
0.1uF
C
TP8
GROUND
TEST POINT
FERRITE BEAD
L3
FERRITE BEAD
L2
M C 33269DT-3.3
GND
VOUT
FM4001
U11
VIN
VOUT
VOUT
MC33269DT-5.0
GND
VIN
GROUND
TEST POINT
+3.3V
+5.0V
C29
0.1uF
3
FM4001
D1
C
+3.3VA
Size
B
L1
C6
4 7 uF
10VDC
+3.3V
+
C5
4 7 uF
10VDC
63A10516S
D
D
Date: Monday, October 16, 2000
Document
Number
P O W E R SUPPLIES
+
VCC
FERRITE BEAD
Title
FERRITE BEAD
L4
+ 5 . 0 V _ U NI3
Figure A-17. Power Supplies
+3.3V
TEST POINT
+ C4
470uF
16VDC
1
A
1
56F807EVM Hardware User’s Manual
For More Information On This Product,
Go to: www.freescale.com
1
A-18
3
Freescale Semiconductor, Inc...
POWER GOOD LED
2
4
3
Designer: DSPD Design
E
18
1.0
Rev.
FAX: (480) 413-2510
Sheet 17 of
(480) 413-5090
2100 East Elliot Road
Tempe, Arizona 85284
DSP Standard Products Division
MC33269
1
3.3V AND 5.0V
REGULATOR
L E D10
GREEN LED
R78
470
+ 5 .0V
E
1
2
3
4
Freescale Semiconductor, Inc.
MOTOROLA
MOTOROLA
56F807EVM Schematics
For More Information On This Product,
Go to: www.freescale.com
1
2
3
4
R79
5.1k
+ 3 .3V
9
A
C53
0.01uF
74LCX244
7 4 AC04
8
+3.3V
C32
0.01uF
U12D
SRAM
C48
0.1uF
C31
0.1uF
+ 3 .3V
+3.3V
A
1
T9
+3.3V
C54
0.1uF
C34
0.01uF
R80
5.1k
11
+ 5 .0V
C35
0.1uF
B
1
T10
C55
0.01uF
C37
0.1uF
+ 3 .3V
C51
0.1uF
C52
0.1uF
R81
5.1k
+3.3V
13
C56
0.1uF
74HC04
+Vref
SERIAL D/A
C36
0.01uF
12
7 4 AC04
U12F
+3.3VA
DSP
1
C
T11
+3.3V
C57
0.01uF
B
Size
Title
+3.3V
+5.0V
+ 3 .3VA
+5.0V
C46
0.01uF
LM393
C40
0.1uF
A/D CONNECTOR
C45
0.1uF
LM393
C41
0.1uF
MAX3225
D
63A10516S
D
Date: Monday, October 16, 2000
Document
Number
C39
0.01uF
E
E
18
1.0
Rev.
FAX: (480) 413-2510
Sheet 18 of
(480) 413-5090
2100 East Elliot Road
Tempe, Arizona 85284
DSP Standard Products Division
+ 5 .0V
LM393
Designer: DSPD Design
BYPASS CAPACITORS AND SPARE GATES
C44
0.01uF
+5.0V
+ 5 .0V
C43
0.1uF
LM393
+
C3
2.2uF
50VDC
UNI-3
+3.3V
LM393
74HC04
C38
0.1uF
VRH
C
Figure A-18. Bypass Capacitors and Spare Gates
7 4 AC04
10
+3.3V
DATA BUS
CONNECTOR
U12E
C50
0.1uF
CAN
INTERFACE
ADDRESS BUS
CONNECTOR
C49
0.01uF
C33
0.1uF
DSP56F807
B
Freescale Semiconductor, Inc...
1
2
3
4
Freescale Semiconductor, Inc.
A-19
Freescale Semiconductor, Inc...
Freescale Semiconductor, Inc.
A-20
56F807EVM Hardware User’s Manual
For More Information On This Product,
Go to: www.freescale.com
MOTOROLA
Freescale Semiconductor, Inc.
Appendix B
56F807EVM Bill of Material
Freescale Semiconductor, Inc...
