The AD5435 is a high-speed measurement and control system that can be customized for a wide variety of applications. It addresses various systems requirements by combining multiple I/O boards and a CPU employing RTLinux with excellent real-time performance through the medium of /SimulinkR control models and the GUI generating and experimentation support tool, VirtualConsole. MATLAB and Simulink are registered trademarks of The MathWorks, Inc.
After downloading compiled Simulink/Stateflow models onto the AD5435, it is possible to monitor and change parameters for operation, measurement, and control. The AD5435 has 14 programmable function keys and a touch-screen interface for stand-alone functionality, or it can be controlled via a Windows PC Ethernet connection and A&D's VirtualConsole software. It is also possible to connect, modify, and operate multiple AD5435s over a network for advanced applications requiring ultra-high processing power or for distributed control.






By downloading compiled MATLAB/Simulink models, it is possible to change parameters for measurement, control and operation with a stand-alone AD5435. You can use a single AD5435 as a controller on a routine basis, and it can also be connected to a PC for importing measurement data when necessary. You can also use it for other application depending on the situation, since it is possible to start models and change the operational parameters from a PC in the network.

User-Friendly GUI

d88.com尊龙appA&D has developed VirtualConsole as the graphical user interface (GUI) development and host software environment. Within VirtualConsole, the user can create GUIs with programmable functionality to meet specific application or experimentation needs. By simply selecting control components from a library on a host Windows PC, dragging and dropping them onto the screen, and connecting them to parameters from the Simulink model, the user can graphically create custom layouts and screens for the operation environment. The components can be further customized in function, color, texture, size, etc. all via simple menu-driven interfaces; no programming experience is required.

The operation of the AD5435's 14 function keys can also be custom programmed via VirtualConsole. The Designer screen shows the image of the main touch-screen panel including the function keys, and enables WYSIWYG configuration of display screens and the behavior of the specific keys based on the user's specific application.

VirtualConsole enables easy, user-friendly configuration of comprehensible operation and experimentation screens to enhance the user's and the AD5435's productivity by reducing many man-hours spent generating GUIs specific to custom needs.

Versatility and expandability

The AD5435 offers 7 slots for dedicated I/O boards that can be installed in various combinations to address specific measurement and control applications. Hardware configuration is straightforward and easy to do with A&D-provided S-functions. Users can drag and drop the S-function blocks directly into the Simulink model to control the behavior of the individual I/O boards.

Measurement, Simulation, and Control Applications

Whether it's high-speed, in-vehicle data measurement, ECU rapid prototyping, or HiL simulation, the AD5435 is well-suited to fulfill your real-time application needs. The performance and flexibility of the AD5435 has proven itself in the following applications and many more:

  • Test cell dynamometer control for engine-in-the-loop vehicle simulation
  • ECU bypass and fullpass rapid control prototyping for powertrain and chassis development
  • Motor control development
  • Transmission ECU software release checking
  • ABS hydraulic system durability testing
  • Body electronics wiring fault simulation and control
  • Robotics and servo-motor control
  • End-of-line engine quality checking
  • In-vehicle data measurement ("flight recording")
  • Wheel torque measurement
  • Competitive benchmarking for engine design and mapping





The A&D software concept

Development of A&D application software is carried out using the model based design concept. The framework is realized with a combination of tools from the MathWorks as the specification and code generation environment, with VirtualConsole supporting the real-time target implementation and execution. Real-time processing functions, control algorithms, simulation models, analysis functions, and system behavior are graphically created using block diagram model in Simulink (and/or Stateflow). This model is then automatically coded for the AD5435 target by Real-Time Workshop (and Stateflow Coder if necessary). With VirtualConsole, the code is compiled and downloaded seamlessly, and a user interface can be easily developed by arranging GUI components on the PC screen. Legacy applications as well as other tools can be linked effectively with new applications via the COM interface.

  • No coding necessary
  • Minimal user action for setup
  • Re-utilization of existing models
  • Re-utilization of GUIs
  • Re-utilization of Legacy Applications

AD5435 System Architecture

Measurement/Control System

In the measurement/control system field, demand for real-time performance, customization and easy maintenance has recently been increasing to a great extent. A&D provides Model Based Development Environment with superior visibility utilizing high-speed firmware, MATLAB/Simulink in order to offer total measurement/control systems with high control accuracy and high-speed response.

Simulation System

With measurement/control systems for development and evaluation, component tests should be done as precisely as possible before combination tests of a target product are implemented in the final stage. As one of the development methods, a method called HILS (Hardware In the Loop Simulation) is available. In this method, a targeted part is replaced with a real machine while the balance of the whole testing system is provided as a virtual model.

System Architecture

MATLAB/Simulink/Stateflow/Real Time Workshop
This is the framework of A&D-DSP. Simulink enables the development of control logics by arranging andconnecting functional blocks, and the functions, which are not in the standard library, can be integrated as a S-Function in the block diagram. The Stateflow is the expression of state transitions in a chart diagram format, and can be integrated in the Simulink block diagram.

d88.com尊龙appS-Function Block Set A&D offers special functional parts group, which are not available as standard functional blocks in the MATLAB/Simulink/Stateflow.

  • Special Real-time Calculation
  • Complied with ASAM
  • GUI Control, etc. for Platform RT-OS with Display
  • Special Post-processing Calculation
  • I/O Controller for A&D-DSP

Development Prcocess


Chassis 1.1x2.2 DIN size
Stand-alone type. Can be used both as a desktop and panel-mount.
Carrying Handle Standard equipment (removable)
I/O Slots 7 slots for AD5430 series I/O boards
CPU Control Control: CPU SH7750 (SH4) 200MHz
Simulation: CPU CeleronM 1.5GHz
SDRAM 128Mbyte
Compact Flash Memory 64Mbyte
Display 5.7-inch color TFT liquid crystal display (with backlight)
Operational Key Panel Touch panel (resistive type), function keys, LCD ON/OFF keys, power key
Peripherals Ethernet 10 BASE-T, FTP server function
Multi-node Function Optional box-to-box communication
Optional box-to-box synchronization
Power Supply AC (85-264V) or DC 9-18V or DC16-36V
Operating Temperature 5-40°C
Ambient Humidity 5-90%RH (non-condensing)
External Dimensions 318(W)×221(D)×168(H) mm
Weight 6.5kg (standard)

Option boards









  • AD5430-01 Universal A/D with Single-ended 16 Channels
  • AD5430-02A Universal D/A with Single-ended Voltage Output. 8 channels
  • AD5430-03 Digital I/O with 32 Insulated Photo Coupler Inputs and 32 Insulated Open Collector Outputs
  • AD5430-06 Auto I/O. CAN. PWM Input/Output
  • AD5430-07 Thermocouple Input (K, T, J)
  • AD5430-11 Six-axis Encoder Input
  • AD5430-12A Timing Detection
  • AD5430-13 PWM I/O
  • AD5430-17 Portable Network
  • AD5430-18 Vehicle PWM
  • AD5430-20 100 kHz, 8channel A/D
  • AD5430-71 AUD Interface









  • System Architecture