smartglcd - mikroelektronika · 2016-03-25 · page 4 the smartglcd 240x128 is a compact smart...
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240x128SmartGLCD
Page 2
I want to express my thanks to you for being interested in our products and for having
confidence in MikroElektronika.
The primary aim of our company is to design and produce high quality electronic products
and to constantly improve the performance thereof in order to better suit your needs.
TO OUR VALUED CUSTOMERS
Nebojsa Matic
General Manager
The PIC®, dsPIC®, PIC24®, PIC32® and Windows® logos and product names are trademarks of Microchip Technology® and Microsoft® in the U.S.A. and other countries.
What is the SmartGLCD 240x128? 4
Package Contains 5
1. Key Features 6
System Specification 7
2. Power supply 8
3. PIC18F87K22 microcontroller 10
Key microcontroller features 10
4. Programming the microcontroller 11
5. Programming with bootloader 12
mikroBootloader software 12
Identifying device COM port 13
step 1 – Choosing COM port 13
step 2 - Establishing Connection 14
step 3 - Browsing for .HEX file 14
step 4 – Selecting .hex file 15
step 5 – Uploading .hex file 15
step 6 – Progress bar 16
step 7 - Finishing upload 16
Tips and Tricks: Speed-up UART data transfer 17
6. Programming with mikroProg™ programmer 18
7. mikroProg Suite™ for PIC® Software 20
8. microSD Card Slot 22
9. Touch Screen 24
10. RGB backlight 26
11. Contrast potentiometer 27
12. USB UART 28
13. Buzzer 30
14. Pinout 32
15. Dimensions 33
What’s next? 34
Page 3
Table of Contents
Page 4
The SmartGLCD 240x128 is a compact smart
display, with many on-board peripherals. It’s
designed to become a control interface of your
device. Main part of the board is a large 240x128
pixel graphical LCD with a 4-wire resistive touch
screen. It features RGB backlight, which can
greatly improve user experience, but can also
be used as a signaling feature. The heart of the
board is PIC18F87K22, an 8-bit microcontroller
delivering 12MIPS of processing power. Other
modules like USB UART, piezo buzzer, microSD
slot and connection pads can be found on board
as well. The board is preprogrammed with
UART bootloader. We have also provided a nice
example which will give you a great out-of-the-
box experience.
What is the SmartGLCD 240x128?
Smar
tGLC
D 2
40
x12
8 -
pino
ut
SPI L
ines
Inte
rrup
t Li
nes
Ana
log
Line
s
I2C
Line
s
UA
RT li
nes
INT
I2C/SPI
PWM Analog I/O mikroProg
Gro
und
I2C/SPI
TXU
ART
Dig
ital
I/O
AN
2A
N3
Dig
ital
I/O
Dig
ital
I/O
Digital I/O
Dig
ital
I/O
AN
4
SCK
1/S
CL1
SDI1
/SD
A1
SDO
1
SDO
2SD
I2/S
DA
2SC
K2
/SCL
2
RX
5V power supplyGround Ground
3.3V power supply output
5V
pow
er
supp
ly
RA
2R
A3
RA
4R
A5
RB
0R
B1
RB
2R
B3
RB
4R
C3R
C4R
C5R
D0
RD
1R
D2
RD
3R
D4
RD
5R
D6
RD
7R
E0R
E1R
E2R
E3R
E4R
E5R
E6R
E7N
CR
F1R
F2R
F3R
F4R
F5R
F6R
F7
GN
D
RG
1
RST
RG
2
PGD
GN
D
PGC
5V 5V
Smar
tGLC
D 2
40x1
28 P
inou
tve
r. 1
.51
010
0000
0244
47
Page 5Page 4
01 02
04 05
03
06
Damage resistant
protective box
SmartGLCD 240x128
development board
SmartGLCD 240x128 user’s guide
SmartGLCD 240x128 schematic and pinout
DVD with documentation
and examples
USB cable
240x128SmartGLCD
SCHEMATICS
We present you with a complete color schematics for SmartGLCD 240x128 development board. We want you to know what your board is consisted of andhow it actually works.
