Users Manual TOPAS900 Flash V2.1
TOPAS900 Flash
TOshiba Program development
and Application System
HWU Elektronik GmbH
TOSHIBA Electronics Europe GmbH
HWU Elektronik Oberhausen
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Users Manual TOPAS900 Flash V2.1
Contents
Definitions and Abbreviations ___________________________________________ 5
1. Introduction _____________________________________________________ 6
1.1. What is TOPAS900 Flash?_____________________________________________ 6
1.2. Key Features of TOPAS900 Flash Package _______________________________ 6
2. Let’s start with TOPAS900 Flash_____________________________________ 7
2.1. What is in the box? ___________________________________________________ 7
2.2. Unpacking__________________________________________________________ 7
2.3. A Glance at the TOPAS900 Flash Board _________________________________ 8
2.4. Principe of Connection________________________________________________ 9
3. Hardware Description ____________________________________________ 10
3.1. Programming and Debugging Board ___________________________________ 10
3.1.1. Firmware Processor ____________________________________________________ 10
3.1.2. Power Supply _________________________________________________________ 10
3.1.3. Status LEDs __________________________________________________________ 11
3.1.4. Control Switches (Reset and NMI) _________________________________________ 11
3.1.5. Serial Communication, Connector and Line Driver _____________________________ 11
3.1.6. Connector to Flash Carrier Board __________________________________________ 11
3.2. The Flash Carrier Board _____________________________________________ 11
3.2.1. The TMP95FY64F Microcontroller ________________________________________ 12
3.2.2. 512 kb Flash ROM - Toshiba TC58F400 (90 ns)_______________________________ 13
3.2.3. 128 kb RAM - Toshiba TC551001 (70 ns) ___________________________________ 14
3.2.4. Connector to Programming and Debugging Board ______________________________ 14
3.2.5. MCU Terminal Connectors _______________________________________________ 14
3.2.6. Jumpers _____________________________________________________________ 14
4. Software Description _____________________________________________ 16
4.1. IAR Tools _________________________________________________________ 16
4.1.1. Embedded Workbench___________________________________________________ 16
4.1.2. C-Spy Debugger/Simulator _______________________________________________ 17
4.1.3. C-Spy ROM-Monitor ___________________________________________________ 18
4.1.4. IAR Tools Limitations __________________________________________________ 18
4.2. Toshiba Tools ______________________________________________________ 19
4.2.1. Compiler, Assembler, Linker, Converter _____________________________________ 19
4.2.2. TMPro Debugger ______________________________________________________ 22
4.2.3. TMPro ROM-Monitor __________________________________________________ 25
4.2.4. Toshiba Tool Limitations ________________________________________________ 26
4.3. ROM-Monitor Memory Usage ________________________________________ 27
4.3.1. IAR ROM-Monitor_____________________________________________________ 27
4.3.2. Toshiba ROM-Monitor __________________________________________________ 28
4.4. Restrictions of ROM-Monitor Usage ___________________________________ 29
5. Functional Description ___________________________________________ 30
5.1. Operating Modes ___________________________________________________ 30
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Users Manual TOPAS900 Flash V2.1
5.1.1. MCU Internal Memory Map ______________________________________________ 30
5.1.2. Internal Mapping in different Modes ________________________________________ 31
5.1.3. Programming in Single Boot Mode _________________________________________ 31
5.1.4. Normal Operation Mode _________________________________________________ 32
5.2. Jumper Description _________________________________________________ 34
5.2.1. The jumpers of the Programming-Debugging Board_____________________________ 34
5.2.2. The jumpers of the Flash Carrier Board ______________________________________ 34
5.3. Programming of Flash Memory _______________________________________ 34
6. Technical Sheets_________________________________________________ 36
6.1. Board Schematics___________________________________________________ 36
6.2. Component Print ___________________________________________________ 41
6.3. PCB Routing_______________________________________________________ 42
7. Application Board _______________________________________________ 43
8. Electromagnetic Compatibility______________________________________ 45
Figures
Figure 1 : The TOPAS900 Flash Board (Top View)...................................................................................... 8
Figure 2 : Breaking off TOPAS900 Flash Board from Flash Carrier Board............................................. 9
Figure 3 : Principe of Connection ..................................................................................................................... 9
Figure 4 : TMP95FY64 Schematic Block Diagram.....................................................................................13
Figure 5 : IAR Embedded Workbench Desktop with Project Window.....................................................17
Figure 6 : C-Spy Desktop with Source Code, Memory and Register Window.........................................19
Figure 7 : TMPro Window................................................................................................................................22
Figure 8 : Memory Usage of IAR ROM-Monitor .........................................................................................27
Figure 9 : Memory Usage of Toshiba ROM-Monitor...................................................................................28
Figure 10 : The MCU's Internal Memory Map .............................................................................................30
Figure 11 : Internal Mapping in Single Boot and Single Chop Mode........................................................31
Figure 12 : Map for Internal Flash Programming........................................................................................32
Figure 13 : Memory Map for using external / internal Flash ......................................................................33
Figure 14 : Flash Programmer Window.........................................................................................................35
Figure 15 : Schematic Page 1 of 4 ..................................................................................................................37
Figure 16 : Schematic Page 2 of 4 ..................................................................................................................38
Figure 17 : Schematic Page 3 of 4 ..................................................................................................................39
Figure 18 : Schematic Page 4 of 4 ..................................................................................................................40
Figure 19 : Component Print – Top & Bottom View...................................................................................41
Figure 20 : PCB Routing – Top & Bottom View..........................................................................................42
Figure 21 : The Application Board..................................................................................................................43
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Users Manual TOPAS900 Flash V2.1
Definitions and Abbreviations
Application Board
Separate available board for TLCS-900 with application
components as LCD, Keys, EEPROM, LEDs etc.