Qty
Description
Ref. Designators
Vendor Part #
Integrated Circuits
1
DSP56F807FV80
U1
5
LM393
1
74LCX244
U9
2
74AC04
U12, U15
1
MC33269DT-5.0
U10
ON Semiconductor, MC33269DT-5.0
1
MC33269DT-3.3
U11
ON Semiconductor, MC33269DT-3.3
1
GS72116
U2
GSI, GS72116TP-12
1
MAX3245
U13
Maxim, MAX3245EEAI
1
MAX5251
U14
Maxim, MAX5251BEAP
1
PCA82C250T
U8
Philips Semiconductor, PCA82C250T
1
74AC00
U18
Fairchild, 74AC00SC
U3, U4, U5, U6, U16
Motorola, DSP56F807FV80
National, LM393M
ON Semiconductor, MC74LCX244DW
Fairchild, 74AC04SC
Resistors
20
16K Ω
R8 - R11, R16 - R19,
R24 - R29, R31, R32, R107,
R108, R112 ,R113
SMEC, RC73L2A16KOHMJT
10
1M Ω
R4, R5, R12, R13, R20, R21,
R30, R33, R109, R114
SMEC, RC73L2A1MOHMJT
18
5.1K Ω
R6, R7, R14, R15, R22, R23,
R34, R35, R69, R72, R73,
R75, R79 - R81, R96, R110,
R115
SMEC, RC73L2A5.1KOHMJT
12
10K Ω
R82 - R85, R117 - R123,
R125
SMEC, RC73L2A10KOHMJT
2
51 Ω
MOTOROLA
R70, R71
SMEC, RC73L2A51OHMJT
56F807EVM Bill of Material
For More Information On This Product,
Go to: www.freescale.com
B-1
Freescale Semiconductor, Inc.
Qty
Description
Ref. Designators
Vendor Part #
Freescale Semiconductor, Inc...
Resistors (Continued)
3
47K Ω
R74, R76, R77
SMEC, RC73L2A47KOHMJT
1
470 Ω
R78
SMEC, RC73L2A470OHMJT
1
10M Ω
R1
SMEC, RC73L2A10MOHMJT
20
1K Ω
R38, R41, R44, R47, R50,
R53, R56, R59, R62,
R86 - R95, R124
SMEC, RC73L2A1KOHMJT
14
270 Ω
R64 - R68, R98 - R106
SMEC, RC73L2A270OHMJT
16
24 Ω
R39, R40, R42, R43, R45,
R46, R48, R49, R51, R52,
R54, R55, R57, R58, R60,
R61
SMEC, RC73L2A24OHMJT
1
120 Ω, 1/4W
R63
YAGEO, CFR 120QBK
Potentioneters
7
10K Ω
R2, R3, R36, R37, R97, R111,
R116
BC/MEPCOPAL, ST4B103CT
Inductors
4
1.0mH
L1, L2, L3, L4
Panasonic, EXC-ELSA35V
LEDs
1
Red LED
LED1
Hewlett-Packard, HSMS-C650
4
Yellow LED
LED2, LED4, LED6, LED8
Hewlett-Packard, HSMY-C650
5
Green LED
LED3, LED5, LED7, LED9,
LED10
Hewlett-Packard, HSMG-C650
Diode
3
B-2
S2B-FM401
D1, D2, D3
Vishay, DL4001DICT
56F807EVM Hardware User’s Manual
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MOTOROLA
Freescale Semiconductor, Inc.
Qty
Description
Ref. Designators
Vendor Part #
Freescale Semiconductor, Inc...
Capacitors
5
2.2µF, 50VDC
31
0.1µF
1
C1 - C3, C18, C24
NICHICON, UWX1H2R2MCR2GB
C7 - C17, C23, C29 - C31,
C33, C35, C37, C38, C40,
C41, C43, C45, C48,
C50 - C52, C54, C56, C65,
C66
SMEC, MCCE104K2NR-T1
470µF, 16VDC
C4
ELMA, RV-16V471MH10R
2
47µF, 16VDC
C5, C6
8
470pF
C19 - C22, C25 - C28
SMEC, MCCE471J2NO-T1
10
0.01uF
C32, C34, C36, C39, C44,
C46, C49, C53, C55, C57
SMEC, MCCE103K2NR-T1
4
1.0uF, 50VDC
C60 - C63
ELMA, RV2-16V470M-R
NICHICON, UWX1H010MCR1GB
Jumpers
8
3 × 1 Bergstick
JG1, JG2, JG5, J14, J15,
JG16, J16, JG17
SAMTEC, TSW-103-07-S-S
4
4 × 2 Bergstick
JG11, JG15, J23, J26
SAMTEC, TSW-104-07-S-D
6
1 × 2 Bergstick
JG3, JG4, JG6, JG7, JG8,
JG9
SAMTEC, TSW-102-07-S-S
4
3 x 3 Bergstick
JG10, JG12, JG13, JG14
SAMTEC, TSW-103-07-S-T
2
9 x 2 Bergstick
J6, J7
SAMTEC, TSW-109-07-S-D
3
6 x 1 Bergstick
J18, J21, J22
SAMTEC, TSW-106-07-S-S
6
5 x 2 Bergstick
J9, J12, J17, J20, J24, J25
SAMTEC, TSW-105-07-S-D
2
4 x 1 Bergstick
J13, J19
SAMTEC, TSW-104-07-S-S
3
7 x 2 Bergstick
J3, J10, J11
SAMTEC, TSW-107-07-S-D
2
6 x 1 MTA
1
6 x 2 Bergstick
2
20 x 2 Shrouded
MOTOROLA
J4, J5
J8
J1, J2
AMP, MTA 640456-6
SAMTEC, TSW-106-07-S-D
3M, 2540-6002UB
56F807EVM Bill of Material
For More Information On This Product,
Go to: www.freescale.com
B-3
Freescale Semiconductor, Inc.