240x128SmartGLCD
Package Contains
19122011 www.mikroe.com
Copyright ©2011 Mikroelektronika. All rights reserved. Mikroelektronika, Mikroelektronika logo and other
Mikroelektronika trademarks are the property of Mikroelektronika. All other tradmarks are the property of their respective owners.
Unauthorised copying, hiring, renting, public performance and broadcasting of this DVD prohibited.
Page 6
01
02 03
01
02
03
04
05
06
07
08
09
10
11
12
GLCD 240x128 display
RESET button
Power supply pads
I/O pads
Pads for mikroProg programmer
USB connector
Touch panel connector
PIC18F87K22 microcontroler
Contrast potentiometer
microSD card slot
USB UART module
Buzzer
1. Key Features
Page 7
power supply
Via USB cable (5V DC)
weight
~210g (0.46 lbs)
board dimensions
140x90cm (5.51x3.24’’)
power consumption
~350mA in idle state
(backlight is ON)
06
07
04 0512
System Specification
11080910
Page 8
The SmartGLCD board can be powered in two different ways: via USB connector (CN1) using MINI-B USB cable provided with the board
(Figure 2-1), or via side headers (CN2 or CN4) using external 5V power supply (Figure 2-2 and Figure 2-3).
When the board is powered up the GLCD display will be automatically turned on. The USB connection can provide up to 500mA of current
which is more than enough for the operation of all on-board modules and the microcontroller as well.
2. Power supply
Figure 2-1: connecting USB power supply
through CN1 connector
Figure 2-2: connecting external 5V power supply through CN2 connector
Figure 2-3: connecting external 5V power supply through CN4 connector
Page 9
Figure 2-4: Power supply schematic
FB1
FERRITEBEAD
VCCVCC-3.3VCC-MMC VINVOUT
REG1
MC33269DT-3.31
32
E1E2 E3
10uF10uF 47uF
C10C11
100nF100nF
CN1
USB MINI-BVCC
VCC
VCCVCC-3.3
CN2
CN4
Page 10
3. PIC18F87K22 microcontroller
The SmartGLCD development tool comes with the PIC18F87K22
microcontroller. This 8-bit microcontroller is rich with on-chip
peripherals and features 128KB of Flash and 4KB of RAM. It can
easily handle demanding graphical applications.
Key microcontroller features- Up to 12 MIPS Operation;
- 8-bit architecture;
- 128KB of Flash memory;
- 3,862 bytes of RAM;
- 1024 bytes of EEPROM;
- 80 pin TQFP;
- 24 ch, 12-bit ADC;
- UART, SPI, I2C; etc.
Data/Memory Bus
Data Bus
PIC18F16 MIPS 8-bit Core- nanoWatt
- Up to 64MHz
31 LevelStack
ProgramCounter
Instruction Data
I/O Timers Comparators ADC12-Bit USART CCP MSSP
Flash(Up to 128KB) RAM
(Up to 3.9KB)
DataAddressAddress
Decoder
SPII2C
Page 11
01
02
Using USB UART mikroBootloader
Using external mikroProg™ for PIC, dsPIC, PIC32 programmer
Figure 4-1:PIC18F87K22 microcontroller
The microcontroller can be programmed in two ways:
4. Programming the microcontroller
Page 12
5. Programming with bootloader
Microcontroller is preprogrammed with USB UART Bootloader,
which can be used to upload new device firmware. To trans-
fer firmware .HEX file from a PC to MCU you need to use mikro-
Bootloader USB UART application, which can be downloaded from:
Upon download, unzip it to desired location and start the
mikroBootloader application:
http://www.mikroe.com/smartglcd/
note
Figure 5-1: mikroBootloader window
mikroBootloader software
01 When you start mikroBootloader software a window should appear, as shown in the image above.
Before starting mikroBootloader software, connect SmartGLCD
to a PC using a USB cable provided with the package.
