Displays: Difference between revisions
(21 intermediate revisions by 6 users not shown) | |||
Line 8: | Line 8: | ||
==Raptor Displays== | ==Raptor Displays== | ||
Most applications for displays require custom graphics, menus, and/or control capability. Writing custom display software in traditional programming languages like C, C++, or Java can amount to thousands of lines of code. Creating and debugging code in this manner can be time consuming, tedious, and labor intensive. | |||
New Eagle’s line of Raptor-compatible displays and complimentary Raptor-Dev software offer an alternative approach to the traditional programming languages: These displays allow developers to leverage the graphical programming environment of MATLAB Simulink to quickly and easily create, edit, and debug display software. But what exactly is Raptor-Dev software and how does it allow developers to create software in Simulink for displays? | |||
Raptor-Dev is a library of customizable Simulink blocks that allows developers to quickly create custom display software for Raptor-compatible displays. Developers work directly in the Simulink environment with Raptor-Dev blocks as well as native Simulink blocks and features. The Raptor-Dev library blocks include drawing functions (draw text, shapes, or display images), menu / button interaction definitions, pre-built gauges, and lots of other powerful tools that make display development easy and intuitive. Once a display application is ready for programming, code can be directly compiled from Simulink into an application file which can then be loaded onto the Raptor-compatible display though a USB stick. | |||
Raptor displays can be programmed not only to display information but also to act as stand-alone controllers for even complex electro-mechanical systems. This is possible because Raptor display programmers can leverage all of the native Simulink blocks and features to create any control logic necessary for their application. All Raptor displays are capable of interfacing with any CAN-based actuators or sensors. And the Raptor VeeCAN 800 and VeeCAN 320 in particular have a number of analog and frequency inputs and digital outputs, which make these displays ideal all-in-one display/controller solutions for a wide variety of applications. | |||
New Eagle’s line of Raptor-compatible displays and complimentary Raptor-Dev software offer an alternative approach to the traditional programming languages: These displays allow developers to leverage the graphical programming environment of MATLAB Simulink to quickly and easily create, edit, and debug display software. | New Eagle’s line of Raptor-compatible displays and complimentary Raptor-Dev software offer an alternative approach to the traditional programming languages: These displays allow developers to leverage the graphical programming environment of MATLAB Simulink to quickly and easily create, edit, and debug display software. | ||
Line 13: | Line 20: | ||
===Raptor VeeCAN 800=== | ===Raptor VeeCAN 800=== | ||
{{Raptor-VeeCAN-800}} | {{Raptor-VeeCAN-800}} | ||
===Raptor VeeCAN 700=== | |||
{{Raptor-VeeCAN-700}} | |||
===Raptor VeeCAN 500=== | |||
{{Raptor-VeeCAN-500}} | |||
===Raptor VeeCAN 320=== | ===Raptor VeeCAN 320=== | ||
Line 22: | Line 35: | ||
===Raptor VeeCAN 320 J1708 === | ===Raptor VeeCAN 320 J1708 === | ||
{{Raptor-VeeCAN-320-J1708}} | {{Raptor-VeeCAN-320-J1708}} | ||
===Raptor VeeCAN 128 === | |||
{{Raptor-VeeCAN-128}} | |||
==Standard Displays== | ==Standard Displays== | ||
Line 131: | Line 147: | ||
|style = "height:180px; width:180px;"| | |style = "height:180px; width:180px;"| | ||
'''[https://store.neweagle.net/product/veecan-320-display | '''[https://store.neweagle.net/product/veecan-320-raptor-display-low-profile/ Purchase]<br> | ||
|style = "height:180px; width:180px;"| | |style = "height:180px; width:180px;"| | ||
'''[[VeeCAN_Downloads|Datasheet]]''' | '''[[VeeCAN_Downloads|Datasheet]]''' | ||
Line 168: | Line 184: | ||
{| | {| | ||
|style = "width:850px;"| | |style = "width:850px;"| | ||
The VeeCAN 128 is a rugged display wielding a 2.3" monochrome display suitable for any environment. The VeeCAN 128 comes standard with 4 warning LED's, 4 tactile buttons, a 6 pin connector, CAN 2.0B and one USB 2.0. | The VeeCAN 128 is a rugged display wielding a 2.3" monochrome display suitable for any environment. The VeeCAN 128 comes standard with 4 warning LED's, 4 tactile buttons, a 6 pin connector, CAN 2.0B and one USB 2.0. The product comes with a J1939 engine monitor standard or is C programmable. | ||
{| class="wikitable" style="text-align: center;" cellpadding = "5" | {| class="wikitable" style="text-align: center;" cellpadding = "5" | ||
Line 185: | Line 201: | ||
|style = "height:180px; width:180px;"| | |style = "height:180px; width:180px;"| | ||
'''[https://store.neweagle.net/product/veecan-128-display | '''[https://store.neweagle.net/product/raptor-veecan-128-display/ Purchase]''' | ||
|style = "height:180px; width:180px;"| | |style = "height:180px; width:180px;"| | ||
'''[[VeeCAN_Downloads|Datasheet]]''' | '''[[VeeCAN_Downloads|Datasheet]]''' | ||
Line 294: | Line 310: | ||
