User Manual
Release 3.0


Chipsee Products Naming Rules
CS80480T050E-C151
CS80480T050P-C151 |
|
CS | Chipsee Product Abbreviate |
80 | Horizontal Resolution
80 Means 800 Pixel 10 Means 1024 Pixel 12 Means 1280 Pixel 14 Means 1440 Pixel 19 Means 1920 Pixel |
480 | Vertical Resolution
480 Means 480 Pixel 600 Means 600 Pixel 768 Means 768 Pixel 800 Means 800 Pixel 900 Means 900 Pixel 102 Means 1024 Pixel 108 Means 1080 Pixel |
T(F) | Product based on TI (Freescale) CPU |
050 | LCD Dimension
050 Means 5.0 Inch 070 Means 7.0 Inch 080 Means 8.0 Inch 097 Means 9.7 Inch 101 Means 10.1 Inch 104 Means 10.4 Inch 120 Means 12.0 Inch 150 Means 15.0 Inch 170 Means 17.0 Inch 190 Means 19.0 Inch 215 Means 21.5 Inch |
E | Means Embedded PC or Panel PC
E Means Embedded PC without Case P Means Panel PC with Case |
C | Means Touch Type
R Means Resistive Touch C Means Capacitive Touch |
1 | Means LCD Brightness
1 Means Common Brightness 2 Means High Brightness |
5 | PCB Version
Baseboard PCB Version Number |
1 | PCB Version
SOM Module PCB Version Number |
Hardware Features
Key Features: | |
CPU | AM3354ZCZ100,ARM Cortex A8, 1GHz |
RAM | 512MB DDR3 (Industrial) |
eMMC | 4GB |
Storage | TF card, supports up to 32GB SDHC |
Display | Dimension: 5Inch;
Resolution:800 x 480Pixel; |
Touch | Capacitive or Resistive Touch |
USB | 1 x USB 2.0 Host,1 USB OTG
(can be customized to 2 x Host) |
LAN | 1 Channel 100M LAN |
Audio | 3.5mm Audio In/Out Connector |
Buzzer | 1 |
RTC | Yes |
RS232 | 2 Channels |
RS485 | 2 Channels * |
CAN | 1 Channels * |
GPIO | 8 Channels |
WiFi/BT | USB WiFi, Optional |
3G/4G | None |
Power Input | 6~36V DC |
Current @ 12V | 400 mA max |
Power Consumption | 3.5W Typical |
Working Temperature | -20°C to +70°C |
OS | Android, Linux, Debian, Angstrom |
Dimension | CS80480T050E: 134.2*86.82*28mm mm
CS80480T050P: 150*110*26.5 mm |
Weight | CS80480T050E: 210g
CS80480T050P: 440g |
* The RS485 and CAN channels may be customized to the following arrangement:
2 x RS485, 1 x CAN (Default)
1 x RS485, 2 x CAN
CS80480T050E-C151

Figure 1 Top View (Android)

Figure 2 Back View
CS80480T050P-C151

Figure 3 Top View (Android)

Figure 4 Back View
Power Input Connector
The product CS80480T050E/CS80480T050P uses a wide range power input: DC6~36V. The total power consumption is normally about 3.5W. The Power Input Connector is 3 Pin 3.81mm Screw Terminal Connector as Figure 5 shows. It is labelled as P6 on PCB, and labelled as P3 on the metal case. The Character “+” means power Positive input, The Character “–” means power Negative input. The Character “G” means system Ground. Table 1 has detailed descriptions about the connector definition.

Figure 5 Power Input Connector
Table 1
Power Input Pin Definition: | ||
Pin Number | Definition | Description |
Pin 1 | Positive Input | Connect to DC Power Positive Terminal |
Pin 2 | Negative Input | Connect to DC Power Negative Terminal |
Pin 3 | Ground | Connect to Power System Ground |
ATTENTION:
The system ground “G” has been connected to power negative “-” on board.
Capacitive Touch
The product CS80480T050E/CS80480T050P uses ten-point capacitive touch, as Figure 6 shows.

Figure 6 Capacitive Touch Connector
ATTENTION:
Capacitive touch is very sensitive to power noise. Ripple voltage/current from the power adapter will cause the LCD ripples, and will also cause the capacitive touch malfunction: If you use the APK Multi-Touch under Android to test, you can find the touch point float. There are several ways to solve this problem:
1) Use a high quality power adapter. Or use battery to provide the power like cell phone or tablet PC.
2) If user power adapter isn’t be good enough, there’s another effective method to solve this problem: Make sure the CS80480T050E/CS80480T050P power input connector Pin 3 really connect to user “Power System Ground”. This method can eliminate the problem totally. User can also use another method to test this problem: touch the GND of CS80480T050E, CS80480T050P by one hand, the other hand operates on the capacitive touch screen. In this case, user’s body acts as the Power System Ground.
Resistive Touch
The product CS80480T050E/CS80480T050P can also use resistive touch, as Figure 7 shows.