Page 13
Identifying device COM port
Figure 5-2: Identifying COM port
step 1 – Choosing COM port
01
02
03
01 Open Device Manager window and expand Ports (COM & LPT) section to check which COM port is assigned to SmartGLCD board (in this case it is COM18).
Figure 5-3: Choosing COM port
01
02
03
Click the Change Settings button.
From the drop down list, select appropriate Port (in this case it is COM18) and Baud rate (115200).
Click OK.
Page 14
01
01
Figure 5-4: Connecting with mikroBootloader Figure 5-5: Browse for HEX
01 01Press the Reset button on SmartGLCD board and click Connect within 5s, otherwise the existing microcontroller program will run. If connected, the button’s caption will be changed to Disconnect.
Click the Browse for HEX button and from a pop-up window (Figure 5-6) choose a .HEX file to be uploaded in MCU memory.
step 2 - Establishing Connection step 3 - Browsing for .HEX file
Page 15
Figure 5-7: Begin uploading
step 4 – Selecting .hex file step 5 – Uploading .hex file
01
02
01
Figure 5-6: Locating and selecting .hex file
01
02
Select .HEX file from the Open dialog window.
Click the Open button.
01 In order to upload .HEX file click the Begin uploading button.
Page 16
01
step 6 – Progress bar
01
step 7 - Finishing upload
Figure 5-8: Progress bar Figure 5-9: Restarting MCU
01 01
02
Progress bar enables you to monitor .HEX file uploading.
Click OK button after the uploading process has been finished.
Press Reset button on SmartGLCD board and wait for 5 seconds. Your program will run automatically.
Page 17
01
02
03
04
Right click on the USB Serial Port (COM18) item and then select Properties.
Select Port Settings tab.
Click the Advanced... button.
Set Latency Timer to 1 and click OK.
Tips and Tricks: Speed-up UART data transfer
If .HEX file transfer from your PC to
MCU is too slow, it’s possible to speed
up data transfer by setting latency
time of COM port to 1 ms. This is done
in Device Manager:
02
03
04
01
note
Page 18
6. Programming with mikroProg™ programmer
Figure 6-2:The mikroProg can be also attached on the front side of the board. In this case, solder
1x5 header to front side pads (CN3).
Figure 6-1: The mikroProg can be attached on the back side of the board. Just solder 1x5 header to
back side pads (CN3) before connecting it.
The microcontroller can be programmed with the external mikroProg™ programmer which can be connected to the board via CN3
connector. Before establishing this connection it is necessary to solder 1x5 male header to CN3 connection pads. This can be done in
both ways: on the bottom, or the top side, as shown in Figures 6-1 and 6-2.
If bootloader program is accidently erased you can upload it again through mikroProg programmer.
Program Bootloader18F87K22.hex can be found under Firmware folder (page 12).note
Page 19
Make sure to use only the front row of mikroProg’s IDC10 connector (side with a knob and
incision) when connecting it to 1x5 header on your SmartGLCD board.
VCC
PIC18F87K22
RH
1R
H5
RH
4R
F1E
NV
RE
GAV
CC
AG
ND
RA
3R
A2
RA
1R
A0
GN
DV
CC
RA
5R
A4
RC
1R
C0
RC
6R
C7
RJ4
RJ5
RH
0R
E2
RE
3R
E4
RE
5R
E6
RE
7R
D0
VC
CG
ND
RD
1R
D2
RD
3R
D4
RD
5R
D6
RD
7R
J0R
J1
RH2 RJ2RJ3RB0RB1RB2RB3RB4RB5RB6GND
OSC2OSC1
VCCRB7RC5RC4RC3RC2RJ7RJ6
RH3RE1RE0RG0RG1RG2RG3MCLRRG4GNDVDDcore/VcapRF7RF6RF5RF4RF3RF2RH7RH6
VC
C
VC
C
VCC
D1BAT43
R221K
VCC
C5100nF
E5
10uF
VCCPGCPGD
CN3
mRST#
PGD
PGCmRST#
Figure 6-3: mikroProg™ connection schematic
note
Page 20
7. mikroProg Suite™ for PIC® Software
The mikroProg™ programmer requires
special programming software called
mikroProg Suite™ for PIC®. It can be
used for programming all Microchip® mi-
crocontroller families, including PIC10®,
PIC12®, PIC16®, PIC18®, dsPIC30/33®,
PIC24® and PIC32®. The software has
intuitive interface and SingleClick™
programming technology. Just down-
load the latest version of mikroProg Suite™ and your programmer is ready
to program new devices. mikroProg Suite™ is updated regularly, at least
four times a year, so your programmer
will be more and more powerful with
each new release.