==Special Application Displays== | ==Special Application Displays== | ||
===NMEA2000 Universal Engine Gateway | ===NMEA2000 Universal Engine Gateway Monitor (EGM)=== | ||
{| | {| | ||
|style = "width:850px;"| | |style = "width:850px;"| | ||
The NMEA2000 Universal Engine Gateway | The NMEA2000 Universal Engine Gateway Monitor (EGM) converts analog and J1939 CAN messages to NMEA 2000. This is a useful device for upgrading boats with older engines to the newer NMEA instrumentation options. It is a useful tool used for converting and displaying all types of engine information. This comes fully stocked with a day and night mode, waterproof casing, and a full 320 x 240 color display. | ||
{| class="wikitable" style="text-align: center;" cellpadding = "5" | {| class="wikitable" style="text-align: center;" cellpadding = "5" | ||
!scope="col"|Picture | !scope="col"|Picture | ||
Line 325: | Line 341: | ||
|} | |} | ||
=== | ===VeeCAN320 CAN Slave Display=== | ||
{| | {| | ||
|style = "width:850px;"| | |style = "width:850px;"| | ||
The VeeCAN 320 | The VeeCAN 320 CAN Slave display in conjunction with a custom MotoHawk library—allows developers to easily send data from a MotoHawk ECU to a pre-programmed display without having to create a custom display application using the C SDK. This product can also be made to work with a Raptor ECU and library. Contact Sales for Raptor based CAN slave display. | ||
{| class="wikitable" style="text-align: center;" cellpadding = "5" | {| class="wikitable" style="text-align: center;" cellpadding = "5" | ||
!scope="col"|Picture | !scope="col"|Picture | ||
Line 354: | Line 370: | ||
===KAntrak 1700 with MiniView Application=== | ===KAntrak 1700 with MiniView Application=== | ||
This rugged display unit is capable of operating in harsh marine and off-highway applications. Designed to operate as a CAN Slave receiving CAN signals to drive the display. CAN library is available upon request, and custom programming can be provided upon request. Custom bezels may also be ordered. | |||
{| class="wikitable" style="text-align: center;" cellpadding = "5" | {| class="wikitable" style="text-align: center;" cellpadding = "5" | ||
Line 382: | Line 398: | ||
===VeeCAN 128 with MiniView Application=== | ===VeeCAN 128 with MiniView Application=== | ||
The VeeCAN 128 is a rugged display wielding a 2.3" monochrome display suitable for any environment. The VeeCAN 128 comes standard with 4 warning LED's, 4 tactile buttons, a 6 pin connector, CAN 2.0B and one USB 2.0. | The VeeCAN 128 is a rugged display wielding a 2.3" monochrome display suitable for any environment. The VeeCAN 128 comes standard with 4 warning LED's, 4 tactile buttons, a 6 pin connector, CAN 2.0B and one USB 2.0. The "Miniview" application refers to a CAN slave display. The unit receives CAN messages and displays attributes on the screen. With MotoHawk, there is a block set to make CAN messages easy. This block set can be configured also for Raptor. | ||
{| class="wikitable" style="text-align: center;" cellpadding = "5" | {| class="wikitable" style="text-align: center;" cellpadding = "5" | ||
Line 396: | Line 412: | ||
|style = "height:180px; width:180px;"| | |style = "height:180px; width:180px;"| | ||
ASM-GAGE-005 | ASM-GAGE-005. this product is pre-release | ||
|style = "height:180px; width:180px;"| | |style = "height:180px; width:180px;"| | ||
Please contact [mailto:sales@neweagle.net sales] | |||
|style = "height:180px; width:180px;"| | |style = "height:180px; width:180px;"| | ||
'''[[Special_Application_Displays_Downloads#Downloads|Datasheet]]''' | '''[[Special_Application_Displays_Downloads#Downloads|Datasheet]]''' | ||
Line 615: | Line 631: | ||
|style = "height:180px; width:180px;"| | |style = "height:180px; width:180px;"| | ||
'''[https:// | '''[https://store.neweagle.net/product/gps-based-speedometer-add-120mph-4-cable-fast-receiver-and-connectors-white/ Purchase]'''<br> | ||
|style = "height:180px; width:180px;"| | |style = "height:180px; width:180px;"| | ||
'''[[GPS_Speedometer#Downloads|Datasheet]]''' | '''[[GPS_Speedometer#Downloads|Datasheet]]''' |
Revision as of 18:24, 21 July 2020
New Eagle offers a wide variety of displays that can meet the needs of practically any automotive, hydraulic, marine, or engine application. Whether your application demands a touchscreen display with custom graphics and data logging capability or you simply need to monitor generic engine parameters, New Eagle can provide a cost-effective display solution for your project. If your project does require a custom display, New Eagle can quickly develop custom software in-house or alternatively equip you with everything you need to begin developing custom display software yourself. Raptor DisplaysMost applications for displays require custom graphics, menus, and/or control capability. Writing custom display software in traditional programming languages like C, C++, or Java can amount to thousands of lines of code. Creating and debugging code in this manner can be time consuming, tedious, and labor intensive. New Eagle’s line of Raptor-compatible displays and complimentary Raptor-Dev software