Figure 7 Resistive Touch Connector
CAN+RS485+RS232 Connector
The CAN+RS485+RS232 connector is a 12 Pin 3.81mm Screw Terminal Connector, as Figure 8 shows. It is labelled as P16 on PCB. As for the definition of every pin, please refer to Table 2. The RS485 and CAN channels may be customized to the following arrangements. If you need any other setting different to the default setting, please contact us.
CAN+RS485+RS232 Settings:
2 x RS485, 1 x CAN (Default)
1 x RS485, 2 x CAN

Figure 6 CAN+RS485+RS232 Connector
Table 2
RS232 / RS485 / CAN Pin Definition: | ||
Pin Number | Definition | Description |
Pin 1 | GND | Isolated Ground Output |
Pin 2 | CAN_L | DCAN0 of CPU,CAN L Signal |
Pin 3 | CAN_H | DCAN0 of CPU,CAN H Signal |
Pin 4 | A2 | UART4 of CPU, RS485 A Signal |
Pin 5 | B2 | UART4 of CPU, RS485 B Signal |
Pin 6 | A1 | UART2 of CPU, RS485 A Signal |
Pin 7 | B1 | UART2 of CPU, RS485 B Signal |
Pin 8 | TXD2 | UART1 of CPU,RS232 TXD Signal |
Pin 9 | RXD2 | UART1 of CPU,RS232 RXD Signal |
Pin 10 | TXD1 | UART0 of CPU, RS232 TXD Signal |
Pin 11 | RXD1 | UART0 of CPU,RS232 RXD Signal |
Pin 12 | +5V | Isolated +5V Power Output, No more than 200mA Current output. |
USB HOST Connector
The product CS80480T050E/CS80480T050P has two USB connectors as Figure 9 shows. USB Host comes from the CPU USB1, labelled as P15 on the PCB. USB OTG comes from the CPU USB0, labelled as P14 on the PCB.

Figure 9 USB HOST Connector
PLEASE NOTE:
The OTG Connector is defined as HOST by default (If the customer uses Android OS, it is defined as OTG by default). If customer needs it work as OTG, please remove 0 Ohm Resistor R119 and R121 as Figure 9 shows.
LAN Connector
The product CS80480T050E/CS80480T050P has one channel 100Mbit Ethernet Connector, as Figure 10 shows. It is labelled as P13 on PCB.

Figure 10 LAN Connector
TF Card
The product CS80480T050E/CS80480T050P has one TF (uSD) card connector as Figure 11 shows. It is labelled as P5 on PCB. This device supports TF (uSD) card up to 32GB.

Figure 11 TF Card Connector
ATTENTION:
The TF card slot is NOT mounted with any TF card by default.
Audio Connector
The product CS80480T050E/CS80480T050P has one Audio Input (“Line-in”) and one Audio (“Line-out”) output, as Figure 12 shows.

Figure 12 Audio Connector
Boot Switch
The product CS80480T050E/CS80480T050P has a boot switch which can be used to change the boot sequence, as Figure 13 shows. It is defined as SW1 on the PCB. The position can either be SD or eMMC. The device will boot from the location selected.

Figure 13 Boot Switch
Expansion Connector
The product CS80480T050E/CS80480T050P has one Expansion Connector, as Figure 14 shows. This connector is labelled as P1 on the PCB, and it has connected to CPU GPIO/ADC/SPI/I2C signals. As for the definition of every Pin, please refer to Table 3.

Figure 14 Expansion Connector
Table 3
Expansion Connector Definition: | |||||
PIN | Function | CPU PIN | PIN | Function | CPU PIN |
1 | GND | Power Ground | 2 | VDD_5V0 | +5V Power |
3 | GND | Power Ground | 4 | VDD_3V3 | +3.3V Power |
5 | GPMC_A1 | V14 | 6 | GPMC_A3 | T14 |
7 | GPMC_A2 | U14 | 8 | GPMC_A5 | V15 |
9 | GPMC_A4 | R14 | 10 | GPMC_A7 | T15 |
11 | GPMC_A6 | U15 | 12 | GPMC_A8 | V16 |
13 | SPI0_D1 | B16 | 14 | SPI0_D0 | B17 |
15 | SPI0_CS0 | A16 | 16 | SPI0_CLK | A17 |
17 | AIN4 | C8 | 18 | AIN5 | B8 |
19 | AIN6 | A8 | 20 | AIN7 | C9 |
ATTENTION:
All these signals connect to CPU directly. Please use it carefully, or the CPU will be damaged easily.
Measurements and Mounting
Measurements and Mounting Method of CS80480T050E
The measurement of CS80480T050E is 134.2*86.82*28mm, as Figure 15 shows.
The product CS80480T050E can be mounted using the 4 screw holes on the PCB. Please make sure the display is not exposed to high pressure when mounting into an enclosure.
Figure 15 Dimension

Measurements and Mounting Method of CS80480T050P
The measurement of CS80480T050P is 150*110*26.5 mm. Please make sure the display is not exposed to high pressure when mounting into an enclosure.



Figure 16 Mounting Method
How to Get Support
Chipsee assumes no responsibility for any errors, which may appear in this manual. Furthermore, Chipsee reserves the right to alter the hardware, software, and/or specifications detailed herein at any time without notice, and does not make any commitment to update the information contained herein. Chipsee products are not authorized for use as critical components in life support devices or systems.