- General Specs
- Interface Pin Function
- Contour Drawing
- Other Specifications
- Display Usage
- Description
- GUI Builder
| Item | Dimension | Unit |
|---|---|---|
| Size (Diagonal) | 5 | inch |
| Dot Matrix / Resolution | 800× 3(RGB) × 480 | dots |
| LCD panel | 120.7(W)×75.8(H)×4.475 | mm |
| PCB | 132.7(W)×75.8(H)×1.6 | mm |
| Housing Outline | NA | mm |
| Module Dimension | 120.7(W) × 75.8(H) × 4.475 | mm |
| Active Area | 108(W) × 64.8 (H) | mm |
| Dot / Pixel Pitch | 0.135(W) × 0.135(H) | mm |
| LCD Type | TFT, Normally Black, Transmissive | |
| View Direction | 80/80/80/80 (IPS) | |
| Aspect Ratio | 16:9 | |
| Interface (System) | CAN bus differential ± 3.3 | |
| Protocol | CAN open | |
| Touch Panel | Projected Capacitive Touch Screen, PCAP | |
| Surface | Glare | |
| Brightness | 400 | cd/㎡ |
| Operating voltage | 5 | Vdc |
| Operating Temperature | -20~+70 | °C |
CN1 definition
| Pin | Symbol | Function | Remark |
|---|---|---|---|
| 1 | +5V | Power supply 5V input | Input |
| 2 | GND | Power supply GND input | Input |
| 3 | CAN_High | CAN bus D+ | I/O |
| 4 | CAN_Low | CAN bus D- | I/O |
| 5 | VDD_5V | 5V output for USART interface | Output |
| 6 | USART1_RX | USART RX interface | Reserve |
| 7 | USART1_TX | USART TX interface | Reserve |
| 8 | GND | GND for USART interface | Output |
| 9-16 | NC | Connection | - |
CN2 definition
| Pin | Symbol | Function | Remark |
|---|---|---|---|
| 1 | VMCU | 3.3V power for JTAG interface | Output |
| 2 | JTAG_SWCLK | CLK pin for JTAG interface | Input |
| 3 | GND | GND for JTAG interface | Output |
| 4 | JTAG_SWDIO | Data pin for JTAG interface | I/O |
| 5 | NRST | Reset pin for JTAG interface | Input |
| 6 | GND | GND | Output |
| 7-16 | NC | Connection | - |
Absolute Maximum Ratings
| Item | Symbol | Min | Typ | Max | Unit |
|---|---|---|---|---|---|
| Operating Temperature | TOP | -20 | - | +70 | ℃ |
| Storage Temperature | TST | -30 | - | +80 | ℃ |
Electrical Characteristics
Operating conditions
| Item | Symbol | Condition | Min | Typ | Max | Unit |
|---|---|---|---|---|---|---|
| Supply Voltage For Analog | VCI | - | 4.75 | 5 | 5.5 | V |
| Interface Operation Voltage | IOVCC | - | 3.234 | 3.30 | 3.367 | V |
| Supply LCM current | ICI(mA) | - | 320 | 350 | - | mA |
LED driving conditions
| Parameter | Symbol | Min. | Typ. | Max. | Unit |
|---|---|---|---|---|---|
| LED current | - | 1.0 | 1.5 | mA | |
| Power Consumption | - | - | 27 | mW | |
| LED voltage | VBL+ | - | - | 18 | V |
| LED Life Time | - | 50,000 | - | Hr |
Bom
| Item | Description |
|---|---|
| LCM | RFF500F-AYW-DNG |
| PCBA | 4 layer FR4, 1.6mm |
Functional description
Smart Display can be used to display the coordinate, status and data information provided by the connected HOST device. Customers can configure the position coordinates they want to display in normal operation mode.
The Display is designed to be easily connected to a controller network, and to operate with minimum setup or knowledge of the SDO configuration on the controllers.
Splash Screen
The default splash image is shown below.
This product is produced as a generic product. If you require a custom splash image for your application, contact us to discuss.
Default Selection
Press the preferred application and hold for 3 seconds for the first time power on.