Qty
Description
Ref. Designators
Vendor Part #
Test Points
8
1 × 1 Bergstick
TP1 - TP8
Samtec, TSW-101-07-S-S
Crystals
1
8.00MHz Crystal
Y1
CTS, ATS08ASM-T
Freescale Semiconductor, Inc...
Connectors
1
DB25M Connector
P1
AMPHENOL, 617-C025P-AJ121
1
2.1mm coax
Power Connector
P2
Switch Craft, RAPC-722
1
DE9F Connector
P3
AMPHENOL, 617-C009S-AJ120
Switches
5
SPST Pushbutton
1
SPDT Toggle
S1 - S5
S6
Panasonic, EVQ-PAD05R
C&K, GT11MSCKE
Transistors
1
2N2222A
Q1
ZETEX, FMMT2222ACT
Miscellaneous
28
Shunt
6
Rubber Feet
B-4
SH1–SH28
RF1–RF6
Samtec, SNT-100-BL-T
3M, SJ5018BLKC
56F807EVM Hardware User’s Manual
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MOTOROLA
Freescale Semiconductor, Inc.
Index
Symbols
C
+12V DC power supply 1-4
CAN xii
interface 2-1
CAN in Automation
CiA xii
CAN Specification 2.0B xiii
CiA xii
CiA Draft Recommendation DR-303-1 xiii
Connector
A/D 2-32, 2-33
Address bus 2-31
CAN 2-34
Data bus 2-32
External Memory Control 2-28
PWM 2-35
SCI 2-33, 2-34
SPI 2-34
Connectors
Peripheral Expansion 2-26
Controller Area Network
CAN xii
Freescale Semiconductor, Inc...
Numerics
56F807 Technical Data xiii
56F807EVM
16-bit +3.3V Hybrid Controller 2-1
4.0Amp power supply 2-13
4-Channel 10-bit Serial D/A 2-1
64Kx16-bit of Data memory 2-1
64Kx16-bit of Program memory 2-1
8.00MHz crystal oscillator 2-1
A/D Port A-compatible peripheral 2-2
CAN bypass 2-1
CAN interface 2-1
CAN physical layer peripheral 2-2
Development Card 2-1
external memory expansion connectors 2-2
external oscillator frequency input 2-1
FSRAM 2-1
JTAG port interface 2-1
MPIO-compatible peripheral 2-2
On-board power regulation 2-2
Parallel JTAG Host Target Interface 2-1
Port B GPIO-compatible peripheral 2-2
Port D GPIO-compatible peripheral 2-2
Port E GPIO-compatible peripheral 2-2
PWMA-compatible peripheral 2-2
PWMB-compatible peripheral 2-2
real-time debugging 2-8
RS-232 interface 2-1
SCI1-compatible peripheral 2-2
SPI-compatible peripheral 2-2
Timer-compatible peripheral 2-2
UNI-3 connector/interface 2-14
A
A/D xii
Analog-to-Digital
A/D xii
B
Back-EMF 2-22
signals 2-15
MOTOROLA
D
D/A xii
D/A converter 2-18
Data memory 2-5
Debugging 2-8
Digital Signal Processor
DSP xii
Digital-to-Analog
D/A xii
DSP xii
DSP56800 Family Manual xiii
DSP56F801/803/805/807 User’s Manual xiii
DSP56F807EVM
CAN bus termination 2-1
E
Encoder/Hall-Effect
circuits 2-23
Encoder/Timer 2-29
Evalation Module
EVM xiii
EVM xiii
External Memory Control Signal 2-28
Index
For More Information On This Product,
Go to: www.freescale.com
1
Freescale Semiconductor, Inc.