Means an integrated circuit, a high-integrated semiconductor
Debugger from IAR Systems designed for WindowsÔ
European Conformity
Chip
C-Spy
CE
CPU
Central Processing Unit
Embedded Workbench
Integrated Development Environment of IAR Systems for
WindowsÔ
Electromagnetic Compatibility
EMC
IAR
Short form for “IAR Systems”
MCU
Micro Controller Unit
Microcontroller
RAM
CPU with On-Chip peripherals for embedded systems
Random-Access Memory
ROM
Read-Only Memory
RTE
Real-Time-Emulator : high end system with many real-time
debugging functions, e.g. time-measurement, access
breakpoints, events, trace buffer etc.
ROM-Monitor Program
Communicates with a debugger (TMPro / C-Spy) and
provides debugging capabilities for TLCS-900 based MCU
boards. It is a low cost version with a subset of debugging
facilities of an RTE
PCB
Printed Circuit Board
TMPro Debugger
TOPAS900 CAN
TOPAS900 Flash II
TOPAS900 Standard
WindowsÔ
Toshiba's debugger for TLCS-900 series
Name of a starter kit for TMP95PS54 MCU
Name of a starter kit for TMP95FY64 MCU
Name of a starter kit for TMP93CS41 MCU
WindowsÔ is a registered trademark of Microsoft
Corporation. In this manual “Windows” stands for
Windows95/98/NT.
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Users Manual TOPAS900 Flash V2.1
1.
Introduction
Because TOPAS900 Flash is a technical product using high-end electronic components it
is worth to read the whole manual to get most out of this product and to avoid possible
damage in case of unintended misuse.
The following chapters describe how to set-up the hardware and how to use the software.
All the information you need to set-up and work with TOPAS900 Flash is provided on
the following pages. Please read them attentively.
1.1. What is TOPAS900 Flash?
TOPAS900 Flash is a bundled package of hardware and software components to give a
quick introduction to the main features of the TMP95FY64F microcontroller. Furthermore
there are valuable features for software development and debugging. Sample source code,
basic environment set-ups and this manual will minimize the time needed for learning
about the key features for the TLCS-900 family.
1.2. Key Features of TOPAS900 Flash Package
·
·
Flash MCU (TMP95FY64) with 256 kb on-chip Flash ROM and 8 kb
on-chip RAM
Additional external 512 kb Flash ROM and external 128 kb RAM on a
compact Carrier Board (51x56mm)
·
Carrier Board extendable by pin-connectors to a standard PGA-104
socket (4x26 pins)
·
·
·
·
·
·
Extensive Programming and Debugging Facilities
In-Circuit Debugging
In-Circuit Programming
Windows based Application for Programming and Debugging
Two independent Environments: Toshiba / IAR
Limited Versions of original Toshiba Tools like C-Compiler,
Assembler, Linker, Converter etc.
·
·
Toshiba’s TMPro Debugger with ROM-Monitor
Demo Version of IRA’s Embedded Workbench incl. Compiler,
Assembler etc.
·
·
Demo Version of IRA’s C-Spy Debugger with ROM-Monitor
Software samples for both environments
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Users Manual TOPAS900 Flash V2.1
2.
Let’s start with TOPAS900 Flash
Now it is time to start with TOPAS900 Flash. The first step is to unpack everything and to
connect the power supply and the serial connection to the PC.
2.1. What is in the box?
After opening the box you should check whether all of the components listed below are
present:
·
·
·
·
·
·
One TOPAS900 Flash PCB
Programming and Debugging cable (10 cm, 10-pin connectors)
Standard serial null-modem connection cable (9-pin D-sub connectors)
Net-plug for power-supply
TOPAS900 Flash installation CD-ROM
Quick Start print
2.2. Unpacking
Please unpack everything delivered in the box carefully.
IMPORTANT NOTE: Avoid touching any electronic components due to possible
static discharge.
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Users Manual TOPAS900 Flash V2.1
2.3. A Glance at the TOPAS900 Flash Board
After removing the plastic cover from the PCB you should see the following (for the
picture below the cable connection between the Programming-and Debugging Board and
the Flash Carrier Board has been removed to avoid covering components, this cable must
be plugged in by default):
RS232-Connector
D-SUB 9
Firmware-Processor
TMP87P808
RESET and NMI
Switches
EA (external access)
Jumper
Flash MCU
TMP95FY64F
Scratch on PCB
to break off
Power
Connector
Jumper for Carrier
Board Vcc
Programming Board <=>
Carrier Board Connectors
Chip Select Jumpers
Status LED
Figure 1 : The TOPAS900 Flash Board (Top View)
As shown in the picture above the TOPAS900 Flash PCB can be divided into two
functional groups: On the left side the “Programming- and Debugging- Board” is located.
On the right there is the “Flash Carrier Board”, surrounded by four 26-pin connectors (not
soldered). The PCB is delivered in one piece.
The Flash Carrier Board can also be used independently from the Programming and
Debugging Board. For independent usage it must be separated from the main board by
breaking it off.
To break the Flash Carrier Board off please use this technique: Remove the connection
cable between the two parts when plugged in. Put the TOPAS900 Flash board on a flat
and stable surface. Keep the scratch between “Programming-and-Debugging Part” and
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Users Manual TOPAS900 Flash V2.1
“Flash Carrier Part” exactly onto the edge of the surface (see also fig. 2). Push down both
parts carefully until the board breaks into two parts. By breaking into two parts the
electrical circuitry is not modified in any way. It is just a mechanical separation.
Scratch on the
PCB
TOPAS900 Flash Board
Flash Carrier
Desk or other stable basis
Edge
Figure 2 : Breaking off TOPAS900 Flash Board from Flash Carrier Board
2.4. Principe of Connection
The components are to be connected as the scheme below demonstrates:
AC Power Net
Net
Plug
Flash
Programming & Debugging
Carrie
Board
Board
Null-Modem Cable
RS232 with 38400 baud
Windows-based PC
Figure 3 : Principe of Connection
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Users Manual TOPAS900 Flash V2.1
3.