Acquisition of Displayed Data
The Smart Display can acquire the data that it displays either using the CANopen SDO protocol, or using the CANopen PDO protocol.
On Pre-operational mode, customers can set the coordinates of objects through SDO; On operational mode, customers can send data of objects through PDO.
Configuring the Display
Raystar Smart Display CAN series offers an out-of-the-box CANopen development experience that will lower customers' development costs and speed time-to-market expectations.
The Smart Display can use wide-temperature are designed to support control applications in harsh operating conditions, which designed to be connected to a variety of different situation combinations, such as automotive, marine, power generation and oil-and-gas.
The Smart Display comes with standard UI objects to get customers project off the ground quickly. If customers need custom UI objects support, our engineers are here to help. Send over your contents in PNG/JPG format, we will send over a new set of UI objects within 3~5 working days.
The Smart Display is defined as a slave device, which is controlled by master device via CAN bus command to render display content on the display screen and return touch event data with protocol objects.
Example Screen Layout (Industry application)
Example Layout
The screen layout described in this section is intended to demonstrate the settings of screen items that can be used in an industry application situation.
Example Screen Layout (Vehicle automotive)
Example Layout
The screen layout described in this section is intended to demonstrate the settings of screen items that can be used in a vehicle automotive situation.
Example Screen Layout (Medical application)
Example Layout
The screen layout described in this section is intended to demonstrate the settings of screen items that can be used in a Medical application situation.
Advantages of using CANopen protocol for Smart Displays:
1. As CANopen is a universal protocol (ISO11898), you can plug and play on certain applications such as passenger vehicles, trucks, buses (gasoline vehicles and electric vehicles), etc.
2. The ISO 11898 standard specifies a data rate up to 1 Mbps, maximum CAN bus cable length of 40 m, maximum of 30 nodes. Compared with UART & USB, CAN transmission distance can go up to 40 meters. CAN physical layer is differential pair. It has strong anti-interference ability and good stability.
3. Graphical objects are customizable and can be saved in smart displays.
4. The HOST can control up to 30 Smart Displays and show different graphic objects simultaneously.
CAN Bus Display Applications:
1. Passenger vehicles, trucks, buses (gasoline vehicles and electric vehicles).
2. Agricultural equipment.
3. Electronic equipment for aviation and navigation.
4. Industrial automation and mechanical control.
5. Elevators, escalators.
6. Building automation.
7. Medical instruments and equipment.
1. Introduction of Raystar Smart Display GUI Builder
1-1 Dragging Widgets & preview function:
Users are able to design their screen appearance by dragging widgets on Raystar GUI Builder, and you also get a live preview of the changes. With the concept of "what you see is what you get", this function is time-saving for screen appearance design.
1-2 Simulator function:
There’s no need to purchase the hardware (Smart Display) to demonstrate the display effects and interactive behaviors. Users only need to use Raystar GUI Builder application software simulator to simulate the display effects and functions on the computer which greatly reduce costs and speed up project development.
1-3 Change or build GUI design on the client-side:
Instead of creating graphical objects through the Raystar engineering team, customers can replace or create GUI designs by themselves. But if customers have any other demands, we can also provide custom-design graphics objects.
1-4 How to get Raystar’s GUI Builder?
All you need is to contact us through our website or send inquiries to our sales email address. We'll provide it free of charge.
2.Smart Display GUI Builder introduction of operation and toolbar
2-1 The Start screen of Smart Display GUI Builder
2-2 The design page of Smart Display GUI Builder
2-3 Customization by Smart Display GUI Builder
2-4 Simulation by Smart Display GUI Builder
2-5 HW device update
2-6 The settings of installation
Install USB2CAN Driver:
*Execute stlink_winusb_install.bat (Please contact us to get the file)
Install Microsoft Visual C++ 2015-2019 Redistributable (x86)
*Execute VC_redist.x86.exe (Please contact us to get the file)
Install Smart Display GUI Builder
*Execute RaystarSmartDisplayGUIBuilderSetup_v0.1.5.msi (Please contact us to get the file)
*An icon of “Raystar SmartDisplay GUI Builder” will be shown after installing