offer an alternative approach to the traditional programming languages: These displays allow developers to leverage the graphical programming environment of MATLAB Simulink to quickly and easily create, edit, and debug display software. But what exactly is Raptor-Dev software and how does it allow developers to create software in Simulink for displays? Raptor-Dev is a library of customizable Simulink blocks that allows developers to quickly create custom display software for Raptor-compatible displays. Developers work directly in the Simulink environment with Raptor-Dev blocks as well as native Simulink blocks and features. The Raptor-Dev library blocks include drawing functions (draw text, shapes, or display images), menu / button interaction definitions, pre-built gauges, and lots of other powerful tools that make display development easy and intuitive. Once a display application is ready for programming, code can be directly compiled from Simulink into an application file which can then be loaded onto the Raptor-compatible display though a USB stick. Raptor displays can be programmed not only to display information but also to act as stand-alone controllers for even complex electro-mechanical systems. This is possible because Raptor display programmers can leverage all of the native Simulink blocks and features to create any control logic necessary for their application. All Raptor displays are capable of interfacing with any CAN-based actuators or sensors. And the Raptor VeeCAN 800 and VeeCAN 320 in particular have a number of analog and frequency inputs and digital outputs, which make these displays ideal all-in-one display/controller solutions for a wide variety of applications. New Eagle’s line of Raptor-compatible displays and complimentary Raptor-Dev software offer an alternative approach to the traditional programming languages: These displays allow developers to leverage the graphical programming environment of MATLAB Simulink to quickly and easily create, edit, and debug display software. Raptor VeeCAN 800The VeeCAN 800 is a 7" fully waterproof resistive touchscreen display. It features a WVGA 800 x 480 TFT LCD color display and two USB ports (one rear and one front accessible). The VeeCAN 800 also supports 14 analog inputs, four digital inputs, eight outputs, two CAN connections, as well as an Ethernet connection.
Raptor VeeCAN 700The Raptor VeeCAN 700 is a 7-inch color display wrapped in a rugged, environmentally-sealed enclosure. The Raptor VeeCAN 700 has two CAN channels for monitoring, data logging or transmitting commands from the display over the CAN bus. In relatively simple applications with only CAN-based sensors and actuators, the Raptor VeeCAN 700 can even act as a low-cost, all-in-one display/controller solution.
Raptor VeeCAN 500The Raptor VeeCAN 500 is a 5-inch color display wrapped in a rugged, environmentally-sealed enclosure. The Raptor VeeCAN 500 has two CAN channels for monitoring, data logging or transmitting commands from the display over the CAN bus. In relatively simple applications with only CAN-based sensors and actuators, the Raptor VeeCAN 500 can even act as a low-cost, all-in-one display/controller solution.
Raptor VeeCAN 320The VeeCAN 320 display houses a 3.5" color display with seven analog inputs, three digital inputs, four outputs, two CAN connections and one USB 2.0. Perfect for use with data logging, diagnostics and a control module.
Raptor VeeCAN 320 LiteThe VeeCAN 320 Lite display houses a 3.5" color display with CAN and USB compatibility. Perfect for use as a data logger or a sensor module.
Raptor VeeCAN 320 J1708The VeeCAN 320 J1708 display houses a 3.5" color display with seven analog inputs, three digital inputs, four outputs, two CAN connections and one USB 2.0. Perfect for use with data logging, diagnostics and a control module. This version is J1708 compatible.
Raptor VeeCAN 128The VeeCAN 128 is a rugged display wielding a 2.3" monochrome display suitable for any environment. The VeeCAN 128 comes standard with four warning LEDs, four tactile buttons, a 6-pin connector, CAN 2.0B and one USB 2.0.
Standard DisplaysPre-programmed Generic Engine Monitoring Displays All of our standard displays (i.e. non-raptor) are available with pre-installed Generic Engine Monitoring (GEM) software. The GEM software allows the user to connect the display directly to a J1939 CANbus and monitor many different engine and vehicle parameters. A series of easy to use menu screens allow these displays to be configured to suit the individual application. Typical options include language and unit selection and various screen layouts to show parameter icons, bar-graphs and alphanumeric text. If you are using a Generic Engine Monitoring display in your application, purchase of an SDK is not necessary. C Programmable Displays Custom display software can also be developed in the C programming language for any of our displays. In order to write custom display software in C, a Software Development Kit (SDK) must be purchased in addition to the display itself. Additional Information Please log in to view the following section: VeeCAN 800
|