Figure 7-1: Main window of mikroProg Suite™ for PIC® programming software
Page 20
Page 21
01
04
02
05
03
06
Start Installation
Choose destination folder
Accept EULA and continue
Installation in progress
Install for all users
Finish installation
Software Installation Wizard
There is a built-in microSD card slot provided on-board. It enables the
expansion of available memory space using microSD cards. Communication
between the microcontroller and the card is done through Serial Peripheral Interface (SPI).
8. microSD Card Slot
Figure 8-1: microSD card slot
Page 22
Page 23
Figure 8-2: microSD Card Slot module connection schematic
R292K2
R282K2
R272K2
R323K3
R331K
R313K3
R303K3
VCC-MMC
MM
C-C
S#
MM
C-C
D#
RC
5-MO
SI
RC
3-SC
K
CN5microSD CARD
CDCMDVCC
CLKGNDDAT0
G
VCC
C100nF
12
FB1
FERRITEBEAD
VCCVCC-3.3VCC-MMC VINVOUT
REG1
MC33269DT-3.31
32
E1E2 E3
10uF10uF 47uF
C10C11
100nF100nF
VCC
PIC18F87K22
RH
1R
H5
RH
4R
F1E
NV
RE
GAV
CC
AG
ND
RA
3R
A2
RA
1R
A0
GN
DV
CC
RA
5R
A4
RC
1R
C0
RC
6R
C7
RJ4
RJ5
RH
0R
E2
RE
3R
E4
RE
5R
E6
RE
7R
D0
VC
CG
ND
RD
1R
D2
RD
3R
D4
RD
5R
D6
RD
7R
J0R
J1
RH2 RJ2RJ3RB0RB1RB2RB3RB4RB5RB6GND
OSC2OSC1
VCCRB7RC5RC4RC3RC2RJ7RJ6
RH3RE1RE0RG0RG1RG2RG3MCLRRG4GNDVDDcore/VcapRF7RF6RF5RF4RF3RF2RH7RH6
VC
C
VC
C
VC
C
RC3-SCKRC4-MISORC5-MOSI
MMC-CD#
C5100nF
RC
4-M
ISO
MM
C-C
S#
E5
10uF
Figure 9-1: Touch Screen
9. Touch Screen
Page 24
The development system features a
Graphical LCD in 240x128 pixel resolution. Display is covered with a
4-wire resistive touch panel. Together
they form a functional unit called a touch
screen, Figure 9-1. It enables data to be
entered and displayed at the same time.