Hardware Description
TOPAS900 Flash consists of two boards: Programming-and-Debugging Board and Flash
Carrier Board.
3.1. Programming and Debugging Board
As the name betrays this board is for programming and debugging purposes. The
firmware processor, a TMP87P808P, is listening the serial data communication between a
PC and the TOPAS900 Flash board. The firmware reacts on special data sequences to
switch the target processor to several modes.
The Programming and Debugging is composed of the following components (to understand the
design in detail it is recommended to make a print out of the schematics shown at the end of this
manual):
·
·
·
·
·
·
Firmware Processor
Power supply
Status LEDs
Control Switches (Reset and NMI)
Serial Communication, Connector and Line Driver
Connector to Flash Carrier Board
3.1.1. Firmware Processor
A Toshiba TMP87P808 8-bit microcontroller of the TLCS-870 family is used. It is driven
by an 8 MHz quartz resonator.
The processor drives control lines of the target system (Flash Carrier Board with
TMP95FY64). The lines are /EA, /BOOT and /RESET. With these lines the target
processor can de driven into several modes that are selected by the rising edge of the
RESET input. Please refer to the manual for further information on Single Boot Mode /
Single Chip Mode and Multi Chip Mode. Also read the information given by the
memory maps later in this manual.
To control the target system the firmware is listening to the serial communication for
certain binary control sequences that are generated by the Windows-based Flash
Programming Tool. If a control sequence match is detected, the firmware processor
switches the target system into the required mode.
3.1.2. Power Supply
The power supply is mainly build by the net plug and a 5V voltage regulator. Because the
board has no on/off switch unplug the power plug from the board when connecting or
disconnecting the target or when connecting the Flash Carrier Board to another
application. The input power (at the board’s power plug) can be up to 12 V DC.
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3.1.3. Status LEDs
There are two status LEDs on the board. A red one and a yellow one. The red Led is
controlled by the firmware processor and the yellow led is driven by the Flash MCU on
the Flash Carrier Board. The yellow Led can be used as a very simple output device to
show a internal state. Take a look at the LedDim sample to see how a Led can be dimmed
by pulse-width modulation.
3.1.4. Control Switches (Reset and NMI)
On the Programming and Debugging Board two switches (keys) are mounted. The Reset-
switch resets the firmware processor. After reset it lets boot the Flash MCU from external
flash memory. Normally the external memory contains one of the two ROM monitors
(IAR/Toshiba).
The second switch is to give a falling edge to the Flash MCU's NMI (non-maskable
interrupt) input. The Toshiba ROM monitor reacts with stopping the user software, if it
runs.
3.1.5. Serial Communication, Connector and Line Driver
The serial communication is build by a null-modem cable connected between the PC and
the TOPAS900 Flash Board. For connection the board has a 9-pin D-sub male connector.
To adapt the level between RS-232 and TTL a common RS-232 line driver is used. The
serial communication between PC and firmware controller uses the parameter 9600,8,N,1.
This baudrate is only used for control commands. The communication speed between
Windows-Software and MCU on the Flash Carrier Board is always 38400 baud.
The communication uses the TxD and RxD lines only. These two lines are directly wired
with the 10-pin connector to the Flash MCU. The firmware controller is connected in
parallel. Both, the firmware processor and the Flash MCU are connected to the RxD and
TxD line. To avoid both processors sending data to the same line the firmware processor
switches it TxD output to high impedance when it is not used by the firmware itself.
3.1.6. Connector to Flash Carrier Board
To connect the Flash Carrier Board a 10-pin connector is mounted at the edge of the
board. The 10-pin cable is to be plugged in on both sides to connect both boards together.
3.2. The Flash Carrier Board
The Flash Carrier Board is composed of the following parts:
·
·
·
·
·
·
The TMP95FY64F Microcontroller
512 kb Flash ROM TC58F400 (90 ns)
128 kb RAM TC551001 (70 ns)
Connector to Programming and Debugging Board
MCU Terminal Connectors
Jumpers
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3.2.1. The TMP95FY64F Microcontroller
The Flash Carrier Board has the main component of the starter kit soldered on it: the
Toshiba TMP95FY64F microcontroller.
To get an overview of its powerful features lets have a look to its original data sheet
(extract):
...
1. TMP95FY64F Basic Specification
1.1 Outline and Feature
TMP95FY64 is high-speed advanced 16-bit microcontroller developed for controlling medium to large-
scale equipment. TMP95FY64 has 256K-Byte Flash memory which can be rewritten and erased on board.
TMP95FY64 is housed in QFP-100pin package.
Device characteristics are as follows:
(1) Original High speed 16-bit CPU(900/H CPU)
TLCS-90/900 instruction mnemonic upward compatible.
16M-byte linear address space
General-purpose registers and register bank system
16-bit multiplication/ division and bit transfer/arithmetic instructions
Micro DMA :4 channels(640ns/2bytes at 25MHz)
(2) Minimum instruction execution time:160ns at 25MHz
(3) Internal RAM:8Kbyte
Internal ROM:256Kbyte Flash memory
(4) External memory expansion
Can be expanded up to 16M byte (for both programs and data)
AM8/16pin (select the external data bus width)
Can mix 8- and 16-bit external data buses. ....... Dynamic data bus sizing
(5) 8-bit timer:8 channels
Including event counter function(2 channels)
(6) 16-bit timer/event counter:2 channels
(7) Serial interface:3 channels
(8) 10-bit A/D converter:8 channels
(9) 8-bit D/A converter:2 channels
(10) Watchdog timer
(11) Chip select/wait controller:4 blocks
(12) Interrupt functions:45-Interrupt sources
9-CPU interrupts ..... SWI instruction, and Illegal instruction
26-Internal interrupts .....7-level priority can be set.
