iSMART 7.0" TFT Module


7.0" itron SMART TFT Module 800x480 pixels 262,144 Colours (18 bit) 40 Page Display RAM 128M Byte Flash 4G+ Micro SDHC Slot LED Backlight Control 5V Supply 3.3V Logic ASCII + UNICODE Fonts RS232 Port SPI - I2C Interfaces Sync Serial Controller USB 2.0 Interface Resistive Touch Screen Up to 12 x 12 Key Control Up to 24 User Digital I/O 2 Analogue Inputs 2 PWM Outputs Real Time Clock + Date Run Animations Auto Menu Control Screen Rotation - 90, 180 Object Oriented Language Graphic User Interface Integrated Debugger Downloads Full Spec (pdf) Full Spec (compiled) 2D Mechanical Connector Dimensions Environmental The 7.09mm TFT thickness includes a touch screen. This dimension is reduced for non touch versions

Part Number Structure

LINUX

CANBUS

Pixels X x Y

Battery Holder

USB Socket

RS232 & RS422

Touch Panel

RS232

RS232 & RS422

This product has been designed to simplify the implementation of TFT technology into your product. The high level text based object oriented command structure, entity library and 33 page screen memory allow most of the processing to be undertaken by the TFT module leaving the host CPU to concentrate on the core application processes. This allows proven firmware running on small 8 bit microcontrollers to be modified to drive this TFT module with a minimum of work and risk.

TFT Module and Kit Options

Module Part Number	CN1 Interface	+ USB	+ TOUCH & USB	+ LINUX	Accessories
TU800x480C + suffix	RS232	-K612A1U	-K612A1TU	-K612A1TUL	View
TU800x480C + suffix	RS232 + RS485	-K611A1U	-K611A1TU	-K611A1TUL	View

Optical & Environmental Parameters

Screen Type

800x480 pixels - RGB Stripe - Pixel Pitch 0.19x0.19mm

Display Area

152x91mm - 7.0" diagonal

RGB Colours

262,144 (18 bit)

Display Type

Transmissive

Contrast Ratio

250:1

View Angle (typ)

60 degrees

Response Time

25ms @ 25C

Default Viewing Angle

6 o'clock (12 o'clock-Invert the PCB and set 180 degrees orientation in software)

Weight

261g including touch screen

Operating Temperature

-20C to +70C

Storage Temperature

-30C to +80C

Humidity

20% to 70% RH

Vibration

10-55-10Hz, all amplitude 1mm, 30Min., X-Y-Z (Non operating)

Shock

392m/s²(40G) 9mS X-Y-Z, 3 times each direction (Non operating)

Electrical Parameters

Parameter		Sym	Min	Typ	Max	Unit	Condition	Note
Supply Voltage		VCC	4.5	5	5.5	VDC	VSS=0V	Absolute Max 6.0VDC
Logic Supply Output		VDD	3.2	3.3	3.4	VDC	VCC=5V	Max50mA
Logic Input Voltage	"H"	VIH	-0.5	-	3.4 (1)	VDC	VCC=5V	/RES, K0-K24, SCK, /SS, HB, SIN, SCL,SDA
Logic Input Voltage	"L"	VIL	VSS	-	VSS+0.5	VDC	VSS=0V	/RES, K0-K24, SCK, /SS, HB, SIN, SCL,SDA
Logic Output Voltage	"H"	VOH	3.0	-	3.4	VDC	IOH=2mA VCC=5v	K0-K24, SDA, SCL, SOUT, MB
Logic Output Voltage	"L"	VOL	0	-	0.7	VDC	IOL=-2mA VCC=5V	K0-K24, SDA, SCL, SOUT, MB
"H" Level Logic Input Current		IIH	-	-	1.0	uADC	VCC=5.5V	/RES, K0-K24, SCK, /SS, SIN, SCL, SDA
"L" Level Logic Input Current		IIL	-	-	1.0	uADC	VCC=5.5V	/RES, K0-K24, SCK, /SS, SIN, SCL, SDA
RS232 Input Voltage	"H"	VIH	2	-	15	VDC	VCC=5V	RXD, CTS, DSR
RS232 Input Voltage	"L"	VIL	-15	-	VSS+0.5	VDC	VCC=5V	RXD, CTS, DSR
RS232 Output Voltage	"H"	VOH	4	7	-	VDC	3kΩ to GND VCC=5V	TXD, DTR, RTS
RS232 Output Voltage	"L"	VOL	-	-3	-2	VDC	3kΩ to GND VCC=5V	TXD, DTR, RTS
Power Supply Current 1		ICC1	580	620	650	mADC	VCC=5V	All dots on
Power Supply Current 2		ICC2	250	270	320	mADC	VCC=5V	LED Backlight Off
Power Supply Current 3		ICC3	50	60	70	mADC	VCC=5V	Reset LOW

Note (1) The voltage applied to logic signals must not exceed the rising VCC at power on as this could affect module initialisation

Connector Pin Assignment

CON

Function

Note

CN1

RS232 Port

DTR

TXD

CTS

RXD

RTS

DSR

GND

Fits 9 way IDC D type pin 1-9

RS232+RS485

T+

R-

TXD

CTS

RXD

RTS

R+

T-

GND

Available on -K611xxx

CN2

5V Power In / Piezo to GND

/PZ

Connect piezo negative

CN3

I2C Serial Mode

SCL

SDA

/IRQ

/RES

3v3 Logic (5v in option)