Page 25
Figure 9-2: Touch Screen connection schematic
TOU
CH
PAN
EL
TOUCH PANELCONTROLLER
Q6BC556
Q4BC546
VCC
VCC
VCC
VCC
Q8BC556
QBC546
5
R1K
21
R10K
15
R10K
7
R10K
14
R10K
13
RK
17100
R10K
18
R10K
19
RK
20100
C6100nF
C9100nF
R10K
26
QBC546
7
LEFT
TOP
RIGHT
BOTTOM
DRIVEB
DRIVEA
CN6
VO
GLC
D-C
DG
LCD
-RD
#G
LCD
-WR
#G
LCD
-D0
GLC
D-D
1G
LCD
-D2
GLC
D-D
3G
LCD
-D4
GLC
D-D
5G
LCD
-D6
GLC
D-D
7G
LCD
-CE
#G
LCD
-RE
S#
Vee
GLC
D-M
DG
LCD
-FS
GLCDCONTROLLER
RA6963
VCC
PIC18F87K22
RH
1R
H5
RH
4R
F1E
NV
RE
GAV
CC
AG
ND
RA
3R
A2
RA
1R
A0
GN
DV
CC
RA
5R
A4
RC
1R
C0
RC
6R
C7
RJ4
RJ5
RH
0R
E2
RE
3R
E4
RE
5R
E6
RE
7R
D0
VC
CG
ND
RD
1R
D2
RD
3R
D4
RD
5R
D6
RD
7R
J0R
J1
RH2 RJ2RJ3RB0RB1RB2RB3RB4RB5RB6GND
OSC2OSC1
VCCRB7RC5RC4RC3RC2RJ7RJ6
RH3RE1RE0RG0RG1RG2RG3MCLRRG4GNDVDDcore/VcapRF7RF6RF5RF4RF3RF2RH7RH6
VC
C
VC
C
VC
C
GLCD-D2GLCD-D3
DRIVEA
DRIVEB
GLCD-D7GLCD-D6
GLC
D-D
5G
LCD
-D4
LEFT
BO
TTO
M
GLC
D-R
ES
#G
LCD
-MD
GLCD-FS
GLCD-CE#GLCD-WR#
GLC
D-R
D#
GLC
D-C
D
GLC
D-D
0G
LCD
-D1
VCC10K
10K
R34
R23
GLCD-FS
GLCD-MDC5100nF
VO
CONTRAST
VEE
VR10K
E5
10uF
10. RGB backlight
Page 26
Graphical LCDs are only capable of
showing monochromatic pixel but
not color content. The color of the
pixel is determined by the color
of the backlight which illuminates
the display. SmartGLCD has the RGB color backlight - a very
useful feature which can give
your graphical user interfaces an
astonishing look.
Display’s backlight module consists
of three LEDs: red, green and blue,
which can shine simoutaneously.
LED can be driven by PWM signals
coming from three separate
microcontroller pins. Duty ratio of
the PWM signal determines the
intensity of color (or brightness) of
each LED. Combined together they
can create more than 16 milion
different backlight colors.
Figure 10-1:The same graphics
with different backlight colors
Page 27
11. Contrast potentiometer
On the backside of the board there is a small
potentiometer which can be used to change
contrast of the GLCD. The brighter the backlight, the
less contrast you will need to properly display the
graphical content.
Figure 11-1:Constrast
potentiometer
12. USB UART
Page 28
Fast on-board FTDI® chip allows you to communicate with a PC or other UART devices
using USB UART connection. Before connecting the board to a PC, make sure that you
have the appropriate FTDI drivers installed on your operating system. Drivers can be
found on the Product DVD:
USB-B connector (CN1) is used for connecting the USB cable, which is delivered with
the board package. Plug it in as shown in Figure 12-1.
Figure 12-1: Connecting USB cable
to SmartGLCD board
DVD://download/eng/software/development-tools/universal/ftdi/vcp_drivers.zip19122011
www.mikroe.com
Copyright ©2011 Mikroelektronika. All rights reserved. Mikroelektronika, Mikroelektronika logo and other
Mikroelektronika trademarks are the property of Mikroelektronika. All other tradmarks are the property of their respective owners.
Unauthorised copying, hiring, renting, public performance and broadcasting of this DVD prohibited.
Available on Product DVD!