10-External interrupts .....7-level priority can be set.
(13) I/O ports : Single chip mode 81 pins
Multi chip mode 55 pins(at AM8/16="H")
(14) Standby function:4 HALT mode(RUN,IDLE2,IDLE1,STOP)
(15) Operating Voltage : Vcc = 4.5 to 5.5V
(16) Package:100pin QFP(LFFP100-P-1414-0.50C:Thickness 2.4mm)
...
To get an overview on the internal organization of the TMP95FY64 let’s have a look to its
schematic block diagram:
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Users Manual TOPAS900 Flash V2.1
Figure 4 : TMP95FY64 Schematic Block Diagram
3.2.2. 512 kb Flash ROM - Toshiba TC58F400 (90 ns)
This memory component is soldered on the bottom side of the PCB. It has a size of 512
kb. The chip can contain any software and data that fit into 512 kb. On delivery it contains
the IAR ROM monitor.
The device can be addressed in 8 bit (byte) or 16 bit (word) organization. In case of the
present starter kit it is wired by an 8-bit data bus. The disadvantage of lower operating
speed is equalized by the gain of 8 port pins that are free for application purposes.
The external flash ROM is addressed by 19 address lines A0..18. The data lines are
D0..D7 and the chip is selected by /CS2 pin of the MCU. The type of operation is selected
by the /WR and /RD line accordingly. The /BYTE input is fixed to low level so that the
byte mode is activated.
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Please refer to the memory maps to get information about the address range of the chip in
memory.
3.2.3. 128 kb RAM - Toshiba TC551001 (70 ns)
This memory component is soldered on the bottom side of the PCB. It has a size of 128
kb and is organized in 8-bit words. It is addressed by 17 address lines A0..16. The data
lines are D0..D7 and the chip is selected by /CS0 pin of the MCU. The type of operation is
selected by the /WR and /RD line accordingly.
Please refer to the memory maps to get information about the address range of the chip in
memory. The external RAM is used additionally to the internal RAM of 8 kb of the MCU.
When the Toshiba ROM monitor is running almost 32 kb are allocated to the ROM
monitor. For all monitor operations the RAM is mapped to address 0xFE0000..0xFFFFFF
and covers the interrupt vector area that must be writable for debugging purposes.
3.2.4. Connector to Programming and Debugging Board
To connect the Programming and Debugging Board a 10-pin connector is mounted at the
edge of the board. The 10-pin cable is to be plugged in on both sides to connect both
boards together.
3.2.5. MCU Terminal Connectors
The Flash Carrier Board can be used - when properly programmed - stand-alone in a
user’s application. For this kind of usage it is necessary to insert and solder four 26-pin
connectors into the prepared drill holes. The prepared space for the connectors can easily
found by searching the Flash Carrier Board for the printed labels “MCU1”, “MCU2”,
“MCU3” and “MCU4”. The connections to the MCU are made as easy as possible. Each
of the 100 pins of the MCU are connected directly to MCU connectors. E.g. pin 11 of the
MCU is wired with pin11 of “MCU1” connector. Pin 26 of each connector is left out and
not connected (the MCU has 100 pins, but 4x26=104). It is recommended to do direct
measurement at the terminal connectors (or their metalized drill holes) instead of
contacting the very small and sensitive MCU pins.
3.2.6. Jumpers
J_CS0 : This jumper is to connect/disconnect the chip select line CS0 to the on-board
RAM device. If an external data/address bus is not required, it is recommended to open
this jumper. The CS0 pin can be used as a port pin additionally.
J_CS2 : Same as above. The CS2 pin is used to enable the on-board flash ROM device.
J_EA : Jumper to select between internal (high/open) and external flash memory access
(low/closed) after reset. When the Flash Carrier Board is connected to the Programming
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Users Manual TOPAS900 Flash V2.1
and Debugging Board, the jumper can be left open – the line is controlled by the firmware
controller.
If the Flash Carrier Board works stand-alone (without Programming-and-Debugging
Board), the jumper must be set when external flash software should be executed. If the
jumper is left open, the /EA pin is pulled up by a 10k pull-up resistor and the Flash MCU
boots from internal flash memory. When the MCU is reset with /EA at high level, the
external memory can be accessed additionally. The entire ROM size would be 768 kb and
128 kb of RAM. When the MCU is reset with /EA at low level, the internal flash ROM
cannot be accessed additionally.
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4.
Software Description
The development software of TOPAS900 Flash can be chosen from two alternatives
Ø the Toshiba and
Ø the IAR Systems Environment.
Both are powerful tool sets for program development and debugging. The user can decide
for either of them but should take into account that for debugging programs on
TOPAS900 Flash board each environment has its own ROM-Monitor for supervising user
programs. By default the IAR C-Spy ROM-Monitor is installed and the on-board flash
memory has to be reprogrammed by Toshiba TMPro Monitor before debugging.
Furthermore the IAR environment contains an outstanding, window-oriented processor
simulator which can be used for off-line debugging before switching to on-line
debugging on the board.
Both environments are described in the following.
4.1. IAR Tools
4.1.1. Embedded Workbench
When having decided for IAR environment user program development can be done by
the embedded workbench. Choose “IAR Embedded Workbench” program group and
click the workbench icon. The upcoming initial desktop should be used to load a project.
The workbench is directed by project files which comprise all necessary setting for a user
project. To get started, first of all open the demo project by loading the “DEMO.PRJ”
file through the file menu from “IAR\EW22DEMO\T900”. From this project all new
projects can be derived. The previous desktop is always regenerated. The way to change a
project is explained in the respective help. The Demo project opens the directory
“DemE900H” with a demonstration example. Before the demo is recompiled do the
following changes to the project: select Project from the main menu and select Options.