Asynchronous Serial Mode

/RES

3v3 Logic (5v in option)

Clock Serial / SPI Mode

SCK

/SS

MOSI

MISO

/IRQ

/RES

/IRQ flags read request to host

User I/O

K24

K25

K26

K27

K28

/RES

K29

K30

Additional I/O

CN4

Analogue In, PWN Audio

AN1

AN2

PW1

PW2

ATX

ARX

ACK

AFS

AC97 Audio Pins 7-10

User I/O

K16

K17

K18

K19

K20

K21

K22

K23

Additional I/O

NOTE: CN2 is the preferred power supply input and other supply connections used for powering peripherals

CON

Function

1/2

3/4

5/6

7/8

9/10

11/12

13/14

15/16

17/18

19/20

Note

CN5

USB/ SD Card Extension

DA2

CDA

DA0

CNX

SD Card Pins 1-10
USB Pins 11-16

DA3

3V3

DA1

CN7

8x8 Keyboard Matrix and user I/O Ports

3V3

K10

K12

K14

3V3 output max 50mA

K11

K13

K15

CN8

USB Connector

Standard Mini B can be omitted on user request. 5V power is then provided from the PC

CN9

SD Card Slot

Micro SD Card holder allows permanent installation for large storage

CON	Function	1	2	3	4	5	Note
CN12	AS2	TxDI (3V3lvl)	GND	RxDI (3V3lvl)	5V in	-	AS2 when RS422 not fitted
CN13	Analoque	GND	AD0	AD3	AD1/AD2	AD1/AD2	Analoque input when when resistive touch not fitted

5V pins are common un-fused input /outputs. 3V3 pins are outputs only with a total 50mA capacity. Do not connect pins '-' or NC
Half duplex uses connector CN1 pins 1 and 8.

Pin Numbering - The square pad always indicates Pin1

Jumper and Additional Connector Information

JMP/CON	Function	Note
BT1	Battery Connector	Apply solder bump to center pad before fitting holder. CR2032 battery positive up.
BATT1	RTC alternate power 3VDC	Apply right angle connector top side soldered.
BL	LED Backlight alternate supply	When the backlight is software disabled, 30VDC at 20mA can be applied by the user.
J4	RTS Jumper	Solder 1 and 2 for RTS.
J8	RS485 Half Duplex Jumper	Solder 1 and 2 for Full Duplex, Solder 2 and 3 for Half Duplex
J15	RTS+RS4/DTR Jumper	Solder 1 and 2 for RTS and RS485 if fitted, solder 2 and 3 for DTR when RS485 not fitted.
J16	CTS+RS4/DSR Jumper	Solder 1 and 2 for CTS and RS485 if fitted, solder 2 and 3 for DSR when RS485 not fitted.
xWP	Write protect jumpers	Solder to prevent data update of non volatile memory where fitted.N=Nand, EE=EEPROM.
J46	5V supply on Pin10 on CN1	Solder this jumper to connect the 5V supply to Pin 10 on CN 1

Note: RTS/CTS or DTR/DSR can be selected, not both. When RS485 fitted in model K611A1xx then only RTS/CTS are possible.

TU800x480C Hardware Changes
PCB	K612A1	K611A1	Hardware Changes	Image
PCB800480A Issue 1	v2	v1	1/ Ground Layer 3	View
PCB800480A Issue 2	v3	v2	1/ Added CN14 (serial diagnostics 3W) 2/ Ground still layer 3	View
PCB800480A Issue 3	v1	v3	1/ Ground layer 2 2/ USB tracking revised, increase decoupling capacitors on CPU 3/ Reset now removes 3V3 for better reset 4/ PCB has ability to build 10-24Vdc-dc on reverse side 5/ 3V3 / 5V option on CN3/CN4	View
PCB800480A Issue 4	v5	v5	1/ Gnd Layer 2 (4 Layer) 2/ PCA9306 buffer option on I2C & Async 3/ Series resistor on RS232 lines 4/ Additional decoupling capacitors for reduced Radio Frequency Interference	View
PCB800480A Issue 6	v6	v6	1/ New CN15 touch panel connector 2/ J36 change to 6W to add handshaking lines	View
PCB800480B Issue 1	v7	v7	1/ Major PCB layout change (similar to 480) 2/ 6 layer PCB 3/ Single LCD Connector for 800 & 640 4/ RC filters on I/O lines 5/ Conn for detached 24-5V dc-dc PSU 6/ Touch panel connectors 7/ Bigger battery 8/ Alternative BL inductor on back of PCB (income of interference with cap touch panel)	View
PCB800480B Issue 2	v8	v8	1/ Additional decoupling capacitors for improved EMC results 2/ Connector for direct connection to capacitive touch panel 3/ Chassis connection detached from 0V	View

When using it as an output voltage this can be selected as 5V or 3V3
During reset the 3V3 is pulled to 0V in order to reset the external peripherals
The top right chassis mounting holes are connected to the TFT frame via J20 as default. Cut to isolate.
The TFT frame is connected to 0V via J19 as default. Cut to isolate.