Page 29
Figure 12-2: USB UART module connection schematic
UART-TX
UART-RX
OSCIDTR#
OSCOTXD
TEST
VCC
RTS#
DSR#
AGND
RESET#
VCCIO
DCD#
NC
GND
RXD
CTS#
CBUS1
USBDM
GND
CBUS2
GND
USBDP
NC
CBUS3
CBUS0
3V3OUT
RI#
CBUS4
FT232RL
U12VCC
C15
100nF
VCC
C16
100nF
C17100nF
CN1
USBDMUSBDP
USB MINI-B
VCC
E4
10uF
VCC-3.3
VCC
VCC
R94K7
R1010K
VC
PIC18F87K22
RH
1R
H5
RH
4R
F1E
NV
RE
GAV
CC
AG
ND
RA
3R
A2
RA
1R
A0
GN
DV
CC
RA
5R
A4
RC
1R
C0
RC
6R
C7
RJ4
RJ5
RH
0R
E2
RE
3R
E4
RE
5R
E6
RE
7R
D0
VC
CG
ND
RD
1R
D2
RD
3R
D4
RD
5R
D6
RD
7R
J0R
J1
RH2 RJ2RJ3RB0RB1RB2RB3RB4RB5RB6GND
OSC2OSC1
VCCRB7RC5RC4RC3RC2RJ7RJ6
RH3RE1RE0RG0RG1RG2RG3MCLRRG4GNDVDDcore/VcapRF7RF6RF5RF4RF3RF2RH7RH6
VC
C
VC
C
VC
C
UA
RT-
RX
UA
RT-
TXC5100nF
E5
10uF
C
Figure 13-1: Buzzer module
13. Buzzer
The board is also equipped
with piezo buzzer. It is an
electric component which can be
used to create sound when provided with
electrical signal. This is usually a PWM signal
coming from a microcontroller pin. Before entering
the buzzer itself, the signal is amplified by the on-board
buzzer driver circuit. Frequency of the signal determines
the pitch of the sound and duty cycle of the signal can be used to
increase or decrease the volume.
Page 30
Page 31
Figure 13-2: Buzzer module schematic
10K
R36
1KR35
Q9BC546
1KR37 BZ1
VCC
VCC
PIC18F87K22
RH
1R
H5
RH
4R
F1E
NV
RE
GAV
CC
AG
ND
RA
3R
A2
RA
1R
A0
GN
DV
CC
RA
5R
A4
RC
1R
C0
RC
6R
C7
RJ4
RJ5
RH
0R
E2
RE
3R
E4
RE
5R
E6
RE
7R
D0
VC
CG
ND
RD
1R
D2
RD
3R
D4
RD
5R
D6
RD
7R
J0R
J1
RH2 RJ2RJ3RB0RB1RB2RB3RB4RB5RB6GND
OSC2OSC1
VCCRB7RC5RC4RC3RC2RJ7RJ6
RH3RE1RE0RG0RG1RG2RG3MCLRRG4GNDVDDcore/VcapRF7RF6RF5RF4RF3RF2RH7RH6
VC
C
VC
C
VC
C
C5100nF
E5
10uF
Page 32
14. Pinout
SPI Lines
Interrupt Lines
Analog Lines
I2C Lines
UART lines
INT
I2C/SPI
PWM Analog I/O mikroProg
Gro
und
I2C/SPI
TXU
ART
Dig
ital
I/O
AN
2A
N3
Dig
ital
I/O
Dig
ital
I/O
Digital I/O
Dig
ital
I/O
AN
4
SCK
1/S
CL1
SDI1
/SD
A1
SDO
1
SDO
2SD
I2/S
DA
2SC
K2
/SCL
2
RX
5V power supplyGround Ground
3.3V power supply output
5V
pow
er
supp
ly
RA
2R
A3
RA
4R
A5
RB
0R
B1
RB
2R
B3
RB
4R
C3R
C4R
C5R
D0
RD
1R
D2
RD
3R
D4
RD
5R
D6
RD
7R
E0R
E1R
E2R
E3R
E4R
E5R
E6R
E7N
CR
F1R
F2R
F3R
F4R
F5R
F6R
F7
GN
D
RG
1
RST
RG
2
PGD
GN
D
PGC
5V 5V
Page 33
15. Dimensions140
5512
12
.34
21
90
83
35
43
32
68
2.5
4
10
0
Tolerance +/- 0.5mm
11,6457
7.7
73
06
14
.73
58
0
12,7500
12,74000
11,56455
301181
1285040
7276
2 (79)
12.57500
13.12516
4.8190
Legend
Pad hole size
Mounting hole size
45 milsø 1.14 mmø
ø 157 mils
ø 4 mm
107.54232
1144488
display margin
display
active surface
57
.52
26
4
64
25
20
74
29
13
1.663
16.3642
Page 34
You still don’t have an appropriate compiler? Locate PIC® compiler that suits you best on the
Product DVD provided with the package:
Choose between mikroC™, mikroBasic™ and mikroPascal™ and download fully functional
demo version, so you can begin building your first applications.