A dialog will pop up. Select the category C-Spy. Then choose Serial Communication on
the right side. Select the COM port that is used for debugging with TOPAS900 Flash kit.
The baudrate must be set to 38400 baud. After confirmation by clicking OK press the
debugger button
of the tool bar on the top of the window. The project will be
recompiled and the C-Spy will be launched. The connection to the TOPAS Board will be
made and the debugger is ready to work with. The demonstration shows how to use
terminal functions. To view the output of the demo open the Terminal I/O window.
After having loaded the Demo project the desktop looks like shown in fig. 4.
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Figure 5 : IAR Embedded Workbench Desktop with Project Window
Editing Sources
The workbench contains a powerful source-code editor. The editor is tailored for C code.
The C syntax is highlighted by colors and intensity and on request bookmarks and/or line
number can be displayed. Functions like cut & paste, find & replace are included as well
as bracket matching on request.
Compiling and Linking
By selecting “Project” from the menu bar, compiler and linker are invoked simply by
clicking the respective command in the menu like “Compile”, “Make”, “Link” and
“Build All”. The listfiles are written to the “...\List” directory (default) selected by the
project file. All directory settings are made by choosing the “Options...” command.
4.1.2. C-Spy Debugger/Simulator
There are two ways to invoke the C-Spy debugger.
·
First by selecting the icon directly from program group “IAR Embedded
Workbench” or
·
from the Embedded Workbench desktop.
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In case of a direct start C-Spy will open a desktop with “File”-“Open” enabled. An
executable file can be browsed then.
When starting C-Spy from the Embedded Workbench the executable file is defined by
the project file. Hence, no definite settings have to be done in addition. Clicking the
magnifying glass icon in the project bar starts the C-Spy Debugger
The C-Spy Debugger is a powerful tool for program debugging because it comprises a
platform for real-time debugging in co-operation with the Monitor on TOPAS900 Flash
board as well as an off-line, window supported controller simulator.
Consequently the user has to select between both:
·
In case of a direct start of C-Spy and trying to load an executable, a window named
“Session Options” comes up in which “ST900” or “RT900” can be selected.
Choose ST900 for invoking the simulator or RT900 to select the download to Monitor
option.
·
In case of using the Embedded Workbench, before clicking the magnifying glass icon,
in the “Project” menu the “Options...” have to be selected to adjust the debugger.
Choose C-Spy from the “Category” and “Simulator” or “ROM-Monitor” to preset
C-Spy. Then click the magnifying glass to invoke C-Spy.
In both modes the following C-Spy desktop is displayed. When coming up only the
report window is displayed. All other windows can be opened on request and tiled like
shown (Toolbar, Window).
4.1.3. C-Spy ROM-Monitor
The C-Spy ROM-Monitor is installed by default on TOPAS900 Flash board. For re-
programming the on-board (external) flash memory with this monitor please refer to
section 5.2. The yellow led does not flash in opposite to the Toshiba ROM monitor when
the ROM monitor is executing. The speed of serial connection is 38400 baud This is very
important to know when recompiling projects for the debugging environment. The Intel-
hex file containing this monitor is IAR.h20.
4.1.4. IAR Tools Limitations
·
·
The Demo version of the ICCT900 compiler does not support the -A and -a options.
The Demo version of the ICCT900 compiler has a code size limit of 4K compiled
code.
·
The Demo version of the AT900 assembler has a code size limit of 4K assembled
code.
·
·
The Demo version of the EWT900 workbench has a code size limit of 4K linked code.
The Demo version of the EWT900 workbench does not include the command line
versions of the assembler and compiler.
·
Use the supplied project file: <installation root>\t900\demo.prj to generate demo files
for C-SPY simulator and ROM-monitor.
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·
The project file assumes that the workbench has the <installation root> directory:
C:\IAR\EW22DEMO
Figure 6 : C-Spy Desktop with Source Code, Memory and Register Window
For all further handling of the C-Spy Simulator or ROM-Monitor please click the “Help”
in the Toolbar and select the topic of interest.
4.2. Toshiba Tools
4.2.1. Compiler, Assembler, Linker, Converter
All Toshiba software development tools are running in DOS environment. Hence, under
WINDOWS a DOS box has to be opened by selecting the MS-DOS icon or clicking a
tailored batch file from the Windows-Explorer. All respective manuals can be accessed by
the program group “TLCS-900 Tools”.
Editing sources
The source code of user C- or TLCS-900 Assembler programs should be plain ASCII text
edited by regular text editors like Windows-Editor, WORDPAD or others. The extensions
of the filenames should be “.C” for C-language programs and “.ASM” for assembler
programs.
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Compile and Link
Preparing programs for execution, i.e. compile and link, can be done by a single DOS
command line invoking a so called driver: for C-programs “cc900” driver and for
Assembler programs “mac900” driver.
For further information on drivers please refer to the “language tool operation manual”.
Please notice that the drivers additionally invoke the linker “tulink”. For linking a linkage
command file is needed with the extension is needed. The usual filename extension is
“.LNK” or “.LCF”. This file defines the desired mapping of variables and of program
code to memory addresses. Examples of linkage command files to fix user programs into
TOPAS900 memory please refer to the examples in “\SAMPLE\TEST900“ directory. In
all subdirectories are files named ”MAKE.BAT“. Executing these files will compile and
link the sample projects. Detailed information can be found in the respective manual. The
user always should add the assembler file “STARTUP.ASM” to the link command
which embeds user programs into some initializing code and should use the linkage
command file “SAMPLE.LNK” which sets the correct target address space. The
STARTUP.ASM program also includes the “IO900.H” file in which all implemented
input/output addresses are defined by variables and can be applied by user programs.
Program preparation for debugging
To prepare programs for source level debugging the driver has to be invoked with “-g“
switch.