F
FSRAM 2-5
Low-Profile Quad Flat Pack
LQFP xiii
LQFP xiii
G
M
General Purpose Input and Outpus
GPIO xiii
GPIO xiii, 2-27, 2-31
signals 2-17
Hall-Effect/Quadrature Encoder interface 2-1
Host Parallel Interface Connector 2-8
Host Target Interface 2-8
motor bus
over-current 2-1
over-voltage 2-1
Motor Phase
signals 2-15
Motor Phase Current 2-22
MPIO xiii, 2-27, 2-28, 2-29
port 2-30
Multi Purpose Input and Output
MPIO xiii
I
O
IC xiii
Integrated Circuit
IC xiii
OnCE xiii, 1-1
On-Chip Emulation
OnCE xiii
J
P
Joint Test Action Group
JTAG xiii
JTAG xiii, 1-1, 2-1
connector 2-9
Jumper Group 1-3
JG1 1-3
JG10 1-3
JG11 1-3
JG12 1-3
JG13 1-3
JG14 1-3
JG15 1-3
JG16 1-3
JG17 1-3
JG2 1-3
JG3 1-3
JG4 1-3
JG5 1-3
JG6 1-3
JG7 1-3
JG8 1-3
JG9 1-3
PCB xiii
Phase Locked Loop
PLL xiii
PLL xiii
Printed Circuit Board
PCB xiii
Program memory 2-5
Pulse Width Modulation
PWM xiii
PWM xiii
Freescale Semiconductor, Inc...
H
L
Logic
motor bus over-current 2-1
motor bus over-voltage 2-1
motor zero crossing 2-1
2
Q
Quad Encoder 2-23
Quadrature Decoder
interface port 2-29
Quadrature Encoder/Hall-Effect interface 2-23
R
RAM xiii
Random Access Memory
RAM xiii
Read-Only Memory
ROM xiii
ROM xiii
56F807EVM Hardware User’s Manual
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MOTOROLA
Freescale Semiconductor, Inc.
RS-232
interface 2-6
level converter 2-6
schematic diagram 2-6
RS-232 Serial Communications 2-6
Freescale Semiconductor, Inc...
S
SCI xiii
Serial Communications Port 2-33, 2-34
Serial Communications Interface
SCI xiii
Serial Peripheral Interface
SPI xiii
SPI xiii
Serial Peripheral Interface 2-34
SRAM xiii
external data 2-1
external program 2-1
Static Random Access Memory
SRAM xiii
U
UART xiii
UNI-3
Back-EMF 2-23
connector/interface 2-14
DC Bus Over-Voltage signal 2-20
Motor Drive interface 2-15
Motor interface
Primary 2-3
Secondary 2-3
Over-Voltage signal 2-21
Universal Asynchronous Receiver/Transmitter
UART xiii
Z
Zero-Crossing
circuits 2-23
Zero-Crossing Detection 2-23
MOTOROLA
Index
For More Information On This Product,
Go to: www.freescale.com
3
Freescale Semiconductor, Inc...
Freescale Semiconductor, Inc.
Motorola reserves the right to make changes without further notice to any products herein. Motorola makes no warranty, representation or guarantee regarding the
suitability of its products for any particular purpose, nor does Motorola assume any liability arising out of the application or use of any product or circuit, and
specifically disclaims any and all liability, including without limitation consequential or incidental damages. “Typical” parameters which may be provided in Motorola
data sheets and/or specifications can and do vary in different applications and actual performance may vary over time. All operating parameters, including
“Typicals” must be validated for each customer application by customer’s technical experts. Motorola does not convey any license under its patent rights nor the
rights of others. Motorola products are not designed, intended, or authorized for use as components in systems intended for surgical implant into the body, or other
applications intended to support or sustain life, or for any other application in which the failure of the Motorola product could create a situation where personal injury
or death may occur. Should Buyer purchase or use Motorola products for any such unintended or unauthorized application, Buyer shall indemnify and hold Motorola
and its officers, employees, subsidiaries, affiliates, and distributors harmless against all claims, costs, damages, and expenses, and reasonable attorney fees
arising out of, directly or indirectly, any claim of personal injury or death associated with such unintended or unauthorized use, even if such claim alleges that
Motorola was negligent regarding the design or manufacture of the part. Motorola and the Stylized M Logo are registered trademarks of Motorola, Inc. Motorola,
Inc. is an Equal Opportunity/Affirmative Action Employer.
MOTOROLA and the Stylized M Logo are registered in the US Patent & Trademark Office. All other product or service names are the property of their
respective owners. © Motorola, Inc. 2003.
How to reach us:
USA/EUROPE/Locations Not Listed: Motorola Literature Distribution; P.O. Box 5405, Denver, Colorado 80217. 1–303–675–2140 or 1–800–441–2447
JAPAN: Motorola Japan Ltd.; SPS, Technical Information Center, 3–20–1, Minami–Azabu. Minato–ku, Tokyo 106–8573 Japan. 81–3–3440–3569
ASIA/PACIFIC: Motorola Semiconductors H.K. Ltd.; Silicon Harbour Centre, 2 Dai King Street, Tai Po Industrial Estate, Tai Po, N.T., Hong Kong. 852–26668334
Technical Information Center: 1–800–521–6274
HOME PAGE: http://www.motorola.com/semiconductors/
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DSP56F807EVMUM/D