Once you have chosen your compiler, and since you already got the board, you are ready to start writing your first
projects. Visual GLCD software for rapid development of graphical user interfaces enables you to quickly create
your GUI. It will automatically create necessary code which is compatible with mikroElektronika compilers. Visual GLCD
is rich with examples, which are an excellent starting point for your future projects. Just load the example, read well
commented code, and see how it works on hardware. Visual GLCD is also available on the Product DVD.
Your journey through each and every feature of SmartGLCD board ends here. You got to know it’s modules and organization. Now you are ready
to use it. We are suggesting several steps which are probably the best way to begin with. We invite you to join the users of SmartGLCD brand.
You will find very useful projects and tutorials and can get help from a large ecosystem of users. Welcome!
Compiler
Projects
DVD://download/eng/software/compilers/
What’s next?
Page 35
DISCLAIMER
All the products owned by MikroElektronika are protected by copyright law and international copyright treaty. Therefore, this manual is to be treated as any other copyright material. No part of this manual, including product and software described herein, may be reproduced, stored in a retrieval system, translated or transmitted in any form or by any means, without the prior written permission of MikroElektronika. The manual PDF edition can be printed for private or local use, but not for distribution. Any modification of this manual is prohibited.
MikroElektronika provides this manual ‘as is’ without warranty of any kind, either expressed or implied, including, but not limited to, the implied warranties or conditions of merchantability or fitness for a particular purpose.
MikroElektronika shall assume no responsibility or liability for any errors, omissions and inaccuracies that may appear in this manual. In no event shall MikroElektronika, its directors, officers, employees or distributors be liable for any indirect, specific, incidental or consequential damages (including damages for loss of business profits and business information, business interruption or any other pecuniary loss) arising out of the use of this manual or product, even if MikroElektronika has been advised of the possibility of such damages. MikroElektronika reserves the right to change information contained in this manual at any time without prior notice, if necessary.
TRADEMARKS
The MikroElektronika name and logo, the MikroElektronika logo, mikroC™, mikroBasic™, mikroPascal™, mikroProg™, mikroBUS™, Click Boards™, EasyPIC and mikromedia™ are trademarks of MikroElektronika. All other trademarks mentioned herein are property of their respective companies.All other product and corporate names appearing in this manual may or may not be registered trademarks or copyrights of their respective companies, and are only used for identification or explanation and to the owners’ benefit, with no intent to infringe.
Copyright © MikroElektronika, 2013, All Rights Reserved.
HIGH RISK ACTIVITIES
The products of MikroElektronika are not fault – tolerant nor designed, manufactured or intended for use or resale as on – line control equipment in hazard-ous environments requiring fail – safe performance, such as in the operation of nuclear facilities, aircraft navigation or communication systems, air traffic control, direct life support machines or weapons systems in which the failure of Software could lead directly to death, personal injury or severe physical or environmental damage (‘High Risk Activities’). MikroElektronika and its suppliers specifically disclaim any expressed or implied warranty of fitness for High Risk Activities.
If you want to learn more about our products, please visit our website at www.mikroe.com
If you are experiencing some problems with any of our products or just need additional
information, please place your ticket at www.mikroe.com/esupport
If you have any questions, comments or business proposals,
do not hesitate to contact us at office@mikroe.comSmartGLCD 240x128 Manual
ver. 1.51
0 100000 024430
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