Program format conversion
Executable programs (extension “.ABS”) can be converted to Intel-Hex or Motorola-S
format by invoking the format converter “tuconv”.
Converting for Internal and External Memory
To program software to internal or external flash memory Intel-hex files must be created
by using the “TUCONV.EXE” tool. The execution address range is the same
(0xFC000..0xFFFF00) but the programming address space is different. In programming
mode both, the internal and the external flash memory can be programmed, but in
different address ranges.
Sample command lines:
Converting for external memory:
-l -Fh20 -ra 0xf80000,0x80000,0x80000,,
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Converting for internal memory:
-l -Fh20 -ra 0xfc0000,0x040000,0x010000,,
Examples
For examples of program development please refer to subdirectories of
\SAMPLE\TEST900
where some example programs and respective compile and link driver command lines can
be found.
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4.2.2. TMPro Debugger
The TMPro Debugger is invoked by selecting the ”Toshiba Debugger” program group
and clicking the TMPro Debugger icon. Program debugging is done by downloading user
programs to external RAM on TOPAS900 Flash board and running them supervised by a
Monitor program in the external flash memory on the board.
Figure 7 : TMPro Window
When using the Toshiba environment there has to be a connection between the TMPro
Debugger on the PC and the respective Monitor (..\monitor\toshiba.h20) being started on
TOPAS900 Flash board. Hence, in beforehand the TOPAS900 board has to be connected
and active which is notified by the quickly flashing yellow LED. Invoking the TMPro
Debugger sets up the serial transfer line. Important to know when creating new
debugging profiles is the fixed communication speed of 38400 baud. The success in
setting this connection can be watched by LED stopping to flash a short while and
subsequently the Monitor will change the ratio of flashing to ca. 1:5. Hence, both the
Debugger and the Monitor are ready to work together.
Executable user programs are those with extension “.ABS“. Some small experimental
examples can be found in the directory “\SAMPLE\TEST900“. Select menu “FILE
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LOAD“ to load a program. The TMPro Debugger displays the source code in the source
window and automatically downloads the user program to the TOPAS900 Flash board.
After downloading a user program to the TOPAS900 Flash board RAM it can be started
(clicking go button) or traced (clicking one of the step buttons) by TMPro debugger. If a
user program is running the red LED on the TOPAS900 Flash board is switched on
permanently. Running programs can be stopped by TMPro debugger (click stop or finish
button), by a breakpoint being defined before (break set at a specific source code line) or
by actuating NMI switch on the TOPAS900 Flash board. The next statement of the user
program to execute is marked in the source code window.
For further details please refer to the help manual in the “Toshiba Debugger” program
group.
After starting the TMPro Debugger, a profile file which comprises a lot of settings for a
user program should be loaded or – if not existing – created.
If TMPro is called the first time after installing the creation of a new debugging profile is
necessary. From this profile further individual profiles can be derived. Before starting the
TMPro debugger be sure that the Toshiba ROM monitor is installed properly on the
TOPAS900 Flash board (external flash ROM) and is started (by pressing the reset
button). The yellow led must be flashing as an indicator for “Toshiba ROM monitor
running”.
4.2.2.1.
How to create a new debugging profile (*.tdp)
The following steps show how to setup a new profile. Just follow the steps below, which
give a short description. Please refer to the TMPro help file for further information (topic:
Starting the Profile Wizard and Wizard Processing).
·
·
·
Launch the TMPro Debugger by clicking its icon in the start menu.
Select New Profile from the File menu
A dialog will come up and requires
information about the connection.
Select the COM-port that is used for
the serial connection to the
TOPAS900 Flash Board. The DTE-
Speed must be set to 38400 baud as
shown on the left side. Confirm this
dialog for the next step. After
confirmation the serial connection to
the TOPAS900 Flash board’s ROM
monitor is established.
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·
The fields of this dialog are
concerned with the Real-Time-
Emulation System (RTE) from
TOSHIBA. No changes can be mage
here, so just confirm this dialog for
the next step.
·
The fields of this dialog show the
memory mapping of the TOPAS900
Flash Board. Because of limitations
of the ROM-Monitor no changes can
be mage here, so just confirm this
dialog for the next step.
·
Load Object File: enter the object
file of the project that should be load
by TMPro Debugger. Click the
Browse button to select the ABS-file
of your project. Source Search
Path: the path information of the
source files of a project are stored in
the abs-file absolutely. The source
search path gives an alternative path
to load the source files, if the files
given by the abs-file are not valid.
Work Space : Specifies the directory
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where the Debugger places temporary files. Confirm this dialog for the next step.
Script File and Startup Label can be left unchanged. Confirm the dialog to get to the
next dialog.
·
This dialog has no effect for the
ROM monitor operation and should
be confirmed unchanged.
·
This dialog asks for a filename for
the new profile that has been created
in the steps before. The default name
is
..\profile1.tdp.
Choose
a
meaningful name for the project like
leddim.abs. After confirmation of
this last step the profile is created
and stored to disk. The abs-file will
be loaded. Check the information
given at the bottom of the TMPro
window about the loading of debug
information or warnings or error
messages. When the profile is
double-clicked in the Windows-
Explorer the TMPro Debugger is started automatically with all the setting contained in
the profile.
4.2.3. TMPro ROM-Monitor
Using the Toshiba environment makes need of changing the ROM-Monitor in TOPAS900
Flash board because the IAR C-SPY Monitor is installed by default. For programming the
on-board (external) flash memory with the TMPro Monitor please refer to section 5.2. The
file that is to be programmed into external flash ROM is named Toshiba.h20.The speed
of serial RS-232 link to the PC is always 38400 baud. After starting the monitor (by
pressing the reset button) the yellow led flashes to show that the monitor is running.
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4.2.4. Toshiba Tool Limitations
The CC900 comes in a limited version with TOPAS900 Flash.
These restrictions are to be noticed:
·
·
The C-compiler has a limit of 2000 lines per file
The delivered tools are not supported and no subject of further development or
maintenance.
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4.3. ROM-Monitor Memory Usage
4.3.1. IAR ROM-Monitor
Memory Usage of ROM-Monitors
Enviroment :
Target:
IAR
TOPAS900 Flash II
000000H
0000A0H
Internal I/O
(160 bytes)
Not allocated
Free
000100H
0007FFH
Internal RAM
(8K bytes)
ROM Monitor
Free
0020A0H
F80000H
external memory
external memory
Free
ROM Monitor
External Flash Memory
(512 K bytes)
F8681CH
FEFFFFH
Free
ROM Monitor
Free
FE0000H
External RAM
(128 K bytes)
FFFF00H
FFFFFFH
ROM-Monitor uses:
RESET vector (FFFF00)
RxD2 vector (FFFF94)
Vector table
(256 bytes)
Figure 8 : Memory Usage of IAR ROM-Monitor
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4.3.2. Toshiba ROM-Monitor
Memory Usage of ROM-Monitors
Enviroment :
Target:
Toshiba
TOPAS900 Flash II
000000H
0000A0H
Internal I/O
(160 bytes)
Not allocated
Internal RAM
(8K bytes)
Free
0020A0H
F80000H
external memory
external memory
Free
ROM Monitor
External Flash Memory
(512 K bytes)
F8C961H
FE2A9BH
Free
ROM Monitor
Free
FE0000H
External RAM
(128 K bytes)
FFFF00H
FFFFFFH
ROM-Monitor uses:
RESET vector (FFFF00)
RxD2 vector (FFFF94)
Vector table
(256 bytes)
Figure 9 : Memory Usage of Toshiba ROM-Monitor
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4.4. Restrictions of ROM-Monitor Usage
The table below lists the restrictions that are caused by the usage of the ROM-monitor
software.
Resource Type
IAR C-Spy ROM-Monitor Toshiba TMPro ROM-
Monitor
ROM Address Space 0xF80000..0xF868FF
RAM Address Space 0x000100..0x0006FF,
0x000700..0x0007FF,
0xF80000..0xF8CAFF
0xFE0000..0xFEFFFF
0xFE0000..0xFE01F1,
0xFEFD00..0xFEFFFF
Interrupts
MCU Pins
RESET, SWI7, RxD2
D0..D7, A0..A18, /RD,
RESET, NMI, SWI7, RxD2
D0..D7, A0..A18, /RD,
/WR, /CS0, /CS2, TxD2, /WR, /CS0, /CS2, TxD2,
RxD2, /BOOT
RxD2, /BOOT
Other
DI forbidden, clock
speed fixed @20 MHz
DI forbidden, clock speed
fixed @20 MHz
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5.
Functional Description
5.1. Operating Modes
Besides I/O page, 8 Kbytes internal RAM and the interrupt vector area the TMP95FY64
controller has 256 Kbytes of internal flash memory. TOPAS900 Flash board additionally
is equipped with 512 Kbytes external flash memory (double size of internal flash) and 128
Kbytes external RAM (half size of internal flash). The flash memories and the external
RAM are differently mapped in three different modes of operation.
5.1.1. MCU Internal Memory Map
The memory map of the MCU itself is as follows:
Figure 10 : The MCU's Internal Memory Map
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5.1.2. Internal Mapping in different Modes
Figure 11 : Internal Mapping in Single Boot and Single Chop Mode
5.1.3. Programming in Single Boot Mode
The TMP95FY64 flash controller comprises 256 Kbytes of internal (on-chip) flash
memory. For first-time programming of this memory a small portion of internal program
located in an internal Boot-ROM area has to be activated. This is done by resetting the
controller and restarting it by holding the /BOOT line initially to Low. The controller then
runs in SINGLE BOOT mode (see also controller manual) executing a program from
Boot-ROM for programming the internal flash from a serial line. For this programming
action the internal flash is switched to addresses from off 10000h (see fig. 5/6).
Handling of the /BOOT line and programming from PC is managed by a small
additionally implemented 8-bit controller TMP87P808.
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MEMORY MAP
Boot Memory : Boot ROM
Reset-Conditions :
/EA = H
/BOOT = L (single boot mode)
000000H
0000A0H
Internal I/O
(160 bytes)
Internal RAM
(8K bytes)
0020A0H
external memory
external memory
010000H
Internal Flash ROM
(256K bytes)
04FFFFH
RAMSTART*
External RAM
(128 K bytes)
ROMSTART*
External Flash Memory
(512 K bytes)
FFF800H
FFFFFFH
Internal Boot ROM
* ROMSTART is programmed by CS2 registers
* RAMSTART is programmed by CS1 registers
Figure 12 : Map for Internal Flash Programming
5.1.4. Normal Operation Mode
For normal operation the /BOOT line is switched to High which disables the Boot-ROM.
In this mode there are two possibilities for mapping the internal flash memory determined
by the /EA (external address) line. The TOPAS900 Flash board has external flash
memory for the ROM-Monitors and/or user programs and external RAM mainly for
program debugging. The /EA line enables/disables the internal flash and performs the
mappings shown in fig.7 and fig. 8.
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MEMORY MAP
MEMORY MAP
Boot Memory : internal ROM
Reset-Conditions :
/EA = H
Boot Memory : external ROM
Reset-Conditions :
/EA = L
/BOOT = H
/BOOT = H
000000H
Internal I/O
000000H
0000A0H
Internal I/O
(160 bytes)
(160 bytes)
0000A0H
Internal RAM
(8K bytes)
Internal RAM
(8K bytes)
0020A0H
0020A0H
external memory
external memory
external memory
external memory
ROMSTART*
External Flash Memory
(512 K bytes)
ext.
ROM
RAMSTART*
FC0000H
RAMSTART*
F80000H
External RAM
(128 K bytes)
External RAM
(128 K bytes)
Internal Flash ROM
(256K bytes)
External Flash Memory
(512 K bytes)
ext.
ROM
int.
ROM
FFFF00H
FFFFFFH
FFFF00H
FFFFFFH
Vector table
(256 bytes)
Vector table
(256 bytes)
* ROMSTART is programmed by CS2 registers
* RAMSTART is programmed by CS1 registers
Figure 13 : Memory Map for using external / internal Flash
For programming the external flash the /EA line has to be set High which can be derived
by opening the jumper J_EA (see fig. 1 at the right top and in the schematic fig. 10 at the
bottom in the middle). The map of fig. 7 is valid and the external flash can be
programmed supported by the 8-bit controller.
For normal operation and debugging it is important that the system starts from external
flash, i.e. the vector table and the firmware have to be located and to be started from there.
Like shown in the map of fig. 8 the external flash is located from off address F80000h to
FFFFFFh including the vector area.
For running in normal operation the jumper J_EA can be left open, because the /EA line
is controlled by the firmware controller. If the Flash Carrier Board works stand-alone
(without Programming-and-Debugging Board), the jumper must be set when external
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flash software should be executed. If the jumper is left open, the /EA pin is pulled up by a
10k pull-up resistor and the Flash MCU boots from internal flash memory. When the
MCU is reset with /EA at high level, the external memory can be accessed additionally.
The entire ROM size would be 768 kb and 128 kb of ram. When the MCU is reset with
/EA at low level, the internal flash memory cannot be accessed additionally.
5.2. Jumper Description
5.2.1. The jumpers of the Programming-Debugging Board
J_VCC : must only be opened when in-circuit debugging is performed with Flash Carrier
Board plugged in to a PGA socket of a target application with its own power supply. In all
other cases the jumper must be close to connect the power supply to the Flash Carrier
Board.
J_RES : Jumper to connect/disconnect the reset line controller by the firmware
controller. Should only be opened when in-circuit debugging is performed with a target
application with its own reset generation circuit.
5.2.2. The jumpers of the Flash Carrier Board
J_CS0 : This jumper is to connect/disconnect the chip select line CS0 to the on-board
RAM device. If an external data/address bus is not required, it is recommended to open
this jumper. The CS0 pin can be used as a port pin additionally.
J_CS2 : Same as above. The CS2 pin is used to enable the on-board flash ROM device.
J_EA : Jumper to select between internal (high/open) and external flash memory access
(low/closed) after reset. When the Flash Carrier Board is connected to the Programming
and Debugging Board, the jumper can be left open – the line is controlled by the firmware
controller.
5.3. Programming of Flash Memory
Internal and external flash memories can be programmed with the respective tool. To start
it select the program group “TOPAS900 Flash” and select “TOPAS900 Flash
Programming Tool” from the menu. If there is no board connected a respective error
message will be displayed. If there is no physical connection this should be mounted. In a
lot of cases the reason is the COM port setting. You can set the COM and the transfer
data by clicking the “Setup Port” icon and use the setting options. If the connection is set
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up the following window occurs (fig. 9) and the board reacts by red LED flashing quickly.
Be sure that the jumper J_EA is opened.
Figure 14 : Flash Programmer Window
All bars and icons are self explaining. It should be noticed that either internal or external
flash memory can be selected and programmed. Files to be downloaded have to be in
HEX16 or HEX20 format. Conversion tools are available in both tool sets.
It is important to mention that the ROM Monitors have to be located in the external
flash. Hence the reprogramming procedure is to choose the access “External Flash”
then “Erase Flash” then open alternatively the files “iar.h20” for IAR or “toshiba.h20”
for Toshiba ROM Monitor and then “Program Flash”. Both files are to be found in
“Program Files/topas900flash/monitors”.
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6. Technical Sheets
6.1. Board Schematics
The schematics of the complete TOPAS900 Flash board are given in the following four
pages.
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Figure 15 : Schematic Page 1 of 4
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Figure 16 : Schematic Page 2 of 4
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Figure 17 : Schematic Page 3 of 4
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Figure 18 : Schematic Page 4 of 4
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6.2. Component Print
Figure 19 : Component Print – Top & Bottom View
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6.3. PCB Routing
Figure 20 : PCB Routing – Top & Bottom View
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7.
Application Board
To demonstrate how useful microcontrollers can be for industrial solutions and in
common applications a hardware extension board – the Application Board – has been
developed. The picture below shows the Application Board.
Figure 21 : The Application Board
With its hardware components and their corresponding software drivers a lot of different
applications can be developed very quickly - without the common overhead of driver
development. The software developer can concentrate on developing algorithms for
solving specific problems instead of spending time in things that have been developed
many times before.
The Application Board package comes with a set of software modules to ensure short
development cycles and to give enough software samples that demonstrate the way of
developing embedded systems with Toshiba microcontrollers.
The software modules are:
·
·
·
·
·
·
·
·
4-bit bi-directional LCD-Panel driver
I²C driver (I²C master protocol)
LM 75 temperature driver
SPI bus driver
ST95040 serial EEPROM driver
keyboard matrix input driver
A/D conversion driver
serial RS232 line driver
For all software modules the hardware components are available on the board and can be
tested directly.
Additionally there are some applications that uses the software modules to show how
more complex applications are to be developed. One of these examples is a digital
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thermometer that uses I²C bus driver, the LM75 temperature sensor and the LC-display
for data output.
The Application Board is compatible with
·
·
·
TOPAS900 Standard
TOPAS900 Flash II
TOPAS900 CAN
The Application Board hardware is a separate product and therefore is has to be ordered
separately.
The Application Board Software is part of TOPAS900 Flash and will should be installed
to C:\AppBoard.
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8.
Electromagnetic Compatibility
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|